head	1.5;
access;
symbols
	RELEASE_8_3_0:1.5
	RELEASE_9_0_0:1.5
	RELEASE_7_4_0:1.4
	RELEASE_8_2_0:1.4
	RELEASE_6_EOL:1.4
	RELEASE_8_1_0:1.4
	RELEASE_7_3_0:1.4
	RELEASE_8_0_0:1.4
	RELEASE_7_2_0:1.3
	RELEASE_4_EOL:1.1
	RELEASE_6_2_0:1.1;
locks; strict;
comment	@# @;


1.5
date	2011.07.03.13.45.33;	author ohauer;	state Exp;
branches;
next	1.4;

1.4
date	2009.05.21.04.42.25;	author dinoex;	state Exp;
branches;
next	1.3;

1.3
date	2008.11.30.14.03.57;	author dinoex;	state Exp;
branches;
next	1.2;

1.2
date	2007.02.19.09.37.14;	author gabor;	state dead;
branches;
next	1.1;

1.1
date	2006.05.16.01.42.46;	author jkoshy;	state Exp;
branches;
next	;


desc
@@


1.5
log
@- remove MD5
@
text
@SHA256 (tcc-0.9.25.tar.bz2) = 1bed6cb0fb2ef4100df1b94435d22863679e84cf419ec48ef96d9c0e9063de35
SIZE (tcc-0.9.25.tar.bz2) = 382914
@


1.4
log
@- update to  0.9.25
http://bellard.org/tcc/changelog.html
@
text
@a0 1
MD5 (tcc-0.9.25.tar.bz2) = 991c2a1986cce15f03ca6ddc86ea5f43
@


1.3
log
@Tiny C Compiler

Features:
* SMALL! You can compile and execute C code everywhere, for example on rescue
  disks (about 100KB for x86 TCC executable, including C preprocessor,
  C compiler, assembler and linker).
* FAST! tcc generates x86 code. No byte code overhead. Compile, assemble and
  link several times faster than GCC.
* UNLIMITED! Any C dynamic library can be used directly. TCC is heading torward
  full ISOC99 compliance. TCC can of course compile itself.
* SAFE! tcc includes an optional memory and bound checker. Bound checked code
  can be mixed freely with standard code.
* Compile and execute C source directly. No linking or assembly necessary.
  Full C preprocessor and GNU-like assembler included.
* C script supported : just add '#!/usr/local/bin/tcc -run' at the first line
  of your C source, and execute it directly from the command line.
* With libtcc, you can use TCC as a backend for dynamic code generation.

WWW: http://bellard.org/tcc/
@
text
@d1 3
a3 3
MD5 (tcc-0.9.24.tar.bz2) = 24d8442d1f2c0a4c2cafb6859c333b05
SHA256 (tcc-0.9.24.tar.bz2) = 27aed4071ab6ec5a7b5425d0346a214747ab6375353ca3ee8514f87984f94e79
SIZE (tcc-0.9.24.tar.bz2) = 364601
@


1.2
log
@Remove expired port:

2006-12-01 lang/tcc: is only for i386, and you are running amd64.

Approved by:	erwin (mentor, implicit)
@
text
@d1 3
a3 3
MD5 (tcc-0.9.23.tar.gz) = ba925bf241b0980a581bbc6ad3d5b9a1
SHA256 (tcc-0.9.23.tar.gz) = 074632c574116004c63b32798048c73c184d123d8cf96cce849765296b255991
SIZE (tcc-0.9.23.tar.gz) = 423807
@


1.1
log
@A new port for TinyCC, a small and fast C compiler.

Tcc's features include:
  * Small: You can compile and execute C code everywhere, for
    example on rescue disks (about 100KB for x86 TCC executable,
    including C preprocessor, C compiler, assembler and linker).
  * Fast: tcc generates optimized x86 code. No byte code overhead.
    Compile, assemble and link several times faster than GCC.
  * Unlimited: Any C dynamic library can be used directly. TCC is
    heading torward full ISOC99 compliance. TCC can of course compile
    itself.
  * Safe: tcc includes an optional memory and bound checker. Bound
    checked code can be mixed freely with standard code.
  * Compile and execute C source directly. No linking or assembly
    necessary. Full C preprocessor and GNU-like assembler included.
  * C script supported : just add '#!/usr/local/bin/tcc -run' at
    the first line of your C source, and execute it directly from the
    command line.
  * With libtcc, you can use TCC as a backend for dynamic code
    generation.
@
text
@@

