mirror of
https://github.com/ZDoom/gzdoom.git
synced 2024-11-16 09:21:43 +00:00
0c62f08a58
make the dependancy files at the same time it makes the object files. SVN r180 (trunk) |
||
---|---|---|
.. | ||
doc | ||
examples | ||
actions.cc | ||
basics.h | ||
CHANGELOG | ||
code.cc | ||
code.h | ||
config_w32.h | ||
dfa.cc | ||
dfa.h | ||
globals.h | ||
ins.h | ||
main.cc | ||
Makefile | ||
mbo_getopt.cc | ||
mbo_getopt.h | ||
parser.cc | ||
parser.h | ||
parser.y | ||
re.h | ||
re2c.1 | ||
re2c.vcproj | ||
README | ||
scanner.cc | ||
scanner.h | ||
scanner.re | ||
stream_lc.h | ||
substr.cc | ||
substr.h | ||
token.h | ||
translate.cc | ||
y.tab.h |
re2c Version 0.10.3 ------------------ Originally written by Peter Bumbulis (peter@csg.uwaterloo.ca) Currently maintained by: Dan Nuffer <nuffer at users.sourceforge.net> Marcus Boerger <helly at users.sourceforge.net> Hartmut Kaiser <hkaiser at users.sourceforge.net> The re2c distribution can be found at: http://sourceforge.net/projects/re2c/ re2c has been developed and tested with gcc 3.3 to 4.0.2, Microsoft and Intel compilers on various platforms. Building re2c requires autoconf 2.57 and bison (tested with 1.875 and later). Under windows you don't need autoconf or bison and can use the pregenerated files. You can build this software by simply typing the following commands: ./configure make The above version will be based on the pregenerated scanner.cc file. If you want to build that file yourself (recommended when installing re2c) you need the following steps: ./configure make rm -f scanner.cc make install Or you can create a rpm package and install it by the following commands: ./configure make rpm rpm -Uhv <packagedir>/re2c-0.10.3-1.rpm If you want to build from CVS then the first thing you should do is regenerating all build files using the following command: ./autogen.sh and then continue with one of the above described build methods. Or if you need to generate RPM packages for cvs builds use these commands: ./autogen.sh ./configure ./makerpm <release> rpm -Uhv <packagedir>/re2c-0.10.3-<release>.rpm Here <realease> should be a number like 1. And <packagedir> must equal the directory where the makerpm step has written the generated rpm to. If you are on a debian system you can use the tool 'alien' to convert rpms to debian packages. When building with native SUN compilers you need to set the following compiler flags: CXXFLAGS='-g -compat5 -library=stlport4'. If you want to build re2c on a windows system you can either use cygwin and one of the methods described above or use Microsoft Visual C .NET 2002 or later with the solution files provided (re2c.sln for 2002/2003 and re2c-2005.sln for version 2005). re2c cannot be built with Microsoft Visual C 6.0 or earlier. re2c is a great tool for writing fast and flexible lexers. It has served many people well for many years. re2c is on the order of 2-3 times faster than a flex based scanner, and its input model is much more flexible. For an introduction to re2c refer to the lessons sub directory. Peter's original version 0.5 ANNOUNCE and README follows. -- re2c is a tool for generating C-based recognizers from regular expressions. re2c-based scanners are efficient: for programming languages, given similar specifications, an re2c-based scanner is typically almost twice as fast as a flex-based scanner with little or no increase in size (possibly a decrease on cisc architectures). Indeed, re2c-based scanners are quite competitive with hand-crafted ones. Unlike flex, re2c does not generate complete scanners: the user must supply some interface code. While this code is not bulky (about 50-100 lines for a flex-like scanner; see the man page and examples in the distribution) careful coding is required for efficiency (and correctness). One advantage of this arrangement is that the generated code is not tied to any particular input model. For example, re2c generated code can be used to scan data from a null-byte terminated buffer as illustrated below. Given the following source #define NULL ((char*) 0) char *scan(char *p) { #define YYCTYPE char #define YYCURSOR p #define YYLIMIT p #define YYFILL(n) /*!re2c [0-9]+ {return YYCURSOR;} [\000-\377] {return NULL;} */ } re2c will generate /* Generated by re2c on Sat Apr 16 11:40:58 1994 */ #line 1 "simple.re" #define NULL ((char*) 0) char *scan(char *p) { #define YYCTYPE char #define YYCURSOR p #define YYLIMIT p #define YYFILL(n) { YYCTYPE yych; unsigned int yyaccept; if((YYLIMIT - YYCURSOR) < 2) YYFILL(2); yych = *YYCURSOR; if(yych <= '/') goto yy4; if(yych >= ':') goto yy4; yy2: yych = *++YYCURSOR; goto yy7; yy3: #line 9 {return YYCURSOR;} yy4: yych = *++YYCURSOR; yy5: #line 10 {return NULL;} yy6: ++YYCURSOR; if(YYLIMIT == YYCURSOR) YYFILL(1); yych = *YYCURSOR; yy7: if(yych <= '/') goto yy3; if(yych <= '9') goto yy6; goto yy3; } #line 11 } Note that most compilers will perform dead-code elimination to remove all YYCURSOR, YYLIMIT comparisions. re2c was developed for a particular project (constructing a fast REXX scanner of all things!) and so while it has some rough edges, it should be quite usable. More information about re2c can be found in the (admittedly skimpy) man page; the algorithms and heuristics used are described in an upcoming LOPLAS article (included in the distribution). Probably the best way to find out more about re2c is to try the supplied examples. re2c is written in C++, and is currently being developed under Linux using gcc 2.5.8. Peter -- re2c is distributed with no warranty whatever. The code is certain to contain errors. Neither the author nor any contributor takes responsibility for any consequences of its use. re2c is in the public domain. The data structures and algorithms used in re2c are all either taken from documents available to the general public or are inventions of the author. Programs generated by re2c may be distributed freely. re2c itself may be distributed freely, in source or binary, unchanged or modified. Distributors may charge whatever fees they can obtain for re2c. If you do make use of re2c, or incorporate it into a larger project an acknowledgement somewhere (documentation, research report, etc.) would be appreciated. Please send bug reports and feedback (including suggestions for improving the distribution) to peter@csg.uwaterloo.ca Include a small example and the banner from parser.y with bug reports.