$ /nix/store/vzx1mi9c0xfadmsm9dhd83d005cb1qs9-coreutils-9.8/bin/timeout --kill-after=15s 7200s /nix/store/99b1z08awpxj8b6mzggn59gp1shljnff-nix-2.34.5/bin/nix --extra-experimental-features nix-command --extra-experimental-features flakes --log-format internal-json build --no-link git+https://github.com/NorfairKing/sydtest?ref=parallel-coverage-discovery&rev=79a0dec3d00444ba296a1fa0088fb483ef4cab6b#checks.x86_64-linux.mutation-really-safe-money --print-build-logs
warning: ignoring untrusted flake configuration setting 'extra-substituters'.
Pass '--accept-flake-config' to trust it
warning: ignoring untrusted flake configuration setting 'extra-trusted-public-keys'.
Pass '--accept-flake-config' to trust it

Downloading cached really-safe-money-gen-source from https://cache.staging.nix-ci.com
Downloading cached genvalidity-vector-1.0.0.0-doc from https://cache.staging.nix-ci.com
Downloading cached sydtest-mutation-plugin-0.0.0.0-doc from https://cache.staging.nix-ci.com
Downloading cached really-safe-money-autodocodec-source from https://cache.staging.nix-ci.com
Downloading cached really-safe-money-source from https://cache.staging.nix-ci.com
Building genvalidity-sydtest-source
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Downloading cached genvalidity-vector from https://cache.staging.nix-ci.com
Downloading cached sydtest-mutation-plugin from https://cache.staging.nix-ci.com
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Downloading cached really-safe-money from https://cache.staging.nix-ci.com
Waiting for lock on really-safe-money-0.0.0.0-manifest
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Building really-safe-money-autodocodec
[genvalidity-sydtest-source] Phase: setupCompilerEnvironmentPhase
[genvalidity-sydtest-source] Build with /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3.
[really-safe-money-autodocodec] Phase: setupCompilerEnvironmentPhase
[really-safe-money-autodocodec] Build with /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3.
[really-safe-money-autodocodec] Phase: unpackPhase
[really-safe-money-autodocodec] unpacking source archive /nix/store/1srrgbbc2iqbr13sdgqq1i47z94qrqf2-really-safe-money-autodocodec-source-0.0.0.0/really-safe-money-autodocodec-0.0.0.0.tar.gz
[really-safe-money-autodocodec] source root is really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] setting SOURCE_DATE_EPOCH to timestamp 1778620619 of file "really-safe-money-autodocodec-0.0.0.0/test/Spec.hs"
[really-safe-money-autodocodec] Phase: patchPhase
[really-safe-money-autodocodec] Phase: compileBuildDriverPhase
[really-safe-money-autodocodec] setupCompileFlags: -package-db=/build/tmp.NdRouJDogQ/setup-package.conf.d -threaded
[really-safe-money-autodocodec] [1 of 2] Compiling Main             ( Setup.hs, /build/tmp.NdRouJDogQ/Main.o )
[genvalidity-sydtest-source] Phase: unpackPhase
[really-safe-money-autodocodec] [2 of 2] Linking Setup
[genvalidity-sydtest-source] unpacking source archive /nix/store/dqdpwym3w17fcyylxh144v7wvc1c621z-genvalidity-sydtest
[genvalidity-sydtest-source] source root is genvalidity-sydtest
[genvalidity-sydtest-source] Phase: patchPhase
[genvalidity-sydtest-source] Phase: compileBuildDriverPhase
[genvalidity-sydtest-source] setupCompileFlags: -package-db=/build/tmp.dDWW7WBEZq/setup-package.conf.d -threaded
[genvalidity-sydtest-source] [1 of 2] Compiling Main             ( /nix/store/4mdp8nhyfddh7bllbi7xszz7k9955n79-Setup.hs, /build/tmp.dDWW7WBEZq/Main.o )
[genvalidity-sydtest-source] [2 of 2] Linking Setup
[really-safe-money-autodocodec] Phase: updateAutotoolsGnuConfigScriptsPhase
[really-safe-money-autodocodec] Phase: configurePhase
[really-safe-money-autodocodec] configureFlags: --verbose --prefix=/nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0 --libdir=$prefix/lib/$compiler/lib --libsubdir=$abi/$libname --with-gcc=gcc --package-db=/build/tmp.NdRouJDogQ/package.conf.d --ghc-option=-j16 --ghc-option=+RTS --ghc-option=-A64M --ghc-option=-RTS --enable-library-profiling --profiling-detail=exported-functions --disable-profiling --enable-shared --disable-coverage --disable-static --disable-executable-dynamic --disable-tests --enable-benchmarks --enable-library-vanilla --disable-library-for-ghci --enable-split-sections --enable-library-stripping --enable-executable-stripping --ghc-options=-O2 --ghc-options=-Wall --ghc-options=-Wincomplete-uni-patterns --ghc-options=-Wincomplete-record-updates --ghc-options=-Wpartial-fields --ghc-options=-Widentities --ghc-options=-Wredundant-constraints --ghc-options=-Wcpp-undef --ghc-options=-Werror --ghc-options=-fplugin-opt=Test.Syd.Mutation.Plugin:--debug --disable-optimization --ghc-option=-j1 --ghc-option=+RTS --ghc-option=-A32M --ghc-option=-M16g --ghc-option=-RTS --extra-lib-dirs=/nix/store/ffyzkisqs4vc4mg28bwwlyqjf8i9ph6b-ncurses-6.5/lib --extra-lib-dirs=/nix/store/n28qgdj8c1q41kf7n4y1jxa6ckp85m3c-libffi-3.5.2/lib --extra-lib-dirs=/nix/store/1b6h99dw7bk4wbn77kbalih42zbc67m1-elfutils-0.194/lib --extra-lib-dirs=/nix/store/hi0ar880110k6jsmmili7dh1gq3cg2a9-gmp-with-cxx-6.3.0/lib --extra-lib-dirs=/nix/store/g09cflpnp4g80q56sj9dng1qzv4v4ybc-numactl-2.0.18/lib --extra-lib-dirs=/nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/lib
[really-safe-money-autodocodec] Using Parsec parser
[really-safe-money-autodocodec] Configuring really-safe-money-autodocodec-0.0.0.0...
[genvalidity-sydtest-source] Phase: updateAutotoolsGnuConfigScriptsPhase
[genvalidity-sydtest-source] Phase: configurePhase
[genvalidity-sydtest-source] configureFlags: --verbose --prefix=/nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0 --libdir=$prefix/lib/$compiler/lib --libsubdir=$abi/$libname --docdir=/share/doc/genvalidity-sydtest-1.0.1.0 --with-gcc=gcc --package-db=/build/tmp.dDWW7WBEZq/package.conf.d --ghc-option=-j16 --ghc-option=+RTS --ghc-option=-A64M --ghc-option=-RTS --enable-library-profiling --profiling-detail=exported-functions --disable-profiling --enable-shared --disable-coverage --enable-static --disable-executable-dynamic --enable-tests --disable-benchmarks --enable-library-vanilla --disable-library-for-ghci --enable-split-sections --enable-library-stripping --enable-executable-stripping --ghc-option=-haddock --ghc-option=-Wall --ghc-option=-Werror --extra-lib-dirs=/nix/store/ffyzkisqs4vc4mg28bwwlyqjf8i9ph6b-ncurses-6.5/lib --extra-lib-dirs=/nix/store/n28qgdj8c1q41kf7n4y1jxa6ckp85m3c-libffi-3.5.2/lib --extra-lib-dirs=/nix/store/1b6h99dw7bk4wbn77kbalih42zbc67m1-elfutils-0.194/lib --extra-lib-dirs=/nix/store/hi0ar880110k6jsmmili7dh1gq3cg2a9-gmp-with-cxx-6.3.0/lib --extra-lib-dirs=/nix/store/g09cflpnp4g80q56sj9dng1qzv4v4ybc-numactl-2.0.18/lib
[genvalidity-sydtest-source] Using Parsec parser
[genvalidity-sydtest-source] Configuring genvalidity-sydtest-1.0.1.0...
[really-safe-money-autodocodec] Dependency autodocodec: using autodocodec-0.5.0.0
[really-safe-money-autodocodec] Dependency base >=4.7 && <5: using base-4.20.2.0
[really-safe-money-autodocodec] Dependency really-safe-money: using really-safe-money-0.0.0.0
[really-safe-money-autodocodec] Source component graph: component lib
[really-safe-money-autodocodec] Configured component graph:
[really-safe-money-autodocodec]     component really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk
[really-safe-money-autodocodec]         include autodocodec-0.5.0.0-1mMvp4WI6JDKv9IH8Klk8Y
[really-safe-money-autodocodec]         include base-4.20.2.0-64da
[really-safe-money-autodocodec]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-autodocodec] Linked component graph:
[really-safe-money-autodocodec]     unit really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk
[really-safe-money-autodocodec]         include autodocodec-0.5.0.0-1mMvp4WI6JDKv9IH8Klk8Y
[really-safe-money-autodocodec]         include base-4.20.2.0-64da
[really-safe-money-autodocodec]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-autodocodec]         Money.Account.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Money.Account.Codec,Money.AccountOf.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Money.AccountOf.Codec,Money.Amount.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Money.Amount.Codec,Money.AmountOf.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Money.AmountOf.Codec,Money.QuantisationFactor.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Money.QuantisationFactor.Codec,Numeric.DecimalLiteral.Codec=really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk:Numeric.DecimalLiteral.Codec
[really-safe-money-autodocodec] Ready component graph:
[really-safe-money-autodocodec]     definite really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk
[really-safe-money-autodocodec]         depends autodocodec-0.5.0.0-1mMvp4WI6JDKv9IH8Klk8Y
[really-safe-money-autodocodec]         depends base-4.20.2.0-64da
[really-safe-money-autodocodec]         depends really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-autodocodec] Using Cabal-3.12.1.0 compiled by ghc-9.10
[really-safe-money-autodocodec] Using compiler: ghc-9.10.3
[really-safe-money-autodocodec] Using install prefix:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] Executables installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/bin
[really-safe-money-autodocodec] Libraries installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk
[really-safe-money-autodocodec] Dynamic Libraries installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6
[really-safe-money-autodocodec] Private executables installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/libexec/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] Data files installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/share/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] Documentation installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/share/doc/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] Configuration files installed in:
[really-safe-money-autodocodec] /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/etc
[really-safe-money-autodocodec] No alex found
[really-safe-money-autodocodec] Using ar found on system at:
[really-safe-money-autodocodec] /nix/store/iz5lckcsg66r223si2gck7csk2hihj0m-binutils-wrapper-2.44/bin/ar
[really-safe-money-autodocodec] No c2hs found
[really-safe-money-autodocodec] No cpphs found
[really-safe-money-autodocodec] No doctest found
[really-safe-money-autodocodec] Using gcc version 14.3.0 given by user at:
[really-safe-money-autodocodec] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/gcc
[really-safe-money-autodocodec] Using ghc version 9.10.3 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc
[really-safe-money-autodocodec] Using ghc-pkg version 9.10.3 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc-pkg-9.10.3
[really-safe-money-autodocodec] No ghcjs found
[really-safe-money-autodocodec] No ghcjs-pkg found
[really-safe-money-autodocodec] No greencard found
[really-safe-money-autodocodec] Using haddock version 2.31.1 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/haddock-ghc-9.10.3
[really-safe-money-autodocodec] No happy found
[really-safe-money-autodocodec] Using haskell-suite found on system at: haskell-suite-dummy-location
[really-safe-money-autodocodec] Using haskell-suite-pkg found on system at: haskell-suite-pkg-dummy-location
[really-safe-money-autodocodec] No hmake found
[really-safe-money-autodocodec] Using hpc version 0.69 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hpc-ghc-9.10.3
[really-safe-money-autodocodec] Using hsc2hs version 0.68.10 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hsc2hs-ghc-9.10.3
[really-safe-money-autodocodec] Using hscolour version 1.25 found on system at:
[really-safe-money-autodocodec] /nix/store/f755skyzf4jvfx3crwq9mmh3x4lsaz8i-hscolour-1.25/bin/HsColour
[really-safe-money-autodocodec] No jhc found
[really-safe-money-autodocodec] Using ld found on system at:
[really-safe-money-autodocodec] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/ld
[really-safe-money-autodocodec] No pkg-config found
[really-safe-money-autodocodec] Using runghc version 9.10.3 found on system at:
[really-safe-money-autodocodec] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/runghc-9.10.3
[really-safe-money-autodocodec] Using strip version 2.44 found on system at:
[really-safe-money-autodocodec] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/strip
[really-safe-money-autodocodec] Using tar found on system at:
[really-safe-money-autodocodec] /nix/store/xl6pd2spjajwcpq09fnmnjv5psqmlmma-gnutar-1.35/bin/tar
[really-safe-money-autodocodec] No uhc found
[genvalidity-sydtest-source] Dependency QuickCheck: using QuickCheck-2.15.0.1
[genvalidity-sydtest-source] Dependency base >=4.7 && <5: using base-4.20.2.0
[genvalidity-sydtest-source] Dependency genvalidity >=1.0: using genvalidity-1.1.1.0
[genvalidity-sydtest-source] Dependency sydtest: using sydtest-0.23.0.2
[genvalidity-sydtest-source] Dependency QuickCheck: using QuickCheck-2.15.0.1
[genvalidity-sydtest-source] Dependency base >=4.7 && <5: using base-4.20.2.0
[genvalidity-sydtest-source] Dependency genvalidity: using genvalidity-1.1.1.0
[genvalidity-sydtest-source] Dependency genvalidity-sydtest: using genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest-source] Dependency sydtest: using sydtest-0.23.0.2
[genvalidity-sydtest-source] Source component graph:
[genvalidity-sydtest-source]     component lib
[genvalidity-sydtest-source]     component test:genvalidity-sydtest-test dependency lib
[genvalidity-sydtest-source] Configured component graph:
[genvalidity-sydtest-source]     component genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         include base-4.20.2.0-64da
[genvalidity-sydtest-source]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source]     component genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest-source]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         include base-4.20.2.0-64da
[genvalidity-sydtest-source]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source] Linked component graph:
[genvalidity-sydtest-source]     unit genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         include base-4.20.2.0-64da
[genvalidity-sydtest-source]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source]         Test.Syd.Validity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity,Test.Syd.Validity.Applicative=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Applicative,Test.Syd.Validity.Arbitrary=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Arbitrary,Test.Syd.Validity.Eq=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Eq,Test.Syd.Validity.Functions=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions,Test.Syd.Validity.Functions.CanFail=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.CanFail,Test.Syd.Validity.Functions.Equivalence=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Equivalence,Test.Syd.Validity.Functions.Idempotence=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Idempotence,Test.Syd.Validity.Functions.Inverse=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Inverse,Test.Syd.Validity.Functions.Validity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Validity,Test.Syd.Validity.Functor=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functor,Test.Syd.Validity.GenValidity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.GenValidity,Test.Syd.Validity.GenValidity.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.GenValidity.Property,Test.Syd.Validity.Monad=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Monad,Test.Syd.Validity.Monoid=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Monoid,Test.Syd.Validity.Operations=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations,Test.Syd.Validity.Operations.Associativity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Associativity,Test.Syd.Validity.Operations.Commutativity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Commutativity,Test.Syd.Validity.Operations.Identity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Identity,Test.Syd.Validity.Ord=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Ord,Test.Syd.Validity.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Property,Test.Syd.Validity.Property.Utils=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Property.Utils,Test.Syd.Validity.Relations=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations,Test.Syd.Validity.Relations.Antireflexivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Antireflexivity,Test.Syd.Validity.Relations.Antisymmetry=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Antisymmetry,Test.Syd.Validity.Relations.Reflexivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Reflexivity,Test.Syd.Validity.Relations.Symmetry=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Symmetry,Test.Syd.Validity.Relations.Transitivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Transitivity,Test.Syd.Validity.Show=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Show,Test.Syd.Validity.Shrinking=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Shrinking,Test.Syd.Validity.Shrinking.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Shrinking.Property,Test.Syd.Validity.Types=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Types,Test.Syd.Validity.Utils=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Utils
[genvalidity-sydtest-source]     unit genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest-source]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         include base-4.20.2.0-64da
[genvalidity-sydtest-source]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source] Ready component graph:
[genvalidity-sydtest-source]     definite genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         depends QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         depends base-4.20.2.0-64da
[genvalidity-sydtest-source]         depends genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         depends sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source]     definite genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest-source]         depends QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest-source]         depends base-4.20.2.0-64da
[genvalidity-sydtest-source]         depends genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest-source]         depends genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source]         depends sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest-source] Using Cabal-3.12.1.0 compiled by ghc-9.10
[genvalidity-sydtest-source] Using compiler: ghc-9.10.3
[genvalidity-sydtest-source] Using install prefix:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0
[genvalidity-sydtest-source] Executables installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/bin
[genvalidity-sydtest-source] Libraries installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest-source] Dynamic Libraries installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6
[genvalidity-sydtest-source] Private executables installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/libexec/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest-source] Data files installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/share/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest-source] Documentation installed in: /share/doc/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest-source] Configuration files installed in:
[genvalidity-sydtest-source] /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/etc
[genvalidity-sydtest-source] No alex found
[genvalidity-sydtest-source] Using ar found on system at:
[genvalidity-sydtest-source] /nix/store/iz5lckcsg66r223si2gck7csk2hihj0m-binutils-wrapper-2.44/bin/ar
[genvalidity-sydtest-source] No c2hs found
[genvalidity-sydtest-source] No cpphs found
[genvalidity-sydtest-source] No doctest found
[genvalidity-sydtest-source] Using gcc version 14.3.0 given by user at:
[genvalidity-sydtest-source] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/gcc
[genvalidity-sydtest-source] Using ghc version 9.10.3 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc
[genvalidity-sydtest-source] Using ghc-pkg version 9.10.3 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc-pkg-9.10.3
[genvalidity-sydtest-source] No ghcjs found
[genvalidity-sydtest-source] No ghcjs-pkg found
[genvalidity-sydtest-source] No greencard found
[genvalidity-sydtest-source] Using haddock version 2.31.1 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/haddock-ghc-9.10.3
[genvalidity-sydtest-source] No happy found
[genvalidity-sydtest-source] Using haskell-suite found on system at: haskell-suite-dummy-location
[genvalidity-sydtest-source] Using haskell-suite-pkg found on system at: haskell-suite-pkg-dummy-location
[genvalidity-sydtest-source] No hmake found
[genvalidity-sydtest-source] Using hpc version 0.69 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hpc-ghc-9.10.3
[genvalidity-sydtest-source] Using hsc2hs version 0.68.10 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hsc2hs-ghc-9.10.3
[genvalidity-sydtest-source] Using hscolour version 1.25 found on system at:
[genvalidity-sydtest-source] /nix/store/f755skyzf4jvfx3crwq9mmh3x4lsaz8i-hscolour-1.25/bin/HsColour
[genvalidity-sydtest-source] No jhc found
[genvalidity-sydtest-source] Using ld found on system at:
[genvalidity-sydtest-source] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/ld
[genvalidity-sydtest-source] No pkg-config found
[genvalidity-sydtest-source] Using runghc version 9.10.3 found on system at:
[genvalidity-sydtest-source] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/runghc-9.10.3
[genvalidity-sydtest-source] Using strip version 2.44 found on system at:
[genvalidity-sydtest-source] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/strip
[genvalidity-sydtest-source] Using tar found on system at:
[genvalidity-sydtest-source] /nix/store/xl6pd2spjajwcpq09fnmnjv5psqmlmma-gnutar-1.35/bin/tar
[genvalidity-sydtest-source] No uhc found
[really-safe-money-autodocodec] Phase: buildPhase
[really-safe-money-autodocodec] mutation-nix: setting MUTATION_MANIFEST_DIR=/nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest
[really-safe-money-autodocodec] Preprocessing library for really-safe-money-autodocodec-0.0.0.0...
[really-safe-money-autodocodec] Building library for really-safe-money-autodocodec-0.0.0.0...
[really-safe-money-autodocodec] [1 of 7] Compiling Money.Account.Codec ( src/Money/Account/Codec.hs, dist/build/Money/Account/Codec.o, dist/build/Money/Account/Codec.dyn_o )
[genvalidity-sydtest-source] Phase: buildPhase
[really-safe-money-autodocodec] mutation: instrumenting Money.Account.Codec
[really-safe-money-autodocodec] mutation: recording Money.Account.Codec/ListLit at 51:33-76
[really-safe-money-autodocodec] mutation: recording Money.Account.Codec/ListLit at 51:33-76
[genvalidity-sydtest-source] Distribution quality warnings:
[genvalidity-sydtest-source] [no-description] No 'description' field.
[genvalidity-sydtest-source] [missing-upper-bounds] On library, these packages miss upper bounds:
[genvalidity-sydtest-source] - QuickCheck
[genvalidity-sydtest-source] - genvalidity
[genvalidity-sydtest-source] - sydtest
[genvalidity-sydtest-source] Please add them. There is more information at https://pvp.haskell.org/
[genvalidity-sydtest-source] Building source dist for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest-source] Source tarball created: dist/genvalidity-sydtest-1.0.1.0.tar.gz
[genvalidity-sydtest-source] Phase: checkPhase
[genvalidity-sydtest-source] Phase: haddockPhase
[genvalidity-sydtest-source] Phase: installPhase
[genvalidity-sydtest-source] Phase: fixupPhase
[post-build-hook] Uploading to cachix cache "sydtest": /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0
[post-build-hook] Pushing 1 paths (0 are already present) using zstd to cache sydtest ⏳
[post-build-hook] 
[post-build-hook] Pushing /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0 (18.23 KiB)
[post-build-hook] 
[post-build-hook] All done.
[post-build-hook] Uploading to the NixCI staging cache: /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/y7dmgzd1lq3pm84dh78sq3zn32yr2a0g-genvalidity-sydtest-source-1.0.1.0.drv' to 'https://cache.staging.nix-ci.com'...
Progress: 1 of 6 built (1 building), 8 of 8 downloaded from cache
Building genvalidity-sydtest
[really-safe-money-autodocodec] [2 of 7] Compiling Money.AccountOf.Codec ( src/Money/AccountOf/Codec.hs, dist/build/Money/AccountOf/Codec.o, dist/build/Money/AccountOf/Codec.dyn_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.AccountOf.Codec
[really-safe-money-autodocodec] [3 of 7] Compiling Money.Amount.Codec ( src/Money/Amount/Codec.hs, dist/build/Money/Amount/Codec.o, dist/build/Money/Amount/Codec.dyn_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.Amount.Codec
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 47:33-75
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 47:33-75
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/Negate at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 50:31-84
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 50:31-84
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/Negate at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 53:35-90
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 53:35-90
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/CondFlip at 52:13-86
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/CondFlip at 49:9-86
[really-safe-money-autodocodec] [4 of 7] Compiling Money.AmountOf.Codec ( src/Money/AmountOf/Codec.hs, dist/build/Money/AmountOf/Codec.o, dist/build/Money/AmountOf/Codec.dyn_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.AmountOf.Codec
[really-safe-money-autodocodec] [5 of 7] Compiling Money.QuantisationFactor.Codec ( src/Money/QuantisationFactor/Codec.hs, dist/build/Money/QuantisationFactor/Codec.o, dist/build/Money/QuantisationFactor/Codec.dyn_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.QuantisationFactor.Codec
[really-safe-money-autodocodec] [6 of 7] Compiling Numeric.DecimalLiteral.Codec ( src/Numeric/DecimalLiteral/Codec.hs, dist/build/Numeric/DecimalLiteral/Codec.o, dist/build/Numeric/DecimalLiteral/Codec.dyn_o )
[really-safe-money-autodocodec] mutation: instrumenting Numeric.DecimalLiteral.Codec
[really-safe-money-autodocodec] mutation: recording Numeric.DecimalLiteral.Codec/ListLit at 40:33-82
[really-safe-money-autodocodec] mutation: recording Numeric.DecimalLiteral.Codec/ListLit at 40:33-82
[really-safe-money-autodocodec] [7 of 7] Compiling Paths_really_safe_money_autodocodec ( dist/build/autogen/Paths_really_safe_money_autodocodec.hs, dist/build/Paths_really_safe_money_autodocodec.o, dist/build/Paths_really_safe_money_autodocodec.dyn_o )
[really-safe-money-autodocodec] [1 of 7] Compiling Money.Account.Codec ( src/Money/Account/Codec.hs, dist/build/Money/Account/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.Account.Codec
[really-safe-money-autodocodec] mutation: recording Money.Account.Codec/ListLit at 51:33-76
[really-safe-money-autodocodec] mutation: recording Money.Account.Codec/ListLit at 51:33-76
[really-safe-money-autodocodec] [2 of 7] Compiling Money.AccountOf.Codec ( src/Money/AccountOf/Codec.hs, dist/build/Money/AccountOf/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.AccountOf.Codec
[really-safe-money-autodocodec] [3 of 7] Compiling Money.Amount.Codec ( src/Money/Amount/Codec.hs, dist/build/Money/Amount/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.Amount.Codec
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 47:33-75
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 47:33-75
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/Negate at 49:12-59
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 50:31-84
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 50:31-84
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ConstBool at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/Negate at 52:16-63
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 53:35-90
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/ListLit at 53:35-90
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/CondFlip at 52:13-86
[really-safe-money-autodocodec] mutation: recording Money.Amount.Codec/CondFlip at 49:9-86
[really-safe-money-autodocodec] [4 of 7] Compiling Money.AmountOf.Codec ( src/Money/AmountOf/Codec.hs, dist/build/Money/AmountOf/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.AmountOf.Codec
[really-safe-money-autodocodec] [5 of 7] Compiling Money.QuantisationFactor.Codec ( src/Money/QuantisationFactor/Codec.hs, dist/build/Money/QuantisationFactor/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Money.QuantisationFactor.Codec
Building really-safe-money
[really-safe-money-autodocodec] [6 of 7] Compiling Numeric.DecimalLiteral.Codec ( src/Numeric/DecimalLiteral/Codec.hs, dist/build/Numeric/DecimalLiteral/Codec.p_o )
[really-safe-money-autodocodec] mutation: instrumenting Numeric.DecimalLiteral.Codec
[really-safe-money-autodocodec] mutation: recording Numeric.DecimalLiteral.Codec/ListLit at 40:33-82
[really-safe-money-autodocodec] mutation: recording Numeric.DecimalLiteral.Codec/ListLit at 40:33-82
[really-safe-money-autodocodec] [7 of 7] Compiling Paths_really_safe_money_autodocodec ( dist/build/autogen/Paths_really_safe_money_autodocodec.hs, dist/build/Paths_really_safe_money_autodocodec.p_o )
[really-safe-money] Phase: setupCompilerEnvironmentPhase
[really-safe-money] Build with /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3.
[genvalidity-sydtest] Phase: setupCompilerEnvironmentPhase
[genvalidity-sydtest] Build with /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3.
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Money/Account/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Money/AccountOf/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Money/Amount/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Money/AmountOf/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Money/QuantisationFactor/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Numeric/DecimalLiteral/Codec.dyn_o'
[really-safe-money-autodocodec] Warning: ignoring unrecognised input `dist/build/Paths_really_safe_money_autodocodec.dyn_o'
[really-safe-money] Phase: unpackPhase
[really-safe-money] unpacking source archive /nix/store/pxkha6z3d3bjfgkdar4ma3wx2c1f8pmm-really-safe-money-source-0.0.0.0/really-safe-money-0.0.0.0.tar.gz
[really-safe-money] source root is really-safe-money-0.0.0.0
[really-safe-money] setting SOURCE_DATE_EPOCH to timestamp 1778358092 of file "really-safe-money-0.0.0.0/src/Numeric/DecimalLiteral.hs"
[really-safe-money] Phase: patchPhase
[really-safe-money] Phase: compileBuildDriverPhase
[really-safe-money] setupCompileFlags: -package-db=/build/tmp.X7Bw0rIyHa/setup-package.conf.d -threaded
[really-safe-money] [1 of 2] Compiling Main             ( Setup.hs, /build/tmp.X7Bw0rIyHa/Main.o )
[really-safe-money] [2 of 2] Linking Setup
[genvalidity-sydtest] Phase: unpackPhase
[genvalidity-sydtest] unpacking source archive /nix/store/ydlw2a7lpdv928ai6dlh28q4qb1059jn-genvalidity-sydtest-source-1.0.1.0/genvalidity-sydtest-1.0.1.0.tar.gz
[genvalidity-sydtest] source root is genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] setting SOURCE_DATE_EPOCH to timestamp 1778666387 of file "genvalidity-sydtest-1.0.1.0/test/Test/Syd/Validity/ShrinkingSpec.hs"
[genvalidity-sydtest] warning: file "genvalidity-sydtest-1.0.1.0/test/Test/Syd/Validity/ShrinkingSpec.hs" may be generated; SOURCE_DATE_EPOCH may be non-deterministic
[genvalidity-sydtest] Phase: patchPhase
[genvalidity-sydtest] Phase: compileBuildDriverPhase
[genvalidity-sydtest] setupCompileFlags: -package-db=/build/tmp.AcNT2VnVfD/setup-package.conf.d -threaded
[genvalidity-sydtest] [1 of 2] Compiling Main             ( Setup.hs, /build/tmp.AcNT2VnVfD/Main.o )
[genvalidity-sydtest] [2 of 2] Linking Setup
[really-safe-money-autodocodec] mutation-nix: manifest output at /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest:
[really-safe-money-autodocodec] total 60
[really-safe-money-autodocodec] drwxr-xr-x   2 nixbld nixbld  4096 May 13 09:59 .
[really-safe-money-autodocodec] drwxrwxr-t 239 nobody nixbld 24576 May 13 09:59 ..
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld  1383 May 13 09:59 Money.Account.Codec.json
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld     2 May 13 09:59 Money.AccountOf.Codec.json
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld 10633 May 13 09:59 Money.Amount.Codec.json
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld     2 May 13 09:59 Money.AmountOf.Codec.json
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld     2 May 13 09:59 Money.QuantisationFactor.Codec.json
[really-safe-money-autodocodec] -rw-r--r--   1 nixbld nixbld  1279 May 13 09:59 Numeric.DecimalLiteral.Codec.json
[really-safe-money-autodocodec] Phase: haddockPhase
[really-safe-money-autodocodec] Phase: installPhase
[really-safe-money-autodocodec] Installing library in /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk
[really-safe-money-autodocodec] Phase: fixupPhase
[really-safe-money-autodocodec] shrinking RPATHs of ELF executables and libraries in /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] shrinking /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/libHSreally-safe-money-autodocodec-0.0.0.0-6uQz3PYxbwUCTmvro4lDZk-ghc9.10.3.so
[really-safe-money-autodocodec] checking for references to /build/ in /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0...
[really-safe-money-autodocodec] patching script interpreter paths in /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0
[really-safe-money-autodocodec] stripping (with command strip and flags -S -p) in  /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0/lib
[really-safe-money-autodocodec] shrinking RPATHs of ELF executables and libraries in /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest
[really-safe-money-autodocodec] checking for references to /build/ in /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest...
[really-safe-money-autodocodec] patching script interpreter paths in /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest
[post-build-hook] Uploading to cachix cache "sydtest": /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0 /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest
[post-build-hook] Pushing 3 paths (195 are already present) using zstd to cache sydtest ⏳
[post-build-hook] 
[post-build-hook] Pushing /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest (14.33 KiB)
[post-build-hook] Pushing /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0 (11.19 MiB)
[post-build-hook] Pushing /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0 (1.29 MiB)
[post-build-hook] 
[post-build-hook] All done.
[post-build-hook] Uploading to the NixCI staging cache: /nix/store/2ka8yjmi7q117r5lqix5jk23z996ws7a-really-safe-money-autodocodec-0.0.0.0 /nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/s9m0jw9z271i7scnw7646i45l8qn0bhb-really-safe-money-autodocodec-0.0.0.0-manifest' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 0 paths...
Progress: 2 of 6 built (2 building), 8 of 8 downloaded from cache
[genvalidity-sydtest] Phase: updateAutotoolsGnuConfigScriptsPhase
[genvalidity-sydtest] Phase: configurePhase
[genvalidity-sydtest] configureFlags: --verbose --prefix=/nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0 --libdir=$prefix/lib/$compiler/lib --libsubdir=$abi/$libname --docdir=/nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc/share/doc/genvalidity-sydtest-1.0.1.0 --with-gcc=gcc --package-db=/build/tmp.AcNT2VnVfD/package.conf.d --ghc-option=-j16 --ghc-option=+RTS --ghc-option=-A64M --ghc-option=-RTS --enable-library-profiling --profiling-detail=exported-functions --disable-profiling --enable-shared --disable-coverage --enable-static --disable-executable-dynamic --enable-tests --enable-benchmarks --enable-library-vanilla --disable-library-for-ghci --enable-split-sections --enable-library-stripping --enable-executable-stripping --ghc-option=-haddock --ghc-option=-Wall --ghc-option=-Werror --extra-lib-dirs=/nix/store/ffyzkisqs4vc4mg28bwwlyqjf8i9ph6b-ncurses-6.5/lib --extra-lib-dirs=/nix/store/n28qgdj8c1q41kf7n4y1jxa6ckp85m3c-libffi-3.5.2/lib --extra-lib-dirs=/nix/store/1b6h99dw7bk4wbn77kbalih42zbc67m1-elfutils-0.194/lib --extra-lib-dirs=/nix/store/hi0ar880110k6jsmmili7dh1gq3cg2a9-gmp-with-cxx-6.3.0/lib --extra-lib-dirs=/nix/store/g09cflpnp4g80q56sj9dng1qzv4v4ybc-numactl-2.0.18/lib
[genvalidity-sydtest] Using Parsec parser
[genvalidity-sydtest] Configuring genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Dependency QuickCheck: using QuickCheck-2.15.0.1
[genvalidity-sydtest] Dependency base >=4.7 && <5: using base-4.20.2.0
[genvalidity-sydtest] Dependency genvalidity >=1.0: using genvalidity-1.1.1.0
[genvalidity-sydtest] Dependency sydtest: using sydtest-0.23.0.2
[genvalidity-sydtest] Dependency QuickCheck: using QuickCheck-2.15.0.1
[genvalidity-sydtest] Dependency base >=4.7 && <5: using base-4.20.2.0
[genvalidity-sydtest] Dependency genvalidity: using genvalidity-1.1.1.0
[genvalidity-sydtest] Dependency genvalidity-sydtest: using genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] Dependency sydtest: using sydtest-0.23.0.2
[genvalidity-sydtest] Source component graph:
[genvalidity-sydtest]     component lib
[genvalidity-sydtest]     component test:genvalidity-sydtest-test dependency lib
[genvalidity-sydtest] Configured component graph:
[genvalidity-sydtest]     component genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         include base-4.20.2.0-64da
[genvalidity-sydtest]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest]     component genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         include base-4.20.2.0-64da
[genvalidity-sydtest]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest] Linked component graph:
[genvalidity-sydtest]     unit genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         include base-4.20.2.0-64da
[genvalidity-sydtest]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[really-safe-money] Phase: updateAutotoolsGnuConfigScriptsPhase
[really-safe-money] Phase: configurePhase
[really-safe-money] configureFlags: --verbose --prefix=/nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0 --libdir=$prefix/lib/$compiler/lib --libsubdir=$abi/$libname --with-gcc=gcc --package-db=/build/tmp.X7Bw0rIyHa/package.conf.d --ghc-option=-j16 --ghc-option=+RTS --ghc-option=-A64M --ghc-option=-RTS --enable-library-profiling --profiling-detail=exported-functions --disable-profiling --enable-shared --disable-coverage --disable-static --disable-executable-dynamic --disable-tests --enable-benchmarks --enable-library-vanilla --disable-library-for-ghci --enable-split-sections --enable-library-stripping --enable-executable-stripping --ghc-options=-O2 --ghc-options=-Wall --ghc-options=-Wincomplete-uni-patterns --ghc-options=-Wincomplete-record-updates --ghc-options=-Wpartial-fields --ghc-options=-Widentities --ghc-options=-Wredundant-constraints --ghc-options=-Wcpp-undef --ghc-options=-Werror --ghc-options=-fplugin-opt=Test.Syd.Mutation.Plugin:--debug --disable-optimization --ghc-option=-j1 --ghc-option=+RTS --ghc-option=-A32M --ghc-option=-M16g --ghc-option=-RTS --extra-lib-dirs=/nix/store/ffyzkisqs4vc4mg28bwwlyqjf8i9ph6b-ncurses-6.5/lib --extra-lib-dirs=/nix/store/n28qgdj8c1q41kf7n4y1jxa6ckp85m3c-libffi-3.5.2/lib --extra-lib-dirs=/nix/store/1b6h99dw7bk4wbn77kbalih42zbc67m1-elfutils-0.194/lib --extra-lib-dirs=/nix/store/hi0ar880110k6jsmmili7dh1gq3cg2a9-gmp-with-cxx-6.3.0/lib --extra-lib-dirs=/nix/store/g09cflpnp4g80q56sj9dng1qzv4v4ybc-numactl-2.0.18/lib --extra-lib-dirs=/nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/lib
[really-safe-money] Using Parsec parser
[really-safe-money] Configuring really-safe-money-0.0.0.0...
[really-safe-money] Dependency base >=4.7 && <5: using base-4.20.2.0
[really-safe-money] Dependency containers: using containers-0.7
[really-safe-money] Dependency deepseq: using deepseq-1.5.0.0
[really-safe-money] Dependency validity: using validity-0.12.1.0
[really-safe-money] Dependency validity-containers: using validity-containers-0.5.0.5
[really-safe-money] Dependency validity-scientific: using validity-scientific-0.2.0.3
[really-safe-money] Source component graph: component lib
[really-safe-money] Configured component graph:
[really-safe-money]     component really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money]         include base-4.20.2.0-64da
[really-safe-money]         include containers-0.7-504a
[really-safe-money]         include deepseq-1.5.0.0-9a2c
[really-safe-money]         include validity-0.12.1.0-2vJMqyxn6Ae2B1jlP90HgP
[really-safe-money]         include validity-containers-0.5.0.5-JMisIHg6jT0HAhS7h7vTA4
[really-safe-money]         include validity-scientific-0.2.0.3-6oQtdkDOQFR80MBRT1UQ1R
[really-safe-money] Linked component graph:
[really-safe-money]     unit really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money]         include base-4.20.2.0-64da
[really-safe-money]         include containers-0.7-504a
[really-safe-money]         include deepseq-1.5.0.0-9a2c
[really-safe-money]         include validity-0.12.1.0-2vJMqyxn6Ae2B1jlP90HgP
[really-safe-money]         include validity-containers-0.5.0.5-JMisIHg6jT0HAhS7h7vTA4
[really-safe-money]         include validity-scientific-0.2.0.3-6oQtdkDOQFR80MBRT1UQ1R
[really-safe-money]         Money.Account=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.Account,Money.AccountOf=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.AccountOf,Money.Amount=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.Amount,Money.AmountOf=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.AmountOf,Money.ConversionRate=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.ConversionRate,Money.ConversionRateOf=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.ConversionRateOf,Money.Currency=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.Currency,Money.MultiAccount=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.MultiAccount,Money.MultiAmount=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.MultiAmount,Money.QuantisationFactor=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Money.QuantisationFactor,Numeric.DecimalLiteral=really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9:Numeric.DecimalLiteral
[really-safe-money] Ready component graph:
[really-safe-money]     definite really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money]         depends base-4.20.2.0-64da
[really-safe-money]         depends containers-0.7-504a
[genvalidity-sydtest]         Test.Syd.Validity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity,Test.Syd.Validity.Applicative=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Applicative,Test.Syd.Validity.Arbitrary=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Arbitrary,Test.Syd.Validity.Eq=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Eq,Test.Syd.Validity.Functions=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions,Test.Syd.Validity.Functions.CanFail=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.CanFail,Test.Syd.Validity.Functions.Equivalence=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Equivalence,Test.Syd.Validity.Functions.Idempotence=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Idempotence,Test.Syd.Validity.Functions.Inverse=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Inverse,Test.Syd.Validity.Functions.Validity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functions.Validity,Test.Syd.Validity.Functor=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Functor,Test.Syd.Validity.GenValidity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.GenValidity,Test.Syd.Validity.GenValidity.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.GenValidity.Property,Test.Syd.Validity.Monad=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Monad,Test.Syd.Validity.Monoid=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Monoid,Test.Syd.Validity.Operations=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations,Test.Syd.Validity.Operations.Associativity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Associativity,Test.Syd.Validity.Operations.Commutativity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Commutativity,Test.Syd.Validity.Operations.Identity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Operations.Identity,Test.Syd.Validity.Ord=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Ord,Test.Syd.Validity.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Property,Test.Syd.Validity.Property.Utils=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Property.Utils,Test.Syd.Validity.Relations=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations,Test.Syd.Validity.Relations.Antireflexivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Antireflexivity,Test.Syd.Validity.Relations.Antisymmetry=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Antisymmetry,Test.Syd.Validity.Relations.Reflexivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Reflexivity,Test.Syd.Validity.Relations.Symmetry=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Symmetry,Test.Syd.Validity.Relations.Transitivity=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Relations.Transitivity,Test.Syd.Validity.Show=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Show,Test.Syd.Validity.Shrinking=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Shrinking,Test.Syd.Validity.Shrinking.Property=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Shrinking.Property,Test.Syd.Validity.Types=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Types,Test.Syd.Validity.Utils=genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1:Test.Syd.Validity.Utils
[genvalidity-sydtest]     unit genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         include base-4.20.2.0-64da
[genvalidity-sydtest]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest] Ready component graph:
[genvalidity-sydtest]     definite genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         depends QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         depends base-4.20.2.0-64da
[genvalidity-sydtest]         depends genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         depends sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest]     definite genvalidity-sydtest-1.0.1.0-1ny4a51zXrh2vGWfyFa5xL-genvalidity-sydtest-test
[genvalidity-sydtest]         depends QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[genvalidity-sydtest]         depends base-4.20.2.0-64da
[genvalidity-sydtest]         depends genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[genvalidity-sydtest]         depends genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest]         depends sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[genvalidity-sydtest] Using Cabal-3.12.1.0 compiled by ghc-9.10
[genvalidity-sydtest] Using compiler: ghc-9.10.3
[genvalidity-sydtest] Using install prefix:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] Executables installed in:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/bin
[genvalidity-sydtest] Libraries installed in:
[really-safe-money]         depends deepseq-1.5.0.0-9a2c
[really-safe-money]         depends validity-0.12.1.0-2vJMqyxn6Ae2B1jlP90HgP
[really-safe-money]         depends validity-containers-0.5.0.5-JMisIHg6jT0HAhS7h7vTA4
[really-safe-money]         depends validity-scientific-0.2.0.3-6oQtdkDOQFR80MBRT1UQ1R
[really-safe-money] Using Cabal-3.12.1.0 compiled by ghc-9.10
[really-safe-money] Using compiler: ghc-9.10.3
[really-safe-money] Using install prefix:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0
[really-safe-money] Executables installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/bin
[really-safe-money] Libraries installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money] Dynamic Libraries installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6
[really-safe-money] Private executables installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/libexec/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-0.0.0.0
[really-safe-money] Data files installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/share/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-0.0.0.0
[really-safe-money] Documentation installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/share/doc/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-0.0.0.0
[really-safe-money] Configuration files installed in:
[really-safe-money] /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/etc
[really-safe-money] No alex found
[really-safe-money] Using ar found on system at:
[really-safe-money] /nix/store/iz5lckcsg66r223si2gck7csk2hihj0m-binutils-wrapper-2.44/bin/ar
[really-safe-money] No c2hs found
[really-safe-money] No cpphs found
[really-safe-money] No doctest found
[really-safe-money] Using gcc version 14.3.0 given by user at:
[really-safe-money] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/gcc
[really-safe-money] Using ghc version 9.10.3 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc
[really-safe-money] Using ghc-pkg version 9.10.3 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc-pkg-9.10.3
[really-safe-money] No ghcjs found
[really-safe-money] No ghcjs-pkg found
[really-safe-money] No greencard found
[really-safe-money] Using haddock version 2.31.1 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/haddock-ghc-9.10.3
[really-safe-money] No happy found
[really-safe-money] Using haskell-suite found on system at: haskell-suite-dummy-location
[really-safe-money] Using haskell-suite-pkg found on system at: haskell-suite-pkg-dummy-location
[really-safe-money] No hmake found
[really-safe-money] Using hpc version 0.69 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hpc-ghc-9.10.3
[really-safe-money] Using hsc2hs version 0.68.10 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hsc2hs-ghc-9.10.3
[really-safe-money] Using hscolour version 1.25 found on system at:
[really-safe-money] /nix/store/f755skyzf4jvfx3crwq9mmh3x4lsaz8i-hscolour-1.25/bin/HsColour
[really-safe-money] No jhc found
[really-safe-money] Using ld found on system at:
[really-safe-money] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/ld
[really-safe-money] No pkg-config found
[really-safe-money] Using runghc version 9.10.3 found on system at:
[really-safe-money] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/runghc-9.10.3
[really-safe-money] Using strip version 2.44 found on system at:
[really-safe-money] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/strip
[really-safe-money] Using tar found on system at:
[really-safe-money] /nix/store/xl6pd2spjajwcpq09fnmnjv5psqmlmma-gnutar-1.35/bin/tar
[really-safe-money] No uhc found
[really-safe-money] Phase: buildPhase
[really-safe-money] mutation-nix: setting MUTATION_MANIFEST_DIR=/nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest
[really-safe-money] Preprocessing library for really-safe-money-0.0.0.0...
[really-safe-money] Building library for really-safe-money-0.0.0.0...
