Cabal revisions of scientific-0.3.4.0
Hackage metadata revisions edit the .cabal file after upload; each diff below is one revision.
revision 1
-name: scientific-version: 0.3.4.0-synopsis: Numbers represented using scientific notation-description:- @Data.Scientific@ provides the number type 'Scientific'. Scientific numbers are- arbitrary precision and space efficient. They are represented using- <http://en.wikipedia.org/wiki/Scientific_notation scientific notation>.- The implementation uses a coefficient @c :: 'Integer'@ and a base-10 exponent- @e :: 'Int'@. A scientific number corresponds to the- 'Fractional' number: @'fromInteger' c * 10 '^^' e@.- .- Note that since we're using an 'Int' to represent the exponent these numbers- aren't truly arbitrary precision. I intend to change the type of the exponent- to 'Integer' in a future release.- .- The main application of 'Scientific' is to be used as the target of parsing- arbitrary precision numbers coming from an untrusted source. The advantages- over using 'Rational' for this are that:- .- * A 'Scientific' is more efficient to construct. Rational numbers need to be- constructed using '%' which has to compute the 'gcd' of the 'numerator' and- 'denominator'.- .- * 'Scientific' is safe against numbers with huge exponents. For example:- @1e1000000000 :: 'Rational'@ will fill up all space and crash your- program. Scientific works as expected:- .- > > read "1e1000000000" :: Scientific- > 1.0e1000000000- .- * Also, the space usage of converting scientific numbers with huge exponents to- @'Integral's@ (like: 'Int') or @'RealFloat's@ (like: 'Double' or 'Float')- will always be bounded by the target type.--homepage: https://github.com/basvandijk/scientific-bug-reports: https://github.com/basvandijk/scientific/issues-license: BSD3-license-file: LICENSE-author: Bas van Dijk-maintainer: Bas van Dijk <v.dijk.bas@gmail.com>-category: Data-build-type: Simple-cabal-version: >=1.10--extra-source-files:- changelog--source-repository head- type: git- location: git://github.com/basvandijk/scientific.git--flag bytestring-builder- description: Provide the Data.ByteString.Builder.Scientific module- (requires bytestring >= 0.10)- default: True- manual: True--flag integer-simple- description: Use the integer-simple package instead of integer-gmp- default: False--library- exposed-modules: Data.Scientific- Data.Text.Lazy.Builder.Scientific- other-modules: Math.NumberTheory.Logarithms- Utils- other-extensions: DeriveDataTypeable, BangPatterns- ghc-options: -Wall- build-depends: base >= 4.3 && < 4.9- , ghc-prim- , deepseq >= 1.3 && < 1.5- , text >= 0.8 && < 1.3- , hashable >= 1.1.2 && < 1.3- , vector >= 0.5 && < 0.12- , containers >= 0.5 && < 0.6- , binary >= 0.4.1 && < 0.8-- if flag(integer-simple)- build-depends: integer-simple- CPP-options: -DINTEGER_SIMPLE- else- build-depends: integer-gmp-- hs-source-dirs: src- default-language: Haskell2010-- if flag(bytestring-builder)- exposed-modules: Data.ByteString.Builder.Scientific- build-depends: bytestring >= 0.10 && < 0.11-- if impl(ghc >= 7.2.1)- cpp-options: -DGENERICS--test-suite test-scientific- type: exitcode-stdio-1.0- hs-source-dirs: test- main-is: test.hs- default-language: Haskell2010- ghc-options: -Wall-- build-depends: scientific- , base >= 4.3 && < 4.9- , binary >= 0.4.1 && < 0.8- , tasty >= 0.5 && < 0.12- , tasty-ant-xml >= 1.0 && < 1.1- , tasty-hunit >= 0.8 && < 0.10- , tasty-smallcheck >= 0.2 && < 0.9- , tasty-quickcheck >= 0.8 && < 0.9- , smallcheck >= 1.0 && < 1.2- , QuickCheck >= 2.5 && < 2.9- , text >= 0.8 && < 1.3-- if flag(bytestring-builder)- build-depends: bytestring >= 0.10 && < 0.11- cpp-options: -DBYTESTRING_BUILDER--benchmark bench-scientific- type: exitcode-stdio-1.0- hs-source-dirs: bench src- main-is: bench.hs- default-language: Haskell2010- ghc-options: -O2- build-depends: base >= 4.3 && < 4.9- , criterion >= 0.5 && < 1.2- , ghc-prim- , deepseq >= 1.3 && < 1.5- , text >= 0.8 && < 1.3- , bytestring >= 0.10 && < 0.11- , hashable >= 1.1.2 && < 1.3- , vector >= 0.5 && < 0.12-- if flag(integer-simple)- build-depends: integer-simple- else- build-depends: integer-gmp+name: scientific +version: 0.3.4.0 +x-revision: 1 +synopsis: Numbers represented using scientific notation +description: + @Data.Scientific@ provides the number type 'Scientific'. Scientific numbers are + arbitrary precision and space efficient. They are represented using + <http://en.wikipedia.org/wiki/Scientific_notation scientific notation>. + The implementation uses a coefficient @c :: 'Integer'@ and a base-10 exponent + @e :: 'Int'@. A scientific number corresponds to the + 'Fractional' number: @'fromInteger' c * 10 '^^' e@. + . + Note that since we're using an 'Int' to represent the exponent these numbers + aren't truly arbitrary precision. I intend to change the type of the exponent + to 'Integer' in a future release. + . + The main application of 'Scientific' is to be used as the target of parsing + arbitrary precision numbers coming from an untrusted source. The advantages + over using 'Rational' for this are that: + . + * A 'Scientific' is more efficient to construct. Rational numbers need to be + constructed using '%' which has to compute the 'gcd' of the 'numerator' and + 'denominator'. + . + * 'Scientific' is safe against numbers with huge exponents. For example: + @1e1000000000 :: 'Rational'@ will fill up all space and crash your + program. Scientific works as expected: + . + > > read "1e1000000000" :: Scientific + > 1.0e1000000000 + . + * Also, the space usage of converting scientific numbers with huge exponents to + @'Integral's@ (like: 'Int') or @'RealFloat's@ (like: 'Double' or 'Float') + will always be bounded by the target type. + +homepage: https://github.com/basvandijk/scientific +bug-reports: https://github.com/basvandijk/scientific/issues +license: BSD3 +license-file: LICENSE +author: Bas van Dijk +maintainer: Bas van Dijk <v.dijk.bas@gmail.com> +category: Data +build-type: Simple +cabal-version: >=1.10 + +extra-source-files: + changelog + +source-repository head + type: git + location: git://github.com/basvandijk/scientific.git + +flag bytestring-builder + description: Provide the Data.ByteString.Builder.Scientific module + (requires bytestring >= 0.10) + default: True + manual: True + +flag integer-simple + description: Use the integer-simple package instead of integer-gmp + default: False + +library + exposed-modules: Data.Scientific + Data.Text.Lazy.Builder.Scientific + other-modules: Math.NumberTheory.Logarithms + Utils + other-extensions: DeriveDataTypeable, BangPatterns + ghc-options: -Wall + build-depends: base >= 4.6 && < 4.9 + , ghc-prim + , deepseq >= 1.3 && < 1.5 + , text >= 0.8 && < 1.3 + , hashable >= 1.1.2 && < 1.3 + , vector >= 0.5 && < 0.12 + , containers >= 0.5 && < 0.6 + , binary >= 0.4.1 && < 0.8 + + if flag(integer-simple) + build-depends: integer-simple + CPP-options: -DINTEGER_SIMPLE + else + build-depends: integer-gmp + + hs-source-dirs: src + default-language: Haskell2010 + + if flag(bytestring-builder) + exposed-modules: Data.ByteString.Builder.Scientific + build-depends: bytestring >= 0.10 && < 0.11 + + if impl(ghc >= 7.2.1) + cpp-options: -DGENERICS + +test-suite test-scientific + type: exitcode-stdio-1.0 + hs-source-dirs: test + main-is: test.hs + default-language: Haskell2010 + ghc-options: -Wall + + build-depends: scientific + , base >= 4.6 && < 4.9 + , binary >= 0.4.1 && < 0.8 + , tasty >= 0.5 && < 0.12 + , tasty-ant-xml >= 1.0 && < 1.1 + , tasty-hunit >= 0.8 && < 0.10 + , tasty-smallcheck >= 0.2 && < 0.9 + , tasty-quickcheck >= 0.8 && < 0.9 + , smallcheck >= 1.0 && < 1.2 + , QuickCheck >= 2.5 && < 2.9 + , text >= 0.8 && < 1.3 + + if flag(bytestring-builder) + build-depends: bytestring >= 0.10 && < 0.11 + cpp-options: -DBYTESTRING_BUILDER + +benchmark bench-scientific + type: exitcode-stdio-1.0 + hs-source-dirs: bench src + main-is: bench.hs + default-language: Haskell2010 + ghc-options: -O2 + build-depends: base >= 4.6 && < 4.9 + , criterion >= 0.5 && < 1.2 + , ghc-prim + , deepseq >= 1.3 && < 1.5 + , text >= 0.8 && < 1.3 + , bytestring >= 0.10 && < 0.11 + , hashable >= 1.1.2 && < 1.3 + , vector >= 0.5 && < 0.12 + + if flag(integer-simple) + build-depends: integer-simple + else + build-depends: integer-gmp
