File Coverage

blib/lib/Pod/Parser.pm

Criterion	Covered	Total	%
statement	0	260	0.0
branch	0	156	0.0
condition	0	99	0.0
subroutine	0	32	0.0
pod	0	26	0.0
total	0	573	0.0

line	stmt	bran	cond	sub	pod	code
1						#############################################################################
2						# Pod/Parser.pm -- package which defines a base class for parsing POD docs.
3						#
4						# Copyright (C) 1996-2000 by Bradford Appleton. All rights reserved.
5						# This file is part of "PodParser". PodParser is free software;
6						# you can redistribute it and/or modify it under the same terms
7						# as Perl itself.
8						#############################################################################
9
10						package Pod::Parser;
11						use strict;
12
13						## These "variables" are used as local "glob aliases" for performance
14						use vars qw($VERSION @ISA %myData %myOpts @input_stack);
15						$VERSION = '1.64'; ## Current version of this package
16						require 5.005; ## requires this Perl version or later
17
18						#############################################################################
19
20						=head1 NAME
21
22						Pod::Parser - base class for creating POD filters and translators
23
24						=head1 SYNOPSIS
25
26						use Pod::Parser;
27
28						package MyParser;
29						@ISA = qw(Pod::Parser);
30
31						sub command {
32						my ($parser, $command, $paragraph, $line_num) = @_;
33						## Interpret the command and its text; sample actions might be:
34						if ($command eq 'head1') { ... }
35						elsif ($command eq 'head2') { ... }
36						## ... other commands and their actions
37						my $out_fh = $parser->output_handle();
38						my $expansion = $parser->interpolate($paragraph, $line_num);
39						print $out_fh $expansion;
40						}
41
42						sub verbatim {
43						my ($parser, $paragraph, $line_num) = @_;
44						## Format verbatim paragraph; sample actions might be:
45						my $out_fh = $parser->output_handle();
46						print $out_fh $paragraph;
47						}
48
49						sub textblock {
50						my ($parser, $paragraph, $line_num) = @_;
51						## Translate/Format this block of text; sample actions might be:
52						my $out_fh = $parser->output_handle();
53						my $expansion = $parser->interpolate($paragraph, $line_num);
54						print $out_fh $expansion;
55						}
56
57						sub interior_sequence {
58						my ($parser, $seq_command, $seq_argument) = @_;
59						## Expand an interior sequence; sample actions might be:
60						return "$seq_argument" if ($seq_command eq 'B');
61						return "`$seq_argument'" if ($seq_command eq 'C');
62						return "_${seq_argument}_'" if ($seq_command eq 'I');
63						## ... other sequence commands and their resulting text
64						}
65
66						package main;
67
68						## Create a parser object and have it parse file whose name was
69						## given on the command-line (use STDIN if no files were given).
70						$parser = new MyParser();
71						$parser->parse_from_filehandle(\*STDIN) if (@ARGV == 0);
72						for (@ARGV) { $parser->parse_from_file($_); }
73
74						=head1 REQUIRES
75
76						perl5.005, Pod::InputObjects, Exporter, Symbol, Carp
77
78						=head1 EXPORTS
79
80						Nothing.
81
82						=head1 DESCRIPTION
83
84						B
85						higher) are going to remove Pod-Parser from core and use L
86						for all things POD.>
87
88						B is a base class for creating POD filters and translators.
89						It handles most of the effort involved with parsing the POD sections
90						from an input stream, leaving subclasses free to be concerned only with
91						performing the actual translation of text.
92
93						B parses PODs, and makes method calls to handle the various
94						components of the POD. Subclasses of B override these methods
95						to translate the POD into whatever output format they desire.
96
97						=head1 QUICK OVERVIEW
98
99						To create a POD filter for translating POD documentation into some other
100						format, you create a subclass of B which typically overrides
101						just the base class implementation for the following methods:
102
103						=over 2
104
105						=item *
106
107						B
108
109						=item *
110
111						B
112
113						=item *
114
115						B
116
117						=item *
118
119						B
120
121						=back
122
123						You may also want to override the B and B
124						methods for your subclass (to perform any needed per-file and/or
125						per-document initialization or cleanup).
126
127						If you need to perform any preprocessing of input before it is parsed
128						you may want to override one or more of B and/or
129						B.
130
131						Sometimes it may be necessary to make more than one pass over the input
132						files. If this is the case you have several options. You can make the
133						first pass using B and override your methods to store the
134						intermediate results in memory somewhere for the B method to
135						process. You could use B for several passes with an
136						appropriate state variable to control the operation for each pass. If
137						your input source can't be reset to start at the beginning, you can
138						store it in some other structure as a string or an array and have that
139						structure implement a B method (which is all that
140						B uses to read input).
141
142						Feel free to add any member data fields you need to keep track of things
143						like current font, indentation, horizontal or vertical position, or
144						whatever else you like. Be sure to read L<"PRIVATE METHODS AND DATA">
145						to avoid name collisions.
146
147						For the most part, the B base class should be able to
148						do most of the input parsing for you and leave you free to worry about
149						how to interpret the commands and translate the result.
150
151						Note that all we have described here in this quick overview is the
152						simplest most straightforward use of B to do stream-based
153						parsing. It is also possible to use the B function
154						to do more sophisticated tree-based parsing. See L<"TREE-BASED PARSING">.
155
156						=head1 PARSING OPTIONS
157
158						A I is simply a named option of B with a
159						value that corresponds to a certain specified behavior. These various
160						behaviors of B may be enabled/disabled by setting
161						or unsetting one or more I using the B method.
162						The set of currently accepted parse-options is as follows:
163
164						=over 3
165
166						=item B<-want_nonPODs> (default: unset)
167
168						Normally (by default) B will only provide access to
169						the POD sections of the input. Input paragraphs that are not part
170						of the POD-format documentation are not made available to the caller
171						(not even using B). Setting this option to a
172						non-empty, non-zero value will allow B to see
173						non-POD sections of the input as well as POD sections. The B
174						method can be used to determine if the corresponding paragraph is a POD
175						paragraph, or some other input paragraph.
176
177						=item B<-process_cut_cmd> (default: unset)
178
179						Normally (by default) B handles the C<=cut> POD directive
180						by itself and does not pass it on to the caller for processing. Setting
181						this option to a non-empty, non-zero value will cause B to
182						pass the C<=cut> directive to the caller just like any other POD command
183						(and hence it may be processed by the B method).
184
185						B will still interpret the C<=cut> directive to mean that
186						"cutting mode" has been (re)entered, but the caller will get a chance
187						to capture the actual C<=cut> paragraph itself for whatever purpose
188						it desires.
189
190						=item B<-warnings> (default: unset)
191
192						Normally (by default) B recognizes a bare minimum of
193						pod syntax errors and warnings and issues diagnostic messages
194						for errors, but not for warnings. (Use B to do more
195						thorough checking of POD syntax.) Setting this option to a non-empty,
196						non-zero value will cause B to issue diagnostics for
197						the few warnings it recognizes as well as the errors.
198
199						=back
200
201						Please see L<"parseopts()"> for a complete description of the interface
202						for the setting and unsetting of parse-options.
203
204						=cut
205
206						#############################################################################
207
208						#use diagnostics;
209						use Pod::InputObjects;
210						use Carp;
211						use Exporter;
212						BEGIN {
213						if ($] < 5.006) {
214						require Symbol;
215						import Symbol;
216						}
217						}
218						@ISA = qw(Exporter);
219
220						#############################################################################
221
222						=head1 RECOMMENDED SUBROUTINE/METHOD OVERRIDES
223
224						B provides several methods which most subclasses will probably
225						want to override. These methods are as follows:
226
227						=cut
228
229						##---------------------------------------------------------------------------
230
231						=head1 B
232
233						$parser->command($cmd,$text,$line_num,$pod_para);
234
235						This method should be overridden by subclasses to take the appropriate
236						action when a POD command paragraph (denoted by a line beginning with
237						"=") is encountered. When such a POD directive is seen in the input,
238						this method is called and is passed:
239
240						=over 3
241
242						=item C<$cmd>
243
244						the name of the command for this POD paragraph
245
246						=item C<$text>
247
248						the paragraph text for the given POD paragraph command.
