mirror of
https://github.com/ZDoom/gzdoom-gles.git
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ec17f5a5b9
error handling. - Fixed: dehsupp/scanner.re defined "}" as the token RPAREN. dehsupp/parse.y also defined action_list_def as needing a RBARCE. I'm surprised it worked at all before. I guess Lemon really was too accepting. - Changed the way that xlatcc handles include statements so that I don't need to modify the logic of lempar.c. I also discovered that the grammar was improperly defined and only accepted the first statement. It worked before because Lemon used to accept multiple times before reaching the EOF token. I have also verified that it is still generating the proper lumps. - Removed some unused wadsrc files from the repository. - Fixed my re2c upgrade. - Updated lemon.c to v1.53. SVN r711 (trunk)
597 lines
23 KiB
Groff
597 lines
23 KiB
Groff
./"
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./" $Id: re2c.1.in 663 2007-04-01 11:22:15Z helly $
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./"
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.TH RE2C 1 "22 April 2005" "Version 0.12.3"
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.ds re \fBre2c\fP
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.ds le \fBlex\fP
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.ds rx regular expression
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.ds lx \fIl\fP-expression
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.SH NAME
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re2c \- convert regular expressions to C/C++
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.SH SYNOPSIS
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\*(re [\fB-bdefghisuvVw1\fP] [\fB-o output\fP] file\fP
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.SH DESCRIPTION
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\*(re is a preprocessor that generates C-based recognizers from regular
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expressions.
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The input to \*(re consists of C/C++ source interleaved with
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comments of the form \fC/*!re2c\fP ... \fC*/\fP which contain
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scanner specifications.
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In the output these comments are replaced with code that, when
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executed, will find the next input token and then execute
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some user-supplied token-specific code.
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For example, given the following code
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.in +3
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.nf
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char *scan(char *p)
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{
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/*!re2c
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re2c:define:YYCTYPE = "unsigned char";
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re2c:define:YYCURSOR = p;
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re2c:yyfill:enable = 0;
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re2c:yych:conversion = 1;
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re2c:indent:top = 1;
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[0-9]+ {return p;}
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[\000-\377] {return (char*)0;}
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*/
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}
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.fi
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.in -3
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\*(re -is will generate
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.in +3
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.nf
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/* Generated by re2c on Sat Apr 16 11:40:58 1994 */
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char *scan(char *p)
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{
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{
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unsigned char yych;
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yych = (unsigned char)*p;
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if(yych <= '/') goto yy4;
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if(yych >= ':') goto yy4;
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++p;
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yych = (unsigned char)*p;
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goto yy7;
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yy3:
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{return p;}
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yy4:
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++p;
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yych = (unsigned char)*p;
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{return char*)0;}
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yy6:
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++p;
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yych = (unsigned char)*p;
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yy7:
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if(yych <= '/') goto yy3;
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if(yych <= '9') goto yy6;
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goto yy3;
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}
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}
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.fi
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.in -3
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You can place one \fC/*!max:re2c */\fP comment that will output a "#define
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\fCYYMAXFILL\fP <n>" line that holds the maximum number of characters
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required to parse the input. That is the maximum value \fCYYFILL\fP(n)
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will receive. If -1 is in effect then YYMAXFILL can only be triggered once
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after the last \fC/*!re2c */\fP.
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You can also use \fC/*!ignore:re2c */\fP blocks that allows to document the
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scanner code and will not be part of the output.
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.SH OPTIONS
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\*(re provides the following options:
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.TP
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\fB-?\fP
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\fB-h\fP
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Invoke a short help.
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.TP
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\fB-b\fP
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Implies \fB-s\fP. Use bit vectors as well in the attempt to coax better
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code out of the compiler. Most useful for specifications with more than a
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few keywords (e.g. for most programming languages).
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.TP
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\fB-d\fP
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Creates a parser that dumps information about the current position and in
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which state the parser is while parsing the input. This is useful to debug
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parser issues and states. If you use this switch you need to define a macro
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\fIYYDEBUG\fP that is called like a function with two parameters:
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\fIvoid YYDEBUG(int state, char current)\fP. The first parameter receives the
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state or -1 and the second parameter receives the input at the current cursor.