[really-safe-money] [ 1 of 12] Compiling Numeric.DecimalLiteral ( src/Numeric/DecimalLiteral.hs, dist/build/Numeric/DecimalLiteral.o, dist/build/Numeric/DecimalLiteral.dyn_o )
[really-safe-money] mutation: instrumenting Numeric.DecimalLiteral
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/CondFlip at 368:7-62
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest] Dynamic Libraries installed in:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6
[genvalidity-sydtest] Private executables installed in:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/libexec/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] Data files installed in:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/share/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] Documentation installed in:
[genvalidity-sydtest] /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc/share/doc/genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] Configuration files installed in:
[genvalidity-sydtest] /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/etc
[genvalidity-sydtest] No alex found
[genvalidity-sydtest] Using ar found on system at:
[genvalidity-sydtest] /nix/store/iz5lckcsg66r223si2gck7csk2hihj0m-binutils-wrapper-2.44/bin/ar
[genvalidity-sydtest] No c2hs found
[genvalidity-sydtest] No cpphs found
[genvalidity-sydtest] No doctest found
[genvalidity-sydtest] Using gcc version 14.3.0 given by user at:
[genvalidity-sydtest] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/gcc
[genvalidity-sydtest] Using ghc version 9.10.3 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc
[genvalidity-sydtest] Using ghc-pkg version 9.10.3 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc-pkg-9.10.3
[genvalidity-sydtest] No ghcjs found
[genvalidity-sydtest] No ghcjs-pkg found
[genvalidity-sydtest] No greencard found
[genvalidity-sydtest] Using haddock version 2.31.1 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/haddock-ghc-9.10.3
[genvalidity-sydtest] No happy found
[genvalidity-sydtest] Using haskell-suite found on system at: haskell-suite-dummy-location
[genvalidity-sydtest] Using haskell-suite-pkg found on system at: haskell-suite-pkg-dummy-location
[genvalidity-sydtest] No hmake found
[genvalidity-sydtest] Using hpc version 0.69 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hpc-ghc-9.10.3
[genvalidity-sydtest] Using hsc2hs version 0.68.10 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hsc2hs-ghc-9.10.3
[genvalidity-sydtest] Using hscolour version 1.25 found on system at:
[genvalidity-sydtest] /nix/store/f755skyzf4jvfx3crwq9mmh3x4lsaz8i-hscolour-1.25/bin/HsColour
[genvalidity-sydtest] No jhc found
[genvalidity-sydtest] Using ld found on system at:
[genvalidity-sydtest] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/ld
[genvalidity-sydtest] No pkg-config found
[genvalidity-sydtest] Using runghc version 9.10.3 found on system at:
[genvalidity-sydtest] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/runghc-9.10.3
[genvalidity-sydtest] Using strip version 2.44 found on system at:
[genvalidity-sydtest] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/strip
[genvalidity-sydtest] Using tar found on system at:
[genvalidity-sydtest] /nix/store/xl6pd2spjajwcpq09fnmnjv5psqmlmma-gnutar-1.35/bin/tar
[genvalidity-sydtest] No uhc found
[genvalidity-sydtest] Phase: buildPhase
[genvalidity-sydtest] Preprocessing library for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Building library for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] [ 1 of 34] Compiling Paths_genvalidity_sydtest ( dist/build/autogen/Paths_genvalidity_sydtest.hs, dist/build/Paths_genvalidity_sydtest.o, dist/build/Paths_genvalidity_sydtest.dyn_o )
[genvalidity-sydtest] [ 2 of 34] Compiling Test.Syd.Validity.Functions.Idempotence ( src/Test/Syd/Validity/Functions/Idempotence.hs, dist/build/Test/Syd/Validity/Functions/Idempotence.o, dist/build/Test/Syd/Validity/Functions/Idempotence.dyn_o )
[genvalidity-sydtest] [ 3 of 34] Compiling Test.Syd.Validity.Operations.Associativity ( src/Test/Syd/Validity/Operations/Associativity.hs, dist/build/Test/Syd/Validity/Operations/Associativity.o, dist/build/Test/Syd/Validity/Operations/Associativity.dyn_o )
[genvalidity-sydtest] [ 4 of 34] Compiling Test.Syd.Validity.Operations.Commutativity ( src/Test/Syd/Validity/Operations/Commutativity.hs, dist/build/Test/Syd/Validity/Operations/Commutativity.o, dist/build/Test/Syd/Validity/Operations/Commutativity.dyn_o )
[genvalidity-sydtest] [ 5 of 34] Compiling Test.Syd.Validity.Operations.Identity ( src/Test/Syd/Validity/Operations/Identity.hs, dist/build/Test/Syd/Validity/Operations/Identity.o, dist/build/Test/Syd/Validity/Operations/Identity.dyn_o )
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 375:80-82
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 375:80-82
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 337:21-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/CondFlip at 337:13-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 315:67-68
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 304:42-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 244:14-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:41-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:41-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:63-65
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:63-65
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 252:36-37
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 252:38-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 208:9-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ListLit at 186:15-25
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ListLit at 186:15-25
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 139:27-29
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 139:27-29
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 136:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 136:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 125:29-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 127:44-45
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 130:48-49
[genvalidity-sydtest] [ 6 of 34] Compiling Test.Syd.Validity.Operations ( src/Test/Syd/Validity/Operations.hs, dist/build/Test/Syd/Validity/Operations.o, dist/build/Test/Syd/Validity/Operations.dyn_o )
[genvalidity-sydtest] [ 7 of 34] Compiling Test.Syd.Validity.Property.Utils ( src/Test/Syd/Validity/Property/Utils.hs, dist/build/Test/Syd/Validity/Property/Utils.o, dist/build/Test/Syd/Validity/Property/Utils.dyn_o )
[genvalidity-sydtest] [ 8 of 34] Compiling Test.Syd.Validity.GenValidity.Property ( src/Test/Syd/Validity/GenValidity/Property.hs, dist/build/Test/Syd/Validity/GenValidity/Property.o, dist/build/Test/Syd/Validity/GenValidity/Property.dyn_o )
[genvalidity-sydtest] [ 9 of 34] Compiling Test.Syd.Validity.Functions.Validity ( src/Test/Syd/Validity/Functions/Validity.hs, dist/build/Test/Syd/Validity/Functions/Validity.o, dist/build/Test/Syd/Validity/Functions/Validity.dyn_o )
[genvalidity-sydtest] [10 of 34] Compiling Test.Syd.Validity.Relations.Antireflexivity ( src/Test/Syd/Validity/Relations/Antireflexivity.hs, dist/build/Test/Syd/Validity/Relations/Antireflexivity.o, dist/build/Test/Syd/Validity/Relations/Antireflexivity.dyn_o )
[genvalidity-sydtest] [11 of 34] Compiling Test.Syd.Validity.Relations.Antisymmetry ( src/Test/Syd/Validity/Relations/Antisymmetry.hs, dist/build/Test/Syd/Validity/Relations/Antisymmetry.o, dist/build/Test/Syd/Validity/Relations/Antisymmetry.dyn_o )
[genvalidity-sydtest] [12 of 34] Compiling Test.Syd.Validity.Relations.Reflexivity ( src/Test/Syd/Validity/Relations/Reflexivity.hs, dist/build/Test/Syd/Validity/Relations/Reflexivity.o, dist/build/Test/Syd/Validity/Relations/Reflexivity.dyn_o )
[genvalidity-sydtest] [13 of 34] Compiling Test.Syd.Validity.Relations.Symmetry ( src/Test/Syd/Validity/Relations/Symmetry.hs, dist/build/Test/Syd/Validity/Relations/Symmetry.o, dist/build/Test/Syd/Validity/Relations/Symmetry.dyn_o )
[genvalidity-sydtest] [14 of 34] Compiling Test.Syd.Validity.Relations.Transitivity ( src/Test/Syd/Validity/Relations/Transitivity.hs, dist/build/Test/Syd/Validity/Relations/Transitivity.o, dist/build/Test/Syd/Validity/Relations/Transitivity.dyn_o )
[genvalidity-sydtest] [15 of 34] Compiling Test.Syd.Validity.Relations ( src/Test/Syd/Validity/Relations.hs, dist/build/Test/Syd/Validity/Relations.o, dist/build/Test/Syd/Validity/Relations.dyn_o )
[genvalidity-sydtest] [16 of 34] Compiling Test.Syd.Validity.Shrinking.Property ( src/Test/Syd/Validity/Shrinking/Property.hs, dist/build/Test/Syd/Validity/Shrinking/Property.o, dist/build/Test/Syd/Validity/Shrinking/Property.dyn_o )
[genvalidity-sydtest] [17 of 34] Compiling Test.Syd.Validity.Types ( src/Test/Syd/Validity/Types.hs, dist/build/Test/Syd/Validity/Types.o, dist/build/Test/Syd/Validity/Types.dyn_o )
[genvalidity-sydtest] [18 of 34] Compiling Test.Syd.Validity.Functions.Inverse ( src/Test/Syd/Validity/Functions/Inverse.hs, dist/build/Test/Syd/Validity/Functions/Inverse.o, dist/build/Test/Syd/Validity/Functions/Inverse.dyn_o )
[genvalidity-sydtest] [19 of 34] Compiling Test.Syd.Validity.Functions.Equivalence ( src/Test/Syd/Validity/Functions/Equivalence.hs, dist/build/Test/Syd/Validity/Functions/Equivalence.o, dist/build/Test/Syd/Validity/Functions/Equivalence.dyn_o )
[genvalidity-sydtest] [20 of 34] Compiling Test.Syd.Validity.Functions.CanFail ( src/Test/Syd/Validity/Functions/CanFail.hs, dist/build/Test/Syd/Validity/Functions/CanFail.o, dist/build/Test/Syd/Validity/Functions/CanFail.dyn_o )
[genvalidity-sydtest] [21 of 34] Compiling Test.Syd.Validity.Functions ( src/Test/Syd/Validity/Functions.hs, dist/build/Test/Syd/Validity/Functions.o, dist/build/Test/Syd/Validity/Functions.dyn_o )
[genvalidity-sydtest] [22 of 34] Compiling Test.Syd.Validity.Property ( src/Test/Syd/Validity/Property.hs, dist/build/Test/Syd/Validity/Property.o, dist/build/Test/Syd/Validity/Property.dyn_o )
[genvalidity-sydtest] [23 of 34] Compiling Test.Syd.Validity.Utils ( src/Test/Syd/Validity/Utils.hs, dist/build/Test/Syd/Validity/Utils.o, dist/build/Test/Syd/Validity/Utils.dyn_o )
[genvalidity-sydtest] [24 of 34] Compiling Test.Syd.Validity.Shrinking ( src/Test/Syd/Validity/Shrinking.hs, dist/build/Test/Syd/Validity/Shrinking.o, dist/build/Test/Syd/Validity/Shrinking.dyn_o )
[genvalidity-sydtest] [25 of 34] Compiling Test.Syd.Validity.Show ( src/Test/Syd/Validity/Show.hs, dist/build/Test/Syd/Validity/Show.o, dist/build/Test/Syd/Validity/Show.dyn_o )
[genvalidity-sydtest] [26 of 34] Compiling Test.Syd.Validity.Ord ( src/Test/Syd/Validity/Ord.hs, dist/build/Test/Syd/Validity/Ord.o, dist/build/Test/Syd/Validity/Ord.dyn_o )
[genvalidity-sydtest] [27 of 34] Compiling Test.Syd.Validity.Monoid ( src/Test/Syd/Validity/Monoid.hs, dist/build/Test/Syd/Validity/Monoid.o, dist/build/Test/Syd/Validity/Monoid.dyn_o )
[genvalidity-sydtest] [28 of 34] Compiling Test.Syd.Validity.Monad ( src/Test/Syd/Validity/Monad.hs, dist/build/Test/Syd/Validity/Monad.o, dist/build/Test/Syd/Validity/Monad.dyn_o )
[really-safe-money] [ 2 of 12] Compiling Money.QuantisationFactor ( src/Money/QuantisationFactor.hs, dist/build/Money/QuantisationFactor.o, dist/build/Money/QuantisationFactor.dyn_o )
[really-safe-money] mutation: instrumenting Money.QuantisationFactor
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 87:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 87:9-22
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 92:13-14
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 92:13-14
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 93:16-17
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 93:9-22
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 98:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 98:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 98:5-19
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 67:67-68
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 67:67-68
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 40:62-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ListLit at 39:7-8
[really-safe-money] mutation: recording Money.QuantisationFactor/ListLit at 39:7-8
[genvalidity-sydtest] [29 of 34] Compiling Test.Syd.Validity.GenValidity ( src/Test/Syd/Validity/GenValidity.hs, dist/build/Test/Syd/Validity/GenValidity.o, dist/build/Test/Syd/Validity/GenValidity.dyn_o )
[genvalidity-sydtest] [30 of 34] Compiling Test.Syd.Validity.Functor ( src/Test/Syd/Validity/Functor.hs, dist/build/Test/Syd/Validity/Functor.o, dist/build/Test/Syd/Validity/Functor.dyn_o )
[genvalidity-sydtest] [31 of 34] Compiling Test.Syd.Validity.Eq ( src/Test/Syd/Validity/Eq.hs, dist/build/Test/Syd/Validity/Eq.o, dist/build/Test/Syd/Validity/Eq.dyn_o )
[genvalidity-sydtest] [32 of 34] Compiling Test.Syd.Validity.Arbitrary ( src/Test/Syd/Validity/Arbitrary.hs, dist/build/Test/Syd/Validity/Arbitrary.o, dist/build/Test/Syd/Validity/Arbitrary.dyn_o )
[genvalidity-sydtest] [33 of 34] Compiling Test.Syd.Validity.Applicative ( src/Test/Syd/Validity/Applicative.hs, dist/build/Test/Syd/Validity/Applicative.o, dist/build/Test/Syd/Validity/Applicative.dyn_o )
[genvalidity-sydtest] [34 of 34] Compiling Test.Syd.Validity ( src/Test/Syd/Validity.hs, dist/build/Test/Syd/Validity.o, dist/build/Test/Syd/Validity.dyn_o )
[genvalidity-sydtest] [ 1 of 34] Compiling Paths_genvalidity_sydtest ( dist/build/autogen/Paths_genvalidity_sydtest.hs, dist/build/Paths_genvalidity_sydtest.p_o )
[really-safe-money] [ 3 of 12] Compiling Money.Currency   ( src/Money/Currency.hs, dist/build/Money/Currency.o, dist/build/Money/Currency.dyn_o )
[really-safe-money] mutation: instrumenting Money.Currency
[genvalidity-sydtest] [ 2 of 34] Compiling Test.Syd.Validity.Functions.Idempotence ( src/Test/Syd/Validity/Functions/Idempotence.hs, dist/build/Test/Syd/Validity/Functions/Idempotence.p_o )
[genvalidity-sydtest] [ 3 of 34] Compiling Test.Syd.Validity.Operations.Associativity ( src/Test/Syd/Validity/Operations/Associativity.hs, dist/build/Test/Syd/Validity/Operations/Associativity.p_o )
[genvalidity-sydtest] [ 4 of 34] Compiling Test.Syd.Validity.Operations.Commutativity ( src/Test/Syd/Validity/Operations/Commutativity.hs, dist/build/Test/Syd/Validity/Operations/Commutativity.p_o )
[genvalidity-sydtest] [ 5 of 34] Compiling Test.Syd.Validity.Operations.Identity ( src/Test/Syd/Validity/Operations/Identity.hs, dist/build/Test/Syd/Validity/Operations/Identity.p_o )
[genvalidity-sydtest] [ 6 of 34] Compiling Test.Syd.Validity.Operations ( src/Test/Syd/Validity/Operations.hs, dist/build/Test/Syd/Validity/Operations.p_o )
[really-safe-money] [ 4 of 12] Compiling Money.ConversionRate ( src/Money/ConversionRate.hs, dist/build/Money/ConversionRate.o, dist/build/Money/ConversionRate.dyn_o )
[really-safe-money] mutation: instrumenting Money.ConversionRate
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 116:45-46
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 116:45-46
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 109:27-28
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 109:27-28
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 72:25-26
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/Negate at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/CondFlip at 72:18-69
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 38:56-57
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/Negate at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/ListLit at 37:7-8
[really-safe-money] mutation: recording Money.ConversionRate/ListLit at 37:7-8
[genvalidity-sydtest] [ 7 of 34] Compiling Test.Syd.Validity.Property.Utils ( src/Test/Syd/Validity/Property/Utils.hs, dist/build/Test/Syd/Validity/Property/Utils.p_o )
[genvalidity-sydtest] [ 8 of 34] Compiling Test.Syd.Validity.GenValidity.Property ( src/Test/Syd/Validity/GenValidity/Property.hs, dist/build/Test/Syd/Validity/GenValidity/Property.p_o )
[genvalidity-sydtest] [ 9 of 34] Compiling Test.Syd.Validity.Functions.Validity ( src/Test/Syd/Validity/Functions/Validity.hs, dist/build/Test/Syd/Validity/Functions/Validity.p_o )
[really-safe-money] [ 5 of 12] Compiling Money.ConversionRateOf ( src/Money/ConversionRateOf.hs, dist/build/Money/ConversionRateOf.o, dist/build/Money/ConversionRateOf.dyn_o )
[really-safe-money] mutation: instrumenting Money.ConversionRateOf
[genvalidity-sydtest] [10 of 34] Compiling Test.Syd.Validity.Relations.Antireflexivity ( src/Test/Syd/Validity/Relations/Antireflexivity.hs, dist/build/Test/Syd/Validity/Relations/Antireflexivity.p_o )
[genvalidity-sydtest] [11 of 34] Compiling Test.Syd.Validity.Relations.Antisymmetry ( src/Test/Syd/Validity/Relations/Antisymmetry.hs, dist/build/Test/Syd/Validity/Relations/Antisymmetry.p_o )
[genvalidity-sydtest] [12 of 34] Compiling Test.Syd.Validity.Relations.Reflexivity ( src/Test/Syd/Validity/Relations/Reflexivity.hs, dist/build/Test/Syd/Validity/Relations/Reflexivity.p_o )
[genvalidity-sydtest] [13 of 34] Compiling Test.Syd.Validity.Relations.Symmetry ( src/Test/Syd/Validity/Relations/Symmetry.hs, dist/build/Test/Syd/Validity/Relations/Symmetry.p_o )
[genvalidity-sydtest] [14 of 34] Compiling Test.Syd.Validity.Relations.Transitivity ( src/Test/Syd/Validity/Relations/Transitivity.hs, dist/build/Test/Syd/Validity/Relations/Transitivity.p_o )
[genvalidity-sydtest] [15 of 34] Compiling Test.Syd.Validity.Relations ( src/Test/Syd/Validity/Relations.hs, dist/build/Test/Syd/Validity/Relations.p_o )
[really-safe-money] [ 6 of 12] Compiling Money.Amount     ( src/Money/Amount.hs, dist/build/Money/Amount.o, dist/build/Money/Amount.dyn_o )
[genvalidity-sydtest] [16 of 34] Compiling Test.Syd.Validity.Shrinking.Property ( src/Test/Syd/Validity/Shrinking/Property.hs, dist/build/Test/Syd/Validity/Shrinking/Property.p_o )
[genvalidity-sydtest] [17 of 34] Compiling Test.Syd.Validity.Types ( src/Test/Syd/Validity/Types.hs, dist/build/Test/Syd/Validity/Types.p_o )
[genvalidity-sydtest] [18 of 34] Compiling Test.Syd.Validity.Functions.Inverse ( src/Test/Syd/Validity/Functions/Inverse.hs, dist/build/Test/Syd/Validity/Functions/Inverse.p_o )
[genvalidity-sydtest] [19 of 34] Compiling Test.Syd.Validity.Functions.Equivalence ( src/Test/Syd/Validity/Functions/Equivalence.hs, dist/build/Test/Syd/Validity/Functions/Equivalence.p_o )
[really-safe-money] mutation: instrumenting Money.Amount
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 569:18-19
[really-safe-money] mutation: recording Money.Amount/ConstBool at 569:10-19
[really-safe-money] mutation: recording Money.Amount/ConstBool at 569:10-19
[really-safe-money] mutation: recording Money.Amount/Negate at 569:10-19
[really-safe-money] mutation: recording Money.Amount/CondFlip at 569:7-29
[really-safe-money] mutation: recording Money.Amount/ConstBool at 544:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 544:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 544:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 544:7-66
[really-safe-money] mutation: recording Money.Amount/IntLit at 518:14-15
[really-safe-money] mutation: recording Money.Amount/ConstBool at 518:10-15
[really-safe-money] mutation: recording Money.Amount/ConstBool at 518:10-15
[really-safe-money] mutation: recording Money.Amount/Negate at 518:10-15
[really-safe-money] mutation: recording Money.Amount/CondFlip at 518:7-66
[really-safe-money] mutation: recording Money.Amount/ConstBool at 476:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 476:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 476:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 476:7-66
[really-safe-money] mutation: recording Money.Amount/ConstBool at 388:5-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 388:5-16
[really-safe-money] mutation: recording Money.Amount/Negate at 388:5-16
[really-safe-money] mutation: recording Money.Amount/IntLit at 389:9-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 389:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 389:5-10
[really-safe-money] mutation: recording Money.Amount/Negate at 389:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 390:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 390:5-14
[really-safe-money] mutation: recording Money.Amount/Negate at 390:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 397:14-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 397:14-31
[really-safe-money] mutation: recording Money.Amount/Negate at 397:14-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 399:18-83
[really-safe-money] mutation: recording Money.Amount/ConstBool at 399:18-83
[really-safe-money] mutation: recording Money.Amount/Negate at 399:18-83
[really-safe-money] mutation: recording Money.Amount/CondFlip at 399:15-57
[really-safe-money] mutation: recording Money.Amount/CondFlip at 397:11-25
[really-safe-money] mutation: recording Money.Amount/IntLit at 320:9-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 320:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 320:5-10
[really-safe-money] mutation: recording Money.Amount/Negate at 320:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 321:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 321:5-14
[really-safe-money] mutation: recording Money.Amount/Negate at 321:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 327:9-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 327:9-16
[really-safe-money] mutation: recording Money.Amount/Negate at 327:9-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 328:9-21
[really-safe-money] mutation: recording Money.Amount/ConstBool at 328:9-21
[really-safe-money] mutation: recording Money.Amount/Negate at 328:9-21
[really-safe-money] mutation: recording Money.Amount/ConstBool at 329:9-18
[really-safe-money] mutation: recording Money.Amount/ConstBool at 329:9-18
[really-safe-money] mutation: recording Money.Amount/Negate at 329:9-18
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 332:14-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 332:14-40
[really-safe-money] mutation: recording Money.Amount/Negate at 332:14-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 339:22-39
[really-safe-money] mutation: recording Money.Amount/ConstBool at 339:22-39
[really-safe-money] mutation: recording Money.Amount/Negate at 339:22-39
[really-safe-money] mutation: recording Money.Amount/ConstBool at 341:26-91
[really-safe-money] mutation: recording Money.Amount/ConstBool at 341:26-91
[really-safe-money] mutation: recording Money.Amount/Negate at 341:26-91
[really-safe-money] mutation: recording Money.Amount/CondFlip at 341:23-65
[really-safe-money] mutation: recording Money.Amount/CondFlip at 339:19-33
[really-safe-money] mutation: recording Money.Amount/CondFlip at 332:11-33
[really-safe-money] mutation: recording Money.Amount/IntLit at 290:79-80
[really-safe-money] mutation: recording Money.Amount/IntLit at 494:96-97
[really-safe-money] mutation: recording Money.Amount/ConstBool at 495:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 495:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 495:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 495:7-66
[really-safe-money] mutation: recording Money.Amount/IntLit at 250:15-16
[really-safe-money] mutation: recording Money.Amount/IntLit at 661:30-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 681:12-37
[really-safe-money] mutation: recording Money.Amount/ConstBool at 681:12-37
[really-safe-money] mutation: recording Money.Amount/Negate at 681:12-37
[really-safe-money] mutation: recording Money.Amount/CondFlip at 681:9-27
[really-safe-money] mutation: recording Money.Amount/ConstBool at 806:79-92
[really-safe-money] mutation: recording Money.Amount/ConstBool at 806:79-92
[really-safe-money] mutation: recording Money.Amount/Negate at 806:79-92
[really-safe-money] mutation: recording Money.Amount/ConstBool at 607:15-22
[really-safe-money] mutation: recording Money.Amount/ConstBool at 607:15-22
[really-safe-money] mutation: recording Money.Amount/Negate at 607:15-22
[really-safe-money] mutation: recording Money.Amount/ListLit at 603:7-8
[really-safe-money] mutation: recording Money.Amount/ListLit at 603:7-8
[genvalidity-sydtest] [20 of 34] Compiling Test.Syd.Validity.Functions.CanFail ( src/Test/Syd/Validity/Functions/CanFail.hs, dist/build/Test/Syd/Validity/Functions/CanFail.p_o )
[genvalidity-sydtest] [21 of 34] Compiling Test.Syd.Validity.Functions ( src/Test/Syd/Validity/Functions.hs, dist/build/Test/Syd/Validity/Functions.p_o )
[genvalidity-sydtest] [22 of 34] Compiling Test.Syd.Validity.Property ( src/Test/Syd/Validity/Property.hs, dist/build/Test/Syd/Validity/Property.p_o )
[genvalidity-sydtest] [23 of 34] Compiling Test.Syd.Validity.Utils ( src/Test/Syd/Validity/Utils.hs, dist/build/Test/Syd/Validity/Utils.p_o )
[genvalidity-sydtest] [24 of 34] Compiling Test.Syd.Validity.Shrinking ( src/Test/Syd/Validity/Shrinking.hs, dist/build/Test/Syd/Validity/Shrinking.p_o )
[genvalidity-sydtest] [25 of 34] Compiling Test.Syd.Validity.Show ( src/Test/Syd/Validity/Show.hs, dist/build/Test/Syd/Validity/Show.p_o )
[genvalidity-sydtest] [26 of 34] Compiling Test.Syd.Validity.Ord ( src/Test/Syd/Validity/Ord.hs, dist/build/Test/Syd/Validity/Ord.p_o )
[genvalidity-sydtest] [27 of 34] Compiling Test.Syd.Validity.Monoid ( src/Test/Syd/Validity/Monoid.hs, dist/build/Test/Syd/Validity/Monoid.p_o )
[genvalidity-sydtest] [28 of 34] Compiling Test.Syd.Validity.Monad ( src/Test/Syd/Validity/Monad.hs, dist/build/Test/Syd/Validity/Monad.p_o )
[genvalidity-sydtest] [29 of 34] Compiling Test.Syd.Validity.GenValidity ( src/Test/Syd/Validity/GenValidity.hs, dist/build/Test/Syd/Validity/GenValidity.p_o )
[genvalidity-sydtest] [30 of 34] Compiling Test.Syd.Validity.Functor ( src/Test/Syd/Validity/Functor.hs, dist/build/Test/Syd/Validity/Functor.p_o )
[genvalidity-sydtest] [31 of 34] Compiling Test.Syd.Validity.Eq ( src/Test/Syd/Validity/Eq.hs, dist/build/Test/Syd/Validity/Eq.p_o )
[genvalidity-sydtest] [32 of 34] Compiling Test.Syd.Validity.Arbitrary ( src/Test/Syd/Validity/Arbitrary.hs, dist/build/Test/Syd/Validity/Arbitrary.p_o )
[genvalidity-sydtest] [33 of 34] Compiling Test.Syd.Validity.Applicative ( src/Test/Syd/Validity/Applicative.hs, dist/build/Test/Syd/Validity/Applicative.p_o )
[genvalidity-sydtest] [34 of 34] Compiling Test.Syd.Validity ( src/Test/Syd/Validity.hs, dist/build/Test/Syd/Validity.p_o )
[really-safe-money] [ 7 of 12] Compiling Money.MultiAmount ( src/Money/MultiAmount.hs, dist/build/Money/MultiAmount.o, dist/build/Money/MultiAmount.dyn_o )
[really-safe-money] mutation: instrumenting Money.MultiAmount
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 168:17-57
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 119:9-37
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 106:9-37
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 73:3-51
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/ListLit at 63:7-8
[really-safe-money] mutation: recording Money.MultiAmount/ListLit at 63:7-8
[really-safe-money] [ 8 of 12] Compiling Money.AmountOf   ( src/Money/AmountOf.hs, dist/build/Money/AmountOf.o, dist/build/Money/AmountOf.dyn_o )
[really-safe-money] mutation: instrumenting Money.AmountOf
[really-safe-money] [ 9 of 12] Compiling Money.Account    ( src/Money/Account.hs, dist/build/Money/Account.o, dist/build/Money/Account.dyn_o )
[really-safe-money] mutation: instrumenting Money.Account
[really-safe-money] mutation: recording Money.Account/IntLit at 421:32-33
[really-safe-money] mutation: recording Money.Account/ConstBool at 451:14-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 451:14-23
[really-safe-money] mutation: recording Money.Account/Negate at 451:14-23
[really-safe-money] mutation: recording Money.Account/CondFlip at 451:11-76
[really-safe-money] mutation: recording Money.Account/ConstBool at 455:14-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 455:14-23
[really-safe-money] mutation: recording Money.Account/Negate at 455:14-23
[really-safe-money] mutation: recording Money.Account/CondFlip at 455:11-136
[really-safe-money] mutation: recording Money.Account/IntLit at 495:17-18
[really-safe-money] mutation: recording Money.Account/ConstBool at 495:12-18
[really-safe-money] mutation: recording Money.Account/ConstBool at 495:12-18
[really-safe-money] mutation: recording Money.Account/Negate at 495:12-18
[really-safe-money] mutation: recording Money.Account/CondFlip at 495:9-41
[really-safe-money] mutation: recording Money.Account/IntLit at 503:15-16
[really-safe-money] mutation: recording Money.Account/ConstBool at 503:10-16
[really-safe-money] mutation: recording Money.Account/ConstBool at 503:10-16
[really-safe-money] mutation: recording Money.Account/Negate at 503:10-16
[really-safe-money] mutation: recording Money.Account/CondFlip at 503:7-33
[really-safe-money] mutation: recording Money.Account/IntLit at 233:19-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 233:14-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 233:14-20
[really-safe-money] mutation: recording Money.Account/Negate at 233:14-20
[really-safe-money] mutation: recording Money.Account/CondFlip at 233:11-48
[really-safe-money] mutation: recording Money.Account/IntLit at 197:19-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 197:14-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 197:14-20
[really-safe-money] mutation: recording Money.Account/Negate at 197:14-20
[really-safe-money] mutation: recording Money.Account/CondFlip at 197:11-48
[really-safe-money] mutation: recording Money.Account/ConstBool at 123:10-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 123:10-23
[really-safe-money] mutation: recording Money.Account/Negate at 123:10-23
[really-safe-money] mutation: recording Money.Account/IntLit at 131:25-26
[really-safe-money] mutation: recording Money.Account/ConstBool at 131:20-26
[really-safe-money] mutation: recording Money.Account/ConstBool at 131:20-26
[really-safe-money] mutation: recording Money.Account/Negate at 131:20-26
[really-safe-money] mutation: recording Money.Account/CondFlip at 131:17-39
[really-safe-money] mutation: recording Money.Account/CondFlip at 123:7-39
[really-safe-money] [10 of 12] Compiling Money.MultiAccount ( src/Money/MultiAccount.hs, dist/build/Money/MultiAccount.o, dist/build/Money/MultiAccount.dyn_o )
[really-safe-money] mutation: instrumenting Money.MultiAccount
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 134:9-37
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 120:9-37
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 78:3-52
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/ListLit at 66:7-8
[really-safe-money] mutation: recording Money.MultiAccount/ListLit at 66:7-8
[genvalidity-sydtest] Preprocessing test suite 'genvalidity-sydtest-test' for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Building test suite 'genvalidity-sydtest-test' for genvalidity-sydtest-1.0.1.0...
[really-safe-money] [11 of 12] Compiling Money.AccountOf  ( src/Money/AccountOf.hs, dist/build/Money/AccountOf.o, dist/build/Money/AccountOf.dyn_o )
[really-safe-money] mutation: instrumenting Money.AccountOf
[genvalidity-sydtest] [ 1 of 15] Compiling Paths_genvalidity_sydtest ( dist/build/genvalidity-sydtest-test/autogen/Paths_genvalidity_sydtest.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Paths_genvalidity_sydtest.o )
[really-safe-money] [12 of 12] Compiling Paths_really_safe_money ( dist/build/autogen/Paths_really_safe_money.hs, dist/build/Paths_really_safe_money.o, dist/build/Paths_really_safe_money.dyn_o )
[genvalidity-sydtest] [ 2 of 15] Compiling Test.Syd.Validity.ApplicativeSpec ( test/Test/Syd/Validity/ApplicativeSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/ApplicativeSpec.o )
[genvalidity-sydtest] [ 3 of 15] Compiling Test.Syd.Validity.ArbitrarySpec ( test/Test/Syd/Validity/ArbitrarySpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/ArbitrarySpec.o )
[genvalidity-sydtest] [ 4 of 15] Compiling Test.Syd.Validity.EqSpec ( test/Test/Syd/Validity/EqSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/EqSpec.o )
[genvalidity-sydtest] [ 5 of 15] Compiling Test.Syd.Validity.FunctorSpec ( test/Test/Syd/Validity/FunctorSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/FunctorSpec.o )
[genvalidity-sydtest] [ 6 of 15] Compiling Test.Syd.Validity.GenRelativeValiditySpec ( test/Test/Syd/Validity/GenRelativeValiditySpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/GenRelativeValiditySpec.o )
[genvalidity-sydtest] [ 7 of 15] Compiling Test.Syd.Validity.GenValiditySpec ( test/Test/Syd/Validity/GenValiditySpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/GenValiditySpec.o )
[genvalidity-sydtest] [ 8 of 15] Compiling Test.Syd.Validity.MonadSpec ( test/Test/Syd/Validity/MonadSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/MonadSpec.o )
[really-safe-money] [ 1 of 12] Compiling Numeric.DecimalLiteral ( src/Numeric/DecimalLiteral.hs, dist/build/Numeric/DecimalLiteral.p_o )
[genvalidity-sydtest] [ 9 of 15] Compiling Test.Syd.Validity.MonoidSpec ( test/Test/Syd/Validity/MonoidSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/MonoidSpec.o )
[genvalidity-sydtest] [10 of 15] Compiling Test.Syd.Validity.Operations.CommutativitySpec ( test/Test/Syd/Validity/Operations/CommutativitySpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/Operations/CommutativitySpec.o )
[genvalidity-sydtest] [11 of 15] Compiling Test.Syd.Validity.OrdSpec ( test/Test/Syd/Validity/OrdSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/OrdSpec.o )
[genvalidity-sydtest] [12 of 15] Compiling Test.Syd.Validity.RelativeValiditySpec ( test/Test/Syd/Validity/RelativeValiditySpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/RelativeValiditySpec.o )
[genvalidity-sydtest] [13 of 15] Compiling Test.Syd.Validity.ShowSpec ( test/Test/Syd/Validity/ShowSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/ShowSpec.o )
[genvalidity-sydtest] [14 of 15] Compiling Test.Syd.Validity.ShrinkingSpec ( test/Test/Syd/Validity/ShrinkingSpec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Test/Syd/Validity/ShrinkingSpec.o )
[genvalidity-sydtest] [15 of 15] Compiling Main             ( test/Spec.hs, dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test-tmp/Main.o )
[really-safe-money] mutation: instrumenting Numeric.DecimalLiteral
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 396:23-27
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 368:10-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/CondFlip at 368:7-62
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 375:80-82
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 375:80-82
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 337:21-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 337:16-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 337:46-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/CondFlip at 337:13-51
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 332:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 333:11-46
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 315:67-68
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 304:42-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 299:11-47
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 289:33-35
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 236:41-44
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 244:14-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 244:9-15
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 245:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 264:13-26
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 266:13-19
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 267:13-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:41-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:41-43
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:63-65
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 269:63-65
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 270:13-22
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 252:36-37
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 252:38-39
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 223:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 208:9-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 208:5-10
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 208:62-67
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 209:5-14
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ListLit at 186:15-25
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ListLit at 186:15-25
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 145:28-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 152:9-23
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 154:36-38
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 158:9-18
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 139:27-29
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 139:27-29
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 136:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 136:39-41
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:22-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:34-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 119:22-42
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/ConstBool at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/Negate at 123:19-34
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 125:29-30
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 127:44-45
[really-safe-money] mutation: recording Numeric.DecimalLiteral/IntLit at 130:48-49
[genvalidity-sydtest] [16 of 16] Linking dist/build/genvalidity-sydtest-test/genvalidity-sydtest-test
[really-safe-money] [ 2 of 12] Compiling Money.QuantisationFactor ( src/Money/QuantisationFactor.hs, dist/build/Money/QuantisationFactor.p_o )
[really-safe-money] mutation: instrumenting Money.QuantisationFactor
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 87:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 87:12-28
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 87:9-22
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 92:13-14
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 92:13-14
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 93:16-17
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 93:12-17
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 93:9-22
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 98:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 98:27-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 98:8-28
[really-safe-money] mutation: recording Money.QuantisationFactor/CondFlip at 98:5-19
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 102:6-46
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 67:67-68
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 67:67-68
[really-safe-money] mutation: recording Money.QuantisationFactor/IntLit at 40:62-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ConstBool at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/Negate at 40:57-63
[really-safe-money] mutation: recording Money.QuantisationFactor/ListLit at 39:7-8
[really-safe-money] mutation: recording Money.QuantisationFactor/ListLit at 39:7-8
[genvalidity-sydtest] Phase: checkPhase
[genvalidity-sydtest] Running 1 test suites...
[genvalidity-sydtest] Test suite genvalidity-sydtest-test: RUNNING...
[really-safe-money] [ 3 of 12] Compiling Money.Currency   ( src/Money/Currency.hs, dist/build/Money/Currency.p_o )
[really-safe-money] mutation: instrumenting Money.Currency
[genvalidity-sydtest] Tests:
[genvalidity-sydtest] 
[genvalidity-sydtest] Test.Syd.Validity.MonoidSpec
[genvalidity-sydtest]   Monoid [Int]
[genvalidity-sydtest]     mappend :: [Int] -> [Int] -> [Int]
[genvalidity-sydtest]       ✓ is an associative operation for "valid :: ([Int],[Int],[Int])"                                                                                                                                                                                                                    7.04 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mempty :: [Int]
[genvalidity-sydtest]       ✓ is the identity for mappend :: [Int] -> [Int] -> [Int] for "valid :: [Int]"                                                                                                                                                                                                       6.27 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mconcat :: [[Int]] -> [Int]
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "valid :: [[Int]]"                                                                                                                                                                                                                9.72 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monoid [Int]
[genvalidity-sydtest]     mconcat :: [[Int]] -> [Int]
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "arbitrary :: [[Int]]"                                                                                                                                                                                                            6.08 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mempty :: [Int]
[genvalidity-sydtest]       ✓ is the identity for mappend :: [Int] -> [Int] -> [Int] for "arbitrary :: [Int]"                                                                                                                                                                                                   4.80 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mappend :: [Int] -> [Int] -> [Int]
[genvalidity-sydtest]       ✓ is an associative operation for "arbitrary :: ([Int],[Int],[Int])"                                                                                                                                                                                                                6.60 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monoid ([Ratio Integer])
[genvalidity-sydtest]     mappend :: ([Ratio Integer]) -> ([Ratio Integer]) -> ([Ratio Integer])
[genvalidity-sydtest]       ✓ is an associative operation for "valid :: (([Ratio Integer],[Ratio Integer],[Ratio Integer]))"                                                                                                                                                                                   47.39 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mempty :: ([Ratio Integer])
[genvalidity-sydtest]       ✓ is the identity for mappend :: ([Ratio Integer]) -> ([Ratio Integer]) -> ([Ratio Integer]) for "valid :: ([Ratio Integer])"                                                                                                                                                      25.57 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mconcat :: [([Ratio Integer])] -> ([Ratio Integer])
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "valid :: ([[Ratio Integer]])"                                                                                                                                                                                                   11.48 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monoid [Char]
[genvalidity-sydtest]     mappend :: [Char] -> [Char] -> [Char]
[genvalidity-sydtest]       ✓ is an associative operation for "singleton list of 'a' :: ([Char],[Char],[Char])"                                                                                                                                                                                                 4.77 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mempty :: [Char]
[genvalidity-sydtest]       ✓ is the identity for mappend :: [Char] -> [Char] -> [Char] for "singleton list of 'a' :: [Char]"                                                                                                                                                                                   2.51 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     mconcat :: [[Char]] -> [Char]
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "singleton list of 'a' :: [[Char]]"                                                                                                                                                                                               5.80 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.OrdSpec
[genvalidity-sydtest]   Ord (Ratio Integer)
[genvalidity-sydtest]     "max :: (Ratio Integer -> Ratio Integer -> Ratio Integer)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a >= b then a else b) for "valid (Ratio Integer)"'s                                                                                                                                                                                                 10.82 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>=) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is transitive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                       9.14 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                   10.11 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                        9.74 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= LT) for "valid (Ratio Integer)"'s                                                                                                                                                                                                       10.12 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "min :: (Ratio Integer -> Ratio Integer -> Ratio Integer)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a <= b then a else b) for "valid (Ratio Integer)"'s                                                                                                                                                                                                  9.70 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<=) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= GT) for "valid (Ratio Integer)"'s                                                                                                                                                                                                       10.06 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                        9.06 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                       9.10 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                   10.00 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == GT) for "valid (Ratio Integer)"'s                                                                                                                                                                                                       10.28 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                       8.73 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                    4.94 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                    7.78 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == LT) for "valid (Ratio Integer)"'s                                                                                                                                                                                                        8.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid (Ratio Integer)"'s                                                                                                                                                                                                                                       7.86 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Ord Int
[genvalidity-sydtest]     (<=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= GT) for "arbitrary Int"'s                                                                                                                                                                                                                5.19 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "arbitrary Int"'s                                                                                                                                                                                                                                               5.22 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "arbitrary Int"'s                                                                                                                                                                                                                                                4.76 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "arbitrary Int"'s                                                                                                                                                                                                                                            4.79 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "min :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a <= b then a else b) for "arbitrary Int"'s                                                                                                                                                                                                          4.42 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "arbitrary Int"'s                                                                                                                                                                                                                                            4.45 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "arbitrary Int"'s                                                                                                                                                                                                                                               4.19 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == GT) for "arbitrary Int"'s                                                                                                                                                                                                                3.85 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "max :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a >= b then a else b) for "arbitrary Int"'s                                                                                                                                                                                                          3.87 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "arbitrary Int"'s                                                                                                                                                                                                                                               1.75 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == LT) for "arbitrary Int"'s                                                                                                                                                                                                                2.08 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "arbitrary Int"'s                                                                                                                                                                                                                                            9.29 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "arbitrary Int"'s                                                                                                                                                                                                                                               1.74 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= LT) for "arbitrary Int"'s                                                                                                                                                                                                                8.73 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "arbitrary Int"'s                                                                                                                                                                                                                                                1.62 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "arbitrary Int"'s                                                                                                                                                                                                                                            1.46 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Ord Int
[genvalidity-sydtest]     (>=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antisymmetric for "valid Int"'s                                                                                                                                                                                                                                                1.45 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= LT) for "valid Int"'s                                                                                                                                                                                                                    1.60 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid Int"'s                                                                                                                                                                                                                                                   8.39 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid Int"'s                                                                                                                                                                                                                                                    8.36 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "max :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a >= b then a else b) for "valid Int"'s                                                                                                                                                                                                              8.45 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "min :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a <= b then a else b) for "valid Int"'s                                                                                                                                                                                                              8.37 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "valid Int"'s                                                                                                                                                                                                                                                8.38 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == GT) for "valid Int"'s                                                                                                                                                                                                                    8.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid Int"'s                                                                                                                                                                                                                                                   8.18 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "valid Int"'s                                                                                                                                                                                                                                                8.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid Int"'s                                                                                                                                                                                                                                                   8.17 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == LT) for "valid Int"'s                                                                                                                                                                                                                    8.42 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antisymmetric for "valid Int"'s                                                                                                                                                                                                                                                8.44 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= GT) for "valid Int"'s                                                                                                                                                                                                                    8.31 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid Int"'s                                                                                                                                                                                                                                                  10.81 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid Int"'s                                                                                                                                                                                                                                                    8.70 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Ord Int
[genvalidity-sydtest]     (>=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "even Int"'s                                                                                                                                                                                                                                                    8.63 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= LT) for "even Int"'s                                                                                                                                                                                                                     8.72 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "even Int"'s                                                                                                                                                                                                                                                 8.66 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "even Int"'s                                                                                                                                                                                                                                                     8.36 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == LT) for "even Int"'s                                                                                                                                                                                                                     9.61 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "even Int"'s                                                                                                                                                                                                                                                10.09 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "even Int"'s                                                                                                                                                                                                                                                   10.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "even Int"'s                                                                                                                                                                                                                                                   10.08 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b == GT) for "even Int"'s                                                                                                                                                                                                                    10.01 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "even Int"'s                                                                                                                                                                                                                                                 9.91 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "max :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a >= b then a else b) for "even Int"'s                                                                                                                                                                                                               3.08 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     "min :: (Int -> Int -> Int)"
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> if a <= b then a else b) for "even Int"'s                                                                                                                                                                                                               3.22 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "even Int"'s                                                                                                                                                                                                                                                    6.43 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "even Int"'s                                                                                                                                                                                                                                                     3.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> compare a b /= GT) for "even Int"'s                                                                                                                                                                                                                     6.40 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antisymmetric for "even Int"'s                                                                                                                                                                                                                                                 6.19 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.MonadSpec
[genvalidity-sydtest]   Monad []
[genvalidity-sydtest]     relation with Applicative []
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "[] of ints :: [Int]"                                                                                                                                                                                                                               3.20 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "[] of ints :: [Int]" and "[] of ints :: [Int]"                                                                                                                                                                                                      15.18 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "[] of additions :: ([Int -> Int])" and "[] of ints :: [Int]"                                                                                                                                                                                          6.43 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Functor []
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "increments :: (Int -> Int)" and "[] of ints :: [Int]"                                                                                                                                                                              6.38 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "[] of ints :: [Int]" "perturbations using the int :: (Int -> [Int])" and "perturbations using the double the int :: (Int -> [Int])"                                                              272.74 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> [] a and (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "int :: Int" and "perturbations using the int :: (Int -> [Int])"                                                                                                                                                          6.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "[] of ints :: [Int]"                                                                                                                                                                                                        6.03 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad Maybe
[genvalidity-sydtest]     (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "Maybe of ints :: (Maybe Int)" "perturbations using the int :: (Int -> Maybe Int)" and "perturbations using the double the int :: (Int -> Maybe Int)"                                               6.34 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> Maybe a and (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                               6.00 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "int :: Int" and "perturbations using the int :: (Int -> Maybe Int)"                                                                                                                                                      5.97 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Functor Maybe
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "increments :: (Int -> Int)" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                    13.91 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative Maybe
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "Maybe of additions :: (Maybe (Int -> Int))" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                        5.99 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                                      5.99 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "Maybe of ints :: (Maybe Int)" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                     8.57 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad Maybe
[genvalidity-sydtest]     (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "Maybe of ints :: (Maybe Int)" "perturbations using the int :: (Int -> Maybe Int)" and "perturbations using the double the int :: (Int -> Maybe Int)"                                               8.16 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative Maybe
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                                      8.12 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "Maybe of ints :: (Maybe Int)" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                     8.17 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "Maybe of additions :: (Maybe (Int -> Int))" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                        8.13 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> Maybe a and (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                               8.21 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "int :: Int" and "perturbations using the int :: (Int -> Maybe Int)"                                                                                                                                                      8.42 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Functor Maybe
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "increments :: (Int -> Int)" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                     8.35 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad (Either Int)
[genvalidity-sydtest]     return :: a -> (Either Int) a and (>>=) :: (Either Int) a -> (b -> (Either Int) a) -> (Either Int) b
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                                                  11.79 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "int :: Int" and "perturbations using the int :: (Int -> Either Int Int)"                                                                                                                                                 8.19 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative (Either Int)
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "(Either Int) of additions :: (Either Int (Int -> Int))" and "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                8.17 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                                                                          5.22 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "(Either Int) of ints :: (Either Int Int)" and "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                             5.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>>=) :: (Either Int) a -> (b -> (Either Int) a) -> (Either Int) b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "(Either Int) of ints :: (Either Int Int)" "perturbations using the int :: (Int -> Either Int Int)" and "perturbations using the double the int :: (Int -> Either Int Int)"                         5.05 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Functor (Either Int)
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "increments :: (Int -> Int)" and "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                         5.11 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad Maybe
[genvalidity-sydtest]     relation with Functor Maybe
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "appends :: ([Char] -> [Char])" and "Just an ABC :: (Maybe [Char])"                                                                                                                                                                 9.48 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative Maybe
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "Just an ABC :: (Maybe [Char])"                                                                                                                                                                                                                     5.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "Just an ABC :: (Maybe [Char])" and "Just an ABC :: (Maybe [Char])"                                                                                                                                                                                   9.07 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "append 'a' in Just :: (Maybe ([Char] -> [Char]))" and "Just an ABC :: (Maybe [Char])"                                                                                                                                                                 8.76 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "Just an ABC :: (Maybe [Char])" "justisation :: ([Char] -> Maybe [Char])" and "justisation :: ([Char] -> Maybe [Char])"                                                                             8.99 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> Maybe a and (>>=) :: Maybe a -> (b -> Maybe a) -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "Just an ABC :: (Maybe [Char])"                                                                                                                                                                                              8.91 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "ABC :: [Char]" and "justisation :: ([Char] -> Maybe [Char])"                                                                                                                                                             8.96 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad []
[genvalidity-sydtest]     (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "list of fives :: [Int]" "singletonisation :: (Int -> [Int])" and "singletonisation :: (Int -> [Int])"                                                                                             15.11 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> [] a and (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "list of fives :: [Int]"                                                                                                                                                                                                    16.94 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "four :: Int" and "singletonisation :: (Int -> [Int])"                                                                                                                                                                   12.96 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative []
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "list of fives :: [Int]"                                                                                                                                                                                                                           12.93 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "list of fives :: [Int]" and "list of sixes :: [Int]"                                                                                                                                                                                                14.90 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "increment in list :: ([Int -> Int])" and "list of fives :: [Int]"                                                                                                                                                                                    14.65 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Functor []
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "factorisations :: (Int -> Int)" and "list of fives :: [Int]"                                                                                                                                                                      12.94 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Monad []
[genvalidity-sydtest]     relation with Functor []
[genvalidity-sydtest]       ✓ satisfies 'fmap f xs = xs >>= return . f' for "increments :: (Int -> Int)" and "[] of ints :: [Int]"                                                                                                                                                                             14.53 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfies the third Monad law: 'm >>= (x -> k x >>= h) = (m >>= k) >>= h' for "[] of ints :: [Int]" "perturbations using the int :: (Int -> [Int])" and "perturbations using the double the int :: (Int -> [Int])"                                                              197.37 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     relation with Applicative []
[genvalidity-sydtest]       ✓ satisfies '(>>) = (*>)' for "[] of ints :: [Int]" and "[] of ints :: [Int]"                                                                                                                                                                                                      14.69 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies 'pure = return' for "[] of ints :: [Int]"                                                                                                                                                                                                                              14.35 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies '(<*>) = ap' for "[] of additions :: ([Int -> Int])" and "[] of ints :: [Int]"                                                                                                                                                                                         14.62 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     return :: a -> [] a and (>>=) :: [] a -> (b -> [] a) -> [] b
[genvalidity-sydtest]       ✓ satisfy the first Monad law: 'return a >>= k = k a' for "int :: Int" and "perturbations using the int :: (Int -> [Int])"                                                                                                                                                         14.35 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the second Monad law: 'm >>= return = m' for "[] of ints :: [Int]"                                                                                                                                                                                                       14.52 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.EqSpec
[genvalidity-sydtest]   Eq (Ratio Integer)
[genvalidity-sydtest]     (==) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a /= b) for "valid (Ratio Integer)"s                                                                                                                                                                                                             14.57 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid (Ratio Integer)"s                                                                                                                                                                                                                                       14.55 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid (Ratio Integer)"s                                                                                                                                                                                                                                        14.53 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is symmetric for "valid (Ratio Integer)"s                                                                                                                                                                                                                                        11.68 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (/=) :: (Ratio Integer) -> (Ratio Integer) -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a == b) for "valid (Ratio Integer)"s                                                                                                                                                                                                             11.66 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "valid (Ratio Integer)"s                                                                                                                                                                                                                                    10.97 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Eq Int
[genvalidity-sydtest]     (==) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a /= b) for "valid Int"s                                                                                                                                                                                                                         10.61 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "valid Int"s                                                                                                                                                                                                                                                    10.58 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "valid Int"s                                                                                                                                                                                                                                                   10.39 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is symmetric for "valid Int"s                                                                                                                                                                                                                                                    10.35 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (/=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a == b) for "valid Int"s                                                                                                                                                                                                                         10.37 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is antireflexive for "valid Int"s                                                                                                                                                                                                                                                10.34 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Eq Int
[genvalidity-sydtest]     (==) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is transitive for "arbitrary Int"s                                                                                                                                                                                                                                                4.43 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is symmetric for "arbitrary Int"s                                                                                                                                                                                                                                                 3.13 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "arbitrary Int"s                                                                                                                                                                                                                                                 3.12 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a /= b) for "arbitrary Int"s                                                                                                                                                                                                                      4.68 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (/=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "arbitrary Int"s                                                                                                                                                                                                                                             4.47 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a == b) for "arbitrary Int"s                                                                                                                                                                                                                      2.93 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Eq Int
[genvalidity-sydtest]     (/=) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is antireflexive for "even Int"s                                                                                                                                                                                                                                                  1.51 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a == b) for "even Int"s                                                                                                                                                                                                                           2.24 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (==) :: Int -> Int -> Bool
[genvalidity-sydtest]       ✓ is equivalent to (\a b -> not $ a /= b) for "even Int"s                                                                                                                                                                                                                           2.90 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is symmetric for "even Int"s                                                                                                                                                                                                                                                      2.68 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is reflexive for "even Int"s                                                                                                                                                                                                                                                      1.98 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ is transitive for "even Int"s                                                                                                                                                                                                                                                     1.98 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.ArbitrarySpec
[genvalidity-sydtest]   Arbitrary Int
[genvalidity-sydtest]     arbitrary :: Gen Int
[genvalidity-sydtest]       ✓ only generates valid values                                                                                                                                                                                                                                                       2.58 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.Operations.CommutativitySpec
[genvalidity-sydtest]   commutative
[genvalidity-sydtest]     ✓ cross product is not commutative                                                                                                                                                                                                                                                   17.97 ms
[genvalidity-sydtest]       passed for all of 1 inputs.
[genvalidity-sydtest]     ✓ + is commutative                                                                                                                                                                                                                                                                    2.55 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ * is commutative                                                                                                                                                                                                                                                                    2.65 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ - is not commutative                                                                                                                                                                                                                                                               50.78 ms
[genvalidity-sydtest]       passed for all of 1 inputs.
[genvalidity-sydtest]     ✓ dot product is commutative                                                                                                                                                                                                                                                          2.55 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.GenValiditySpec
[genvalidity-sydtest]   GenValid (Ratio Integer)
[genvalidity-sydtest]     genValid   :: Gen (Ratio Integer)
[genvalidity-sydtest]       ✓ only generates valid '(Ratio Integer)'s                                                                                                                                                                                                                                           2.62 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   GenValid (Ratio Integer)
[genvalidity-sydtest]     genValid   :: Gen (Ratio Integer)
[genvalidity-sydtest]       ✓ only generates valid '(Ratio Integer)'s                                                                                                                                                                                                                                           2.49 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.ShrinkingSpec
[genvalidity-sydtest]   shrinkValid :: (Int -> [Int])
[genvalidity-sydtest]     ✓ preserves validity                                                                                                                                                                                                                                                                 18.32 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ never shrinks to itself for valid values                                                                                                                                                                                                                                           17.72 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   shrinkValidPreservesValidOnGenValid
[genvalidity-sydtest]     ✓ [Ordering]                                                                                                                                                                                                                                                                         29.01 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ Ordering                                                                                                                                                                                                                                                                            3.81 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   shrinkValid :: (Ratio Int8 -> [Ratio Int8])
[genvalidity-sydtest]     ✓ never shrinks to itself for valid values                                                                                                                                                                                                                                           18.17 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ preserves validity                                                                                                                                                                                                                                                                 20.37 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   shrinkValidDoesNotShrinkToItself
[genvalidity-sydtest]     ✓ [Int]                                                                                                                                                                                                                                                                             124.47 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ Int                                                                                                                                                                                                                                                                                17.63 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   shrinkValidDoesNotShrinkToItself
[genvalidity-sydtest]     ✓ [Ordering]                                                                                                                                                                                                                                                                         20.94 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ Ordering                                                                                                                                                                                                                                                                            9.72 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   shrinkValidPreservesValidOnGenValid
[genvalidity-sydtest]     ✓ Ordering                                                                                                                                                                                                                                                                           16.02 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]     ✓ [Ordering]                                                                                                                                                                                                                                                                         27.50 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.FunctorSpec
[genvalidity-sydtest]   Functor Maybe
[genvalidity-sydtest]     fmap :: (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "Just an ABC :: (Maybe [Char])" 's given to "prepends :: ([Char] -> [Char])" and "appends :: ([Char] -> [Char])"                                                                                        15.59 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "Just an ABC :: (Maybe [Char])"                                                                                                                                                                                              15.38 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<$) :: a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "ABC :: [Char]" and "Just an ABC :: (Maybe [Char])"                                                                                                                                                                              15.38 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor []
[genvalidity-sydtest]     fmap :: (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "list of fives :: [Int]"                                                                                                                                                                                                     15.44 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "list of fives :: [Int]" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                        16.11 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<$) :: a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "four :: Int" and "list of fives :: [Int]"                                                                                                                                                                                       15.43 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor []
[genvalidity-sydtest]     (<$) :: a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "[] of ints :: [Int]"                                                                                                                                                                                           15.86 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     fmap :: (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "[] of ints :: [Int]" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                           16.03 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "[] of ints :: [Int]"                                                                                                                                                                                                        16.00 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor (Either Int)
[genvalidity-sydtest]     fmap :: (a -> b) -> (Either Int) a -> (Either Int) b
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                                                   15.32 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "(Either Int) of ints :: (Either Int Int)" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                      15.77 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<$) :: a -> (Either Int) b -> (Either Int) a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                                      17.56 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor []
[genvalidity-sydtest]     (<$) :: a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "[] of ints :: [Int]"                                                                                                                                                                                           17.91 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     fmap :: (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "[] of ints :: [Int]"                                                                                                                                                                                                        12.28 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "[] of ints :: [Int]" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                            9.38 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor Maybe
[genvalidity-sydtest]     (<$) :: a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                   5.93 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     fmap :: (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "Maybe of ints :: (Maybe Int)" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                   6.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                5.89 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor ((,) Int)
[genvalidity-sydtest]     fmap :: (a -> b) -> ((,) Int) a -> ((,) Int) b
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "((,) Int) of ints :: (Int,Int)" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                 6.07 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "((,) Int) of ints :: (Int,Int)"                                                                                                                                                                                              5.88 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<$) :: a -> ((,) Int) b -> ((,) Int) a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "((,) Int) of ints :: (Int,Int)"                                                                                                                                                                                 8.21 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Functor Maybe
[genvalidity-sydtest]     (<$) :: a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation for "int :: Int" and "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                   5.97 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     fmap :: (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfieds the second Functor law: 'fmap (f . g) == fmap f . fmap g' for "Maybe of ints :: (Maybe Int)" 's given to "increments :: (Int -> Int)" and "scalings :: (Int -> Int)"                                                                                                   8.98 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfies the first Fuctor law: 'fmap id == id' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                7.80 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.ShowSpec
[genvalidity-sydtest]   Show (Ratio Integer) and Read (Ratio Integer)
[genvalidity-sydtest]     ✓ are implemented such that read . show == id for arbitrary values                                                                                                                                                                                                                    7.73 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   Show Int and Read Int
[genvalidity-sydtest]     ✓ are implemented such that read . show == id for valid values                                                                                                                                                                                                                        8.81 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   Show (Ratio Integer) and Read (Ratio Integer)
[genvalidity-sydtest]     ✓ are implemented such that read . show == id for valid values                                                                                                                                                                                                                       16.13 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest]   Show Int and Read Int
[genvalidity-sydtest]     ✓ are implemented such that read . show == id for even values                                                                                                                                                                                                                         8.64 ms
[genvalidity-sydtest]       passed for all of 100 inputs.
[genvalidity-sydtest] Test.Syd.Validity.ApplicativeSpec
[genvalidity-sydtest]   Applicative []
[genvalidity-sydtest]     (*>) :: [] a -> [] b -> [] b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "[] of ints :: [Int]" in front of "[] of ints :: Int"                                                                                                                                  22.40 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     pure :: a -> [] a and (<*>) :: [] (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "[] of increments :: ([Int -> Int])" sequenced with "int :: Int"                                                                                                                                               8.60 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "[] of ints :: [Int]"                                                                                                                                            8.68 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "[] of ints :: [Int]"                                                                                                                                                                                                           7.02 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "[] of scalings :: ([Int -> Int])" composed with "[] of increments :: ([Int -> Int])" and applied to "[] of ints :: [Int]"                                                                        8.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "int :: Int"                                                                                                                                                       5.34 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: [] a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "[] of ints :: Int" behind "[] of ints :: [Int]"                                                                                                                                               18.98 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative (Either Int)
[genvalidity-sydtest]     (*>) :: (Either Int) a -> (Either Int) b -> (Either Int) b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "(Either Int) of ints :: (Either Int Int)" in front of "(Either Int) of ints :: Int"                                                                                                    3.65 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: (Either Int) a -> (Either Int) b -> (Either Int) a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "(Either Int) of ints :: Int" behind "(Either Int) of ints :: (Either Int Int)"                                                                                                                 5.33 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     pure :: a -> (Either Int) a and (<*>) :: (Either Int) (a -> b) -> (Either Int) a -> (Either Int) b
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "(Either Int) of ints :: (Either Int Int)"                                                                                                                                                                                      5.30 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "(Either Int) of ints :: (Either Int Int)"                                                                                                                       5.33 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "(Either Int) of scalings :: (Either Int (Int -> Int))" composed with "(Either Int) of increments :: (Either Int (Int -> Int))" and applied to "(Either Int) of ints :: (Either Int Int)"         6.00 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "int :: Int"                                                                                                                                                       5.49 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "(Either Int) of increments :: (Either Int (Int -> Int))" sequenced with "int :: Int"                                                                                                                          5.51 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative Maybe
[genvalidity-sydtest]     pure :: a -> Maybe a and (<*>) :: Maybe (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "int :: Int"                                                                                                                                                       5.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "Maybe of increments :: (Maybe (Int -> Int))" sequenced with "int :: Int"                                                                                                                                      5.24 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "Maybe of ints :: (Maybe Int)"                                                                                                                                   5.25 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "Maybe of scalings :: (Maybe (Int -> Int))" composed with "Maybe of increments :: (Maybe (Int -> Int))" and applied to "Maybe of ints :: (Maybe Int)"                                             6.27 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                  6.01 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: Maybe a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "Maybe of ints :: Int" behind "Maybe of ints :: (Maybe Int)"                                                                                                                                    4.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (*>) :: Maybe a -> Maybe b -> Maybe b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "Maybe of ints :: (Maybe Int)" in front of "Maybe of ints :: Int"                                                                                                                       4.26 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative Maybe
[genvalidity-sydtest]     (<*) :: Maybe a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "purely Nothing :: [Char]" behind "Just an ABC :: (Maybe [Char])"                                                                                                                               5.99 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (*>) :: Maybe a -> Maybe b -> Maybe b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "Just an ABC :: (Maybe [Char])" in front of "purely Nothing :: [Char]"                                                                                                                  6.01 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     pure :: a -> Maybe a and (<*>) :: Maybe (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "Just an ABC :: (Maybe [Char])"                                                                                                                                                                                                13.64 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "prepends :: ([Char] -> [Char])" mapped over "Just an ABC :: (Maybe [Char])"                                                                                                                              7.36 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "prepends :: ([Char] -> [Char])" sequenced with "ABC :: [Char]"                                                                                                                                                7.33 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "appends in a Just :: (Maybe ([Char] -> [Char]))" composed with "prepends in a Just :: (Maybe ([Char] -> [Char]))" and applied to "Just an ABC :: (Maybe [Char])"                                11.86 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "prepends in a Just :: (Maybe ([Char] -> [Char]))" sequenced with "ABC :: [Char]"                                                                                                                             11.87 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative []
[genvalidity-sydtest]     (*>) :: [] a -> [] b -> [] b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "[] of ints :: [Int]" in front of "[] of ints :: Int"                                                                                                                                  23.06 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     pure :: a -> [] a and (<*>) :: [] (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "int :: Int"                                                                                                                                                       4.17 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "[] of scalings :: ([Int -> Int])" composed with "[] of increments :: ([Int -> Int])" and applied to "[] of ints :: [Int]"                                                                       10.90 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "[] of ints :: [Int]"                                                                                                                                           11.75 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "[] of ints :: [Int]"                                                                                                                                                                                                          11.60 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "[] of increments :: ([Int -> Int])" sequenced with "int :: Int"                                                                                                                                              11.48 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: [] a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "[] of ints :: Int" behind "[] of ints :: [Int]"                                                                                                                                               20.61 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative []
[genvalidity-sydtest]     pure :: a -> [] a and (<*>) :: [] (a -> b) -> [] a -> [] b
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "four :: Int"                                                                                                                                                      9.73 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "increments in a list :: ([Int -> Int])" sequenced with "four :: Int"                                                                                                                                          9.70 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "scalings in a list :: ([Int -> Int])" composed with "increments in a list :: ([Int -> Int])" and applied to "list of fives :: [Int]"                                                             9.70 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "list of fives :: [Int]"                                                                                                                                                                                                        9.76 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "list of fives :: [Int]"                                                                                                                                         9.67 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: [] a -> [] b -> [] a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "purely empty list :: Int" behind "list of fives :: [Int]"                                                                                                                                      8.00 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (*>) :: [] a -> [] b -> [] b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "list of fives :: [Int]" in front of "purely empty list :: Int"                                                                                                                         8.01 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]   Applicative Maybe
[genvalidity-sydtest]     (*>) :: Maybe a -> Maybe b -> Maybe b
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u Type> v = pure (const id) <*> u <*> v' for "Maybe of ints :: (Maybe Int)" in front of "Maybe of ints :: Int"                                                                                                                       8.13 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     (<*) :: Maybe a -> Maybe b -> Maybe a
[genvalidity-sydtest]       ✓ is equivalent to its default implementation 'u <* v = pure const <*> u <*> v' for "Maybe of ints :: Int" behind "Maybe of ints :: (Maybe Int)"                                                                                                                                    8.16 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]     pure :: a -> Maybe a and (<*>) :: Maybe (a -> b) -> Maybe a -> Maybe b
[genvalidity-sydtest]       ✓ satisfy the composition law: 'pure (.) <*> u <*> v <*> w = u <*> (v <*> w)' for "Maybe of scalings :: (Maybe (Int -> Int))" composed with "Maybe of increments :: (Maybe (Int -> Int))" and applied to "Maybe of ints :: (Maybe Int)"                                             8.16 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the identity law: 'pure id <*> v = v' for "Maybe of ints :: (Maybe Int)"                                                                                                                                                                                                  6.77 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the law about the functor instance: fmap f x = pure f <*> x for "increments :: (Int -> Int)" mapped over "Maybe of ints :: (Maybe Int)"                                                                                                                                  11.23 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the homomorphism law: 'pure f <*> pure x = pure (f x)' for "increments :: (Int -> Int)" sequenced with "int :: Int"                                                                                                                                                       6.88 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest]       ✓ satisfy the interchange law: 'u <*> pure y = pure ($ y) <*> u' for "Maybe of increments :: (Maybe (Int -> Int))" sequenced with "int :: Int"                                                                                                                                      1.48 ms
[genvalidity-sydtest]         passed for all of 100 inputs.
[genvalidity-sydtest] 
[genvalidity-sydtest]   Examples:                     24402
[genvalidity-sydtest]   Passed:                       246
[genvalidity-sydtest]   Failed:                       0
[genvalidity-sydtest]   Sum of test runtimes:         2.86 seconds
[genvalidity-sydtest]   Test suite took:              0.30 seconds
[genvalidity-sydtest] 
[genvalidity-sydtest] Test suite genvalidity-sydtest-test: PASS
[genvalidity-sydtest] Test suite logged to:
[genvalidity-sydtest] dist/test/genvalidity-sydtest-1.0.1.0-genvalidity-sydtest-test.log
[genvalidity-sydtest] 1 of 1 test suites (1 of 1 test cases) passed.