249
250						=item C<$line_num>
251
252						the line-number of the beginning of the paragraph
253
254						=item C<$pod_para>
255
256						a reference to a C object which contains further
257						information about the paragraph command (see L
258						for details).
259
260						=back
261
262						B that this method I called for C<=pod> paragraphs.
263
264						The base class implementation of this method simply treats the raw POD
265						command as normal block of paragraph text (invoking the B
266						method with the command paragraph).
267
268						=cut
269
270						sub command {
271	0			0	0	my ($self, $cmd, $text, $line_num, $pod_para) = @_;
272						## Just treat this like a textblock
273	0					$self->textblock($pod_para->raw_text(), $line_num, $pod_para);
274						}
275
276						##---------------------------------------------------------------------------
277
278						=head1 B
279
280						$parser->verbatim($text,$line_num,$pod_para);
281
282						This method may be overridden by subclasses to take the appropriate
283						action when a block of verbatim text is encountered. It is passed the
284						following parameters:
285
286						=over 3
287
288						=item C<$text>
289
290						the block of text for the verbatim paragraph
291
292						=item C<$line_num>
293
294						the line-number of the beginning of the paragraph
295
296						=item C<$pod_para>
297
298						a reference to a C object which contains further
299						information about the paragraph (see L
300						for details).
301
302						=back
303
304						The base class implementation of this method simply prints the textblock
305						(unmodified) to the output filehandle.
306
307						=cut
308
309						sub verbatim {
310	0			0	0	my ($self, $text, $line_num, $pod_para) = @_;
311	0					my $out_fh = $self->{_OUTPUT};
312	0					print $out_fh $text;
313						}
314
315						##---------------------------------------------------------------------------
316
317						=head1 B
318
319						$parser->textblock($text,$line_num,$pod_para);
320
321						This method may be overridden by subclasses to take the appropriate
322						action when a normal block of POD text is encountered (although the base
323						class method will usually do what you want). It is passed the following
324						parameters:
325
326						=over 3
327
328						=item C<$text>
329
330						the block of text for the a POD paragraph
331
332						=item C<$line_num>
333
334						the line-number of the beginning of the paragraph
335
336						=item C<$pod_para>
337
338						a reference to a C object which contains further
339						information about the paragraph (see L
340						for details).
341
342						=back
343
344						In order to process interior sequences, subclasses implementations of
345						this method will probably want to invoke either B or
346						B, passing it the text block C<$text>, and the corresponding
347						line number in C<$line_num>, and then perform any desired processing upon
348						the returned result.
349
350						The base class implementation of this method simply prints the text block
351						as it occurred in the input stream).
352
353						=cut
354
355						sub textblock {
356	0			0	0	my ($self, $text, $line_num, $pod_para) = @_;
357	0					my $out_fh = $self->{_OUTPUT};
358	0					print $out_fh $self->interpolate($text, $line_num);
359						}
360
361						##---------------------------------------------------------------------------
362
363						=head1 B
364
365						$parser->interior_sequence($seq_cmd,$seq_arg,$pod_seq);
366
367						This method should be overridden by subclasses to take the appropriate
368						action when an interior sequence is encountered. An interior sequence is
369						an embedded command within a block of text which appears as a command
370						name (usually a single uppercase character) followed immediately by a
371						string of text which is enclosed in angle brackets. This method is
372						passed the sequence command C<$seq_cmd> and the corresponding text
373						C<$seq_arg>. It is invoked by the B method for each interior
374						sequence that occurs in the string that it is passed. It should return
375						the desired text string to be used in place of the interior sequence.
376						The C<$pod_seq> argument is a reference to a C
377						object which contains further information about the interior sequence.
378						Please see L for details if you need to access this
379						additional information.
380
381						Subclass implementations of this method may wish to invoke the
382						B method of C<$pod_seq> to see if it is nested inside
383						some other interior-sequence (and if so, which kind).
384
385						The base class implementation of the B method
386						simply returns the raw text of the interior sequence (as it occurred
387						in the input) to the caller.
388
389						=cut
390
391						sub interior_sequence {
392	0			0	0	my ($self, $seq_cmd, $seq_arg, $pod_seq) = @_;
393						## Just return the raw text of the interior sequence
394	0					return $pod_seq->raw_text();
395						}
396
397						#############################################################################
398
399						=head1 OPTIONAL SUBROUTINE/METHOD OVERRIDES
400
401						B provides several methods which subclasses may want to override
402						to perform any special pre/post-processing. These methods do I have to
403						be overridden, but it may be useful for subclasses to take advantage of them.
404
405						=cut
406
407						##---------------------------------------------------------------------------
408
409						=head1 B
410
411						my $parser = Pod::Parser->new();
412
413						This is the constructor for B and its subclasses. You
414						I need to override this method! It is capable of constructing
415						subclass objects as well as base class objects, provided you use
416						any of the following constructor invocation styles:
417
418						my $parser1 = MyParser->new();
419						my $parser2 = new MyParser();
420						my $parser3 = $parser2->new();
421
422						where C is some subclass of B.
423
424						Using the syntax C to invoke the constructor is I
425						recommended, but if you insist on being able to do this, then the
426						subclass I need to override the B constructor method. If
427						you do override the constructor, you I be sure to invoke the
428						B method of the newly blessed object.
429
430						Using any of the above invocations, the first argument to the
431						constructor is always the corresponding package name (or object
432						reference). No other arguments are required, but if desired, an
433						associative array (or hash-table) my be passed to the B
434						constructor, as in:
435
436						my $parser1 = MyParser->new( MYDATA => $value1, MOREDATA => $value2 );
437						my $parser2 = new MyParser( -myflag => 1 );
438
439						All arguments passed to the B constructor will be treated as
440						key/value pairs in a hash-table. The newly constructed object will be
441						initialized by copying the contents of the given hash-table (which may
442						have been empty). The B constructor for this class and all of its
443						subclasses returns a blessed reference to the initialized object (hash-table).
444
445						=cut
446
447						sub new {
448						## Determine if we were called via an object-ref or a classname
449	0			0	0	my ($this,%params) = @_;
450	0		0			my $class = ref($this) \|\| $this;
451						## Any remaining arguments are treated as initial values for the
452						## hash that is used to represent this object.
453	0					my $self = { %params };
454						## Bless ourselves into the desired class and perform any initialization
455	0					bless $self, $class;
456	0					$self->initialize();
457	0					return $self;
458						}
459
460						##---------------------------------------------------------------------------
461
462						=head1 B
463
464						$parser->initialize();
465
466						This method performs any necessary object initialization. It takes no
467						arguments (other than the object instance of course, which is typically
468						copied to a local variable named C<$self>). If subclasses override this
469						method then they I be sure to invoke C<$self-ESUPER::initialize()>.
470
471						=cut
472
473				0	0	sub initialize {
474						#my $self = shift;
475						#return;
476						}
477
478						##---------------------------------------------------------------------------
479
480						=head1 B
481
482						$parser->begin_pod();
483
484						This method is invoked at the beginning of processing for each POD
485						document that is encountered in the input. Subclasses should override
486						this method to perform any per-document initialization.
487
488						=cut
489
490				0	0	sub begin_pod {
491						#my $self = shift;
492						#return;
493						}
494
495						##---------------------------------------------------------------------------
496
497						=head1 B
498
499						$parser->begin_input();
500
501						This method is invoked by B immediately I
502						processing input from a filehandle. The base class implementation does
503						nothing, however, subclasses may override it to perform any per-file
504						initializations.
505
506						Note that if multiple files are parsed for a single POD document
507						(perhaps the result of some future C<=include> directive) this method
508						is invoked for every file that is parsed. If you wish to perform certain
509						initializations once per document, then you should use B.
510
511						=cut
512
513				0	0	sub begin_input {
514						#my $self = shift;
515						#return;
516						}
517
518						##---------------------------------------------------------------------------
519
520						=head1 B
521
522						$parser->end_input();
523
524						This method is invoked by B immediately I
525						processing input from a filehandle. The base class implementation does
526						nothing, however, subclasses may override it to perform any per-file
527						cleanup actions.