revision 2
-name: scientific -version: 0.3.4.0 -x-revision: 1 -synopsis: Numbers represented using scientific notation -description: - @Data.Scientific@ provides the number type 'Scientific'. Scientific numbers are - arbitrary precision and space efficient. They are represented using - <http://en.wikipedia.org/wiki/Scientific_notation scientific notation>. - The implementation uses a coefficient @c :: 'Integer'@ and a base-10 exponent - @e :: 'Int'@. A scientific number corresponds to the - 'Fractional' number: @'fromInteger' c * 10 '^^' e@. - . - Note that since we're using an 'Int' to represent the exponent these numbers - aren't truly arbitrary precision. I intend to change the type of the exponent - to 'Integer' in a future release. - . - The main application of 'Scientific' is to be used as the target of parsing - arbitrary precision numbers coming from an untrusted source. The advantages - over using 'Rational' for this are that: - . - * A 'Scientific' is more efficient to construct. Rational numbers need to be - constructed using '%' which has to compute the 'gcd' of the 'numerator' and - 'denominator'. - . - * 'Scientific' is safe against numbers with huge exponents. For example: - @1e1000000000 :: 'Rational'@ will fill up all space and crash your - program. Scientific works as expected: - . - > > read "1e1000000000" :: Scientific - > 1.0e1000000000 - . - * Also, the space usage of converting scientific numbers with huge exponents to - @'Integral's@ (like: 'Int') or @'RealFloat's@ (like: 'Double' or 'Float') - will always be bounded by the target type. - -homepage: https://github.com/basvandijk/scientific -bug-reports: https://github.com/basvandijk/scientific/issues -license: BSD3 -license-file: LICENSE -author: Bas van Dijk -maintainer: Bas van Dijk <v.dijk.bas@gmail.com> -category: Data -build-type: Simple -cabal-version: >=1.10 - -extra-source-files: - changelog - -source-repository head - type: git - location: git://github.com/basvandijk/scientific.git - -flag bytestring-builder - description: Provide the Data.ByteString.Builder.Scientific module - (requires bytestring >= 0.10) - default: True - manual: True - -flag integer-simple - description: Use the integer-simple package instead of integer-gmp - default: False - -library - exposed-modules: Data.Scientific - Data.Text.Lazy.Builder.Scientific - other-modules: Math.NumberTheory.Logarithms - Utils - other-extensions: DeriveDataTypeable, BangPatterns - ghc-options: -Wall - build-depends: base >= 4.6 && < 4.9 - , ghc-prim - , deepseq >= 1.3 && < 1.5 - , text >= 0.8 && < 1.3 - , hashable >= 1.1.2 && < 1.3 - , vector >= 0.5 && < 0.12 - , containers >= 0.5 && < 0.6 - , binary >= 0.4.1 && < 0.8 - - if flag(integer-simple) - build-depends: integer-simple - CPP-options: -DINTEGER_SIMPLE - else - build-depends: integer-gmp - - hs-source-dirs: src - default-language: Haskell2010 - - if flag(bytestring-builder) - exposed-modules: Data.ByteString.Builder.Scientific - build-depends: bytestring >= 0.10 && < 0.11 - - if impl(ghc >= 7.2.1) - cpp-options: -DGENERICS - -test-suite test-scientific - type: exitcode-stdio-1.0 - hs-source-dirs: test - main-is: test.hs - default-language: Haskell2010 - ghc-options: -Wall - - build-depends: scientific - , base >= 4.6 && < 4.9 - , binary >= 0.4.1 && < 0.8 - , tasty >= 0.5 && < 0.12 - , tasty-ant-xml >= 1.0 && < 1.1 - , tasty-hunit >= 0.8 && < 0.10 - , tasty-smallcheck >= 0.2 && < 0.9 - , tasty-quickcheck >= 0.8 && < 0.9 - , smallcheck >= 1.0 && < 1.2 - , QuickCheck >= 2.5 && < 2.9 - , text >= 0.8 && < 1.3 - - if flag(bytestring-builder) - build-depends: bytestring >= 0.10 && < 0.11 - cpp-options: -DBYTESTRING_BUILDER - -benchmark bench-scientific - type: exitcode-stdio-1.0 - hs-source-dirs: bench src - main-is: bench.hs - default-language: Haskell2010 - ghc-options: -O2 - build-depends: base >= 4.6 && < 4.9 - , criterion >= 0.5 && < 1.2 - , ghc-prim - , deepseq >= 1.3 && < 1.5 - , text >= 0.8 && < 1.3 - , bytestring >= 0.10 && < 0.11 - , hashable >= 1.1.2 && < 1.3 - , vector >= 0.5 && < 0.12 - - if flag(integer-simple) - build-depends: integer-simple - else - build-depends: integer-gmp +name: scientific+version: 0.3.4.0+x-revision: 2+synopsis: Numbers represented using scientific notation+description:+ @Data.Scientific@ provides the number type 'Scientific'. Scientific numbers are+ arbitrary precision and space efficient. They are represented using+ <http://en.wikipedia.org/wiki/Scientific_notation scientific notation>.