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.TP
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\fB-e\fP
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Cross-compile from an ASCII platform to an EBCDIC one.
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.TP
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\fB-f\fP
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Generate a scanner with support for storable state.
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For details see below at \fBSCANNER WITH STORABLE STATES\fP.
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.TP
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\fB-g\fP
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Generate a scanner that utilizes GCC's computed goto feature. That is \*(re
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generates jump tables whenever a decision is of a certain complexity (e.g. a
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lot of if conditions are otherwise necessary). This is only useable with GCC
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and produces output that cannot be compiled with any other compiler. Note that
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this implies -b and that the complexity threshold can be configured using the
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inplace configuration "cgoto:threshold".
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.TP
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\fB-i\fP
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Do not output #line information. This is usefull when you want use a CMS tool
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with the \*(re output which you might want if you do not require your users to
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have \*(re themselves when building from your source.
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\fB-o output\fP
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Specify the output file.
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.TP
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\fB-s\fP
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Generate nested \fCif\fPs for some \fCswitch\fPes. Many compilers need this
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assist to generate better code.
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.TP
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\fB-u\fP
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Generate a parser that supports Unicode chars (UTF-32). This means the
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generated code can deal with any valid Unicode character up to 0x10FFFF. When
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UTF-8 or UTF-16 needs to be supported you need to convert the incoming stream
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to UTF-32 upon input yourself.
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.TP
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\fB-v\fP
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Show version information.
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.TP
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\fB-V\fP
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Show the version as a number XXYYZZ.
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.TP
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\fB-w\fP
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Create a parser that supports wide chars (UCS-2). This implies \fB-s\fP and
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cannot be used together with \fB-e\fP switch.
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.TP
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\fB-1\fP
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Force single pass generation, this cannot be combined with -f and disables
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YYMAXFILL generation prior to last \*(re block.
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.TP
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\fb--no-generation-date\fP
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Suppress date output in the generated output so that it only shows the re2c
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version.
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.SH "INTERFACE CODE"
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Unlike other scanner generators, \*(re does not generate complete scanners:
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the user must supply some interface code.
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In particular, the user must define the following macros or use the
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corresponding inplace configurations:
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.TP
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\fCYYCTYPE\fP
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Type used to hold an input symbol.
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Usually \fCchar\fP or \fCunsigned char\fP.
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.TP
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\fCYYCURSOR\fP
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\*(lx of type \fC*YYCTYPE\fP that points to the current input symbol.
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The generated code advances \fCYYCURSOR\fP as symbols are matched.
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On entry, \fCYYCURSOR\fP is assumed to point to the first character of the
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current token. On exit, \fCYYCURSOR\fP will point to the first character of
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the following token.
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.TP
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\fCYYLIMIT\fP
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Expression of type \fC*YYCTYPE\fP that marks the end of the buffer
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(\fCYYLIMIT[-1]\fP is the last character in the buffer).
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The generated code repeatedly compares \fCYYCURSOR\fP to \fCYYLIMIT\fP
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to determine when the buffer needs (re)filling.
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.TP
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\fCYYMARKER\fP
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\*(lx of type \fC*YYCTYPE\fP.
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The generated code saves backtracking information in \fCYYMARKER\fP. Some easy
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scanners might not use this.
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.TP
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\fCYYCTXMARKER\fP
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\*(lx of type \fC*YYCTYPE\fP.
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The generated code saves trailing context backtracking information in \fCYYCTXMARKER\fP.
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The user only needs to define this macro if a scanner specification uses trailing
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context in one or more of its regular expressions.
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.TP
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\fCYYFILL\fP(\fIn\fP\fC\fP)
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The generated code "calls" \fCYYFILL\fP(n) when the buffer needs
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(re)filling: at least \fIn\fP additional characters should
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be provided. \fCYYFILL\fP(n) should adjust \fCYYCURSOR\fP, \fCYYLIMIT\fP,
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\fCYYMARKER\fP and \fCYYCTXMARKER\fP as needed. Note that for typical
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programming languages \fIn\fP will be the length of the longest keyword plus one.
