{ stdenv, targetPackages, fetchurl, fetchpatch, noSysDirs , langC ? true, langCC ? true, langFortran ? false , langObjC ? stdenv.targetPlatform.isDarwin , langObjCpp ? stdenv.targetPlatform.isDarwin , langJava ? false , langGo ? false , profiledCompiler ? false , staticCompiler ? false , enableShared ? true , texinfo ? null , perl ? null # optional, for texi2pod (then pod2man); required for Java , gmp, mpfr, libmpc, gettext, which , libelf # optional, for link-time optimizations (LTO) , cloog ? null, isl ? null # optional, for the Graphite optimization framework. , zlib ? null, boehmgc ? null , zip ? null, unzip ? null, pkgconfig ? null , gtk2 ? null, libart_lgpl ? null , libX11 ? null, libXt ? null, libSM ? null, libICE ? null, libXtst ? null , libXrender ? null, xorgproto ? null , libXrandr ? null, libXi ? null , x11Support ? langJava , enableMultilib ? false , enablePlugin ? stdenv.hostPlatform == stdenv.buildPlatform # Whether to support user-supplied plug-ins , name ? "gcc" , libcCross ? null , threadsCross ? null # for MinGW , crossStageStatic ? false , # Strip kills static libs of other archs (hence no cross) stripped ? stdenv.hostPlatform == stdenv.buildPlatform && stdenv.targetPlatform == stdenv.hostPlatform , gnused ? null , buildPackages }: assert langJava -> zip != null && unzip != null && zlib != null && boehmgc != null && perl != null; # for `--enable-java-home' # We enable the isl cloog backend. assert cloog != null -> isl != null; # LTO needs libelf and zlib. assert libelf != null -> zlib != null; # Make sure we get GNU sed. assert stdenv.hostPlatform.isDarwin -> gnused != null; # The go frontend is written in c++ assert langGo -> langCC; # threadsCross is just for MinGW assert threadsCross != null -> stdenv.targetPlatform.isWindows; with stdenv.lib; with builtins; let majorVersion = "4"; version = "${majorVersion}.8.5"; inherit (stdenv) buildPlatform hostPlatform targetPlatform; patches = [ ../parallel-bconfig.patch ] ++ optional (targetPlatform != hostPlatform) ../libstdc++-target.patch ++ optional noSysDirs ../no-sys-dirs.patch ++ optional langFortran ../gfortran-driving.patch ++ optional hostPlatform.isDarwin ../gfortran-darwin-NXConstStr.patch ++ [(fetchpatch { name = "libc_name_p.diff"; # needed to build with gcc6 url = "https://gcc.gnu.org/git/?p=gcc.git;a=commitdiff_plain;h=ec1cc0263f1"; sha256 = "01jd7pdarh54ki498g6sz64ijl9a1l5f9v8q2696aaxalvh2vwzl"; excludes = [ "gcc/cp/ChangeLog" ]; })] ++ [ # glibc-2.26 ../struct-ucontext-4.8.patch ../sigsegv-not-declared.patch ../res_state-not-declared.patch ]; javaEcj = fetchurl { # The `$(top_srcdir)/ecj.jar' file is automatically picked up at # `configure' time. # XXX: Eventually we might want to take it from upstream. url = "ftp://sourceware.org/pub/java/ecj-4.3.jar"; sha256 = "0jz7hvc0s6iydmhgh5h2m15yza7p2rlss2vkif30vm9y77m97qcx"; }; # Antlr (optional) allows the Java `gjdoc' tool to be built. We want a # binary distribution here to allow the whole chain to be bootstrapped. javaAntlr = fetchurl { url = https://www.antlr.org/download/antlr-4.4-complete.jar; sha256 = "02lda2imivsvsis8rnzmbrbp8rh1kb8vmq4i67pqhkwz7lf8y6dz"; }; xlibs = [ libX11 libXt libSM libICE libXtst libXrender libXrandr libXi xorgproto ]; javaAwtGtk = langJava && x11Support; /* Cross-gcc settings (build == host != target) */ crossMingw = targetPlatform != hostPlatform && targetPlatform.libc == "msvcrt"; stageNameAddon = if crossStageStatic then "stage-static" else "stage-final"; crossNameAddon = optionalString (targetPlatform != hostPlatform) "${targetPlatform.config}-${stageNameAddon}-"; in # We need all these X libraries when building AWT with GTK. assert x11Support -> (filter (x: x == null) ([ gtk2 libart_lgpl ] ++ xlibs)) == []; stdenv.mkDerivation ({ name = "${crossNameAddon}${name}${if stripped then "" else "-debug"}-${version}"; builder = ../builder.sh; src = fetchurl { url = "mirror://gnu/gcc/gcc-${version}/gcc-${version}.tar.bz2"; sha256 = "08yggr18v373a1ihj0rg2vd6psnic42b518xcgp3r9k81xz1xyr2"; }; inherit patches; hardeningDisable = [ "format" "pie" ]; outputs = [ "out" "lib" "man" "info" ]; setOutputFlags = false; NIX_NO_SELF_RPATH = true; libc_dev = stdenv.cc.libc_dev; postPatch = if targetPlatform != hostPlatform || stdenv.cc.libc != null then # On NixOS, use the right path to the dynamic linker instead of # `/lib/ld*.so'. let libc = if libcCross != null then libcCross else stdenv.cc.libc; in '' echo "fixing the \`GLIBC_DYNAMIC_LINKER' and \`UCLIBC_DYNAMIC_LINKER' macros..." for header in "gcc/config/"*-gnu.h "gcc/config/"*"/"*.h do grep -q LIBC_DYNAMIC_LINKER "$header" || continue echo " fixing \`$header'..." sed -i "$header" \ -e 's|define[[:blank:]]*\([UCG]\+\)LIBC_DYNAMIC_LINKER\([0-9]*\)[[:blank:]]"\([^\"]\+\)"$|define \1LIBC_DYNAMIC_LINKER\2 "${libc.out}\3"|g' done '' else null; inherit