Source: haskell-criterion Maintainer: Debian Haskell Group Uploaders: Joachim Breitner , Priority: optional Section: haskell Rules-Requires-Root: no Build-Depends: cdbs, debhelper (>= 10), ghc (>= 8.4.3), ghc-prof, haskell-devscripts (>= 0.13), libghc-aeson-dev (>= 0.8), libghc-aeson-prof, libghc-ansi-wl-pprint-dev (>= 0.6.7.2), libghc-ansi-wl-pprint-prof, libghc-base-compat-batteries-dev (>= 0.10), libghc-base-compat-batteries-dev (<< 0.12), libghc-base-compat-batteries-prof, libghc-binary-orphans-dev (>= 1.0.1), libghc-binary-orphans-dev (<< 1.1), libghc-binary-orphans-prof, libghc-cassava-dev (>= 0.3.0.0), libghc-cassava-prof, libghc-glob-dev (>= 0.7.2), libghc-glob-prof, libghc-code-page-dev, libghc-code-page-prof, libghc-criterion-measurement-dev (>= 0.1.1.0), libghc-criterion-measurement-dev (<< 0.2), libghc-criterion-measurement-prof, libghc-exceptions-dev (>= 0.8.2), libghc-exceptions-dev (<< 0.11), libghc-exceptions-prof, libghc-js-flot-dev, libghc-js-flot-prof, libghc-js-jquery-dev, libghc-js-jquery-prof, libghc-microstache-dev (>= 1.0.1), libghc-microstache-dev (<< 1.1), libghc-microstache-prof, libghc-mwc-random-dev (>= 0.8.0.3), libghc-mwc-random-prof, libghc-optparse-applicative-dev (>= 0.13), libghc-optparse-applicative-prof, libghc-statistics-dev (>= 0.14), libghc-statistics-dev (<< 0.16), libghc-statistics-prof, libghc-transformers-compat-dev (>= 0.6.4), libghc-transformers-compat-prof, libghc-vector-algorithms-dev (>= 0.4), libghc-vector-algorithms-prof, libghc-base-compat-batteries-dev, Build-Depends-Indep: ghc-doc, libghc-glob-doc, libghc-aeson-doc, libghc-ansi-wl-pprint-doc, libghc-base-compat-batteries-doc, libghc-binary-orphans-doc, libghc-cassava-doc, libghc-code-page-doc, libghc-criterion-measurement-doc, libghc-exceptions-doc, libghc-js-flot-doc, libghc-js-jquery-doc, libghc-microstache-doc, libghc-mwc-random-doc, libghc-optparse-applicative-doc, libghc-statistics-doc, libghc-transformers-compat-doc, libghc-vector-algorithms-doc, libghc-vector-doc, Standards-Version: 4.1.4 Homepage: http://www.serpentine.com/criterion Vcs-Browser: https://salsa.debian.org/haskell-team/DHG_packages/tree/master/p/haskell-criterion Vcs-Git: https://salsa.debian.org/haskell-team/DHG_packages.git [p/haskell-criterion] Package: libghc-criterion-dev Architecture: any Depends: ${haskell:Depends}, ${misc:Depends}, ${shlibs:Depends}, Recommends: ${haskell:Recommends}, Suggests: ${haskell:Suggests}, Provides: ${haskell:Provides}, Description: Robust, reliable performance measurement and analysis${haskell:ShortBlurb} This library provides a powerful but simple way to measure the performance of Haskell code. It provides both a framework for executing and analysing benchmarks and a set of driver functions that makes it easy to build and run benchmarks, and to analyse their results. . The fastest way to get started is to read the documentation and examples in the Criterion.Main module. . ${haskell:Blurb} Package: libghc-criterion-prof Architecture: any Depends: ${haskell:Depends}, ${misc:Depends}, ${shlibs:Depends}, Recommends: ${haskell:Recommends}, Suggests: ${haskell:Suggests}, Provides: ${haskell:Provides}, Description: Robust, reliable performance measurement and analysis${haskell:ShortBlurb} This library provides a powerful but simple way to measure the performance of Haskell code. It provides both a framework for executing and analysing benchmarks and a set of driver functions that makes it easy to build and run benchmarks, and to analyse their results. . The fastest way to get started is to read the documentation and examples in the Criterion.Main module. . ${haskell:Blurb} Package: libghc-criterion-doc Architecture: all Section: doc Depends: ${haskell:Depends}, ${misc:Depends}, Recommends: ${haskell:Recommends}, Suggests: ${haskell:Suggests}, Description: Robust, reliable performance measurement and analysis${haskell:ShortBlurb} This library provides a powerful but simple way to measure the performance of Haskell code. It provides both a framework for executing and analysing benchmarks and a set of driver functions that makes it easy to build and run benchmarks, and to analyse their results. . The fastest way to get started is to read the documentation and examples in the Criterion.Main module. . ${haskell:Blurb}