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https://github.com/NixOS/nixpkgs.git
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eadcd4462d
this because 'ld' wants to know the path of every library involved in a dynamic linking. I imagine that ld does not need that in native builds because it can call the loader for it to resolve the library rpaths, but this is not the case for cross-building. svn path=/nixpkgs/branches/stdenv-updates/; revision=18577
262 lines
9.6 KiB
Nix
262 lines
9.6 KiB
Nix
/* This file contains various functions that take a stdenv and return
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a new stdenv with different behaviour, e.g. using a different C
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compiler. */
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{dietlibc, fetchurl, runCommand}:
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rec {
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# Override the compiler in stdenv for specific packages.
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overrideGCC = stdenv: gcc: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args // { NIX_GCC = gcc; });
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};
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# Add some arbitrary packages to buildInputs for specific packages.
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# Used to override packages in stenv like Make. Should not be used
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# for other dependencies.
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overrideInStdenv = stdenv: pkgs: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args //
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{ buildInputs = (if args ? buildInputs then args.buildInputs else []) ++ pkgs; }
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);
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};
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# Override the setup script of stdenv. Useful for testing new
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# versions of the setup script without causing a rebuild of
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# everything.
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#
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# Example:
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# randomPkg = import ../bla { ...
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# stdenv = overrideSetup stdenv ../stdenv/generic/setup-latest.sh;
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# };
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overrideSetup = stdenv: setup: stdenv.regenerate setup;
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# Return a modified stdenv that uses dietlibc to create small
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# statically linked binaries.
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useDietLibC = stdenv: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args // {
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NIX_CFLAGS_LINK = "-static";
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# libcompat.a contains some commonly used functions.
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NIX_LDFLAGS = "-lcompat";
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# These are added *after* the command-line flags, so we'll
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# always optimise for size.
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NIX_CFLAGS_COMPILE =
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(if args ? NIX_CFLAGS_COMPILE then args.NIX_CFLAGS_COMPILE else "")
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+ " -Os -s -D_BSD_SOURCE=1";
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configureFlags =
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(if args ? configureFlags then args.configureFlags else "")
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+ " --disable-shared"; # brrr...
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NIX_GCC = import ../build-support/gcc-wrapper {
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inherit stdenv;
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libc = dietlibc;
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inherit (stdenv.gcc) gcc binutils nativeTools nativePrefix;
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nativeLibc = false;
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};
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});
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isDietLibC = true;
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} // {inherit fetchurl;};
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# Return a modified stdenv that uses klibc to create small
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# statically linked binaries.
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useKlibc = stdenv: klibc: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args // {
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NIX_CFLAGS_LINK = "-static";
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# These are added *after* the command-line flags, so we'll
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# always optimise for size.
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NIX_CFLAGS_COMPILE =
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(if args ? NIX_CFLAGS_COMPILE then args.NIX_CFLAGS_COMPILE else "")
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+ " -Os -s";
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configureFlags =
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(if args ? configureFlags then args.configureFlags else "")
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+ " --disable-shared"; # brrr...
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NIX_GCC = runCommand "klibc-wrapper" {} ''
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ensureDir $out/bin
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ln -s ${klibc}/bin/klcc $out/bin/gcc
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ln -s ${klibc}/bin/klcc $out/bin/cc
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ensureDir $out/nix-support
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echo 'PATH=$PATH:${stdenv.gcc.binutils}/bin' > $out/nix-support/setup-hook
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'';
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});
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isKlibc = true;
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isStatic = true;
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} // {inherit fetchurl;};
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# Return a modified stdenv that tries to build statically linked
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# binaries.
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makeStaticBinaries = stdenv: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args // {
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NIX_CFLAGS_LINK = "-static";
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configureFlags =
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(if args ? configureFlags then args.configureFlags else "")
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+ " --disable-shared"; # brrr...
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});
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isStatic = true;
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} // {inherit fetchurl;};
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# Return a modified stdenv that adds a cross compiler to the
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# builds.
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makeStdenvCross = stdenv: cross: binutilsCross: gccCross: stdenv //
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{ mkDerivation = {name ? "", buildInputs ? [], buildNativeInputs ? [],
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propagatedBuildInputs ? [], propagatedBuildNativeInputs ? [],
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selfBuildNativeInput ? false, ...}@args: let
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# *BuildInputs exists temporarily as another name for
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# *HostInputs.
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getBuildDrv = drv : if (drv ? buildDrv) then drv.buildDrv else drv;
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buildNativeInputsDrvs = map (getBuildDrv) buildNativeInputs;
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buildInputsDrvs = map (drv: drv.hostDrv) buildInputs;
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buildInputsDrvsAsBuildInputs = map (getBuildDrv) buildInputs;
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propagatedBuildInputsDrvs = map (drv: drv.hostDrv) (propagatedBuildInputs);
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propagatedBuildNativeInputsDrvs = map (drv: drv.buildDrv)
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(propagatedBuildNativeInputs);
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# The base stdenv already knows that buildNativeInputs and
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# buildInputs should be built with the usual gcc-wrapper
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# And the same for propagatedBuildInputs.