noSysDirs staticCompiler langJava crossStageStatic libcCross crossMingw; depsBuildBuild = [ buildPackages.stdenv.cc ]; nativeBuildInputs = [ texinfo which gettext ] ++ (optional (perl != null) perl) ++ (optional javaAwtGtk pkgconfig); # For building runtime libs depsBuildTarget = if hostPlatform == buildPlatform then [ targetPackages.stdenv.cc.bintools # newly-built gcc will be used ] else assert targetPlatform == hostPlatform; [ # build != host == target stdenv.cc ]; buildInputs = [ gmp mpfr libmpc libelf targetPackages.stdenv.cc.bintools # For linking code at run-time ] ++ (optional (cloog != null) cloog) ++ (optional (isl != null) isl) ++ (optional (zlib != null) zlib) ++ (optionals langJava [ boehmgc zip unzip ]) ++ (optionals javaAwtGtk ([ gtk2 libart_lgpl ] ++ xlibs)) # The builder relies on GNU sed (for instance, Darwin's `sed' fails with # "-i may not be used with stdin"), and `stdenvNative' doesn't provide it. ++ (optional hostPlatform.isDarwin gnused) ; depsTargetTarget = optional (!crossStageStatic && threadsCross != null) threadsCross; preConfigure = import ../common/pre-configure.nix { inherit (stdenv) lib; inherit version hostPlatform langJava langGo; }; dontDisableStatic = true; # TODO(@Ericson2314): Always pass "--target" and always prefix. configurePlatforms = [ "build" "host" ] ++ stdenv.lib.optional (targetPlatform != hostPlatform) "target"; configureFlags = import ../common/configure-flags.nix { inherit stdenv targetPackages crossStageStatic libcCross version gmp mpfr libmpc libelf isl cloog enablePlugin enableMultilib enableShared langC langCC langFortran langJava javaAwtGtk javaAntlr javaEcj langGo langObjC langObjCpp ; }; targetConfig = if targetPlatform != hostPlatform then targetPlatform.config else null; buildFlags = optional (targetPlatform == hostPlatform && hostPlatform == buildPlatform) (if profiledCompiler then "profiledbootstrap" else "bootstrap"); dontStrip = !stripped; doCheck = false; # requires a lot of tools, causes a dependency cycle for stdenv installTargets = if stripped then "install-strip" else "install"; # https://gcc.gnu.org/install/specific.html#x86-64-x-solaris210 ${if hostPlatform.system == "x86_64-solaris" then "CC" else null} = "gcc -m64"; # Setting $CPATH and $LIBRARY_PATH to make sure both `gcc' and `xgcc' find the # library headers and binaries, regarless of the language being compiled. # # Note: When building the Java AWT GTK peer, the build system doesn't honor # `--with-gmp' et al., e.g., when building # `libjava/classpath/native/jni/java-math/gnu_java_math_GMP.c', so we just add # them to $CPATH and $LIBRARY_PATH in this case. # # Likewise, the LTO code doesn't find zlib. # # Cross-compiling, we need gcc not to read ./specs in order to build the g++ # compiler (after the specs for the cross-gcc are created). Having # LIBRARY_PATH= makes gcc read the specs from ., and the build breaks. CPATH = optionals (targetPlatform == hostPlatform) (makeSearchPathOutput "dev" "include" ([] ++ optional (zlib != null) zlib ++ optional langJava boehmgc ++ optionals javaAwtGtk xlibs ++ optionals javaAwtGtk [ gmp mpfr ] )); LIBRARY_PATH = optionals (targetPlatform == hostPlatform) (makeLibraryPath ([] ++ optional (zlib != null) zlib ++ optional langJava boehmgc ++ optionals javaAwtGtk xlibs ++ optionals javaAwtGtk [ gmp mpfr ] )); inherit (import ../common/extra-target-flags.nix { inherit stdenv crossStageStatic libcCross threadsCross; }) EXTRA_TARGET_FLAGS EXTRA_TARGET_LDFLAGS ; passthru = { inherit langC langCC langObjC langObjCpp langFortran langGo version; isGNU = true; hardeningUnsupportedFlags = [ "stackprotector" ]; }; enableParallelBuilding = true; inherit enableMultilib; inherit (stdenv) is64bit; meta = { homepage = https://gcc.gnu.org/; license = stdenv.lib.licenses.gpl3Plus; # runtime support libraries are typically LGPLv3+ description = "GNU Compiler Collection, version ${version}" + (if stripped then "" else " (with debugging info)"); longDescription = '' The GNU Compiler Collection includes compiler front ends for C, C++, Objective-C, Fortran, OpenMP for C/C++/Fortran, Java, and Ada, as well as libraries for these languages (libstdc++, libgcj, libgomp,...). GCC development is a part of the GNU Project, aiming to improve the compiler used in the GNU system including the GNU/Linux variant. ''; maintainers = with stdenv.lib.maintainers; [ peti veprbl ]; platforms = stdenv.lib.platforms.linux ++ stdenv.lib.platforms.freebsd ++ stdenv.lib.platforms.illumos ++ stdenv.lib.platforms.darwin; badPlatforms = [ "x86_64-darwin" ]; }; } // optionalAttrs (targetPlatform != hostPlatform && targetPlatform.libc == "msvcrt" && crossStageStatic) { makeFlags = [ "all-gcc" "all-target-libgcc" ]; installTargets = "install-gcc install-target-libgcc"; } // optionalAttrs (enableMultilib) { dontMoveLib64 = true; } )