[genvalidity-sydtest] Phase: haddockPhase
[really-safe-money] [ 4 of 12] Compiling Money.ConversionRate ( src/Money/ConversionRate.hs, dist/build/Money/ConversionRate.p_o )
[really-safe-money] mutation: instrumenting Money.ConversionRate
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 116:45-46
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 116:45-46
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 109:27-28
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 109:27-28
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 72:25-26
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/Negate at 72:21-26
[really-safe-money] mutation: recording Money.ConversionRate/CondFlip at 72:18-69
[really-safe-money] mutation: recording Money.ConversionRate/IntLit at 38:56-57
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/ConstBool at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/Negate at 38:41-57
[really-safe-money] mutation: recording Money.ConversionRate/ListLit at 37:7-8
[really-safe-money] mutation: recording Money.ConversionRate/ListLit at 37:7-8
[genvalidity-sydtest] Preprocessing library for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Running Haddock on library for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Warning: The documentation for the following packages are not installed. No
[genvalidity-sydtest] links will be generated to these packages: attoparsec-0.14.4,
[genvalidity-sydtest] attoparsec-0.14.4, libyaml-clib-0.2.5, path-0.9.6, path-0.9.6, vector-0.13.2.0
[really-safe-money] [ 5 of 12] Compiling Money.ConversionRateOf ( src/Money/ConversionRateOf.hs, dist/build/Money/ConversionRateOf.p_o )
[really-safe-money] mutation: instrumenting Money.ConversionRateOf
[genvalidity-sydtest] [ 1 of 34] Compiling Paths_genvalidity_sydtest ( dist/build/autogen/Paths_genvalidity_sydtest.hs, nothing )
[genvalidity-sydtest] [ 2 of 34] Compiling Test.Syd.Validity.Functions.Idempotence ( src/Test/Syd/Validity/Functions/Idempotence.hs, nothing )
[genvalidity-sydtest] [ 3 of 34] Compiling Test.Syd.Validity.Operations.Associativity ( src/Test/Syd/Validity/Operations/Associativity.hs, nothing )
[genvalidity-sydtest] [ 4 of 34] Compiling Test.Syd.Validity.Operations.Commutativity ( src/Test/Syd/Validity/Operations/Commutativity.hs, nothing )
[genvalidity-sydtest] [ 5 of 34] Compiling Test.Syd.Validity.Operations.Identity ( src/Test/Syd/Validity/Operations/Identity.hs, nothing )
[genvalidity-sydtest] [ 6 of 34] Compiling Test.Syd.Validity.Operations ( src/Test/Syd/Validity/Operations.hs, nothing )
[genvalidity-sydtest] [ 7 of 34] Compiling Test.Syd.Validity.Property.Utils ( src/Test/Syd/Validity/Property/Utils.hs, nothing )
[genvalidity-sydtest] [ 8 of 34] Compiling Test.Syd.Validity.GenValidity.Property ( src/Test/Syd/Validity/GenValidity/Property.hs, nothing )
[genvalidity-sydtest] [ 9 of 34] Compiling Test.Syd.Validity.Functions.Validity ( src/Test/Syd/Validity/Functions/Validity.hs, nothing )
[really-safe-money] [ 6 of 12] Compiling Money.Amount     ( src/Money/Amount.hs, dist/build/Money/Amount.p_o )
[really-safe-money] mutation: instrumenting Money.Amount
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 801:36-38
[really-safe-money] mutation: recording Money.Amount/IntLit at 569:18-19
[really-safe-money] mutation: recording Money.Amount/ConstBool at 569:10-19
[really-safe-money] mutation: recording Money.Amount/ConstBool at 569:10-19
[really-safe-money] mutation: recording Money.Amount/Negate at 569:10-19
[really-safe-money] mutation: recording Money.Amount/CondFlip at 569:7-29
[really-safe-money] mutation: recording Money.Amount/ConstBool at 544:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 544:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 544:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 544:7-66
[really-safe-money] mutation: recording Money.Amount/IntLit at 518:14-15
[really-safe-money] mutation: recording Money.Amount/ConstBool at 518:10-15
[really-safe-money] mutation: recording Money.Amount/ConstBool at 518:10-15
[really-safe-money] mutation: recording Money.Amount/Negate at 518:10-15
[really-safe-money] mutation: recording Money.Amount/CondFlip at 518:7-66
[really-safe-money] mutation: recording Money.Amount/ConstBool at 476:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 476:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 476:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 476:7-66
[really-safe-money] mutation: recording Money.Amount/ConstBool at 388:5-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 388:5-16
[really-safe-money] mutation: recording Money.Amount/Negate at 388:5-16
[really-safe-money] mutation: recording Money.Amount/IntLit at 389:9-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 389:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 389:5-10
[really-safe-money] mutation: recording Money.Amount/Negate at 389:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 390:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 390:5-14
[really-safe-money] mutation: recording Money.Amount/Negate at 390:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 397:14-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 397:14-31
[really-safe-money] mutation: recording Money.Amount/Negate at 397:14-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 399:18-83
[really-safe-money] mutation: recording Money.Amount/ConstBool at 399:18-83
[really-safe-money] mutation: recording Money.Amount/Negate at 399:18-83
[really-safe-money] mutation: recording Money.Amount/CondFlip at 399:15-57
[really-safe-money] mutation: recording Money.Amount/CondFlip at 397:11-25
[really-safe-money] mutation: recording Money.Amount/IntLit at 320:9-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 320:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 320:5-10
[really-safe-money] mutation: recording Money.Amount/Negate at 320:5-10
[really-safe-money] mutation: recording Money.Amount/ConstBool at 321:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 321:5-14
[really-safe-money] mutation: recording Money.Amount/Negate at 321:5-14
[really-safe-money] mutation: recording Money.Amount/ConstBool at 327:9-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 327:9-16
[really-safe-money] mutation: recording Money.Amount/Negate at 327:9-16
[really-safe-money] mutation: recording Money.Amount/ConstBool at 328:9-21
[really-safe-money] mutation: recording Money.Amount/ConstBool at 328:9-21
[really-safe-money] mutation: recording Money.Amount/Negate at 328:9-21
[really-safe-money] mutation: recording Money.Amount/ConstBool at 329:9-18
[really-safe-money] mutation: recording Money.Amount/ConstBool at 329:9-18
[really-safe-money] mutation: recording Money.Amount/Negate at 329:9-18
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/IntLit at 332:38-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 332:14-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 332:14-40
[really-safe-money] mutation: recording Money.Amount/Negate at 332:14-40
[really-safe-money] mutation: recording Money.Amount/ConstBool at 339:22-39
[really-safe-money] mutation: recording Money.Amount/ConstBool at 339:22-39
[really-safe-money] mutation: recording Money.Amount/Negate at 339:22-39
[really-safe-money] mutation: recording Money.Amount/ConstBool at 341:26-91
[really-safe-money] mutation: recording Money.Amount/ConstBool at 341:26-91
[really-safe-money] mutation: recording Money.Amount/Negate at 341:26-91
[really-safe-money] mutation: recording Money.Amount/CondFlip at 341:23-65
[really-safe-money] mutation: recording Money.Amount/CondFlip at 339:19-33
[really-safe-money] mutation: recording Money.Amount/CondFlip at 332:11-33
[really-safe-money] mutation: recording Money.Amount/IntLit at 290:79-80
[really-safe-money] mutation: recording Money.Amount/IntLit at 494:96-97
[really-safe-money] mutation: recording Money.Amount/ConstBool at 495:10-23
[really-safe-money] mutation: recording Money.Amount/ConstBool at 495:10-23
[really-safe-money] mutation: recording Money.Amount/Negate at 495:10-23
[really-safe-money] mutation: recording Money.Amount/CondFlip at 495:7-66
[really-safe-money] mutation: recording Money.Amount/IntLit at 250:15-16
[really-safe-money] mutation: recording Money.Amount/IntLit at 661:30-31
[really-safe-money] mutation: recording Money.Amount/ConstBool at 681:12-37
[really-safe-money] mutation: recording Money.Amount/ConstBool at 681:12-37
[really-safe-money] mutation: recording Money.Amount/Negate at 681:12-37
[really-safe-money] mutation: recording Money.Amount/CondFlip at 681:9-27
[really-safe-money] mutation: recording Money.Amount/ConstBool at 806:79-92
[really-safe-money] mutation: recording Money.Amount/ConstBool at 806:79-92
[really-safe-money] mutation: recording Money.Amount/Negate at 806:79-92
[really-safe-money] mutation: recording Money.Amount/ConstBool at 607:15-22
[really-safe-money] mutation: recording Money.Amount/ConstBool at 607:15-22
[really-safe-money] mutation: recording Money.Amount/Negate at 607:15-22
[really-safe-money] mutation: recording Money.Amount/ListLit at 603:7-8
[really-safe-money] mutation: recording Money.Amount/ListLit at 603:7-8
[genvalidity-sydtest] [10 of 34] Compiling Test.Syd.Validity.Relations.Antireflexivity ( src/Test/Syd/Validity/Relations/Antireflexivity.hs, nothing )
[genvalidity-sydtest] [11 of 34] Compiling Test.Syd.Validity.Relations.Antisymmetry ( src/Test/Syd/Validity/Relations/Antisymmetry.hs, nothing )
[genvalidity-sydtest] [12 of 34] Compiling Test.Syd.Validity.Relations.Reflexivity ( src/Test/Syd/Validity/Relations/Reflexivity.hs, nothing )
[genvalidity-sydtest] [13 of 34] Compiling Test.Syd.Validity.Relations.Symmetry ( src/Test/Syd/Validity/Relations/Symmetry.hs, nothing )
[genvalidity-sydtest] [14 of 34] Compiling Test.Syd.Validity.Relations.Transitivity ( src/Test/Syd/Validity/Relations/Transitivity.hs, nothing )
[genvalidity-sydtest] [15 of 34] Compiling Test.Syd.Validity.Relations ( src/Test/Syd/Validity/Relations.hs, nothing )
[genvalidity-sydtest] [16 of 34] Compiling Test.Syd.Validity.Shrinking.Property ( src/Test/Syd/Validity/Shrinking/Property.hs, nothing )
[genvalidity-sydtest] [17 of 34] Compiling Test.Syd.Validity.Types ( src/Test/Syd/Validity/Types.hs, nothing )
[genvalidity-sydtest] [18 of 34] Compiling Test.Syd.Validity.Functions.Inverse ( src/Test/Syd/Validity/Functions/Inverse.hs, nothing )
[genvalidity-sydtest] [19 of 34] Compiling Test.Syd.Validity.Functions.Equivalence ( src/Test/Syd/Validity/Functions/Equivalence.hs, nothing )
[genvalidity-sydtest] [20 of 34] Compiling Test.Syd.Validity.Functions.CanFail ( src/Test/Syd/Validity/Functions/CanFail.hs, nothing )
[genvalidity-sydtest] [21 of 34] Compiling Test.Syd.Validity.Functions ( src/Test/Syd/Validity/Functions.hs, nothing )
[genvalidity-sydtest] [22 of 34] Compiling Test.Syd.Validity.Property ( src/Test/Syd/Validity/Property.hs, nothing )
[genvalidity-sydtest] [23 of 34] Compiling Test.Syd.Validity.Utils ( src/Test/Syd/Validity/Utils.hs, nothing )
[genvalidity-sydtest] [24 of 34] Compiling Test.Syd.Validity.Shrinking ( src/Test/Syd/Validity/Shrinking.hs, nothing )
[genvalidity-sydtest] [25 of 34] Compiling Test.Syd.Validity.Show ( src/Test/Syd/Validity/Show.hs, nothing )
[genvalidity-sydtest] [26 of 34] Compiling Test.Syd.Validity.Ord ( src/Test/Syd/Validity/Ord.hs, nothing )
[genvalidity-sydtest] [27 of 34] Compiling Test.Syd.Validity.Monoid ( src/Test/Syd/Validity/Monoid.hs, nothing )
[genvalidity-sydtest] [28 of 34] Compiling Test.Syd.Validity.Monad ( src/Test/Syd/Validity/Monad.hs, nothing )
[genvalidity-sydtest] [29 of 34] Compiling Test.Syd.Validity.GenValidity ( src/Test/Syd/Validity/GenValidity.hs, nothing )
[genvalidity-sydtest] [30 of 34] Compiling Test.Syd.Validity.Functor ( src/Test/Syd/Validity/Functor.hs, nothing )
[genvalidity-sydtest] [31 of 34] Compiling Test.Syd.Validity.Eq ( src/Test/Syd/Validity/Eq.hs, nothing )
[genvalidity-sydtest] [32 of 34] Compiling Test.Syd.Validity.Arbitrary ( src/Test/Syd/Validity/Arbitrary.hs, nothing )
[genvalidity-sydtest] [33 of 34] Compiling Test.Syd.Validity.Applicative ( src/Test/Syd/Validity/Applicative.hs, nothing )
[genvalidity-sydtest] [34 of 34] Compiling Test.Syd.Validity ( src/Test/Syd/Validity.hs, nothing )
[genvalidity-sydtest] Haddock coverage:
[genvalidity-sydtest]   50% (  2 /  4) in 'Test.Syd.Validity.Functions.Idempotence'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     idempotentOnGen (src/Test/Syd/Validity/Functions/Idempotence.hs:17)
[genvalidity-sydtest]     idempotent (src/Test/Syd/Validity/Functions/Idempotence.hs:20)
[genvalidity-sydtest]   75% (  3 /  4) in 'Test.Syd.Validity.Operations.Associativity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]   75% (  3 /  4) in 'Test.Syd.Validity.Operations.Commutativity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]   64% (  9 / 14) in 'Test.Syd.Validity.Operations.Identity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     leftIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:54)
[genvalidity-sydtest]     leftIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:66)
[genvalidity-sydtest]     rightIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:111)
[genvalidity-sydtest]     rightIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:123)
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Operations'
[genvalidity-sydtest]    0% (  0 /  6) in 'Test.Syd.Validity.Property.Utils'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     forAllValid (src/Test/Syd/Validity/Property/Utils.hs:15)
[genvalidity-sydtest]     shouldBeValid (src/Test/Syd/Validity/Property/Utils.hs:24)
[genvalidity-sydtest]     shouldBeInvalid (src/Test/Syd/Validity/Property/Utils.hs:40)
[genvalidity-sydtest]     <==> (src/Test/Syd/Validity/Property/Utils.hs:21)
[genvalidity-sydtest]     ===> (src/Test/Syd/Validity/Property/Utils.hs:18)
[genvalidity-sydtest]  100% (  3 /  3) in 'Test.Syd.Validity.GenValidity.Property'
[genvalidity-sydtest]   40% (  4 / 10) in 'Test.Syd.Validity.Functions.Validity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     producesValidsOnGens2 (src/Test/Syd/Validity/Functions/Validity.hs:51)
[genvalidity-sydtest]     producesValid2 (src/Test/Syd/Validity/Functions/Validity.hs:58)
[genvalidity-sydtest]     producesValidsOnArbitrary2 (src/Test/Syd/Validity/Functions/Validity.hs:64)
[genvalidity-sydtest]     producesValidsOnGens3 (src/Test/Syd/Validity/Functions/Validity.hs:72)
[genvalidity-sydtest]     producesValid3 (src/Test/Syd/Validity/Functions/Validity.hs:87)
[genvalidity-sydtest]     producesValidsOnArbitrary3 (src/Test/Syd/Validity/Functions/Validity.hs:101)
[genvalidity-sydtest]   60% (  3 /  5) in 'Test.Syd.Validity.Relations.Antireflexivity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     antireflexivityOnGen (src/Test/Syd/Validity/Relations/Antireflexivity.hs:32)
[genvalidity-sydtest]   50% (  3 /  6) in 'Test.Syd.Validity.Relations.Antisymmetry'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     antisymmetryOnGensWithEquality (src/Test/Syd/Validity/Relations/Antisymmetry.hs:43)
[genvalidity-sydtest]     antisymmetryOnGens (src/Test/Syd/Validity/Relations/Antisymmetry.hs:54)
[genvalidity-sydtest]   60% (  3 /  5) in 'Test.Syd.Validity.Relations.Reflexivity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     reflexivityOnGen (src/Test/Syd/Validity/Relations/Reflexivity.hs:32)
[genvalidity-sydtest]   60% (  3 /  5) in 'Test.Syd.Validity.Relations.Symmetry'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     symmetryOnGens (src/Test/Syd/Validity/Relations/Symmetry.hs:34)
[genvalidity-sydtest]   60% (  3 /  5) in 'Test.Syd.Validity.Relations.Transitivity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     transitivityOnGens (src/Test/Syd/Validity/Relations/Transitivity.hs:35)
[genvalidity-sydtest]  100% (  6 /  6) in 'Test.Syd.Validity.Relations'
[genvalidity-sydtest]  100% ( 13 / 13) in 'Test.Syd.Validity.Shrinking.Property'
[genvalidity-sydtest]   50% (  1 /  2) in 'Test.Syd.Validity.Types'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]   15% (  2 / 13) in 'Test.Syd.Validity.Functions.Inverse'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     inverseFunctionsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:28)
[genvalidity-sydtest]     inverseFunctions (src/Test/Syd/Validity/Functions/Inverse.hs:33)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:49)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:60)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:68)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:78)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:89)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:97)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:107)
[genvalidity-sydtest]     inverseFunctionsIfSucceed (src/Test/Syd/Validity/Functions/Inverse.hs:120)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:128)
[genvalidity-sydtest]    7% (  2 / 28) in 'Test.Syd.Validity.Functions.Equivalence'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     equivalentOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:47)
[genvalidity-sydtest]     equivalent (src/Test/Syd/Validity/Functions/Equivalence.hs:54)
[genvalidity-sydtest]     equivalentOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:73)
[genvalidity-sydtest]     equivalent2 (src/Test/Syd/Validity/Functions/Equivalence.hs:81)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:100)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:119)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:111)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:129)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:162)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:147)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:172)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:191)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:183)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:201)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:234)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:219)
[genvalidity-sydtest]     equivalentWhenSucceedOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:244)
[genvalidity-sydtest]     equivalentWhenSucceed (src/Test/Syd/Validity/Functions/Equivalence.hs:258)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:266)
[genvalidity-sydtest]     equivalentWhenSucceedOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:276)
[genvalidity-sydtest]     equivalentWhenSucceed2 (src/Test/Syd/Validity/Functions/Equivalence.hs:312)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:297)
[genvalidity-sydtest]     equivalentOnGens3 (src/Test/Syd/Validity/Functions/Equivalence.hs:322)
[genvalidity-sydtest]     equivalent3 (src/Test/Syd/Validity/Functions/Equivalence.hs:338)
[genvalidity-sydtest]     equivalentOnArbitrary3 (src/Test/Syd/Validity/Functions/Equivalence.hs:353)
[genvalidity-sydtest]   38% (  7 / 18) in 'Test.Syd.Validity.Functions.CanFail'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     succeedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:77)
[genvalidity-sydtest]     succeeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:84)
[genvalidity-sydtest]     succeedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:90)
[genvalidity-sydtest]     failsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:100)
[genvalidity-sydtest]     validIfSucceedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:109)
[genvalidity-sydtest]     validIfSucceeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:119)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:125)
[genvalidity-sydtest]     validIfSucceedsOnGens3 (src/Test/Syd/Validity/Functions/CanFail.hs:133)
[genvalidity-sydtest]     validIfSucceeds3 (src/Test/Syd/Validity/Functions/CanFail.hs:152)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary3 (src/Test/Syd/Validity/Functions/CanFail.hs:158)
[genvalidity-sydtest]  100% (  6 /  6) in 'Test.Syd.Validity.Functions'
[genvalidity-sydtest]   54% ( 80 /146) in 'Test.Syd.Validity.Property'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     Module header
[genvalidity-sydtest]     forAllValid (src/Test/Syd/Validity/Property/Utils.hs:15)
[genvalidity-sydtest]     producesValidsOnGens2 (src/Test/Syd/Validity/Functions/Validity.hs:51)
[genvalidity-sydtest]     producesValid2 (src/Test/Syd/Validity/Functions/Validity.hs:58)
[genvalidity-sydtest]     producesValidsOnArbitrary2 (src/Test/Syd/Validity/Functions/Validity.hs:64)
[genvalidity-sydtest]     producesValidsOnGens3 (src/Test/Syd/Validity/Functions/Validity.hs:72)
[genvalidity-sydtest]     producesValid3 (src/Test/Syd/Validity/Functions/Validity.hs:87)
[genvalidity-sydtest]     producesValidsOnArbitrary3 (src/Test/Syd/Validity/Functions/Validity.hs:101)
[genvalidity-sydtest]     succeedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:77)
[genvalidity-sydtest]     succeeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:84)
[genvalidity-sydtest]     succeedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:90)
[genvalidity-sydtest]     failsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:100)
[genvalidity-sydtest]     validIfSucceedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:109)
[genvalidity-sydtest]     validIfSucceeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:119)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:125)
[genvalidity-sydtest]     validIfSucceedsOnGens3 (src/Test/Syd/Validity/Functions/CanFail.hs:133)
[genvalidity-sydtest]     validIfSucceeds3 (src/Test/Syd/Validity/Functions/CanFail.hs:152)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary3 (src/Test/Syd/Validity/Functions/CanFail.hs:158)
[genvalidity-sydtest]     equivalentOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:47)
[genvalidity-sydtest]     equivalent (src/Test/Syd/Validity/Functions/Equivalence.hs:54)
[genvalidity-sydtest]     equivalentOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:73)
[genvalidity-sydtest]     equivalent2 (src/Test/Syd/Validity/Functions/Equivalence.hs:81)
[genvalidity-sydtest]     equivalentOnGens3 (src/Test/Syd/Validity/Functions/Equivalence.hs:322)
[genvalidity-sydtest]     equivalent3 (src/Test/Syd/Validity/Functions/Equivalence.hs:338)
[genvalidity-sydtest]     equivalentOnArbitrary3 (src/Test/Syd/Validity/Functions/Equivalence.hs:353)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:100)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:119)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:111)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:129)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:162)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:147)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:172)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:191)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:183)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:201)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:234)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:219)
[genvalidity-sydtest]     equivalentWhenSucceedOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:244)
[genvalidity-sydtest]     equivalentWhenSucceed (src/Test/Syd/Validity/Functions/Equivalence.hs:258)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:266)
[genvalidity-sydtest]     equivalentWhenSucceedOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:276)
[genvalidity-sydtest]     equivalentWhenSucceed2 (src/Test/Syd/Validity/Functions/Equivalence.hs:312)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:297)
[genvalidity-sydtest]     inverseFunctionsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:28)
[genvalidity-sydtest]     inverseFunctions (src/Test/Syd/Validity/Functions/Inverse.hs:33)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:49)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:60)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:68)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:78)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:89)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:97)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:107)
[genvalidity-sydtest]     inverseFunctionsIfSucceed (src/Test/Syd/Validity/Functions/Inverse.hs:120)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:128)
[genvalidity-sydtest]     idempotentOnGen (src/Test/Syd/Validity/Functions/Idempotence.hs:17)
[genvalidity-sydtest]     idempotent (src/Test/Syd/Validity/Functions/Idempotence.hs:20)
[genvalidity-sydtest]     reflexivityOnGen (src/Test/Syd/Validity/Relations/Reflexivity.hs:32)
[genvalidity-sydtest]     transitivityOnGens (src/Test/Syd/Validity/Relations/Transitivity.hs:35)
[genvalidity-sydtest]     antisymmetryOnGensWithEquality (src/Test/Syd/Validity/Relations/Antisymmetry.hs:43)
[genvalidity-sydtest]     antisymmetryOnGens (src/Test/Syd/Validity/Relations/Antisymmetry.hs:54)
[genvalidity-sydtest]     antireflexivityOnGen (src/Test/Syd/Validity/Relations/Antireflexivity.hs:32)
[genvalidity-sydtest]     symmetryOnGens (src/Test/Syd/Validity/Relations/Symmetry.hs:34)
[genvalidity-sydtest]     leftIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:54)
[genvalidity-sydtest]     leftIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:66)
[genvalidity-sydtest]     rightIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:111)
[genvalidity-sydtest]     rightIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:123)
[genvalidity-sydtest] Warning: 'Spec' is out of scope.
[genvalidity-sydtest]     If you qualify the identifier, haddock can try to link it anyway.
[genvalidity-sydtest]   14% (  1 /  7) in 'Test.Syd.Validity.Utils'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     nameOf (src/Test/Syd/Validity/Utils.hs:27)
[genvalidity-sydtest]     genDescr (src/Test/Syd/Validity/Utils.hs:38)
[genvalidity-sydtest]     binRelStr (src/Test/Syd/Validity/Utils.hs:45)
[genvalidity-sydtest]     shouldBeValid (src/Test/Syd/Validity/Property/Utils.hs:24)
[genvalidity-sydtest]     shouldBeInvalid (src/Test/Syd/Validity/Property/Utils.hs:40)
[genvalidity-sydtest]     Anon (src/Test/Syd/Validity/Utils.hs:49)
[genvalidity-sydtest]   45% (  5 / 11) in 'Test.Syd.Validity.Shrinking'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     shrinkValidSpec (src/Test/Syd/Validity/Shrinking.hs:35)
[genvalidity-sydtest]     shrinkValidSpecWithLimit (src/Test/Syd/Validity/Shrinking.hs:48)
[genvalidity-sydtest]     shrinkValidPreservesValidOnGenValid (src/Test/Syd/Validity/Shrinking.hs:66)
[genvalidity-sydtest]     shrinkValidPreservesValidOnGenValidWithLimit (src/Test/Syd/Validity/Shrinking.hs:74)
[genvalidity-sydtest]     shrinkValidDoesNotShrinkToItself (src/Test/Syd/Validity/Shrinking.hs:81)
[genvalidity-sydtest]     shrinkValidDoesNotShrinkToItselfWithLimit (src/Test/Syd/Validity/Shrinking.hs:89)
[genvalidity-sydtest]  100% (  7 /  7) in 'Test.Syd.Validity.Show'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Ord'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Monoid'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Monad'
[genvalidity-sydtest]  100% (  5 /  5) in 'Test.Syd.Validity.GenValidity'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Functor'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Eq'
[genvalidity-sydtest]  100% (  3 /  3) in 'Test.Syd.Validity.Arbitrary'
[genvalidity-sydtest]  100% (  4 /  4) in 'Test.Syd.Validity.Applicative'
[genvalidity-sydtest] Warning: 'Spec' is out of scope.
[genvalidity-sydtest]     If you qualify the identifier, haddock can try to link it anyway.
[genvalidity-sydtest]   63% (122 /192) in 'Test.Syd.Validity'
[genvalidity-sydtest]   Missing documentation for:
[genvalidity-sydtest]     forAllValid (src/Test/Syd/Validity/Property/Utils.hs:15)
[genvalidity-sydtest]     shouldBeValid (src/Test/Syd/Validity/Property/Utils.hs:24)
[genvalidity-sydtest]     shouldBeInvalid (src/Test/Syd/Validity/Property/Utils.hs:40)
[genvalidity-sydtest]     shrinkValidSpec (src/Test/Syd/Validity/Shrinking.hs:35)
[genvalidity-sydtest]     shrinkValidSpecWithLimit (src/Test/Syd/Validity/Shrinking.hs:48)
[genvalidity-sydtest]     shrinkValidPreservesValidOnGenValid (src/Test/Syd/Validity/Shrinking.hs:66)
[genvalidity-sydtest]     producesValidsOnGens2 (src/Test/Syd/Validity/Functions/Validity.hs:51)
[genvalidity-sydtest]     producesValid2 (src/Test/Syd/Validity/Functions/Validity.hs:58)
[genvalidity-sydtest]     producesValidsOnArbitrary2 (src/Test/Syd/Validity/Functions/Validity.hs:64)
[genvalidity-sydtest]     producesValidsOnGens3 (src/Test/Syd/Validity/Functions/Validity.hs:72)
[genvalidity-sydtest]     producesValid3 (src/Test/Syd/Validity/Functions/Validity.hs:87)
[genvalidity-sydtest]     producesValidsOnArbitrary3 (src/Test/Syd/Validity/Functions/Validity.hs:101)
[genvalidity-sydtest]     succeedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:77)
[genvalidity-sydtest]     succeeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:84)
[genvalidity-sydtest]     succeedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:90)
[genvalidity-sydtest]     failsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:100)
[genvalidity-sydtest]     validIfSucceedsOnGens2 (src/Test/Syd/Validity/Functions/CanFail.hs:109)
[genvalidity-sydtest]     validIfSucceeds2 (src/Test/Syd/Validity/Functions/CanFail.hs:119)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/CanFail.hs:125)
[genvalidity-sydtest]     validIfSucceedsOnGens3 (src/Test/Syd/Validity/Functions/CanFail.hs:133)
[genvalidity-sydtest]     validIfSucceeds3 (src/Test/Syd/Validity/Functions/CanFail.hs:152)
[genvalidity-sydtest]     validIfSucceedsOnArbitrary3 (src/Test/Syd/Validity/Functions/CanFail.hs:158)
[genvalidity-sydtest]     equivalentOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:47)
[genvalidity-sydtest]     equivalent (src/Test/Syd/Validity/Functions/Equivalence.hs:54)
[genvalidity-sydtest]     equivalentOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:73)
[genvalidity-sydtest]     equivalent2 (src/Test/Syd/Validity/Functions/Equivalence.hs:81)
[genvalidity-sydtest]     equivalentOnGens3 (src/Test/Syd/Validity/Functions/Equivalence.hs:322)
[genvalidity-sydtest]     equivalent3 (src/Test/Syd/Validity/Functions/Equivalence.hs:338)
[genvalidity-sydtest]     equivalentOnArbitrary3 (src/Test/Syd/Validity/Functions/Equivalence.hs:353)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:100)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:119)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:111)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:129)
[genvalidity-sydtest]     equivalentWhenFirstSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:162)
[genvalidity-sydtest]     equivalentWhenFirstSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:147)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:172)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds (src/Test/Syd/Validity/Functions/Equivalence.hs:191)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:183)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:201)
[genvalidity-sydtest]     equivalentWhenSecondSucceeds2 (src/Test/Syd/Validity/Functions/Equivalence.hs:234)
[genvalidity-sydtest]     equivalentWhenSecondSucceedsOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:219)
[genvalidity-sydtest]     equivalentWhenSucceedOnGen (src/Test/Syd/Validity/Functions/Equivalence.hs:244)
[genvalidity-sydtest]     equivalentWhenSucceed (src/Test/Syd/Validity/Functions/Equivalence.hs:258)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Equivalence.hs:266)
[genvalidity-sydtest]     equivalentWhenSucceedOnGens2 (src/Test/Syd/Validity/Functions/Equivalence.hs:276)
[genvalidity-sydtest]     equivalentWhenSucceed2 (src/Test/Syd/Validity/Functions/Equivalence.hs:312)
[genvalidity-sydtest]     equivalentWhenSucceedOnArbitrary2 (src/Test/Syd/Validity/Functions/Equivalence.hs:297)
[genvalidity-sydtest]     inverseFunctionsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:28)
[genvalidity-sydtest]     inverseFunctions (src/Test/Syd/Validity/Functions/Inverse.hs:33)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:49)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:60)
[genvalidity-sydtest]     inverseFunctionsIfFirstSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:68)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:78)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceeds (src/Test/Syd/Validity/Functions/Inverse.hs:89)
[genvalidity-sydtest]     inverseFunctionsIfSecondSucceedsOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:97)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnGen (src/Test/Syd/Validity/Functions/Inverse.hs:107)
[genvalidity-sydtest]     inverseFunctionsIfSucceed (src/Test/Syd/Validity/Functions/Inverse.hs:120)
[genvalidity-sydtest]     inverseFunctionsIfSucceedOnArbitrary (src/Test/Syd/Validity/Functions/Inverse.hs:128)
[genvalidity-sydtest]     idempotentOnGen (src/Test/Syd/Validity/Functions/Idempotence.hs:17)
[genvalidity-sydtest]     idempotent (src/Test/Syd/Validity/Functions/Idempotence.hs:20)
[genvalidity-sydtest]     reflexivityOnGen (src/Test/Syd/Validity/Relations/Reflexivity.hs:32)
[genvalidity-sydtest]     transitivityOnGens (src/Test/Syd/Validity/Relations/Transitivity.hs:35)
[genvalidity-sydtest]     antisymmetryOnGensWithEquality (src/Test/Syd/Validity/Relations/Antisymmetry.hs:43)
[genvalidity-sydtest]     antisymmetryOnGens (src/Test/Syd/Validity/Relations/Antisymmetry.hs:54)
[genvalidity-sydtest]     antireflexivityOnGen (src/Test/Syd/Validity/Relations/Antireflexivity.hs:32)
[genvalidity-sydtest]     symmetryOnGens (src/Test/Syd/Validity/Relations/Symmetry.hs:34)
[genvalidity-sydtest]     leftIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:54)
[genvalidity-sydtest]     leftIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:66)
[genvalidity-sydtest]     rightIdentityOnGenWithEquality (src/Test/Syd/Validity/Operations/Identity.hs:111)
[genvalidity-sydtest]     rightIdentityOnGen (src/Test/Syd/Validity/Operations/Identity.hs:123)
[really-safe-money] [ 7 of 12] Compiling Money.MultiAmount ( src/Money/MultiAmount.hs, dist/build/Money/MultiAmount.p_o )
[really-safe-money] mutation: instrumenting Money.MultiAmount
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 168:20-45
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 168:17-57
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 119:12-28
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 119:9-37
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 106:12-28
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 106:9-37
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 73:6-27
[really-safe-money] mutation: recording Money.MultiAmount/CondFlip at 73:3-51
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/ConstBool at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/Negate at 66:13-29
[really-safe-money] mutation: recording Money.MultiAmount/ListLit at 63:7-8
[really-safe-money] mutation: recording Money.MultiAmount/ListLit at 63:7-8
[really-safe-money] [ 8 of 12] Compiling Money.AmountOf   ( src/Money/AmountOf.hs, dist/build/Money/AmountOf.p_o )
[really-safe-money] mutation: instrumenting Money.AmountOf
[really-safe-money] [ 9 of 12] Compiling Money.Account    ( src/Money/Account.hs, dist/build/Money/Account.p_o )
[really-safe-money] mutation: instrumenting Money.Account
[really-safe-money] mutation: recording Money.Account/IntLit at 421:32-33
[really-safe-money] mutation: recording Money.Account/ConstBool at 451:14-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 451:14-23
[really-safe-money] mutation: recording Money.Account/Negate at 451:14-23
[really-safe-money] mutation: recording Money.Account/CondFlip at 451:11-76
[really-safe-money] mutation: recording Money.Account/ConstBool at 455:14-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 455:14-23
[really-safe-money] mutation: recording Money.Account/Negate at 455:14-23
[really-safe-money] mutation: recording Money.Account/CondFlip at 455:11-136
[really-safe-money] mutation: recording Money.Account/IntLit at 495:17-18
[really-safe-money] mutation: recording Money.Account/ConstBool at 495:12-18
[really-safe-money] mutation: recording Money.Account/ConstBool at 495:12-18
[really-safe-money] mutation: recording Money.Account/Negate at 495:12-18
[really-safe-money] mutation: recording Money.Account/CondFlip at 495:9-41
[really-safe-money] mutation: recording Money.Account/IntLit at 503:15-16
[really-safe-money] mutation: recording Money.Account/ConstBool at 503:10-16
[really-safe-money] mutation: recording Money.Account/ConstBool at 503:10-16
[really-safe-money] mutation: recording Money.Account/Negate at 503:10-16
[really-safe-money] mutation: recording Money.Account/CondFlip at 503:7-33
[really-safe-money] mutation: recording Money.Account/IntLit at 233:19-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 233:14-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 233:14-20
[really-safe-money] mutation: recording Money.Account/Negate at 233:14-20
[really-safe-money] mutation: recording Money.Account/CondFlip at 233:11-48
[really-safe-money] mutation: recording Money.Account/IntLit at 197:19-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 197:14-20
[really-safe-money] mutation: recording Money.Account/ConstBool at 197:14-20
[really-safe-money] mutation: recording Money.Account/Negate at 197:14-20
[really-safe-money] mutation: recording Money.Account/CondFlip at 197:11-48
[really-safe-money] mutation: recording Money.Account/ConstBool at 123:10-23
[really-safe-money] mutation: recording Money.Account/ConstBool at 123:10-23
[really-safe-money] mutation: recording Money.Account/Negate at 123:10-23
[really-safe-money] mutation: recording Money.Account/IntLit at 131:25-26
[really-safe-money] mutation: recording Money.Account/ConstBool at 131:20-26
[really-safe-money] mutation: recording Money.Account/ConstBool at 131:20-26
[really-safe-money] mutation: recording Money.Account/Negate at 131:20-26
[really-safe-money] mutation: recording Money.Account/CondFlip at 131:17-39
[really-safe-money] mutation: recording Money.Account/CondFlip at 123:7-39
[really-safe-money] [10 of 12] Compiling Money.MultiAccount ( src/Money/MultiAccount.hs, dist/build/Money/MultiAccount.p_o )
[really-safe-money] mutation: instrumenting Money.MultiAccount
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 134:12-29
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 134:9-37
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 120:12-29
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 120:9-37
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 78:6-28
[really-safe-money] mutation: recording Money.MultiAccount/CondFlip at 78:3-52
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/ConstBool at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/Negate at 69:13-30
[really-safe-money] mutation: recording Money.MultiAccount/ListLit at 66:7-8
[really-safe-money] mutation: recording Money.MultiAccount/ListLit at 66:7-8
[really-safe-money] [11 of 12] Compiling Money.AccountOf  ( src/Money/AccountOf.hs, dist/build/Money/AccountOf.p_o )
[really-safe-money] mutation: instrumenting Money.AccountOf
[really-safe-money] [12 of 12] Compiling Paths_really_safe_money ( dist/build/autogen/Paths_really_safe_money.hs, dist/build/Paths_really_safe_money.p_o )
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/Account.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/AccountOf.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/Amount.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/AmountOf.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/ConversionRate.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/ConversionRateOf.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/Currency.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/MultiAccount.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/MultiAmount.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Money/QuantisationFactor.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Numeric/DecimalLiteral.dyn_o'
[really-safe-money] Warning: ignoring unrecognised input `dist/build/Paths_really_safe_money.dyn_o'
[really-safe-money] mutation-nix: manifest output at /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest:
[really-safe-money] total 240
[really-safe-money] drwxr-xr-x   2 nixbld nixbld  4096 May 13 10:00 .
[really-safe-money] drwxrwxr-t 238 nobody nixbld 24576 May 13 09:59 ..
[really-safe-money] -rw-r--r--   1 nixbld nixbld 23741 May 13 10:00 Money.Account.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld     2 May 13 10:00 Money.AccountOf.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld 53003 May 13 10:00 Money.Amount.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld     2 May 13 10:00 Money.AmountOf.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld  8362 May 13 10:00 Money.ConversionRate.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld     2 May 13 10:00 Money.ConversionRateOf.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld     2 May 13 10:00 Money.Currency.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld  8910 May 13 10:00 Money.MultiAccount.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld 11660 May 13 10:00 Money.MultiAmount.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld 14920 May 13 10:00 Money.QuantisationFactor.json
[really-safe-money] -rw-r--r--   1 nixbld nixbld 62137 May 13 10:00 Numeric.DecimalLiteral.json
[really-safe-money] Phase: haddockPhase
[really-safe-money] Phase: installPhase
[really-safe-money] Installing library in /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money] Phase: fixupPhase
[really-safe-money] shrinking RPATHs of ELF executables and libraries in /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0
[really-safe-money] shrinking /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/libHSreally-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9-ghc9.10.3.so
[really-safe-money] checking for references to /build/ in /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0...
[really-safe-money] patching script interpreter paths in /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0
[really-safe-money] stripping (with command strip and flags -S -p) in  /nix/store/1nvhlz5hh76jhpmz3yvbymi38nli9y67-really-safe-money-0.0.0.0/lib
[really-safe-money] shrinking RPATHs of ELF executables and libraries in /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest
[really-safe-money] checking for references to /build/ in /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest...
[really-safe-money] patching script interpreter paths in /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest
[post-build-hook] Uploading to cachix cache "sydtest": /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest
[post-build-hook] Pushing 1 paths (0 are already present) using zstd to cache sydtest ⏳
[post-build-hook] 
[post-build-hook] Pushing /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest (180.78 KiB)
[post-build-hook] 
[post-build-hook] All done.
[post-build-hook] Uploading to the NixCI staging cache: /nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/1kba83gl6vham8yih6z5pc00qv1vlnxd-really-safe-money-0.0.0.0-manifest' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 0 paths...
Progress: 3 of 6 built (1 building), 8 of 8 downloaded from cache
[genvalidity-sydtest] Documentation created: dist/doc/html/genvalidity-sydtest/,
[genvalidity-sydtest] dist/doc/html/genvalidity-sydtest/genvalidity-sydtest.txt
[genvalidity-sydtest] Preprocessing test suite 'genvalidity-sydtest-test' for genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] Phase: installPhase
[genvalidity-sydtest] Installing library in /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[genvalidity-sydtest] Phase: fixupPhase
[genvalidity-sydtest] shrinking RPATHs of ELF executables and libraries in /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] shrinking /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/libHSgenvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1-ghc9.10.3.so
[genvalidity-sydtest] checking for references to /build/ in /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0...
[genvalidity-sydtest] patching script interpreter paths in /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0
[genvalidity-sydtest] stripping (with command strip and flags -S -p) in  /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0/lib
[genvalidity-sydtest] shrinking RPATHs of ELF executables and libraries in /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc
[genvalidity-sydtest] checking for references to /build/ in /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc...
[genvalidity-sydtest] patching script interpreter paths in /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc
[post-build-hook] Uploading to cachix cache "sydtest": /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0 /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc
[post-build-hook] Pushing 2 paths (267 are already present) using zstd to cache sydtest ⏳
[post-build-hook] 
[post-build-hook] Pushing /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc (3.78 MiB)
[post-build-hook] Pushing /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0 (6.61 MiB)
[post-build-hook] 
[post-build-hook] All done.
[post-build-hook] Uploading to the NixCI staging cache: /nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0 /nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 2 paths...
[post-build-hook] copying path '/nix/store/md56vgr9pbgrhvl49wyc0kfh1cqd0rxd-genvalidity-sydtest-1.0.1.0-doc' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] copying path '/nix/store/4ih8m7izypq1qdvmams8c7699h44qssc-genvalidity-sydtest-1.0.1.0' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/0kagzsrbs3habk2kjfai9yf6swyb4paf-genvalidity-sydtest-1.0.1.0.drv' to 'https://cache.staging.nix-ci.com'...
Progress: 4 of 6 built, 8 of 8 downloaded from cache
Building really-safe-money-gen
[really-safe-money-gen] Phase: setupCompilerEnvironmentPhase
[really-safe-money-gen] Build with /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3.
[really-safe-money-gen] Phase: unpackPhase
[really-safe-money-gen] unpacking source archive /nix/store/q8dnmasbcyjvbsw29vapbnpq21lcqqfi-really-safe-money-gen-source-0.0.0.0/really-safe-money-gen-0.0.0.0.tar.gz
[really-safe-money-gen] source root is really-safe-money-gen-0.0.0.0
[really-safe-money-gen] setting SOURCE_DATE_EPOCH to timestamp 1778620619 of file "really-safe-money-gen-0.0.0.0/test/Spec.hs"
[really-safe-money-gen] Phase: patchPhase
[really-safe-money-gen] Phase: compileBuildDriverPhase
[really-safe-money-gen] setupCompileFlags: -package-db=/build/tmp.loPkKYVF40/setup-package.conf.d -threaded
[really-safe-money-gen] [1 of 2] Compiling Main             ( Setup.hs, /build/tmp.loPkKYVF40/Main.o )
[really-safe-money-gen] [2 of 2] Linking Setup
[really-safe-money-gen] Phase: updateAutotoolsGnuConfigScriptsPhase
[really-safe-money-gen] Phase: configurePhase
[really-safe-money-gen] configureFlags: --verbose --prefix=/nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0 --libdir=$prefix/lib/$compiler/lib --libsubdir=$abi/$libname --docdir=/nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc/share/doc/really-safe-money-gen-0.0.0.0 --with-gcc=gcc --package-db=/build/tmp.loPkKYVF40/package.conf.d --ghc-option=-j16 --ghc-option=+RTS --ghc-option=-A64M --ghc-option=-RTS --enable-library-profiling --profiling-detail=exported-functions --disable-profiling --enable-shared --disable-coverage --enable-static --disable-executable-dynamic --enable-tests --disable-benchmarks --enable-library-vanilla --disable-library-for-ghci --enable-split-sections --enable-library-stripping --enable-executable-stripping --ghc-option=-haddock --ghc-options=-O2 --ghc-options=-Wall --ghc-options=-Wincomplete-uni-patterns --ghc-options=-Wincomplete-record-updates --ghc-options=-Wpartial-fields --ghc-options=-Widentities --ghc-options=-Wredundant-constraints --ghc-options=-Wcpp-undef --ghc-options=-Werror --extra-lib-dirs=/nix/store/ffyzkisqs4vc4mg28bwwlyqjf8i9ph6b-ncurses-6.5/lib --extra-lib-dirs=/nix/store/n28qgdj8c1q41kf7n4y1jxa6ckp85m3c-libffi-3.5.2/lib --extra-lib-dirs=/nix/store/1b6h99dw7bk4wbn77kbalih42zbc67m1-elfutils-0.194/lib --extra-lib-dirs=/nix/store/hi0ar880110k6jsmmili7dh1gq3cg2a9-gmp-with-cxx-6.3.0/lib --extra-lib-dirs=/nix/store/g09cflpnp4g80q56sj9dng1qzv4v4ybc-numactl-2.0.18/lib --extra-lib-dirs=/nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/lib
[really-safe-money-gen] Using Parsec parser
[really-safe-money-gen] Configuring really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Dependency QuickCheck: using QuickCheck-2.15.0.1
[really-safe-money-gen] Dependency base >=4.7 && <5: using base-4.20.2.0
[really-safe-money-gen] Dependency genvalidity: using genvalidity-1.1.1.0
[really-safe-money-gen] Dependency genvalidity-containers: using genvalidity-containers-1.0.0.2
[really-safe-money-gen] Dependency really-safe-money: using really-safe-money-0.0.0.0
[really-safe-money-gen] Dependency base >=4.7 && <5: using base-4.20.2.0
[really-safe-money-gen] Dependency containers: using containers-0.7
[really-safe-money-gen] Dependency genvalidity-sydtest: using genvalidity-sydtest-1.0.1.0
[really-safe-money-gen] Dependency genvalidity-vector: using genvalidity-vector-1.0.0.0
[really-safe-money-gen] Dependency really-safe-money: using really-safe-money-0.0.0.0
[really-safe-money-gen] Dependency really-safe-money-gen: using really-safe-money-gen-0.0.0.0
[really-safe-money-gen] Dependency sydtest: using sydtest-0.23.0.2
[really-safe-money-gen] Dependency vector: using vector-0.13.2.0
[really-safe-money-gen] Source component graph:
[really-safe-money-gen]     component lib
[really-safe-money-gen]     component test:really-safe-money-test dependency lib
[really-safe-money-gen] Configured component graph:
[really-safe-money-gen]     component really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[really-safe-money-gen]         include base-4.20.2.0-64da
[really-safe-money-gen]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[really-safe-money-gen]         include genvalidity-containers-1.0.0.2-DXaOCEBh8iJ1c8u2LwVlK1
[really-safe-money-gen]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]     component really-safe-money-gen-0.0.0.0-8cvRTlTZbe8HClZztIkEoX-really-safe-money-test
[really-safe-money-gen]         include base-4.20.2.0-64da
[really-safe-money-gen]         include containers-0.7-504a
[really-safe-money-gen]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[really-safe-money-gen]         include genvalidity-vector-1.0.0.0-6KKiduowklk7hSxSW05Gxi
[really-safe-money-gen]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]         include really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[really-safe-money-gen]         include vector-0.13.2.0-GDUCoiHhVuq2SKPTzzTr3a
[really-safe-money-gen] Linked component graph:
[really-safe-money-gen]     unit really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         include QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[really-safe-money-gen]         include base-4.20.2.0-64da
[really-safe-money-gen]         include genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[really-safe-money-gen]         include genvalidity-containers-1.0.0.2-DXaOCEBh8iJ1c8u2LwVlK1
[really-safe-money-gen]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]         Money.Account.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.Account.Gen,Money.AccountOf.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.AccountOf.Gen,Money.Amount.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.Amount.Gen,Money.AmountOf.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.AmountOf.Gen,Money.ConversionRate.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.ConversionRate.Gen,Money.ConversionRateOf.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.ConversionRateOf.Gen,Money.Currency.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.Currency.Gen,Money.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.Gen,Money.MultiAccount.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.MultiAccount.Gen,Money.MultiAmount.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.MultiAmount.Gen,Money.QuantisationFactor.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Money.QuantisationFactor.Gen,Numeric.DecimalLiteral.Gen=really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h:Numeric.DecimalLiteral.Gen
[really-safe-money-gen]     unit really-safe-money-gen-0.0.0.0-8cvRTlTZbe8HClZztIkEoX-really-safe-money-test
[really-safe-money-gen]         include base-4.20.2.0-64da
[really-safe-money-gen]         include containers-0.7-504a
[really-safe-money-gen]         include genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[really-safe-money-gen]         include genvalidity-vector-1.0.0.0-6KKiduowklk7hSxSW05Gxi
[really-safe-money-gen]         include really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]         include really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         include sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[really-safe-money-gen]         include vector-0.13.2.0-GDUCoiHhVuq2SKPTzzTr3a
[really-safe-money-gen] Ready component graph:
[really-safe-money-gen]     definite really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         depends QuickCheck-2.15.0.1-8fVC1qSJKj9H9pvMjJXUwU
[really-safe-money-gen]         depends base-4.20.2.0-64da
[really-safe-money-gen]         depends genvalidity-1.1.1.0-KJOcA1wEUno9vXRiVdno1L
[really-safe-money-gen]         depends genvalidity-containers-1.0.0.2-DXaOCEBh8iJ1c8u2LwVlK1
[really-safe-money-gen]         depends really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]     definite really-safe-money-gen-0.0.0.0-8cvRTlTZbe8HClZztIkEoX-really-safe-money-test
[really-safe-money-gen]         depends base-4.20.2.0-64da
[really-safe-money-gen]         depends containers-0.7-504a
[really-safe-money-gen]         depends genvalidity-sydtest-1.0.1.0-Cj9ZxpByhih2ReY6BClfG1
[really-safe-money-gen]         depends genvalidity-vector-1.0.0.0-6KKiduowklk7hSxSW05Gxi
[really-safe-money-gen]         depends really-safe-money-0.0.0.0-KH9ltLBvnn0Cn1rgifGPh9
[really-safe-money-gen]         depends really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen]         depends sydtest-0.23.0.2-RzVaEpJISaERaSrCHYFLw
[really-safe-money-gen]         depends vector-0.13.2.0-GDUCoiHhVuq2SKPTzzTr3a
[really-safe-money-gen] Using Cabal-3.12.1.0 compiled by ghc-9.10
[really-safe-money-gen] Using compiler: ghc-9.10.3
[really-safe-money-gen] Using install prefix:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0
[really-safe-money-gen] Executables installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/bin
[really-safe-money-gen] Libraries installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen] Dynamic Libraries installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6
[really-safe-money-gen] Private executables installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/libexec/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-gen-0.0.0.0
[really-safe-money-gen] Data files installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/share/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-gen-0.0.0.0
[really-safe-money-gen] Documentation installed in:
[really-safe-money-gen] /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc/share/doc/really-safe-money-gen-0.0.0.0
[really-safe-money-gen] Configuration files installed in:
[really-safe-money-gen] /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/etc
[really-safe-money-gen] No alex found
[really-safe-money-gen] Using ar found on system at:
[really-safe-money-gen] /nix/store/iz5lckcsg66r223si2gck7csk2hihj0m-binutils-wrapper-2.44/bin/ar
[really-safe-money-gen] No c2hs found
[really-safe-money-gen] No cpphs found
[really-safe-money-gen] No doctest found
[really-safe-money-gen] Using gcc version 14.3.0 given by user at:
[really-safe-money-gen] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/gcc
[really-safe-money-gen] Using ghc version 9.10.3 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc
[really-safe-money-gen] Using ghc-pkg version 9.10.3 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/ghc-pkg-9.10.3
[really-safe-money-gen] No ghcjs found
[really-safe-money-gen] No ghcjs-pkg found
[really-safe-money-gen] No greencard found
[really-safe-money-gen] Using haddock version 2.31.1 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/haddock-ghc-9.10.3
[really-safe-money-gen] No happy found
[really-safe-money-gen] Using haskell-suite found on system at: haskell-suite-dummy-location
[really-safe-money-gen] Using haskell-suite-pkg found on system at: haskell-suite-pkg-dummy-location
[really-safe-money-gen] No hmake found
[really-safe-money-gen] Using hpc version 0.69 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hpc-ghc-9.10.3
[really-safe-money-gen] Using hsc2hs version 0.68.10 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/hsc2hs-ghc-9.10.3
[really-safe-money-gen] Using hscolour version 1.25 found on system at:
[really-safe-money-gen] /nix/store/f755skyzf4jvfx3crwq9mmh3x4lsaz8i-hscolour-1.25/bin/HsColour
[really-safe-money-gen] No jhc found
[really-safe-money-gen] Using ld found on system at:
[really-safe-money-gen] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/ld
[really-safe-money-gen] No pkg-config found
[really-safe-money-gen] Using runghc version 9.10.3 found on system at:
[really-safe-money-gen] /nix/store/s9jd43rkwc2syl9cvgj6f786avy8bgzy-ghc-9.10.3/bin/runghc-9.10.3
[really-safe-money-gen] Using strip version 2.44 found on system at:
[really-safe-money-gen] /nix/store/8v97ngkcpfzgghwnnr7fsz33p2x22gy9-gcc-wrapper-14.3.0/bin/strip
[really-safe-money-gen] Using tar found on system at:
[really-safe-money-gen] /nix/store/xl6pd2spjajwcpq09fnmnjv5psqmlmma-gnutar-1.35/bin/tar
[really-safe-money-gen] No uhc found
[really-safe-money-gen] Phase: buildPhase
[really-safe-money-gen] Preprocessing library for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Building library for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] [ 1 of 13] Compiling Money.Amount.Gen ( src/Money/Amount/Gen.hs, dist/build/Money/Amount/Gen.o, dist/build/Money/Amount/Gen.dyn_o )
[really-safe-money-gen] [ 2 of 13] Compiling Money.Account.Gen ( src/Money/Account/Gen.hs, dist/build/Money/Account/Gen.o, dist/build/Money/Account/Gen.dyn_o )
[really-safe-money-gen] [ 3 of 13] Compiling Money.AccountOf.Gen ( src/Money/AccountOf/Gen.hs, dist/build/Money/AccountOf/Gen.o, dist/build/Money/AccountOf/Gen.dyn_o )
[really-safe-money-gen] [ 4 of 13] Compiling Money.AmountOf.Gen ( src/Money/AmountOf/Gen.hs, dist/build/Money/AmountOf/Gen.o, dist/build/Money/AmountOf/Gen.dyn_o )
[really-safe-money-gen] [ 5 of 13] Compiling Money.ConversionRate.Gen ( src/Money/ConversionRate/Gen.hs, dist/build/Money/ConversionRate/Gen.o, dist/build/Money/ConversionRate/Gen.dyn_o )
[really-safe-money-gen] [ 6 of 13] Compiling Money.ConversionRateOf.Gen ( src/Money/ConversionRateOf/Gen.hs, dist/build/Money/ConversionRateOf/Gen.o, dist/build/Money/ConversionRateOf/Gen.dyn_o )
[really-safe-money-gen] [ 7 of 13] Compiling Money.QuantisationFactor.Gen ( src/Money/QuantisationFactor/Gen.hs, dist/build/Money/QuantisationFactor/Gen.o, dist/build/Money/QuantisationFactor/Gen.dyn_o )
[really-safe-money-gen] [ 8 of 13] Compiling Money.Currency.Gen ( src/Money/Currency/Gen.hs, dist/build/Money/Currency/Gen.o, dist/build/Money/Currency/Gen.dyn_o )
[really-safe-money-gen] [ 9 of 13] Compiling Money.MultiAmount.Gen ( src/Money/MultiAmount/Gen.hs, dist/build/Money/MultiAmount/Gen.o, dist/build/Money/MultiAmount/Gen.dyn_o )
[really-safe-money-gen] [10 of 13] Compiling Money.MultiAccount.Gen ( src/Money/MultiAccount/Gen.hs, dist/build/Money/MultiAccount/Gen.o, dist/build/Money/MultiAccount/Gen.dyn_o )
[really-safe-money-gen] [11 of 13] Compiling Money.Gen        ( src/Money/Gen.hs, dist/build/Money/Gen.o, dist/build/Money/Gen.dyn_o )
[really-safe-money-gen] [12 of 13] Compiling Numeric.DecimalLiteral.Gen ( src/Numeric/DecimalLiteral/Gen.hs, dist/build/Numeric/DecimalLiteral/Gen.o, dist/build/Numeric/DecimalLiteral/Gen.dyn_o )
[really-safe-money-gen] [13 of 13] Compiling Paths_really_safe_money_gen ( dist/build/autogen/Paths_really_safe_money_gen.hs, dist/build/Paths_really_safe_money_gen.o, dist/build/Paths_really_safe_money_gen.dyn_o )
[really-safe-money-gen] [ 1 of 13] Compiling Money.Amount.Gen ( src/Money/Amount/Gen.hs, dist/build/Money/Amount/Gen.p_o )
[really-safe-money-gen] [ 2 of 13] Compiling Money.Account.Gen ( src/Money/Account/Gen.hs, dist/build/Money/Account/Gen.p_o )
[really-safe-money-gen] [ 3 of 13] Compiling Money.AccountOf.Gen ( src/Money/AccountOf/Gen.hs, dist/build/Money/AccountOf/Gen.p_o )
[really-safe-money-gen] [ 4 of 13] Compiling Money.AmountOf.Gen ( src/Money/AmountOf/Gen.hs, dist/build/Money/AmountOf/Gen.p_o )
[really-safe-money-gen] [ 5 of 13] Compiling Money.ConversionRate.Gen ( src/Money/ConversionRate/Gen.hs, dist/build/Money/ConversionRate/Gen.p_o )
[really-safe-money-gen] [ 6 of 13] Compiling Money.ConversionRateOf.Gen ( src/Money/ConversionRateOf/Gen.hs, dist/build/Money/ConversionRateOf/Gen.p_o )
[really-safe-money-gen] [ 7 of 13] Compiling Money.QuantisationFactor.Gen ( src/Money/QuantisationFactor/Gen.hs, dist/build/Money/QuantisationFactor/Gen.p_o )
[really-safe-money-gen] [ 8 of 13] Compiling Money.Currency.Gen ( src/Money/Currency/Gen.hs, dist/build/Money/Currency/Gen.p_o )
[really-safe-money-gen] [ 9 of 13] Compiling Money.MultiAmount.Gen ( src/Money/MultiAmount/Gen.hs, dist/build/Money/MultiAmount/Gen.p_o )
[really-safe-money-gen] [10 of 13] Compiling Money.MultiAccount.Gen ( src/Money/MultiAccount/Gen.hs, dist/build/Money/MultiAccount/Gen.p_o )
[really-safe-money-gen] [11 of 13] Compiling Money.Gen        ( src/Money/Gen.hs, dist/build/Money/Gen.p_o )
[really-safe-money-gen] [12 of 13] Compiling Numeric.DecimalLiteral.Gen ( src/Numeric/DecimalLiteral/Gen.hs, dist/build/Numeric/DecimalLiteral/Gen.p_o )
[really-safe-money-gen] [13 of 13] Compiling Paths_really_safe_money_gen ( dist/build/autogen/Paths_really_safe_money_gen.hs, dist/build/Paths_really_safe_money_gen.p_o )
[really-safe-money-gen] Preprocessing test suite 'really-safe-money-test' for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Building test suite 'really-safe-money-test' for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] [ 1 of 14] Compiling Money.AccountSpec ( test/Money/AccountSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/AccountSpec.o )
[really-safe-money-gen] [ 2 of 14] Compiling Money.AmountSpec ( test/Money/AmountSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/AmountSpec.o )
[really-safe-money-gen] [ 3 of 14] Compiling Money.ConversionRateSpec ( test/Money/ConversionRateSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/ConversionRateSpec.o )
[really-safe-money-gen] [ 4 of 14] Compiling Money.Currency.TestUtils ( test/Money/Currency/TestUtils.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/Currency/TestUtils.o )
[really-safe-money-gen] [ 5 of 14] Compiling Money.ConversionRateOfSpec ( test/Money/ConversionRateOfSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/ConversionRateOfSpec.o )
[really-safe-money-gen] [ 6 of 14] Compiling Money.AmountOfSpec ( test/Money/AmountOfSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/AmountOfSpec.o )
[really-safe-money-gen] [ 7 of 14] Compiling Money.AccountOfSpec ( test/Money/AccountOfSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/AccountOfSpec.o )
[really-safe-money-gen] [ 8 of 14] Compiling Money.CurrencySpec ( test/Money/CurrencySpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/CurrencySpec.o )
[really-safe-money-gen] [ 9 of 14] Compiling Money.MultiAccountSpec ( test/Money/MultiAccountSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/MultiAccountSpec.o )
[really-safe-money-gen] [10 of 14] Compiling Money.MultiAmountSpec ( test/Money/MultiAmountSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/MultiAmountSpec.o )
[really-safe-money-gen] [11 of 14] Compiling Money.QuantisationFactorSpec ( test/Money/QuantisationFactorSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Money/QuantisationFactorSpec.o )
[really-safe-money-gen] [12 of 14] Compiling Numeric.DecimalLiteralSpec ( test/Numeric/DecimalLiteralSpec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Numeric/DecimalLiteralSpec.o )
[really-safe-money-gen] [13 of 14] Compiling Main             ( test/Spec.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Main.o )
[really-safe-money-gen] [14 of 14] Compiling Paths_really_safe_money_gen ( dist/build/really-safe-money-test/autogen/Paths_really_safe_money_gen.hs, dist/build/really-safe-money-test/really-safe-money-test-tmp/Paths_really_safe_money_gen.o )
[really-safe-money-gen] [15 of 15] Linking dist/build/really-safe-money-test/really-safe-money-test
[really-safe-money-gen] Phase: checkPhase
[really-safe-money-gen] mutation-nix: collecting coverage for suite really-safe-money-gen
[really-safe-money-gen] coverage (1/1610): Numeric\.DecimalLiteralSpec.Natural.fromNatural.renders to valid decimal literals (1 mutations)
[really-safe-money-gen] coverage (2/1610): Numeric\.DecimalLiteralSpec.Natural.fromNatural.can parse any rendered literal (2 mutations)
[really-safe-money-gen] coverage (3/1610): Numeric\.DecimalLiteralSpec.Natural.toNatural.renders to valid naturals (0 mutations)
[really-safe-money-gen] coverage (4/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 9 2 into rational 9 % 100 (2 mutations)
[really-safe-money-gen] coverage (5/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0 (22 mutations)
[really-safe-money-gen] coverage (6/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 1 % 500 into DecimalLiteral Nothing 2 3 (12 mutations)
[really-safe-money-gen] coverage (7/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational (-6) % 1 into DecimalLiteral (Just False) 6 0 (13 mutations)
[really-safe-money-gen] coverage (8/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 10 0 into rational 10 % 1 (0 mutations)
[really-safe-money-gen] coverage (9/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 50 1 into rational 5 % 1 (0 mutations)
[really-safe-money-gen] coverage (10/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational (-1) % 1000 into DecimalLiteral (Just False) 1 3 (11 mutations)
[really-safe-money-gen] coverage (11/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational (-4) % 5 into DecimalLiteral (Just False) 8 1 (11 mutations)
[really-safe-money-gen] coverage (12/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 5 % 1 into DecimalLiteral Nothing 5 0 (11 mutations)
[really-safe-money-gen] coverage (13/1610): Numeric\.DecimalLiteralSpec.Rational.fromRational.can parse any rendered rational (11 mutations)
[really-safe-money-gen] coverage (14/1610): Numeric\.DecimalLiteralSpec.Rational.fromRational.renders to valid decimal literals (10 mutations)
[really-safe-money-gen] coverage (15/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral (Just False) 600 2 into rational (-6) % 1 (0 mutations)
[really-safe-money-gen] coverage (16/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 400 0 into rational 400 % 1 (0 mutations)
[really-safe-money-gen] coverage (17/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 20 4 into rational 1 % 500 (0 mutations)
[really-safe-money-gen] coverage (18/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 10 % 1 into DecimalLiteral Nothing 10 0 (11 mutations)
[really-safe-money-gen] coverage (19/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational (-3) % 1 into DecimalLiteral (Just False) 3 0 (11 mutations)
[really-safe-money-gen] coverage (20/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 7000 3 into rational 7 % 1 (0 mutations)
[really-safe-money-gen] coverage (21/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 2 0 into rational 2 % 1 (0 mutations)
[really-safe-money-gen] coverage (22/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 9 % 100 into DecimalLiteral Nothing 9 2 (11 mutations)
[really-safe-money-gen] coverage (23/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral (Just False) 3 0 into rational (-3) % 1 (0 mutations)
[really-safe-money-gen] coverage (24/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 1 % 1 into DecimalLiteral Nothing 1 0 (11 mutations)
[really-safe-money-gen] coverage (25/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 7 % 1 into DecimalLiteral Nothing 7 0 (11 mutations)
[really-safe-money-gen] coverage (26/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 1 0 into rational 1 % 1 (0 mutations)
[really-safe-money-gen] coverage (27/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 240009 % 20000 into DecimalLiteral Nothing 1200045 5 (11 mutations)
[really-safe-money-gen] coverage (28/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral (Just False) 1 3 into rational (-1) % 1000 (0 mutations)
[really-safe-money-gen] coverage (29/1610): Numeric\.DecimalLiteralSpec.Rational.toRational.renders to valid rationals (0 mutations)
[really-safe-money-gen] coverage (30/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational (-3) % 1000 into DecimalLiteral (Just False) 3 3 (11 mutations)
[really-safe-money-gen] coverage (31/1610): Numeric\.DecimalLiteralSpec.Rational.can turn rational 2 % 1 into DecimalLiteral Nothing 2 0 (11 mutations)
[really-safe-money-gen] coverage (32/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral Nothing 1200045 5 into rational 240009 % 20000 (0 mutations)
[really-safe-money-gen] coverage (33/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral (Just False) 8 1 into rational (-4) % 5 (0 mutations)
[really-safe-money-gen] coverage (34/1610): Numeric\.DecimalLiteralSpec.Rational.can turn DecimalLiteral (Just False) 300 5 into rational (-3) % 1000 (0 mutations)
[really-safe-money-gen] coverage (35/1610): Numeric\.DecimalLiteralSpec.Ratio.fromRatio.can parse any rendered rational (9 mutations)
[really-safe-money-gen] coverage (36/1610): Numeric\.DecimalLiteralSpec.Ratio.fromRatio.renders to valid decimal literals (8 mutations)
[really-safe-money-gen] coverage (37/1610): Numeric\.DecimalLiteralSpec.Ratio.toRatio.renders to valid rationals (0 mutations)
[really-safe-money-gen] coverage (38/1610): Numeric\.DecimalLiteralSpec.setMinimumDigits.does not change the value of the literal (4 mutations)
[really-safe-money-gen] coverage (39/1610): Numeric\.DecimalLiteralSpec.setMinimumDigits.produces valid literals (3 mutations)
[really-safe-money-gen] coverage (40/1610): Numeric\.DecimalLiteralSpec.setMinimumDigits.produces values with more than the given number of digits (3 mutations)
[really-safe-money-gen] coverage (41/1610): Numeric\.DecimalLiteralSpec.GenValid DecimalLiteral.genValid   \:\: Gen DecimalLiteral.only generates valid 'DecimalLiteral's (0 mutations)
[really-safe-money-gen] coverage (42/1610): Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation (12 mutations)
[really-safe-money-gen] coverage (43/1610): Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.can parse any rendered decimal literal (17 mutations)
[really-safe-money-gen] coverage (44/1610): Numeric\.DecimalLiteralSpec.setSignOptional.produces valid values (0 mutations)
[really-safe-money-gen] coverage (45/1610): Numeric\.DecimalLiteralSpec.Int.toInt.renders to valid words (4 mutations)
[really-safe-money-gen] coverage (46/1610): Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal (11 mutations)
[really-safe-money-gen] coverage (47/1610): Numeric\.DecimalLiteralSpec.Int.fromInt.renders to valid decimal literals (3 mutations)
[really-safe-money-gen] coverage (48/1610): Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromStringM.does the same as DecimalLiteral\.fromString (6 mutations)
[really-safe-money-gen] coverage (49/1610): Numeric\.DecimalLiteralSpec.Word.fromWord.renders to valid decimal literals (0 mutations)
[really-safe-money-gen] coverage (50/1610): Numeric\.DecimalLiteralSpec.Word.fromWord.can parse any rendered literal (2 mutations)
[really-safe-money-gen] coverage (51/1610): Numeric\.DecimalLiteralSpec.Word.toWord.renders to valid words (0 mutations)
[really-safe-money-gen] coverage (52/1610): Numeric\.DecimalLiteralSpec.toString.can render any decimal literal (0 mutations)
[really-safe-money-gen] coverage (53/1610): Numeric\.DecimalLiteralSpec.examples.can parse "+2" (9 mutations)
[really-safe-money-gen] coverage (54/1610): Numeric\.DecimalLiteralSpec.examples.can parse "1" (7 mutations)
[really-safe-money-gen] coverage (55/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 300 5 (0 mutations)
[really-safe-money-gen] coverage (56/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 50 1 (0 mutations)
[really-safe-money-gen] coverage (57/1610): Numeric\.DecimalLiteralSpec.examples.can parse "400" (9 mutations)
[really-safe-money-gen] coverage (58/1610): Numeric\.DecimalLiteralSpec.examples.can parse "5\.0" (9 mutations)
[really-safe-money-gen] coverage (59/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 8 1 (0 mutations)
[really-safe-money-gen] coverage (60/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 1 3 (0 mutations)
[really-safe-money-gen] coverage (61/1610): Numeric\.DecimalLiteralSpec.examples.can parse "0\.00300" (9 mutations)
[really-safe-money-gen] coverage (62/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 7000 3 (0 mutations)
[really-safe-money-gen] coverage (63/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 20 4 (0 mutations)
[really-safe-money-gen] coverage (64/1610): Numeric\.DecimalLiteralSpec.examples.can parse "12\.00045" (9 mutations)
[really-safe-money-gen] coverage (65/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 1 0 (0 mutations)
[really-safe-money-gen] coverage (66/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral (Just True) 2 0 (0 mutations)
[really-safe-money-gen] coverage (67/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 1200045 5 (0 mutations)
[really-safe-money-gen] coverage (68/1610): Numeric\.DecimalLiteralSpec.examples.can parse "0\.001" (9 mutations)
[really-safe-money-gen] coverage (69/1610): Numeric\.DecimalLiteralSpec.examples.can parse "6\.00" (9 mutations)
