depot/third_party/nixpkgs/pkgs/development/haskell-modules/lib/compose.nix

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# TODO(@Ericson2314): Remove `pkgs` param, which is only used for
# `buildStackProject`, `justStaticExecutables` and `checkUnusedPackages`
{ pkgs, lib }:
rec {
/* This function takes a file like `hackage-packages.nix` and constructs
a full package set out of that.
*/
makePackageSet = import ../make-package-set.nix;
/* The function overrideCabal lets you alter the arguments to the
mkDerivation function.
Example:
First, note how the aeson package is constructed in hackage-packages.nix:
"aeson" = callPackage ({ mkDerivation, attoparsec, <snip>
}:
mkDerivation {
pname = "aeson";
<snip>
homepage = "https://github.com/bos/aeson";
})
The mkDerivation function of haskellPackages will take care of putting
the homepage in the right place, in meta.
> haskellPackages.aeson.meta.homepage
"https://github.com/bos/aeson"
> x = haskell.lib.compose.overrideCabal (old: { homepage = old.homepage + "#readme"; }) haskellPackages.aeson
> x.meta.homepage
"https://github.com/bos/aeson#readme"
*/
overrideCabal = f: drv: (drv.override (args: args // {
mkDerivation = drv: (args.mkDerivation drv).override f;
})) // {
overrideScope = scope: overrideCabal f (drv.overrideScope scope);
};
# : Map Name (Either Path VersionNumber) -> HaskellPackageOverrideSet
# Given a set whose values are either paths or version strings, produces
# a package override set (i.e. (self: super: { etc. })) that sets
# the packages named in the input set to the corresponding versions
packageSourceOverrides =
overrides: self: super: pkgs.lib.mapAttrs (name: src:
let isPath = x: builtins.substring 0 1 (toString x) == "/";
generateExprs = if isPath src
then self.callCabal2nix
else self.callHackage;
in generateExprs name src {}) overrides;
/* doCoverage modifies a haskell package to enable the generation
and installation of a coverage report.
See https://wiki.haskell.org/Haskell_program_coverage
*/
doCoverage = overrideCabal (drv: { doCoverage = true; });
/* dontCoverage modifies a haskell package to disable the generation
and installation of a coverage report.
*/
dontCoverage = overrideCabal (drv: { doCoverage = false; });
/* doHaddock modifies a haskell package to enable the generation and
installation of API documentation from code comments using the
haddock tool.
*/
doHaddock = overrideCabal (drv: { doHaddock = true; });
/* dontHaddock modifies a haskell package to disable the generation and
installation of API documentation from code comments using the
haddock tool.
*/
dontHaddock = overrideCabal (drv: { doHaddock = false; });
/* doJailbreak enables the removal of version bounds from the cabal
file. You may want to avoid this function.
This is useful when a package reports that it can not be built
due to version mismatches. In some cases, removing the version
bounds entirely is an easy way to make a package build, but at
the risk of breaking software in non-obvious ways now or in the
future.
Instead of jailbreaking, you can patch the cabal file.
Note that jailbreaking at this time, doesn't lift bounds on
conditional branches.
https://github.com/peti/jailbreak-cabal/issues/7 has further details.
*/
doJailbreak = overrideCabal (drv: { jailbreak = true; });
/* dontJailbreak restores the use of the version bounds the check
the use of dependencies in the package description.
*/
dontJailbreak = overrideCabal (drv: { jailbreak = false; });
/* doCheck enables dependency checking, compilation and execution
of test suites listed in the package description file.
*/
doCheck = overrideCabal (drv: { doCheck = true; });
/* dontCheck disables dependency checking, compilation and execution
of test suites listed in the package description file.
*/
dontCheck = overrideCabal (drv: { doCheck = false; });
/* doBenchmark enables dependency checking, compilation and execution
for benchmarks listed in the package description file.
*/
doBenchmark = overrideCabal (drv: { doBenchmark = true; });
/* dontBenchmark disables dependency checking, compilation and execution
for benchmarks listed in the package description file.
*/
dontBenchmark = overrideCabal (drv: { doBenchmark = false; });
/* doDistribute enables the distribution of binaries for the package
via hydra.
*/
doDistribute = overrideCabal (drv: {
# lib.platforms.all is the default value for platforms (since GHC can cross-compile)
hydraPlatforms = drv.platforms or lib.platforms.all;
});
/* dontDistribute disables the distribution of binaries for the package
via hydra.
*/
dontDistribute = overrideCabal (drv: { hydraPlatforms = []; });
/* appendConfigureFlag adds a single argument that will be passed to the
cabal configure command, after the arguments that have been defined
in the initial declaration or previous overrides.