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The user can place a comment of the form \fC/*!max:re2c */\fP once to insert
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a \fCYYMAXFILL\fP(n) definition that is set to the maximum length value. If -1
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switch is used then \fCYYMAXFILL\fP can be triggered only once after the
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last \fC/*!re2c */\fP
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block.
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.TP
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\fCYYGETSTATE\fP()
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The user only needs to define this macro if the \fB-f\fP flag was specified.
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In that case, the generated code "calls" \fCYYGETSTATE\fP() at the very beginning
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of the scanner in order to obtain the saved state. \fCYYGETSTATE\fP() must return a signed
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integer. The value must be either -1, indicating that the scanner is entered for the
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first time, or a value previously saved by \fCYYSETSTATE\fP(s). In the second case, the
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scanner will resume operations right after where the last \fCYYFILL\fP(n) was called.
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.TP
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\fCYYSETSTATE(\fP\fIs\fP\fC)\fP
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The user only needs to define this macro if the \fB-f\fP flag was specified.
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In that case, the generated code "calls" \fCYYSETSTATE\fP just before calling
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\fCYYFILL\fP(n). The parameter to \fCYYSETSTATE\fP is a signed integer that uniquely
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identifies the specific instance of \fCYYFILL\fP(n) that is about to be called.
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Should the user wish to save the state of the scanner and have \fCYYFILL\fP(n) return
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to the caller, all he has to do is store that unique identifer in a variable.
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Later, when the scannered is called again, it will call \fCYYGETSTATE()\fP and
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resume execution right where it left off. The generated code will contain
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both \fCYYSETSTATE\fP(s) and \fCYYGETSTATE\fP even if \fCYYFILL\fP(n) is being
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disabled.
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.TP
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\fCYYDEBUG(\fP\fIstate\fP,\fIcurrent\fC)\fP
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This is only needed if the \fB-d\fP flag was specified. It allows to easily debug
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the generated parser by calling a user defined function for every state. The function
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should have the following signature: \fIvoid YYDEBUG(int state, char current)\fP.
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The first parameter receives the state or -1 and the second parameter receives the
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input at the current cursor.
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.TP
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\fCYYMAXFILL
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This will be automatically defined by \fC/*!max:re2c */\fP blocks as explained above.
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.SH "SCANNER WITH STORABLE STATES"
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When the \fB-f\fP flag is specified, \*(re generates a scanner that
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can store its current state, return to the caller, and later resume
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operations exactly where it left off.
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The default operation of \*(re is a "pull" model, where the scanner asks
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for extra input whenever it needs it. However, this mode of operation
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assumes that the scanner is the "owner" the parsing loop, and that may
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not always be convenient.
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Typically, if there is a preprocessor ahead of the scanner in the stream,
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or for that matter any other procedural source of data, the scanner cannot
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"ask" for more data unless both scanner and source live in a separate threads.
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The \fB-f\fP flag is useful for just this situation : it lets users design
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scanners that work in a "push" model, i.e. where data is fed to the scanner
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chunk by chunk. When the scanner runs out of data to consume, it just stores
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its state, and return to the caller. When more input data is fed to the scanner,
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it resumes operations exactly where it left off.
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When using the -f option \*(re does not accept stdin because it has to do the
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full generation process twice which means it has to read the input twice. That
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means \*(re would fail in case it cannot open the input twice or reading the
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input for the first time influences the second read attempt.
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Changes needed compared to the "pull" model.