[really-safe-money-gen] coverage (70/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 600 2 (0 mutations)
[really-safe-money-gen] coverage (71/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 9 2 (0 mutations)
[really-safe-money-gen] coverage (72/1610): Numeric\.DecimalLiteralSpec.examples.can parse "0\.8" (9 mutations)
[really-safe-money-gen] coverage (73/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral Nothing 400 0 (0 mutations)
[really-safe-money-gen] coverage (74/1610): Numeric\.DecimalLiteralSpec.examples.can parse "0\.09" (9 mutations)
[really-safe-money-gen] coverage (75/1610): Numeric\.DecimalLiteralSpec.examples.can parse "7\.000" (9 mutations)
[really-safe-money-gen] coverage (76/1610): Numeric\.DecimalLiteralSpec.examples.can parse "-3" (7 mutations)
[really-safe-money-gen] coverage (77/1610): Numeric\.DecimalLiteralSpec.examples.can render DecimalLiteral (Just False) 3 0 (0 mutations)
[really-safe-money-gen] coverage (78/1610): Numeric\.DecimalLiteralSpec.examples.can parse "0\.0020" (9 mutations)
[really-safe-money-gen] coverage (79/1610): Numeric\.DecimalLiteralSpec.Integer.toInteger.renders to valid words (0 mutations)
[really-safe-money-gen] coverage (80/1610): Numeric\.DecimalLiteralSpec.Integer.fromInteger.renders to valid decimal literals (3 mutations)
[really-safe-money-gen] coverage (81/1610): Numeric\.DecimalLiteralSpec.Integer.fromInteger.can parse any rendered literal (3 mutations)
[really-safe-money-gen] coverage (82/1610): Numeric\.DecimalLiteralSpec.digits.produces valid numbers of digits (0 mutations)
[really-safe-money-gen] coverage (83/1610): Numeric\.DecimalLiteralSpec.setSignRequired.produces valid values (2 mutations)
[really-safe-money-gen] coverage (84/1610): Money\.ConversionRateSpec.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (85/1610): Money\.ConversionRateSpec.Rational.fromRational.roundtrips with toRational (8 mutations)
[really-safe-money-gen] coverage (86/1610): Money\.ConversionRateSpec.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (87/1610): Money\.ConversionRateSpec.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (88/1610): Money\.ConversionRateSpec.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (89/1610): Money\.ConversionRateSpec.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (90/1610): Money\.ConversionRateSpec.invert.produces valid rates (4 mutations)
[really-safe-money-gen] coverage (91/1610): Money\.ConversionRateSpec.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (92/1610): Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (93/1610): Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (94/1610): Money\.ConversionRateSpec.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (95/1610): Money\.ConversionRateSpec.GenValid ConversionRate.genValid   \:\: Gen ConversionRate.only generates valid 'ConversionRate's (3 mutations)
[really-safe-money-gen] coverage (96/1610): Money\.AccountSpec.Show Account and Read Account.are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (97/1610): Money\.AccountSpec.Eq.Eq Account.(/=) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (98/1610): Money\.AccountSpec.Eq.Eq Account.(/=) \:\: Account -> Account -> Bool.is antireflexive for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (99/1610): Money\.AccountSpec.Eq.Eq Account.(==) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (100/1610): Money\.AccountSpec.Eq.Eq Account.(==) \:\: Account -> Account -> Bool.is transitive for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (101/1610): Money\.AccountSpec.Eq.Eq Account.(==) \:\: Account -> Account -> Bool.is symmetric for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (102/1610): Money\.AccountSpec.Eq.Eq Account.(==) \:\: Account -> Account -> Bool.is reflexive for "valid Account"s (0 mutations)
[really-safe-money-gen] coverage (103/1610): Money\.AccountSpec.Eq.says negative 0 equals positive 0 (1 mutations)
[really-safe-money-gen] coverage (104/1610): Money\.AccountSpec.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (105/1610): Money\.AccountSpec.format.produces valid strings (1 mutations)
[really-safe-money-gen] coverage (106/1610): Money\.AccountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same (6 mutations)
[really-safe-money-gen] coverage (107/1610): Money\.AccountSpec.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (108/1610): Money\.AccountSpec.convert.converts this USD to CHF correctly (6 mutations)
[really-safe-money-gen] coverage (109/1610): Money\.AccountSpec.distribute.correctly distributes 5 into 3 (8 mutations)
[really-safe-money-gen] coverage (110/1610): Money\.AccountSpec.distribute.correctly distributes 3 into 3 (7 mutations)
[really-safe-money-gen] coverage (111/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(==) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is symmetric for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (112/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(==) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is transitive for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (113/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(==) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (114/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(==) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is reflexive for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (115/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(/=) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is antireflexive for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (116/1610): Money\.AccountSpec.distribute.Eq (Distribution Account).(/=) \:\: (Distribution Account) -> (Distribution Account) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution Account)"s (1 mutations)
[really-safe-money-gen] coverage (117/1610): Money\.AccountSpec.distribute.produces results that sum up to the greater whole (23 mutations)
[really-safe-money-gen] coverage (118/1610): Money\.AccountSpec.distribute.correctly distributes 10 into 4 (7 mutations)
[really-safe-money-gen] coverage (119/1610): Money\.AccountSpec.distribute.Show (Distribution Account) and Read (Distribution Account).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (120/1610): Money\.AccountSpec.distribute.produces valid amounts (12 mutations)
[really-safe-money-gen] coverage (121/1610): Money\.AccountSpec.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (122/1610): Money\.AccountSpec.fromAmount.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (123/1610): Money\.AccountSpec.fromRational.roundtrips with toRational (17 mutations)
[really-safe-money-gen] coverage (124/1610): Money\.AccountSpec.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (125/1610): Money\.AccountSpec.fromRatio.produces valid rational (10 mutations)
[really-safe-money-gen] coverage (126/1610): Money\.AccountSpec.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (127/1610): Money\.AccountSpec.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (128/1610): Money\.AccountSpec.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (129/1610): Money\.AccountSpec.rate.computes a rate that can be used to do a conversion without rounding (6 mutations)
[really-safe-money-gen] coverage (130/1610): Money\.AccountSpec.rate.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (131/1610): Money\.AccountSpec.rate.computes this USD to CHF rate correctly (3 mutations)
[really-safe-money-gen] coverage (132/1610): Money\.AccountSpec.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (133/1610): Money\.AccountSpec.toDouble.produces an infinite or NaN Double with quantisation factor 0 (0 mutations)
[really-safe-money-gen] coverage (134/1610): Money\.AccountSpec.Ord.says -6 is greater than -7 (0 mutations)
[really-safe-money-gen] coverage (135/1610): Money\.AccountSpec.Ord.says 4 is smaller than 5 (0 mutations)
[really-safe-money-gen] coverage (136/1610): Money\.AccountSpec.Ord.says -3 is smaller than 2 (0 mutations)
[really-safe-money-gen] coverage (137/1610): Money\.AccountSpec.Ord.Ord Account."max \:\: (Account -> Account -> Account)".is equivalent to (\\a b -> if a >= b then a else b) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (138/1610): Money\.AccountSpec.Ord.Ord Account."min \:\: (Account -> Account -> Account)".is equivalent to (\\a b -> if a <= b then a else b) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (139/1610): Money\.AccountSpec.Ord.Ord Account.(<=) \:\: Account -> Account -> Bool.is transitive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (140/1610): Money\.AccountSpec.Ord.Ord Account.(<=) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (141/1610): Money\.AccountSpec.Ord.Ord Account.(<=) \:\: Account -> Account -> Bool.is antisymmetric for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (142/1610): Money\.AccountSpec.Ord.Ord Account.(<=) \:\: Account -> Account -> Bool.is reflexive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (143/1610): Money\.AccountSpec.Ord.Ord Account.(>) \:\: Account -> Account -> Bool.is transitive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (144/1610): Money\.AccountSpec.Ord.Ord Account.(>) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (145/1610): Money\.AccountSpec.Ord.Ord Account.(>) \:\: Account -> Account -> Bool.is antireflexive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (146/1610): Money\.AccountSpec.Ord.Ord Account.(<) \:\: Account -> Account -> Bool.is transitive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (147/1610): Money\.AccountSpec.Ord.Ord Account.(<) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (148/1610): Money\.AccountSpec.Ord.Ord Account.(<) \:\: Account -> Account -> Bool.is antireflexive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (149/1610): Money\.AccountSpec.Ord.Ord Account.(>=) \:\: Account -> Account -> Bool.is reflexive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (150/1610): Money\.AccountSpec.Ord.Ord Account.(>=) \:\: Account -> Account -> Bool.is antisymmetric for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (151/1610): Money\.AccountSpec.Ord.Ord Account.(>=) \:\: Account -> Account -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (152/1610): Money\.AccountSpec.Ord.Ord Account.(>=) \:\: Account -> Account -> Bool.is transitive for "valid Account"'s (0 mutations)
[really-safe-money-gen] coverage (153/1610): Money\.AccountSpec.toRatio.produces valid Ratios when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (154/1610): Money\.AccountSpec.fractionRatio.produces valid amounts (4 mutations)
[really-safe-money-gen] coverage (155/1610): Money\.AccountSpec.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (156/1610): Money\.AccountSpec.sum.fails to sum above maxBound even if the result is back below maxBound (3 mutations)
[really-safe-money-gen] coverage (157/1610): Money\.AccountSpec.sum.fails to sum above maxBound (3 mutations)
[really-safe-money-gen] coverage (158/1610): Money\.AccountSpec.sum.correctly sums [1,2,3] to 6 (3 mutations)
[really-safe-money-gen] coverage (159/1610): Money\.AccountSpec.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (160/1610): Money\.AccountSpec.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (161/1610): Money\.AccountSpec.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (162/1610): Money\.AccountSpec.add.fails for minBound + (-1) (3 mutations)
[really-safe-money-gen] coverage (163/1610): Money\.AccountSpec.add.fails for minBound + minBound (3 mutations)
[really-safe-money-gen] coverage (164/1610): Money\.AccountSpec.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (165/1610): Money\.AccountSpec.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (166/1610): Money\.AccountSpec.add.fails for maxBound + 1 (3 mutations)
[really-safe-money-gen] coverage (167/1610): Money\.AccountSpec.add.fails for maxBound + maxBound (3 mutations)
[really-safe-money-gen] coverage (168/1610): Money\.AccountSpec.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (169/1610): Money\.AccountSpec.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (170/1610): Money\.AccountSpec.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (171/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 3 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (14 mutations)
[really-safe-money-gen] coverage (172/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 1 0 into decimalLiteral QuantisationFactor {unQuantisationFactor = 1} (13 mutations)
[really-safe-money-gen] coverage (173/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 500 8 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100000000} (13 mutations)
[really-safe-money-gen] coverage (174/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just False) 4 2 (14 mutations)
[really-safe-money-gen] coverage (175/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just False) 200 2 (14 mutations)
[really-safe-money-gen] coverage (176/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 100 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (13 mutations)
[really-safe-money-gen] coverage (177/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 500 2 (14 mutations)
[really-safe-money-gen] coverage (178/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just False) 600 2 (14 mutations)
[really-safe-money-gen] coverage (179/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 500 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (13 mutations)
[really-safe-money-gen] coverage (180/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 3 2 (14 mutations)
[really-safe-money-gen] coverage (181/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 10 2 (14 mutations)
[really-safe-money-gen] coverage (182/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 100 2 (14 mutations)
[really-safe-money-gen] coverage (183/1610): Money\.AccountSpec.DecimalLiteral.Account\.toDecimalLiteral.roundtrips with Account\.fromDecimalLiteral (26 mutations)
[really-safe-money-gen] coverage (184/1610): Money\.AccountSpec.DecimalLiteral.Account\.toDecimalLiteral.produces valid decimal literals (13 mutations)
[really-safe-money-gen] coverage (185/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 1} into DecimalLiteral (Just True) 1 0 (14 mutations)
[really-safe-money-gen] coverage (186/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just False) 4 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (13 mutations)
[really-safe-money-gen] coverage (187/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just False) 600 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (13 mutations)
[really-safe-money-gen] coverage (188/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just False) 20 2 (14 mutations)
[really-safe-money-gen] coverage (189/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 1} into DecimalLiteral (Just False) 2 0 (14 mutations)
[really-safe-money-gen] coverage (190/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just False) 20 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (13 mutations)
[really-safe-money-gen] coverage (191/1610): Money\.AccountSpec.DecimalLiteral.Account\.fromDecimalLiteral.fails on this amount that is too precise (7 mutations)
[really-safe-money-gen] coverage (192/1610): Money\.AccountSpec.DecimalLiteral.Account\.fromDecimalLiteral.produces valid factors (13 mutations)
[really-safe-money-gen] coverage (193/1610): Money\.AccountSpec.DecimalLiteral.Account\.fromDecimalLiteral.fails on this amount that is too precise:1 (7 mutations)
[really-safe-money-gen] coverage (194/1610): Money\.AccountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100000000} into DecimalLiteral (Just True) 500 8 (14 mutations)
[really-safe-money-gen] coverage (195/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just False) 2 0 into decimalLiteral QuantisationFactor {unQuantisationFactor = 1} (13 mutations)
[really-safe-money-gen] coverage (196/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 10 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (13 mutations)
[really-safe-money-gen] coverage (197/1610): Money\.AccountSpec.DecimalLiteral.can turn DecimalLiteral (Just False) 200 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (13 mutations)
[really-safe-money-gen] coverage (198/1610): Money\.AccountSpec.fromDouble.produces valid rational (25 mutations)
[really-safe-money-gen] coverage (199/1610): Money\.AccountSpec.fromDouble.roundtrips with toDouble back to double (18 mutations)
[really-safe-money-gen] coverage (200/1610): Money\.AccountSpec.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (201/1610): Money\.AccountSpec.subtract.fails for minBound - 1 (3 mutations)
[really-safe-money-gen] coverage (202/1610): Money\.AccountSpec.subtract.fails for minBound - maxBound (3 mutations)
[really-safe-money-gen] coverage (203/1610): Money\.AccountSpec.subtract.fails for maxBound - minBound (3 mutations)
[really-safe-money-gen] coverage (204/1610): Money\.AccountSpec.multiply.fails for 3 * minBound (3 mutations)
[really-safe-money-gen] coverage (205/1610): Money\.AccountSpec.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (206/1610): Money\.AccountSpec.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (207/1610): Money\.AccountSpec.multiply.succeeds for 3 * 6 (3 mutations)
[really-safe-money-gen] coverage (208/1610): Money\.AccountSpec.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (209/1610): Money\.AccountSpec.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (210/1610): Money\.AccountSpec.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (211/1610): Money\.AccountSpec.multiply.fails for 2 * maxbound (3 mutations)
[really-safe-money-gen] coverage (212/1610): Money\.AccountSpec.GenValid Account.genValid   \:\: Gen Account.only generates valid 'Account's (0 mutations)
[really-safe-money-gen] coverage (213/1610): Money\.AccountSpec.fraction.Correctly fractions 101 with 1 % 100 (11 mutations)
[really-safe-money-gen] coverage (214/1610): Money\.AccountSpec.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (215/1610): Money\.AccountSpec.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (216/1610): Money\.AccountSpec.fraction.Correctly fractions 100 with 1 % 100 (9 mutations)
[really-safe-money-gen] coverage (217/1610): Money\.AccountSpec.fraction.Produces a result that has been rounded in the right direction when using RoundDown (6 mutations)
[really-safe-money-gen] coverage (218/1610): Money\.AccountSpec.fraction.Produces a result that has been rounded in the right direction when using RoundUp (6 mutations)
[really-safe-money-gen] coverage (219/1610): Money\.AccountSpec.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (220/1610): Money\.AccountSpec.toRational.produces an invalid Rational with quantisation factor 0 (1 mutations)
[really-safe-money-gen] coverage (221/1610): Money\.MultiAmountSpec.fromAmount.produces valid amounts (10 mutations)
[really-safe-money-gen] coverage (222/1610): Money\.MultiAmountSpec.Show (MultiAmount Currency) and Read (MultiAmount Currency).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (223/1610): Money\.MultiAmountSpec.zero.is valid (1 mutations)
[really-safe-money-gen] coverage (224/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(/=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is antireflexive for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (225/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(/=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (226/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(==) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is transitive for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (227/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(==) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is symmetric for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (228/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(==) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (229/1610): Money\.MultiAmountSpec.Eq (MultiAmount Currency).(==) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is reflexive for "valid (MultiAmount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (230/1610): Money\.MultiAmountSpec.sum.produces valid amounts (13 mutations)
[really-safe-money-gen] coverage (231/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is antireflexive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (232/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is transitive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (233/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (234/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is reflexive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (235/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (236/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is transitive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (237/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(<=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is antisymmetric for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (238/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency)."min \:\: (MultiAmount Currency -> MultiAmount Currency -> MultiAmount Currency)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (239/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is antisymmetric for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (240/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is reflexive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (241/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is transitive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (242/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>=) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (243/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency)."max \:\: (MultiAmount Currency -> MultiAmount Currency -> MultiAmount Currency)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (244/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is antireflexive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (245/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is transitive for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (246/1610): Money\.MultiAmountSpec.Ord (MultiAmount Currency).(>) \:\: (MultiAmount Currency) -> (MultiAmount Currency) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (MultiAmount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (247/1610): Money\.MultiAmountSpec.convertAll.produces the right result in this example (4 mutations)
[really-safe-money-gen] coverage (248/1610): Money\.MultiAmountSpec.convertAll.produces valid results when converting two currencies to one (5 mutations)
[really-safe-money-gen] coverage (249/1610): Money\.MultiAmountSpec.convertAll.does the same as 'convert' when there is only one amount (9 mutations)
[really-safe-money-gen] coverage (250/1610): Money\.MultiAmountSpec.add.produces valid amounts (13 mutations)
[really-safe-money-gen] coverage (251/1610): Money\.MultiAmountSpec.add.has a right-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (252/1610): Money\.MultiAmountSpec.add.has a left-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (253/1610): Money\.MultiAmountSpec.add.is associative when both succeed (7 mutations)
[really-safe-money-gen] coverage (254/1610): Money\.MultiAmountSpec.add.is commutative (7 mutations)
[really-safe-money-gen] coverage (255/1610): Money\.MultiAmountSpec.addAmount.produces valid amounts (10 mutations)
[really-safe-money-gen] coverage (256/1610): Money\.MultiAmountSpec.subtractAmount.produces valid amounts (14 mutations)
[really-safe-money-gen] coverage (257/1610): Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s (7 mutations)
[really-safe-money-gen] coverage (258/1610): Money\.MultiAmountSpec.subtract.produces valid amounts (13 mutations)
[really-safe-money-gen] coverage (259/1610): Money\.MultiAmountSpec.subtract.has a right-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (260/1610): Money\.MultiAmountSpec.lookupAmount.produces valid amounts (1 mutations)
[really-safe-money-gen] coverage (261/1610): Money\.MultiAmountSpec.lookupAmount.can find an added amount (0 mutations)
[really-safe-money-gen] coverage (262/1610): Money\.AccountOfSpec.USD.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (263/1610): Money\.AccountOfSpec.USD.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (264/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(/=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (265/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(/=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is antireflexive for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (266/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(==) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is reflexive for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (267/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(==) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is symmetric for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (268/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(==) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is transitive for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (269/1610): Money\.AccountOfSpec.USD.Eq (AccountOf * USD).(==) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AccountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (270/1610): Money\.AccountOfSpec.USD.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (271/1610): Money\.AccountOfSpec.USD.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (272/1610): Money\.AccountOfSpec.USD.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (273/1610): Money\.AccountOfSpec.USD.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (274/1610): Money\.AccountOfSpec.USD.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (275/1610): Money\.AccountOfSpec.USD.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (276/1610): Money\.AccountOfSpec.USD.fromAmountOf.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (277/1610): Money\.AccountOfSpec.USD.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (278/1610): Money\.AccountOfSpec.USD.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (279/1610): Money\.AccountOfSpec.USD.fromAmount.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (280/1610): Money\.AccountOfSpec.USD.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (281/1610): Money\.AccountOfSpec.USD.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (282/1610): Money\.AccountOfSpec.USD.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (283/1610): Money\.AccountOfSpec.USD.Show (AccountOf * USD) and Read (AccountOf * USD).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (284/1610): Money\.AccountOfSpec.USD.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (285/1610): Money\.AccountOfSpec.USD.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (286/1610): Money\.AccountOfSpec.USD.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (287/1610): Money\.AccountOfSpec.USD.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (288/1610): Money\.AccountOfSpec.USD.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (289/1610): Money\.AccountOfSpec.USD.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (290/1610): Money\.AccountOfSpec.USD.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (291/1610): Money\.AccountOfSpec.USD.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (292/1610): Money\.AccountOfSpec.USD.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (293/1610): Money\.AccountOfSpec.USD.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (294/1610): Money\.AccountOfSpec.USD.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (295/1610): Money\.AccountOfSpec.USD.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (296/1610): Money\.AccountOfSpec.USD.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (297/1610): Money\.AccountOfSpec.USD.GenValid (AccountOf * USD).genValid   \:\: Gen (AccountOf * USD).only generates valid '(AccountOf * USD)'s (0 mutations)
[really-safe-money-gen] coverage (298/1610): Money\.AccountOfSpec.USD.fromDouble.produces valid rational (18 mutations)
[really-safe-money-gen] coverage (299/1610): Money\.AccountOfSpec.USD.fromDouble.roundtrips with toDouble (18 mutations)
[really-safe-money-gen] coverage (300/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (301/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is antireflexive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (302/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is transitive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (303/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is transitive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (304/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is antireflexive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (305/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (306/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (307/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is antisymmetric for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (308/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is reflexive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (309/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(>=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is transitive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (310/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD)."max \:\: (AccountOf * USD -> AccountOf * USD -> AccountOf * USD)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (311/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (312/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is reflexive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (313/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is antisymmetric for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (314/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD).(<=) \:\: (AccountOf * USD) -> (AccountOf * USD) -> Bool.is transitive for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (315/1610): Money\.AccountOfSpec.USD.Ord (AccountOf * USD)."min \:\: (AccountOf * USD -> AccountOf * USD -> AccountOf * USD)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AccountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (316/1610): Money\.AccountOfSpec.USD.distribute.produces results that sum up to the greater whole (18 mutations)
[really-safe-money-gen] coverage (317/1610): Money\.AccountOfSpec.USD.distribute.Show (Distribution (AccountOf * USD)) and Read (Distribution (AccountOf * USD)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (318/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(/=) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is antireflexive for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (319/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(/=) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (320/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(==) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is reflexive for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (321/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(==) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is transitive for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (322/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(==) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is symmetric for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (323/1610): Money\.AccountOfSpec.USD.distribute.Eq (Distribution (AccountOf * USD)).(==) \:\: (Distribution (AccountOf * USD)) -> (Distribution (AccountOf * USD)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AccountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (324/1610): Money\.AccountOfSpec.USD.distribute.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (325/1610): Money\.AccountOfSpec.USD.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (326/1610): Money\.AccountOfSpec.USD.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (327/1610): Money\.AccountOfSpec.USD.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (328/1610): Money\.AccountOfSpec.USD.fromRational.roundtrips with toRational (13 mutations)
[really-safe-money-gen] coverage (329/1610): Money\.AccountOfSpec.USD.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (330/1610): Money\.AccountOfSpec.USD.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (331/1610): Money\.AccountOfSpec.USD.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (332/1610): Money\.AccountOfSpec.USD.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (333/1610): Money\.AccountOfSpec.USD.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (334/1610): Money\.AccountOfSpec.USD.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (335/1610): Money\.AccountOfSpec.INR.fromAmount.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (336/1610): Money\.AccountOfSpec.INR.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (337/1610): Money\.AccountOfSpec.INR.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (338/1610): Money\.AccountOfSpec.INR.GenValid (AccountOf * INR).genValid   \:\: Gen (AccountOf * INR).only generates valid '(AccountOf * INR)'s (0 mutations)
[really-safe-money-gen] coverage (339/1610): Money\.AccountOfSpec.INR.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (340/1610): Money\.AccountOfSpec.INR.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (341/1610): Money\.AccountOfSpec.INR.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (342/1610): Money\.AccountOfSpec.INR.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (343/1610): Money\.AccountOfSpec.INR.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (344/1610): Money\.AccountOfSpec.INR.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (345/1610): Money\.AccountOfSpec.INR.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (346/1610): Money\.AccountOfSpec.INR.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (347/1610): Money\.AccountOfSpec.INR.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (348/1610): Money\.AccountOfSpec.INR.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (349/1610): Money\.AccountOfSpec.INR.distribute.produces results that sum up to the greater whole (18 mutations)
[really-safe-money-gen] coverage (350/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(/=) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (351/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(/=) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is antireflexive for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (352/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(==) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is transitive for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (353/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(==) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (354/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(==) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is reflexive for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (355/1610): Money\.AccountOfSpec.INR.distribute.Eq (Distribution (AccountOf * INR)).(==) \:\: (Distribution (AccountOf * INR)) -> (Distribution (AccountOf * INR)) -> Bool.is symmetric for "valid (Distribution (AccountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (356/1610): Money\.AccountOfSpec.INR.distribute.Show (Distribution (AccountOf * INR)) and Read (Distribution (AccountOf * INR)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (357/1610): Money\.AccountOfSpec.INR.distribute.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (358/1610): Money\.AccountOfSpec.INR.fromAmountOf.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (359/1610): Money\.AccountOfSpec.INR.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (360/1610): Money\.AccountOfSpec.INR.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (361/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR)."min \:\: (AccountOf * INR -> AccountOf * INR -> AccountOf * INR)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (362/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is antisymmetric for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (363/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (364/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is reflexive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (365/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is transitive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (366/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is transitive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (367/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is antireflexive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (368/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (369/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR)."max \:\: (AccountOf * INR -> AccountOf * INR -> AccountOf * INR)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (370/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is transitive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (371/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (372/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(>) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is antireflexive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (373/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is reflexive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (374/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is transitive for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (375/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is antisymmetric for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (376/1610): Money\.AccountOfSpec.INR.Ord (AccountOf * INR).(<=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AccountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (377/1610): Money\.AccountOfSpec.INR.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (378/1610): Money\.AccountOfSpec.INR.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (379/1610): Money\.AccountOfSpec.INR.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (380/1610): Money\.AccountOfSpec.INR.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (381/1610): Money\.AccountOfSpec.INR.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (382/1610): Money\.AccountOfSpec.INR.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (383/1610): Money\.AccountOfSpec.INR.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (384/1610): Money\.AccountOfSpec.INR.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (385/1610): Money\.AccountOfSpec.INR.Show (AccountOf * INR) and Read (AccountOf * INR).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (386/1610): Money\.AccountOfSpec.INR.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (387/1610): Money\.AccountOfSpec.INR.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (388/1610): Money\.AccountOfSpec.INR.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (389/1610): Money\.AccountOfSpec.INR.fromRational.roundtrips with toRational (13 mutations)
[really-safe-money-gen] coverage (390/1610): Money\.AccountOfSpec.INR.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (391/1610): Money\.AccountOfSpec.INR.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (392/1610): Money\.AccountOfSpec.INR.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (393/1610): Money\.AccountOfSpec.INR.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (394/1610): Money\.AccountOfSpec.INR.fromDouble.roundtrips with toDouble (18 mutations)
[really-safe-money-gen] coverage (395/1610): Money\.AccountOfSpec.INR.fromDouble.produces valid rational (18 mutations)
[really-safe-money-gen] coverage (396/1610): Money\.AccountOfSpec.INR.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (397/1610): Money\.AccountOfSpec.INR.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (398/1610): Money\.AccountOfSpec.INR.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (399/1610): Money\.AccountOfSpec.INR.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (400/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(/=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (401/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(/=) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is antireflexive for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (402/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(==) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is reflexive for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (403/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(==) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is symmetric for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (404/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(==) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is transitive for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (405/1610): Money\.AccountOfSpec.INR.Eq (AccountOf * INR).(==) \:\: (AccountOf * INR) -> (AccountOf * INR) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AccountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (406/1610): Money\.AccountOfSpec.INR.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (407/1610): Money\.AccountOfSpec.INR.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (408/1610): Money\.AccountOfSpec.CHF.fromAmount.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (409/1610): Money\.AccountOfSpec.CHF.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (410/1610): Money\.AccountOfSpec.CHF.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (411/1610): Money\.AccountOfSpec.CHF.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (412/1610): Money\.AccountOfSpec.CHF.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (413/1610): Money\.AccountOfSpec.CHF.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (414/1610): Money\.AccountOfSpec.CHF.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (415/1610): Money\.AccountOfSpec.CHF.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (416/1610): Money\.AccountOfSpec.CHF.distribute.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (417/1610): Money\.AccountOfSpec.CHF.distribute.produces results that sum up to the greater whole (18 mutations)
[really-safe-money-gen] coverage (418/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(/=) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is antireflexive for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (419/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(/=) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (420/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(==) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is reflexive for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (421/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(==) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is transitive for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (422/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(==) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is symmetric for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (423/1610): Money\.AccountOfSpec.CHF.distribute.Eq (Distribution (AccountOf * CHF)).(==) \:\: (Distribution (AccountOf * CHF)) -> (Distribution (AccountOf * CHF)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AccountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (424/1610): Money\.AccountOfSpec.CHF.distribute.Show (Distribution (AccountOf * CHF)) and Read (Distribution (AccountOf * CHF)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (425/1610): Money\.AccountOfSpec.CHF.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (426/1610): Money\.AccountOfSpec.CHF.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (427/1610): Money\.AccountOfSpec.CHF.Show (AccountOf * CHF) and Read (AccountOf * CHF).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (428/1610): Money\.AccountOfSpec.CHF.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (429/1610): Money\.AccountOfSpec.CHF.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (430/1610): Money\.AccountOfSpec.CHF.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (431/1610): Money\.AccountOfSpec.CHF.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (432/1610): Money\.AccountOfSpec.CHF.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (433/1610): Money\.AccountOfSpec.CHF.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (434/1610): Money\.AccountOfSpec.CHF.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (435/1610): Money\.AccountOfSpec.CHF.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (436/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(==) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (437/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(==) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is transitive for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (438/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(==) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is reflexive for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (439/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(==) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is symmetric for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (440/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(/=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (441/1610): Money\.AccountOfSpec.CHF.Eq (AccountOf * CHF).(/=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is antireflexive for "valid (AccountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (442/1610): Money\.AccountOfSpec.CHF.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (443/1610): Money\.AccountOfSpec.CHF.fromAmountOf.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (444/1610): Money\.AccountOfSpec.CHF.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (445/1610): Money\.AccountOfSpec.CHF.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (446/1610): Money\.AccountOfSpec.CHF.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (447/1610): Money\.AccountOfSpec.CHF.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (448/1610): Money\.AccountOfSpec.CHF.fromRational.roundtrips with toRational (13 mutations)
[really-safe-money-gen] coverage (449/1610): Money\.AccountOfSpec.CHF.fromDouble.produces valid rational (18 mutations)
[really-safe-money-gen] coverage (450/1610): Money\.AccountOfSpec.CHF.fromDouble.roundtrips with toDouble (18 mutations)
[really-safe-money-gen] coverage (451/1610): Money\.AccountOfSpec.CHF.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (452/1610): Money\.AccountOfSpec.CHF.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (453/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF)."min \:\: (AccountOf * CHF -> AccountOf * CHF -> AccountOf * CHF)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (454/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (455/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is transitive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (456/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is antireflexive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (457/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (458/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is antisymmetric for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (459/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is transitive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (460/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(<=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is reflexive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (461/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF)."max \:\: (AccountOf * CHF -> AccountOf * CHF -> AccountOf * CHF)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (462/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (463/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is antireflexive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (464/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is transitive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (465/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (466/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is reflexive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (467/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is antisymmetric for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (468/1610): Money\.AccountOfSpec.CHF.Ord (AccountOf * CHF).(>=) \:\: (AccountOf * CHF) -> (AccountOf * CHF) -> Bool.is transitive for "valid (AccountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (469/1610): Money\.AccountOfSpec.CHF.GenValid (AccountOf * CHF).genValid   \:\: Gen (AccountOf * CHF).only generates valid '(AccountOf * CHF)'s (0 mutations)
[really-safe-money-gen] coverage (470/1610): Money\.AccountOfSpec.CHF.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (471/1610): Money\.AccountOfSpec.CHF.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (472/1610): Money\.AccountOfSpec.CHF.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (473/1610): Money\.AccountOfSpec.CHF.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (474/1610): Money\.AccountOfSpec.CHF.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (475/1610): Money\.AccountOfSpec.CHF.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (476/1610): Money\.AccountOfSpec.CHF.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (477/1610): Money\.AccountOfSpec.CHF.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (478/1610): Money\.AccountOfSpec.CHF.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (479/1610): Money\.AccountOfSpec.CHF.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (480/1610): Money\.AccountOfSpec.CHF.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (481/1610): Money\.AccountOfSpec.ADA.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (482/1610): Money\.AccountOfSpec.ADA.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (483/1610): Money\.AccountOfSpec.ADA.fromDouble.produces valid rational (18 mutations)
[really-safe-money-gen] coverage (484/1610): Money\.AccountOfSpec.ADA.fromDouble.roundtrips with toDouble (18 mutations)
[really-safe-money-gen] coverage (485/1610): Money\.AccountOfSpec.ADA.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (486/1610): Money\.AccountOfSpec.ADA.fromRational.roundtrips with toRational (13 mutations)
[really-safe-money-gen] coverage (487/1610): Money\.AccountOfSpec.ADA.Show (AccountOf * ADA) and Read (AccountOf * ADA).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (488/1610): Money\.AccountOfSpec.ADA.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (489/1610): Money\.AccountOfSpec.ADA.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (490/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is antisymmetric for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (491/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is reflexive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (492/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is transitive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (493/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (494/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is antisymmetric for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (495/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (496/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is transitive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (497/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is reflexive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (498/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA)."min \:\: (AccountOf * ADA -> AccountOf * ADA -> AccountOf * ADA)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (499/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is antireflexive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (500/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is transitive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (501/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(>) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (502/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA)."max \:\: (AccountOf * ADA -> AccountOf * ADA -> AccountOf * ADA)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (503/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (504/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is transitive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (505/1610): Money\.AccountOfSpec.ADA.Ord (AccountOf * ADA).(<) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is antireflexive for "valid (AccountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (506/1610): Money\.AccountOfSpec.ADA.fromAmountOf.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (507/1610): Money\.AccountOfSpec.ADA.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (508/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(==) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is reflexive for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (509/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(==) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is transitive for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (510/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(==) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is symmetric for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (511/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(==) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (512/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(/=) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (513/1610): Money\.AccountOfSpec.ADA.distribute.Eq (Distribution (AccountOf * ADA)).(/=) \:\: (Distribution (AccountOf * ADA)) -> (Distribution (AccountOf * ADA)) -> Bool.is antireflexive for "valid (Distribution (AccountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (514/1610): Money\.AccountOfSpec.ADA.distribute.Show (Distribution (AccountOf * ADA)) and Read (Distribution (AccountOf * ADA)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (515/1610): Money\.AccountOfSpec.ADA.distribute.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (516/1610): Money\.AccountOfSpec.ADA.distribute.produces results that sum up to the greater whole (18 mutations)
[really-safe-money-gen] coverage (517/1610): Money\.AccountOfSpec.ADA.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (518/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(/=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is antireflexive for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (519/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(/=) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (520/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(==) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is reflexive for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (521/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(==) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is transitive for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (522/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(==) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is symmetric for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (523/1610): Money\.AccountOfSpec.ADA.Eq (AccountOf * ADA).(==) \:\: (AccountOf * ADA) -> (AccountOf * ADA) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AccountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (524/1610): Money\.AccountOfSpec.ADA.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (525/1610): Money\.AccountOfSpec.ADA.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (526/1610): Money\.AccountOfSpec.ADA.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (527/1610): Money\.AccountOfSpec.ADA.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (528/1610): Money\.AccountOfSpec.ADA.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (529/1610): Money\.AccountOfSpec.ADA.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (530/1610): Money\.AccountOfSpec.ADA.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (531/1610): Money\.AccountOfSpec.ADA.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (532/1610): Money\.AccountOfSpec.ADA.fromAmount.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (533/1610): Money\.AccountOfSpec.ADA.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (534/1610): Money\.AccountOfSpec.ADA.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (535/1610): Money\.AccountOfSpec.ADA.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (536/1610): Money\.AccountOfSpec.ADA.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (537/1610): Money\.AccountOfSpec.ADA.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (538/1610): Money\.AccountOfSpec.ADA.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (539/1610): Money\.AccountOfSpec.ADA.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (540/1610): Money\.AccountOfSpec.ADA.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (541/1610): Money\.AccountOfSpec.ADA.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (542/1610): Money\.AccountOfSpec.ADA.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (543/1610): Money\.AccountOfSpec.ADA.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (544/1610): Money\.AccountOfSpec.ADA.GenValid (AccountOf * ADA).genValid   \:\: Gen (AccountOf * ADA).only generates valid '(AccountOf * ADA)'s (0 mutations)
[really-safe-money-gen] coverage (545/1610): Money\.AccountOfSpec.ADA.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (546/1610): Money\.AccountOfSpec.ADA.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (547/1610): Money\.AccountOfSpec.ADA.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (548/1610): Money\.AccountOfSpec.ADA.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (549/1610): Money\.AccountOfSpec.ADA.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (550/1610): Money\.AccountOfSpec.ADA.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (551/1610): Money\.AccountOfSpec.ADA.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (552/1610): Money\.AccountOfSpec.ADA.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (553/1610): Money\.AccountOfSpec.ADA.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (554/1610): Money\.AccountOfSpec.BTC.add.is commutative (9 mutations)
[really-safe-money-gen] coverage (555/1610): Money\.AccountOfSpec.BTC.add.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (556/1610): Money\.AccountOfSpec.BTC.add.has a left-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (557/1610): Money\.AccountOfSpec.BTC.add.has a right-identity\: zero (9 mutations)
[really-safe-money-gen] coverage (558/1610): Money\.AccountOfSpec.BTC.add.is associative when both succeed (9 mutations)
[really-safe-money-gen] coverage (559/1610): Money\.AccountOfSpec.BTC.add.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (560/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (561/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is transitive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (562/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is antireflexive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (563/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (564/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is antisymmetric for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (565/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is reflexive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (566/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is transitive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (567/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is transitive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (568/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (569/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(<) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is antireflexive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (570/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC)."min \:\: (AccountOf * BTC -> AccountOf * BTC -> AccountOf * BTC)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (571/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC)."max \:\: (AccountOf * BTC -> AccountOf * BTC -> AccountOf * BTC)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (572/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is antisymmetric for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (573/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (574/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is transitive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (575/1610): Money\.AccountOfSpec.BTC.Ord (AccountOf * BTC).(>=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is reflexive for "valid (AccountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (576/1610): Money\.AccountOfSpec.BTC.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (577/1610): Money\.AccountOfSpec.BTC.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (578/1610): Money\.AccountOfSpec.BTC.distribute.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (579/1610): Money\.AccountOfSpec.BTC.distribute.produces results that sum up to the greater whole (18 mutations)
[really-safe-money-gen] coverage (580/1610): Money\.AccountOfSpec.BTC.distribute.Show (Distribution (AccountOf * BTC)) and Read (Distribution (AccountOf * BTC)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (581/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(==) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (582/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(==) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is reflexive for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (583/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(==) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is symmetric for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (584/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(==) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is transitive for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (585/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(/=) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is antireflexive for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (586/1610): Money\.AccountOfSpec.BTC.distribute.Eq (Distribution (AccountOf * BTC)).(/=) \:\: (Distribution (AccountOf * BTC)) -> (Distribution (AccountOf * BTC)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AccountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (587/1610): Money\.AccountOfSpec.BTC.toDouble.produces valid Doubles when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (588/1610): Money\.AccountOfSpec.BTC.negate.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (589/1610): Money\.AccountOfSpec.BTC.fromAmountOf.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (590/1610): Money\.AccountOfSpec.BTC.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (591/1610): Money\.AccountOfSpec.BTC.multiply.is distributive with add when both succeed (12 mutations)
[really-safe-money-gen] coverage (592/1610): Money\.AccountOfSpec.BTC.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (593/1610): Money\.AccountOfSpec.BTC.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (594/1610): Money\.AccountOfSpec.BTC.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (595/1610): Money\.AccountOfSpec.BTC.sum.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (596/1610): Money\.AccountOfSpec.BTC.sum.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (597/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(==) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is reflexive for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (598/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(==) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is transitive for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (599/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(==) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (600/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(==) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is symmetric for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (601/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(/=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is antireflexive for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (602/1610): Money\.AccountOfSpec.BTC.Eq (AccountOf * BTC).(/=) \:\: (AccountOf * BTC) -> (AccountOf * BTC) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AccountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (603/1610): Money\.AccountOfSpec.BTC.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (604/1610): Money\.AccountOfSpec.BTC.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (605/1610): Money\.AccountOfSpec.BTC.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (606/1610): Money\.AccountOfSpec.BTC.subtract.matches what you would get with Integer, if nothing fails (9 mutations)
[really-safe-money-gen] coverage (607/1610): Money\.AccountOfSpec.BTC.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (608/1610): Money\.AccountOfSpec.BTC.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (609/1610): Money\.AccountOfSpec.BTC.fromRational.produces valid rational (13 mutations)
[really-safe-money-gen] coverage (610/1610): Money\.AccountOfSpec.BTC.fromRational.roundtrips with toRational (13 mutations)
[really-safe-money-gen] coverage (611/1610): Money\.AccountOfSpec.BTC.Show (AccountOf * BTC) and Read (AccountOf * BTC).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (612/1610): Money\.AccountOfSpec.BTC.toMinimalQuantisations.produces valid accounts (0 mutations)
[really-safe-money-gen] coverage (613/1610): Money\.AccountOfSpec.BTC.GenValid (AccountOf * BTC).genValid   \:\: Gen (AccountOf * BTC).only generates valid '(AccountOf * BTC)'s (0 mutations)
[really-safe-money-gen] coverage (614/1610): Money\.AccountOfSpec.BTC.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (615/1610): Money\.AccountOfSpec.BTC.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (616/1610): Money\.AccountOfSpec.BTC.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (617/1610): Money\.AccountOfSpec.BTC.fromDouble.roundtrips with toDouble (18 mutations)
[really-safe-money-gen] coverage (618/1610): Money\.AccountOfSpec.BTC.fromDouble.produces valid rational (18 mutations)
[really-safe-money-gen] coverage (619/1610): Money\.AccountOfSpec.BTC.fraction.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (620/1610): Money\.AccountOfSpec.BTC.fraction.Produces a result that can be multiplied back (9 mutations)
[really-safe-money-gen] coverage (621/1610): Money\.AccountOfSpec.BTC.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (622/1610): Money\.AccountOfSpec.BTC.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (623/1610): Money\.AccountOfSpec.BTC.fromMinimalQuantisations.roundtrips with toMinimalQuantisations (6 mutations)
[really-safe-money-gen] coverage (624/1610): Money\.AccountOfSpec.BTC.fromMinimalQuantisations.produces valid accounts (6 mutations)
[really-safe-money-gen] coverage (625/1610): Money\.AccountOfSpec.BTC.fromAmount.produces valid AccountOfs (0 mutations)
[really-safe-money-gen] coverage (626/1610): Money\.AccountOfSpec.BTC.abs.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (627/1610): Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (628/1610): Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (629/1610): Money\.ConversionRateOfSpec.INR.ADA.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (630/1610): Money\.ConversionRateOfSpec.INR.ADA.GenValid (ConversionRateOf INR ADA).genValid   \:\: Gen (ConversionRateOf INR ADA).only generates valid '(ConversionRateOf INR ADA)'s (3 mutations)
[really-safe-money-gen] coverage (631/1610): Money\.ConversionRateOfSpec.INR.ADA.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (632/1610): Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (633/1610): Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (634/1610): Money\.ConversionRateOfSpec.INR.ADA.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (635/1610): Money\.ConversionRateOfSpec.INR.ADA.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (636/1610): Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (637/1610): Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (638/1610): Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (639/1610): Money\.ConversionRateOfSpec.INR.BTC.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (640/1610): Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (641/1610): Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (642/1610): Money\.ConversionRateOfSpec.INR.BTC.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (643/1610): Money\.ConversionRateOfSpec.INR.BTC.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (644/1610): Money\.ConversionRateOfSpec.INR.BTC.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (645/1610): Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (646/1610): Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (647/1610): Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (648/1610): Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (649/1610): Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (650/1610): Money\.ConversionRateOfSpec.INR.BTC.GenValid (ConversionRateOf INR BTC).genValid   \:\: Gen (ConversionRateOf INR BTC).only generates valid '(ConversionRateOf INR BTC)'s (3 mutations)
[really-safe-money-gen] coverage (651/1610): Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (652/1610): Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (653/1610): Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (654/1610): Money\.ConversionRateOfSpec.INR.CHF.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (655/1610): Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (656/1610): Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (657/1610): Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (658/1610): Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (659/1610): Money\.ConversionRateOfSpec.INR.CHF.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (660/1610): Money\.ConversionRateOfSpec.INR.CHF.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (661/1610): Money\.ConversionRateOfSpec.INR.CHF.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (662/1610): Money\.ConversionRateOfSpec.INR.CHF.GenValid (ConversionRateOf INR CHF).genValid   \:\: Gen (ConversionRateOf INR CHF).only generates valid '(ConversionRateOf INR CHF)'s (3 mutations)
[really-safe-money-gen] coverage (663/1610): Money\.ConversionRateOfSpec.INR.USD.GenValid (ConversionRateOf INR USD).genValid   \:\: Gen (ConversionRateOf INR USD).only generates valid '(ConversionRateOf INR USD)'s (3 mutations)
[really-safe-money-gen] coverage (664/1610): Money\.ConversionRateOfSpec.INR.USD.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (665/1610): Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (666/1610): Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (667/1610): Money\.ConversionRateOfSpec.INR.USD.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (668/1610): Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (669/1610): Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (670/1610): Money\.ConversionRateOfSpec.INR.USD.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (671/1610): Money\.ConversionRateOfSpec.INR.USD.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (672/1610): Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (673/1610): Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (674/1610): Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (675/1610): Money\.ConversionRateOfSpec.INR.INR.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (676/1610): Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (677/1610): Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (678/1610): Money\.ConversionRateOfSpec.INR.INR.GenValid (ConversionRateOf INR INR).genValid   \:\: Gen (ConversionRateOf INR INR).only generates valid '(ConversionRateOf INR INR)'s (3 mutations)
[really-safe-money-gen] coverage (679/1610): Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (680/1610): Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (681/1610): Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (682/1610): Money\.ConversionRateOfSpec.INR.INR.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (683/1610): Money\.ConversionRateOfSpec.INR.INR.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (684/1610): Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (685/1610): Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (686/1610): Money\.ConversionRateOfSpec.INR.INR.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (687/1610): Money\.ConversionRateOfSpec.ADA.USD.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (688/1610): Money\.ConversionRateOfSpec.ADA.USD.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (689/1610): Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (690/1610): Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (691/1610): Money\.ConversionRateOfSpec.ADA.USD.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (692/1610): Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (693/1610): Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (694/1610): Money\.ConversionRateOfSpec.ADA.USD.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (695/1610): Money\.ConversionRateOfSpec.ADA.USD.GenValid (ConversionRateOf ADA USD).genValid   \:\: Gen (ConversionRateOf ADA USD).only generates valid '(ConversionRateOf ADA USD)'s (3 mutations)