528
529						Please note that if multiple files are parsed for a single POD document
530						(perhaps the result of some kind of C<=include> directive) this method
531						is invoked for every file that is parsed. If you wish to perform certain
532						cleanup actions once per document, then you should use B.
533
534						=cut
535
536				0	0	sub end_input {
537						#my $self = shift;
538						#return;
539						}
540
541						##---------------------------------------------------------------------------
542
543						=head1 B
544
545						$parser->end_pod();
546
547						This method is invoked at the end of processing for each POD document
548						that is encountered in the input. Subclasses should override this method
549						to perform any per-document finalization.
550
551						=cut
552
553				0	0	sub end_pod {
554						#my $self = shift;
555						#return;
556						}
557
558						##---------------------------------------------------------------------------
559
560						=head1 B
561
562						$textline = $parser->preprocess_line($text, $line_num);
563
564						This method should be overridden by subclasses that wish to perform
565						any kind of preprocessing for each I of input (I it has
566						been determined whether or not it is part of a POD paragraph). The
567						parameter C<$text> is the input line; and the parameter C<$line_num> is
568						the line number of the corresponding text line.
569
570						The value returned should correspond to the new text to use in its
571						place. If the empty string or an undefined value is returned then no
572						further processing will be performed for this line.
573
574						Please note that the B method is invoked I
575						the B method. After all (possibly preprocessed)
576						lines in a paragraph have been assembled together and it has been
577						determined that the paragraph is part of the POD documentation from one
578						of the selected sections, then B is invoked.
579
580						The base class implementation of this method returns the given text.
581
582						=cut
583
584						sub preprocess_line {
585	0			0	0	my ($self, $text, $line_num) = @_;
586	0					return $text;
587						}
588
589						##---------------------------------------------------------------------------
590
591						=head1 B
592
593						$textblock = $parser->preprocess_paragraph($text, $line_num);
594
595						This method should be overridden by subclasses that wish to perform any
596						kind of preprocessing for each block (paragraph) of POD documentation
597						that appears in the input stream. The parameter C<$text> is the POD
598						paragraph from the input file; and the parameter C<$line_num> is the
599						line number for the beginning of the corresponding paragraph.
600
601						The value returned should correspond to the new text to use in its
602						place If the empty string is returned or an undefined value is
603						returned, then the given C<$text> is ignored (not processed).
604
605						This method is invoked after gathering up all the lines in a paragraph
606						and after determining the cutting state of the paragraph,
607						but before trying to further parse or interpret them. After
608						B returns, the current cutting state (which
609						is returned by C<$self-Ecutting()>) is examined. If it evaluates
610						to true then input text (including the given C<$text>) is cut (not
611						processed) until the next POD directive is encountered.
612
613						Please note that the B method is invoked I
614						the B method. After all (possibly preprocessed)
615						lines in a paragraph have been assembled together and either it has been
616						determined that the paragraph is part of the POD documentation from one
617						of the selected sections or the C<-want_nonPODs> option is true,
618						then B is invoked.
619
620						The base class implementation of this method returns the given text.
621
622						=cut
623
624						sub preprocess_paragraph {
625	0			0	0	my ($self, $text, $line_num) = @_;
626	0					return $text;
627						}
628
629						#############################################################################
630
631						=head1 METHODS FOR PARSING AND PROCESSING
632
633						B provides several methods to process input text. These
634						methods typically won't need to be overridden (and in some cases they
635						can't be overridden), but subclasses may want to invoke them to exploit
636						their functionality.
637
638						=cut
639
640						##---------------------------------------------------------------------------
641
642						=head1 B
643
644						$ptree1 = $parser->parse_text($text, $line_num);
645						$ptree2 = $parser->parse_text({%opts}, $text, $line_num);
646						$ptree3 = $parser->parse_text(\%opts, $text, $line_num);
647
648						This method is useful if you need to perform your own interpolation
649						of interior sequences and can't rely upon B to expand
650						them in simple bottom-up order.
651
652						The parameter C<$text> is a string or block of text to be parsed
653						for interior sequences; and the parameter C<$line_num> is the
654						line number corresponding to the beginning of C<$text>.
655
656						B will parse the given text into a parse-tree of "nodes."
657						and interior-sequences. Each "node" in the parse tree is either a
658						text-string, or a B. The result returned is a
659						parse-tree of type B. Please see L
660						for more information about B and B.
661
662						If desired, an optional hash-ref may be specified as the first argument
663						to customize certain aspects of the parse-tree that is created and
664						returned. The set of recognized option keywords are:
665
666						=over 3
667
668						=item B<-expand_seq> =E I\|I
669
670						Normally, the parse-tree returned by B will contain an
671						unexpanded C object for each interior-sequence
672						encountered. Specifying B<-expand_seq> tells B to "expand"
673						every interior-sequence it sees by invoking the referenced function
674						(or named method of the parser object) and using the return value as the
675						expanded result.
676
677						If a subroutine reference was given, it is invoked as:
678
679						&$code_ref( $parser, $sequence )
680
681						and if a method-name was given, it is invoked as:
682
683						$parser->method_name( $sequence )
684
685						where C<$parser> is a reference to the parser object, and C<$sequence>
686						is a reference to the interior-sequence object.
687						[I: If the B method is specified, then it is
688						invoked according to the interface specified in L<"interior_sequence()">].
689
690						=item B<-expand_text> =E I\|I
691
692						Normally, the parse-tree returned by B will contain a
693						text-string for each contiguous sequence of characters outside of an
694						interior-sequence. Specifying B<-expand_text> tells B to
695						"preprocess" every such text-string it sees by invoking the referenced
696						function (or named method of the parser object) and using the return value
697						as the preprocessed (or "expanded") result. [Note that if the result is
698						an interior-sequence, then it will I be expanded as specified by the
699						B<-expand_seq> option; Any such recursive expansion needs to be handled by
700						the specified callback routine.]
701
702						If a subroutine reference was given, it is invoked as:
703
704						&$code_ref( $parser, $text, $ptree_node )
705
706						and if a method-name was given, it is invoked as:
707
708						$parser->method_name( $text, $ptree_node )
709
710						where C<$parser> is a reference to the parser object, C<$text> is the
711						text-string encountered, and C<$ptree_node> is a reference to the current
712						node in the parse-tree (usually an interior-sequence object or else the
713						top-level node of the parse-tree).
714
715						=item B<-expand_ptree> =E I\|I
716
717						Rather than returning a C, pass the parse-tree as an
718						argument to the referenced subroutine (or named method of the parser
719						object) and return the result instead of the parse-tree object.
720
721						If a subroutine reference was given, it is invoked as:
722
723						&$code_ref( $parser, $ptree )
724
725						and if a method-name was given, it is invoked as:
726
727						$parser->method_name( $ptree )
728
729						where C<$parser> is a reference to the parser object, and C<$ptree>
730						is a reference to the parse-tree object.
731
732						=back
733
734						=cut
735
736						sub parse_text {
737	0			0	0	my $self = shift;
738	0					local $_ = '';
739
740						## Get options and set any defaults
741	0	0				my %opts = (ref $_[0]) ? %{ shift() } : ();
	0
742	0		0			my $expand_seq = $opts{'-expand_seq'} \|\| undef;
743	0		0			my $expand_text = $opts{'-expand_text'} \|\| undef;
744	0		0			my $expand_ptree = $opts{'-expand_ptree'} \|\| undef;
745
746	0					my $text = shift;
747	0					my $line = shift;
748	0					my $file = $self->input_file();
749	0					my $cmd = "";
750
751						## Convert method calls into closures, for our convenience
752	0					my $xseq_sub = $expand_seq;
753	0					my $xtext_sub = $expand_text;
754	0					my $xptree_sub = $expand_ptree;
755	0	0	0			if (defined $expand_seq and $expand_seq eq 'interior_sequence') {
756						## If 'interior_sequence' is the method to use, we have to pass
757						## more than just the sequence object, we also need to pass the
758						## sequence name and text.