Example:
> haskell.lib.compose.appendConfigureFlag "--profiling-detail=all-functions" haskellPackages.servant
*/
appendConfigureFlag = x: appendConfigureFlags [x];
appendConfigureFlags = xs: overrideCabal (drv: { configureFlags = (drv.configureFlags or []) ++ xs; });
appendBuildFlag = x: overrideCabal (drv: { buildFlags = (drv.buildFlags or []) ++ [x]; });
appendBuildFlags = xs: overrideCabal (drv: { buildFlags = (drv.buildFlags or []) ++ xs; });
/* removeConfigureFlag drv x is a Haskell package like drv, but with
all cabal configure arguments that are equal to x removed.
> haskell.lib.compose.removeConfigureFlag "--verbose" haskellPackages.servant
*/
removeConfigureFlag = x: overrideCabal (drv: { configureFlags = lib.remove x (drv.configureFlags or []); });
addBuildTool = x: addBuildTools [x];
addBuildTools = xs: overrideCabal (drv: { buildTools = (drv.buildTools or []) ++ xs; });
addExtraLibrary = x: addExtraLibraries [x];
addExtraLibraries = xs: overrideCabal (drv: { extraLibraries = (drv.extraLibraries or []) ++ xs; });
addBuildDepend = x: addBuildDepends [x];
addBuildDepends = xs: overrideCabal (drv: { buildDepends = (drv.buildDepends or []) ++ xs; });
addTestToolDepend = x: addTestToolDepends [x];
addTestToolDepends = xs: overrideCabal (drv: { testToolDepends = (drv.testToolDepends or []) ++ xs; });
addPkgconfigDepend = x: addPkgconfigDepends [x];
addPkgconfigDepends = xs: overrideCabal (drv: { pkg-configDepends = (drv.pkg-configDepends or []) ++ xs; });
addSetupDepend = x: addSetupDepends [x];
addSetupDepends = xs: overrideCabal (drv: { setupHaskellDepends = (drv.setupHaskellDepends or []) ++ xs; });
enableCabalFlag = x: drv: appendConfigureFlag "-f${x}" (removeConfigureFlag "-f-${x}" drv);
disableCabalFlag = x: drv: appendConfigureFlag "-f-${x}" (removeConfigureFlag "-f${x}" drv);
markBroken = overrideCabal (drv: { broken = true; hydraPlatforms = []; });
unmarkBroken = overrideCabal (drv: { broken = false; });
markBrokenVersion = version: drv: assert drv.version == version; markBroken drv;
markUnbroken = overrideCabal (drv: { broken = false; });
enableLibraryProfiling = overrideCabal (drv: { enableLibraryProfiling = true; });
disableLibraryProfiling = overrideCabal (drv: { enableLibraryProfiling = false; });
enableExecutableProfiling = overrideCabal (drv: { enableExecutableProfiling = true; });
disableExecutableProfiling = overrideCabal (drv: { enableExecutableProfiling = false; });
enableSharedExecutables = overrideCabal (drv: { enableSharedExecutables = true; });
disableSharedExecutables = overrideCabal (drv: { enableSharedExecutables = false; });
enableSharedLibraries = overrideCabal (drv: { enableSharedLibraries = true; });
disableSharedLibraries = overrideCabal (drv: { enableSharedLibraries = false; });
enableDeadCodeElimination = overrideCabal (drv: { enableDeadCodeElimination = true; });
disableDeadCodeElimination = overrideCabal (drv: { enableDeadCodeElimination = false; });
enableStaticLibraries = overrideCabal (drv: { enableStaticLibraries = true; });
disableStaticLibraries = overrideCabal (drv: { enableStaticLibraries = false; });
enableSeparateBinOutput = overrideCabal (drv: { enableSeparateBinOutput = true; });
appendPatch = x: appendPatches [x];
appendPatches = xs: overrideCabal (drv: { patches = (drv.patches or []) ++ xs; });
/* Set a specific build target instead of compiling all targets in the package.
* For example, imagine we have a .cabal file with a library, and 2 executables "dev" and "server".
* We can build only "server" and not wait on the compilation of "dev" by using setBuildTarget as follows:
*
* > setBuildTarget "server" (callCabal2nix "thePackageName" thePackageSrc {})
*
*/
setBuildTargets = xs: overrideCabal (drv: { buildTarget = lib.concatStringsSep " " xs; });
setBuildTarget = x: setBuildTargets [x];
doHyperlinkSource = overrideCabal (drv: { hyperlinkSource = true; });
dontHyperlinkSource = overrideCabal (drv: { hyperlinkSource = false; });
disableHardening = flags: overrideCabal (drv: { hardeningDisable = flags; });
/* Let Nix strip the binary files.