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1. User has to supply macros YYSETSTATE() and YYGETSTATE(state)
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2. The \fB-f\fP option inhibits declaration of \fIyych\fP and
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\fIyyaccept\fP. So the user has to declare these. Also the user has
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to save and restore these. In the example \fIexamples/push.re\fP these
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are declared as fields of the (C++) class of which the scanner is a
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method, so they do not need to be saved/restored explicitly. For C
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they could e.g. be made macros that select fields from a structure
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passed in as parameter. Alternatively, they could be declared as local
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variables, saved with YYFILL(n) when it decides to return and restored
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at entry to the function. Also, it could be more efficient to save the
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state from YYFILL(n) because YYSETSTATE(state) is called
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unconditionally. YYFILL(n) however does not get \fIstate\fP as
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parameter, so we would have to store state in a local variable by
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YYSETSTATE(state).
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3. Modify YYFILL(n) to return (from the function calling it) if more
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input is needed.
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4. Modify caller to recognise "more input is needed" and respond
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appropriately.
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5. The generated code will contain a switch block that is used to restores
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the last state by jumping behind the corrspoding YYFILL(n) call. This code is
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automatically generated in the epilog of the first "\fC/*!re2c */\fP" block.
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It is possible to trigger generation of the YYGETSTATE() block earlier by
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placing a "\fC/*!getstate:re2c */\fP" comment. This is especially useful when
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the scanner code should be wrapped inside a loop.
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Please see examples/push.re for push-model scanner. The generated code can be
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tweaked using inplace configurations "\fBstate:abort\fP" and "\fBstate:nextlabel\fP".
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.SH "SCANNER SPECIFICATIONS"
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Each scanner specification consists of a set of \fIrules\fP, \fInamed
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definitions\fP and \fIconfigurations\fP.
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.LP
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\fIRules\fP consist of a regular expression along with a block of C/C++ code that
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is to be executed when the associated \fIregular expression\fP is matched.
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.P
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.RS
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\fIregular expression\fP \fC{\fP \fIC/C++ code\fP \fC}\fP
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.RE
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.LP
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Named definitions are of the form:
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.P
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.RS
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\fIname\fP \fC=\fP \fIregular expression\fP\fC;\fP
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.RE
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.LP
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Configurations look like named definitions whose names start
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with "\fBre2c:\fP":
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.P
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.RS
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\fCre2c:\fP\fIname\fP \fC=\fP \fIvalue\fP\fC;\fP
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.RE
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.RS
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\fCre2c:\fP\fIname\fP \fC=\fP \fB"\fP\fIvalue\fP\fB"\fP\fC;\fP
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.RE
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.SH "SUMMARY OF RE2C REGULAR EXPRESSIONS"
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.TP
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\fC"foo"\fP
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the literal string \fCfoo\fP.
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ANSI-C escape sequences can be used.
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.TP
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\fC'foo'\fP
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the literal string \fCfoo\fP (characters [a-zA-Z] treated case-insensitive).
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ANSI-C escape sequences can be used.
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.TP
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\fC[xyz]\fP
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a "character class"; in this case,
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the \*(rx matches either an '\fCx\fP', a '\fCy\fP', or a '\fCz\fP'.
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.TP
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\fC[abj-oZ]\fP
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a "character class" with a range in it;
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matches an '\fCa\fP', a '\fCb\fP', any letter from '\fCj\fP' through '\fCo\fP',
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or a '\fCZ\fP'.
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.TP
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\fC[^\fIclass\fP\fC]\fP
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an inverted "character class".
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.TP
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\fIr\fP\fC\e\fP\fIs\fP
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match any \fIr\fP which isn't an \fIs\fP. \fIr\fP and \fIs\fP must be regular expressions
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which can be expressed as character classes.
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.TP
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\fIr\fP\fC*\fP
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zero or more \fIr\fP's, where \fIr\fP is any regular expression
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.TP
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\fC\fIr\fP\fC+\fP
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one or more \fIr\fP's
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.TP
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\fC\fIr\fP\fC?\fP
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zero or one \fIr\fP's (that is, "an optional \fIr\fP")
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.TP
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name
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the expansion of the "named definition" (see above)
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.TP
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\fC(\fP\fIr\fP\fC)\fP
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an \fIr\fP; parentheses are used to override precedence
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(see below)
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.TP
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\fIrs\fP
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an \fIr\fP followed by an \fIs\fP ("concatenation")
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.TP
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\fIr\fP\fC|\fP\fIs\fP
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either an \fIr\fP or an \fIs\fP
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.TP
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\fIr\fP\fC/\fP\fIs\fP
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an \fIr\fP but only if it is followed by an \fIs\fP. The \fIs\fP is not part of
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the matched text. This type of \*(rx is called "trailing context". A trailing
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context can only be the end of a rule and not part of a named definition.