[really-safe-money-gen] coverage (696/1610): Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (697/1610): Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (698/1610): Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (699/1610): Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (700/1610): Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (701/1610): Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (702/1610): Money\.ConversionRateOfSpec.ADA.CHF.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (703/1610): Money\.ConversionRateOfSpec.ADA.CHF.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (704/1610): Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (705/1610): Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (706/1610): Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (707/1610): Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (708/1610): Money\.ConversionRateOfSpec.ADA.CHF.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (709/1610): Money\.ConversionRateOfSpec.ADA.CHF.GenValid (ConversionRateOf ADA CHF).genValid   \:\: Gen (ConversionRateOf ADA CHF).only generates valid '(ConversionRateOf ADA CHF)'s (3 mutations)
[really-safe-money-gen] coverage (710/1610): Money\.ConversionRateOfSpec.ADA.CHF.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (711/1610): Money\.ConversionRateOfSpec.ADA.ADA.GenValid (ConversionRateOf ADA ADA).genValid   \:\: Gen (ConversionRateOf ADA ADA).only generates valid '(ConversionRateOf ADA ADA)'s (3 mutations)
[really-safe-money-gen] coverage (712/1610): Money\.ConversionRateOfSpec.ADA.ADA.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (713/1610): Money\.ConversionRateOfSpec.ADA.ADA.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (714/1610): Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (715/1610): Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (716/1610): Money\.ConversionRateOfSpec.ADA.ADA.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (717/1610): Money\.ConversionRateOfSpec.ADA.ADA.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (718/1610): Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (719/1610): Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (720/1610): Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (721/1610): Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (722/1610): Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (723/1610): Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (724/1610): Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (725/1610): Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (726/1610): Money\.ConversionRateOfSpec.ADA.BTC.GenValid (ConversionRateOf ADA BTC).genValid   \:\: Gen (ConversionRateOf ADA BTC).only generates valid '(ConversionRateOf ADA BTC)'s (3 mutations)
[really-safe-money-gen] coverage (727/1610): Money\.ConversionRateOfSpec.ADA.BTC.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (728/1610): Money\.ConversionRateOfSpec.ADA.BTC.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (729/1610): Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (730/1610): Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (731/1610): Money\.ConversionRateOfSpec.ADA.BTC.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (732/1610): Money\.ConversionRateOfSpec.ADA.BTC.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (733/1610): Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (734/1610): Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (735/1610): Money\.ConversionRateOfSpec.ADA.INR.GenValid (ConversionRateOf ADA INR).genValid   \:\: Gen (ConversionRateOf ADA INR).only generates valid '(ConversionRateOf ADA INR)'s (3 mutations)
[really-safe-money-gen] coverage (736/1610): Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (737/1610): Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (738/1610): Money\.ConversionRateOfSpec.ADA.INR.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (739/1610): Money\.ConversionRateOfSpec.ADA.INR.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (740/1610): Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (741/1610): Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (742/1610): Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (743/1610): Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (744/1610): Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (745/1610): Money\.ConversionRateOfSpec.ADA.INR.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (746/1610): Money\.ConversionRateOfSpec.ADA.INR.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (747/1610): Money\.ConversionRateOfSpec.CHF.BTC.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (748/1610): Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (749/1610): Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (750/1610): Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (751/1610): Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (752/1610): Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (753/1610): Money\.ConversionRateOfSpec.CHF.BTC.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (754/1610): Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (755/1610): Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (756/1610): Money\.ConversionRateOfSpec.CHF.BTC.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (757/1610): Money\.ConversionRateOfSpec.CHF.BTC.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (758/1610): Money\.ConversionRateOfSpec.CHF.BTC.GenValid (ConversionRateOf CHF BTC).genValid   \:\: Gen (ConversionRateOf CHF BTC).only generates valid '(ConversionRateOf CHF BTC)'s (3 mutations)
[really-safe-money-gen] coverage (759/1610): Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (760/1610): Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (761/1610): Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (762/1610): Money\.ConversionRateOfSpec.CHF.ADA.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (763/1610): Money\.ConversionRateOfSpec.CHF.ADA.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (764/1610): Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (765/1610): Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (766/1610): Money\.ConversionRateOfSpec.CHF.ADA.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (767/1610): Money\.ConversionRateOfSpec.CHF.ADA.GenValid (ConversionRateOf CHF ADA).genValid   \:\: Gen (ConversionRateOf CHF ADA).only generates valid '(ConversionRateOf CHF ADA)'s (3 mutations)
[really-safe-money-gen] coverage (768/1610): Money\.ConversionRateOfSpec.CHF.ADA.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (769/1610): Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (770/1610): Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (771/1610): Money\.ConversionRateOfSpec.CHF.USD.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (772/1610): Money\.ConversionRateOfSpec.CHF.USD.GenValid (ConversionRateOf CHF USD).genValid   \:\: Gen (ConversionRateOf CHF USD).only generates valid '(ConversionRateOf CHF USD)'s (3 mutations)
[really-safe-money-gen] coverage (773/1610): Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (774/1610): Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (775/1610): Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (776/1610): Money\.ConversionRateOfSpec.CHF.USD.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (777/1610): Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (778/1610): Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (779/1610): Money\.ConversionRateOfSpec.CHF.USD.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (780/1610): Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (781/1610): Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (782/1610): Money\.ConversionRateOfSpec.CHF.USD.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (783/1610): Money\.ConversionRateOfSpec.CHF.CHF.GenValid (ConversionRateOf CHF CHF).genValid   \:\: Gen (ConversionRateOf CHF CHF).only generates valid '(ConversionRateOf CHF CHF)'s (3 mutations)
[really-safe-money-gen] coverage (784/1610): Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (785/1610): Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (786/1610): Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (787/1610): Money\.ConversionRateOfSpec.CHF.CHF.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (788/1610): Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (789/1610): Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (790/1610): Money\.ConversionRateOfSpec.CHF.CHF.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (791/1610): Money\.ConversionRateOfSpec.CHF.CHF.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (792/1610): Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (793/1610): Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (794/1610): Money\.ConversionRateOfSpec.CHF.CHF.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (795/1610): Money\.ConversionRateOfSpec.CHF.INR.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (796/1610): Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (797/1610): Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (798/1610): Money\.ConversionRateOfSpec.CHF.INR.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (799/1610): Money\.ConversionRateOfSpec.CHF.INR.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (800/1610): Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (801/1610): Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (802/1610): Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (803/1610): Money\.ConversionRateOfSpec.CHF.INR.GenValid (ConversionRateOf CHF INR).genValid   \:\: Gen (ConversionRateOf CHF INR).only generates valid '(ConversionRateOf CHF INR)'s (3 mutations)
[really-safe-money-gen] coverage (804/1610): Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (805/1610): Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (806/1610): Money\.ConversionRateOfSpec.CHF.INR.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (807/1610): Money\.ConversionRateOfSpec.USD.CHF.GenValid (ConversionRateOf USD CHF).genValid   \:\: Gen (ConversionRateOf USD CHF).only generates valid '(ConversionRateOf USD CHF)'s (3 mutations)
[really-safe-money-gen] coverage (808/1610): Money\.ConversionRateOfSpec.USD.CHF.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (809/1610): Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (810/1610): Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (811/1610): Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (812/1610): Money\.ConversionRateOfSpec.USD.CHF.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (813/1610): Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (814/1610): Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (815/1610): Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (816/1610): Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (817/1610): Money\.ConversionRateOfSpec.USD.CHF.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (818/1610): Money\.ConversionRateOfSpec.USD.CHF.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (819/1610): Money\.ConversionRateOfSpec.USD.USD.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (820/1610): Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (821/1610): Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (822/1610): Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (823/1610): Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (824/1610): Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (825/1610): Money\.ConversionRateOfSpec.USD.USD.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (826/1610): Money\.ConversionRateOfSpec.USD.USD.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (827/1610): Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (828/1610): Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (829/1610): Money\.ConversionRateOfSpec.USD.USD.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (830/1610): Money\.ConversionRateOfSpec.USD.USD.GenValid (ConversionRateOf USD USD).genValid   \:\: Gen (ConversionRateOf USD USD).only generates valid '(ConversionRateOf USD USD)'s (3 mutations)
[really-safe-money-gen] coverage (831/1610): Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (832/1610): Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (833/1610): Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (834/1610): Money\.ConversionRateOfSpec.USD.INR.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (835/1610): Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (836/1610): Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (837/1610): Money\.ConversionRateOfSpec.USD.INR.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (838/1610): Money\.ConversionRateOfSpec.USD.INR.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (839/1610): Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (840/1610): Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (841/1610): Money\.ConversionRateOfSpec.USD.INR.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (842/1610): Money\.ConversionRateOfSpec.USD.INR.GenValid (ConversionRateOf USD INR).genValid   \:\: Gen (ConversionRateOf USD INR).only generates valid '(ConversionRateOf USD INR)'s (3 mutations)
[really-safe-money-gen] coverage (843/1610): Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (844/1610): Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (845/1610): Money\.ConversionRateOfSpec.USD.BTC.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (846/1610): Money\.ConversionRateOfSpec.USD.BTC.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (847/1610): Money\.ConversionRateOfSpec.USD.BTC.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (848/1610): Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (849/1610): Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (850/1610): Money\.ConversionRateOfSpec.USD.BTC.GenValid (ConversionRateOf USD BTC).genValid   \:\: Gen (ConversionRateOf USD BTC).only generates valid '(ConversionRateOf USD BTC)'s (3 mutations)
[really-safe-money-gen] coverage (851/1610): Money\.ConversionRateOfSpec.USD.BTC.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (852/1610): Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (853/1610): Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (854/1610): Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (855/1610): Money\.ConversionRateOfSpec.USD.ADA.GenValid (ConversionRateOf USD ADA).genValid   \:\: Gen (ConversionRateOf USD ADA).only generates valid '(ConversionRateOf USD ADA)'s (3 mutations)
[really-safe-money-gen] coverage (856/1610): Money\.ConversionRateOfSpec.USD.ADA.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (857/1610): Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (858/1610): Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (859/1610): Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (860/1610): Money\.ConversionRateOfSpec.USD.ADA.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (861/1610): Money\.ConversionRateOfSpec.USD.ADA.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (862/1610): Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (863/1610): Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (864/1610): Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (865/1610): Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (866/1610): Money\.ConversionRateOfSpec.USD.ADA.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (867/1610): Money\.ConversionRateOfSpec.BTC.ADA.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (868/1610): Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (869/1610): Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (870/1610): Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (871/1610): Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (872/1610): Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (873/1610): Money\.ConversionRateOfSpec.BTC.ADA.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (874/1610): Money\.ConversionRateOfSpec.BTC.ADA.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (875/1610): Money\.ConversionRateOfSpec.BTC.ADA.GenValid (ConversionRateOf BTC ADA).genValid   \:\: Gen (ConversionRateOf BTC ADA).only generates valid '(ConversionRateOf BTC ADA)'s (3 mutations)
[really-safe-money-gen] coverage (876/1610): Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (877/1610): Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (878/1610): Money\.ConversionRateOfSpec.BTC.ADA.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (879/1610): Money\.ConversionRateOfSpec.BTC.USD.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (880/1610): Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (881/1610): Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (882/1610): Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (883/1610): Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (884/1610): Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (885/1610): Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (886/1610): Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (887/1610): Money\.ConversionRateOfSpec.BTC.USD.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (888/1610): Money\.ConversionRateOfSpec.BTC.USD.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (889/1610): Money\.ConversionRateOfSpec.BTC.USD.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (890/1610): Money\.ConversionRateOfSpec.BTC.USD.GenValid (ConversionRateOf BTC USD).genValid   \:\: Gen (ConversionRateOf BTC USD).only generates valid '(ConversionRateOf BTC USD)'s (3 mutations)
[really-safe-money-gen] coverage (891/1610): Money\.ConversionRateOfSpec.BTC.INR.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (892/1610): Money\.ConversionRateOfSpec.BTC.INR.GenValid (ConversionRateOf BTC INR).genValid   \:\: Gen (ConversionRateOf BTC INR).only generates valid '(ConversionRateOf BTC INR)'s (3 mutations)
[really-safe-money-gen] coverage (893/1610): Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (894/1610): Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (895/1610): Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (896/1610): Money\.ConversionRateOfSpec.BTC.INR.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (897/1610): Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (898/1610): Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (899/1610): Money\.ConversionRateOfSpec.BTC.INR.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (900/1610): Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (901/1610): Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (902/1610): Money\.ConversionRateOfSpec.BTC.INR.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (903/1610): Money\.ConversionRateOfSpec.BTC.CHF.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (904/1610): Money\.ConversionRateOfSpec.BTC.CHF.GenValid (ConversionRateOf BTC CHF).genValid   \:\: Gen (ConversionRateOf BTC CHF).only generates valid '(ConversionRateOf BTC CHF)'s (3 mutations)
[really-safe-money-gen] coverage (905/1610): Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (906/1610): Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (907/1610): Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (908/1610): Money\.ConversionRateOfSpec.BTC.CHF.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (909/1610): Money\.ConversionRateOfSpec.BTC.CHF.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (910/1610): Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (911/1610): Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (912/1610): Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (913/1610): Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (914/1610): Money\.ConversionRateOfSpec.BTC.CHF.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (915/1610): Money\.ConversionRateOfSpec.BTC.BTC.invert.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (916/1610): Money\.ConversionRateOfSpec.BTC.BTC.Rational.toRational.produces valid rationals (0 mutations)
[really-safe-money-gen] coverage (917/1610): Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (918/1610): Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.roundtrips with toRational (6 mutations)
[really-safe-money-gen] coverage (919/1610): Money\.ConversionRateOfSpec.BTC.BTC.compose.produces valid rates (3 mutations)
[really-safe-money-gen] coverage (920/1610): Money\.ConversionRateOfSpec.BTC.BTC.GenValid (ConversionRateOf BTC BTC).genValid   \:\: Gen (ConversionRateOf BTC BTC).only generates valid '(ConversionRateOf BTC BTC)'s (3 mutations)
[really-safe-money-gen] coverage (921/1610): Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (922/1610): Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates (6 mutations)
[really-safe-money-gen] coverage (923/1610): Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral (16 mutations)
[really-safe-money-gen] coverage (924/1610): Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.roundtrips with toRatio (3 mutations)
[really-safe-money-gen] coverage (925/1610): Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (926/1610): Money\.ConversionRateOfSpec.BTC.BTC.Ratio.toRatio.produces valid ratios (0 mutations)
[really-safe-money-gen] coverage (927/1610): Money\.QuantisationFactorSpec.fromWord32.produces valid quantisation factors (3 mutations)
[really-safe-money-gen] coverage (928/1610): Money\.QuantisationFactorSpec.digits.works on 10 (0 mutations)
[really-safe-money-gen] coverage (929/1610): Money\.QuantisationFactorSpec.digits.works on 20 (0 mutations)
[really-safe-money-gen] coverage (930/1610): Money\.QuantisationFactorSpec.digits.works on 100 (0 mutations)
[really-safe-money-gen] coverage (931/1610): Money\.QuantisationFactorSpec.digits.produces valid numbers of digits (0 mutations)
[really-safe-money-gen] coverage (932/1610): Money\.QuantisationFactorSpec.digits.works on 1 (0 mutations)
[really-safe-money-gen] coverage (933/1610): Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a non-1 integer (14 mutations)
[really-safe-money-gen] coverage (934/1610): Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render negative fractionals (6 mutations)
[really-safe-money-gen] coverage (935/1610): Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.produces valid factors (14 mutations)
[really-safe-money-gen] coverage (936/1610): Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a 0 (3 mutations)
[really-safe-money-gen] coverage (937/1610): Money\.QuantisationFactorSpec.DecimalLiteral.toDecimalLiteral.roundtrips with fromDecimalLiteral (22 mutations)
[really-safe-money-gen] coverage (938/1610): Money\.QuantisationFactorSpec.DecimalLiteral.toDecimalLiteral.produces valid literals (10 mutations)
[really-safe-money-gen] coverage (939/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 1 1 into quantisation factor 10 (11 mutations)
[really-safe-money-gen] coverage (940/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 100 into DecimalLiteral Nothing 1 2 (11 mutations)
[really-safe-money-gen] coverage (941/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 50 into DecimalLiteral Nothing 2 2 (11 mutations)
[really-safe-money-gen] coverage (942/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 1 3 into quantisation factor 1000 (11 mutations)
[really-safe-money-gen] coverage (943/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 10 into DecimalLiteral Nothing 1 1 (11 mutations)
[really-safe-money-gen] coverage (944/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 2 2 into quantisation factor 50 (11 mutations)
[really-safe-money-gen] coverage (945/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 1 0 into quantisation factor 1 (11 mutations)
[really-safe-money-gen] coverage (946/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 20 into DecimalLiteral Nothing 5 2 (11 mutations)
[really-safe-money-gen] coverage (947/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 5 2 into quantisation factor 20 (11 mutations)
[really-safe-money-gen] coverage (948/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 1 into DecimalLiteral Nothing 1 0 (11 mutations)
[really-safe-money-gen] coverage (949/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn DecimalLiteral Nothing 1 2 into quantisation factor 100 (11 mutations)
[really-safe-money-gen] coverage (950/1610): Money\.QuantisationFactorSpec.DecimalLiteral.can turn quantisation factor 1000 into DecimalLiteral Nothing 1 3 (11 mutations)
[really-safe-money-gen] coverage (951/1610): Money\.QuantisationFactorSpec.GenValid QuantisationFactor.genValid   \:\: Gen QuantisationFactor.only generates valid 'QuantisationFactor's (3 mutations)
[really-safe-money-gen] coverage (952/1610): Money\.MultiAccountSpec.subtractAmount.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (953/1610): Money\.MultiAccountSpec.subtractAmount.computes this example correctly (10 mutations)
[really-safe-money-gen] coverage (954/1610): Money\.MultiAccountSpec.subtractAmount.adds a non zero amount (1 mutations)
[really-safe-money-gen] coverage (955/1610): Money\.MultiAccountSpec.subtractAmount.removes a zero amount (9 mutations)
[really-safe-money-gen] coverage (956/1610): Money\.MultiAccountSpec.add.has a right-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (957/1610): Money\.MultiAccountSpec.add.is commutative (13 mutations)
[really-safe-money-gen] coverage (958/1610): Money\.MultiAccountSpec.add.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (959/1610): Money\.MultiAccountSpec.add.is associative when both succeed (13 mutations)
[really-safe-money-gen] coverage (960/1610): Money\.MultiAccountSpec.add.has a left-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (961/1610): Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s (7 mutations)
[really-safe-money-gen] coverage (962/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(==) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is reflexive for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (963/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(==) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is symmetric for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (964/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(==) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is transitive for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (965/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(==) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (966/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(/=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (967/1610): Money\.MultiAccountSpec.Eq (MultiAccount Currency).(/=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is antireflexive for "valid (MultiAccount Currency)"s (1 mutations)
[really-safe-money-gen] coverage (968/1610): Money\.MultiAccountSpec.sum.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (969/1610): Money\.MultiAccountSpec.Show (MultiAccount Currency) and Read (MultiAccount Currency).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (970/1610): Money\.MultiAccountSpec.zero.is valid (1 mutations)
[really-safe-money-gen] coverage (971/1610): Money\.MultiAccountSpec.fromAccount.produces valid amounts (9 mutations)
[really-safe-money-gen] coverage (972/1610): Money\.MultiAccountSpec.addAccount.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (973/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is reflexive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (974/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is transitive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (975/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is antisymmetric for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (976/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (977/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency)."min \:\: (MultiAccount Currency -> MultiAccount Currency -> MultiAccount Currency)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (978/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (979/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is antireflexive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (980/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(>) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is transitive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (981/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (982/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is reflexive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (983/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is antisymmetric for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (984/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<=) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is transitive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (985/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is transitive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (986/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is antireflexive for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (987/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency).(<) \:\: (MultiAccount Currency) -> (MultiAccount Currency) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (988/1610): Money\.MultiAccountSpec.Ord (MultiAccount Currency)."max \:\: (MultiAccount Currency -> MultiAccount Currency -> MultiAccount Currency)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (MultiAccount Currency)"'s (1 mutations)
[really-safe-money-gen] coverage (989/1610): Money\.MultiAccountSpec.subtract.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (990/1610): Money\.MultiAccountSpec.subtract.has a right-identity\: zero (1 mutations)
[really-safe-money-gen] coverage (991/1610): Money\.MultiAccountSpec.addAmount.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (992/1610): Money\.MultiAccountSpec.addAmount.computes this example correctly (7 mutations)
[really-safe-money-gen] coverage (993/1610): Money\.MultiAccountSpec.addAmount.adds a non zero amount (1 mutations)
[really-safe-money-gen] coverage (994/1610): Money\.MultiAccountSpec.addAmount.removes a zero amount (9 mutations)
[really-safe-money-gen] coverage (995/1610): Money\.MultiAccountSpec.subtractAccount.produces valid amounts (19 mutations)
[really-safe-money-gen] coverage (996/1610): Money\.MultiAccountSpec.lookupAccount.can find an added amount (0 mutations)
[really-safe-money-gen] coverage (997/1610): Money\.MultiAccountSpec.lookupAccount.produces valid amounts (1 mutations)
[really-safe-money-gen] coverage (998/1610): Money\.MultiAccountSpec.convertAll.produces valid results when converting two currencies to one (7 mutations)
[really-safe-money-gen] coverage (999/1610): Money\.MultiAccountSpec.convertAll.produces the right result in this example (7 mutations)
[really-safe-money-gen] coverage (1000/1610): Money\.AmountOfSpec.USD.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1001/1610): Money\.AmountOfSpec.USD.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1002/1610): Money\.AmountOfSpec.USD.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1003/1610): Money\.AmountOfSpec.USD.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1004/1610): Money\.AmountOfSpec.USD.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1005/1610): Money\.AmountOfSpec.USD.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1006/1610): Money\.AmountOfSpec.USD.fromRatio.produces valid AmountOfs (10 mutations)
[really-safe-money-gen] coverage (1007/1610): Money\.AmountOfSpec.USD.fromRatio.succeeds on 77 (10 mutations)
[really-safe-money-gen] coverage (1008/1610): Money\.AmountOfSpec.USD.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1009/1610): Money\.AmountOfSpec.USD.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1010/1610): Money\.AmountOfSpec.USD.fromRatio.fails on 7\.123 (7 mutations)
[really-safe-money-gen] coverage (1011/1610): Money\.AmountOfSpec.USD.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1012/1610): Money\.AmountOfSpec.USD.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1013/1610): Money\.AmountOfSpec.USD.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1014/1610): Money\.AmountOfSpec.USD.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1015/1610): Money\.AmountOfSpec.USD.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1016/1610): Money\.AmountOfSpec.USD.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1017/1610): Money\.AmountOfSpec.USD.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1018/1610): Money\.AmountOfSpec.USD.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1019/1610): Money\.AmountOfSpec.USD.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1020/1610): Money\.AmountOfSpec.USD.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1021/1610): Money\.AmountOfSpec.USD.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1022/1610): Money\.AmountOfSpec.USD.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1023/1610): Money\.AmountOfSpec.USD.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1024/1610): Money\.AmountOfSpec.USD.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1025/1610): Money\.AmountOfSpec.USD.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1026/1610): Money\.AmountOfSpec.USD.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1027/1610): Money\.AmountOfSpec.USD.toRational.produces valid Rationals (0 mutations)
[really-safe-money-gen] coverage (1028/1610): Money\.AmountOfSpec.USD.GenValid (AmountOf * USD).genValid   \:\: Gen (AmountOf * USD).only generates valid '(AmountOf * USD)'s (0 mutations)
[really-safe-money-gen] coverage (1029/1610): Money\.AmountOfSpec.USD.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1030/1610): Money\.AmountOfSpec.USD.Show (AmountOf * USD) and Read (AmountOf * USD).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1031/1610): Money\.AmountOfSpec.USD.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1032/1610): Money\.AmountOfSpec.USD.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1033/1610): Money\.AmountOfSpec.USD.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1034/1610): Money\.AmountOfSpec.USD.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1035/1610): Money\.AmountOfSpec.USD.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1036/1610): Money\.AmountOfSpec.USD.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1037/1610): Money\.AmountOfSpec.USD.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1038/1610): Money\.AmountOfSpec.USD.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1039/1610): Money\.AmountOfSpec.USD.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1040/1610): Money\.AmountOfSpec.USD.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1041/1610): Money\.AmountOfSpec.USD.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1042/1610): Money\.AmountOfSpec.USD.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1043/1610): Money\.AmountOfSpec.USD.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1044/1610): Money\.AmountOfSpec.USD.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1045/1610): Money\.AmountOfSpec.USD.sum.produces valid amounts (4 mutations)
[really-safe-money-gen] coverage (1046/1610): Money\.AmountOfSpec.USD.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1047/1610): Money\.AmountOfSpec.USD.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1048/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is antireflexive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1049/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is transitive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1050/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1051/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is antireflexive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1052/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is transitive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1053/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1054/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is transitive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1055/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is reflexive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1056/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is antisymmetric for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1057/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(<=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1058/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD)."min \:\: (AmountOf * USD -> AmountOf * USD -> AmountOf * USD)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1059/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD)."max \:\: (AmountOf * USD -> AmountOf * USD -> AmountOf * USD)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1060/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1061/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is antisymmetric for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1062/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is reflexive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1063/1610): Money\.AmountOfSpec.USD.Ord (AmountOf * USD).(>=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is transitive for "valid (AmountOf * USD)"'s (0 mutations)
[really-safe-money-gen] coverage (1064/1610): Money\.AmountOfSpec.USD.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1065/1610): Money\.AmountOfSpec.USD.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1066/1610): Money\.AmountOfSpec.USD.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1067/1610): Money\.AmountOfSpec.USD.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1068/1610): Money\.AmountOfSpec.USD.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1069/1610): Money\.AmountOfSpec.USD.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1070/1610): Money\.AmountOfSpec.USD.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1071/1610): Money\.AmountOfSpec.USD.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1072/1610): Money\.AmountOfSpec.USD.distribute.Show (Distribution (AmountOf * USD)) and Read (Distribution (AmountOf * USD)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1073/1610): Money\.AmountOfSpec.USD.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1074/1610): Money\.AmountOfSpec.USD.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1075/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(/=) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1076/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(/=) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is antireflexive for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1077/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(==) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is transitive for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1078/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(==) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is reflexive for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1079/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(==) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is symmetric for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1080/1610): Money\.AmountOfSpec.USD.distribute.Eq (Distribution (AmountOf * USD)).(==) \:\: (Distribution (AmountOf * USD)) -> (Distribution (AmountOf * USD)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AmountOf * USD))"s (1 mutations)
[really-safe-money-gen] coverage (1081/1610): Money\.AmountOfSpec.USD.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1082/1610): Money\.AmountOfSpec.USD.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1083/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(==) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1084/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(==) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is symmetric for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1085/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(==) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is reflexive for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1086/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(==) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is transitive for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1087/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(/=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1088/1610): Money\.AmountOfSpec.USD.Eq (AmountOf * USD).(/=) \:\: (AmountOf * USD) -> (AmountOf * USD) -> Bool.is antireflexive for "valid (AmountOf * USD)"s (0 mutations)
[really-safe-money-gen] coverage (1089/1610): Money\.AmountOfSpec.ADA.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1090/1610): Money\.AmountOfSpec.ADA.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1091/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(==) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is transitive for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1092/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(==) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is symmetric for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1093/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(==) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1094/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(==) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is reflexive for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1095/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(/=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is antireflexive for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1096/1610): Money\.AmountOfSpec.ADA.Eq (AmountOf * ADA).(/=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AmountOf * ADA)"s (0 mutations)
[really-safe-money-gen] coverage (1097/1610): Money\.AmountOfSpec.ADA.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1098/1610): Money\.AmountOfSpec.ADA.Show (AmountOf * ADA) and Read (AmountOf * ADA).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1099/1610): Money\.AmountOfSpec.ADA.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1100/1610): Money\.AmountOfSpec.ADA.toRational.produces valid Rationals (0 mutations)
[really-safe-money-gen] coverage (1101/1610): Money\.AmountOfSpec.ADA.fromRatio.produces valid AmountOfs (10 mutations)
[really-safe-money-gen] coverage (1102/1610): Money\.AmountOfSpec.ADA.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1103/1610): Money\.AmountOfSpec.ADA.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1104/1610): Money\.AmountOfSpec.ADA.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1105/1610): Money\.AmountOfSpec.ADA.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1106/1610): Money\.AmountOfSpec.ADA.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1107/1610): Money\.AmountOfSpec.ADA.fromRatio.succeeds on 77 (10 mutations)
[really-safe-money-gen] coverage (1108/1610): Money\.AmountOfSpec.ADA.fromRatio.fails on 7\.123 (7 mutations)
[really-safe-money-gen] coverage (1109/1610): Money\.AmountOfSpec.ADA.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1110/1610): Money\.AmountOfSpec.ADA.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1111/1610): Money\.AmountOfSpec.ADA.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1112/1610): Money\.AmountOfSpec.ADA.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1113/1610): Money\.AmountOfSpec.ADA.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1114/1610): Money\.AmountOfSpec.ADA.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1115/1610): Money\.AmountOfSpec.ADA.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1116/1610): Money\.AmountOfSpec.ADA.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1117/1610): Money\.AmountOfSpec.ADA.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1118/1610): Money\.AmountOfSpec.ADA.sum.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1119/1610): Money\.AmountOfSpec.ADA.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1120/1610): Money\.AmountOfSpec.ADA.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1121/1610): Money\.AmountOfSpec.ADA.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1122/1610): Money\.AmountOfSpec.ADA.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1123/1610): Money\.AmountOfSpec.ADA.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1124/1610): Money\.AmountOfSpec.ADA.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1125/1610): Money\.AmountOfSpec.ADA.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1126/1610): Money\.AmountOfSpec.ADA.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1127/1610): Money\.AmountOfSpec.ADA.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1128/1610): Money\.AmountOfSpec.ADA.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1129/1610): Money\.AmountOfSpec.ADA.distribute.Show (Distribution (AmountOf * ADA)) and Read (Distribution (AmountOf * ADA)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1130/1610): Money\.AmountOfSpec.ADA.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1131/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(/=) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is antireflexive for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1132/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(/=) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1133/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(==) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1134/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(==) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is reflexive for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1135/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(==) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is transitive for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1136/1610): Money\.AmountOfSpec.ADA.distribute.Eq (Distribution (AmountOf * ADA)).(==) \:\: (Distribution (AmountOf * ADA)) -> (Distribution (AmountOf * ADA)) -> Bool.is symmetric for "valid (Distribution (AmountOf * ADA))"s (1 mutations)
[really-safe-money-gen] coverage (1137/1610): Money\.AmountOfSpec.ADA.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1138/1610): Money\.AmountOfSpec.ADA.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1139/1610): Money\.AmountOfSpec.ADA.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1140/1610): Money\.AmountOfSpec.ADA.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1141/1610): Money\.AmountOfSpec.ADA.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1142/1610): Money\.AmountOfSpec.ADA.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1143/1610): Money\.AmountOfSpec.ADA.GenValid (AmountOf * ADA).genValid   \:\: Gen (AmountOf * ADA).only generates valid '(AmountOf * ADA)'s (0 mutations)
[really-safe-money-gen] coverage (1144/1610): Money\.AmountOfSpec.ADA.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1145/1610): Money\.AmountOfSpec.ADA.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1146/1610): Money\.AmountOfSpec.ADA.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1147/1610): Money\.AmountOfSpec.ADA.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1148/1610): Money\.AmountOfSpec.ADA.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1149/1610): Money\.AmountOfSpec.ADA.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1150/1610): Money\.AmountOfSpec.ADA.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1151/1610): Money\.AmountOfSpec.ADA.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1152/1610): Money\.AmountOfSpec.ADA.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1153/1610): Money\.AmountOfSpec.ADA.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1154/1610): Money\.AmountOfSpec.ADA.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1155/1610): Money\.AmountOfSpec.ADA.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1156/1610): Money\.AmountOfSpec.ADA.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1157/1610): Money\.AmountOfSpec.ADA.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1158/1610): Money\.AmountOfSpec.ADA.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1159/1610): Money\.AmountOfSpec.ADA.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1160/1610): Money\.AmountOfSpec.ADA.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1161/1610): Money\.AmountOfSpec.ADA.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1162/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is antireflexive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1163/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is transitive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1164/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1165/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA)."max \:\: (AmountOf * ADA -> AmountOf * ADA -> AmountOf * ADA)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1166/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA)."min \:\: (AmountOf * ADA -> AmountOf * ADA -> AmountOf * ADA)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1167/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1168/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is transitive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1169/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is reflexive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1170/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is antisymmetric for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1171/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1172/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is reflexive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1173/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is transitive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1174/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(>=) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is antisymmetric for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1175/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1176/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is transitive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1177/1610): Money\.AmountOfSpec.ADA.Ord (AmountOf * ADA).(<) \:\: (AmountOf * ADA) -> (AmountOf * ADA) -> Bool.is antireflexive for "valid (AmountOf * ADA)"'s (0 mutations)
[really-safe-money-gen] coverage (1178/1610): Money\.AmountOfSpec.INR.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1179/1610): Money\.AmountOfSpec.INR.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1180/1610): Money\.AmountOfSpec.INR.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1181/1610): Money\.AmountOfSpec.INR.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1182/1610): Money\.AmountOfSpec.INR.distribute.Show (Distribution (AmountOf * INR)) and Read (Distribution (AmountOf * INR)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1183/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(==) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is reflexive for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1184/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(==) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is symmetric for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1185/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(==) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1186/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(==) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is transitive for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1187/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(/=) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is antireflexive for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1188/1610): Money\.AmountOfSpec.INR.distribute.Eq (Distribution (AmountOf * INR)).(/=) \:\: (Distribution (AmountOf * INR)) -> (Distribution (AmountOf * INR)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AmountOf * INR))"s (1 mutations)
[really-safe-money-gen] coverage (1189/1610): Money\.AmountOfSpec.INR.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1190/1610): Money\.AmountOfSpec.INR.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1191/1610): Money\.AmountOfSpec.INR.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1192/1610): Money\.AmountOfSpec.INR.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1193/1610): Money\.AmountOfSpec.INR.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1194/1610): Money\.AmountOfSpec.INR.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1195/1610): Money\.AmountOfSpec.INR.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1196/1610): Money\.AmountOfSpec.INR.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1197/1610): Money\.AmountOfSpec.INR.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1198/1610): Money\.AmountOfSpec.INR.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1199/1610): Money\.AmountOfSpec.INR.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1200/1610): Money\.AmountOfSpec.INR.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1201/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR)."max \:\: (AmountOf * INR -> AmountOf * INR -> AmountOf * INR)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1202/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is transitive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1203/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1204/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is antireflexive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1205/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is transitive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1206/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1207/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is reflexive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1208/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is antisymmetric for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1209/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1210/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is reflexive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1211/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is transitive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1212/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(>=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is antisymmetric for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1213/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is transitive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1214/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1215/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR).(<) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is antireflexive for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1216/1610): Money\.AmountOfSpec.INR.Ord (AmountOf * INR)."min \:\: (AmountOf * INR -> AmountOf * INR -> AmountOf * INR)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AmountOf * INR)"'s (0 mutations)
[really-safe-money-gen] coverage (1217/1610): Money\.AmountOfSpec.INR.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1218/1610): Money\.AmountOfSpec.INR.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1219/1610): Money\.AmountOfSpec.INR.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1220/1610): Money\.AmountOfSpec.INR.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1221/1610): Money\.AmountOfSpec.INR.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1222/1610): Money\.AmountOfSpec.INR.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1223/1610): Money\.AmountOfSpec.INR.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1224/1610): Money\.AmountOfSpec.INR.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1225/1610): Money\.AmountOfSpec.INR.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1226/1610): Money\.AmountOfSpec.INR.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1227/1610): Money\.AmountOfSpec.INR.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1228/1610): Money\.AmountOfSpec.INR.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1229/1610): Money\.AmountOfSpec.INR.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1230/1610): Money\.AmountOfSpec.INR.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1231/1610): Money\.AmountOfSpec.INR.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1232/1610): Money\.AmountOfSpec.INR.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1233/1610): Money\.AmountOfSpec.INR.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1234/1610): Money\.AmountOfSpec.INR.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1235/1610): Money\.AmountOfSpec.INR.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1236/1610): Money\.AmountOfSpec.INR.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1237/1610): Money\.AmountOfSpec.INR.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1238/1610): Money\.AmountOfSpec.INR.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1239/1610): Money\.AmountOfSpec.INR.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1240/1610): Money\.AmountOfSpec.INR.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1241/1610): Money\.AmountOfSpec.INR.Show (AmountOf * INR) and Read (AmountOf * INR).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1242/1610): Money\.AmountOfSpec.INR.toRational.produces valid Rationals (0 mutations)
[really-safe-money-gen] coverage (1243/1610): Money\.AmountOfSpec.INR.sum.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1244/1610): Money\.AmountOfSpec.INR.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1245/1610): Money\.AmountOfSpec.INR.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1246/1610): Money\.AmountOfSpec.INR.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1247/1610): Money\.AmountOfSpec.INR.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1248/1610): Money\.AmountOfSpec.INR.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1249/1610): Money\.AmountOfSpec.INR.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1250/1610): Money\.AmountOfSpec.INR.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1251/1610): Money\.AmountOfSpec.INR.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1252/1610): Money\.AmountOfSpec.INR.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1253/1610): Money\.AmountOfSpec.INR.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1254/1610): Money\.AmountOfSpec.INR.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1255/1610): Money\.AmountOfSpec.INR.fromRatio.produces valid AmountOfs (10 mutations)
[really-safe-money-gen] coverage (1256/1610): Money\.AmountOfSpec.INR.fromRatio.fails on 7\.123 (7 mutations)
[really-safe-money-gen] coverage (1257/1610): Money\.AmountOfSpec.INR.fromRatio.succeeds on 77 (10 mutations)
[really-safe-money-gen] coverage (1258/1610): Money\.AmountOfSpec.INR.GenValid (AmountOf * INR).genValid   \:\: Gen (AmountOf * INR).only generates valid '(AmountOf * INR)'s (0 mutations)
[really-safe-money-gen] coverage (1259/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(==) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is symmetric for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1260/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(==) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is transitive for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1261/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(==) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is reflexive for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1262/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(==) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1263/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(/=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1264/1610): Money\.AmountOfSpec.INR.Eq (AmountOf * INR).(/=) \:\: (AmountOf * INR) -> (AmountOf * INR) -> Bool.is antireflexive for "valid (AmountOf * INR)"s (0 mutations)
[really-safe-money-gen] coverage (1265/1610): Money\.AmountOfSpec.INR.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1266/1610): Money\.AmountOfSpec.INR.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1267/1610): Money\.AmountOfSpec.BTC.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1268/1610): Money\.AmountOfSpec.BTC.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1269/1610): Money\.AmountOfSpec.BTC.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1270/1610): Money\.AmountOfSpec.BTC.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1271/1610): Money\.AmountOfSpec.BTC.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1272/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1273/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is transitive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1274/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is reflexive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1275/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is antisymmetric for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1276/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC)."min \:\: (AmountOf * BTC -> AmountOf * BTC -> AmountOf * BTC)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1277/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is antisymmetric for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1278/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is reflexive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1279/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1280/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is transitive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1281/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC)."max \:\: (AmountOf * BTC -> AmountOf * BTC -> AmountOf * BTC)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1282/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1283/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is antireflexive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1284/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(<) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is transitive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1285/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is antireflexive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1286/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is transitive for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1287/1610): Money\.AmountOfSpec.BTC.Ord (AmountOf * BTC).(>) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AmountOf * BTC)"'s (0 mutations)
[really-safe-money-gen] coverage (1288/1610): Money\.AmountOfSpec.BTC.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1289/1610): Money\.AmountOfSpec.BTC.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1290/1610): Money\.AmountOfSpec.BTC.fromRatio.succeeds on 77 (10 mutations)
[really-safe-money-gen] coverage (1291/1610): Money\.AmountOfSpec.BTC.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1292/1610): Money\.AmountOfSpec.BTC.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1293/1610): Money\.AmountOfSpec.BTC.fromRatio.produces valid AmountOfs (10 mutations)
[really-safe-money-gen] coverage (1294/1610): Money\.AmountOfSpec.BTC.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1295/1610): Money\.AmountOfSpec.BTC.fromRatio.fails on 7\.123 (7 mutations)
[really-safe-money-gen] coverage (1296/1610): Money\.AmountOfSpec.BTC.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1297/1610): Money\.AmountOfSpec.BTC.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1298/1610): Money\.AmountOfSpec.BTC.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1299/1610): Money\.AmountOfSpec.BTC.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1300/1610): Money\.AmountOfSpec.BTC.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1301/1610): Money\.AmountOfSpec.BTC.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1302/1610): Money\.AmountOfSpec.BTC.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1303/1610): Money\.AmountOfSpec.BTC.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1304/1610): Money\.AmountOfSpec.BTC.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1305/1610): Money\.AmountOfSpec.BTC.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1306/1610): Money\.AmountOfSpec.BTC.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1307/1610): Money\.AmountOfSpec.BTC.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1308/1610): Money\.AmountOfSpec.BTC.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1309/1610): Money\.AmountOfSpec.BTC.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1310/1610): Money\.AmountOfSpec.BTC.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1311/1610): Money\.AmountOfSpec.BTC.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1312/1610): Money\.AmountOfSpec.BTC.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1313/1610): Money\.AmountOfSpec.BTC.GenValid (AmountOf * BTC).genValid   \:\: Gen (AmountOf * BTC).only generates valid '(AmountOf * BTC)'s (0 mutations)
[really-safe-money-gen] coverage (1314/1610): Money\.AmountOfSpec.BTC.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1315/1610): Money\.AmountOfSpec.BTC.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1316/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(==) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is reflexive for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1317/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(==) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is transitive for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1318/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(==) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1319/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(==) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is symmetric for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1320/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(/=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1321/1610): Money\.AmountOfSpec.BTC.Eq (AmountOf * BTC).(/=) \:\: (AmountOf * BTC) -> (AmountOf * BTC) -> Bool.is antireflexive for "valid (AmountOf * BTC)"s (0 mutations)
[really-safe-money-gen] coverage (1322/1610): Money\.AmountOfSpec.BTC.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1323/1610): Money\.AmountOfSpec.BTC.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1324/1610): Money\.AmountOfSpec.BTC.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1325/1610): Money\.AmountOfSpec.BTC.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1326/1610): Money\.AmountOfSpec.BTC.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1327/1610): Money\.AmountOfSpec.BTC.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1328/1610): Money\.AmountOfSpec.BTC.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1329/1610): Money\.AmountOfSpec.BTC.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1330/1610): Money\.AmountOfSpec.BTC.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1331/1610): Money\.AmountOfSpec.BTC.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1332/1610): Money\.AmountOfSpec.BTC.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1333/1610): Money\.AmountOfSpec.BTC.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1334/1610): Money\.AmountOfSpec.BTC.Show (AmountOf * BTC) and Read (AmountOf * BTC).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1335/1610): Money\.AmountOfSpec.BTC.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1336/1610): Money\.AmountOfSpec.BTC.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1337/1610): Money\.AmountOfSpec.BTC.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1338/1610): Money\.AmountOfSpec.BTC.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1339/1610): Money\.AmountOfSpec.BTC.sum.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1340/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(/=) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is antireflexive for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1341/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(/=) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1342/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(==) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is reflexive for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1343/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(==) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is symmetric for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1344/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(==) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1345/1610): Money\.AmountOfSpec.BTC.distribute.Eq (Distribution (AmountOf * BTC)).(==) \:\: (Distribution (AmountOf * BTC)) -> (Distribution (AmountOf * BTC)) -> Bool.is transitive for "valid (Distribution (AmountOf * BTC))"s (1 mutations)
[really-safe-money-gen] coverage (1346/1610): Money\.AmountOfSpec.BTC.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1347/1610): Money\.AmountOfSpec.BTC.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1348/1610): Money\.AmountOfSpec.BTC.distribute.Show (Distribution (AmountOf * BTC)) and Read (Distribution (AmountOf * BTC)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1349/1610): Money\.AmountOfSpec.BTC.toRational.produces valid Rationals (0 mutations)
[really-safe-money-gen] coverage (1350/1610): Money\.AmountOfSpec.BTC.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1351/1610): Money\.AmountOfSpec.BTC.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1352/1610): Money\.AmountOfSpec.BTC.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1353/1610): Money\.AmountOfSpec.BTC.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1354/1610): Money\.AmountOfSpec.BTC.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1355/1610): Money\.AmountOfSpec.BTC.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1356/1610): Money\.AmountOfSpec.CHF.INR.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1357/1610): Money\.AmountOfSpec.CHF.INR.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1358/1610): Money\.AmountOfSpec.CHF.USD.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1359/1610): Money\.AmountOfSpec.CHF.USD.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1360/1610): Money\.AmountOfSpec.CHF.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1361/1610): Money\.AmountOfSpec.CHF.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1362/1610): Money\.AmountOfSpec.CHF.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1363/1610): Money\.AmountOfSpec.CHF.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1364/1610): Money\.AmountOfSpec.CHF.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1365/1610): Money\.AmountOfSpec.CHF.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1366/1610): Money\.AmountOfSpec.CHF.fromRatio.fails on 7\.123 (7 mutations)
[really-safe-money-gen] coverage (1367/1610): Money\.AmountOfSpec.CHF.fromRatio.succeeds on 77 (10 mutations)
[really-safe-money-gen] coverage (1368/1610): Money\.AmountOfSpec.CHF.fromRatio.produces valid AmountOfs (10 mutations)
[really-safe-money-gen] coverage (1369/1610): Money\.AmountOfSpec.CHF.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1370/1610): Money\.AmountOfSpec.CHF.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1371/1610): Money\.AmountOfSpec.CHF.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1372/1610): Money\.AmountOfSpec.CHF.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1373/1610): Money\.AmountOfSpec.CHF.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1374/1610): Money\.AmountOfSpec.CHF.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1375/1610): Money\.AmountOfSpec.CHF.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1376/1610): Money\.AmountOfSpec.CHF.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1377/1610): Money\.AmountOfSpec.CHF.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1378/1610): Money\.AmountOfSpec.CHF.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1379/1610): Money\.AmountOfSpec.CHF.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1380/1610): Money\.AmountOfSpec.CHF.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1381/1610): Money\.AmountOfSpec.CHF.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1382/1610): Money\.AmountOfSpec.CHF.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1383/1610): Money\.AmountOfSpec.CHF.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1384/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(==) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1385/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(==) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is symmetric for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1386/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(==) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is reflexive for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1387/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(==) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is transitive for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1388/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(/=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is antireflexive for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1389/1610): Money\.AmountOfSpec.CHF.Eq (AmountOf * CHF).(/=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (AmountOf * CHF)"s (0 mutations)
[really-safe-money-gen] coverage (1390/1610): Money\.AmountOfSpec.CHF.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1391/1610): Money\.AmountOfSpec.CHF.sum.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1392/1610): Money\.AmountOfSpec.CHF.BTC.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1393/1610): Money\.AmountOfSpec.CHF.BTC.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1394/1610): Money\.AmountOfSpec.CHF.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1395/1610): Money\.AmountOfSpec.CHF.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1396/1610): Money\.AmountOfSpec.CHF.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1397/1610): Money\.AmountOfSpec.CHF.toRational.produces valid Rationals (0 mutations)
