core/pkgs/by-name/gc/gcc/common/pre-configure.nix

{
  lib,
  stdenv,
  version,
  buildPlatform,
  hostPlatform,
  targetPlatform,
  gnat-bootstrap ? null,
  langAda ? false,
  langFortran,
  langJava ? false,
  langJit ? false,
  langGo,
  withoutTargetLibc,
  enableShared,
  enableMultilib,
  pkgsBuildTarget,
}:

assert langJava -> lib.versionOlder version "7";
assert langAda -> gnat-bootstrap != null;
let
  needsLib =
    (lib.versionOlder version "7" && (langJava || langGo))
    || (
      lib.versions.major version == "4" && lib.versions.minor version == "9" && targetPlatform.isDarwin
    );
in
lib.optionalString (hostPlatform.isSunOS && hostPlatform.is64bit) ''
  export NIX_LDFLAGS=`echo $NIX_LDFLAGS | sed -e s~$prefix/lib~$prefix/lib/amd64~g`
  export LDFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $LDFLAGS_FOR_TARGET"
  export CXXFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CXXFLAGS_FOR_TARGET"
  export CFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CFLAGS_FOR_TARGET"
''
+ lib.optionalString needsLib ''
  export lib=$out;
''
+ lib.optionalString langAda ''
  export PATH=${gnat-bootstrap}/bin:$PATH
''

# For a cross-built native compiler, i.e. build!=(host==target), the
# bundled libgfortran needs a gfortran which can run on the
# buildPlatform and emit code for the targetPlatform.  The compiler
# which is built alongside gfortran in this configuration doesn't
# meet that need: it runs on the hostPlatform.
+
  lib.optionalString
    (langFortran && (with stdenv; buildPlatform != hostPlatform && hostPlatform == targetPlatform))
    ''
      export GFORTRAN_FOR_TARGET=${pkgsBuildTarget.gfortran}/bin/${stdenv.targetPlatform.config}-gfortran
    ''

# On x86_64-darwin, the gnat-bootstrap bootstrap compiler that we need to build a
# native GCC with Ada support emits assembly that is accepted by the Clang
# integrated assembler, but not by the GNU assembler in cctools-port that Nix
# usually in the x86_64-darwin stdenv.  In particular, x86_64-darwin gnat-bootstrap
# emits MOVQ as the mnemonic for quadword interunit moves, such as between XMM
# and general registers (e.g "movq %xmm0, %rbp"); the cctools-port assembler,
# however, only recognises MOVD for such moves.
#
# Therefore, for native x86_64-darwin builds that support Ada, we have to use
# the Clang integrated assembler to build (at least stage 1 of) GCC, but have to
# target GCC at the cctools-port GNU assembler.  In the wrapped x86_64-darwin
# gnat-bootstrap, the former is provided as `as`, while the latter is provided as
# `gas`.
#
+
  lib.optionalString
    (
      langAda
      && buildPlatform == hostPlatform
      && hostPlatform == targetPlatform
      && targetPlatform.isx86_64
      && targetPlatform.isDarwin
    )
    ''
      export AS_FOR_BUILD=${gnat-bootstrap}/bin/as
      export AS_FOR_TARGET=${gnat-bootstrap}/bin/gas
    ''

# NOTE 2020/3/18: This environment variable prevents configure scripts from
# detecting the presence of aligned_alloc on Darwin.  There are many facts that
# collectively make this fix necessary:
#  - Nix uses a fixed set of standard library headers on all MacOS systems,
#    regardless of their actual version.  (Nix uses version 10.12 headers.)
#  - Nix uses the native standard library binaries for the build system.  That
#    means the standard library binaries may not exactly match the standard
#    library headers.
#  - The aligned_alloc procedure is present in MacOS 10.15 (Catalina), but not
#    in earlier versions.  Therefore on Catalina systems, aligned_alloc is
#    linkable (i.e. present in the binary libraries) but not present in the
#    headers.
#  - Configure scripts detect a procedure's existence by checking whether it is
#    linkable.  They do not check whether it is present in the headers.
#  - GCC throws an error during compilation because aligned_alloc is not
#    defined in the headers---even though the linker can see it.
#
# This fix would not be necessary if ANY of the above were false:
#  - If Nix used native headers for each different MacOS version, aligned_alloc
#    would be in the headers on Catalina.
#  - If Nix used the same library binaries for each MacOS version, aligned_alloc
#    would not be in the library binaries.
#  - If Catalina did not include aligned_alloc, this wouldn't be a problem.
#  - If the configure scripts looked for header presence as well as
#    linkability, they would see that aligned_alloc is missing.
#  - If GCC allowed implicit declaration of symbols, it would not fail during
#    compilation even if the configure scripts did not check header presence.
#
+ lib.optionalString (buildPlatform.isDarwin) ''
  export build_configargs=ac_cv_func_aligned_alloc=no
''
+ lib.optionalString (hostPlatform.isDarwin) ''
  export host_configargs=ac_cv_func_aligned_alloc=no
''
+ lib.optionalString (targetPlatform.isDarwin) ''
  export target_configargs=ac_cv_func_aligned_alloc=no
''

