kolibrios/programs/develop/ktcc/trunk/source
siemargl 2650f5831f suballocator plus path fixes
git-svn-id: svn://kolibrios.org@7520 a494cfbc-eb01-0410-851d-a64ba20cac60
2018-11-01 17:24:22 +00:00
..
examples
include
lib
tests
win32
.gitignore
.travis.yml
arm64-gen.c
arm-gen.c
c67-gen.c
Changelog
CMakeLists.txt
CodingStyle
coff.h
config.h samples upd 2016-07-09 19:44:55 +00:00
config.h_meos
config.h.in
config.texi.in
configure
conftest.c
COPYING
elf.h
i386-asm.c
i386-asm.h
i386-gen.c
i386-tok.h
il-gen.c
il-opcodes.h
libtcc.c suballocator plus path fixes 2018-11-01 17:24:22 +00:00
libtcc.h
Makefile
Makefile.kos32 fix zero BSS segments 2017-02-06 19:46:12 +00:00
README
readme_kos32.txt fix libck 2018-03-05 17:53:31 +00:00
README.md
RELICENSING
stab.def
stab.h
tcc-doc.info
tcc-doc.texi
tcc.c debugger info, big stack opt 2016-06-05 17:15:52 +00:00
tcc.h samples upd 2016-07-09 19:44:55 +00:00
tccasm.c
tcccoff.c samples upd 2016-07-09 19:44:55 +00:00
tccelf.c
tccgen.c
tcclib.h
tccmeos.c fix zero BSS segments 2017-02-06 19:46:12 +00:00
tccpe.c
tccpp.c
tccrun.c
tcctok.h
texi2pod.pl
TODO
Tupfile.lua Add ktcc to autobuild 2017-01-19 02:34:41 +00:00
VERSION
x86_64-asm.h
x86_64-gen.c

TinyCC (or tcc) is short for Tiny C Compiler.

This a clone of the mob development repo at http://repo.or.cz/tinycc.git

Branch Status
mob Build Status
dev Build Status

License

Tiny C Compiler project is licensed under LGPL but currently there is an effort to relicense the project under MIT License. See RELICENSING file in root for current status.

Branch Policy

The "dev" branch is the one where all contributions will be merged before reaching "mob". If you plan to propose a patch, please commit into the "dev" branch or its own feature branch. Direct commit to "mob" are not permitted.

Original Fabrice Bellard readme

Tiny C Compiler - C Scripting Everywhere - The Smallest ANSI C compiler
-----------------------------------------------------------------------

Features:
--------

- SMALL! You can compile and execute C code everywhere, for example on
  rescue disks.

- FAST! tcc generates optimized x86 code. No byte code
  overhead. Compile, assemble and link about 7 times faster than 'gcc
  -O0'.

- 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 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.

Documentation:
-------------

1) Installation on a i386/x86_64/arm Linux/OSX/FreeBSD host (for Windows read tcc-win32.txt)

Note: For OSX and FreeBSD, gmake should be used instead of make.

   ./configure
   make
   make test
   make install

Alternatively, out-of-tree builds are supported: you may use different
directories to hold build objects, kept separate from your source tree:

   mkdir _build
   cd _build
   ../configure
   make
   make test
   make install

Texi2html must be installed to compile the doc. 
By default, tcc is installed in /usr/local/bin.
./configure --help  shows configuration options.


2) Introduction

We assume here that you know ANSI C. Look at the example ex1.c to know
what the programs look like.

The include file <tcclib.h> can be used if you want a small basic libc
include support (especially useful for floppy disks). Of course, you
can also use standard headers, although they are slower to compile.

You can begin your C script with '#!/usr/local/bin/tcc -run' on the first
line and set its execute bits (chmod a+x your_script). Then, you can
launch the C code as a shell or perl script :-) The command line
arguments are put in 'argc' and 'argv' of the main functions, as in
ANSI C.

3) Examples

ex1.c: simplest example (hello world). Can also be launched directly
as a script: './ex1.c'.

ex2.c: more complicated example: find a number with the four
operations given a list of numbers (benchmark).

ex3.c: compute fibonacci numbers (benchmark).

ex4.c: more complicated: X11 program. Very complicated test in fact
because standard headers are being used ! As for ex1.c, can also be launched
directly as a script: './ex4.c'.

ex5.c: 'hello world' with standard glibc headers.

tcc.c: TCC can of course compile itself. Used to check the code
generator.

tcctest.c: auto test for TCC which tests many subtle possible bugs. Used
when doing 'make test'.

4) Full Documentation

Please read tcc-doc.html to have all the features of TCC.

Additional information is available for the Windows port in tcc-win32.txt.

License:
-------

TCC is distributed under the GNU Lesser General Public License (see
COPYING file).

Fabrice Bellard.