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.TP
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\fIr\fP\fC{\fP\fIn\fP\fC}\fP
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matches \fIr\fP exactly \fIn\fP times.
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.TP
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\fIr\fP\fC{\fP\fIn\fP\fC,}\fP
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matches \fIr\fP at least \fIn\fP times.
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.TP
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\fIr\fP\fC{\fP\fIn\fP\fC,\fP\fIm\fP\fC}\fP
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matches \fIr\fP at least \fIn\fP but not more than \fIm\fP times.
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.TP
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\fC.\fP
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match any character except newline (\\n).
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.TP
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\fIdef\fP
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matches named definition as specified by \fIdef\fP.
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.LP
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Character classes and string literals may contain octoal or hexadecimal
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character definitions and the following set of escape sequences (\fB\\n\fP,
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\fB\\t\fP, \fB\\v\fP, \fB\\b\fP, \fB\\r\fP, \fB\\f\fP, \fB\\a\fP, \fB\\\\\fP).
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An octal character is defined by a backslash followed by its three octal digits
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and a hexadecimal character is defined by backslash, a lower cased '\fBx\fP'
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and its two hexadecimal digits or a backslash, an upper cased \fBX\fP and its
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four hexadecimal digits.
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.LP
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\*(re further more supports the c/c++ unicode notation. That is a backslash followed
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by either a lowercased \fBu\fP and its four hexadecimal digits or an uppercased
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\fBU\fP and its eight hexadecimal digits. However only in \fB-u\fP mode the
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generated code can deal with any valid Unicode character up to 0x10FFFF.
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.LP
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Since characters greater \fB\\X00FF\fP are not allowed in non unicode mode, the
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only portable "\fBany\fP" rules are \fB(.|"\\n")\fP and \fB[^]\fP.
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.LP
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The regular expressions listed above are grouped according to
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precedence, from highest precedence at the top to lowest at the bottom.
|
|
Those grouped together have equal precedence.
|
|
|
|
.SH "INPLACE CONFIGURATION"
|
|
.LP
|
|
It is possible to configure code generation inside \*(re blocks. The following
|
|
lists the available configurations:
|
|
.TP
|
|
\fIre2c:indent:top\fP \fB=\fP 0 \fB;\fP
|
|
Specifies the minimum number of indendation to use. Requires a numeric value
|
|
greater than or equal zero.
|
|
.TP
|
|
\fIre2c:indent:string\fP \fB=\fP "\\t" \fB;\fP
|
|
Specifies the string to use for indendation. Requires a string that should
|
|
contain only whitespace unless you need this for external tools. The easiest
|
|
way to specify spaces is to enclude them in single or double quotes. If you do
|
|
not want any indendation at all you can simply set this to \fB""\fP.
|
|
.TP
|
|
\fIre2c:yybm:hex\fP \fB=\fP 0 \fB;\fP
|
|
If set to zero then a decimal table is being used else a hexadecimal table
|
|
will be generated.
|
|
.TP
|
|
\fIre2c:yyfill:enable\fP \fB=\fP 1 \fB;\fP
|
|
Set this to zero to suppress generation of YYFILL(n). When using this be sure
|
|
to verify that the generated scanner does not read behind input. Allowing
|
|
this behavior might introduce sever security issues to you programs.
|
|
.TP
|
|
\fIre2c:yyfill:parameter\fP \fB=\fP 1 \fB;\fP
|
|
Allows to suppress parameter passing to \fBYYFILL\fP calls. If set to zero
|
|
then no parameter is passed to \fBYYFILL\fP. If set to a non zero value then
|
|
\fBYYFILL\fP usage will be followed by the number of requested characters in
|
|
braces.