759						$xseq_sub = sub {
760	0			0		my ($sself, $iseq) = @_;
761	0					my $args = join('', $iseq->parse_tree->children);
762	0					return $sself->interior_sequence($iseq->name, $args, $iseq);
763	0					};
764						}
765	0	0		0		ref $xseq_sub or $xseq_sub = sub { shift()->$expand_seq(@_) };
	0
766	0	0		0		ref $xtext_sub or $xtext_sub = sub { shift()->$expand_text(@_) };
	0
767	0	0		0		ref $xptree_sub or $xptree_sub = sub { shift()->$expand_ptree(@_) };
	0
768
769						## Keep track of the "current" interior sequence, and maintain a stack
770						## of "in progress" sequences.
771						##
772						## NOTE that we push our own "accumulator" at the very beginning of the
773						## stack. It's really a parse-tree, not a sequence; but it implements
774						## the methods we need so we can use it to gather-up all the sequences
775						## and strings we parse. Thus, by the end of our parsing, it should be
776						## the only thing left on our stack and all we have to do is return it!
777						##
778	0					my $seq = Pod::ParseTree->new();
779	0					my @seq_stack = ($seq);
780	0					my ($ldelim, $rdelim) = ('', '');
781
782						## Iterate over all sequence starts text (NOTE: split with
783						## capturing parens keeps the delimiters)
784	0					$_ = $text;
785	0					my @tokens = split /([A-Z]<(?:<+(?:\r?\n\|[ \t]))?)/;
786	0					while ( @tokens ) {
787	0					$_ = shift @tokens;
788						## Look for the beginning of a sequence
789	0	0				if ( /^([A-Z])(<(?:<+(?:\r?\n\|[ \t]))?)$/ ) {
		0
		0
790						## Push a new sequence onto the stack of those "in-progress"
791	0					my $ldelim_orig;
792	0					($cmd, $ldelim_orig) = ($1, $2);
793	0					($ldelim = $ldelim_orig) =~ s/\s+$//;
794	0					($rdelim = $ldelim) =~ tr//;
795	0					$seq = Pod::InteriorSequence->new(
796						-name => $cmd,
797						-ldelim => $ldelim_orig, -rdelim => $rdelim,
798						-file => $file, -line => $line
799						);
800	0	0				(@seq_stack > 1) and $seq->nested($seq_stack[-1]);
801	0					push @seq_stack, $seq;
802						}
803						## Look for sequence ending
804						elsif ( @seq_stack > 1 ) {
805						## Make sure we match the right kind of closing delimiter
806	0					my ($seq_end, $post_seq) = ('', '');
807	0	0	0			if ( ($ldelim eq '<' and /\A(.*?)(>)/s)
			0
808						or /\A(.*?)(\s+$rdelim)/s )
809						{
810						## Found end-of-sequence, capture the interior and the
811						## closing the delimiter, and put the rest back on the
812						## token-list
813	0					$post_seq = substr($_, length($1) + length($2));
814	0					($_, $seq_end) = ($1, $2);
815	0	0				(length $post_seq) and unshift @tokens, $post_seq;
816						}
817	0	0				if (length) {
818						## In the middle of a sequence, append this text to it, and
819						## don't forget to "expand" it if that's what the caller wanted
820	0	0				$seq->append($expand_text ? &$xtext_sub($self,$_,$seq) : $_);
821	0					$_ .= $seq_end;
822						}
823	0	0				if (length $seq_end) {
824						## End of current sequence, record terminating delimiter
825	0					$seq->rdelim($seq_end);
826						## Pop it off the stack of "in progress" sequences
827	0					pop @seq_stack;
828						## Append result to its parent in current parse tree
829	0	0				$seq_stack[-1]->append($expand_seq ? &$xseq_sub($self,$seq)
830						: $seq);
831						## Remember the current cmd-name and left-delimiter
832	0	0				if(@seq_stack > 1) {
833	0					$cmd = $seq_stack[-1]->name;
834	0					$ldelim = $seq_stack[-1]->ldelim;
835	0					$rdelim = $seq_stack[-1]->rdelim;
836						} else {
837	0					$cmd = $ldelim = $rdelim = '';
838						}
839						}
840						}
841						elsif (length) {
842						## In the middle of a sequence, append this text to it, and
843						## don't forget to "expand" it if that's what the caller wanted
844	0	0				$seq->append($expand_text ? &$xtext_sub($self,$_,$seq) : $_);
845						}
846						## Keep track of line count
847	0					$line += /\n/;
848						## Remember the "current" sequence
849	0					$seq = $seq_stack[-1];
850						}
851
852						## Handle unterminated sequences
853	0	0				my $errorsub = (@seq_stack > 1) ? $self->errorsub() : undef;
854	0					while (@seq_stack > 1) {
855	0					($cmd, $file, $line) = ($seq->name, $seq->file_line);
856	0					$ldelim = $seq->ldelim;
857	0					($rdelim = $ldelim) =~ tr//;
858	0					$rdelim =~ s/^(\S+)(\s*)$/$2$1/;
859	0					pop @seq_stack;
860	0					my $errmsg = "*** ERROR: unterminated ${cmd}${ldelim}...${rdelim}".
861						" at line $line in file $file\n";
862	0	0	0			(ref $errorsub) and &{$errorsub}($errmsg)
	0		0
			0
863						or (defined $errorsub) and $self->$errorsub($errmsg)
864						or carp($errmsg);
865	0	0				$seq_stack[-1]->append($expand_seq ? &$xseq_sub($self,$seq) : $seq);
866	0					$seq = $seq_stack[-1];
867						}
868
869						## Return the resulting parse-tree
870	0					my $ptree = (pop @seq_stack)->parse_tree;
871	0	0				return $expand_ptree ? &$xptree_sub($self, $ptree) : $ptree;
872						}
873
874						##---------------------------------------------------------------------------
875
876						=head1 B
877
878						$textblock = $parser->interpolate($text, $line_num);
879
880						This method translates all text (including any embedded interior sequences)
881						in the given text string C<$text> and returns the interpolated result. The
882						parameter C<$line_num> is the line number corresponding to the beginning
883						of C<$text>.
884
885						B merely invokes a private method to recursively expand
886						nested interior sequences in bottom-up order (innermost sequences are
887						expanded first). If there is a need to expand nested sequences in
888						some alternate order, use B instead.
889
890						=cut
891
892						sub interpolate {
893	0			0	0	my($self, $text, $line_num) = @_;
894	0					my %parse_opts = ( -expand_seq => 'interior_sequence' );
895	0					my $ptree = $self->parse_text( \%parse_opts, $text, $line_num );
896	0					return join '', $ptree->children();
897						}
898
899						##---------------------------------------------------------------------------
900
901						=begin __PRIVATE__
902
903						=head1 B
904
905						$parser->parse_paragraph($text, $line_num);
906
907						This method takes the text of a POD paragraph to be processed, along
908						with its corresponding line number, and invokes the appropriate method
909						(one of B, B, or B).
910
911						For performance reasons, this method is invoked directly without any
912						dynamic lookup; Hence subclasses may I override it!
913
914						=end __PRIVATE__
915
916						=cut
917
918						sub parse_paragraph {
919	0			0	0	my ($self, $text, $line_num) = @_;
920	0					local *myData = $self; ## alias to avoid deref-ing overhead
921	0		0			local *myOpts = ($myData{_PARSEOPTS} \|\|= {}); ## get parse-options
922	0					local $_;
923
924						## See if we want to preprocess nonPOD paragraphs as well as POD ones.
925	0					my $wantNonPods = $myOpts{'-want_nonPODs'};
926
927						## Update cutting status
928	0	0				$myData{_CUTTING} = 0 if $text =~ /^={1,2}\S/;
929
930						## Perform any desired preprocessing if we wanted it this early
931	0	0				$wantNonPods and $text = $self->preprocess_paragraph($text, $line_num);
932
933						## Ignore up until next POD directive if we are cutting
934	0	0				return if $myData{_CUTTING};
935
936						## Now we know this is block of text in a POD section!
