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  1 rizwank 1.1 .\"
  2             .\" States manual page.
  3             .\" Copyright (c) 1997-1998 Markku Rossi.
  4             .\" Author: Markku Rossi <mtr@iki.fi>
  5             .\"
  6             .\" This file is part of GNU enscript.
  7             .\"
  8             .\" This program is free software; you can redistribute it and/or modify
  9             .\" it under the terms of the GNU General Public License as published by
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 16             .\" GNU General Public License for more details.
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 21             .\" Boston, MA 02111-1307, USA.
 22 rizwank 1.1 .\"
 23             .TH STATES 1 "Oct 23, 1998" "STATES" "STATES"
 24             
 25             .SH NAME
 26             states \- awk alike text processing tool
 27             
 28             .SH SYNOPSIS
 29             .B states
 30             [\f3\-hvV\f1]
 31             [\f3\-D \f2var\f3=\f2val\f1]
 32             [\f3\-f \f2file\f1]
 33             [\f3\-o \f2outputfile\f1]
 34             [\f3\-p \f2path\f1]
 35             [\f3\-s \f2startstate\f1]
 36             [\f3\-W \f2level\f1]
 37             [\f2filename\f1 ...]
 38             
 39             .SH DESCRIPTION
 40             
 41             \f3States\f1 is an awk-alike text processing tool with some state
 42             machine extensions.  It is designed for program source code
 43 rizwank 1.1 highlighting and to similar tasks where state information helps input
 44             processing.
 45             
 46             At a single point of time, \f3States\f1 is in one state, each quite
 47             similar to awk's work environment, they have regular expressions which
 48             are matched from the input and actions which are executed when a match
 49             is found.  From the action blocks, \f3states\f1 can perform state
 50             transitions; it can move to another state from which the processing is
 51             continued.  State transitions are recorded so \f3states\f1 can return
 52             to the calling state once the current state has finished.
 53             
 54             The biggest difference between \f3states\f1 and awk, besides state
 55             machine extensions, is that \f3states\f1 is not line-oriented.  It
 56             matches regular expression tokens from the input and once a match is
 57             processed, it continues processing from the current position, not from
 58             the beginning of the next input line.
 59             
 60             .SH OPTIONS
 61             .TP 8
 62             .B \-D \f2var\f3=\f2val\f3, \-\-define=\f2var\f3=\f2val\f3
 63             Define variable \f2var\f1 to have string value \f2val\f1.  Command
 64 rizwank 1.1 line definitions overwrite variable definitions found from the config
 65             file.
 66             .TP 8
 67             .B \-f \f2file\f3, \-\-file=\f2file\f3
 68             Read state definitions from file \f2file\f1.  As a default,
 69             \f3states\f1 tries to read state definitions from file \f3states.st\f1
 70             in the current working directory.
 71             .TP 8
 72             .B \-h, \-\-help
 73             Print short help message and exit.
 74             .TP 8
 75             .B \-o \f2file\f3, \-\-output=\f2file\f3
 76             Save output to file \f2file\f1 instead of printing it to
 77             \f3stdout\f1.
 78             .TP 8
 79             .B \-p \f2path\f3, \-\-path=\f2path\f3
 80             Set the load path to \f2path\f1.  The load path defaults to the
 81             directory, from which the state definitions file is loaded.
 82             .TP 8
 83             .B \-s \f2state\f3, \-\-state=\f2state\f3
 84             Start execution from state \f3state\f1.  This definition overwrites
 85 rizwank 1.1 start state resolved from the \f3start\f1 block.
 86             .TP 8
 87             .B \-v, \-\-verbose
 88             Increase the program verbosity.
 89             .TP 8
 90             .B \-V, \-\-version
 91             Print \f3states\f1 version and exit.
 92             .TP 8
 93             .B \-W \f2level\f3, \-\-warning=\f2level\f3
 94             Set the warning level to \f2level\f1.  Possible values for \f2level\f1
 95             are:
 96             .RS 8
 97             .TP 8
 98             .B light
 99             light warnings (default)
100             .TP 8
101             .B all
102             all warnings
103             .RE
104             
105             .SH STATES PROGRAM FILES
106 rizwank 1.1 
107             \f3States\f1 program files can contain on \f2start\f1 block,
108             \f2startrules\f1 and \f2namerules\f1 blocks to specify the initial
109             state, \f2state\f1 definitions and \f2expressions\f1.
110             
111             The \f2start\f1 block is the main() of the \f3states\f1 program, it is
112             executed on script startup for each input file and it can perform any
113             initialization the script needs.  It normally also calls the
114             \f3check_startrules()\f1 and \f3check_namerules()\f1 primitives which
115             resolve the initial state from the input file name or the data found
116             from the begining of the input file.  Here is a sample start block
117             which initializes two variables and does the standard start state
118             resolving:
119             .PP
120             .RS
121             .nf
122             start
123             {
124               a = 1;
125               msg = "Hello, world!";
126               check_startrules ();
127 rizwank 1.1   check_namerules ();
128             }
129             .fi
130             .RE
131             .PP
132             Once the start block is processed, the input processing is continued
133             from the initial state.