* This removes debugging symbols.
*/
doStrip = overrideCabal (drv: { dontStrip = false; });
/* Stop Nix from stripping the binary files.
* This keeps debugging symbols.
*/
dontStrip = overrideCabal (drv: { dontStrip = true; });
/* Useful for debugging segfaults with gdb.
* This includes dontStrip.
*/
enableDWARFDebugging = drv:
# -g: enables debugging symbols
# --disable-*-stripping: tell GHC not to strip resulting binaries
# dontStrip: see above
appendConfigureFlag "--ghc-options=-g --disable-executable-stripping --disable-library-stripping" (dontStrip drv);
/* Create a source distribution tarball like those found on hackage,
instead of building the package.
*/
sdistTarball = pkg: lib.overrideDerivation pkg (drv: {
name = "${drv.pname}-source-${drv.version}";
# Since we disable the haddock phase, we also need to override the
# outputs since the separate doc output will not be produced.
outputs = ["out"];
buildPhase = "./Setup sdist";
haddockPhase = ":";
checkPhase = ":";
installPhase = "install -D dist/${drv.pname}-*.tar.gz $out/${drv.pname}-${drv.version}.tar.gz";
fixupPhase = ":";
});
/* Create a documentation tarball suitable for uploading to Hackage instead
of building the package.
*/
documentationTarball = pkg:
pkgs.lib.overrideDerivation pkg (drv: {
name = "${drv.name}-docs";
# Like sdistTarball, disable the "doc" output here.
outputs = [ "out" ];
buildPhase = ''
runHook preHaddock
./Setup haddock --for-hackage
runHook postHaddock
'';
haddockPhase = ":";
checkPhase = ":";
installPhase = ''
runHook preInstall
mkdir -p "$out"
tar --format=ustar \
-czf "$out/${drv.name}-docs.tar.gz" \
-C dist/doc/html "${drv.name}-docs"
runHook postInstall
'';
});
/* Use the gold linker. It is a linker for ELF that is designed
"to run as fast as possible on modern systems"
*/
linkWithGold = appendConfigureFlag
"--ghc-option=-optl-fuse-ld=gold --ld-option=-fuse-ld=gold --with-ld=ld.gold";
/* link executables statically against haskell libs to reduce
closure size
*/
justStaticExecutables = overrideCabal (drv: {
enableSharedExecutables = false;
enableLibraryProfiling = false;
isLibrary = false;
doHaddock = false;
postFixup = "rm -rf $out/lib $out/nix-support $out/share/doc";
});
/* Build a source distribution tarball instead of using the source files
directly. The effect is that the package is built as if it were published
on hackage. This can be used as a test for the source distribution,
assuming the build fails when packaging mistakes are in the cabal file.
*/
buildFromSdist = pkg: overrideCabal (drv: {
src = "${sdistTarball pkg}/${pkg.pname}-${pkg.version}.tar.gz";
# Revising and jailbreaking the cabal file has been handled in sdistTarball
revision = null;
editedCabalFile = null;
jailbreak = false;
}) pkg;
/* Build the package in a strict way to uncover potential problems.
This includes buildFromSdist and failOnAllWarnings.
*/
buildStrictly = pkg: buildFromSdist (failOnAllWarnings pkg);
/* Disable core optimizations, significantly speeds up build time */
disableOptimization = appendConfigureFlag "--disable-optimization";
/* Turn on most of the compiler warnings and fail the build if any
of them occur. */
failOnAllWarnings = appendConfigureFlag "--ghc-option=-Wall --ghc-option=-Werror";
/* Add a post-build check to verify that dependencies declared in
the cabal file are actually used.
The first attrset argument can be used to configure the strictness
of this check and a list of ignored package names that would otherwise
cause false alarms.
*/
checkUnusedPackages =
{ ignoreEmptyImports ? false
, ignoreMainModule ? false
, ignorePackages ? []
} : drv :
overrideCabal (_drv: {
postBuild = with lib;
let args = concatStringsSep " " (
optional ignoreEmptyImports "--ignore-empty-imports" ++
optional ignoreMainModule "--ignore-main-module" ++
map (pkg: "--ignore-package ${pkg}") ignorePackages
);
in "${pkgs.haskellPackages.packunused}/bin/packunused" +
optionalString (args != "") " ${args}";
}) (appendConfigureFlag "--ghc-option=-ddump-minimal-imports" drv);
buildStackProject = pkgs.callPackage ../generic-stack-builder.nix { };
/* Add a dummy command to trigger a build despite an equivalent
earlier build that is present in the store or cache.