# In order to properly install libgccjit on macOS Catalina, strip(1)
# upon installation must not remove external symbols, otherwise the
# install step errors with "symbols referenced by indirect symbol
# table entries that can't be stripped".
+ lib.optionalString (hostPlatform.isDarwin && langJit) ''
  export STRIP='strip -x'
''

# HACK: if host and target config are the same, but the platforms are
# actually different we need to convince the configure script that it
# is in fact building a cross compiler although it doesn't believe it.
+
  lib.optionalString (targetPlatform.config == hostPlatform.config && targetPlatform != hostPlatform)
    ''
      substituteInPlace configure --replace is_cross_compiler=no is_cross_compiler=yes
    ''

# Normally (for host != target case) --without-headers automatically
# enables 'inhibit_libc=true' in gcc's gcc/configure.ac. But case of
# gcc->clang or dynamic->static "cross"-compilation manages to evade it: there
# hostPlatform != targetPlatform, hostPlatform.config == targetPlatform.config.
# We explicitly inhibit libc headers use in this case as well.
+
  lib.optionalString
    (
      targetPlatform != hostPlatform && withoutTargetLibc && targetPlatform.config == hostPlatform.config
    )
    ''
      export inhibit_libc=true
    ''

+ lib.optionalString (targetPlatform != hostPlatform && withoutTargetLibc && enableShared) (
  import ./libgcc-buildstuff.nix { inherit lib stdenv; }
)
style: formating 2024-06-30 08:16:52 +00:00			`{`
			`lib,`
			`stdenv,`
			`version,`
			`buildPlatform,`
			`hostPlatform,`
			`targetPlatform,`
			`gnat-bootstrap ? null,`
			`langAda ? false,`
			`langFortran,`
			`langJava ? false,`
			`langJit ? false,`
			`langGo,`
			`withoutTargetLibc,`
			`enableShared,`
			`enableMultilib,`
			`pkgsBuildTarget,`
pkgs: init 2024-05-02 00:46:19 +00:00			`}:`

			`assert langJava -> lib.versionOlder version "7";`
style: formating 2024-06-30 08:16:52 +00:00			`assert langAda -> gnat-bootstrap != null;`
			`let`
			`needsLib =`
			`(lib.versionOlder version "7" && (langJava \|\| langGo))`
			`\|\| (`
			`lib.versions.major version == "4" && lib.versions.minor version == "9" && targetPlatform.isDarwin`
			`);`
			`in`
			`lib.optionalString (hostPlatform.isSunOS && hostPlatform.is64bit) ''`
pkgs: init 2024-05-02 00:46:19 +00:00			export NIX_LDFLAGS=`echo $NIX_LDFLAGS \| sed -e s~$prefix/lib~$prefix/lib/amd64~g`
			`export LDFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $LDFLAGS_FOR_TARGET"`
			`export CXXFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CXXFLAGS_FOR_TARGET"`
			`export CFLAGS_FOR_TARGET="-Wl,-rpath,$prefix/lib/amd64 $CFLAGS_FOR_TARGET"`
style: formating 2024-06-30 08:16:52 +00:00			`''`
			`+ lib.optionalString needsLib ''`
pkgs: init 2024-05-02 00:46:19 +00:00			`export lib=$out;`
style: formating 2024-06-30 08:16:52 +00:00			`''`
			`+ lib.optionalString langAda ''`
pkgs: init 2024-05-02 00:46:19 +00:00			`export PATH=${gnat-bootstrap}/bin:$PATH`
			`''`

