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tinycc: updating it to 0.9.26

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I simplified the expression a bit. And I renamed it to 'tcc'.
I think everyone calls it tcc.
This commit is contained in:
Lluís Batlle i Rossell 2013-04-01 12:50:15 +02:00
parent a83f32b335
commit b10ab7a19a
3 changed files with 47 additions and 80 deletions
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123
pkgs/development/compilers/tinycc/default.nix
View file

@ -2,95 +2,62 @@
assert stdenv ? glibc;
let version = "0.9.25"; in
stdenv.mkDerivation {
name = "tinycc-${version}";
stdenv.mkDerivation rec {
name = "tcc-0.9.26";
src = fetchurl {
url = "mirror://savannah/tinycc/tcc-${version}.tar.bz2";
sha256 = "0dfycf80x73dz67c97j1ry29wrv35393ai5ry46i1x1fzfq6rv8v";
};
src = fetchurl {
url = "mirror://savannah/tinycc/${name}.tar.bz2";
sha256 = "0wbdbdq6090ayw8bxnbikiv989kykff3m5rzbia05hrnwhd707jj";
};
nativeBuildInputs = [ perl texinfo ];
nativeBuildInputs = [ perl texinfo ];
patches =
[ (fetchurl {
# Add support for `alloca' on x86-64.
url = "http://repo.or.cz/w/tinycc.git/patch/8ea8305199496ba29b6d0da2de07aea4441844aa";
sha256 = "0dz1cm9zihk533hszqql4gxpzbp8c4g9dnvkkh9vs4js6fnz1fl2";
name = "x86-64-alloca.patch";
})
postPatch = ''
substituteInPlace "texi2pod.pl" \
--replace "/usr/bin/perl" "${perl}/bin/perl"
'';
(fetchurl {
# Fix alignment of the return value of `alloca'.
url = "http://repo.or.cz/w/tinycc.git/patch/dca2b15df42c1341794dd412917708416da25594";
sha256 = "0617a69gnfdmv8pr6dj3szv97v3zh57439dsbklxrnipx2jv6pq7";
name = "x86-64-alloca-align.patch";
})
];
preConfigure = ''
configureFlagsArray+=("--elfinterp=$(cat $NIX_GCC/nix-support/dynamic-linker)")
configureFlagsArray+=("--crtprefix=${stdenv.glibc}/lib")
configureFlagsArray+=("--sysincludepaths=${stdenv.glibc}/include:{B}/include")
configureFlagsArray+=("--libpaths=${stdenv.glibc}/lib")
'';
postPatch = ''
substituteInPlace "texi2pod.pl" \
--replace "/usr/bin/perl" "${perl}/bin/perl"
doCheck = true;
checkTarget = "test";
# To produce executables, `tcc' needs to know where `crt*.o' are.
sed -i "tcc.h" \
-e's|define CONFIG_TCC_CRT_PREFIX.*$|define CONFIG_TCC_CRT_PREFIX "${stdenv.glibc}/lib"|g'
meta = {
description = "TinyCC, a small, fast, and embeddable C compiler and interpreter";
sed -i "libtcc.c" \
-e's|tcc_add_library_path(s, CONFIG_SYSROOT "/lib");|tcc_add_library_path(s, "${stdenv.glibc}/lib");|g;
s|tcc_add_sysinclude_path(s, CONFIG_SYSROOT "/usr/include");|tcc_add_library_path(s, "${stdenv.glibc}/include");|g ;
s|tcc_add_sysinclude_path(s, buf);|tcc_add_sysinclude_path(s, buf); tcc_add_sysinclude_path(s, "${stdenv.glibc}/include");|g'
longDescription =
'' TinyCC (aka TCC) is a small but hyper fast C compiler. Unlike
other C compilers, it is meant to be self-sufficient: you do not
need an external assembler or linker because TCC does that for
you.
# Tell it about the loader's location.
sed -i "tccelf.c" \
-e's|".*/ld-linux\([^"]\+\)"|"${stdenv.glibc}/lib/ld-linux\1"|g'
''; # "
TCC compiles so fast that even for big projects Makefiles may not
be necessary.
postInstall = ''
makeinfo --force tcc-doc.texi || true
TCC not only supports ANSI C, but also most of the new ISO C99
standard and many GNU C extensions.
mkdir -p "$out/share/info"
mv tcc-doc.info* "$out/share/info"
TCC can also be used to make C scripts, i.e. pieces of C source
that you run as a Perl or Python script. Compilation is so fast
that your script will be as fast as if it was an executable.
echo 'int main () { printf ("it works!\n"); exit(0); }' | \
"$out/bin/tcc" -run -
'';
TCC can also automatically generate memory and bound checks while
allowing all C pointers operations. TCC can do these checks even
if non patched libraries are used.
doCheck = true;
checkTarget = "test";
With libtcc, you can use TCC as a backend for dynamic code
generation.
'';
meta = {
description = "TinyCC, a small, fast, and embeddable C compiler and interpreter";
homepage = http://www.tinycc.org/;
license = "LGPLv2+";
longDescription =
'' TinyCC (aka TCC) is a small but hyper fast C compiler. Unlike
other C compilers, it is meant to be self-sufficient: you do not
need an external assembler or linker because TCC does that for
you.
TCC compiles so fast that even for big projects Makefiles may not
be necessary.
TCC not only supports ANSI C, but also most of the new ISO C99
standard and many GNU C extensions.
TCC can also be used to make C scripts, i.e. pieces of C source
that you run as a Perl or Python script. Compilation is so fast
that your script will be as fast as if it was an executable.
TCC can also automatically generate memory and bound checks while
allowing all C pointers operations. TCC can do these checks even
if non patched libraries are used.
With libtcc, you can use TCC as a backend for dynamic code
generation.
'';
homepage = http://www.tinycc.org/;
license = "LGPLv2+";
platforms = stdenv.lib.platforms.unix;
maintainers = [ stdenv.lib.maintainers.ludo ];
};
}
platforms = stdenv.lib.platforms.unix;
maintainers = [ stdenv.lib.maintainers.ludo ];
};
}

2
pkgs/top-level/release-small.nix
View file

@ -177,7 +177,7 @@ with (import ./release-lib.nix);
texLiveExtra = linux;
texinfo = all;
time = linux;
tinycc = ["i686-linux"];
tinycc = linux;
udev = linux;
unrar = linux;
unzip = all;

2
pkgs/top-level/release.nix
View file

@ -304,7 +304,7 @@ let
texinfo = all;
tightvnc = linux;
time = linux;
tinycc = ["i686-linux"];
tinycc = linux;
uae = linux;
udev = linux;
unrar = linux;