*/
triggerRebuild = i: overrideCabal (drv: { postUnpack = ": trigger rebuild ${toString i}"; });
/* Override the sources for the package and optionaly the version.
This also takes of removing editedCabalFile.
*/
overrideSrc = { src, version ? null }: drv:
overrideCabal (_: { inherit src; version = if version == null then drv.version else version; editedCabalFile = null; }) drv;
# Get all of the build inputs of a haskell package, divided by category.
getBuildInputs = p: p.getBuildInputs;
# Extract the haskell build inputs of a haskell package.
# This is useful to build environments for developing on that
# package.
getHaskellBuildInputs = p: (getBuildInputs p).haskellBuildInputs;
# Under normal evaluation, simply return the original package. Under
# nix-shell evaluation, return a nix-shell optimized environment.
shellAware = p: if lib.inNixShell then p.env else p;
ghcInfo = ghc:
rec { isCross = (ghc.cross or null) != null;
isGhcjs = ghc.isGhcjs or false;
nativeGhc = if isCross || isGhcjs
then ghc.bootPkgs.ghc
else ghc;
};
### mkDerivation helpers
# These allow external users of a haskell package to extract
# information about how it is built in the same way that the
# generic haskell builder does, by reusing the same functions.
# Each function here has the same interface as mkDerivation and thus
# can be called for a given package simply by overriding the
# mkDerivation argument it used. See getHaskellBuildInputs above for
# an example of this.
# Some information about which phases should be run.
controlPhases = ghc: let inherit (ghcInfo ghc) isCross; in
{ doCheck ? !isCross && (lib.versionOlder "7.4" ghc.version)
, doBenchmark ? false
, ...
}: { inherit doCheck doBenchmark; };
# Utility to convert a directory full of `cabal2nix`-generated files into a
# package override set
#
# packagesFromDirectory : { directory : Directory, ... } -> HaskellPackageOverrideSet
packagesFromDirectory =
{ directory, ... }:
self: super:
let
haskellPaths = builtins.attrNames (builtins.readDir directory);
toKeyVal = file: {
name = builtins.replaceStrings [ ".nix" ] [ "" ] file;
value = self.callPackage (directory + "/${file}") { };
};
in
builtins.listToAttrs (map toKeyVal haskellPaths);
addOptparseApplicativeCompletionScripts = exeName: pkg:
builtins.trace "addOptparseApplicativeCompletionScripts is deprecated in favor of generateOptparseApplicativeCompletion. Please change ${pkg.name} to use the latter or its plural form."
(generateOptparseApplicativeCompletion exeName pkg);
/*
Modify a Haskell package to add shell completion scripts for the
given executable produced by it. These completion scripts will be
picked up automatically if the resulting derivation is installed,
e.g. by `nix-env -i`.
Invocation:
generateOptparseApplicativeCompletion command pkg
command: name of an executable
pkg: Haskell package that builds the executables
*/
generateOptparseApplicativeCompletion = exeName: overrideCabal (drv: {
postInstall = (drv.postInstall or "") + ''
bashCompDir="''${!outputBin}/share/bash-completion/completions"
zshCompDir="''${!outputBin}/share/zsh/vendor-completions"
fishCompDir="''${!outputBin}/share/fish/vendor_completions.d"
mkdir -p "$bashCompDir" "$zshCompDir" "$fishCompDir"
"''${!outputBin}/bin/${exeName}" --bash-completion-script "''${!outputBin}/bin/${exeName}" >"$bashCompDir/${exeName}"
"''${!outputBin}/bin/${exeName}" --zsh-completion-script "''${!outputBin}/bin/${exeName}" >"$zshCompDir/_${exeName}"
"''${!outputBin}/bin/${exeName}" --fish-completion-script "''${!outputBin}/bin/${exeName}" >"$fishCompDir/${exeName}.fish"
# Sanity check
grep -F ${exeName} <$bashCompDir/${exeName} >/dev/null || {
echo 'Could not find ${exeName} in completion script.'
exit 1
}
'';
});
/*
Modify a Haskell package to add shell completion scripts for the
given executables produced by it. These completion scripts will be
picked up automatically if the resulting derivation is installed,
e.g. by `nix-env -i`.
Invocation:
generateOptparseApplicativeCompletions commands pkg
commands: name of an executable
pkg: Haskell package that builds the executables
*/
generateOptparseApplicativeCompletions = commands: pkg:
pkgs.lib.foldr generateOptparseApplicativeCompletion pkg commands;
# Don't fail at configure time if there are multiple versions of the
# same package in the (recursive) dependencies of the package being
# built. Will delay failures, if any, to compile time.
allowInconsistentDependencies = overrideCabal (drv: {
allowInconsistentDependencies = true;
});
}