[really-safe-money-gen] coverage (1398/1610): Money\.AmountOfSpec.CHF.CHF.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1399/1610): Money\.AmountOfSpec.CHF.CHF.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1400/1610): Money\.AmountOfSpec.CHF.Show (AmountOf * CHF) and Read (AmountOf * CHF).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1401/1610): Money\.AmountOfSpec.CHF.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1402/1610): Money\.AmountOfSpec.CHF.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1403/1610): Money\.AmountOfSpec.CHF.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1404/1610): Money\.AmountOfSpec.CHF.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1405/1610): Money\.AmountOfSpec.CHF.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1406/1610): Money\.AmountOfSpec.CHF.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1407/1610): Money\.AmountOfSpec.CHF.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1408/1610): Money\.AmountOfSpec.CHF.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1409/1610): Money\.AmountOfSpec.CHF.ADA.rate.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1410/1610): Money\.AmountOfSpec.CHF.ADA.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1411/1610): Money\.AmountOfSpec.CHF.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1412/1610): Money\.AmountOfSpec.CHF.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1413/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF)."max \:\: (AmountOf * CHF -> AmountOf * CHF -> AmountOf * CHF)".is equivalent to (\\a b -> if a >= b then a else b) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1414/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF)."min \:\: (AmountOf * CHF -> AmountOf * CHF -> AmountOf * CHF)".is equivalent to (\\a b -> if a <= b then a else b) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1415/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1416/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is antireflexive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1417/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is transitive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1418/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is transitive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1419/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1420/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is antisymmetric for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1421/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(>=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is reflexive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1422/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is antireflexive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1423/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1424/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is transitive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1425/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is transitive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1426/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1427/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is reflexive for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1428/1610): Money\.AmountOfSpec.CHF.Ord (AmountOf * CHF).(<=) \:\: (AmountOf * CHF) -> (AmountOf * CHF) -> Bool.is antisymmetric for "valid (AmountOf * CHF)"'s (0 mutations)
[really-safe-money-gen] coverage (1429/1610): Money\.AmountOfSpec.CHF.GenValid (AmountOf * CHF).genValid   \:\: Gen (AmountOf * CHF).only generates valid '(AmountOf * CHF)'s (0 mutations)
[really-safe-money-gen] coverage (1430/1610): Money\.AmountOfSpec.CHF.distribute.Show (Distribution (AmountOf * CHF)) and Read (Distribution (AmountOf * CHF)).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1431/1610): Money\.AmountOfSpec.CHF.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1432/1610): Money\.AmountOfSpec.CHF.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1433/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(/=) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is antireflexive for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1434/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(/=) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1435/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(==) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is symmetric for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1436/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(==) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1437/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(==) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is reflexive for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1438/1610): Money\.AmountOfSpec.CHF.distribute.Eq (Distribution (AmountOf * CHF)).(==) \:\: (Distribution (AmountOf * CHF)) -> (Distribution (AmountOf * CHF)) -> Bool.is transitive for "valid (Distribution (AmountOf * CHF))"s (1 mutations)
[really-safe-money-gen] coverage (1439/1610): Money\.AmountOfSpec.CHF.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1440/1610): Money\.AmountOfSpec.CHF.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1441/1610): Money\.AmountOfSpec.CHF.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1442/1610): Money\.AmountOfSpec.CHF.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1443/1610): Money\.AmountOfSpec.CHF.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1444/1610): Money\.AmountOfSpec.CHF.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1445/1610): Money\.AmountSpec.fraction.Produces a result that has been rounded in the right direction when using RoundDown (0 mutations)
[really-safe-money-gen] coverage (1446/1610): Money\.AmountSpec.fraction.Correctly fractions 101 with 1 % 100 (3 mutations)
[really-safe-money-gen] coverage (1447/1610): Money\.AmountSpec.fraction.Produces a result that can be multiplied back (3 mutations)
[really-safe-money-gen] coverage (1448/1610): Money\.AmountSpec.fraction.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1449/1610): Money\.AmountSpec.fraction.Correctly fractions 100 with 1 % 100 (3 mutations)
[really-safe-money-gen] coverage (1450/1610): Money\.AmountSpec.fraction.Produces a result that has been rounded in the right direction when using RoundUp (0 mutations)
[really-safe-money-gen] coverage (1451/1610): Money\.AmountSpec.format.formats 1 correctly with quantisation factor 1 (0 mutations)
[really-safe-money-gen] coverage (1452/1610): Money\.AmountSpec.format.formats 1 correctly with quantisation factor 10 (0 mutations)
[really-safe-money-gen] coverage (1453/1610): Money\.AmountSpec.format.produces valid strings (0 mutations)
[really-safe-money-gen] coverage (1454/1610): Money\.AmountSpec.fromRatio.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1455/1610): Money\.AmountSpec.fromRatio.roundtrips with toRatio (10 mutations)
[really-safe-money-gen] coverage (1456/1610): Money\.AmountSpec.fromRatio.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1457/1610): Money\.AmountSpec.fromRatio.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1458/1610): Money\.AmountSpec.fromRatio.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1459/1610): Money\.AmountSpec.fromRatio.succeeds on 77\.02 with quantisation factor 100 (10 mutations)
[really-safe-money-gen] coverage (1460/1610): Money\.AmountSpec.fromRatio.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1461/1610): Money\.AmountSpec.fromRatio.fails on 7\.123 with quantisation factor 10 (7 mutations)
[really-safe-money-gen] coverage (1462/1610): Money\.AmountSpec.distribute.correctly distributes 3 into 3 (4 mutations)
[really-safe-money-gen] coverage (1463/1610): Money\.AmountSpec.distribute.produces results that sum up to the greater whole (9 mutations)
[really-safe-money-gen] coverage (1464/1610): Money\.AmountSpec.distribute.Show (Distribution Amount) and Read (Distribution Amount).are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1465/1610): Money\.AmountSpec.distribute.correctly distributes 10 into 4 (4 mutations)
[really-safe-money-gen] coverage (1466/1610): Money\.AmountSpec.distribute.GenValid (Distribution Amount).genValid   \:\: Gen (Distribution Amount).only generates valid '(Distribution Amount)'s (3 mutations)
[really-safe-money-gen] coverage (1467/1610): Money\.AmountSpec.distribute.correctly distributes 5 into 3 (4 mutations)
[really-safe-money-gen] coverage (1468/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(==) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is symmetric for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1469/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(==) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1470/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(==) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is reflexive for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1471/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(==) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is transitive for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1472/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(/=) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is antireflexive for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1473/1610): Money\.AmountSpec.distribute.Eq (Distribution Amount).(/=) \:\: (Distribution Amount) -> (Distribution Amount) -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid (Distribution Amount)"s (1 mutations)
[really-safe-money-gen] coverage (1474/1610): Money\.AmountSpec.distribute.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1475/1610): Money\.AmountSpec.sum.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1476/1610): Money\.AmountSpec.sum.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1477/1610): Money\.AmountSpec.sum.fails to sum above maxBound (3 mutations)
[really-safe-money-gen] coverage (1478/1610): Money\.AmountSpec.sum.correctly sums [1,2,3] to 6 (3 mutations)
[really-safe-money-gen] coverage (1479/1610): Money\.AmountSpec.multiply.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1480/1610): Money\.AmountSpec.multiply.fails for 2 * maxbound (3 mutations)
[really-safe-money-gen] coverage (1481/1610): Money\.AmountSpec.multiply.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1482/1610): Money\.AmountSpec.multiply.is absorbed by 0 (3 mutations)
[really-safe-money-gen] coverage (1483/1610): Money\.AmountSpec.multiply.is distributive with add when both succeed (6 mutations)
[really-safe-money-gen] coverage (1484/1610): Money\.AmountSpec.multiply.has an identity\: 1 (3 mutations)
[really-safe-money-gen] coverage (1485/1610): Money\.AmountSpec.multiply.succeeds for 3 * 6 (3 mutations)
[really-safe-money-gen] coverage (1486/1610): Money\.AmountSpec.Show Amount and Read Amount.are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1487/1610): Money\.AmountSpec.fromDouble.fails on really large numbers (9 mutations)
[really-safe-money-gen] coverage (1488/1610): Money\.AmountSpec.fromDouble.roundtrips with toDouble, back to double (15 mutations)
[really-safe-money-gen] coverage (1489/1610): Money\.AmountSpec.fromDouble.succeeds on 77\.02 with quantisation factor 100 (15 mutations)
[really-safe-money-gen] coverage (1490/1610): Money\.AmountSpec.fromDouble.produces valid amounts (15 mutations)
[really-safe-money-gen] coverage (1491/1610): Money\.AmountSpec.fromDouble.fails on really large numbers:1 (6 mutations)
[really-safe-money-gen] coverage (1492/1610): Money\.AmountSpec.fromDouble.fails on NaN (4 mutations)
[really-safe-money-gen] coverage (1493/1610): Money\.AmountSpec.fromDouble.fails on -1 (2 mutations)
[really-safe-money-gen] coverage (1494/1610): Money\.AmountSpec.fromDouble.fails on 7\.123 with quantisation factor 10 (12 mutations)
[really-safe-money-gen] coverage (1495/1610): Money\.AmountSpec.fromDouble.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1496/1610): Money\.AmountSpec.fromDouble.fails on +Infinity (6 mutations)
[really-safe-money-gen] coverage (1497/1610): Money\.AmountSpec.fromDouble.succeeds on 1 (15 mutations)
[really-safe-money-gen] coverage (1498/1610): Money\.AmountSpec.fromDouble.succeeds on 0 (15 mutations)
[really-safe-money-gen] coverage (1499/1610): Money\.AmountSpec.Ord Amount.(<=) \:\: Amount -> Amount -> Bool.is reflexive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1500/1610): Money\.AmountSpec.Ord Amount.(<=) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1501/1610): Money\.AmountSpec.Ord Amount.(<=) \:\: Amount -> Amount -> Bool.is antisymmetric for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1502/1610): Money\.AmountSpec.Ord Amount.(<=) \:\: Amount -> Amount -> Bool.is transitive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1503/1610): Money\.AmountSpec.Ord Amount.(>=) \:\: Amount -> Amount -> Bool.is transitive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1504/1610): Money\.AmountSpec.Ord Amount.(>=) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1505/1610): Money\.AmountSpec.Ord Amount.(>=) \:\: Amount -> Amount -> Bool.is antisymmetric for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1506/1610): Money\.AmountSpec.Ord Amount.(>=) \:\: Amount -> Amount -> Bool.is reflexive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1507/1610): Money\.AmountSpec.Ord Amount."max \:\: (Amount -> Amount -> Amount)".is equivalent to (\\a b -> if a >= b then a else b) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1508/1610): Money\.AmountSpec.Ord Amount.(<) \:\: Amount -> Amount -> Bool.is antireflexive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1509/1610): Money\.AmountSpec.Ord Amount.(<) \:\: Amount -> Amount -> Bool.is transitive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1510/1610): Money\.AmountSpec.Ord Amount.(<) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1511/1610): Money\.AmountSpec.Ord Amount."min \:\: (Amount -> Amount -> Amount)".is equivalent to (\\a b -> if a <= b then a else b) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1512/1610): Money\.AmountSpec.Ord Amount.(>) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1513/1610): Money\.AmountSpec.Ord Amount.(>) \:\: Amount -> Amount -> Bool.is antireflexive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1514/1610): Money\.AmountSpec.Ord Amount.(>) \:\: Amount -> Amount -> Bool.is transitive for "valid Amount"'s (0 mutations)
[really-safe-money-gen] coverage (1515/1610): Money\.AmountSpec.toRational.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1516/1610): Money\.AmountSpec.toRational.produces an invalid Rational with quantisation factor 0 (0 mutations)
[really-safe-money-gen] coverage (1517/1610): Money\.AmountSpec.fromRational.roundtrips with toRational (10 mutations)
[really-safe-money-gen] coverage (1518/1610): Money\.AmountSpec.fromRational.succeeds on 0 (10 mutations)
[really-safe-money-gen] coverage (1519/1610): Money\.AmountSpec.fromRational.fails on really large numbers (10 mutations)
[really-safe-money-gen] coverage (1520/1610): Money\.AmountSpec.fromRational.fails on -Infinity (2 mutations)
[really-safe-money-gen] coverage (1521/1610): Money\.AmountSpec.fromRational.succeeds on 1 (10 mutations)
[really-safe-money-gen] coverage (1522/1610): Money\.AmountSpec.fromRational.succeeds on 77\.02 with quantisation factor 100 (10 mutations)
[really-safe-money-gen] coverage (1523/1610): Money\.AmountSpec.fromRational.fails on 7\.123 with quantisation factor 10 (7 mutations)
[really-safe-money-gen] coverage (1524/1610): Money\.AmountSpec.fromRational.fails on +Infinity (2 mutations)
[really-safe-money-gen] coverage (1525/1610): Money\.AmountSpec.fromRational.fails on -1 (4 mutations)
[really-safe-money-gen] coverage (1526/1610): Money\.AmountSpec.fromRational.fails on NaN (2 mutations)
[really-safe-money-gen] coverage (1527/1610): Money\.AmountSpec.fromRational.produces valid Amounts (10 mutations)
[really-safe-money-gen] coverage (1528/1610): Money\.AmountSpec.add.is associative when both succeed (3 mutations)
[really-safe-money-gen] coverage (1529/1610): Money\.AmountSpec.add.is commutative (3 mutations)
[really-safe-money-gen] coverage (1530/1610): Money\.AmountSpec.add.fails for maxBound + 1 (3 mutations)
[really-safe-money-gen] coverage (1531/1610): Money\.AmountSpec.add.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1532/1610): Money\.AmountSpec.add.has a right-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1533/1610): Money\.AmountSpec.add.produces valid amounts (3 mutations)
[really-safe-money-gen] coverage (1534/1610): Money\.AmountSpec.add.fails for maxBound + maxBound (3 mutations)
[really-safe-money-gen] coverage (1535/1610): Money\.AmountSpec.add.has a left-identity\: zero (3 mutations)
[really-safe-money-gen] coverage (1536/1610): Money\.AmountSpec.toMinimalQuantisations.roundtrips with fromMinimalQuantisations (0 mutations)
[really-safe-money-gen] coverage (1537/1610): Money\.AmountSpec.toMinimalQuantisations.produces valid Int64s (0 mutations)
[really-safe-money-gen] coverage (1538/1610): Money\.AmountSpec.Eq Amount.(/=) \:\: Amount -> Amount -> Bool.is antireflexive for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1539/1610): Money\.AmountSpec.Eq Amount.(/=) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1540/1610): Money\.AmountSpec.Eq Amount.(==) \:\: Amount -> Amount -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1541/1610): Money\.AmountSpec.Eq Amount.(==) \:\: Amount -> Amount -> Bool.is transitive for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1542/1610): Money\.AmountSpec.Eq Amount.(==) \:\: Amount -> Amount -> Bool.is reflexive for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1543/1610): Money\.AmountSpec.Eq Amount.(==) \:\: Amount -> Amount -> Bool.is symmetric for "valid Amount"s (0 mutations)
[really-safe-money-gen] coverage (1544/1610): Money\.AmountSpec.GenValid Amount.genValid   \:\: Gen Amount.only generates valid 'Amount's (0 mutations)
[really-safe-money-gen] coverage (1545/1610): Money\.AmountSpec.toDouble.produces valid Doubles (0 mutations)
[really-safe-money-gen] coverage (1546/1610): Money\.AmountSpec.toDouble.succeeds on 7702 with quantisation factor 100 (0 mutations)
[really-safe-money-gen] coverage (1547/1610): Money\.AmountSpec.toDouble.produces an infinite Double with quantisation factor 0 (0 mutations)
[really-safe-money-gen] coverage (1548/1610): Money\.AmountSpec.rate.produces valid conversion rates (3 mutations)
[really-safe-money-gen] coverage (1549/1610): Money\.AmountSpec.rate.computes a rate that can be used to do a conversion without rounding (6 mutations)
[really-safe-money-gen] coverage (1550/1610): Money\.AmountSpec.rate.computes this USD to CHF rate correctly (3 mutations)
[really-safe-money-gen] coverage (1551/1610): Money\.AmountSpec.zero.is valid (0 mutations)
[really-safe-money-gen] coverage (1552/1610): Money\.AmountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same (6 mutations)
[really-safe-money-gen] coverage (1553/1610): Money\.AmountSpec.convert.converts this USD to CHF correctly (6 mutations)
[really-safe-money-gen] coverage (1554/1610): Money\.AmountSpec.convert.produces valid amounts (6 mutations)
[really-safe-money-gen] coverage (1555/1610): Money\.AmountSpec.toRatio.produces an invalid Rational with quantisation factor 0 (0 mutations)
[really-safe-money-gen] coverage (1556/1610): Money\.AmountSpec.toRatio.produces valid Rationals when the quantisation factor is nonzero (0 mutations)
[really-safe-money-gen] coverage (1557/1610): Money\.AmountSpec.subtract.fails for 0 - maxBound (3 mutations)
[really-safe-money-gen] coverage (1558/1610): Money\.AmountSpec.subtract.fails for 0 - 1 (3 mutations)
[really-safe-money-gen] coverage (1559/1610): Money\.AmountSpec.subtract.matches what you would get with Integer, if nothing fails (3 mutations)
[really-safe-money-gen] coverage (1560/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 600 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (11 mutations)
[really-safe-money-gen] coverage (1561/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100000000} into DecimalLiteral (Just True) 500 8 (14 mutations)
[really-safe-money-gen] coverage (1562/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 2 0 into decimalLiteral QuantisationFactor {unQuantisationFactor = 1} (10 mutations)
[really-safe-money-gen] coverage (1563/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 600 2 (14 mutations)
[really-safe-money-gen] coverage (1564/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 20 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (10 mutations)
[really-safe-money-gen] coverage (1565/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 500 8 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100000000} (10 mutations)
[really-safe-money-gen] coverage (1566/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 200 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (10 mutations)
[really-safe-money-gen] coverage (1567/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 10 2 (14 mutations)
[really-safe-money-gen] coverage (1568/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 500 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (10 mutations)
[really-safe-money-gen] coverage (1569/1610): Money\.AmountSpec.DecimalLiteral.Amount\.fromDecimalLiteral.produces valid factors (10 mutations)
[really-safe-money-gen] coverage (1570/1610): Money\.AmountSpec.DecimalLiteral.Amount\.fromDecimalLiteral.fails on this amount that is too precise (7 mutations)
[really-safe-money-gen] coverage (1571/1610): Money\.AmountSpec.DecimalLiteral.Amount\.fromDecimalLiteral.fails on this amount that is too precise:1 (7 mutations)
[really-safe-money-gen] coverage (1572/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 1} into DecimalLiteral (Just True) 2 0 (14 mutations)
[really-safe-money-gen] coverage (1573/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 1} into DecimalLiteral (Just True) 1 0 (14 mutations)
[really-safe-money-gen] coverage (1574/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 3 2 (14 mutations)
[really-safe-money-gen] coverage (1575/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 100 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (10 mutations)
[really-safe-money-gen] coverage (1576/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 500 2 (14 mutations)
[really-safe-money-gen] coverage (1577/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 3 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (10 mutations)
[really-safe-money-gen] coverage (1578/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 200 2 (14 mutations)
[really-safe-money-gen] coverage (1579/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 4 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 100} (10 mutations)
[really-safe-money-gen] coverage (1580/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 100 2 (14 mutations)
[really-safe-money-gen] coverage (1581/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 100} into DecimalLiteral (Just True) 4 2 (14 mutations)
[really-safe-money-gen] coverage (1582/1610): Money\.AmountSpec.DecimalLiteral.Amount\.toDecimalLiteral.produces valid decimal literals (13 mutations)
[really-safe-money-gen] coverage (1583/1610): Money\.AmountSpec.DecimalLiteral.Amount\.toDecimalLiteral.roundtrips with Amount\.fromDecimalLiteral (23 mutations)
[really-safe-money-gen] coverage (1584/1610): Money\.AmountSpec.DecimalLiteral.can turn decimalLiteral QuantisationFactor {unQuantisationFactor = 20} into DecimalLiteral (Just True) 20 2 (14 mutations)
[really-safe-money-gen] coverage (1585/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 1 0 into decimalLiteral QuantisationFactor {unQuantisationFactor = 1} (10 mutations)
[really-safe-money-gen] coverage (1586/1610): Money\.AmountSpec.DecimalLiteral.can turn DecimalLiteral (Just True) 10 2 into decimalLiteral QuantisationFactor {unQuantisationFactor = 20} (10 mutations)
[really-safe-money-gen] coverage (1587/1610): Money\.AmountSpec.fromMinimalQuantisations.produces valid amounts (0 mutations)
[really-safe-money-gen] coverage (1588/1610): Money\.CurrencySpec.Eq Currency.(/=) \:\: Currency -> Currency -> Bool.is antireflexive for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1589/1610): Money\.CurrencySpec.Eq Currency.(/=) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> not $ a == b) for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1590/1610): Money\.CurrencySpec.Eq Currency.(==) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> not $ a /= b) for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1591/1610): Money\.CurrencySpec.Eq Currency.(==) \:\: Currency -> Currency -> Bool.is symmetric for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1592/1610): Money\.CurrencySpec.Eq Currency.(==) \:\: Currency -> Currency -> Bool.is transitive for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1593/1610): Money\.CurrencySpec.Eq Currency.(==) \:\: Currency -> Currency -> Bool.is reflexive for "valid Currency"s (1 mutations)
[really-safe-money-gen] coverage (1594/1610): Money\.CurrencySpec.Show Currency and Read Currency.are implemented such that read \. show == id for valid values (1 mutations)
[really-safe-money-gen] coverage (1595/1610): Money\.CurrencySpec.Ord Currency."max \:\: (Currency -> Currency -> Currency)".is equivalent to (\\a b -> if a >= b then a else b) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1596/1610): Money\.CurrencySpec.Ord Currency."min \:\: (Currency -> Currency -> Currency)".is equivalent to (\\a b -> if a <= b then a else b) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1597/1610): Money\.CurrencySpec.Ord Currency.(<=) \:\: Currency -> Currency -> Bool.is transitive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1598/1610): Money\.CurrencySpec.Ord Currency.(<=) \:\: Currency -> Currency -> Bool.is antisymmetric for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1599/1610): Money\.CurrencySpec.Ord Currency.(<=) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> compare a b /= GT) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1600/1610): Money\.CurrencySpec.Ord Currency.(<=) \:\: Currency -> Currency -> Bool.is reflexive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1601/1610): Money\.CurrencySpec.Ord Currency.(>) \:\: Currency -> Currency -> Bool.is transitive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1602/1610): Money\.CurrencySpec.Ord Currency.(>) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> compare a b == GT) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1603/1610): Money\.CurrencySpec.Ord Currency.(>) \:\: Currency -> Currency -> Bool.is antireflexive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1604/1610): Money\.CurrencySpec.Ord Currency.(>=) \:\: Currency -> Currency -> Bool.is transitive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1605/1610): Money\.CurrencySpec.Ord Currency.(>=) \:\: Currency -> Currency -> Bool.is antisymmetric for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1606/1610): Money\.CurrencySpec.Ord Currency.(>=) \:\: Currency -> Currency -> Bool.is reflexive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1607/1610): Money\.CurrencySpec.Ord Currency.(>=) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> compare a b /= LT) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1608/1610): Money\.CurrencySpec.Ord Currency.(<) \:\: Currency -> Currency -> Bool.is equivalent to (\\a b -> compare a b == LT) for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1609/1610): Money\.CurrencySpec.Ord Currency.(<) \:\: Currency -> Currency -> Bool.is transitive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] coverage (1610/1610): Money\.CurrencySpec.Ord Currency.(<) \:\: Currency -> Currency -> Bool.is antireflexive for "valid Currency"'s (1 mutations)
[really-safe-money-gen] mutation-nix: running mutations
[really-safe-money-gen] TTTTTTeeTTTTeeeTTTeTTTTTTTTTTTTTTTsseeeessseeeseeeeeeeeeeeeeeettsssstttssstsssssssssssssssiittttiiitttitttttttttttttttnniiiinnniiiniiiiiiiiiiiiiiiggnnnngggnnngnnnnnnnnnnnnnnn  gggg   ggg gggggggggggggggmm    mmm   m               uummmmuuummmummmmmmmmmmmmmmmttuuuutttuuutuuuuuuuuuuuuuuuaattttaaatttatttttttttttttttttaaaatttaaataaaaaaaaaaaaaaaiittttiiitttitttttttttttttttooiiiioooiiioiiiiiiiiiiiiiiinnoooonnnooonooooooooooooooo  nnnn   nnn nnnnnnnnnnnnnnnII    IIC   C               nnNCNCnnoCCNoCCCNCCCINCICNCCtteoeottnooenoooeoooneonoeooLLgngnLLsnngsnnngnnntgntngnniiadasiitdsatdssasdsLasLsasstttFttttBFttBFttttFtittitttt  eleB  olBeolBBeBlBteBtBeBBaa i oaaoio oioo oio  o o oottapaottlpoalpooaopoaaoaoaoo  t tl    lt  lltl lttltltllss a  ssaa  aa    a         rrstsarrttasttaasatassasasaaccr rtcc  tr  ttrt trrtrtrtt//csc //ss css  c s cc c c  MM/r/sMMrrs/rrss/srs//s/s/ssooMcMrooccrMccrrMrcrMMrMrMrrnno/ocnn//co//ccoc/coocococceenMn/eeMM/nMM//n/M/nn/n/n//yyeoeMyyooMeooMMeMoMeeMeMeMM//ynyo//nnoynnooyonoyyoyoyooAA/e/nAAeen/eenn/nen//n/n/nnmmAyAemmyyeAyyeeAeyeAAeAeAeeoom/myoo//ym//yymy/ymmymymyyuuoAo/uuAA/oAA//o/A/oo/o/o//nnumuAnnmmAummAAuAmAuuAuAuAAttnonmttoomnoommnmomnnmnmnmm..tuto..uuotuuootouottototoohh.n.uhhnnu.nnuu.unu..u.u.uusshthnssttnhttnnhntnhhnhnhnn::s.st::..ts..ttst.tsstststt88:h:.58hh.:hh..:.h.::.:.:..005s5h60ssh5sshh4hsh53h3h3hh116:4s91::s1::ss7s:s18s8s8ss::954:::55:855::6:4:88:9:9::33:6:513645:6144:575::3:3:336619118694419877116415898588--0:08--::40::6608:44-8-9-8933-7-:1317:-17::-:7:-1:1:1::881-21980-110-1121-116505055::9230::-605-60030605:-:-:--
[really-safe-money-gen] 
[really-safe-money-gen] :9:-
[really-safe-money-gen] 
[really-safe-money-gen] 16-:16--:-6-:
[really-safe-money-gen] 1
[really-safe-money-gen] 1
[really-safe-money-gen] 11@@
[really-safe-money-gen] :
[really-safe-money-gen] 1@@9:2
[really-safe-money-gen] 9:22
[really-safe-money-gen] 1:2
[really-safe-money-gen] @6@0@60@@@
[really-safe-money-gen] @5@@:
[really-safe-money-gen] 3@:
[really-safe-money-gen] 33@5
[really-safe-money-gen] 3@@:@:@::  @@@:  
[really-safe-money-gen] @:@
[really-safe-money-gen] @::@:@:@ 
[really-safe-money-gen]  
[really-safe-money-gen]  
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[really-safe-money-gen] --@@
[really-safe-money-gen]  @@
[really-safe-money-gen] 
[really-safe-money-gen]  
[really-safe-money-gen] @
[really-safe-money-gen]  -@-@-@@77- -@57@ @-@ @@-@ @-3@3@3@@995-5@69 -@5 -@@4@-@58 8 8  88654 68-5 1-5  7 4 15-6-6--,,661-,,54-551--3-7-5,3,3,3377,6,577615,6544,535,7878788  7,71  6,476,7771,47 5 6 56++ 7 5++,71 ,733 571 +,+,+,,77+ +,577 ,+7 ,,+, ,+3737377995+5769 +75 +7747+758 8 8  88654 68+5 1+5  7 4 15+6+6++,,661+,,54+551++3+7+5,3,3,3377,6,577615,6544,535,7878788  7,71  6,476,7771,47 5 6 56@@ 7 5@@,71 ,733 571 @,@,@,,@@@ @,@@7 ,@7 ,,@, ,@@7@7@77
[really-safe-money-gen] 
[really-safe-money-gen] @@@7
[really-safe-money-gen] 
[really-safe-money-gen]  @7@ @77@7@7@
[really-safe-money-gen]  
[really-safe-money-gen]  
[really-safe-money-gen]     
[really-safe-money-gen] @
[really-safe-money-gen]    @@ 
[really-safe-money-gen] @@  
[really-safe-money-gen]  @ 
[really-safe-money-gen]  @ @ @@qq 
[really-safe-money-gen]  @ q@
[really-safe-money-gen] @ @
[really-safe-money-gen] @@ @
[really-safe-money-gen] @ -@f@f@@uu   @ u
[really-safe-money-gen]  @ 
[really-safe-money-gen]  @@ @ @ -
[really-safe-money-gen] r
[really-safe-money-gen] r
[really-safe-money-gen] 
[really-safe-money-gen] aa   
[really-safe-money-gen]  a  
[really-safe-money-gen]    
[really-safe-money-gen] 
[really-safe-money-gen]  
[really-safe-money-gen]  
[really-safe-money-gen]    o o  nn     n             N-mfm-ftt     t             o-RrR-rii     i             t aoa oss    (s             hNtmtNmaa( m sa   i    m   iioiRioRtts(a mt m 2 i  a m 2ntoaotaiimsx ai(a  (2  x a  ghntnhtooamBilosxm=s mmBixm=
[really-safe-money-gen] iaiaiinnlao2lnmBa m=aao2Ba  nlolnoFFllu eFaox(a xxu ox(fg n gnaaeln=raluBfl(BBn=uBfr
[really-safe-money-gen] :a:
[really-safe-money-gen] accred Cclnorlfood noro :l: lttCrI(hteduoeruuI(duomf   f oohC fuorInmronn fInmRrQ:Qr:rruh=rnrC dICmdd=r dIaou:uo:FFnu okFh=InhIII o=Intma am ookn(mSou  tun  fm  tiRnQnRQrrSkfIirn(=ent==rIf=eoatutaummiSrnzmkf gke  onr gntiaitaaazioteaSr(rSgffmto(raisnsinttezme,tiofairrrIemfaloataotSS,eIg SzmrlzaoongIrl ntitnitt ,nrrteIo elmmtrno :aisiasrrr taer,nm:, IIeatm::loaolaiierelsi tI: :nngleI:  ntn tnnseg tnren r:ttr gn Q:FiF:iggtsr:)gegtWe eea:rtWu:aoa:o  )ta:  sreosWggl:aeoa cnc n(( )l =(tagrtorr  lgrnQtFtQFQQ=  W Q)lrd)raa(W rdtuoaouauu =:odu  a6 dllmo(a6iarcracaad :ria=:l4=6  arml4sn t ntnnid dvn :   4((xda  at-o-tottviW6Mtd :-d mmB6x:-ti>r>iriiMvo4oiiW:>i-aao4B:>is   s ssoMr dsvo  v>xxu o  oaR-Ra-aadod- aMrWIM BBn-uWInta>at>tt d6>atodonoIood>nonFit ti iia 4  id6rtdnuu  drtaoiRioRoo a I(o 4de tnn:I decnoaonann( -n(na 6gaedd:n:6gtFntnFtFF((>tfF -4e g   t:4eoaaiaaiaaf( era(> r(e::We  rrclolcoccrfIgoc( -)(r::ogW-) t n tnttornemtfI> f)  reo> -o-a-oaoomotrIorn ar WWdrr a>r>l>rlrrIme)nrotI2oaoo6)dI2         nIg t men
[really-safe-money-gen] m2rr4 6n
[really-safe-money-gen] R-M-M--00tneae0Igt I
[really-safe-money-gen] dd)a4t a>a>a>>))etr2g)nee n 66
[really-safe-money-gen] 2)e t y y    ge)
[really-safe-money-gen] r trg t 44 
[really-safe-money-gen] 
[really-safe-money-gen] g iRbMbRM==rg  a=e)e e ))   e oaeaeaa  ar( l g r g 
[really-safe-money-gen] 
[really-safe-money-gen]    r nt y ty""lam  "r() r      ) aiAbAib%% la :%am  a        lomemoeff: x :fla(rl      (r no on ""::B  " xm  r     m -auAuaA
[really-safe-money-gen] 
[really-safe-money-gen]  :o W
[really-safe-money-gen] :Ba::   r  a:>lnmnml  W uro :ox:::   rrx:  toto qqoWn rq uB  :  :  B M-
[really-safe-money-gen] u
[really-safe-money-gen] u-uurod:duWnoIW rr:::oIa> n n>aadr :3aodunoI   ::uny ftft nn3d: 2nr ntrn::I  ntbMr
[really-safe-money-gen] r
[really-safe-money-gen] Mtt23:I td:dedt::nIIdeeao o aii 2 n-i3: g3e  tnn g ymfmfyss- Wt>s2 :e2gIIett:eAbRrRrbaa>-oe a W:r enngee:rmeaoaoett >rgWt-o 
[really-safe-money-gen] -rttegg 
[really-safe-money-gen] o tmtm iiW deoi>rW >
[really-safe-money-gen] eereeW uAiRiRAoooW6rro do   gg
[really-safe-money-gen] rro nmoaoamnnro4
[really-safe-money-gen] dnW6r W ee 
[really-safe-money-gen] 
[really-safe-money-gen] r tontntoFFdr) 6Fo4d o rr   d 
[really-safe-money-gen] uaiaiuaa6d
[really-safe-money-gen]  4ar)6 r 
[really-safe-money-gen] 
[really-safe-money-gen]    6  nloloncc46  )cd
[really-safe-money-gen] 4 d      4 ft n nttt)4   t6 ) 6      ) r
[really-safe-money-gen] (a(a
[really-safe-money-gen] oo )  fo4 
[really-safe-money-gen] r4      
[really-safe-money-gen] ro QlQl rrf   )r)   )r       mfu u fFF)f  
[really-safe-money-gen] F   =    r   =Rra(a(roo
[really-safe-money-gen] ) r of   f=   rr  aonQnQorr 
[really-safe-money-gen]    r)  i)   =   itmtutummm  r= m
[really-safe-money-gen]   1
[really-safe-money-gen] irr == 1iRiaiaRaa     a r   1  i    oasnsnatt  :i t   -  ==1ii -ntatattSS  :1 S :r  -   11r aititiitt     t : i  ii+   iloisisorr  I-sr  :2 i11 -+:2 noaoaniis n mi I:
[really-safe-money-gen]  2  i  :
[really-safe-money-gen] (antntannmstian n - 
[really-safe-money-gen] ++2ii -QlFiFilggame2lgstI s-  
[really-safe-money-gen] 22I u aoao   lag
[really-safe-money-gen] l men m ii-
[really-safe-money-gen] 
[really-safe-money-gen] n a(cncn(((lle-e(agt a 22 --t nQtFtFQQQelr rQleeil 
[really-safe-money-gen] 
[really-safe-money-gen]    eituoaoauuure
[really-safe-money-gen]  Culrgnli--   gniarcrcaaaCr  hae
[really-safe-money-gen] e en  i  e sn t tnnnhC iunr rir   niiriatqoqotttuh nntC 
[really-safe-money-gen] fCi   nn
[really-safe-money-gen] ftifrfriiinu  kih   hfiii    is) ) ssskn i su  ru nnfii roa q qaaa k f:an   nr   ff  ntrfrfttt:   :tk  <k iir   <Fi
[really-safe-money-gen] )
[really-safe-money-gen] )iii::rr i     <ff rr  ao    ooo :  Ao:r 0:   >   0cn r rnnnA =<mn:  
[really-safe-money-gen] :0rr <> 
[really-safe-money-gen] tF 
[really-safe-money-gen]  
[really-safe-money-gen] FFFmA  oF =r+ 
[really-safe-money-gen]   m  r+oa| | aaaom(0uaA   A+>>a0m  rc    cccuof
[really-safe-money-gen] ncm(= m   x
[really-safe-money-gen] a=  ti i tttnur+ttof  o mmB+x  qos|s|oootno 
[really-safe-money-gen] our(iu aao B(ifrI I rrr
[really-safe-money-gen] tm  rnofnnixxu ofn) nini    
[really-safe-money-gen] I   tmr tnBBn ur  qvsvsqqq  ni q
[really-safe-money-gen] Ioi
[really-safe-money-gen]  oodinoirfaIaIfff  tn f nmf iuuIndmf
[really-safe-money-gen] )lnln)))  e  ) tI  fnn
[really-safe-money-gen]  II - iviv     gi   enn  dd+i
[really-safe-money-gen] nr rdadar==  rf = gto rII f+t  
[really-safe-money-gen]  l l
[really-safe-money-gen] 
[really-safe-money-gen] 
[really-safe-money-gen]   a s
[really-safe-money-gen]  ret  
[really-safe-money-gen] 
[really-safe-money-gen]    e<|-riri-  s lTm  ag  <++ F g    d d   ms ra  lr(    ia r1i = =    am:ul s ars0  nlia
[really-safe-money-gen] s| r r|llla:ellm:l m
[really-safe-money-gen]    snl I N N  eell 
[really-safe-money-gen] eea: <a iiie   nio=o=ittelW rtl : l nnf
[really-safe-money-gen] i: vst t s  reo C lW:0l     f: aIhNhNIddCrr hdeo )e iin    lnioioneehCd uerrW
[really-safe-money-gen] r ffo rW ivntntvccuh3 ncCdo C   t  o daghghaiinu2 kih3r h FT  >r  l
[really-safe-money-gen] i
[really-safe-money-gen] ilmmkn   mu2d u ar(  d ri-n-niaa k- =an 3 n lur m3t d g gdll= >  lk-2 ktse  a2h=  
[really-safe-money-gen]  
[really-safe-money-gen]  ss = tAs >   he
[really-safe-money-gen] > x e r|-|-r  A Ihm = - =e
[really-safe-money-gen]   tB-nN      ::mAneo: I>  n  mho> o=r r =::omtnu:An  A   aeu Nt  | |   uoe n mtItmN  xnnIohN< < NIInugNtIoenhoo  B dntio r ronntneo nugteut  oNIthnt0 0 ttt trtstneennh  uo
[really-safe-money-gen] eigh < <h
[really-safe-money-gen] 
[really-safe-money-gen] s )hm
[really-safe-money-gen] trg ti  nt gn
[really-safe-money-gen] i= = i--ms ia- )eN n  dh eg+n 0 0n  amfnl s rosg tIi r
[really-safe-money-gen]  gN N g  la gl mf)tm
[really-safe-money-gen] th)n )  
[really-safe-money-gen] o=o=
[really-safe-money-gen]   ll*
[really-safe-money-gen] e a  ha he
[really-safe-money-gen] g   |+t t +  el  r l*fil en 
[really-safe-money-gen]  f   hNhN   re( C l  nl n      n ioio   Crf h e(*ge  N   * o|ntnt|ddhCr udrf 
[really-safe-money-gen] r No     t ghgh eeuho neCr( C ot  t(  T
[really-safe-money-gen] i
[really-safe-money-gen] iFccnum kchof h th  hf (r+n+naiiknI Siumr  hi  uer iu g glmmSkn imnIo  in  nnoese 
[really-safe-money-gen]  
[really-safe-money-gen] saaiSt zaknm eng  k mlI |+|+ellzieeelStI lg
[really-safe-money-gen] t SNIsn=     ssezgl
[really-safe-money-gen] sien s
[really-safe-money-gen]  heionev r n =  
[really-safe-money-gen] ers- zgt e  elztt aN |o| ==-
[really-safe-money-gen] ae =ere    nseheJlo< t N   -l   
[really-safe-money-gen] ageJ   e
[really-safe-money-gen] iguit F Tocc   J c-lrlu  N -nrsdh1a(rtee  :uie  ass  oJ gat i lruhiii :sni :let  tu 
[really-safe-money-gen] l rn=s eillni t l :     hs   ()g e< nii nW iii :J(  iti :A 
[really-safe-money-gen] N  =gnni o(fnnW:uA en n :m= o=0 
[really-safe-money-gen] ggfirA g o smelg(   o  t )N    fdmr irWtols
[really-safe-money-gen] Ai WuN hN o $$r 6oe$fdo use mf ono|io=t   er4us  6r(ne  o  rtt nt h|llse ntlr4dAt J ur d hrghNi oots-t oe 6m Ju ne 6(i 
[really-safe-money-gen] ionrgg t> =gs-4o(us tse4(n< ntg BB=  (=Bt> u(st  tl fg  gh
[really-safe-money-gen] <aa==I( a  -nft  ( s-r
[really-safe-money-gen] 0 
[really-safe-money-gen] i  ss =nf0s=I>tr ( (=e>o  | n 0ee0 tr
[really-safe-money-gen] e=n  o(A f=  m =  g    
[really-safe-money-gen] 0eo+  tI(mAmer JII  o 
[really-safe-money-gen] |=11+
[really-safe-money-gen] gm 10en(Imolo0unn|Nt|   00 +eI 0
[really-safe-money-gen] gtfnousm
[really-safe-money-gen] stt oh  oN    rn  +eertuneI+teerteo to((  )ti( rgoent n  gg hrt|htffi  enf )emgt Jt (ee<iwh ehrrniag r  rIe (ue Arr nieorioo n
[really-safe-money-gen] eioia)nr((sgim) 0gsrtwnmmi -rfmn
[really-safe-money-gen]  t (fteno : 
[really-safe-money-gen] ewhigIIfi   I -ae:fr r ua:=  ies
[really-safe-money-gen] nn f :rni 
[really-safe-money-gen] g:ro( in
[really-safe-money-gen]    =sre ttn  :etf -e omA:ft-IN 
[really-safe-money-gen] ew  eeroi se   rImIm:   no|  i= ggetnItgFi  nIno T( tt  =s
[really-safe-money-gen] |rrs  n ran :tntuIr( eho 
[really-safe-money-gen] e  aat(it=al i:etennufigit    oll rfe=lsin gegtternenh  = t  =e g  ef Iege e
[really-safe-money-gen] o rge  
[really-safe-money-gen]  hqq=sre1q
[really-safe-money-gen]  inrer(g mi 
[really-safe-money-gen] r    eff t r
[really-safe-money-gen] f rft r (e If- wl   r  0 >      e- :fr n > ie   w::
[really-safe-money-gen] = - : >rg>::r  tr  st  li:: =m> :   e : o- e W|e l es    a    m>rW Im> g>o  re teFF 0xW F a  oInI  e ro=et   ll )Bo l xm-rntnW rmdt
[really-safe-money-gen] s lr=oo 
[really-safe-money-gen] or o Ba>dteto  a6h uree
[really-safe-money-gen] aa  ud a ox 6egert:x4e lets tt  n6 ttuBW4gegdh:B)r ts u ))  d4t)hnoo)ere6e o w Rurl 
[really-safe-money-gen] 
[really-safe-money-gen]   I)h
[really-safe-money-gen] edur r r4nIuri alet ++t 
[really-safe-money-gen]  e+nIndr - ) nn)s ttsR   h +rn  
[really-safe-money-gen] d6)->: Dtd)e iRua   e  )  D+I4)> :rieI
[really-safe-money-gen]  loalt   n  )D i 
[really-safe-money-gen] )
[really-safe-money-gen]  W )sg
[really-safe-money-gen]  =enttil     
[really-safe-money-gen] i s +  WoI)te+
[really-safe-money-gen] 
[really-safe-money-gen] taiRoe  Dti s t  r
[really-safe-money-gen] orn
[really-safe-money-gen] rr   loant  ihn
[really-safe-money-gen] t ri )rdt i   r nta ddse rdin )d6e
[really-safe-money-gen] b-  e:ailreetniieb i
[really-safe-money-gen] 64gu>i s:lo eccr fbcuin 4)et n u  n:siiiD uitf 
[really-safe-money-gen] ) reW  lR:a:ummbintme i r doi ta:l laausoeadrfr)-IrflRt  RtlltttdlI  ))>nd eaiR:aRsser Isn>T)
[really-safe-money-gen]  t6Fttoa:ta  di(n t r
[really-safe-money-gen]  Wo4a int it==Ibrt=omu 
[really-safe-money-gen] oE)lroaiRoi  nu o Eae
[really-safe-money-gen] rq senloanocctt>Ecqx
[really-safe-money-gen] duresa
[really-safe-money-gen] ntaneeoe qeuB 6a)
[really-safe-money-gen] ul ailaiiEdmuiao 4l) l  lo
[really-safe-money-gen] lllqIaallu )C
[really-safe-money-gen]  t: 
[really-safe-money-gen] n  iiunxliCn  h  R:  a :nnatBCnhd ru
[really-safe-money-gen]  a   l :ggloohguI )n tR  
[really-safe-money-gen]     CEuu n
[really-safe-money-gen]  )k ia    R$$hqnn$k  
[really-safe-money-gen] s ot    a  uudk s     ni    tllnaIsl  t
[really-safe-money-gen] f ao    iookl) of h tln    oggsC
[really-safe-money-gen] fg  esh ar   nBB h  Bs nme:le   aaafu sam  an:
[really-safe-money-gen] s  rlss n msa Nl  ur e
[really-safe-money-gen] eesk ael olNRle s  ms l ltteoats u01a  l-ehhrttRurl  lf e1reiChialet((l  r0CnnhiottsRffes C h gunniRuarrrmth(uN
[really-safe-money-gen] ngaoaltooCahufno k
[really-safe-money-gen] lnttimmhlenrkt 
[really-safe-money-gen]  
[really-safe-money-gen] aiRoIIulnko
[really-safe-money-gen] h   loannnne 
[really-safe-money-gen] m i    ntattkrN I n   =ailee
[really-safe-money-gen] Co n g    lo gg ht t 
[really-safe-money-gen]    r n=rr uh e      =a aa ni g     * lrll kn r  e   r     
[really-safe-money-gen] g a  l e( =*qq  
[really-safe-money-gen]  l  self*  ff     e elsr r(     eql  seo( f::   lfs Je mf*r::e  s e u
[really-safe-money-gen] JIr o  l  e:
[really-safe-money-gen] es uno(mFFs  
[really-safe-money-gen] : lt stmfIlle     s  teIrnoo
[really-safe-money-gen]    F e(  gnotaa e  l  A (rtmett le o Jm AaeIg)) sl a uo mlgnr
[really-safe-money-gen] 
[really-safe-money-gen]  es t su o rta   
[really-safe-money-gen] e ) tn u:ael      
[really-safe-money-gen]   t n:lg     J   (  t  r:    u   A(l W:a:ii  s  lm(e(o:l nn  tl eoft(r  W     eitur fdW:oppl (tn no-r3o:rrre A  -tm-o2r diit m-p- I m dW3nn  o-r (nTI-3o2tt- u iT(thn>2r ff-lnTnhfeit  d-   ethtirgseR-3>""Tt ifsoe ga>2 %%h (s  mr'et  R%%i-( "'I friR-a00s-f'%fn:r oa>t..  rf%rt:o:nt i%%'Tor0oe m:aiRoddfhmo.mgII loanffriIm%IennI)nta""osnIdnrttn ail  m tnft eetqlo)ddI'et"e:ggef)n eenfge g:erg
[really-safe-money-gen]  aqcctregdr raeqlfiieorreaI lrf)
[really-safe-money-gen] mmgm acln-' 
[really-safe-money-gen]  aarI:li't> -qllan:'m e i>fsslt  aigWs 
[really-safe-money-gen] 
[really-safe-money-gen] 
[really-safe-money-gen] 'eIilseo W   gnss rrto
[really-safe-money-gen] 
[really-safe-money-gen] irt 
[really-safe-money-gen] t dhr  saet h-6ed-- lgh
[really-safe-money-gen] e>4o6--t'ee o )r4  h ro-rW e)||ei r-eort   os-e tr)irVVr >t|id)c)aaet i c6
[really-safe-money-gen] a)llthWcVa4 l
[really-safe-money-gen] iiieoaal)
[really-safe-money-gen] l ddcorlll y
[really-safe-money-gen] aaardliyr ttle6yd )neelt4 an)o  yi)nto
[really-safe-money-gen] ttt c oet  hhnart  
[really-safe-money-gen] saaol) tsatttl)shaf   y
[really-safe-money-gen] aafeaas  fte,nnan
[really-safe-money-gen] e ,   fo,a b''et nbuAA, b utmm su't oobatA iuuuf mitnnteiot'tt ,tu's''i 'ns
[really-safe-money-gen]   tbst
[really-safe-money-gen] ii'u
[really-safe-money-gen] 'ssst   
[really-safe-money-gen]  issisttt rr'siistcc
[really-safe-money-gen] rttillcyyt  lppyoo sspiiottsiiivvteei..v  eII... eeI...  enn.oo ttn  o''tzz ee'rrzooe''r..o
[really-safe-money-gen] 
[really-safe-money-gen] '.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:390:5-14:
[really-safe-money-gen] @@ -387,7 +387,7 @@
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen]    | r < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | True =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen]            ceiled :: Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:390:5-14:
[really-safe-money-gen] @@ -387,7 +387,7 @@
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen]    | r < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | False =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen]            ceiled :: Natural
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:390:5-14:
[really-safe-money-gen] @@ -387,7 +387,7 @@
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen]    | r < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | not (otherwise) =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen]            ceiled :: Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:397:14-31:
[really-safe-money-gen] @@ -394,7 +394,7 @@
[really-safe-money-gen]            ceiled = (ceiling :: Rational -> Natural) resultRational
[really-safe-money-gen]            floored :: Natural
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen] -       in if ceiled == floored
[really-safe-money-gen] +       in if True
[really-safe-money-gen]              then
[really-safe-money-gen]                if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:397:14-31:
[really-safe-money-gen] @@ -394,7 +394,7 @@
[really-safe-money-gen]            ceiled = (ceiling :: Rational -> Natural) resultRational
[really-safe-money-gen]            floored :: Natural
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen] -       in if ceiled == floored
[really-safe-money-gen] +       in if False
[really-safe-money-gen]              then
[really-safe-money-gen]                if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:397:14-31:
[really-safe-money-gen] @@ -394,7 +394,7 @@
[really-safe-money-gen]            ceiled = (ceiling :: Rational -> Natural) resultRational
[really-safe-money-gen]            floored :: Natural
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen] -       in if ceiled == floored
[really-safe-money-gen] +       in if not (ceiled == floored)
[really-safe-money-gen]              then
[really-safe-money-gen]                if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:399:18-83:
[really-safe-money-gen] @@ -396,7 +396,7 @@
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen]         in if ceiled == floored
[really-safe-money-gen]              then
[really-safe-money-gen] -              if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +              if False
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen]                  else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]              else Nothing
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:399:15-57:
[really-safe-money-gen] @@ -396,7 +396,7 @@
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen]         in if ceiled == floored
[really-safe-money-gen]              then
[really-safe-money-gen] -              if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +              if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen]                  else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]              else Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:399:18-83:
[really-safe-money-gen] @@ -396,7 +396,7 @@
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen]         in if ceiled == floored
[really-safe-money-gen]              then
[really-safe-money-gen] -              if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +              if True
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen]                  else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]              else Nothing
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:399:18-83:
[really-safe-money-gen] @@ -396,7 +396,7 @@
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen]         in if ceiled == floored
[really-safe-money-gen]              then
[really-safe-money-gen] -              if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +              if not (ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64))
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen]                  else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]              else Nothing
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:397:11-25:
[really-safe-money-gen] @@ -394,7 +394,7 @@
[really-safe-money-gen]            ceiled = (ceiling :: Rational -> Natural) resultRational
[really-safe-money-gen]            floored :: Natural
[really-safe-money-gen]            floored = (floor :: Rational -> Natural) resultRational
[really-safe-money-gen] -       in if ceiled == floored
[really-safe-money-gen] +       in if ceiled == floored
[really-safe-money-gen]              then
[really-safe-money-gen]                if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                  then Nothing
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:320:9-10:
[really-safe-money-gen] @@ -317,7 +317,7 @@
[really-safe-money-gen]    Double ->
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen] -  | d < 0 = Nothing
[really-safe-money-gen] +  | d < 1 = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:320:5-10:
[really-safe-money-gen] @@ -317,7 +317,7 @@
[really-safe-money-gen]    Double ->
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen] -  | d < 0 = Nothing
[really-safe-money-gen] +  | False = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:320:5-10:
[really-safe-money-gen] @@ -317,7 +317,7 @@
[really-safe-money-gen]    Double ->
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen] -  | d < 0 = Nothing
[really-safe-money-gen] +  | not (d < 0) = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:320:5-10:
[really-safe-money-gen] @@ -317,7 +317,7 @@
[really-safe-money-gen]    Double ->
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen] -  | d < 0 = Nothing
[really-safe-money-gen] +  | True = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:321:5-14:
[really-safe-money-gen] @@ -318,7 +318,7 @@
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen]    | d < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | True =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:321:5-14:
[really-safe-money-gen] @@ -318,7 +318,7 @@
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen]    | d < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | not (otherwise) =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:321:5-14:
[really-safe-money-gen] @@ -318,7 +318,7 @@
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen]    | d < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | False =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:327:9-16:
[really-safe-money-gen] @@ -324,7 +324,7 @@
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen]    where
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen] -      | isNaN d = Nothing
[really-safe-money-gen] +      | False = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:327:9-16:
[really-safe-money-gen] @@ -324,7 +324,7 @@
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen]    where
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen] -      | isNaN d = Nothing
[really-safe-money-gen] +      | True = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:327:9-16:
[really-safe-money-gen] @@ -324,7 +324,7 @@
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen]    where
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen] -      | isNaN d = Nothing
[really-safe-money-gen] +      | not (isNaN d) = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen] TeTseTtseitsnitgni gnm gum tumatutatitaoitnoi noC noC noCsnotsnBtsoBtooBloo loa lta  tas trs crs/crM/coM/noMenoyen/yeA/ymA/omAuomnuotnu.tnh.tsh.:sh3:s23:823:829:9-9:2-912-:11
[really-safe-money-gen] :8@
[really-safe-money-gen] :@@
[really-safe-money-gen]  @@- @3- 23-523,527,6 7,+ 73+ 23+523,527,6 7,@ 7@@ 
[really-safe-money-gen] @@ 
[really-safe-money-gen] @  
[really-safe-money-gen]    w  hw eh re erg
[really-safe-money-gen] eo 
[really-safe-money-gen]    r  e  s  ug logt oDr oerusebuslluetl
[really-safe-money-gen] Dt oD uo bu lb el 
[really-safe-money-gen] e  
[really-safe-money-gen] |     i  s  N  a  N|   |di  si=Ns aNNNao Ntd h di= n =gN 
[really-safe-money-gen] oN to ht ih ni gn 
[really-safe-money-gen] g -
[really-safe-money-gen] | -   i  s  I  n  f| i |ni isitIsenI fndif ni=in tiNeto etd h di= n =gN 
[really-safe-money-gen] oN-to ht ih ni gn 
[really-safe-money-gen] g +
[really-safe-money-gen] | +   o  t  h  e  r| w |iF saTelr su=ee
[really-safe-money-gen]   +==    NN oo tt hh ii|nn ggT
[really-safe-money-gen] 
[really-safe-money-gen] r  u  e     =  
[really-safe-money-gen]       ||    oo tt hh ee rr ww ii ss-ee-   ==S
[really-safe-money-gen] 
[really-safe-money-gen] h  o  r  t  c  u  t     f  o  r   --n--u  mSSbhheoorrrstt cctuuhtta  tff ooarrr  enn uuwmmabbyee rrtsso  ott hhbaaittg   aaarrneey  wwwaaayyy
[really-safe-money-gen]    tt oo oo    bb ii gg    aa nn yy-ww-aa yys
[really-safe-money-gen] 
[really-safe-money-gen] o     t  h  a  t     w  e     d  o--n--'  tss ooh  attvhheaa ttt  oww eec  oddmoopnnu''ttte   hhtaahvveee   attcooc  occroodmmippnuugtt ee'  Nttahhteeu  raaacclcc'oo rrvddaiilnnugge  s''.NN
[really-safe-money-gen] aa tt uu rr aa ll ''    vv aa ll uuieefss ..e
[really-safe-money-gen] 
[really-safe-money-gen] xponent resultDouble > 65
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:328:9-21:
[really-safe-money-gen] @@ -325,7 +325,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen]        | isNaN d = Nothing
[really-safe-money-gen] -      | isInfinite d = Nothing
[really-safe-money-gen] +      | not (isInfinite d) = Nothing
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:329:9-18:
[really-safe-money-gen] @@ -326,7 +326,7 @@
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen]        | isNaN d = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen] -      | otherwise =
[really-safe-money-gen] +      | False =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen]            if exponent resultDouble > 65
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:329:9-18:
[really-safe-money-gen] @@ -326,7 +326,7 @@
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen]        | isNaN d = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen] -      | otherwise =
[really-safe-money-gen] +      | not (otherwise) =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen]            if exponent resultDouble > 65
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > 0
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > 1
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > -65
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:332:14-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if True
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:332:14-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if False
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:332:14-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if not (exponent resultDouble > 65)
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:339:22-39:
[really-safe-money-gen] @@ -336,7 +336,7 @@
[really-safe-money-gen]                    ceiled = (ceiling :: Double -> Natural) resultDouble
[really-safe-money-gen]                    floored :: Natural
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen] -               in if ceiled == floored
[really-safe-money-gen] +               in if True
[really-safe-money-gen]                      then
[really-safe-money-gen]                        if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:339:22-39:
[really-safe-money-gen] @@ -336,7 +336,7 @@
[really-safe-money-gen]                    ceiled = (ceiling :: Double -> Natural) resultDouble
[really-safe-money-gen]                    floored :: Natural
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen] -               in if ceiled == floored
[really-safe-money-gen] +               in if not (ceiled == floored)
[really-safe-money-gen]                      then
[really-safe-money-gen]                        if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:341:26-91:
[really-safe-money-gen] @@ -338,7 +338,7 @@
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen]                 in if ceiled == floored
[really-safe-money-gen]                      then
[really-safe-money-gen] -                      if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +                      if True
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen]                          else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]                      else Nothing
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:341:26-91:
[really-safe-money-gen] @@ -338,7 +338,7 @@
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen]                 in if ceiled == floored
[really-safe-money-gen]                      then
[really-safe-money-gen] -                      if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +                      if not (ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64))
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen]                          else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]                      else Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:339:22-39:
[really-safe-money-gen] @@ -336,7 +336,7 @@
[really-safe-money-gen]                    ceiled = (ceiling :: Double -> Natural) resultDouble
[really-safe-money-gen]                    floored :: Natural
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen] -               in if ceiled == floored
[really-safe-money-gen] +               in if False
[really-safe-money-gen]                      then
[really-safe-money-gen]                        if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:341:23-65:
[really-safe-money-gen] @@ -338,7 +338,7 @@
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen]                 in if ceiled == floored
[really-safe-money-gen]                      then
[really-safe-money-gen] -                      if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +                      if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen]                          else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]                      else Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:341:26-91:
[really-safe-money-gen] @@ -338,7 +338,7 @@
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen]                 in if ceiled == floored
[really-safe-money-gen]                      then
[really-safe-money-gen] -                      if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen] +                      if False
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen]                          else Just $ Amount (fromIntegral ceiled)
[really-safe-money-gen]                      else Nothing
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:339:19-33:
[really-safe-money-gen] @@ -336,7 +336,7 @@
[really-safe-money-gen]                    ceiled = (ceiling :: Double -> Natural) resultDouble
[really-safe-money-gen]                    floored :: Natural
[really-safe-money-gen]                    floored = (floor :: Double -> Natural) resultDouble
[really-safe-money-gen] -               in if ceiled == floored
[really-safe-money-gen] +               in if ceiled == floored
[really-safe-money-gen]                      then
[really-safe-money-gen]                        if ceiled > (fromIntegral :: Word64 -> Natural) (maxBound :: Word64)
[really-safe-money-gen]                          then Nothing
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:290:79-80:
[really-safe-money-gen] @@ -287,7 +287,7 @@
[really-safe-money-gen]  -- >>> toRatio (QuantisationFactor 100) (Amount 1)
[really-safe-money-gen]  -- 1 % 100
[really-safe-money-gen]  toRatio :: QuantisationFactor -> Amount -> Ratio Natural
[really-safe-money-gen] -toRatio (QuantisationFactor 0) a = fromIntegral (toMinimalQuantisations a) :% 0
[really-safe-money-gen] +toRatio (QuantisationFactor 0) a = fromIntegral (toMinimalQuantisations a) :% 1
[really-safe-money-gen]  toRatio (QuantisationFactor quantisationFactor) a =
[really-safe-money-gen]    (fromIntegral :: Word64 -> Natural) (toMinimalQuantisations a)
[really-safe-money-gen]      % (fromIntegral :: Word32 -> Natural) quantisationFactor
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:332:11-33:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > 65
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:494:96-97:
[really-safe-money-gen] @@ -491,7 +491,7 @@
[really-safe-money-gen]    let maxBoundI :: Integer
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen] -      r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] +      r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 1 l
[really-safe-money-gen]     in if r > maxBoundI
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:495:10-23:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] -   in if r > maxBoundI
[really-safe-money-gen] +   in if True
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:495:10-23:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] -   in if r > maxBoundI
[really-safe-money-gen] +   in if False
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:801:36-38:
[really-safe-money-gen] @@ -798,7 +798,7 @@
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor 0) = "%f"
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor qf) =
[really-safe-money-gen]    let decimals :: Int
[really-safe-money-gen] -      decimals = ceiling $ logBase 10 (fromIntegral qf :: Float)
[really-safe-money-gen] +      decimals = ceiling $ logBase 1 (fromIntegral qf :: Float)
[really-safe-money-gen]     in printf "%%0.%df" decimals
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Validate that an 'Amount' is strictly positive. I.e. not 'zero'.
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.format.produces valid strings
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:801:36-38:
[really-safe-money-gen] @@ -798,7 +798,7 @@
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor 0) = "%f"
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor qf) =
[really-safe-money-gen]    let decimals :: Int
[really-safe-money-gen] -      decimals = ceiling $ logBase 10 (fromIntegral qf :: Float)
[really-safe-money-gen] +      decimals = ceiling $ logBase -10 (fromIntegral qf :: Float)
[really-safe-money-gen]     in printf "%%0.%df" decimals
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Validate that an 'Amount' is strictly positive. I.e. not 'zero'.
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.format.produces valid strings
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:518:14-15:
[really-safe-money-gen] @@ -515,7 +515,7 @@
[really-safe-money-gen]        i2 = (fromIntegral :: Word64 -> Integer) a2
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = i1 - i2
[really-safe-money-gen] -   in if r < 0
[really-safe-money-gen] +   in if r < 1
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:389:9-10:
[really-safe-money-gen] @@ -386,7 +386,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Amount
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen] -  | r < 0 = Nothing
[really-safe-money-gen] +  | r < 1 = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromRational.roundtrips with toRational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:801:36-38:
[really-safe-money-gen] @@ -798,7 +798,7 @@
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor 0) = "%f"
[really-safe-money-gen]  quantisationFactorFormatString (QuantisationFactor qf) =
[really-safe-money-gen]    let decimals :: Int
[really-safe-money-gen] -      decimals = ceiling $ logBase 10 (fromIntegral qf :: Float)
[really-safe-money-gen] +      decimals = ceiling $ logBase 0 (fromIntegral qf :: Float)
[really-safe-money-gen]     in printf "%%0.%df" decimals
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Validate that an 'Amount' is strictly positive. I.e. not 'zero'.
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.format.produces valid strings
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:390:5-14:
[really-safe-money-gen] @@ -387,7 +387,7 @@
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen]    | r < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | True =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen]            ceiled :: Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromRational.roundtrips with toRational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:518:10-15:
[really-safe-money-gen] @@ -515,7 +515,7 @@
[really-safe-money-gen]        i2 = (fromIntegral :: Word64 -> Integer) a2
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = i1 - i2
[really-safe-money-gen] -   in if r < 0
[really-safe-money-gen] +   in if False
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.INR.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.USD.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountSpec.subtract.fails for 0 - 1
[really-safe-money-gen]   Money\.AmountSpec.subtract.fails for 0 - maxBound
[really-safe-money-gen]   Money\.AmountSpec.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:569:18-19:
[really-safe-money-gen] @@ -566,7 +566,7 @@
[really-safe-money-gen]        (smallerChunkSize, rest) = divMod a ((fromIntegral :: Word32 -> Word64) f)
[really-safe-money-gen]        smallerChunk :: Amount
[really-safe-money-gen]        smallerChunk = Amount smallerChunkSize
[really-safe-money-gen] -   in if rest == 0
[really-safe-money-gen] +   in if rest == 1
[really-safe-money-gen]          then DistributedIntoEqualChunks f smallerChunk
[really-safe-money-gen]          else
[really-safe-money-gen]            let -- This 'fromIntegral' is theoretically not safe, but it's
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.distribute.correctly distributes 5 into 3
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:518:10-15:
[really-safe-money-gen] @@ -515,7 +515,7 @@
[really-safe-money-gen]        i2 = (fromIntegral :: Word64 -> Integer) a2
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = i1 - i2
[really-safe-money-gen] -   in if r < 0
[really-safe-money-gen] +   in if True
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.INR.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountOfSpec.USD.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.AmountSpec.subtract.fails for 0 - 1
[really-safe-money-gen]   Money\.AmountSpec.subtract.fails for 0 - maxBound
[really-safe-money-gen]   Money\.AmountSpec.subtract.matches what you would get with Integer, if nothing fails
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:321:5-14:
[really-safe-money-gen] @@ -318,7 +318,7 @@
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen]    | d < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | False =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:320:9-10:
[really-safe-money-gen] @@ -317,7 +317,7 @@
[really-safe-money-gen]    Double ->
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen] -  | d < 0 = Nothing
[really-safe-money-gen] +  | d < 1 = Nothing
[really-safe-money-gen]    | otherwise =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:321:5-14:
[really-safe-money-gen] @@ -318,7 +318,7 @@
[really-safe-money-gen]    Maybe Amount
[really-safe-money-gen]  fromDouble (QuantisationFactor qf) d
[really-safe-money-gen]    | d < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | True =
[really-safe-money-gen]        let resultDouble :: Double
[really-safe-money-gen]            resultDouble = d * (fromIntegral :: Word32 -> Double) qf
[really-safe-money-gen]         in go resultDouble
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:390:5-14:
[really-safe-money-gen] @@ -387,7 +387,7 @@
[really-safe-money-gen]  fromRational (QuantisationFactor qf) r
[really-safe-money-gen]    | isInvalid r = Nothing
[really-safe-money-gen]    | r < 0 = Nothing
[really-safe-money-gen] -  | otherwise =
[really-safe-money-gen] +  | False =
[really-safe-money-gen]        let resultRational :: Rational
[really-safe-money-gen]            resultRational = r * (fromIntegral :: Word32 -> Rational) qf
[really-safe-money-gen]            ceiled :: Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromRational.roundtrips with toRational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:329:9-18:
[really-safe-money-gen] @@ -326,7 +326,7 @@
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen]        | isNaN d = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen] -      | otherwise =
[really-safe-money-gen] +      | True =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen]            if exponent resultDouble > 65
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:329:9-18:
[really-safe-money-gen] @@ -326,7 +326,7 @@
[really-safe-money-gen]      go resultDouble
[really-safe-money-gen]        | isNaN d = Nothing
[really-safe-money-gen]        | isInfinite d = Nothing
[really-safe-money-gen] -      | otherwise =
[really-safe-money-gen] +      | False =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen]            if exponent resultDouble > 65
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.Testing mutation Negate at src/Money/Amount.hs:495:10-23:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] -   in if r > maxBoundI
[really-safe-money-gen] +   in if not (r > maxBoundI)
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:250:15-16:
[really-safe-money-gen] @@ -247,7 +247,7 @@
[really-safe-money-gen]  -- >>> zero
[really-safe-money-gen]  -- Amount 0
[really-safe-money-gen]  zero :: Amount
[really-safe-money-gen] -zero = Amount 0
[really-safe-money-gen] +zero = Amount 1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount into a number of minimal quantisations.
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:495:7-66:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen]        r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] -   in if r > maxBoundI
[really-safe-money-gen] +   in if r > maxBoundI
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:661:30-31:
[really-safe-money-gen] @@ -658,7 +658,7 @@
[really-safe-money-gen]    -- | The amount and the real rate that was used, considering the 'Rounding'
[really-safe-money-gen]    (Maybe Amount, Ratio Natural)
[really-safe-money-gen]  fraction _ (Amount 0) f = (Just zero, f)
[really-safe-money-gen] -fraction _ _ 0 = (Just zero, 0)
[really-safe-money-gen] +fraction _ _ 0 = (Just zero, 1)
[really-safe-money-gen]  fraction r (Amount a) f =
[really-safe-money-gen]    let amountAsRatio :: Ratio Natural
[really-safe-money-gen]        amountAsRatio = (fromIntegral :: Word64 -> Ratio Natural) a
[really-safe-money-gen] Testing mutaTteisotni nCgo nmsuttBaotoilo na tC osnrsct/BMooonle ya/tA msorucn/tM.ohnse:y6/8A1m:o1u2n-t3.7h:s
[really-safe-money-gen] :@6@8 1-:61728-,377 :+
[really-safe-money-gen] 6@7@8 ,-76 7@8@,
[really-safe-money-gen] 7   + 6 7 8 , 7m a@x@B
[really-safe-money-gen] o u n d N   : :m aNxaBtouurnadlN
[really-safe-money-gen]   : :   N a t umraaxlB
[really-safe-money-gen] o u n d N   =  mfarxoBmoIunntdeNg r=a lf r(ommaIxnBtoeugnrda l: :( mWaoxrBdo6u4n)d
[really-safe-money-gen]   : :   W o r dr6e4s)u
[really-safe-money-gen] l t   =   A m oruenstu l(t( f=r oAmmIonutnetg r(a(lf r:o:m INnatteugrraall  -:>:  WNoartdu6r4a)l  r-o>u nWdoerddR6e4s)u lrto)u
[really-safe-money-gen] n-d e d Riens u(l ti)f
[really-safe-money-gen]  -r o u nidne d(R eisfu lrto u>n dmeadxRBeosuunldtN 
[really-safe-money-gen] >+  m a xiBno u(n diNf
[really-safe-money-gen]  +T r u ei
[really-safe-money-gen] n   (   i f   F a l s et
[really-safe-money-gen] h e n   N o t h i n g 
[really-safe-money-gen] t h e n   N o t h i n ge
[really-safe-money-gen] l s e   J u s t   r e seullste, 
[really-safe-money-gen] J u s t   r e s u latc,t
[really-safe-money-gen] u a l R a t e 
[really-safe-money-gen]   actualRate
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount.hs:681:12-37:
[really-safe-money-gen] @@ -678,7 +678,7 @@
[really-safe-money-gen]        maxBoundN :: Natural
[really-safe-money-gen]        maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        result = Amount ((fromIntegral :: Natural -> Word64) roundedResult)
[really-safe-money-gen] -   in ( if roundedResult > maxBoundN
[really-safe-money-gen] +   in ( if not (roundedResult > maxBoundN)
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just result,
[really-safe-money-gen]          actualRate
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount.hs:681:9-27:
[really-safe-money-gen] @@ -678,7 +678,7 @@
[really-safe-money-gen]        maxBoundN :: Natural
[really-safe-money-gen]        maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        result = Amount ((fromIntegral :: Natural -> Word64) roundedResult)
[really-safe-money-gen] -   in ( if roundedResult > maxBoundN
[really-safe-money-gen] +   in ( if roundedResult > maxBoundN
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just result,
[really-safe-money-gen]          actualRate
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:806:79-92:
[really-safe-money-gen] @@ -803,4 +803,4 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Validate that an 'Amount' is strictly positive. I.e. not 'zero'.
[really-safe-money-gen]  validateStrictlyPositive :: Amount -> Validation
[really-safe-money-gen] -validateStrictlyPositive amount = declare "The Amount is strictly positive" $ amount > zero
[really-safe-money-gen] +validateStrictlyPositive amount = declare "The Amount is strictly positive" $ True
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:806:79-92:
[really-safe-money-gen] @@ -803,4 +803,4 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Validate that an 'Amount' is strictly positive. I.e. not 'zero'.