134             
135             The initial state is resolved by the information found from the
136             \f2startrules\f1 and \f2namerules\f1 blocks.  Both blocks contain
137             regular expression - symbol pairs, when the regular expression is
138             matched from the name of from the beginning of the input file, the
139             initial state is named by the corresponding symbol.  For example, the
140             following start and name rules can distinguish C and Fortran files:
141             .PP
142             .RS
143             .nf
144             namerules
145             {
146               /\.(c|h)$/    c;
147               /\.[fF]$/     fortran;
148 rizwank 1.1 }
149             
150             startrules
151             {
152               /-\*- [cC] -\*-/      c;
153               /-\*- fortran -\*-/   fortran;
154             }
155             .fi
156             .RE
157             .PP
158             If these rules are used with the previously shown start block,
159             \f3states\f1 first check the beginning of input file.  If it has
160             string \f3-*- c -*-\f1, the file is assumed to contain C code and the
161             processing is started from state called \f3c\f1.  If the beginning of
162             the input file has string \f3-*- fortran -*-\f1, the initial state is
163             \f3fortran\f1.  If none of the start rules matched, the name of the
164             input file is matched with the namerules.  If the name ends to suffix
165             \f3c\f1 or \f3C\f1, we go to state \f3c\f1.  If the suffix is
166             \f3f\f1 or \f3F\f1, the initial state is fortran.
167             
168             If both start and name rules failed to resolve the start state,
169 rizwank 1.1 \f3states\f1 just copies its input to output unmodified.
170             
171             The start state can also be specified from the command line with
172             option \f3\-s\f1, \f3\-\-state\f1.
173             
174             State definitions have the following syntax:
175             
176             .B state { \f2expr\f1 {\f2statements\f1} ... }
177             
178             where \f2expr\f1 is: a regular expression, special expression or
179             symbol and \f2statements\f1 is a list of statements.  When the
180             expression \f2expr\f1 is matched from the input, the statement block
181             is executed.  The statement block can call \f3states\f1' primitives,
182             user-defined subroutines, call other states, etc.  Once the block is
183             executed, the input processing is continued from the current intput
184             position (which might have been changed if the statement block called
185             other states).
186             
187             Special expressions \f3BEGIN\f1 and \f3END\f1 can be used in the place
188             of \f2expr\f1.  Expression \f3BEGIN\f1 matches the beginning of the
189             state, its block is called when the state is entered.  Expression
190 rizwank 1.1 \f3END\f1 matches the end of the state, its block is executed when
191             \f3states\f1 leaves the state.
192             
193             If \f2expr\f1 is a symbol, its value is looked up from the global
194             environment and if it is a regular expression, it is matched to the
195             input, otherwise that rule is ignored.
196             
197             The \f3states\f1 program file can also have top-level expressions,
198             they are evaluated after the program file is parsed but before any
199             input files are processed or the \f2start\f1 block is evaluated.
200             
201             .SH PRIMITIVE FUNCTIONS
202             
203             .TP 8
204             .B call (\f2symbol\f3)
205             Move to state \f2symbol\f1 and continue input file processing from
206             that state.  Function returns whatever the \f3symbol\f1 state's
207             terminating \f3return\f1 statement returned.
208             .TP 8
209             .B calln (\f2name\f3)
210             Like \f3call\f1 but the argument \f2name\f1 is evaluated and its value
211 rizwank 1.1 must be string.  For example, this function can be used to call a
212             state which name is stored to a variable.
213             .TP 8
214             .B check_namerules ()
215             Try to resolve start state from \f3namerules\f1 rules.  Function
216             returns \f31\f1 if start state was resolved or \f30\f1 otherwise.
217             .TP 8
218             .B check_startrules ()
219             Try to resolve start state from \f3startrules\f1 rules.  Function
220             returns \f31\f1 if start state was resolved or \f30\f1 otherwise.
221             .TP 8
222             .B concat (\f2str\f3, ...)
223             Concanate argument strings and return result as a new string.
224             .TP 8
225             .B float (\f2any\f3)
226             Convert argument to a floating point number.
227             .TP 8
228             .B getenv (\f2str\f3)
229             Get value of environment variable \f2str\f1.  Returns an empty string
230             if variable \f2var\f1 is undefined.
231             .TP 8
232 rizwank 1.1 .B int (\f2any\f3)
233             Convert argument to an integer number.
234             .TP 8
235             .B length (\f2item\f3, ...)
236             Count the length of argument strings or lists.
237             .TP 8
238             .B list (\f2any\f3, ...)
239             Create a new list which contains items \f2any\f1, ...
240             .TP 8
241             .B panic (\f2any\f3, ...)
242             Report a non-recoverable error and exit with status \f31\f1.  Function
243             never returns.
244             .TP 8
245             .B print (\f2any\f3, ...)