937
938						##-----------------------------------------------------------------
939						## This is a hook (hack ;-) for Pod::Select to do its thing without
940						## having to override methods, but also without Pod::Parser assuming
941						## $self is an instance of Pod::Select (if the _SELECTED_SECTIONS
942						## field exists then we assume there is an is_selected() method for
943						## us to invoke (calling $self->can('is_selected') could verify this
944						## but that is more overhead than I want to incur)
945						##-----------------------------------------------------------------
946
947						## Ignore this block if it isn't in one of the selected sections
948	0	0				if (exists $myData{_SELECTED_SECTIONS}) {
949	0	0				$self->is_selected($text) or return ($myData{_CUTTING} = 1);
950						}
951
952						## If we haven't already, perform any desired preprocessing and
953						## then re-check the "cutting" state
954	0	0				unless ($wantNonPods) {
955	0					$text = $self->preprocess_paragraph($text, $line_num);
956	0	0	0			return 1 unless ((defined $text) and (length $text));
957	0	0				return 1 if ($myData{_CUTTING});
958						}
959
960						## Look for one of the three types of paragraphs
961	0					my ($pfx, $cmd, $arg, $sep) = ('', '', '', '');
962	0					my $pod_para = undef;
963	0	0				if ($text =~ /^(={1,2})(?=\S)/) {
964						## Looks like a command paragraph. Capture the command prefix used
965						## ("=" or "=="), as well as the command-name, its paragraph text,
966						## and whatever sequence of characters was used to separate them
967	0					$pfx = $1;
968	0					$_ = substr($text, length $pfx);
969	0					($cmd, $sep, $text) = split /(\s+)/, $_, 2;
970	0	0				$sep = '' unless defined $sep;
971	0	0				$text = '' unless defined $text;
972						## If this is a "cut" directive then we don't need to do anything
973						## except return to "cutting" mode.
974	0	0				if ($cmd eq 'cut') {
975	0					$myData{_CUTTING} = 1;
976	0	0				return unless $myOpts{'-process_cut_cmd'};
977						}
978						}
979						## Save the attributes indicating how the command was specified.
980						$pod_para = new Pod::Paragraph(
981						-name => $cmd,
982						-text => $text,
983						-prefix => $pfx,
984						-separator => $sep,
985						-file => $myData{_INFILE},
986	0					-line => $line_num
987						);
988						# ## Invoke appropriate callbacks
989						# if (exists $myData{_CALLBACKS}) {
990						# ## Look through the callback list, invoke callbacks,
991						# ## then see if we need to do the default actions
992						# ## (invoke_callbacks will return true if we do).
993						# return 1 unless $self->invoke_callbacks($cmd, $text, $line_num, $pod_para);
994						# }
995
996						# If the last paragraph ended in whitespace, and we're not between verbatim blocks, carp
997	0	0	0			if ($myData{_WHITESPACE} and $myOpts{'-warnings'}
			0
			0
998						and not ($text =~ /^\s+/ and ($myData{_PREVIOUS}\|\|"") eq "verbatim")) {
999	0					my $errorsub = $self->errorsub();
1000	0					my $line = $line_num - 1;
1001	0					my $errmsg = "*** WARNING: line containing nothing but whitespace".
1002						" in paragraph at line $line in file $myData{_INFILE}\n";
1003	0	0	0			(ref $errorsub) and &{$errorsub}($errmsg)
	0		0
			0
1004						or (defined $errorsub) and $self->$errorsub($errmsg)
1005						or carp($errmsg);
1006						}
1007
1008	0	0				if (length $cmd) {
		0
1009						## A command paragraph
1010	0					$self->command($cmd, $text, $line_num, $pod_para);
1011	0					$myData{_PREVIOUS} = $cmd;
1012						}
1013						elsif ($text =~ /^\s+/) {
1014						## Indented text - must be a verbatim paragraph
1015	0					$self->verbatim($text, $line_num, $pod_para);
1016	0					$myData{_PREVIOUS} = "verbatim";
1017						}
1018						else {
1019						## Looks like an ordinary block of text
1020	0					$self->textblock($text, $line_num, $pod_para);
1021	0					$myData{_PREVIOUS} = "textblock";
1022						}
1023
1024						# Update the whitespace for the next time around
1025						#$myData{_WHITESPACE} = $text =~ /^[^\S\r\n]+\Z/m ? 1 : 0;
1026	0	0				$myData{_WHITESPACE} = $text =~ /^[^\S\r\n]+\r*\Z/m ? 1 : 0;
1027
1028	0					return 1;
1029						}
1030
1031						##---------------------------------------------------------------------------
1032
1033						=head1 B
1034
1035						$parser->parse_from_filehandle($in_fh,$out_fh);
1036
1037						This method takes an input filehandle (which is assumed to already be
1038						opened for reading) and reads the entire input stream looking for blocks
1039						(paragraphs) of POD documentation to be processed. If no first argument
1040						is given the default input filehandle C is used.
1041
1042						The C<$in_fh> parameter may be any object that provides a B
1043						method to retrieve a single line of input text (hence, an appropriate
1044						wrapper object could be used to parse PODs from a single string or an
1045						array of strings).
1046
1047						Using C<$in_fh-Egetline()>, input is read line-by-line and assembled
1048						into paragraphs or "blocks" (which are separated by lines containing
1049						nothing but whitespace). For each block of POD documentation
1050						encountered it will invoke a method to parse the given paragraph.
1051
1052						If a second argument is given then it should correspond to a filehandle where
1053						output should be sent (otherwise the default output filehandle is
1054						C if no output filehandle is currently in use).
1055
1056						B For performance reasons, this method caches the input stream at
1057						the top of the stack in a local variable. Any attempts by clients to
1058						change the stack contents during processing when in the midst executing
1059						of this method I the input stream used by the current
1060						invocation of this method.
1061
1062						This method does I usually need to be overridden by subclasses.
1063
1064						=cut
1065
1066						sub parse_from_filehandle {
1067	0			0	0	my $self = shift;
1068	0	0				my %opts = (ref $_[0] eq 'HASH') ? %{ shift() } : ();
	0
1069	0					my ($in_fh, $out_fh) = @_;
1070	0	0				$in_fh = \*STDIN unless ($in_fh);
1071	0					local *myData = $self; ## alias to avoid deref-ing overhead
1072	0		0			local *myOpts = ($myData{_PARSEOPTS} \|\|= {}); ## get parse-options
1073	0					local $_;
1074
1075						## Put this stream at the top of the stack and do beginning-of-input
1076						## processing. NOTE that $in_fh might be reset during this process.
1077	0					my $topstream = $self->_push_input_stream($in_fh, $out_fh);
1078	0	0				(exists $opts{-cutting}) and $self->cutting( $opts{-cutting} );
1079
1080						## Initialize line/paragraph
1081	0					my ($textline, $paragraph) = ('', '');
1082	0					my ($nlines, $plines) = (0, 0);
1083
1084						## Use <$fh> instead of $fh->getline where possible (for speed)
1085	0					$_ = ref $in_fh;
1086	0		0			my $tied_fh = (/^(?:GLOB\|FileHandle\|IO::\w+)$/ or tied $in_fh);
1087
1088						## Read paragraphs line-by-line
1089	0	0				while (defined ($textline = $tied_fh ? <$in_fh> : $in_fh->getline)) {
1090	0					$textline = $self->preprocess_line($textline, ++$nlines);
1091	0	0	0			next unless ((defined $textline) && (length $textline));
1092
1093	0	0	0			if ((! length $paragraph) && ($textline =~ /^==/)) {
1094						## '==' denotes a one-line command paragraph
1095	0					$paragraph = $textline;
1096	0					$plines = 1;
1097	0					$textline = '';
1098						} else {
1099						## Append this line to the current paragraph
1100	0					$paragraph .= $textline;
1101	0					++$plines;
1102						}
1103
1104						## See if this line is blank and ends the current paragraph.
1105						## If it isn't, then keep iterating until it is.