[really-safe-money-gen]  validateStriTcetsltyiPnogs imtuitvaet i:o:n  ANmeoguantte  -a>t  Vsarlci/dMaotnieoyn/
[really-safe-money-gen] A-mvoaulnitd.ahtse:S8t0r6i:c7t9l-y9P2o:s
[really-safe-money-gen] i@t@i v-e8 0a3m,o4u n+t8 0=3 ,d4e c@l@a
[really-safe-money-gen] r e
[really-safe-money-gen]   "-T-h e|  AVmaoluindta ties  tshtarti catnl y' Apmoosuintti'v ei"s  $s tarmiocutnlty  >p ozseirtoi
[really-safe-money-gen] v+ev.a lIi.dea.t enSottr i'cztelryoP'o.s
[really-safe-money-gen] i tviavlei daamtoeuSnttr i=c tdleycPloasriet i"vTeh e: :A mAomuonutn ti s- >s tVrailcitdlayt ipoons
[really-safe-money-gen] i-tviavlei"d a$t eFSatlrsiec
[really-safe-money-gen] tlTyePsotsiintgi vmeu taamtoiuonnt  C=o ndsetcBloaorle  a"tT hser cA/mMoounnety /iAsm osutnrti.chtsl:y6 0p7o:s1i5t-i2v2e:"
[really-safe-money-gen]  @$@  a-m6o0u4n,t7  >+ 6z0e4r,o7
[really-safe-money-gen]  +@v@a
[really-safe-money-gen] l i d a t e S t r iccatsley Paods iotfi
[really-safe-money-gen] v e   a m o u n t   =  Ddiesctlrairbeu t"eTdhIen tAomUonuenqtu ailsC hsutnrkisc t_l ya 1p o_s iat2i v-e>"
[really-safe-money-gen]   $   n o t   ( a m o u n td e>c lzaerreo )"
[really-safe-money-gen] ThTee sltairngge rm ucthautnikosn  aNreeg altaer gaetr "s r$c
[really-safe-money-gen] /-M o n e y / A m o u n t . h sa:16 0>7 :a125
[really-safe-money-gen] -+2 2 : 
[really-safe-money-gen]  @ @   - 6 0 4 , 7   +T6r0u4e,
[really-safe-money-gen] 7   @ @ 
[really-safe-money-gen]               _   -c>a svea laidd 
[really-safe-money-gen] o f 
[really-safe-money-gen]           ] 
[really-safe-money-gen]    
[really-safe-money-gen]    DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] -              a1 > a2
[really-safe-money-gen] +              not (a1 > a2)
[really-safe-money-gen]            _ -> valid
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:607:15-22:
[really-safe-money-gen] @@ -604,7 +604,7 @@
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] -              a1 > a2
[really-safe-money-gen] +              False
[really-safe-money-gen]            _ -> valid
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount.hs:603:7-8:
[really-safe-money-gen] @@ -600,7 +600,7 @@
[really-safe-money-gen]  instance (Validity amount, Ord amount) => Validity (Distribution amount) where
[really-safe-money-gen]    validate ad =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ad,
[really-safe-money-gen] +      [ genericValidate ad,
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:116:45-46:
[really-safe-money-gen] @@ -113,7 +113,7 @@
[really-safe-money-gen]  -- >>> invert (ConversionRate (1 % 2))
[really-safe-money-gen]  -- ConversionRate {unConversionRate = 2 % 1}
[really-safe-money-gen]  invert :: ConversionRate -> ConversionRate
[really-safe-money-gen] -invert (ConversionRate r) = ConversionRate (1 / r)
[really-safe-money-gen] +invert (ConversionRate r) = ConversionRate (-1 / r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Compose two conversion rates
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount.hs:603:7-8:
[really-safe-money-gen] @@ -600,7 +600,7 @@
[really-safe-money-gen]  instance (Validity amount, Ord amount) => Validity (Distribution amount) where
[really-safe-money-gen]    validate ad =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ad,
[really-safe-money-gen] +      [ genericValidate ad,
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:109:27-28:
[really-safe-money-gen] @@ -106,7 +106,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | One-to-one conversion rate
[really-safe-money-gen]  oneToOne :: ConversionRate
[really-safe-money-gen] -oneToOne = ConversionRate 1
[really-safe-money-gen] +oneToOne = ConversionRate 0
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Invert a 'ConversionRate', to convert in the other direction.
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:116:45-46:
[really-safe-money-gen] @@ -113,7 +113,7 @@
[really-safe-money-gen]  -- >>> invert (ConversionRate (1 % 2))
[really-safe-money-gen]  -- ConversionRate {unConversionRate = 2 % 1}
[really-safe-money-gen]  invert :: ConversionRate -> ConversionRate
[really-safe-money-gen] -invert (ConversionRate r) = ConversionRate (1 / r)
[really-safe-money-gen] +invert (ConversionRate r) = ConversionRate (0 / r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Compose two conversion rates
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:109:27-28:
[really-safe-money-gen] @@ -106,7 +106,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | One-to-one conversion rate
[really-safe-money-gen]  oneToOne :: ConversionRate
[really-safe-money-gen] -oneToOne = ConversionRate 1
[really-safe-money-gen] +oneToOne = ConversionRate -1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Invert a 'ConversionRate', to convert in the other direction.
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:72:25-26:
[really-safe-money-gen] @@ -69,7 +69,7 @@
[really-safe-money-gen]  -- >>> fromRational (0 % 1)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe ConversionRate
[really-safe-money-gen] -fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen] +fromRational r = if r < 1 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'ConversionRate' back into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:72:21-26:
[really-safe-money-gen] @@ -69,7 +69,7 @@
[really-safe-money-gen]  -- >>> fromRational (0 % 1)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe ConversionRate
[really-safe-money-gen] -fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen] +fromRational r = if True then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'ConversionRate' back into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:72:21-26:
[really-safe-money-gen] @@ -69,7 +69,7 @@
[really-safe-money-gen]  -- >>> fromRational (0 % 1)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe ConversionRate
[really-safe-money-gen] -fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen] +fromRational r = if False then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'ConversionRate' back into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation Negate at src/Money/ConversionRate.hs:72:21-26:
[really-safe-money-gen] @@ -69,7 +69,7 @@
[really-safe-money-gen]  -- >>> fromRational (0 % 1)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe ConversionRate
[really-safe-money-gen] -fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen] +fromRational r = if not (r < 0) then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'ConversionRate' back into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:38:56-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ numerator r /= 1
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Testing mutation CondFlip at src/Money/ConversionRate.hs:72:18-69:
[really-safe-money-gen] @@ -69,7 +69,7 @@
[really-safe-money-gen]  -- >>> fromRational (0 % 1)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe ConversionRate
[really-safe-money-gen] -fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen] +fromRational r = if r < 0 then Nothing else fromRatio (realToFrac r)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'ConversionRate' back into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:38:41-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:38:41-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Testing mutation Negate at src/Money/ConversionRate.hs:38:41-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ not (numerator r /= 0)
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Testing mutation ListLit at src/Money/ConversionRate.hs:37:7-8:
[really-safe-money-gen] @@ -34,7 +34,7 @@
[really-safe-money-gen]  instance Validity ConversionRate where
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate cr,
[really-safe-money-gen] +      [ genericValidate cr,
[really-safe-money-gen]          declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ListLit at src/Money/ConversionRate.hs:37:7-8:
[really-safe-money-gen] @@ -34,7 +34,7 @@
[really-safe-money-gen]  instance Validity ConversionRate where
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate cr,
[really-safe-money-gen] +      [ genericValidate cr,
[really-safe-money-gen]          declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:168:20-45:
[really-safe-money-gen] @@ -165,7 +165,7 @@
[really-safe-money-gen]                maxBoundN :: Natural
[really-safe-money-gen]                maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]                actualResult =
[really-safe-money-gen] -                if roundedResult > maxBoundN
[really-safe-money-gen] +                if True
[really-safe-money-gen]                    then Nothing
[really-safe-money-gen]                    else Just (fromIntegral roundedResult)
[really-safe-money-gen]                rounded = case compare (fromIntegral roundedResult) theoreticalResult of
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:168:20-45:
[really-safe-money-gen] @@ -165,7 +165,7 @@
[really-safe-money-gen]                maxBoundN :: Natural
[really-safe-money-gen]                maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]                actualResult =
[really-safe-money-gen] -                if roundedResult > maxBoundN
[really-safe-money-gen] +                if False
[really-safe-money-gen]                    then Nothing
[really-safe-money-gen]                    else Just (fromIntegral roundedResult)
[really-safe-money-gen]                rounded = case compare (fromIntegral roundedResult) theoreticalResult of
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:168:20-45:
[really-safe-money-gen] @@ -165,7 +165,7 @@
[really-safe-money-gen]                maxBoundN :: Natural
[really-safe-money-gen]                maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]                actualResult =
[really-safe-money-gen] -                if roundedResult > maxBoundN
[really-safe-money-gen] +                if not (roundedResult > maxBoundN)
[really-safe-money-gen]                    then Nothing
[really-safe-money-gen]                    else Just (fromIntegral roundedResult)
[really-safe-money-gen]                rounded = case compare (fromIntegral roundedResult) theoreticalResult of
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAmount.hs:168:17-57:
[really-safe-money-gen] @@ -165,7 +165,7 @@
[really-safe-money-gen]                maxBoundN :: Natural
[really-safe-money-gen]                maxBoundN = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]                actualResult =
[really-safe-money-gen] -                if roundedResult > maxBoundN
[really-safe-money-gen] +                if roundedResult > maxBoundN
[really-safe-money-gen]                    then Nothing
[really-safe-money-gen]                    else Just (fromIntegral roundedResult)
[really-safe-money-gen]                rounded = case compare (fromIntegral roundedResult) theoreticalResult of
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if not (r == Amount.zero)
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAmount.hs:119:9-37:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if r == Amount.zero
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:106:12-28:
[really-safe-money-gen] @@ -103,7 +103,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.add a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:106:12-28:
[really-safe-money-gen] @@ -103,7 +103,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.add a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:106:12-28:
[really-safe-money-gen] @@ -103,7 +103,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.add a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if not (r == Amount.zero)
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAmount.hs:106:9-37:
[really-safe-money-gen] @@ -103,7 +103,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.add a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if r == Amount.zero
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:73:6-27:
[really-safe-money-gen] @@ -70,7 +70,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAmount :: currency -> Amount -> MultiAmount currency
[really-safe-money-gen]  fromAmount currency amount =
[really-safe-money-gen] -  if amount == Amount.zero
[really-safe-money-gen] +  if True
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAmount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:73:6-27:
[really-safe-money-gen] @@ -70,7 +70,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAmount :: currency -> Amount -> MultiAmount currency
[really-safe-money-gen]  fromAmount currency amount =
[really-safe-money-gen] -  if amount == Amount.zero
[really-safe-money-gen] +  if False
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAmount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:73:6-27:
[really-safe-money-gen] @@ -70,7 +70,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAmount :: currency -> Amount -> MultiAmount currency
[really-safe-money-gen]  fromAmount currency amount =
[really-safe-money-gen] -  if amount == Amount.zero
[really-safe-money-gen] +  if not (amount == Amount.zero)
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAmount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAmount.hs:73:3-51:
[really-safe-money-gen] @@ -70,7 +70,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAmount :: currency -> Amount -> MultiAmount currency
[really-safe-money-gen]  fromAmount currency amount =
[really-safe-money-gen] -  if amount == Amount.zero
[really-safe-money-gen] +  if amount == Amount.zero
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAmount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:66:13-29:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen] -            a /= Amount.zero
[really-safe-money-gen] +            True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance (NFData currency) => NFData (MultiAmount currency)
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:66:13-29:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen] -            a /= Amount.zero
[really-safe-money-gen] +            not (a /= Amount.zero)
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance (NFData currency) => NFData (MultiAmount currency)
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:66:13-29:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen] -            a /= Amount.zero
[really-safe-money-gen] +            False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance (NFData currency) => NFData (MultiAmount currency)
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAmount.hs:63:7-8:
[really-safe-money-gen] @@ -60,7 +60,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAmount currency) where
[really-safe-money-gen]    validate ma@(MultiAmount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen]              a /= Amount.zero
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAmount.hs:63:7-8:
[really-safe-money-gen] @@ -60,7 +60,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAmount currency) where
[really-safe-money-gen]    validate ma@(MultiAmount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen]              a /= Amount.zero
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:134:12-29:
[really-safe-money-gen] @@ -131,7 +131,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.subtract a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] 
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > 0
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > -65
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:332:38-40:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]        | otherwise =
[really-safe-money-gen]            -- Shortcut for numbers that are way too big anyway
[really-safe-money-gen]            -- so that we don't have to compute the according 'Natural' values.
[really-safe-money-gen] -          if exponent resultDouble > 65
[really-safe-money-gen] +          if exponent resultDouble > 1
[really-safe-money-gen]              then Nothing
[really-safe-money-gen]              else
[really-safe-money-gen]                let ceiled :: Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:494:96-97:
[really-safe-money-gen] @@ -491,7 +491,7 @@
[really-safe-money-gen]    let maxBoundI :: Integer
[really-safe-money-gen]        maxBoundI = fromIntegral (maxBound :: Word64)
[really-safe-money-gen]        r :: Integer
[really-safe-money-gen] -      r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 0 l
[really-safe-money-gen] +      r = foldl' (\acc a -> (toInteger :: Word64 -> Integer) (toMinimalQuantisations a) + acc) 1 l
[really-safe-money-gen]     in if r > maxBoundI
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else Just (Amount ((fromInteger :: Integer -> Word64) r))
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AmountOfSpec.USD.sum.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:607:15-22:
[really-safe-money-gen] @@ -604,7 +604,7 @@
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] -              a1 > a2
[really-safe-money-gen] +              True
[really-safe-money-gen]            _ -> valid
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.distribute.GenValid (Distribution Amount).genValid   \:\: Gen (Distribution Amount).only generates valid '(Distribution Amount)'s
[really-safe-money-gen]   Money\.AmountSpec.distribute.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:109:27-28:
[really-safe-money-gen] @@ -106,7 +106,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | One-to-one conversion rate
[really-safe-money-gen]  oneToOne :: ConversionRate
[really-safe-money-gen] -oneToOne = ConversionRate 1
[really-safe-money-gen] +oneToOne = ConversionRate 0
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Invert a 'ConversionRate', to convert in the other direction.
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.convertAll.produces valid results when converting two currencies to one
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount.hs:603:7-8:
[really-safe-money-gen] @@ -600,7 +600,7 @@
[really-safe-money-gen]  instance (Validity amount, Ord amount) => Validity (Distribution amount) where
[really-safe-money-gen]    validate ad =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ad,
[really-safe-money-gen] +      [ genericValidate ad,
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.distribute.GenValid (Distribution Amount).genValid   \:\: Gen (Distribution Amount).only generates valid '(Distribution Amount)'s
[really-safe-money-gen]   Money\.AmountSpec.distribute.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Amount.hs:661:30-31:
[really-safe-money-gen] @@ -658,7 +658,7 @@
[really-safe-money-gen]    -- | The amount and the real rate that was used, considering the 'Rounding'
[really-safe-money-gen]    (Maybe Amount, Ratio Natural)
[really-safe-money-gen]  fraction _ (Amount 0) f = (Just zero, f)
[really-safe-money-gen] -fraction _ _ 0 = (Just zero, 0)
[really-safe-money-gen] +fraction _ _ 0 = (Just zero, 1)
[really-safe-money-gen]  fraction r (Amount a) f =
[really-safe-money-gen]    let amountAsRatio :: Ratio Natural
[really-safe-money-gen]        amountAsRatio = (fromIntegral :: Word64 -> Ratio Natural) a
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fractionRatio.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount.hs:607:15-22:
[really-safe-money-gen] @@ -604,7 +604,7 @@
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] -              a1 > a2
[really-safe-money-gen] +              False
[really-safe-money-gen]            _ -> valid
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.distribute.GenValid (Distribution Amount).genValid   \:\: Gen (Distribution Amount).only generates valid '(Distribution Amount)'s
[really-safe-money-gen]   Money\.AmountSpec.distribute.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount.hs:603:7-8:
[really-safe-money-gen] @@ -600,7 +600,7 @@
[really-safe-money-gen]  instance (Validity amount, Ord amount) => Validity (Distribution amount) where
[really-safe-money-gen]    validate ad =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ad,
[really-safe-money-gen] +      [ genericValidate ad,
[really-safe-money-gen]          case ad of
[really-safe-money-gen]            DistributedIntoUnequalChunks _ a1 _ a2 ->
[really-safe-money-gen]              declare "The larger chunks are larger" $
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.distribute.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.distribute.GenValid (Distribution Amount).genValid   \:\: Gen (Distribution Amount).only generates valid '(Distribution Amount)'s
[really-safe-money-gen]   Money\.AmountSpec.distribute.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Covering teTesting mutation ConstBool at src/Money/MultiAccount.hs:134:12-29:
[really-safe-money-gen] @@ -131,7 +131,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.subtract a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAccount.hs:134:12-29:
[really-safe-money-gen] @@ -131,7 +131,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.subtract a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if not (r == Account.zero)
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAccount.hs:134:9-37:
[really-safe-money-gen] @@ -131,7 +131,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.subtract a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if r == Account.zero
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:120:12-29:
[really-safe-money-gen] @@ -117,7 +117,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.add a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:120:12-29:
[really-safe-money-gen] @@ -117,7 +117,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.add a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAccount.hs:120:12-29:
[really-safe-money-gen] @@ -117,7 +117,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.add a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if not (r == Account.zero)
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAccount.hs:120:9-37:
[really-safe-money-gen] @@ -117,7 +117,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Account.add a account
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Account.zero
[really-safe-money-gen] +        if r == Account.zero
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:78:6-28:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if True
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:78:6-28:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if False
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAccount.hs:78:3-52:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if amount == Account.zero
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAccount.hs:78:6-28:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if not (amount == Account.zero)
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:69:13-30:
[really-safe-money-gen] @@ -66,7 +66,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen] -            a /= Account.zero
[really-safe-money-gen] +            True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  -- TODO no empty currencies
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:69:13-30:
[really-safe-money-gen] @@ -66,7 +66,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen] -            a /= Account.zero
[really-safe-money-gen] +            False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  -- TODO no empty currencies
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAccount.hs:69:13-30:
[really-safe-money-gen] @@ -66,7 +66,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen] -            a /= Account.zero
[really-safe-money-gen] +            not (a /= Account.zero)
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  -- TODO no empty currencies
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAccount.hs:66:7-8:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAccount currency) where
[really-safe-money-gen]    validate ma@(MultiAccount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen]              a /= Account.zero
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAccount.hs:66:7-8:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAccount currency) where
[really-safe-money-gen]    validate ma@(MultiAccount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen]              a /= Account.zero
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:87:27-28:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if numerator r == 1
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:87:12-28:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if False
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:87:12-28:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if True
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/QuantisationFactor.hs:87:12-28:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if not (numerator r == 0)
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:92:13-14:
[really-safe-money-gen] @@ -89,7 +89,7 @@
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen] -    let r = 1 / irat
[really-safe-money-gen] +    let r = 0 / irat
[really-safe-money-gen]       in if r < 0
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen] Testing mutation CondFlip at src/Money/QuantisationFactor.hs:87:9-22:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if numerator r == 0
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:92:13-14:
[really-safe-money-gen] @@ -89,7 +89,7 @@
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen] -    let r = 1 / irat
[really-safe-money-gen] +    let r = -1 / irat
[really-safe-money-gen]       in if r < 0
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:93:16-17:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if r < 1
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:93:12-17:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if True
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:93:12-17:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if False
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/QuantisationFactor.hs:93:12-17:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if not (r < 0)
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/QuantisationFactor.hs:93:9-22:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if r < 0
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:98:27-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if denominator rat == 0
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:98:27-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if denominator rat == -1
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:98:8-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if True
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:98:8-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if False
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/QuantisationFactor.hs:98:8-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if not (denominator rat == 1)
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/QuantisationFactor.hs:98:5-19:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if denominator rat == 1
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:102:6-46:
[really-safe-money-gen] @@ -99,6 +99,6 @@
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] -  if fac <= fromIntegral (maxBound :: Word32)
[really-safe-money-gen] +  if True
[really-safe-money-gen]      then Just (QuantisationFactor (fromIntegral fac))
[really-safe-money-gen]      else Nothing
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:102:6-46:
[really-safe-money-gen] @@ -99,6 +99,6 @@
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] -  if fac <= fromIntegral (maxBound :: Word32)
[really-safe-money-gen] +  if False
[really-safe-money-gen]      then Just (QuantisationFactor (fromIntegral fac))
[really-safe-money-gen]      else Nothing
[really-safe-money-gen] Testing mutation Negate at src/Money/QuantisationFactor.hs:102:6-46:
[really-safe-money-gen] @@ -99,6 +99,6 @@
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] -  if fac <= fromIntegral (maxBound :: Word32)
[really-safe-money-gen] +  if not (fac <= fromIntegral (maxBound :: Word32))
[really-safe-money-gen]      then Just (QuantisationFactor (fromIntegral fac))
[really-safe-money-gen]      else Nothing
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:67:67-68:
[really-safe-money-gen] @@ -64,7 +64,7 @@
[really-safe-money-gen]  -- Just (DecimalLiteral Nothing 1 0)
[really-safe-money-gen]  toDecimalLiteral :: QuantisationFactor -> Maybe DecimalLiteral
[really-safe-money-gen]  toDecimalLiteral (QuantisationFactor qfw) =
[really-safe-money-gen] -  DecimalLiteral.setSignOptional <$> DecimalLiteral.fromRational (1 % fromIntegral qfw)
[really-safe-money-gen] +  DecimalLiteral.setSignOptional <$> DecimalLiteral.fromRational (0 % fromIntegral qfw)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Parse a 'QuantisationFactor' from a 'DecimalLiteral' that represents the smallest unit
[really-safe-money-gen]  -- TODO explain that it's the inverse.
[really-safe-money-gen] TeTsetsitnign gm umtuattaitoino nI nItnLtiLti ta ta ts rscr/cM/oMnoenye/yQ/uQaunatnitsiastaitoinoFnaFcatcotro.rh.sh:s6:74:06:76-26-86:3
[really-safe-money-gen] :@
[really-safe-money-gen] @@ @- 6-43,77, 7+ 6+43,77, 7@ @@
[really-safe-money-gen] @ 
[really-safe-money-gen] - -   Jvuaslti d(aDteec iqmfa@l(LQiutaenrtails aNtoitohniFnagc t1o r0 )w
[really-safe-money-gen] )  t=o
[really-safe-money-gen] D e c i m amlcLointcearta
[really-safe-money-gen] l   : :   Q u a[n tgiesnaetriiocnVFaalcitdoart e- >q fM,a
[really-safe-money-gen] y-b e   D e c i m adleLciltaerrea l"
[really-safe-money-gen] T hteo DqeucainmtailsLaittieorna lf a(cQtuoarn tiiss antoito nzFearcot"o r$  qwf w/)=  =0
[really-safe-money-gen] 
[really-safe-money-gen] -+    D e c i m a ldLeictlearrael ."sTehteS iqgunaOnpttiisoantailo n< $f>a cDteocri miasl Lniotte rzaelr.of"r o$m Rwa t/i=o n1a
[really-safe-money-gen] l   ( 1   %   f]r
[really-safe-money-gen] o m
[really-safe-money-gen] I nitnesgtraanlc eq fNwF)D
[really-safe-money-gen] a+t a  DQeucainmtailsLaittieornaFla.csteotrS
[really-safe-money-gen] ignOptional <$> DecimalLiteral.fromRational (-1 % fromIntegral qfw)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Parse a 'QuantisationFactor' from a 'DecimalLiteral' that represents the smallest unit
[really-safe-money-gen]  -- TODO explain that it's the inverse.
[really-safe-money-gen] sts:
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/ConversionRate.hs:109:27-28:
[really-safe-money-gen] @@ -106,7 +106,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | One-to-one conversion rate
[really-safe-money-gen]  oneToOne :: ConversionRate
[really-safe-money-gen] -oneToOne = ConversionRate 1
[really-safe-money-gen] +oneToOne = ConversionRate -1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Invert a 'ConversionRate', to convert in the other direction.
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.convertAll.produces valid results when converting two currencies to one
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation Negate at src/Money/MultiAmount.hs:119:12-28:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if not (r == Amount.zero)
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation CondFlip at src/Money/MultiAmount.hs:119:9-37:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]      Just a -> do
[really-safe-money-gen]        r <- Amount.subtract a amount
[really-safe-money-gen]        Just $
[really-safe-money-gen] -        if r == Amount.zero
[really-safe-money-gen] +        if r == Amount.zero
[really-safe-money-gen]            then M.delete currency m
[really-safe-money-gen]            else M.insert currency r m
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAmount.hs:63:7-8:
[really-safe-money-gen] @@ -60,7 +60,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAmount currency) where
[really-safe-money-gen]    validate ma@(MultiAmount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen]              a /= Amount.zero
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.zero.is valid
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:66:13-29:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen] -            a /= Amount.zero
[really-safe-money-gen] +            False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance (NFData currency) => NFData (MultiAmount currency)
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAmount.hs:63:7-8:
[really-safe-money-gen] @@ -60,7 +60,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAmount currency) where
[really-safe-money-gen]    validate ma@(MultiAmount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen]              a /= Amount.zero
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.zero.is valid
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:78:6-28:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if True
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:78:6-28:
[really-safe-money-gen] @@ -75,7 +75,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  fromAccount :: currency -> Account -> MultiAccount currency
[really-safe-money-gen]  fromAccount currency amount =
[really-safe-money-gen] -  if amount == Account.zero
[really-safe-money-gen] +  if False
[really-safe-money-gen]      then zero
[really-safe-money-gen]      else MultiAccount $ M.singleton currency amount
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAmount.hs:66:13-29:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The amount is not zero" $
[really-safe-money-gen] -            a /= Amount.zero
[really-safe-money-gen] +            True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance (NFData currency) => NFData (MultiAmount currency)
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:87:27-28:
[really-safe-money-gen] @@ -84,7 +84,7 @@
[really-safe-money-gen]  fromDecimalLiteral dl = do
[really-safe-money-gen]    irat <-
[really-safe-money-gen]      let r = DecimalLiteral.toRational dl
[really-safe-money-gen] -     in if numerator r == 0
[really-safe-money-gen] +     in if numerator r == 1
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else pure r
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a non-1 integer
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAccount.hs:66:7-8:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAccount currency) where
[really-safe-money-gen]    validate ma@(MultiAccount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen]              a /= Account.zero
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.zero.is valid
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/MultiAccount.hs:66:7-8:
[really-safe-money-gen] @@ -63,7 +63,7 @@
[really-safe-money-gen]  instance (Validity currency, Show currency, Ord currency) => Validity (MultiAccount currency) where
[really-safe-money-gen]    validate ma@(MultiAccount m) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate ma,
[really-safe-money-gen] +      [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen]              a /= Account.zero
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.zero.is valid
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/MoneTesting mutation ConstBool at src/Money/QuantisationFactor.hs:40:57-63:
[really-safe-money-gen] @@ -37,7 +37,7 @@
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate qf,
[really-safe-money-gen] -        declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen] +        declare "The quantisation factor is not zero" $ False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData QuantisationFactor
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:40:57-63:
[really-safe-money-gen] @@ -37,7 +37,7 @@
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate qf,
[really-safe-money-gen] -        declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen] +        declare "The quantisation factor is not zero" $ True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData QuantisationFactor
[really-safe-money-gen] Testing mutation Negate at src/Money/QuantisationFactor.hs:40:57-63:
[really-safe-money-gen] @@ -37,7 +37,7 @@
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate qf,
[really-safe-money-gen] -        declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen] +        declare "The quantisation factor is not zero" $ not (w /= 0)
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData QuantisationFactor
[really-safe-money-gen] Testing mutation ListLit at src/Money/QuantisationFactor.hs:39:7-8:
[really-safe-money-gen] @@ -36,7 +36,7 @@
[really-safe-money-gen]  instance Validity QuantisationFactor where
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate qf,
[really-safe-money-gen] +      [ genericValidate qf,
[really-safe-money-gen]          declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ListLit at src/Money/QuantisationFactor.hs:39:7-8:
[really-safe-money-gen] @@ -36,7 +36,7 @@
[really-safe-money-gen]  instance Validity QuantisationFactor where
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate qf,
[really-safe-money-gen] +      [ genericValidate qf,
[really-safe-money-gen]          declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:421:32-33:
[really-safe-money-gen] @@ -418,7 +418,7 @@
[really-safe-money-gen]  multiply :: Int32 -> Account -> Maybe Account
[really-safe-money-gen]  multiply factor account =
[really-safe-money-gen]    let af = (fromIntegral :: Int32 -> Word32) ((Prelude.abs :: Int32 -> Int32) factor)
[really-safe-money-gen] -      f = case (compare factor 0, compare account zero) of
[really-safe-money-gen] +      f = case (compare factor 1, compare account zero) of
[really-safe-money-gen]          (EQ, _) -> const zero
[really-safe-money-gen]          (_, EQ) -> const zero
[really-safe-money-gen]          (GT, GT) -> Positive
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:451:14-23:
[really-safe-money-gen] @@ -448,7 +448,7 @@
[really-safe-money-gen]          DistributedIntoZeroChunks -> DistributedIntoZeroChunks
[really-safe-money-gen]          DistributedZero -> DistributedZero
[really-safe-money-gen]          DistributedIntoEqualChunks numberOfChunks chunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if True
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:451:14-23:
[really-safe-money-gen] @@ -448,7 +448,7 @@
[really-safe-money-gen]          DistributedIntoZeroChunks -> DistributedIntoZeroChunks
[really-safe-money-gen]          DistributedZero -> DistributedZero
[really-safe-money-gen]          DistributedIntoEqualChunks numberOfChunks chunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if False
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:451:14-23:
[really-safe-money-gen] @@ -448,7 +448,7 @@
[really-safe-money-gen]          DistributedIntoZeroChunks -> DistributedIntoZeroChunks
[really-safe-money-gen]          DistributedZero -> DistributedZero
[really-safe-money-gen]          DistributedIntoEqualChunks numberOfChunks chunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if not (a >= zero)
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:451:11-76:
[really-safe-money-gen] @@ -448,7 +448,7 @@
[really-safe-money-gen]          DistributedIntoZeroChunks -> DistributedIntoZeroChunks
[really-safe-money-gen]          DiTsetsrtiibnugt emduZteartoi o-n>  CDoinssttrBioboult eadtZ esrroc
[really-safe-money-gen] / M o n e y / A c cDoiusnttr.ihbsu:t4e5d5I:n1t4o-E2q3u:a
[really-safe-money-gen] l@C@h u-n4k5s2 ,n7u m+b4e5r2O,f7C h@u@n
[really-safe-money-gen] k s   c h u n k   - > 
[really-safe-money-gen]  -  t h e n   D i s t riifb uat e>d=I nzteorEoq
[really-safe-money-gen] u+a l C h u n k s   n uimfb ear O>f=C hzuenrkos
[really-safe-money-gen]   ( P o s i t i v e   c h utnhke)n
[really-safe-money-gen]   D i s t r i b u t e d I netlosEeq uDailsCthruinbkust enduImnbteorEOqfuCahluCnhkusn k(sP onsuimtbievreO fcChhuunnkk)s
[really-safe-money-gen]   ( N e g a t i v e   c h uenlks)e
[really-safe-money-gen]   D i s t r i b u tDeidsItnrtiobEuqtueadlICnhtuonUknse qnuuamlbCehruOnfkCsh unnukmsb e(rNOefgLaatrigveer Cchhuunnkks) 
[really-safe-money-gen] l a r g e r C h u nDki snturmibbeurtOefdSImnatlolUenreCqhuuanlkCsh usnmkasl lneurmCbheurnOkf L-a>r
[really-safe-money-gen] g-e r C h u n k s   l airfg ear C>h=u nzke rnou
[really-safe-money-gen] m+b e r O f S m a l l eirfC hTurnukes
[really-safe-money-gen]   s m a l l e r C h u n k  t-h>e
[really-safe-money-gen] n DistributedIntoUnequalChunks numberOfLargerChunks (Positive largerChunk) numberOfSmallerChunks (Positive smallerChunk)
[really-safe-money-gen]              else DistributedIntoUnequalChunks numberOfSmallerChunks (Negative smallerChunk) numberOfLargerChunks (Negative largerChunk)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:455:14-23:
[really-safe-money-gen] @@ -452,7 +452,7 @@
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if not (a >= zero)
[really-safe-money-gen]              then DistributedIntoUnequalChunks numberOfLargerChunks (Positive largerChunk) numberOfSmallerChunks (Positive smallerChunk)
[really-safe-money-gen]              else DistributedIntoUnequalChunks numberOfSmallerChunks (Negative smallerChunk) numberOfLargerChunks (Negative largerChunk)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:455:14-23:
[really-safe-money-gen] @@ -452,7 +452,7 @@
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if False
[really-safe-money-gen]              then DistributedIntoUnequalChunks numberOfLargerChunks (Positive largerChunk) numberOfSmallerChunks (Positive smallerChunk)
[really-safe-money-gen]              else DistributedIntoUnequalChunks numberOfSmallerChunks (Negative smallerChunk) numberOfLargerChunks (Negative largerChunk)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:455:11-136:
[really-safe-money-gen] @@ -452,7 +452,7 @@
[really-safe-money-gen]              then DistributedIntoEqualChunks numberOfChunks (Positive chunk)
[really-safe-money-gen]              else DistributedIntoEqualChunks numberOfChunks (Negative chunk)
[really-safe-money-gen]          DistributedIntoUnequalChunks numberOfLargerChunks largerChunk numberOfSmallerChunks smallerChunk ->
[really-safe-money-gen] -          if a >= zero
[really-safe-money-gen] +          if a >= zero
[really-safe-money-gen]              then DistributedIntoUnequalChunks numberOfLargerChunks (Positive largerChunk) numberOfSmallerChunks (Positive smallerChunk)
[really-safe-money-gen]              else DistributedIntoUnequalChunks numberOfSmallerChunks (Negative smallerChunk) numberOfLargerChunks (Negative largerChunk)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:495:17-18:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if f >= 1
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:495:12-18:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:495:12-18:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:495:12-18:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if not (f >= 0)
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:495:9-41:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if f >= 0
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:503:15-16:
[really-safe-money-gen] @@ -500,7 +500,7 @@
[really-safe-money-gen]              RoundNearest -> RoundNearest
[really-safe-money-gen]        (ma, ar) = fractionRatio ro account af
[really-safe-money-gen]        r = (realToFrac :: Ratio Natural -> Rational) ar
[really-safe-money-gen] -   in if f >= 0
[really-safe-money-gen] +   in if f >= 1
[really-safe-money-gen]          then (ma, r)
[really-safe-money-gen]          else (negate <$> ma, -r)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:503:10-16:
[really-safe-money-gen] @@ -500,7 +500,7 @@
[really-safe-money-gen]              RoundNearest -> RoundNearest
[really-safe-money-gen]        (ma, ar) = fractionRatio ro account af
[really-safe-money-gen]        r = (realToFrac :: Ratio Natural -> Rational) ar
[really-safe-money-gen] -   in if f >= 0
[really-safe-money-gen] +   in if True
[really-safe-money-gen]          then (ma, r)
[really-safe-money-gen]          else (negate <$> ma, -r)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:503:10-16:
[really-safe-money-gen] @@ -500,7 +500,7 @@
[really-safe-money-gen]              RoundNearest -> RoundNearest
[really-safe-money-gen]        (ma, ar) = fractionRatio ro account af
[really-safe-money-gen]        r = (realToFrac :: Ratio Natural -> Rational) ar
[really-safe-money-gen] -   in if f >= 0
[really-safe-money-gen] +   in if False
[really-safe-money-gen]          then (ma, r)
[really-safe-money-gen]          else (negate <$> ma, -r)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:503:7-33:
[really-safe-money-gen] @@ -500,7 +500,7 @@
[really-safe-money-gen]              RoundNearest -> RoundNearest
[really-safe-money-gen]        (ma, ar) = fractionRatio ro account af
[really-safe-money-gen]        r = (realToFrac :: Ratio Natural -> Rational) ar
[really-safe-money-gen] -   in if f >= 0
[really-safe-money-gen] +   in if f >= 0
[really-safe-money-gen]          then (ma, r)
[really-safe-money-gen]          else (negate <$> ma, -r)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:503:10-16:
[really-safe-money-gen] @@ -500,7 +500,7 @@
[really-safe-money-gen]              RoundNearest -> RoundNearest
[really-safe-money-gen]        (ma, ar) = fractionRatio ro account af
[really-safe-money-gen]        r = (realToFrac :: Ratio Natural -> Rational) ar
[really-safe-money-gen] -   in if f >= 0
[really-safe-money-gen] +   in if not (f >= 0)
[really-safe-money-gen]          then (ma, r)
[really-safe-money-gen]          else (negate <$> ma, -r)
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:233:14-20:
[really-safe-money-gen] @@ -230,7 +230,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Account
[really-safe-money-gen]  fromRational quantisationFactor r =
[really-safe-money-gen]    let r' = Prelude.abs r
[really-safe-money-gen] -      f = if r >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if True then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromRational quantisationFactor r'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'Rational' into an amount of money.
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:233:19-20:
[really-safe-money-gen] @@ -230,7 +230,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Account
[really-safe-money-gen]  fromRational quantisationFactor r =
[really-safe-money-gen]    let r' = Prelude.abs r
[really-safe-money-gen] -      f = if r >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if r >= 1 then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromRational quantisationFactor r'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'Rational' into an amount of money.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:233:14-20:
[really-safe-money-gen] @@ -230,7 +230,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Account
[really-safe-money-gen]  fromRational quantisationFactor r =
[really-safe-money-gen]    let r' = Prelude.abs r
[really-safe-money-gen] -      f = if r >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if False then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromRational quantisationFactor r'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'Rational' into an amount of money.
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:233:14-20:
[really-safe-money-gen] @@ -230,7 +230,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Account
[really-safe-money-gen]  fromRational quantisationFactor r =
[really-safe-money-gen]    let r' = Prelude.abs r
[really-safe-money-gen] -      f = if r >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if not (r >= 0) then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromRational quantisationFactor r'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'Rational' into an amount of money.
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:233:11-48:
[really-safe-money-gen] @@ -230,7 +230,7 @@
[really-safe-money-gen]  fromRational :: QuantisationFactor -> Rational -> Maybe Account
[really-safe-money-gen]  fromRational quantisationFactor r =
[really-safe-money-gen]    let r' = Prelude.abs r
[really-safe-money-gen] -      f = if r >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if r >= 0 then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromRational quantisationFactor r'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'Rational' into an amount of money.
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:197:19-20:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if d >= 1 then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:197:14-20:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if True then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:197:14-20:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if False then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:197:14-20:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if not (d >= 0) then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:123:10-23:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]        maxBoundI = (toInteger :: Word64 -> Integer) (maxBound :: Word64)
[really-safe-money-gen]        a :: Integer
[really-safe-money-gen]        a = (Prelude.abs :: Integer -> Integer) i
[really-safe-money-gen] -   in if a > maxBoundI
[really-safe-money-gen] +   in if True
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else
[really-safe-money-gen]            let w :: Word64
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:197:11-48:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if d >= 0 then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:123:10-23:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]        maxBoundI = (toInteger :: Word64 -> Integer) (maxBound :: Word64)
[really-safe-money-gen]        a :: Integer
[really-safe-money-gen]        a = (Prelude.abs :: Integer -> Integer) i
[really-safe-money-gen] -   in if a > maxBoundI
[really-safe-money-gen] +   in if False
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else
[really-safe-money-gen]            let w :: Word64
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:123:10-23:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]        maxBoundI = (toInteger :: Word64 -> Integer) (maxBound :: Word64)
[really-safe-money-gen]        a :: Integer
[really-safe-money-gen]        a = (Prelude.abs :: Integer -> Integer) i
[really-safe-money-gen] -   in if a > maxBoundI
[really-safe-money-gen] +   in if not (a > maxBoundI)
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else
[really-safe-money-gen]            let w :: Word64
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:131:25-26:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if i >= 1
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:131:20-26:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if False
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Money/Account.hs:131:20-26:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if not (i >= 0)
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:131:17-39:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if i >= 0
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Account.hs:123:7-39:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]        maxBoundI = (toInteger :: Word64 -> Integer) (maxBound :: Word64)
[really-safe-money-gen]        a :: Integer
[really-safe-money-gen]        a = (Prelude.abs :: Integer -> Integer) i
[really-safe-money-gen] -   in if a > maxBoundI
[really-safe-money-gen] +   in if a > maxBoundI
[really-safe-money-gen]          then Nothing
[really-safe-money-gen]          else
[really-safe-money-gen]            let w :: Word64
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just True
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just False
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just not (True)
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:368:10-39:
[really-safe-money-gen] @@ -365,7 +365,7 @@
[really-safe-money-gen]  setMinimumDigits wantedDigits dl =
[really-safe-money-gen]    let currentDigits :: Word8
[really-safe-money-gen]        currentDigits = digits dl
[really-safe-money-gen] -   in if wantedDigits <= currentDigits
[really-safe-money-gen] +   in if True
[really-safe-money-gen]          then dl
[really-safe-money-gen]          else increaseDigits (wantedDigits - currentDigits) dl
[really-safe-money-gen]    where
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:368:10-39:
[really-safe-money-gen] @@ -365,7 +365,7 @@
[really-safe-money-gen]  setMinimumDigits wantedDigits dl =
[really-safe-money-gen]    let currentDigits :: Word8
[really-safe-money-gen]        currentDigits = digits dl
[really-safe-money-gen] -   in if wantedDigits <= currentDigits
[really-safe-money-gen] +   in if False
[really-safe-money-gen]          then dl
[really-safe-money-gen]          else increaseDigits (wantedDigits - currentDigits) dl
[really-safe-money-gen]    where
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:368:10-39:
[really-safe-money-gen] @@ -365,7 +365,7 @@
[really-safe-money-gen]  setMinimumDigits wantedDigits dl =
[really-safe-money-gen]    let currentDigits :: Word8
[really-safe-money-gen]        currentDigits = digits dl
[really-safe-money-gen] -   in if wantedDigits <= currentDigits
[really-safe-money-gen] +   in if not (wantedDigits <= currentDigits)
[really-safe-money-gen]          then dl
[really-safe-money-gen]          else increaseDigits (wantedDigits - currentDigits) dl
[really-safe-money-gen]    where
[really-safe-money-gen] Testing mutation CondFlip at src/Numeric/DecimalLiteral.hs:368:7-62:
[really-safe-money-gen] @@ -365,7 +365,7 @@
[really-safe-money-gen]  setMinimumDigits wantedDigits dl =
[really-safe-money-gen]    let currentDigits :: Word8
[really-safe-money-gen]        currentDigits = digits dl
[really-safe-money-gen] -   in if wantedDigits <= currentDigits
[really-safe-money-gen] +   in if wantedDigits <= currentDigits
[really-safe-money-gen]          then dl
[really-safe-money-gen]          else increaseDigits (wantedDigits - currentDigits) dl
[really-safe-money-gen]    where
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:375:80-82:
[really-safe-money-gen] @@ -372,7 +372,7 @@
[really-safe-money-gen]      increaseDigits :: Word8 -> DecimalLiteral -> DecimalLiteral
[really-safe-money-gen]      increaseDigits 0 = id
[really-safe-money-gen]      increaseDigits w = \case
[really-safe-money-gen] -      DecimalLiteral mS m e -> increaseDigits (pred w) (DecimalLiteral mS (m * 10) (succ e))
[really-safe-money-gen] +      DecimalLiteral mS m e -> increaseDigits (pred w) (DecimalLiteral mS (m * 0) (succ e))
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Ensures that a positive literal has no sign
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Account.hs:131:20-26:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if True
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:375:80-82:
[really-safe-money-gen] @@ -372,7 +372,7 @@
[really-safe-money-gen]      increaseDigits :: Word8 -> DecimalLiteral -> DecimalLiteral
[really-safe-money-gen]      increaseDigits 0 = id
[really-safe-money-gen]      increaseDigits w = \case
[really-safe-money-gen] -      DecimalLiteral mS m e -> increaseDigits (pred w) (DecimalLiteral mS (m * 10) (succ e))
[really-safe-money-gen] +      DecimalLiteral mS m e -> increaseDigits (pred w) (DecimalLiteral mS (m * 1) (succ e))
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Ensures that a positive literal has no sign
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:337:21-22:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if a >= 1 then Nothing else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:337:16-22:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if not (a >= 0) then Nothing else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:337:16-22:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if False then Nothing else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:337:46-51:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen] T e s tpiunrge  m$u tfartoimoInn tCeognrdaFll inp
[really-safe-money-gen]   a
[really-safe-money-gen] t  nsurmcS/iNgunm e:r:i c(/ODredc iam,a lNLuimt ear)a l=.>h sa: 3-3>7 :M1a3y-b5e1 :B
[really-safe-money-gen] o@o@l 
[really-safe-money-gen] --3n3u4m,S7i g+n3 3a4 ,=7  i@f@ 
[really-safe-money-gen] a   > =p u0r et h$e nf rNoomtIhnitnegg realls en 
[really-safe-money-gen] J u
[really-safe-money-gen] s tn uFmaSlisgen
[really-safe-money-gen]  +:n:u m(SOirgdn  aa,  =N uimf  aa)  >==>  0a  t-h>e nM aNyobteh iBnogo le
[really-safe-money-gen] l-sneu mJSuisgtn  Faa l=s ei
[really-safe-money-gen] f  
[really-safe-money-gen] a  s>i=g n0S itghneunm  N:o:t h(iNnugm  eal)s e= >J uMsaty bFea lBsoeo
[really-safe-money-gen] l+ n-u>m S(iag n- >a  a=) 
[really-safe-money-gen] i fs iag n>S=i g0n utmh e=n  \Ncoatshei
[really-safe-money-gen] ng else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:332:11-46:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]  toInt :: DecimalLiteral -> Maybe Int
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:337:46-51:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if a >= 0 then Nothing else Just not (False)
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:332:11-46:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]  toInt :: DecimalLiteral -> Maybe Int
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] +  guard $ False
[really-safe-money-gen]    guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:332:11-46:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]  toInt :: DecimalLiteral -> Maybe Int
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] +  guard $ not (n <= fromIntegral (maxBound :: Int))
[really-safe-money-gen]    guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:333:11-46:
[really-safe-money-gen] @@ -330,7 +330,7 @@
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen]    guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] -  guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:333:11-46:
[really-safe-money-gen] @@ -330,7 +330,7 @@
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen]    guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] -  guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen] +  guard $ False
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:315:67-68:
[really-safe-money-gen] @@ -312,7 +312,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from an 'Integer'
[really-safe-money-gen]  fromInteger :: Integer -> DecimalLiteral
[really-safe-money-gen] -fromInteger n = DecimalLiteral (numSign n) (fromIntegral (abs n)) 0
[really-safe-money-gen] +fromInteger n = DecimalLiteral (numSign n) (fromIntegral (abs n)) 1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into an 'Integer'
[really-safe-money-gen]  toInteger :: DecimalLiteral -> Maybe Integer
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:333:11-46:
[really-safe-money-gen] @@ -330,7 +330,7 @@
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen]    guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] -  guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen] +  guard $ not (n >= fromIntegral (minBound :: Int))
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:337:16-22:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if True then Nothing else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:337:46-51:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if a >= 0 then Nothing else Just True
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:304:42-43:
[really-safe-money-gen] @@ -301,7 +301,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen]  fromNatural :: Natural -> DecimalLiteral
[really-safe-money-gen] -fromNatural n = DecimalLiteral Nothing n 0
[really-safe-money-gen] +fromNatural n = DecimalLiteral Nothing n 1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Natural'
[really-safe-money-gen]  toNatural :: DecimalLiteral -> Maybe Natural
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:299:11-47:
[really-safe-money-gen] @@ -296,7 +296,7 @@
[really-safe-money-gen]  toWord :: DecimalLiteral -> Maybe Word
[really-safe-money-gen]  toWord dl = do
[really-safe-money-gen]    n <- toNatural dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Word)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:299:11-47:
[really-safe-money-gen] @@ -296,7 +296,7 @@
[really-safe-money-gen]  toWord :: DecimalLiteral -> Maybe Word
[really-safe-money-gen]  toWord dl = do
[really-safe-money-gen]    n <- toNatural dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBounTde s:t:i nWgo rmdu)t
[really-safe-money-gen] a+t i ognu aNredg a$t eF aalts es
[really-safe-money-gen] r c / Npuumreer i$c /fDreocmiImnatleLgirtaelr anl
[really-safe-money-gen] . h
[really-safe-money-gen] s :-2-9 9|: 1C1o-n4s7t:r
[really-safe-money-gen] u@c@t  -a2 9'6D,e7c i+m2a9l6L,i7t e@r@a
[really-safe-money-gen] l 't ofWroormd  a: :' NDaetcuirmaall'L
[really-safe-money-gen] iteral -> Maybe Word
[really-safe-money-gen]  toWord dl = do
[really-safe-money-gen]    n <- toNatural dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Word)
[really-safe-money-gen] +  guard $ not (n <= fromIntegral (maxBound :: Word))
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen] y/QuantisationFactor.hs:93:16-17:
[really-safe-money-gen] @@ -90,7 +90,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    rat <-
[really-safe-money-gen]      let r = 1 / irat
[really-safe-money-gen] -     in if r < 0
[really-safe-money-gen] +     in if r < 1
[really-safe-money-gen]            then Nothing
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a non-1 integer
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:69:13-30:
[really-safe-money-gen] @@ -66,7 +66,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen] -            a /= Account.zero
[really-safe-money-gen] +            True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  -- TODO no empty currencies
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/MultiAccount.hs:69:13-30:
[really-safe-money-gen] @@ -66,7 +66,7 @@
[really-safe-money-gen]        [ genericValidate ma,
[really-safe-money-gen]          decorateMap m $ \_ a ->
[really-safe-money-gen]            declare "The account is not zero" $
[really-safe-money-gen] -            a /= Account.zero
[really-safe-money-gen] +            False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  -- TODO no empty currencies
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:98:27-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if denominator rat == 0
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a non-1 integer
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/QuantisationFactor.hs:98:27-28:
[really-safe-money-gen] @@ -95,7 +95,7 @@
[really-safe-money-gen]            else Just r
[really-safe-money-gen]  
[really-safe-money-gen]    fac <-
[really-safe-money-gen] -    if denominator rat == 1
[really-safe-money-gen] +    if denominator rat == -1
[really-safe-money-gen]        then Just (numerator rat)
[really-safe-money-gen]        else Nothing
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.fails to render a non-1 integer
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:495:17-18:
[really-safe-money-gen] @@ -492,7 +492,7 @@
[really-safe-money-gen]  fraction rounding account f =
[really-safe-money-gen]    let af = (realToFrac :: Rational -> Ratio Natural) ((Prelude.abs :: Rational -> Rational) f)
[really-safe-money-gen]        ro =
[really-safe-money-gen] -        if f >= 0
[really-safe-money-gen] +        if f >= 1
[really-safe-money-gen]            then rounding
[really-safe-money-gen]            else case rounding of
[really-safe-money-gen]              RoundUp -> RoundDown
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fraction.Correctly fractions 101 with 1 % 100
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:197:19-20:
[really-safe-money-gen] @@ -194,7 +194,7 @@
[really-safe-money-gen]  fromDouble :: QuantisationFactor -> Double -> Maybe Account
[really-safe-money-gen]  fromDouble quantisationFactor d =
[really-safe-money-gen]    let d' = Prelude.abs d
[really-safe-money-gen] -      f = if d >= 0 then Positive else Negative
[really-safe-money-gen] +      f = if d >= 1 then Positive else Negative
[really-safe-money-gen]     in f <$> Amount.fromDouble quantisationFactor d'
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn an amount of money into a 'Rational'.