246             Convert arguments to strings and print them to the output.
247             .TP 8
248             .B range (\f2source\f3, \f2start\f3, \f2end\f3)
249             Return a sub\-range of \f2source\f1 starting from position \f2start\f1
250             (inclusively) to \f2end\f1 (exclusively).  Argument \f2source\f1 can
251             be string or list.
252             .TP 8
253 rizwank 1.1 .B regexp (\f2string\f3)
254             Convert string \f2string\f1 to a new regular expression.
255             .TP 8
256             .B regexp_syntax (\f2char\f3, \f2syntax\f3)
257             Modify regular expression character syntaxes by assigning new
258             syntax \f2syntax\f1 for character \f2char\f1.  Possible values for
259             \f2syntax\f1 are:
260             .RS 8
261             .TP 8
262             .B 'w'
263             character is a word constituent
264             .TP 8
265             .B ' '
266             character isn't a word constituent
267             .RE
268             .TP 8
269             .B regmatch (\f2string\f3, \f2regexp\f3)
270             Check if string \f2string\f1 matches regular expression \f2regexp\f1.
271             Functions returns a boolean success status and sets sub-expression
272             registers \f3$\f2n\f1.
273             .TP 8
274 rizwank 1.1 .B regsub (\f2string\f1, \f2regexp\f3, \f2subst\f3)
275             Search regular expression \f2regexp\f1 from string \f2string\f1 and
276             replace the matching substring with string \f2subst\f1.  Returns the
277             resulting string.  The substitution string \f2subst\f1 can contain
278             \f3$\f2n\f1 references to the \f2n\f1:th parenthesized
279             sup-expression.
280             .TP 8
281             .B regsuball (\f2string\f1, \f2regexp\f3, \f2subst\f3)
282             Like \f3regsub\f1 but replace all matches of regular expression
283             \f2regexp\f1 from string \f2string\f1 with string \f2subst\f1.
284             .TP 8
285             .B require_state (\f2symbol\f3)
286             Check that the state \f2symbol\f1 is defined.  If the required state
287             is undefined, the function tries to autoload it.  If the loading
288             fails, the program will terminate with an error message.
289             .TP 8
290             .B split (\f2regexp\f3, \f2string\f3)
291             Split string \f2string\f1 to list considering matches of regular
292             rexpression \f2regexp\f1 as item separator.
293             .TP 8
294             .B sprintf (\f2fmt\f1, ...)
295 rizwank 1.1 Format arguments according to \f2fmt\f1 and return result as a
296             string.
297             .TP 8
298             .B strcmp (\f2str1\f3, \f2str2\f3)
299             Perform a case\-sensitive comparision for strings \f2str1\f1 and
300             \f2str2\f1.  Function returns a value that is:
301             .RS 8
302             .TP 8
303             .B -1
304             string \f2str1\f1 is less than \f2str2\f1
305             .TP 8
306             .B 0
307             strings are equal
308             .TP 8
309             .B 1
310             string \f2str1\f1 is greater than \f2str2\f1
311             .RE
312             .TP 8
313             .B string (\f2any\f3)
314             Convert argument to string.
315             .TP 8
316 rizwank 1.1 .B strncmp (\f2str1\f3, \f2str2\f3, \f2num\f3)
317             Perform a case\-sensitive comparision for strings \f2str1\f1 and
318             \f2str2\f1 comparing at maximum \f2num\f3 characters.
319             .TP 8
320             .B substring (\f2str\f3, \f2start\f3, \f2end\f3)
321             Return a substring of string \f2str\f1 starting from position
322             \f2start\f1 (inclusively) to \f2end\f1 (exclusively).
323             .RE
324             
325             .SH BUILTIN VARIABLES
326             .TP 8
327             .B $.
328             current input line number
329             .TP 8
330             .B $\f2n\f3
331             the \f2n\f1:th parenthesized regular expression sub-expression from the
332             latest state regular expression or from the \f3regmatch\f1 primitive
333             .TP 8
334             .B $`
335             everything before the matched regular rexpression.  This is usable
336             when used with the \f3regmatch\f1 primitive; the contents of this
337 rizwank 1.1 variable is undefined when used in action blocks to refer the data
338             before the block's regular expression.
339             .TP 8
340             .B $B
341             an alias for \f3$`\f1
342             .TP 8
343             .B argv
344             list of input file names
345             .TP 8
346             .B filename
347             name of the current input file
348             .TP 8
349             .B program
350             name of the program (usually \f3states\f1)
351             .TP 8
352             .B version
353             program version string
354             .RE
355             
356             .SH FILES
357             .nf
358 rizwank 1.1 .ta 4i
359             @DATADIR@/enscript/hl/*.st	enscript's states definitions
360             .fi
361             
362             .SH SEE ALSO
363             awk(1), enscript(1)
364             
365             .SH AUTHOR
366             Markku Rossi <mtr@iki.fi> <http://www.iki.fi/~mtr/>
367             
368             GNU Enscript WWW home page: <http://www.iki.fi/~mtr/genscript/>

Rizwan Kassim
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