1106	0	0	0			next unless (($textline =~ /^[^\S\r\n][\r\n]$/)
1107						&& (length $paragraph));
1108
1109						## Now process the paragraph
1110	0					parse_paragraph($self, $paragraph, ($nlines - $plines) + 1);
1111	0					$paragraph = '';
1112	0					$plines = 0;
1113						}
1114						## Don't forget about the last paragraph in the file
1115	0	0				if (length $paragraph) {
1116	0					parse_paragraph($self, $paragraph, ($nlines - $plines) + 1)
1117						}
1118
1119						## Now pop the input stream off the top of the input stack.
1120	0					$self->_pop_input_stream();
1121						}
1122
1123						##---------------------------------------------------------------------------
1124
1125						=head1 B
1126
1127						$parser->parse_from_file($filename,$outfile);
1128
1129						This method takes a filename and does the following:
1130
1131						=over 2
1132
1133						=item *
1134
1135						opens the input and output files for reading
1136						(creating the appropriate filehandles)
1137
1138						=item *
1139
1140						invokes the B method passing it the
1141						corresponding input and output filehandles.
1142
1143						=item *
1144
1145						closes the input and output files.
1146
1147						=back
1148
1149						If the special input filename "", "-" or "<&STDIN" is given then the STDIN
1150						filehandle is used for input (and no open or close is performed). If no
1151						input filename is specified then "-" is implied. Filehandle references,
1152						or objects that support the regular IO operations (like C$fhE>
1153						or C<$fh-getline>) are also accepted; the handles must already be
1154						opened.
1155
1156						If a second argument is given then it should be the name of the desired
1157						output file. If the special output filename "-" or ">&STDOUT" is given
1158						then the STDOUT filehandle is used for output (and no open or close is
1159						performed). If the special output filename ">&STDERR" is given then the
1160						STDERR filehandle is used for output (and no open or close is
1161						performed). If no output filehandle is currently in use and no output
1162						filename is specified, then "-" is implied.
1163						Alternatively, filehandle references or objects that support the regular
1164						IO operations (like C, e.g. L) are also accepted;
1165						the object must already be opened.
1166
1167						This method does I usually need to be overridden by subclasses.
1168
1169						=cut
1170
1171						sub parse_from_file {
1172	0			0	0	my $self = shift;
1173	0	0				my %opts = (ref $_[0] eq 'HASH') ? %{ shift() } : ();
	0
1174	0					my ($infile, $outfile) = @_;
1175	0					my ($in_fh, $out_fh);
1176	0	0				if ($] < 5.006) {
1177	0					($in_fh, $out_fh) = (gensym(), gensym());
1178						}
1179	0					my ($close_input, $close_output) = (0, 0);
1180	0					local *myData = $self;
1181	0					local *_;
1182
1183						## Is $infile a filename or a (possibly implied) filehandle
1184	0	0	0			if (defined $infile && ref $infile) {
		0	0
			0
			0
1185	0	0				if (ref($infile) =~ /^(SCALAR\|ARRAY\|HASH\|CODE\|REF)$/) {
1186	0					croak "Input from $1 reference not supported!\n";
1187						}
1188						## Must be a filehandle-ref (or else assume its a ref to an object
1189						## that supports the common IO read operations).
1190	0					$myData{_INFILE} = ${$infile};
	0
1191	0					$in_fh = $infile;
1192						}
1193						elsif (!defined($infile) \|\| !length($infile) \|\| ($infile eq '-')
1194						\|\| ($infile =~ /^<&(?:STDIN\|0)$/i))
1195						{
1196						## Not a filename, just a string implying STDIN
1197	0		0			$infile \|\|= '-';
1198	0					$myData{_INFILE} = '';
1199	0					$in_fh = \*STDIN;
1200						}
1201						else {
1202						## We have a filename, open it for reading
1203	0					$myData{_INFILE} = $infile;
1204	0	0				open($in_fh, "< $infile") or
1205						croak "Can't open $infile for reading: $!\n";
1206	0					$close_input = 1;
1207						}
1208
1209						## NOTE: we need to be very careful when "defaulting" the output
1210						## file. We only want to use a default if this is the beginning of
1211						## the entire document (but not if this is an included file). We
1212						## determine this by seeing if the input stream stack has been set-up
1213						## already
1214
1215						## Is $outfile a filename, a (possibly implied) filehandle, maybe a ref?
1216	0	0	0			if (ref $outfile) {
		0	0
		0	0
1217						## we need to check for ref() first, as other checks involve reading
1218	0	0				if (ref($outfile) =~ /^(ARRAY\|HASH\|CODE)$/) {
		0
1219	0					croak "Output to $1 reference not supported!\n";
1220						}
1221						elsif (ref($outfile) eq 'SCALAR') {
1222						# # NOTE: IO::String isn't a part of the perl distribution,
1223						# # so probably we shouldn't support this case...
1224						# require IO::String;
1225						# $myData{_OUTFILE} = "$outfile";
1226						# $out_fh = IO::String->new($outfile);
1227	0					croak "Output to SCALAR reference not supported!\n";
1228						}
1229						else {
1230						## Must be a filehandle-ref (or else assume its a ref to an
1231						## object that supports the common IO write operations).
1232	0					$myData{_OUTFILE} = ${$outfile};
	0
1233	0					$out_fh = $outfile;
1234						}
1235						}
1236						elsif (!defined($outfile) \|\| !length($outfile) \|\| ($outfile eq '-')
1237						\|\| ($outfile =~ /^>&?(?:STDOUT\|1)$/i))
1238						{
1239	0	0				if (defined $myData{_TOP_STREAM}) {
1240	0					$out_fh = $myData{_OUTPUT};
1241						}
1242						else {
1243						## Not a filename, just a string implying STDOUT
1244	0		0			$outfile \|\|= '-';
1245	0					$myData{_OUTFILE} = '';
1246	0					$out_fh = \*STDOUT;
1247						}
1248						}
1249						elsif ($outfile =~ /^>&(STDERR\|2)$/i) {
1250						## Not a filename, just a string implying STDERR
1251	0					$myData{_OUTFILE} = '';
1252	0					$out_fh = \*STDERR;
1253						}
1254						else {
1255						## We have a filename, open it for writing
1256	0					$myData{_OUTFILE} = $outfile;
1257	0	0				(-d $outfile) and croak "$outfile is a directory, not POD input!\n";
1258	0	0				open($out_fh, "> $outfile") or
1259						croak "Can't open $outfile for writing: $!\n";
1260	0					$close_output = 1;
1261						}
1262
1263						## Whew! That was a lot of work to set up reasonably/robust behavior
1264						## in the case of a non-filename for reading and writing. Now we just
1265						## have to parse the input and close the handles when we're finished.
1266	0					$self->parse_from_filehandle(\%opts, $in_fh, $out_fh);
1267
1268	0	0	0			$close_input and
1269						close($in_fh) \|\| croak "Can't close $infile after reading: $!\n";
1270	0	0	0			$close_output and
1271						close($out_fh) \|\| croak "Can't close $outfile after writing: $!\n";
1272						}
1273
1274						#############################################################################
1275
1276						=head1 ACCESSOR METHODS
1277
1278						Clients of B should use the following methods to access
1279						instance data fields:
1280
1281						=cut
1282
1283						##---------------------------------------------------------------------------
1284
1285						=head1 B
1286
1287						$parser->errorsub("method_name");
1288						$parser->errorsub(\&warn_user);
1289						$parser->errorsub(sub { print STDERR, @_ });
1290
1291						Specifies the method or subroutine to use when printing error messages
1292						about POD syntax. The supplied method/subroutine I return TRUE upon
1293						successful printing of the message. If C is given, then the B
1294						builtin is used to issue error messages (this is the default behavior).
1295
1296						my $errorsub = $parser->errorsub()
1297						my $errmsg = "This is an error message!\n"
1298						(ref $errorsub) and &{$errorsub}($errmsg)
1299						or (defined $errorsub) and $parser->$errorsub($errmsg)
1300						or carp($errmsg);
1301
1302						Returns a method name, or else a reference to the user-supplied subroutine
1303						used to print error messages. Returns C if the B builtin
1304						is used to issue error messages (this is the default behavior).