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.fromDouble.produces valid rational
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Money/Account.hs:131:25-26:
[really-safe-money-gen] @@ -128,7 +128,7 @@
[really-safe-money-gen]                amount :: Amount
[really-safe-money-gen]                amount = Amount.fromMinimalQuantisations w
[really-safe-money-gen]             in Just $
[really-safe-money-gen] -                if i >= 0
[really-safe-money-gen] +                if i >= 1
[really-safe-money-gen]                    then Positive amount
[really-safe-money-gen]                    else Negative amount
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountSpec.distribute.produces results that sum up to the greater whole
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just not (True)
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.setSignRequired.produces valid values
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just True
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.setSignRequired.produces valid values
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:332:11-46:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]  toInt :: DecimalLiteral -> Maybe Int
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] +  guard $ False
[really-safe-money-gen]    guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.toInt.renders to valid words
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:40:57-63:
[really-safe-money-gen] @@ -37,7 +37,7 @@
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate qf,
[really-safe-money-gen] -        declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen] +        declare "The quantisation factor is not zero" $ True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData QuantisationFactor
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.produces valid factors
[really-safe-money-gen]   Money\.QuantisationFactorSpec.GenValid QuantisationFactor.genValid   \:\: Gen QuantisationFactor.only generates valid 'QuantisationFactor's
[really-safe-money-gen]   Money\.QuantisationFactorSpec.fromWord32.produces valid quantisation factors
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:396:23-27:
[really-safe-money-gen] @@ -393,5 +393,5 @@
[really-safe-money-gen]    DecimalLiteral mS m e -> DecimalLiteral (go mS) m e
[really-safe-money-gen]    where
[really-safe-money-gen]      go = \case
[really-safe-money-gen] -      Nothing -> Just True
[really-safe-money-gen] +      Nothing -> Just False
[really-safe-money-gen]        s -> s
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.setSignRequired.produces valid values
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/QuantisationFactor.hs:39:7-8:
[really-safe-money-gen] @@ -36,7 +36,7 @@
[really-safe-money-gen]  instance Validity QuantisationFactor where
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate qf,
[really-safe-money-gen] +      [ genericValidate qf,
[really-safe-money-gen]          declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.suTesting mutation IntLit at src/Numeric/DecimalLiteral.hs:289:33-35:
[really-safe-money-gen] @@ -286,7 +286,7 @@
[really-safe-money-gen]  toRatio :: DecimalLiteral -> Maybe (Ratio Natural)
[really-safe-money-gen]  toRatio (DecimalLiteral mSign m e) = case mSign of
[really-safe-money-gen]    Just False -> Nothing
[really-safe-money-gen] -  _ -> Just $ fromIntegral m / (10 ^ e)
[really-safe-money-gen] +  _ -> Just $ fromIntegral m / (0 ^ e)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Word'
[really-safe-money-gen]  fromWord :: Word -> DecimalLiteral
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:289:33-35:
[really-safe-money-gen] @@ -286,7 +286,7 @@
[really-safe-money-gen]  toRatio :: DecimalLiteral -> Maybe (Ratio Natural)
[really-safe-money-gen]  toRatio (DecimalLiteral mSign m e) = case mSign of
[really-safe-money-gen]    Just False -> Nothing
[really-safe-money-gen] -  _ -> Just $ fromIntegral m / (10 ^ e)
[really-safe-money-gen] +  _ -> Just $ fromIntegral m / (-10 ^ e)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Word'
[really-safe-money-gen]  fromWord :: Word -> DecimalLiteral
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:289:33-35:
[really-safe-money-gen] @@ -286,7 +286,7 @@
[really-safe-money-gen]  toRatio :: DecimalLiteral -> Maybe (Ratio Natural)
[really-safe-money-gen]  toRatio (DecimalLiteral mSign m e) = case mSign of
[really-safe-money-gen]    Just False -> Nothing
[really-safe-money-gen] -  _ -> Just $ fromIntegral m / (10 ^ e)
[really-safe-money-gen] +  _ -> Just $ fromIntegral m / (1 ^ e)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Word'
[really-safe-money-gen]  fromWord :: Word -> DecimalLiteral
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:236:41-44:
[really-safe-money-gen] @@ -233,7 +233,7 @@
[really-safe-money-gen]  -- >>> fromRatio (1 % 3)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRatio :: Ratio Natural -> Maybe DecimalLiteral
[really-safe-money-gen] -fromRatio = fromRationalRepetendLimited 256
[really-safe-money-gen] +fromRatio = fromRationalRepetendLimited 0
[really-safe-money-gen]    where
[really-safe-money-gen]      fromRationalRepetendLimited ::
[really-safe-money-gen]        -- limit
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:236:41-44:
[really-safe-money-gen] @@ -233,7 +233,7 @@
[really-safe-money-gen]  -- >>> fromRatio (1 % 3)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRatio :: Ratio Natural -> Maybe DecimalLiteral
[really-safe-money-gen] -fromRatio = fromRationalRepetendLimited 256
[really-safe-money-gen] +fromRatio = fromRationalRepetendLimited 1
[really-safe-money-gen]    where
[really-safe-money-gen]      fromRationalRepetendLimited ::
[really-safe-money-gen]        -- limit
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:236:41-44:
[really-safe-money-gen] @@ -233,7 +233,7 @@
[really-safe-money-gen]  -- >>> fromRatio (1 % 3)
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRatio :: Ratio Natural -> Maybe DecimalLiteral
[really-safe-money-gen] -fromRatio = fromRationalRepetendLimited 256
[really-safe-money-gen] +fromRatio = fromRationalRepetendLimited -256
[really-safe-money-gen]    where
[really-safe-money-gen]      fromRationalRepetendLimited ::
[really-safe-money-gen]        -- limit
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:244:14-15:
[really-safe-money-gen] @@ -241,7 +241,7 @@
[really-safe-money-gen]        Ratio Natural ->
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen] -      | d == 0 = Nothing
[really-safe-money-gen] +      | d == 1 = Nothing
[really-safe-money-gen]        | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:244:9-15:
[really-safe-money-gen] @@ -241,7 +241,7 @@
[really-safe-money-gen]        Ratio Natural ->
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen] -      | d == 0 = Nothing
[really-safe-money-gen] +      | False = Nothing
[really-safe-money-gen]        | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:244:9-15:
[really-safe-money-gen] @@ -241,7 +241,7 @@
[really-safe-money-gen]        Ratio Natural ->
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen] -      | d == 0 = Nothing
[really-safe-money-gen] +      | True = Nothing
[really-safe-money-gen]        | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:245:9-18:
[really-safe-money-gen] @@ -242,7 +242,7 @@
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen]        | d == 0 = Nothing
[really-safe-money-gen] -      | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen] +      | True = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen]          d = denominator rational
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:245:9-18:
[really-safe-money-gen] @@ -242,7 +242,7 @@
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen]        | d == 0 = Nothing
[really-safe-money-gen] -      | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen] +      | False = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen]          d = denominator rational
[really-safe-money-gen] TestingT emsuttiantgi omnu tCaotnisotnB oNoelg aatte  sartc /sNrucm/eNruimce/rDiecc/iDmeacliLmiatleLriatle.rhasl:.2h6s4::21634-:2163:-
[really-safe-money-gen] 2@6@: 
[really-safe-money-gen] -@2@6 1-,276 1+,276 1+,276 1@,@7
[really-safe-money-gen]   @ @ 
[really-safe-money-gen]                 J u s tJ u(sct,  (ec),
[really-safe-money-gen]   e ) 
[really-safe-money-gen]             l o n glDoinvgWDiitvhWLiitmhiLti m!ict  !!ec  n!se  !nns
[really-safe-money-gen]   ! n 
[really-safe-money-gen]                 - -   I-f-  tIhfe rteh'esr ea' sr eap erteepnedt,e nwde,  cwaen 'cta nt'utr nt uirtn  iintt oi nat od eac idmeacli mlailt elriatle
[really-safe-money-gen] r-a l 
[really-safe-money-gen]  -              |   S .|m eSm.bmeerm bne rn sn  =n sN o=t hNiontgh
[really-safe-money-gen] i+n g 
[really-safe-money-gen]  +              |   T r|u en o=t  N(oSt.hmienmgb
[really-safe-money-gen] e r   n   n s )   =   N-o-t hOivnegr
[really-safe-money-gen]   t h e   l i m i t ,  -s-t oOpv etrr ytihneg 
[really-safe-money-gen] l i m i t ,   s t o p  |t rey i>n=g 
[really-safe-money-gen] l   =   N o t h i n g 
[really-safe-money-gen] |   e   > =   l   =   N|o tnh i<n gd
[really-safe-money-gen]   = 
[really-safe-money-gen]          | n < d =
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:264:13-26:
[really-safe-money-gen] @@ -261,7 +261,7 @@
[really-safe-money-gen]            Just (c, e)
[really-safe-money-gen]          longDivWithLimit !c !e ns !n
[really-safe-money-gen]            -- If there's a repetend, we can't turn it into a decimal literal
[really-safe-money-gen] -          | S.member n ns = Nothing
[really-safe-money-gen] +          | False = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:244:9-15:
[really-safe-money-gen] @@ -241,7 +241,7 @@
[really-safe-money-gen]        Ratio Natural ->
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen] -      | d == 0 = Nothing
[really-safe-money-gen] +      | not (d == 0) = Nothing
[really-safe-money-gen]        | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:245:9-18:
[really-safe-money-gen] @@ -242,7 +242,7 @@
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen]        | d == 0 = Nothing
[really-safe-money-gen] -      | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen] +      | not (otherwise) = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen]          d = denominator rational
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:266:13-19:
[really-safe-money-gen] @@ -263,7 +263,7 @@
[really-safe-money-gen]            -- If there's a repetend, we can't turn it into a decimal literal
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen] -          | e >= l = Nothing
[really-safe-money-gen] +          | False = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:266:13-19:
[really-safe-money-gen] @@ -263,7 +263,7 @@
[really-safe-money-gen]            -- If there's a repetend, we can't turn it into a decimal literal
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen] -          | e >= l = Nothing
[really-safe-money-gen] +          | True = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:266:13-19:
[really-safe-money-gen] @@ -263,7 +263,7 @@
[really-safe-money-gen]            -- If there's a repetend, we can't turn it into a decimal literal
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen] -          | e >= l = Nothing
[really-safe-money-gen] +          | not (e >= l) = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:267:13-18:
[really-safe-money-gen] @@ -264,7 +264,7 @@
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen] -          | n < d =
[really-safe-money-gen] +          | True =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:267:13-18:
[really-safe-money-gen] @@ -264,7 +264,7 @@
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen] -          | n < d =
[really-safe-money-gen] +          | False =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:269:41-43:
[really-safe-money-gen] @@ -266,7 +266,7 @@
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen] -               in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] +               in longDivWithLimit (c * 1) (succ e) ns' (n * 10)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:267:13-18:
[really-safe-money-gen] @@ -264,7 +264,7 @@
[really-safe-money-gen]            | S.member n ns = Nothing
[really-safe-money-gen]            -- Over the limit, stop trying
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen] -          | n < d =
[really-safe-money-gen] +          | not (n < d) =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:269:41-43:
[really-safe-money-gen] @@ -266,7 +266,7 @@
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen] -               in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] +               in longDivWithLimit (c * 0) (succ e) ns' (n * 10)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:269:63-65:
[really-safe-money-gen] @@ -266,7 +266,7 @@
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen] -               in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] +               in longDivWithLimit (c * 10) (succ e) ns' (n * 0)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:270:13-22:
[really-safe-money-gen] @@ -267,7 +267,7 @@
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] -          | otherwise =
[really-safe-money-gen] +          | True =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:269:63-65:
[really-safe-money-gen] @@ -266,7 +266,7 @@
[really-safe-money-gen]            | e >= l = Nothing
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen] -               in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] +               in longDivWithLimit (c * 10) (succ e) ns' (n * 1)
[really-safe-money-gen]            | otherwise =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:252:36-37:
[really-safe-money-gen] @@ -249,7 +249,7 @@
[really-safe-money-gen]          num = numerator rational
[really-safe-money-gen]  
[really-safe-money-gen]          longDiv :: Natural -> Maybe (Natural, Int)
[really-safe-money-gen] -        longDiv = longDivWithLimit 0 0 S.empty
[really-safe-money-gen] +        longDiv = longDivWithLimit 1 0 S.empty
[really-safe-money-gen]  
[really-safe-money-gen]          longDivWithLimit ::
[really-safe-money-gen]            Natural ->
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:270:13-22:
[really-safe-money-gen] @@ -267,7 +267,7 @@
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] -          | otherwise =
[really-safe-money-gen] +          | False =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:223:39-41:
[really-safe-money-gen] @@ -220,7 +220,7 @@
[really-safe-money-gen]  -- (-3) % 10
[really-safe-money-gen]  toRational :: DecimalLiteral -> Rational
[really-safe-money-gen]  toRational (DecimalLiteral mSign m e) =
[really-safe-money-gen] -  signSignum mSign (fromIntegral m / (10 ^ e))
[really-safe-money-gen] +  signSignum mSign (fromIntegral m / (0 ^ e))
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Parse a 'DecimalLiteral' from a 'Ratio Natural'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:252:38-39:
[really-safe-money-gen] @@ -249,7 +249,7 @@
[really-safe-money-gen]          num = numerator rational
[really-safe-money-gen]  
[really-safe-money-gen]          longDiv :: Natural -> Maybe (Natural, Int)
[really-safe-money-gen] -        longDiv = longDivWithLimit 0 0 S.empty
[really-safe-money-gen] +        longDiv = longDivWithLimit 0 1 S.empty
[really-safe-money-gen]  
[really-safe-money-gen]          longDivWithLimit ::
[really-safe-money-gen]            Natural ->
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:270:13-22:
[really-safe-money-gen] @@ -267,7 +267,7 @@
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] -          | otherwise =
[really-safe-money-gen] +          | not (otherwise) =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:223:39-41:
[really-safe-money-gen] @@ -220,7 +220,7 @@
[really-safe-money-gen]  -- (-3) % 10
[really-safe-money-gen]  toRational :: DecimalLiteral -> Rational
[really-safe-money-gen]  toRational (DecimalLiteral mSign m e) =
[really-safe-money-gen] -  signSignum mSign (fromIntegral m / (10 ^ e))
[really-safe-money-gen] +  signSignum mSign (fromIntegral m / (-10 ^ e))
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Parse a 'DecimalLiteral' from a 'Ratio Natural'
[really-safe-money-gen]  --
[really-safe-money-gen] btractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.produces valid factors
[really-safe-money-gen]   Money\.QuantisationFactorSpec.GenValid QuantisationFactor.genValid   \:\: Gen QuantisationFactor.only generates valid 'QuantisationFactor's
[really-safe-money-gen]   Money\.QuantisationFactorSpec.fromWord32.produces valid quantisation factors
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/QuantisationFactor.hs:40:57-63:
[really-safe-money-gen] @@ -37,7 +37,7 @@
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate qf,
[really-safe-money-gen] -        declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen] +        declare "The quantisation factor is not zero" $ False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData QuantisationFactor
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.produces valid factors
[really-safe-money-gen]   Money\.QuantisationFactorSpec.GenValid QuantisationFactor.genValid   \:\: Gen QuantisationFactor.only generates valid 'QuantisationFactor's
[really-safe-money-gen]   Money\.QuantisationFactorSpec.fromWord32.produces valid quantisation factors
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:333:11-46:
[really-safe-money-gen] @@ -330,7 +330,7 @@
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen]    guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] -  guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.toInt.renders to valid words
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/QuantisationFactor.hs:39:7-8:
[really-safe-money-gen] @@ -36,7 +36,7 @@
[really-safe-money-gen]  instance Validity QuantisationFactor where
[really-safe-money-gen]    validate qf@(QuantisationFactor w) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate qf,
[really-safe-money-gen] +      [ genericValidate qf,
[really-safe-money-gen]          declare "The quantisation factor is not zero" $ w /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.MultiAccountSpec.GenValid (MultiAccount Currency).genValid   \:\: Gen (MultiAccount Currency).only generates valid '(MultiAccount Currency)'s
[really-safe-money-gen]   Money\.MultiAccountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.fromAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAccount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAccountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.GenValid (MultiAmount Currency).genValid   \:\: Gen (MultiAmount Currency).only generates valid '(MultiAmount Currency)'s
[really-safe-money-gen]   Money\.MultiAmountSpec.add.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.addAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.fromAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtract.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.subtractAmount.produces valid amounts
[really-safe-money-gen]   Money\.MultiAmountSpec.sum.produces valid amounts
[really-safe-money-gen]   Money\.QuantisationFactorSpec.DecimalLiteral.fromDecimalLiteral.produces valid factors
[really-safe-money-gen]   Money\.QuantisationFactorSpec.GenValid QuantisationFactor.genValid   \:\: Gen QuantisationFactor.only generates valid 'QuantisationFactor's
[really-safe-money-gen]   Money\.QuantisationFactorSpec.fromWord32.produces valid quantisation factors
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:337:21-22:
[really-safe-money-gen] @@ -334,7 +334,7 @@
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] -numSign a = if a >= 0 then Nothing else Just False
[really-safe-money-gen] +numSign a = if a >= 1 then Nothing else Just False
[really-safe-money-gen]  
[really-safe-money-gen]  signSignum :: (Num a) => Maybe Bool -> (a -> a)
[really-safe-money-gen]  signSignum = \case
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:333:11-46:
[really-safe-money-gen] @@ -330,7 +330,7 @@
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen]    guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] -  guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen] +  guard $ False
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  numSign :: (Ord a, Num a) => a -> Maybe Bool
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.toInt.renders to valid words
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:304:42-43:
[really-safe-money-gen] @@ -301,7 +301,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen]  fromNatural :: Natural -> DecimalLiteral
[really-safe-money-gen] -fromNatural n = DecimalLiteral Nothing n 0
[really-safe-money-gen] +fromNatural n = DecimalLiteral Nothing n 1
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Natural'
[really-safe-money-gen]  toNatural :: DecimalLiteral -> Maybe Natural
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Natural.fromNatural.renders to valid decimal literals
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:332:11-46:
[really-safe-money-gen] @@ -329,7 +329,7 @@
[really-safe-money-gen]  toInt :: DecimalLiteral -> Maybe Int
[really-safe-money-gen]  toInt dl = do
[really-safe-money-gen]    n <- toInteger dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Int)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    guard $ n >= fromIntegral (minBound :: Int)
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.fromInt.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Int.toInt.renders to valid words
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:299:11-47:
[really-safe-money-gen] @@ -296,7 +296,7 @@
[really-safe-money-gen]  toWord :: DecimalLiteral -> Maybe Word
[really-safe-money-gen]  toWord dl = do
[really-safe-money-gen]    n <- toNatural dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Word)
[really-safe-money-gen] +  guard $ False
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Natural.fromNatural.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Word.fromWord.can parse any rendered literal
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:299:11-47:
[really-safe-money-gen] @@ -296,7 +296,7 @@
[really-safe-money-gen]  toWord :: DecimalLiteral -> Maybe Word
[really-safe-money-gen]  toWord dl = do
[really-safe-money-gen]    n <- toNatural dl
[really-safe-money-gen] -  guard $ n <= fromIntegral (maxBound :: Word)
[really-safe-money-gen] +  guard $ True
[really-safe-money-gen]    pure $ fromIntegral n
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Construct a 'DecimalLiteral' from a 'Natural'
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Natural.fromNatural.can parse any rendered literal
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Word.fromWord.can parse any rendered literal
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:245:9-18:
[really-safe-money-gen] @@ -242,7 +242,7 @@
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen]        | d == 0 = Nothing
[really-safe-money-gen] -      | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen] +      | True = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen]          d = denominator rational
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteraTesting mutation IntLit at src/Numeric/DecimalLiteral.hs:208:9-10:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | n < 1 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:208:5-10:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | False = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:208:5-10:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | True = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:223:39-41:
[really-safe-money-gen] @@ -220,7 +220,7 @@
[really-safe-money-gen]  -- (-3) % 10
[really-safe-money-gen]  toRational :: DecimalLiteral -> Rational
[really-safe-money-gen]  toRational (DecimalLiteral mSign m e) =
[really-safe-money-gen] -  signSignum mSign (fromIntegral m / (10 ^ e))
[really-safe-money-gen] +  signSignum mSign (fromIntegral m / (1 ^ e))
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Parse a 'DecimalLiteral' from a 'Ratio Natural'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:208:62-67:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:208:5-10:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | not (n < 0) = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:208:62-67:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just not (False)) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:209:5-14:
[really-safe-money-gen] @@ -206,7 +206,7 @@
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen]    | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] -  | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen] +  | True = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:209:5-14:
[really-safe-money-gen] @@ -206,7 +206,7 @@
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen]    | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] -  | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen] +  | not (otherwise) = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:208:62-67:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just True) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Testing mutation ListLit at src/Numeric/DecimalLiteral.hs:186:15-25:
[really-safe-money-gen] @@ -183,7 +183,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]      goFrac m e = reverse (go e (reverse (show m)))
[really-safe-money-gen]      go :: Word8 -> String -> String
[really-safe-money-gen] -    go 0 [] = ['.', '0']
[really-safe-money-gen] +    go 0 [] = ['.', '0']
[really-safe-money-gen]      go 0 s = '.' : s
[really-safe-money-gen]      go e [] = '0' : go (pred e) []
[really-safe-money-gen]      go e (c : cs) = c : go (pred e) cs
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - 0
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Testing mutation ListLit at src/Numeric/DecimalLiteral.hs:186:15-25:
[really-safe-money-gen] @@ -183,7 +183,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]      goFrac m e = reverse (go e (reverse (show m)))
[really-safe-money-gen]      go :: Word8 -> String -> String
[really-safe-money-gen] -    go 0 [] = ['.', '0']
[really-safe-money-gen] +    go 0 [] = ['.', '0']
[really-safe-money-gen]      go 0 s = '.' : s
[really-safe-money-gen]      go e [] = '0' : go (pred e) []
[really-safe-money-gen]      go e (c : cs) = c : go (pred e) cs
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - 1
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - -48
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:152:9-23:
[really-safe-money-gen] @@ -149,7 +149,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      go !a [] = return a
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen] -      | Char.isDigit c = do
[really-safe-money-gen] +      | False = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen]            let digit = Char.ord c - 48
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:152:9-23:
[really-safe-money-gen] @@ -149,7 +149,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      go !a [] = return a
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen] -      | Char.isDigit c = do
[really-safe-money-gen] +      | not (Char.isDigit c) = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen]            let digit = Char.ord c - 48
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:154:36-38:
[really-safe-money-gen] @@ -151,7 +151,7 @@
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen]        | Char.isDigit c = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen] -          let digit = Char.ord c - 48
[really-safe-money-gen] +          let digit = Char.ord c - 1
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:154:36-38:
[really-safe-money-gen] @@ -151,7 +151,7 @@
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen]        | Char.isDigit c = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen] -          let digit = Char.ord c - 48
[really-safe-money-gen] +          let digit = Char.ord c - 0
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:154:36-38:
[really-safe-money-gen] @@ -151,7 +151,7 @@
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen]        | Char.isDigit c = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen] -          let digit = Char.ord c - 48
[really-safe-money-gen] +          let digit = Char.ord c - -48
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:158:9-18:
[really-safe-money-gen] @@ -155,7 +155,7 @@
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] -      | otherwise = return a
[really-safe-money-gen] +      | True = return a
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Render a decimal literal to a string
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:152:9-23:
[really-safe-money-gen] @@ -149,7 +149,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      go !a [] = return a
[really-safe-money-gen]      go !a (c : cs)
[really-safe-money-gen] -      | Char.isDigit c = do
[really-safe-money-gen] +      | True = do
[really-safe-money-gen]            _ <- ReadP.get
[really-safe-money-gen]            let digit = Char.ord c - 48
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:158:9-18:
[really-safe-money-gen] @@ -155,7 +155,7 @@
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] -      | otherwise = return a
[really-safe-money-gen] +      | False = return a
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Render a decimal literal to a string
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:158:9-18:
[really-safe-money-gen] @@ -155,7 +155,7 @@
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] -      | otherwise = return a
[really-safe-money-gen] +      | not (otherwise) = return a
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Render a decimal literal to a string
[really-safe-money-gen]  --
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:139:27-29:
[really-safe-money-gen] @@ -136,7 +136,7 @@
[really-safe-money-gen]  stepFraction (m, e) digit = Just (m * 10 + fromIntegral digit, succ e)
[really-safe-money-gen]  
[really-safe-money-gen]  step :: Natural -> Int -> Maybe Natural
[really-safe-money-gen] -step a digit = Just $ a * 10 + fromIntegral digit
[really-safe-money-gen] +step a digit = Just $ a * 0 + fromIntegral digit
[really-safe-money-gen]  {-# INLINE step #-}
[really-safe-money-gen]  
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:139:27-29:
[really-safe-money-gen] @@ -136,7 +136,7 @@
[really-safe-money-gen]  stepFraction (m, e) digit = Just (m * 10 + fromIntegral digit, succ e)
[really-safe-money-gen]  
[really-safe-money-gen]  step :: Natural -> Int -> Maybe Natural
[really-safe-money-gen] -step a digit = Just $ a * 10 + fromIntegral digit
[really-safe-money-gen] +step a digit = Just $ a * 1 + fromIntegral digit
[really-safe-money-gen]  {-# INLINE step #-}
[really-safe-money-gen]  
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:136:39-41:
[really-safe-money-gen] @@ -133,7 +133,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  stepFraction :: (Natural, Word8) -> Int -> Maybe (Natural, Word8)
[really-safe-money-gen]  stepFraction (_, 255) _ = Nothing
[really-safe-money-gen] -stepFraction (m, e) digit = Just (m * 10 + fromIntegral digit, succ e)
[really-safe-money-gen] +stepFraction (m, e) digit = Just (m * 0 + fromIntegral digit, succ e)
[really-safe-money-gen]  
[really-safe-money-gen]  step :: Natural -> Int -> Maybe Natural
[really-safe-money-gen]  step a digit = Just $ a * 10 + fromIntegral digit
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:136:39-41:
[really-safe-money-gen] @@ -133,7 +133,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]  stepFraction :: (Natural, Word8) -> Int -> Maybe (Natural, Word8)
[really-safe-money-gen]  stepFraction (_, 255) _ = Nothing
[really-safe-money-gen] -stepFraction (m, e) digit = Just (m * 10 + fromIntegral digit, succ e)
[really-safe-money-gen] +stepFraction (m, e) digit = Just (m * 1 + fromIntegral digit, succ e)
[really-safe-money-gen]  
[really-safe-money-gen]  step :: Natural -> Int -> Maybe Natural
[really-safe-money-gen]  step a digit = Just $ a * 10 + fromIntegral digit
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:119:22-30:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = True || c == '+'
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:119:22-30:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = False || c == '+'
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:119:22-30:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = not (c == '-') || c == '+'
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:119:34-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = c == '-' || True
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:119:34-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = c == '-' || not (c == '+')
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:119:34-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = c == '-' || False
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signCTheasrt i<n-g  RmeuatdaPt.isoant iCsofnys tiBsoSoilg naCth asrr
[really-safe-money-gen] c/Numeric/DecimalLiteral.hs:119:22-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = True
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:119:22-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = not (c == '-' || c == '+')
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:123:19-34:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] -    pure $ Just $ signChar == '+'
[really-safe-money-gen] +    pure $ Just $ True
[really-safe-money-gen]  
[really-safe-money-gen]    units <- parseDigits step 0
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:123:19-34:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] -    pure $ Just $ signChar == '+'
[really-safe-money-gen] +    pure $ Just $ False
[really-safe-money-gen]  
[really-safe-money-gen]    units <- parseDigits step 0
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation Negate at src/Numeric/DecimalLiteral.hs:123:19-34:
[really-safe-money-gen] @@ -120,7 +120,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen] -    pure $ Just $ signChar == '+'
[really-safe-money-gen] +    pure $ Just $ not (signChar == '+')
[really-safe-money-gen]  
[really-safe-money-gen]    units <- parseDigits step 0
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:125:29-30:
[really-safe-money-gen] @@ -122,7 +122,7 @@
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen]      pure $ Just $ signChar == '+'
[really-safe-money-gen]  
[really-safe-money-gen] -  units <- parseDigits step 0
[really-safe-money-gen] +  units <- parseDigits step 1
[really-safe-money-gen]  
[really-safe-money-gen]    ReadP.option (DecimalLiteral mSign units 0) $ do
[really-safe-money-gen]      _ <- ReadP.satisfy (== '.')
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:127:44-45:
[really-safe-money-gen] @@ -124,7 +124,7 @@
[really-safe-money-gen]  
[really-safe-money-gen]    units <- parseDigits step 0
[really-safe-money-gen]  
[really-safe-money-gen] -  ReadP.option (DecimalLiteral mSign units 0) $ do
[really-safe-money-gen] +  ReadP.option (DecimalLiteral mSign units 1) $ do
[really-safe-money-gen]      _ <- ReadP.satisfy (== '.')
[really-safe-money-gen]  
[really-safe-money-gen]      (m, e) <- parseDigits stepFraction (units, 0)
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:130:48-49:
[really-safe-money-gen] @@ -127,7 +127,7 @@
[really-safe-money-gen]    ReadP.option (DecimalLiteral mSign units 0) $ do
[really-safe-money-gen]      _ <- ReadP.satisfy (== '.')
[really-safe-money-gen]  
[really-safe-money-gen] -    (m, e) <- parseDigits stepFraction (units, 0)
[really-safe-money-gen] +    (m, e) <- parseDigits stepFraction (units, 1)
[really-safe-money-gen]  
[really-safe-money-gen]      pure $ DecimalLiteral mSign m e
[really-safe-money-gen]  
[really-safe-money-gen] Testing mutation ListLit at src/Money/Account/Codec.hs:51:33-76:
[really-safe-money-gen] @@ -48,7 +48,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String Account
[really-safe-money-gen]      f s = case readMaybe s >>= Account.fromMinimalQuantisations of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as an Account:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as an Account:", s]
[really-safe-money-gen]        Just a -> Right a
[really-safe-money-gen]      g :: Account -> String
[really-safe-money-gen]      g = show . Account.toMinimalQuantisations
[really-safe-money-gen] Testing mutation ListLit at src/Money/Account/Codec.hs:51:33-76:
[really-safe-money-gen] @@ -48,7 +48,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String Account
[really-safe-money-gen]      f s = case readMaybe s >>= Account.fromMinimalQuantisations of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as an Account:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as an Account:", s]
[really-safe-money-gen]        Just a -> Right a
[really-safe-money-gen]      g :: Account -> String
[really-safe-money-gen]      g = show . Account.toMinimalQuantisations
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:47:33-75:
[really-safe-money-gen] @@ -44,7 +44,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String Amount
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:47:33-75:
[really-safe-money-gen] @@ -44,7 +44,7 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String Amount
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount/Codec.hs:49:12-59:
[really-safe-money-gen] @@ -46,7 +46,7 @@
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen] -        if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] +        if True
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount/Codec.hs:49:12-59:
[really-safe-money-gen] @@ -46,7 +46,7 @@
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen] -        if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] +        if False
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount/Codec.hs:49:12-59:
[really-safe-money-gen] @@ -46,7 +46,7 @@
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen] -        if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] +        if not ((i :: Integer) < toInteger (minBound :: Word64))
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:50:31-84:
[really-safe-money-gen] @@ -47,7 +47,7 @@
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] -          then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen] +          then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:50:31-84:
[really-safe-money-gen] @@ -47,7 +47,7 @@
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] -          then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen] +          then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:119:22-42:
[really-safe-money-gen] @@ -116,7 +116,7 @@
[really-safe-money-gen]  decimalLiteralP :: ReadP DecimalLiteral
[really-safe-money-gen]  decimalLiteralP = do
[really-safe-money-gen]    let isSignChar :: Char -> Bool
[really-safe-money-gen] -      isSignChar c = c == '-' || c == '+'
[really-safe-money-gen] +      isSignChar c = False
[really-safe-money-gen]  
[really-safe-money-gen]    mSign <- ReadP.option Nothing $ do
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignCharT
[really-safe-money-gen] esting mutation ConstBool at src/Money/Amount/Codec.hs:52:16-63:
[really-safe-money-gen] @@ -49,7 +49,7 @@
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen] -            if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] +            if True
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen] Testing mutation ConstBool at src/Money/Amount/Codec.hs:52:16-63:
[really-safe-money-gen] @@ -49,7 +49,7 @@
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen] -            if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] +            if False
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:53:35-90:
[really-safe-money-gen] @@ -50,7 +50,7 @@
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] -              then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen] +              then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen]      g = show . Amount.toMinimalQuantisations
[really-safe-money-gen] Testing mutation Negate at src/Money/Amount/Codec.hs:52:16-63:
[really-safe-money-gen] @@ -49,7 +49,7 @@
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen] -            if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] +            if not ((i :: Integer) > toInteger (maxBound :: Word64))
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen] Testing mutation ListLit at src/Money/Amount/Codec.hs:53:35-90:
[really-safe-money-gen] @@ -50,7 +50,7 @@
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] -              then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen] +              then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen]      g = show . Amount.toMinimalQuantisations
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount/Codec.hs:52:13-86:
[really-safe-money-gen] @@ -49,7 +49,7 @@
[really-safe-money-gen]          if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen] -            if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] +            if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen]                then Left $ unwords ["Number of minimal quantisations is too big:", show i]
[really-safe-money-gen]                else Right $ Amount.fromMinimalQuantisations (fromIntegral i :: Word64)
[really-safe-money-gen]      g :: Amount -> String
[really-safe-money-gen] Testing mutation CondFlip at src/Money/Amount/Codec.hs:49:9-86:
[really-safe-money-gen] @@ -46,7 +46,7 @@
[really-safe-money-gen]      f s = case readMaybe s of
[really-safe-money-gen]        Nothing -> Left $ unwords ["Could not read string as an Amount:", s]
[really-safe-money-gen]        Just i ->
[really-safe-money-gen] -        if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen] +        if (i :: Integer) < toInteger (minBound :: Word64)
[really-safe-money-gen]            then Left $ unwords ["Negative number of minimal quantisations:", show i]
[really-safe-money-gen]            else
[really-safe-money-gen]              if (i :: Integer) > toInteger (maxBound :: Word64)
[really-safe-money-gen] Testing mutation ListLit at src/Numeric/DecimalLiteral/Codec.hs:40:33-82:
[really-safe-money-gen] @@ -37,5 +37,5 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String DecimalLiteral
[really-safe-money-gen]      f s = case DecimalLiteral.fromString s of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as a DecimalLiteral:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as a DecimalLiteral:", s]
[really-safe-money-gen]        Just a -> Right a
[really-safe-money-gen] Testing mutation ListLit at src/Numeric/DecimalLiteral/Codec.hs:40:33-82:
[really-safe-money-gen] @@ -37,5 +37,5 @@
[really-safe-money-gen]    where
[really-safe-money-gen]      f :: String -> Either String DecimalLiteral
[really-safe-money-gen]      f s = case DecimalLiteral.fromString s of
[really-safe-money-gen] -      Nothing -> Left $ unwords ["Could not read string as a DecimalLiteral:", s]
[really-safe-money-gen] +      Nothing -> Left $ unwords ["Could not read string as a DecimalLiteral:", s]
[really-safe-money-gen]        Just a -> Right a
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:209:5-14:
[really-safe-money-gen] @@ -206,7 +206,7 @@
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen]    | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] -  | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen] +  | False = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] lSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:245:9-18:
[really-safe-money-gen] @@ -242,7 +242,7 @@
[really-safe-money-gen]        Maybe DecimalLiteral
[really-safe-money-gen]      fromRationalRepetendLimited l rational
[really-safe-money-gen]        | d == 0 = Nothing
[really-safe-money-gen] -      | otherwise = toLiteral Nothing <$> longDiv num
[really-safe-money-gen] +      | False = toLiteral Nothing <$> longDiv num
[really-safe-money-gen]        where
[really-safe-money-gen]          toLiteral mSign (m, e) = DecimalLiteral mSign m (fromIntegral e)
[really-safe-money-gen]          d = denominator rational
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:270:13-22:
[really-safe-money-gen] @@ -267,7 +267,7 @@
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] -          | otherwise =
[really-safe-money-gen] +          | True =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:270:13-22:
[really-safe-money-gen] @@ -267,7 +267,7 @@
[really-safe-money-gen]            | n < d =
[really-safe-money-gen]                let !ns' = S.insert n ns
[really-safe-money-gen]                 in longDivWithLimit (c * 10) (succ e) ns' (n * 10)
[really-safe-money-gen] -          | otherwise =
[really-safe-money-gen] +          | False =
[really-safe-money-gen]                let (q, r') = n `quotRem` d
[really-safe-money-gen]                 in longDivWithLimit (c + q) e ns r'
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - 1
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - 0
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:209:5-14:
[really-safe-money-gen] @@ -206,7 +206,7 @@
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen]    | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] -  | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen] +  | True = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:145:28-30:
[really-safe-money-gen] @@ -142,7 +142,7 @@
[really-safe-money-gen]  parseDigits :: (a -> Int -> Maybe a) -> a -> ReadP a
[really-safe-money-gen]  parseDigits f z = do
[really-safe-money-gen]    c <- ReadP.satisfy Char.isDigit
[really-safe-money-gen] -  let digit = Char.ord c - 48
[really-safe-money-gen] +  let digit = Char.ord c - -48
[really-safe-money-gen]    case f z digit of
[really-safe-money-gen]      Nothing -> fail "Failed to step the first digit"
[really-safe-money-gen]      Just a -> ReadP.look >>= go a
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:208:9-10:
[really-safe-money-gen] @@ -205,7 +205,7 @@
[really-safe-money-gen]  -- Nothing
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen] -  | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] +  | n < 1 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen]    | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:158:9-18:
[really-safe-money-gen] @@ -155,7 +155,7 @@
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] -      | otherwise = return a
[really-safe-money-gen] +      | True = return a
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Render a decimal literal to a string
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:158:9-18:
[really-safe-money-gen] @@ -155,7 +155,7 @@
[really-safe-money-gen]            case f a digit of
[really-safe-money-gen]              Nothing -> fail "Failed to step the digit"
[really-safe-money-gen]              Just a' -> go a' cs
[really-safe-money-gen] -      | otherwise = return a
[really-safe-money-gen] +      | False = return a
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Render a decimal literal to a string
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation IntLit at src/Numeric/DecimalLiteral.hs:125:29-30:
[really-safe-money-gen] @@ -122,7 +122,7 @@
[really-safe-money-gen]      signChar <- ReadP.satisfy isSignChar
[really-safe-money-gen]      pure $ Just $ signChar == '+'
[really-safe-money-gen]  
[really-safe-money-gen] -  units <- parseDigits step 0
[really-safe-money-gen] +  units <- parseDigits step 1
[really-safe-money-gen]  
[really-safe-money-gen]    ReadP.option (DecimalLiteral mSign units 0) $ do
[really-safe-money-gen]      _ <- ReadP.satisfy (== '.')
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.DecimalLiteral\.fromString.fails to parse scientific notation
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Numeric/DecimalLiteral.hs:209:5-14:
[really-safe-money-gen] @@ -206,7 +206,7 @@
[really-safe-money-gen]  fromRational :: Rational -> Maybe DecimalLiteral
[really-safe-money-gen]  fromRational (n :% d)
[really-safe-money-gen]    | n < 0 = (\(DecimalLiteral _ m e) -> DecimalLiteral (Just False) m e) <$> fromRatio (fromIntegral (abs n) % fromIntegral d)
[really-safe-money-gen] -  | otherwise = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen] +  | False = fromRatio (fromIntegral n % fromIntegral d)
[really-safe-money-gen]  
[really-safe-money-gen]  -- | Turn a 'DecimalLiteral' into a 'Rational'
[really-safe-money-gen]  --
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Numeric\.DecimalLiteralSpec.Rational.can turn rational 400 % 1 into DecimalLiteral Nothing 400 0
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/ConversionRate.hs:37:7-8:
[really-safe-money-gen] @@ -34,7 +34,7 @@
[really-safe-money-gen]  instance Validity ConversionRate where
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate cr,
[really-safe-money-gen] +      [ genericValidate cr,
[really-safe-money-gen]          declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AccountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AccountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AccountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AccountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AmountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AmountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AmountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AmountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.GenValid (ConversionRateOf ADA ADA).genValid   \:\: Gen (ConversionRateOf ADA ADA).only generates valid '(ConversionRateOf ADA ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.GenValid (ConversionRateOf ADA BTC).genValid   \:\: Gen (ConversionRateOf ADA BTC).only generates valid '(ConversionRateOf ADA BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.GenValid (ConversionRateOf ADA CHF).genValid   \:\: Gen (ConversionRateOf ADA CHF).only generates valid '(ConversionRateOf ADA CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.GenValid (ConversionRateOf ADA INR).genValid   \:\: Gen (ConversionRateOf ADA INR).only generates valid '(ConversionRateOf ADA INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.GenValid (ConversionRateOf ADA USD).genValid   \:\: Gen (ConversionRateOf ADA USD).only generates valid '(ConversionRateOf ADA USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.GenValid (ConversionRateOf BTC ADA).genValid   \:\: Gen (ConversionRateOf BTC ADA).only generates valid '(ConversionRateOf BTC ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.GenValid (ConversionRateOf BTC BTC).genValid   \:\: Gen (ConversionRateOf BTC BTC).only generates valid '(ConversionRateOf BTC BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.GenValid (ConversionRateOf BTC CHF).genValid   \:\: Gen (ConversionRateOf BTC CHF).only generates valid '(ConversionRateOf BTC CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.GenValid (ConversionRateOf BTC INR).genValid   \:\: Gen (ConversionRateOf BTC INR).only generates valid '(ConversionRateOf BTC INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.GenValid (ConversionRateOf BTC USD).genValid   \:\: Gen (ConversionRateOf BTC USD).only generates valid '(ConversionRateOf BTC USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.GenValid (ConversionRateOf CHF ADA).genValid   \:\: Gen (ConversionRateOf CHF ADA).only generates valid '(ConversionRateOf CHF ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.GenValid (ConversionRateOf CHF BTC).genValid   \:\: Gen (ConversionRateOf CHF BTC).only generates valid '(ConversionRateOf CHF BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.GenValid (ConversionRateOf CHF CHF).genValid   \:\: Gen (ConversionRateOf CHF CHF).only generates valid '(ConversionRateOf CHF CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.GenValid (ConversionRateOf CHF INR).genValid   \:\: Gen (ConversionRateOf CHF INR).only generates valid '(ConversionRateOf CHF INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.GenValid (ConversionRateOf CHF USD).genValid   \:\: Gen (ConversionRateOf CHF USD).only generates valid '(ConversionRateOf CHF USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.GenValid (ConversionRateOf INR ADA).genValid   \:\: Gen (ConversionRateOf INR ADA).only generates valid '(ConversionRateOf INR ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.GenValid (ConversionRateOf INR BTC).genValid   \:\: Gen (ConversionRateOf INR BTC).only generates valid '(ConversionRateOf INR BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.GenValid (ConversionRateOf INR CHF).genValid   \:\: Gen (ConversionRateOf INR CHF).only generates valid '(ConversionRateOf INR CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.GenValid (ConversionRateOf INR INR).genValid   \:\: Gen (ConversionRateOf INR INR).only generates valid '(ConversionRateOf INR INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.GenValid (ConversionRateOf INR USD).genValid   \:\: Gen (ConversionRateOf INR USD).only generates valid '(ConversionRateOf INR USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.GenValid (ConversionRateOf USD ADA).genValid   \:\: Gen (ConversionRateOf USD ADA).only generates valid '(ConversionRateOf USD ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.GenValid (ConversionRateOf USD BTC).genValid   \:\: Gen (ConversionRateOf USD BTC).only generates valid '(ConversionRateOf USD BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.GenValid (ConversionRateOf USD CHF).genValid   \:\: Gen (ConversionRateOf USD CHF).only generates valid '(ConversionRateOf USD CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.GenValid (ConversionRateOf USD INR).genValid   \:\: Gen (ConversionRateOf USD INR).only generates valid '(ConversionRateOf USD INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.GenValid (ConversionRateOf USD USD).genValid   \:\: Gen (ConversionRateOf USD USD).only generates valid '(ConversionRateOf USD USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateSpec.GenValid ConversionRate.genValid   \:\: Gen ConversionRate.only generates valid 'ConversionRate's
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateSpec.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.invert.produces valid rates
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ListLit at src/Money/ConversionRate.hs:37:7-8:
[really-safe-money-gen] @@ -34,7 +34,7 @@
[really-safe-money-gen]  instance Validity ConversionRate where
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen] -      [ genericValidate cr,
[really-safe-money-gen] +      [ genericValidate cr,
[really-safe-money-gen]          declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AccountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AccountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AccountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AccountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AmountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AmountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AmountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AmountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.GenValid (ConversionRateOf ADA ADA).genValid   \:\: Gen (ConversionRateOf ADA ADA).only generates valid '(ConversionRateOf ADA ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.GenValid (ConversionRateOf ADA BTC).genValid   \:\: Gen (ConversionRateOf ADA BTC).only generates valid '(ConversionRateOf ADA BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.GenValid (ConversionRateOf ADA CHF).genValid   \:\: Gen (ConversionRateOf ADA CHF).only generates valid '(ConversionRateOf ADA CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.GenValid (ConversionRateOf ADA INR).genValid   \:\: Gen (ConversionRateOf ADA INR).only generates valid '(ConversionRateOf ADA INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.GenValid (ConversionRateOf ADA USD).genValid   \:\: Gen (ConversionRateOf ADA USD).only generates valid '(ConversionRateOf ADA USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.GenValid (ConversionRateOf BTC ADA).genValid   \:\: Gen (ConversionRateOf BTC ADA).only generates valid '(ConversionRateOf BTC ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.GenValid (ConversionRateOf BTC BTC).genValid   \:\: Gen (ConversionRateOf BTC BTC).only generates valid '(ConversionRateOf BTC BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.GenValid (ConversionRateOf BTC CHF).genValid   \:\: Gen (ConversionRateOf BTC CHF).only generates valid '(ConversionRateOf BTC CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.GenValid (ConversionRateOf BTC INR).genValid   \:\: Gen (ConversionRateOf BTC INR).only generates valid '(ConversionRateOf BTC INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.GenValid (ConversionRateOf BTC USD).genValid   \:\: Gen (ConversionRateOf BTC USD).only generates valid '(ConversionRateOf BTC USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.GenValid (ConversionRateOf CHF ADA).genValid   \:\: Gen (ConversionRateOf CHF ADA).only generates valid '(ConversionRateOf CHF ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.GenValid (ConversionRateOf CHF BTC).genValid   \:\: Gen (ConversionRateOf CHF BTC).only generates valid '(ConversionRateOf CHF BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.GenValid (ConversionRateOf CHF CHF).genValid   \:\: Gen (ConversionRateOf CHF CHF).only generates valid '(ConversionRateOf CHF CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.GenValid (ConversionRateOf CHF INR).genValid   \:\: Gen (ConversionRateOf CHF INR).only generates valid '(ConversionRateOf CHF INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.GenValid (ConversionRateOf CHF USD).genValid   \:\: Gen (ConversionRateOf CHF USD).only generates valid '(ConversionRateOf CHF USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.GenValid (ConversionRateOf INR ADA).genValid   \:\: Gen (ConversionRateOf INR ADA).only generates valid '(ConversionRateOf INR ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.GenValid (ConversionRateOf INR BTC).genValid   \:\: Gen (ConversionRateOf INR BTC).only generates valid '(ConversionRateOf INR BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.GenValid (ConversionRateOf INR CHF).genValid   \:\: Gen (ConversionRateOf INR CHF).only generates valid '(ConversionRateOf INR CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.GenValid (ConversionRateOf INR INR).genValid   \:\: Gen (ConversionRateOf INR INR).only generates valid '(ConversionRateOf INR INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.GenValid (ConversionRateOf INR USD).genValid   \:\: Gen (ConversionRateOf INR USD).only generates valid '(ConversionRateOf INR USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.GenValid (ConversionRateOf USD ADA).genValid   \:\: Gen (ConversionRateOf USD ADA).only generates valid '(ConversionRateOf USD ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.GenValid (ConversionRateOf USD BTC).genValid   \:\: Gen (ConversionRateOf USD BTC).only generates valid '(ConversionRateOf USD BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.GenValid (ConversionRateOf USD CHF).genValid   \:\: Gen (ConversionRateOf USD CHF).only generates valid '(ConversionRateOf USD CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.GenValid (ConversionRateOf USD INR).genValid   \:\: Gen (ConversionRateOf USD INR).only generates valid '(ConversionRateOf USD INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.GenValid (ConversionRateOf USD USD).genValid   \:\: Gen (ConversionRateOf USD USD).only generates valid '(ConversionRateOf USD USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateSpec.GenValid ConversionRate.genValid   \:\: Gen ConversionRate.only generates valid 'ConversionRate's
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateSpec.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.invert.produces valid rates
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:38:41-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ True
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AccountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AccountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AccountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AccountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AmountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AmountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AmountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AmountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.GenValid (ConversionRateOf ADA ADA).genValid   \:\: Gen (ConversionRateOf ADA ADA).only generates valid '(ConversionRateOf ADA ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.GenValid (ConversionRateOf ADA BTC).genValid   \:\: Gen (ConversionRateOf ADA BTC).only generates valid '(ConversionRateOf ADA BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.GenValid (ConversionRateOf ADA CHF).genValid   \:\: Gen (ConversionRateOf ADA CHF).only generates valid '(ConversionRateOf ADA CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.GenValid (ConversionRateOf ADA INR).genValid   \:\: Gen (ConversionRateOf ADA INR).only generates valid '(ConversionRateOf ADA INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.GenValid (ConversionRateOf ADA USD).genValid   \:\: Gen (ConversionRateOf ADA USD).only generates valid '(ConversionRateOf ADA USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.GenValid (ConversionRateOf BTC ADA).genValid   \:\: Gen (ConversionRateOf BTC ADA).only generates valid '(ConversionRateOf BTC ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.GenValid (ConversionRateOf BTC BTC).genValid   \:\: Gen (ConversionRateOf BTC BTC).only generates valid '(ConversionRateOf BTC BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.GenValid (ConversionRateOf BTC CHF).genValid   \:\: Gen (ConversionRateOf BTC CHF).only generates valid '(ConversionRateOf BTC CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.GenValid (ConversionRateOf BTC INR).genValid   \:\: Gen (ConversionRateOf BTC INR).only generates valid '(ConversionRateOf BTC INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.GenValid (ConversionRateOf BTC USD).genValid   \:\: Gen (ConversionRateOf BTC USD).only generates valid '(ConversionRateOf BTC USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.GenValid (ConversionRateOf CHF ADA).genValid   \:\: Gen (ConversionRateOf CHF ADA).only generates valid '(ConversionRateOf CHF ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.GenValid (ConversionRateOf CHF BTC).genValid   \:\: Gen (ConversionRateOf CHF BTC).only generates valid '(ConversionRateOf CHF BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.GenValid (ConversionRateOf CHF CHF).genValid   \:\: Gen (ConversionRateOf CHF CHF).only generates valid '(ConversionRateOf CHF CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.GenValid (ConversionRateOf CHF INR).genValid   \:\: Gen (ConversionRateOf CHF INR).only generates valid '(ConversionRateOf CHF INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.GenValid (ConversionRateOf CHF USD).genValid   \:\: Gen (ConversionRateOf CHF USD).only generates valid '(ConversionRateOf CHF USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.GenValid (ConversionRateOf INR ADA).genValid   \:\: Gen (ConversionRateOf INR ADA).only generates valid '(ConversionRateOf INR ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.GenValid (ConversionRateOf INR BTC).genValid   \:\: Gen (ConversionRateOf INR BTC).only generates valid '(ConversionRateOf INR BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.GenValid (ConversionRateOf INR CHF).genValid   \:\: Gen (ConversionRateOf INR CHF).only generates valid '(ConversionRateOf INR CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.GenValid (ConversionRateOf INR INR).genValid   \:\: Gen (ConversionRateOf INR INR).only generates valid '(ConversionRateOf INR INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.GenValid (ConversionRateOf INR USD).genValid   \:\: Gen (ConversionRateOf INR USD).only generates valid '(ConversionRateOf INR USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.GenValid (ConversionRateOf USD ADA).genValid   \:\: Gen (ConversionRateOf USD ADA).only generates valid '(ConversionRateOf USD ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.GenValid (ConversionRateOf USD BTC).genValid   \:\: Gen (ConversionRateOf USD BTC).only generates valid '(ConversionRateOf USD BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.GenValid (ConversionRateOf USD CHF).genValid   \:\: Gen (ConversionRateOf USD CHF).only generates valid '(ConversionRateOf USD CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.GenValid (ConversionRateOf USD INR).genValid   \:\: Gen (ConversionRateOf USD INR).only generates valid '(ConversionRateOf USD INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.GenValid (ConversionRateOf USD USD).genValid   \:\: Gen (ConversionRateOf USD USD).only generates valid '(ConversionRateOf USD USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateSpec.GenValid ConversionRate.genValid   \:\: Gen ConversionRate.only generates valid 'ConversionRate's
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateSpec.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.invert.produces valid rates
[really-safe-money-gen] 
[really-safe-money-gen] Testing mutation ConstBool at src/Money/ConversionRate.hs:38:41-57:
[really-safe-money-gen] @@ -35,7 +35,7 @@
[really-safe-money-gen]    validate cr@(ConversionRate r) =
[really-safe-money-gen]      mconcat
[really-safe-money-gen]        [ genericValidate cr,
[really-safe-money-gen] -        declare "The rate is nonzero" $ numerator r /= 0
[really-safe-money-gen] +        declare "The rate is nonzero" $ False
[really-safe-money-gen]        ]
[really-safe-money-gen]  
[really-safe-money-gen]  instance NFData ConversionRate
[really-safe-money-gen] Covering tests:
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AccountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AccountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AccountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AccountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AccountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.ADA.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.BTC.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.CHF.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.INR.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.ADA.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.BTC.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.CHF.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.INR.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountOfSpec.USD.USD.rate.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.converts this USD to CHF correctly
[really-safe-money-gen]   Money\.AmountSpec.convert.produces valid amounts
[really-safe-money-gen]   Money\.AmountSpec.convert.succeeds in converting 1\:1 without rounding if the quantisation factor is the same
[really-safe-money-gen]   Money\.AmountSpec.rate.computes a rate that can be used to do a conversion without rounding
[really-safe-money-gen]   Money\.AmountSpec.rate.computes this USD to CHF rate correctly
[really-safe-money-gen]   Money\.AmountSpec.rate.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.GenValid (ConversionRateOf ADA ADA).genValid   \:\: Gen (ConversionRateOf ADA ADA).only generates valid '(ConversionRateOf ADA ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.GenValid (ConversionRateOf ADA BTC).genValid   \:\: Gen (ConversionRateOf ADA BTC).only generates valid '(ConversionRateOf ADA BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.GenValid (ConversionRateOf ADA CHF).genValid   \:\: Gen (ConversionRateOf ADA CHF).only generates valid '(ConversionRateOf ADA CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.GenValid (ConversionRateOf ADA INR).genValid   \:\: Gen (ConversionRateOf ADA INR).only generates valid '(ConversionRateOf ADA INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.GenValid (ConversionRateOf ADA USD).genValid   \:\: Gen (ConversionRateOf ADA USD).only generates valid '(ConversionRateOf ADA USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.ADA.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.GenValid (ConversionRateOf BTC ADA).genValid   \:\: Gen (ConversionRateOf BTC ADA).only generates valid '(ConversionRateOf BTC ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.GenValid (ConversionRateOf BTC BTC).genValid   \:\: Gen (ConversionRateOf BTC BTC).only generates valid '(ConversionRateOf BTC BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.GenValid (ConversionRateOf BTC CHF).genValid   \:\: Gen (ConversionRateOf BTC CHF).only generates valid '(ConversionRateOf BTC CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.GenValid (ConversionRateOf BTC INR).genValid   \:\: Gen (ConversionRateOf BTC INR).only generates valid '(ConversionRateOf BTC INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.GenValid (ConversionRateOf BTC USD).genValid   \:\: Gen (ConversionRateOf BTC USD).only generates valid '(ConversionRateOf BTC USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.BTC.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.GenValid (ConversionRateOf CHF ADA).genValid   \:\: Gen (ConversionRateOf CHF ADA).only generates valid '(ConversionRateOf CHF ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.GenValid (ConversionRateOf CHF BTC).genValid   \:\: Gen (ConversionRateOf CHF BTC).only generates valid '(ConversionRateOf CHF BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.GenValid (ConversionRateOf CHF CHF).genValid   \:\: Gen (ConversionRateOf CHF CHF).only generates valid '(ConversionRateOf CHF CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.GenValid (ConversionRateOf CHF INR).genValid   \:\: Gen (ConversionRateOf CHF INR).only generates valid '(ConversionRateOf CHF INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.GenValid (ConversionRateOf CHF USD).genValid   \:\: Gen (ConversionRateOf CHF USD).only generates valid '(ConversionRateOf CHF USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.CHF.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.GenValid (ConversionRateOf INR ADA).genValid   \:\: Gen (ConversionRateOf INR ADA).only generates valid '(ConversionRateOf INR ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.GenValid (ConversionRateOf INR BTC).genValid   \:\: Gen (ConversionRateOf INR BTC).only generates valid '(ConversionRateOf INR BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.GenValid (ConversionRateOf INR CHF).genValid   \:\: Gen (ConversionRateOf INR CHF).only generates valid '(ConversionRateOf INR CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.GenValid (ConversionRateOf INR INR).genValid   \:\: Gen (ConversionRateOf INR INR).only generates valid '(ConversionRateOf INR INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.GenValid (ConversionRateOf INR USD).genValid   \:\: Gen (ConversionRateOf INR USD).only generates valid '(ConversionRateOf INR USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.INR.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.GenValid (ConversionRateOf USD ADA).genValid   \:\: Gen (ConversionRateOf USD ADA).only generates valid '(ConversionRateOf USD ADA)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.ADA.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.GenValid (ConversionRateOf USD BTC).genValid   \:\: Gen (ConversionRateOf USD BTC).only generates valid '(ConversionRateOf USD BTC)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.BTC.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.GenValid (ConversionRateOf USD CHF).genValid   \:\: Gen (ConversionRateOf USD CHF).only generates valid '(ConversionRateOf USD CHF)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.CHF.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.GenValid (ConversionRateOf USD INR).genValid   \:\: Gen (ConversionRateOf USD INR).only generates valid '(ConversionRateOf USD INR)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.INR.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.GenValid (ConversionRateOf USD USD).genValid   \:\: Gen (ConversionRateOf USD USD).only generates valid '(ConversionRateOf USD USD)'s
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateOfSpec.USD.USD.invert.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.DecimalLiteral.fromDecimalLiteral.roundtrips with toDecimalLiteral
[really-safe-money-gen]   Money\.ConversionRateSpec.GenValid ConversionRate.genValid   \:\: Gen ConversionRate.only generates valid 'ConversionRate's
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Ratio.fromRatio.roundtrips with toRatio
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.produces valid conversion rates
[really-safe-money-gen]   Money\.ConversionRateSpec.Rational.fromRational.roundtrips with toRational
[really-safe-money-gen]   Money\.ConversionRateSpec.compose.produces valid rates
[really-safe-money-gen]   Money\.ConversionRateSpec.invert.produces valid rates
[really-safe-money-gen] 
[really-safe-money-gen] Killed: 233
[really-safe-money-gen] Survived: 79
[really-safe-money-gen] Uncovered: 21
[really-safe-money-gen] checkPhase completed in 5 minutes 57 seconds
[really-safe-money-gen] Phase: haddockPhase
[really-safe-money-gen] Preprocessing library for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Running Haddock on library for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Warning: The documentation for the following packages are not installed. No
[really-safe-money-gen] links will be generated to these packages: really-safe-money-0.0.0.0
[really-safe-money-gen] [ 1 of 13] Compiling Money.Amount.Gen ( src/Money/Amount/Gen.hs, nothing )
[really-safe-money-gen] [ 2 of 13] Compiling Money.Account.Gen ( src/Money/Account/Gen.hs, nothing )
[really-safe-money-gen] [ 3 of 13] Compiling Money.AccountOf.Gen ( src/Money/AccountOf/Gen.hs, nothing )
[really-safe-money-gen] [ 4 of 13] Compiling Money.AmountOf.Gen ( src/Money/AmountOf/Gen.hs, nothing )
[really-safe-money-gen] [ 5 of 13] Compiling Money.ConversionRate.Gen ( src/Money/ConversionRate/Gen.hs, nothing )
[really-safe-money-gen] [ 6 of 13] Compiling Money.ConversionRateOf.Gen ( src/Money/ConversionRateOf/Gen.hs, nothing )
[really-safe-money-gen] [ 7 of 13] Compiling Money.QuantisationFactor.Gen ( src/Money/QuantisationFactor/Gen.hs, nothing )
[really-safe-money-gen] [ 8 of 13] Compiling Money.Currency.Gen ( src/Money/Currency/Gen.hs, nothing )
[really-safe-money-gen] [ 9 of 13] Compiling Money.MultiAmount.Gen ( src/Money/MultiAmount/Gen.hs, nothing )
[really-safe-money-gen] [10 of 13] Compiling Money.MultiAccount.Gen ( src/Money/MultiAccount/Gen.hs, nothing )
[really-safe-money-gen] [11 of 13] Compiling Money.Gen        ( src/Money/Gen.hs, nothing )
[really-safe-money-gen] [12 of 13] Compiling Numeric.DecimalLiteral.Gen ( src/Numeric/DecimalLiteral/Gen.hs, nothing )
[really-safe-money-gen] [13 of 13] Compiling Paths_really_safe_money_gen ( dist/build/autogen/Paths_really_safe_money_gen.hs, nothing )
[really-safe-money-gen] Haddock coverage:
[really-safe-money-gen]    0% (  0 /  1) in 'Money.Amount.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.Account.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.AccountOf.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.AmountOf.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.ConversionRate.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.ConversionRateOf.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.QuantisationFactor.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.Currency.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.MultiAmount.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  1) in 'Money.MultiAccount.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen] Warning: Money.Gen: Could not find documentation for exported module: Money.Gen
[really-safe-money-gen]   90% ( 10 / 11) in 'Money.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]    0% (  0 /  2) in 'Numeric.DecimalLiteral.Gen'
[really-safe-money-gen]   Missing documentation for:
[really-safe-money-gen]     Module header
[really-safe-money-gen]     shrinkSign (src/Numeric/DecimalLiteral/Gen.hs:16)
[really-safe-money-gen] Warning: Money.Amount.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.Amount.Amount
[really-safe-money-gen] 	- Money.Amount.Distribution
[really-safe-money-gen] 	- Money.Amount.Rounding
[really-safe-money-gen] Warning: Money.Account.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.Account.Account
[really-safe-money-gen] Warning: Money.AccountOf.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.AccountOf.AccountOf
[really-safe-money-gen] Warning: Money.AmountOf.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.AmountOf.AmountOf
[really-safe-money-gen] Warning: Money.ConversionRate.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.ConversionRate.ConversionRate
[really-safe-money-gen] Warning: Money.ConversionRateOf.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.ConversionRateOf.ConversionRateOf
[really-safe-money-gen] Warning: Money.QuantisationFactor.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.QuantisationFactor.QuantisationFactor
[really-safe-money-gen] Warning: Money.Currency.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.Currency.Currency
[really-safe-money-gen] Warning: Money.MultiAmount.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.MultiAmount.MultiAmount
[really-safe-money-gen] Warning: Money.MultiAccount.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Money.MultiAccount.MultiAccount
[really-safe-money-gen] Warning: Numeric.DecimalLiteral.Gen: could not find link destinations for: 
[really-safe-money-gen] 	- Numeric.DecimalLiteral.DecimalLiteral
[really-safe-money-gen] Documentation created: dist/doc/html/really-safe-money-gen/,
[really-safe-money-gen] dist/doc/html/really-safe-money-gen/really-safe-money-gen.txt
[really-safe-money-gen] Preprocessing test suite 'really-safe-money-test' for really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] Phase: installPhase
[really-safe-money-gen] Installing library in /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/really-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h
[really-safe-money-gen] Phase: fixupPhase
[really-safe-money-gen] shrinking RPATHs of ELF executables and libraries in /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0
[really-safe-money-gen] shrinking /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/lib/ghc-9.10.3/lib/x86_64-linux-ghc-9.10.3-05f6/libHSreally-safe-money-gen-0.0.0.0-9DfdU4DcgbWHMkem9yRL5h-ghc9.10.3.so
[really-safe-money-gen] checking for references to /build/ in /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0...
[really-safe-money-gen] patching script interpreter paths in /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0
[really-safe-money-gen] stripping (with command strip and flags -S -p) in  /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0/lib
[really-safe-money-gen] shrinking RPATHs of ELF executables and libraries in /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc
[really-safe-money-gen] checking for references to /build/ in /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc...
[really-safe-money-gen] patching script interpreter paths in /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc
[really-safe-money-gen] shrinking RPATHs of ELF executables and libraries in /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report
[really-safe-money-gen] checking for references to /build/ in /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report...
[really-safe-money-gen] patching script interpreter paths in /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report
[post-build-hook] Uploading to cachix cache "sydtest": /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0 /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc
[post-build-hook] Pushing 3 paths (196 are already present) using zstd to cache sydtest ⏳
[post-build-hook] 
[post-build-hook] Pushing /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report (562.31 KiB)
[post-build-hook] Pushing /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc (288.17 KiB)
[post-build-hook] Pushing /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0 (1.35 MiB)
[post-build-hook] 
[post-build-hook] All done.
[post-build-hook] Uploading to the NixCI staging cache: /nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report /nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0 /nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 3 paths...
[post-build-hook] copying path '/nix/store/jsb4vixqjvqxcpxdvmjblzlxfksqhl49-really-safe-money-gen-0.0.0.0-report' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] copying path '/nix/store/zq5b9inl970gfygw3m9wswh7z8kiab2i-really-safe-money-gen-0.0.0.0-doc' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] copying path '/nix/store/m9m22lyckpbrxwj0acv4gclrkj64kwid-really-safe-money-gen-0.0.0.0' to 'https://cache.staging.nix-ci.com'...
[post-build-hook] warning: 'warn-short-path-literals' is deprecated, use 'lint-short-path-literals = ignore' instead
[post-build-hook] copying 1 paths...
[post-build-hook] copying path '/nix/store/qyh2h7rhl3rvypm9249yccfzqqv46lm6-really-safe-money-gen-0.0.0.0.drv' to 'https://cache.staging.nix-ci.com'...
Progress: 5 of 6 built, 8 of 8 downloaded from cache