|
|
.TP
|
|
\fIre2c:startlabel\fP \fB=\fP 0 \fB;\fP
|
|
If set to a non zero integer then the start label of the next scanner blocks
|
|
will be generated even if not used by the scanner itself. Otherwise the normal
|
|
\fByy0\fP like start label is only being generated if needed. If set to a text
|
|
value then a label with that text will be generated regardless of whether the
|
|
normal start label is being used or not. This setting is being reset to \fB0\fP
|
|
after a start label has been generated.
|
|
.TP
|
|
\fIre2c:labelprefix\fP \fB=\fP yy \fB;\fP
|
|
Allows to change the prefix of numbered labels. The default is \fByy\fP and
|
|
can be set any string that is a valid label.
|
|
.TP
|
|
\fIre2c:state:abort\fP \fB=\fP 0 \fB;\fP
|
|
When not zero and switch -f is active then the \fCYYGETSTATE\fP block will
|
|
contain a default case that aborts and a -1 case is used for initialization.
|
|
.TP
|
|
\fIre2c:state:nextlabel\fP \fB=\fP 0 \fB;\fP
|
|
Used when -f is active to control whether the \fCYYGETSTATE\fP block is
|
|
followed by a \fCyyNext:\fP label line. Instead of using \fCyyNext\fP you can
|
|
usually also use configuration \fIstartlabel\fP to force a specific start label
|
|
or default to \fCyy0\fP as start label. Instead of using a dedicated label it
|
|
is often better to separate the YYGETSTATE code from the actual scanner code by
|
|
placing a "\fC/*!getstate:re2c */\fP" comment.
|
|
.TP
|
|
\fIre2c:cgoto:threshold\fP \fB=\fP 9 \fB;\fP
|
|
When -g is active this value specifies the complexity threshold that triggers
|
|
generation of jump tables rather than using nested if's and decision bitfields.
|
|
The threshold is compared against a calculated estimation of if-s needed where
|
|
every used bitmap divides the threshold by 2.
|
|
.TP
|
|
\fIre2c:yych:conversion\fP \fB=\fP 0 \fB;\fP
|
|
When the input uses signed characters and \fB-s\fP or \fB-b\fP switches are
|
|
in effect re2c allows to automatically convert to the unsigned character type
|
|
that is then necessary for its internal single character. When this setting
|
|
is zero or an empty string the conversion is disabled. Using a non zero number
|
|
the conversion is taken from \fBYYCTYPE\fP. If that is given by an inplace
|
|
configuration that value is being used. Otherwise it will be \fB(YYCTYPE)\fP
|
|
and changes to that configuration are no longer possible. When this setting is
|
|
a string the braces must be specified. Now assuming your input is a \fBchar*\fP
|
|
buffer and you are using above mentioned switches you can set \fBYYCTYPE\fP to
|
|
\fBunsigned char\fP and this setting to either \fB1\fP or \fB"(unsigned char)"\fP.
|
|
.TP
|
|
\fIre2c:define:YYCTXMARKER\fP \fB=\fP YYCTXMARKER \fB;\fP
|
|
Allows to overwrite the define YYCTXMARKER and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYCTYPE\fP \fB=\fP YYCTYPE \fB;\fP
|
|
Allows to overwrite the define YYCTYPE and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYCURSOR\fP \fB=\fP YYCURSOR \fB;\fP
|
|
Allows to overwrite the define YYCURSOR and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYDEBUG\fP \fB=\fP YYDEBUG \fB;\fP
|
|
Allows to overwrite the define YYDEBUG and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYFILL\fP \fB=\fP YYFILL \fB;\fP
|
|
Allows to overwrite the define YYFILL and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYGETSTATE\fP \fB=\fP YYGETSTATE \fB;\fP
|
|
Allows to overwrite the define YYGETSTATE and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYLIMIT\fP \fB=\fP YYLIMIT \fB;\fP
|
|
Allows to overwrite the define YYLIMIT and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYMARKER\fP \fB=\fP YYMARKER \fB;\fP
|
|
Allows to overwrite the define YYMARKER and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:define:YYSETSTATE\fP \fB=\fP YYSETSTATE \fB;\fP
|
|
Allows to overwrite the define YYSETSTATE and thus avoiding it by setting the
|
|
value to the actual code needed.