1305
1306						=cut
1307
1308						sub errorsub {
1309	0	0		0	0	return (@_ > 1) ? ($_[0]->{_ERRORSUB} = $_[1]) : $_[0]->{_ERRORSUB};
1310						}
1311
1312						##---------------------------------------------------------------------------
1313
1314						=head1 B
1315
1316						$boolean = $parser->cutting();
1317
1318						Returns the current C state: a boolean-valued scalar which
1319						evaluates to true if text from the input file is currently being "cut"
1320						(meaning it is I considered part of the POD document).
1321
1322						$parser->cutting($boolean);
1323
1324						Sets the current C state to the given value and returns the
1325						result.
1326
1327						=cut
1328
1329						sub cutting {
1330	0	0		0	0	return (@_ > 1) ? ($_[0]->{_CUTTING} = $_[1]) : $_[0]->{_CUTTING};
1331						}
1332
1333						##---------------------------------------------------------------------------
1334
1335						##---------------------------------------------------------------------------
1336
1337						=head1 B
1338
1339						When invoked with no additional arguments, B returns a hashtable
1340						of all the current parsing options.
1341
1342						## See if we are parsing non-POD sections as well as POD ones
1343						my %opts = $parser->parseopts();
1344						$opts{'-want_nonPODs}' and print "-want_nonPODs\n";
1345
1346						When invoked using a single string, B treats the string as the
1347						name of a parse-option and returns its corresponding value if it exists
1348						(returns C if it doesn't).
1349
1350						## Did we ask to see '=cut' paragraphs?
1351						my $want_cut = $parser->parseopts('-process_cut_cmd');
1352						$want_cut and print "-process_cut_cmd\n";
1353
1354						When invoked with multiple arguments, B treats them as
1355						key/value pairs and the specified parse-option names are set to the
1356						given values. Any unspecified parse-options are unaffected.
1357
1358						## Set them back to the default
1359						$parser->parseopts(-warnings => 0);
1360
1361						When passed a single hash-ref, B uses that hash to completely
1362						reset the existing parse-options, all previous parse-option values
1363						are lost.
1364
1365						## Reset all options to default
1366						$parser->parseopts( { } );
1367
1368						See L<"PARSING OPTIONS"> for more information on the name and meaning of each
1369						parse-option currently recognized.
1370
1371						=cut
1372
1373						sub parseopts {
1374	0			0	0	local *myData = shift;
1375	0		0			local *myOpts = ($myData{_PARSEOPTS} \|\|= {});
1376	0	0				return %myOpts if (@_ == 0);
1377	0	0				if (@_ == 1) {
1378	0					local $_ = shift;
1379	0	0				return ref($_) ? $myData{_PARSEOPTS} = $_ : $myOpts{$_};
1380						}
1381	0					my @newOpts = (%myOpts, @_);
1382	0					$myData{_PARSEOPTS} = { @newOpts };
1383						}
1384
1385						##---------------------------------------------------------------------------
1386
1387						=head1 B
1388
1389						$fname = $parser->output_file();
1390
1391						Returns the name of the output file being written.
1392
1393						=cut
1394
1395						sub output_file {
1396	0			0	0	return $_[0]->{_OUTFILE};
1397						}
1398
1399						##---------------------------------------------------------------------------
1400
1401						=head1 B
1402
1403						$fhandle = $parser->output_handle();
1404
1405						Returns the output filehandle object.
1406
1407						=cut
1408
1409						sub output_handle {
1410	0			0	0	return $_[0]->{_OUTPUT};
1411						}
1412
1413						##---------------------------------------------------------------------------
1414
1415						=head1 B
1416
1417						$fname = $parser->input_file();
1418
1419						Returns the name of the input file being read.
1420
1421						=cut
1422
1423						sub input_file {
1424	0			0	0	return $_[0]->{_INFILE};
1425						}
1426
1427						##---------------------------------------------------------------------------
1428
1429						=head1 B
1430
1431						$fhandle = $parser->input_handle();
1432
1433						Returns the current input filehandle object.
1434
1435						=cut
1436
1437						sub input_handle {
1438	0			0	0	return $_[0]->{_INPUT};
1439						}
1440
1441						##---------------------------------------------------------------------------
1442
1443						=begin __PRIVATE__
1444
1445						=head1 B
1446
1447						$listref = $parser->input_streams();
1448
1449						Returns a reference to an array which corresponds to the stack of all
1450						the input streams that are currently in the middle of being parsed.
1451
1452						While parsing an input stream, it is possible to invoke
1453						B or B to parse a new input
1454						stream and then return to parsing the previous input stream. Each input
1455						stream to be parsed is pushed onto the end of this input stack
1456						before any of its input is read. The input stream that is currently
1457						being parsed is always at the end (or top) of the input stack. When an
1458						input stream has been exhausted, it is popped off the end of the
1459						input stack.
1460
1461						Each element on this input stack is a reference to C
1462						object. Please see L for more details.
1463
1464						This method might be invoked when printing diagnostic messages, for example,
1465						to obtain the name and line number of the all input files that are currently
1466						being processed.
1467
1468						=end __PRIVATE__
1469
1470						=cut
1471
1472						sub input_streams {
1473	0			0	0	return $_[0]->{_INPUT_STREAMS};
1474						}
1475
1476						##---------------------------------------------------------------------------
1477
1478						=begin __PRIVATE__
1479
1480						=head1 B
1481
1482						$hashref = $parser->top_stream();
1483
1484						Returns a reference to the hash-table that represents the element
1485						that is currently at the top (end) of the input stream stack
1486						(see L<"input_streams()">). The return value will be the C
1487						if the input stack is empty.
1488
1489						This method might be used when printing diagnostic messages, for example,
1490						to obtain the name and line number of the current input file.
1491
1492						=end __PRIVATE__
1493
1494						=cut
1495
1496						sub top_stream {
1497	0		0	0	0	return $_[0]->{_TOP_STREAM} \|\| undef;
1498						}
1499
1500						#############################################################################
1501
1502						=head1 PRIVATE METHODS AND DATA
1503
1504						B makes use of several internal methods and data fields
1505						which clients should not need to see or use. For the sake of avoiding
1506						name collisions for client data and methods, these methods and fields
1507						are briefly discussed here. Determined hackers may obtain further
1508						information about them by reading the B source code.
1509
1510						Private data fields are stored in the hash-object whose reference is
1511						returned by the B constructor for this class. The names of all
1512						private methods and data-fields used by B begin with a
1513						prefix of "_" and match the regular expression C.
1514
1515						=cut
1516
1517						##---------------------------------------------------------------------------
1518
1519						=begin _PRIVATE_
1520
1521						=head1 B<_push_input_stream()>
1522
1523						$hashref = $parser->_push_input_stream($in_fh,$out_fh);
1524
1525						This method will push the given input stream on the input stack and
1526						perform any necessary beginning-of-document or beginning-of-file
1527						processing. The argument C<$in_fh> is the input stream filehandle to
1528						push, and C<$out_fh> is the corresponding output filehandle to use (if
1529						it is not given or is undefined, then the current output stream is used,
1530						which defaults to standard output if it doesnt exist yet).
1531
1532						The value returned will be reference to the hash-table that represents
1533						the new top of the input stream stack. I that it is
1534						possible for this method to use default values for the input and output
1535						file handles. If this happens, you will need to look at the C
1536						and C instance data members to determine their new values.
1537
1538						=end _PRIVATE_
1539
1540						=cut
1541
1542						sub _push_input_stream {
1543	0			0		my ($self, $in_fh, $out_fh) = @_;
1544	0					local *myData = $self;
1545
1546						## Initialize stuff for the entire document if this is not
1547						## an included file.
1548						##
1549						## NOTE: we need to be very careful when "defaulting" the output
1550						## filehandle. We only want to use a default value if this is the
1551						## beginning of the entire document (but not if this is an included
1552						## file).
