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tcc.c | ||
tcclib.h | ||
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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. - UNLIMITED! Any C dynamic library can be used directly. TCC is heading torwards full ANSI C compliance. TCC can of course compile itself. - Compile and execute C source directly. No linking or assembly necessary. Full C preprocessor included. - C script supported : just add '#!/usr/local/bin/tcc' at the first line of your C source, and execute it directly from the command line ! - For adventurers, tcc is conceived to be able to generate code for other targets. Documentation: ------------- 1) Installation ***TCC currently only work on Linux x86***. Type 'make install' to compile and install tcc in /usr/local and /usr/local/lib/tcc. 2) Introduction We assume here that you know ANSI C. Look at the example ex1.c to know what the programs look like. The main limitations of tcc are that you cannot use floats. 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' 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) Invokation '-Idir' : specify an additionnal include path. The default ones are: /usr/include, /usr/lib/tcc, /usr/local/lib/tcc. '-Dsym' : define preprocessor symbol 'sym' to 1. '-lxxx' : dynamically link your program with library libxxx.so. Standard library paths are checked, including those specificed with LD_LIBRARY_PATH. Only one source code can be compiled. If you have multiple source files, add one which includes all your sources. 4) Examples ex1.c: simplest example (hello world). Can also be launched directly as a script: ./ex2.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 ! Currently slow because parsing does not use hash tables. ex5.c: 'hello world' with standard glibc headers. tcc.c: TCC can compile itself. Used to check the code generator. prog.c: auto test for TCC which tests many subtle possible bugs. Used when doing 'make test'. Exact differences with ANSI C: ----------------------------- 1) Preprocessor - the preprocessor tokens are the same as C. It means that in some rare cases, preprocessed numbers are not handled exactly as in ANSI C. This approach has the advantage of being simpler and FAST! - __LINE__, __FILE__, __DATE__, __TIME__ are currently not handled. - #line not handled 2) C language - Parsing: variables cannot be initialized ('int a = 1' or 'int tab[2] = {1, 2}' not supported). - Cannot pass struct/union as value. Cannot assign struct/union (use memcpy instead). - Types: floating point numbers are not supported. - (BUG) 'char' and 'short' casts do not truncate correctly. - 'sizeof' may not work if too complex expression is given. Supported C extensions: ---------------------- - 'inline' keyword is ignored. License: ------- TCC is distributed under the GNU Generic Public License (see COPYING file). I accept only patches where you give your copyright explictely to me to simplify licensing issues. Fabrice Bellard - Nov 11, 2001.