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buildDrv = stdenv.mkDerivation args;
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# Temporary expression until the cross_renaming, to handle the
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# case of pkgconfig given as buildInput, but to be used as
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# buildNativeInput.
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hostAsBuildDrv = drv: builtins.unsafeDiscardStringContext
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drv.buildDrv.drvPath == builtins.unsafeDiscardStringContext
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drv.hostDrv.drvPath;
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nativeInputsFromBuildInputs = stdenv.lib.filter (hostAsBuildDrv) buildInputs;
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# We should overwrite the input attributes in hostDrv, to overwrite
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# the defaults for only-native builds in the base stdenv
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hostDrv = if (cross == null) then buildDrv else
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stdenv.mkDerivation (args // {
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name = name + "-" + cross.config;
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buildNativeInputs = buildNativeInputsDrvs
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++ nativeInputsFromBuildInputs
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++ [ gccCross binutilsCross ] ++
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stdenv.lib.optional selfBuildNativeInput buildDrv;
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# Cross-linking dynamic libraries, every buildInput should
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# be propagated because ld needs the -rpath-link to find
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# any library needed to link the program dynamically at
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# loader time. ld(1) explains it.
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buildInputs = [];
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propagatedBuildInputs = propagatedBuildInputsDrvs +
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buildInputsDrvs;
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propagatedBuildNativeInputs = propagatedBuildNativeInputsDrvs;
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crossConfig = cross.config;
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});
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in buildDrv // {
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inherit hostDrv buildDrv;
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};
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} // { inherit cross; };
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/* Modify a stdenv so that the specified attributes are added to
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every derivation returned by its mkDerivation function.
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Example:
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stdenvNoOptimise =
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addAttrsToDerivation
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{ NIX_CFLAGS_COMPILE = "-O0"; }
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stdenv;
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*/
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addAttrsToDerivation = extraAttrs: stdenv: stdenv //
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{ mkDerivation = args: stdenv.mkDerivation (args // extraAttrs); };
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/* Return a modified stdenv that perfoms the build under $out/.build
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instead of in $TMPDIR. Thus, the sources are kept available.
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This is useful for things like debugging or generation of
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dynamic analysis reports. */
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keepBuildTree = stdenv:
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addAttrsToDerivation
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{ prePhases = "moveBuildDir";
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moveBuildDir =
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''
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ensureDir $out/.build
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cd $out/.build
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'';
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} stdenv;
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cleanupBuildTree = stdenv:
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addAttrsToDerivation
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{ postPhases = "cleanupBuildDir";
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# Get rid of everything that isn't a gcno file or a C source
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# file. This also includes the gcda files; we're not
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# interested in coverage resulting from the package's own test
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# suite.
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cleanupBuildDir =
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''
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find $out/.build/ -type f -a ! \
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\( -name "*.c" -o -name "*.h" -o -name "*.gcno" \) \
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| xargs rm -f --
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'';
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} stdenv;
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/* Return a modified stdenv that builds packages with GCC's coverage
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instrumentation. The coverage note files (*.gcno) are stored in
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$out/.build, along with the source code of the package, to enable
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programs like lcov to produce pretty-printed reports.
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*/
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addCoverageInstrumentation = stdenv:
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addAttrsToDerivation
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{ NIX_CFLAGS_COMPILE = "-O0 --coverage";
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# This is an uberhack to prevent libtool from removing gcno
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# files. This has been fixed in libtool, but there are
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# packages out there with old ltmain.sh scripts.
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# See http://www.mail-archive.com/libtool@gnu.org/msg10725.html
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postUnpack =
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''
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for i in $(find -name ltmain.sh); do
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substituteInPlace $i --replace '*.$objext)' '*.$objext | *.gcno)'
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done
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'';
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}
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# Object files instrumented with coverage analysis write
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# runtime coverage data to <path>/<object>.gcda, where <path>
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# is the location where gcc originally created the object
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# file. That would be /tmp/nix-build-<something>, which will
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# be long gone by the time we run the program. Furthermore,
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# the <object>.gcno files created at compile time are also
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# written there. And to make nice coverage reports with lcov,
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# we need the source code. So we have to use the
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# `keepBuildTree' adapter as well.
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(cleanupBuildTree (keepBuildTree stdenv));
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/* Replace the meta.maintainers field of a derivation. This is useful
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when you want to fork to update some packages without disturbing other
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developers.
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e.g.: in all-packages.nix:
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# remove all maintainers.
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defaultStdenv = replaceMaintainersField allStdenvs.stdenv pkgs [];
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*/
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replaceMaintainersField = stdenv: pkgs: maintainers: stdenv //
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{ mkDerivation = args:
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pkgs.lib.recursiveUpdate
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(stdenv.mkDerivation args)
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{ meta.maintainers = maintainers; };
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};
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}
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