+ The implementation uses a coefficient @c :: 'Integer'@ and a base-10 exponent+ @e :: 'Int'@. A scientific number corresponds to the+ 'Fractional' number: @'fromInteger' c * 10 '^^' e@.+ .+ Note that since we're using an 'Int' to represent the exponent these numbers+ aren't truly arbitrary precision. I intend to change the type of the exponent+ to 'Integer' in a future release.+ .+ The main application of 'Scientific' is to be used as the target of parsing+ arbitrary precision numbers coming from an untrusted source. The advantages+ over using 'Rational' for this are that:+ .+ * A 'Scientific' is more efficient to construct. Rational numbers need to be+ constructed using '%' which has to compute the 'gcd' of the 'numerator' and+ 'denominator'.+ .+ * 'Scientific' is safe against numbers with huge exponents. For example:+ @1e1000000000 :: 'Rational'@ will fill up all space and crash your+ program. Scientific works as expected:+ .+ > > read "1e1000000000" :: Scientific+ > 1.0e1000000000+ .+ * Also, the space usage of converting scientific numbers with huge exponents to+ @'Integral's@ (like: 'Int') or @'RealFloat's@ (like: 'Double' or 'Float')+ will always be bounded by the target type.++homepage: https://github.com/basvandijk/scientific+bug-reports: https://github.com/basvandijk/scientific/issues+license: BSD3+license-file: LICENSE+author: Bas van Dijk+maintainer: Bas van Dijk <v.dijk.bas@gmail.com>+category: Data+build-type: Simple+cabal-version: >=1.10++extra-source-files:+ changelog++source-repository head+ type: git+ location: git://github.com/basvandijk/scientific.git++flag bytestring-builder+ description: Provide the Data.ByteString.Builder.Scientific module+ (requires bytestring >= 0.10)+ default: True+ manual: True++flag integer-simple+ description: Use the integer-simple package instead of integer-gmp+ default: False++library+ exposed-modules: Data.Scientific+ Data.Text.Lazy.Builder.Scientific+ other-modules: Math.NumberTheory.Logarithms+ Utils+ other-extensions: DeriveDataTypeable, BangPatterns+ ghc-options: -Wall+ build-depends: base >= 4.6 && < 4.9+ , ghc-prim+ , deepseq >= 1.3 && < 1.5+ , text >= 0.8 && < 1.3+ , hashable >= 1.1.2 && < 1.3+ , vector >= 0.7 && < 0.12+ , containers >= 0.5 && < 0.6+ , binary >= 0.4.1 && < 0.8++ if flag(integer-simple)+ build-depends: integer-simple+ CPP-options: -DINTEGER_SIMPLE+ else+ build-depends: integer-gmp++ hs-source-dirs: src+ default-language: Haskell2010++ if flag(bytestring-builder)+ exposed-modules: Data.ByteString.Builder.Scientific+ build-depends: bytestring >= 0.10 && < 0.11++ if impl(ghc >= 7.2.1)+ cpp-options: -DGENERICS++test-suite test-scientific+ type: exitcode-stdio-1.0+ hs-source-dirs: test+ main-is: test.hs+ default-language: Haskell2010+ ghc-options: -Wall++ build-depends: scientific+ , base >= 4.6 && < 4.9+ , binary >= 0.4.1 && < 0.8+ , tasty >= 0.5 && < 0.12+ , tasty-ant-xml >= 1.0 && < 1.1+ , tasty-hunit >= 0.8 && < 0.10+ , tasty-smallcheck >= 0.2 && < 0.9+ , tasty-quickcheck >= 0.8 && < 0.9+ , smallcheck >= 1.0 && < 1.2+ , QuickCheck >= 2.5 && < 2.9+ , text >= 0.8 && < 1.3++ if flag(bytestring-builder)+ build-depends: bytestring >= 0.10 && < 0.11+ cpp-options: -DBYTESTRING_BUILDER++benchmark bench-scientific+ type: exitcode-stdio-1.0+ hs-source-dirs: bench src+ main-is: bench.hs+ default-language: Haskell2010+ ghc-options: -O2+ build-depends: base >= 4.6 && < 4.9+ , criterion >= 0.5 && < 1.2+ , ghc-prim+ , deepseq >= 1.3 && < 1.5+ , text >= 0.8 && < 1.3+ , bytestring >= 0.10 && < 0.11+ , hashable >= 1.1.2 && < 1.3+ , vector >= 0.7 && < 0.12++ if flag(integer-simple)+ build-depends: integer-simple+ else+ build-depends: integer-gmp