|
|
.TP
|
|
\fIre2c:label:yyFillLabel\fP \fB=\fP yyFillLabel \fB;\fP
|
|
Allows to overwrite the name of the label yyFillLabel.
|
|
.TP
|
|
\fIre2c:label:yyNext\fP \fB=\fP yyNext \fB;\fP
|
|
Allows to overwrite the name of the label yyNext.
|
|
.TP
|
|
\fIre2c:variable:yyaccept\fP \fB=\fP yyaccept \fB;\fP
|
|
Allows to overwrite the name of the variable yyaccept.
|
|
.TP
|
|
\fIre2c:variable:yybm\fP \fB=\fP yybm \fB;\fP
|
|
Allows to overwrite the name of the variable yybm.
|
|
.TP
|
|
\fIre2c:variable:yych\fP \fB=\fP yych \fB;\fP
|
|
Allows to overwrite the name of the variable yych.
|
|
.TP
|
|
\fIre2c:variable:yytarget\fP \fB=\fP yytarget \fB;\fP
|
|
Allows to overwrite the name of the variable yytarget.
|
|
|
|
.SH "UNDERSTANDING RE2C"
|
|
.LP
|
|
The subdirectory lessons of the \*(re distribution contains a few step by step
|
|
lessons to get you started with \*(re. All examples in the lessons subdirectory
|
|
can be compiled and actually work.
|
|
|
|
.SH FEATURES
|
|
.LP
|
|
\*(re does not provide a default action:
|
|
the generated code assumes that the input
|
|
will consist of a sequence of tokens.
|
|
Typically this can be dealt with by adding a rule such as the one for
|
|
unexpected characters in the example above.
|
|
.LP
|
|
The user must arrange for a sentinel token to appear at the end of input
|
|
(and provide a rule for matching it):
|
|
\*(re does not provide an \fC<<EOF>>\fP expression.
|
|
If the source is from a null-byte terminated string, a
|
|
rule matching a null character will suffice. If the source is from a
|
|
file then you could pad the input with a newline (or some other character that
|
|
cannot appear within another token); upon recognizing such a character check
|
|
to see if it is the sentinel and act accordingly. And you can also use YYFILL(n)
|
|
to end the scanner in case not enough characters are available which is nothing
|
|
else then e detection of end of data/file.
|
|
.LP
|
|
\*(re does not provide start conditions: use a separate scanner
|
|
specification for each start condition (as illustrated in the above example).
|
|
|
|
.SH BUGS
|
|
.LP
|
|
Difference only works for character sets.
|
|
.LP
|
|
The \*(re internal algorithms need documentation.
|
|
|
|
.SH "SEE ALSO"
|
|
.LP
|
|
flex(1), lex(1).
|
|
.P
|
|
More information on \*(re can be found here:
|
|
.PD 0
|
|
.P
|
|
.B http://re2c.org/
|
|
.PD 1
|
|
|
|
.SH AUTHORS
|
|
.PD 0
|
|
.P
|
|
Peter Bumbulis <peter@csg.uwaterloo.ca>
|
|
.P
|
|
Brian Young <bayoung@acm.org>
|
|
.P
|
|
Dan Nuffer <nuffer@users.sourceforge.net>
|
|
.P
|
|
Marcus Boerger <helly@users.sourceforge.net>
|
|
.P
|
|
Hartmut Kaiser <hkaiser@users.sourceforge.net>
|
|
.P
|
|
Emmanuel Mogenet <mgix@mgix.com> added storable state
|
|
.P
|
|
.PD 1
|
|
|
|
.SH VERSION INFORMATION
|
|
This manpage describes \*(re, version 0.12.3.
|
|
|
|
.fi
|