			`# For a cross-built native compiler, i.e. build!=(host==target), the`
			`# bundled libgfortran needs a gfortran which can run on the`
			`# buildPlatform and emit code for the targetPlatform. The compiler`
			`# which is built alongside gfortran in this configuration doesn't`
			`# meet that need: it runs on the hostPlatform.`
style: formating 2024-06-30 08:16:52 +00:00			`+`
			`lib.optionalString`
			`(langFortran && (with stdenv; buildPlatform != hostPlatform && hostPlatform == targetPlatform))`
			`''`
			`export GFORTRAN_FOR_TARGET=${pkgsBuildTarget.gfortran}/bin/${stdenv.targetPlatform.config}-gfortran`
			`''`
pkgs: init 2024-05-02 00:46:19 +00:00
			`# On x86_64-darwin, the gnat-bootstrap bootstrap compiler that we need to build a`
			`# native GCC with Ada support emits assembly that is accepted by the Clang`
			`# integrated assembler, but not by the GNU assembler in cctools-port that Nix`
			`# usually in the x86_64-darwin stdenv. In particular, x86_64-darwin gnat-bootstrap`
			`# emits MOVQ as the mnemonic for quadword interunit moves, such as between XMM`
			`# and general registers (e.g "movq %xmm0, %rbp"); the cctools-port assembler,`
			`# however, only recognises MOVD for such moves.`
			`#`
			`# Therefore, for native x86_64-darwin builds that support Ada, we have to use`
			`# the Clang integrated assembler to build (at least stage 1 of) GCC, but have to`
			`# target GCC at the cctools-port GNU assembler. In the wrapped x86_64-darwin`
			# gnat-bootstrap, the former is provided as `as`, while the latter is provided as
			# `gas`.
			`#`
style: formating 2024-06-30 08:16:52 +00:00			`+`
			`lib.optionalString`
			`(`
			`langAda`
			`&& buildPlatform == hostPlatform`
			`&& hostPlatform == targetPlatform`
			`&& targetPlatform.isx86_64`
			`&& targetPlatform.isDarwin`
			`)`
			`''`
			`export AS_FOR_BUILD=${gnat-bootstrap}/bin/as`
			`export AS_FOR_TARGET=${gnat-bootstrap}/bin/gas`
			`''`
pkgs: init 2024-05-02 00:46:19 +00:00
			`# NOTE 2020/3/18: This environment variable prevents configure scripts from`
			`# detecting the presence of aligned_alloc on Darwin. There are many facts that`
			`# collectively make this fix necessary:`
			`# - Nix uses a fixed set of standard library headers on all MacOS systems,`
			`# regardless of their actual version. (Nix uses version 10.12 headers.)`
			`# - Nix uses the native standard library binaries for the build system. That`
			`# means the standard library binaries may not exactly match the standard`
			`# library headers.`
			`# - The aligned_alloc procedure is present in MacOS 10.15 (Catalina), but not`
			`# in earlier versions. Therefore on Catalina systems, aligned_alloc is`
			`# linkable (i.e. present in the binary libraries) but not present in the`
			`# headers.`
			`# - Configure scripts detect a procedure's existence by checking whether it is`
			`# linkable. They do not check whether it is present in the headers.`
			`# - GCC throws an error during compilation because aligned_alloc is not`
			`# defined in the headers---even though the linker can see it.`
			`#`
			`# This fix would not be necessary if ANY of the above were false:`
			`# - If Nix used native headers for each different MacOS version, aligned_alloc`
			`# would be in the headers on Catalina.`
			`# - If Nix used the same library binaries for each MacOS version, aligned_alloc`
			`# would not be in the library binaries.`
			`# - If Catalina did not include aligned_alloc, this wouldn't be a problem.`
			`# - If the configure scripts looked for header presence as well as`
			`# linkability, they would see that aligned_alloc is missing.`
			`# - If GCC allowed implicit declaration of symbols, it would not fail during`
			`# compilation even if the configure scripts did not check header presence.`
			`#`
			`+ lib.optionalString (buildPlatform.isDarwin) ''`
style: formating 2024-06-30 08:16:52 +00:00			`export build_configargs=ac_cv_func_aligned_alloc=no`
			`''`
			`+ lib.optionalString (hostPlatform.isDarwin) ''`
			`export host_configargs=ac_cv_func_aligned_alloc=no`
			`''`
			`+ lib.optionalString (targetPlatform.isDarwin) ''`
			`export target_configargs=ac_cv_func_aligned_alloc=no`
pkgs: init 2024-05-02 00:46:19 +00:00			`''`

			`# In order to properly install libgccjit on macOS Catalina, strip(1)`
			`# upon installation must not remove external symbols, otherwise the`
			`# install step errors with "symbols referenced by indirect symbol`
			`# table entries that can't be stripped".`
			`+ lib.optionalString (hostPlatform.isDarwin && langJit) ''`
			`export STRIP='strip -x'`
			`''`

			`# HACK: if host and target config are the same, but the platforms are`
			`# actually different we need to convince the configure script that it`
			`# is in fact building a cross compiler although it doesn't believe it.`
style: formating 2024-06-30 08:16:52 +00:00			`+`
			`lib.optionalString (targetPlatform.config == hostPlatform.config && targetPlatform != hostPlatform)`
			`''`
			`substituteInPlace configure --replace is_cross_compiler=no is_cross_compiler=yes`
			`''`
pkgs: init 2024-05-02 00:46:19 +00:00
			`# Normally (for host != target case) --without-headers automatically`
			`# enables 'inhibit_libc=true' in gcc's gcc/configure.ac. But case of`
			`# gcc->clang or dynamic->static "cross"-compilation manages to evade it: there`
			`# hostPlatform != targetPlatform, hostPlatform.config == targetPlatform.config.`
			`# We explicitly inhibit libc headers use in this case as well.`
style: formating 2024-06-30 08:16:52 +00:00			`+`
			`lib.optionalString`
			`(`
			`targetPlatform != hostPlatform && withoutTargetLibc && targetPlatform.config == hostPlatform.config`
			`)`
			`''`
			`export inhibit_libc=true`
			`''`
pkgs: init 2024-05-02 00:46:19 +00:00
style: formating 2024-06-30 08:16:52 +00:00			`+ lib.optionalString (targetPlatform != hostPlatform && withoutTargetLibc && enableShared) (`
			`import ./libgcc-buildstuff.nix { inherit lib stdenv; }`
			`)`