1553	0	0				unless (defined $myData{_TOP_STREAM}) {
1554	0	0				$out_fh = \*STDOUT unless (defined $out_fh);
1555	0					$myData{_CUTTING} = 1; ## current "cutting" state
1556	0					$myData{_INPUT_STREAMS} = []; ## stack of all input streams
1557						}
1558
1559						## Initialize input indicators
1560	0	0				$myData{_OUTFILE} = '(unknown)' unless (defined $myData{_OUTFILE});
1561	0	0				$myData{_OUTPUT} = $out_fh if (defined $out_fh);
1562	0	0				$in_fh = \*STDIN unless (defined $in_fh);
1563	0	0				$myData{_INFILE} = '(unknown)' unless (defined $myData{_INFILE});
1564	0					$myData{_INPUT} = $in_fh;
1565						my $input_top = $myData{_TOP_STREAM}
1566						= new Pod::InputSource(
1567						-name => $myData{_INFILE},
1568						-handle => $in_fh,
1569						-was_cutting => $myData{_CUTTING}
1570	0					);
1571	0					local *input_stack = $myData{_INPUT_STREAMS};
1572	0					push(@input_stack, $input_top);
1573
1574						## Perform beginning-of-document and/or beginning-of-input processing
1575	0	0				$self->begin_pod() if (@input_stack == 1);
1576	0					$self->begin_input();
1577
1578	0					return $input_top;
1579						}
1580
1581						##---------------------------------------------------------------------------
1582
1583						=begin _PRIVATE_
1584
1585						=head1 B<_pop_input_stream()>
1586
1587						$hashref = $parser->_pop_input_stream();
1588
1589						This takes no arguments. It will perform any necessary end-of-file or
1590						end-of-document processing and then pop the current input stream from
1591						the top of the input stack.
1592
1593						The value returned will be reference to the hash-table that represents
1594						the new top of the input stream stack.
1595
1596						=end _PRIVATE_
1597
1598						=cut
1599
1600						sub _pop_input_stream {
1601	0			0		my ($self) = @_;
1602	0					local *myData = $self;
1603	0					local *input_stack = $myData{_INPUT_STREAMS};
1604
1605						## Perform end-of-input and/or end-of-document processing
1606	0	0				$self->end_input() if (@input_stack > 0);
1607	0	0				$self->end_pod() if (@input_stack == 1);
1608
1609						## Restore cutting state to whatever it was before we started
1610						## parsing this file.
1611	0					my $old_top = pop(@input_stack);
1612	0					$myData{_CUTTING} = $old_top->was_cutting();
1613
1614						## Don't forget to reset the input indicators
1615	0					my $input_top = undef;
1616	0	0				if (@input_stack > 0) {
1617	0					$input_top = $myData{_TOP_STREAM} = $input_stack[-1];
1618	0					$myData{_INFILE} = $input_top->name();
1619	0					$myData{_INPUT} = $input_top->handle();
1620						} else {
1621	0					delete $myData{_TOP_STREAM};
1622	0					delete $myData{_INPUT_STREAMS};
1623						}
1624
1625	0					return $input_top;
1626						}
1627
1628						#############################################################################
1629
1630						=head1 TREE-BASED PARSING
1631
1632						If straightforward stream-based parsing wont meet your needs (as is
1633						likely the case for tasks such as translating PODs into structured
1634						markup languages like HTML and XML) then you may need to take the
1635						tree-based approach. Rather than doing everything in one pass and
1636						calling the B method to expand sequences into text, it
1637						may be desirable to instead create a parse-tree using the B
1638						method to return a tree-like structure which may contain an ordered
1639						list of children (each of which may be a text-string, or a similar
1640						tree-like structure).
1641
1642						Pay special attention to L<"METHODS FOR PARSING AND PROCESSING"> and
1643						to the objects described in L. The former describes
1644						the gory details and parameters for how to customize and extend the
1645						parsing behavior of B. B provides
1646						several objects that may all be used interchangeably as parse-trees. The
1647						most obvious one is the B object. It defines the basic
1648						interface and functionality that all things trying to be a POD parse-tree
1649						should do. A B is defined such that each "node" may be a
1650						text-string, or a reference to another parse-tree. Each B
1651						object and each B object also supports the basic
1652						parse-tree interface.
1653
1654						The B method takes a given paragraph of text, and
1655						returns a parse-tree that contains one or more children, each of which
1656						may be a text-string, or an InteriorSequence object. There are also
1657						callback-options that may be passed to B to customize
1658						the way it expands or transforms interior-sequences, as well as the
1659						returned result. These callbacks can be used to create a parse-tree
1660						with custom-made objects (which may or may not support the parse-tree
1661						interface, depending on how you choose to do it).
1662
1663						If you wish to turn an entire POD document into a parse-tree, that process
1664						is fairly straightforward. The B method is the key to doing
1665						this successfully. Every paragraph-callback (i.e. the polymorphic methods
1666						for B, B, and B paragraphs) takes
1667						a B object as an argument. Each paragraph object has a
1668						B method that can be used to get or set a corresponding
1669						parse-tree. So for each of those paragraph-callback methods, simply call
1670						B with the options you desire, and then use the returned
1671						parse-tree to assign to the given paragraph object.
1672
1673						That gives you a parse-tree for each paragraph - so now all you need is
1674						an ordered list of paragraphs. You can maintain that yourself as a data
1675						element in the object/hash. The most straightforward way would be simply
1676						to use an array-ref, with the desired set of custom "options" for each
1677						invocation of B. Let's assume the desired option-set is
1678						given by the hash C<%options>. Then we might do something like the
1679						following:
1680
1681						package MyPodParserTree;
1682
1683						@ISA = qw( Pod::Parser );
1684
1685						...
1686
1687						sub begin_pod {
1688						my $self = shift;
1689						$self->{'-paragraphs'} = []; ## initialize paragraph list
1690						}
1691
1692						sub command {
1693						my ($parser, $command, $paragraph, $line_num, $pod_para) = @_;
1694						my $ptree = $parser->parse_text({%options}, $paragraph, ...);
1695						$pod_para->parse_tree( $ptree );
1696						push @{ $self->{'-paragraphs'} }, $pod_para;
1697						}
1698
1699						sub verbatim {
1700						my ($parser, $paragraph, $line_num, $pod_para) = @_;
1701						push @{ $self->{'-paragraphs'} }, $pod_para;
1702						}
1703
1704						sub textblock {
1705						my ($parser, $paragraph, $line_num, $pod_para) = @_;
1706						my $ptree = $parser->parse_text({%options}, $paragraph, ...);
1707						$pod_para->parse_tree( $ptree );
1708						push @{ $self->{'-paragraphs'} }, $pod_para;
1709						}
1710
1711						...
1712
1713						package main;
1714						...
1715						my $parser = new MyPodParserTree(...);
1716						$parser->parse_from_file(...);
1717						my $paragraphs_ref = $parser->{'-paragraphs'};
1718
1719						Of course, in this module-author's humble opinion, I'd be more inclined to
1720						use the existing B object than a simple array. That way
1721						everything in it, paragraphs and sequences, all respond to the same core
1722						interface for all parse-tree nodes. The result would look something like:
1723
1724						package MyPodParserTree2;
1725
1726						...
1727
1728						sub begin_pod {
1729						my $self = shift;
1730						$self->{'-ptree'} = new Pod::ParseTree; ## initialize parse-tree
1731						}
1732
1733						sub parse_tree {
1734						## convenience method to get/set the parse-tree for the entire POD
1735						(@_ > 1) and $_[0]->{'-ptree'} = $_[1];
1736						return $_[0]->{'-ptree'};
1737						}
1738
1739						sub command {
1740						my ($parser, $command, $paragraph, $line_num, $pod_para) = @_;
1741						my $ptree = $parser->parse_text({<>}, $paragraph, ...);
1742						$pod_para->parse_tree( $ptree );
1743						$parser->parse_tree()->append( $pod_para );
1744						}
1745
1746						sub verbatim {
1747						my ($parser, $paragraph, $line_num, $pod_para) = @_;
1748						$parser->parse_tree()->append( $pod_para );
1749						}
1750
1751						sub textblock {
1752						my ($parser, $paragraph, $line_num, $pod_para) = @_;
1753						my $ptree = $parser->parse_text({<>}, $paragraph, ...);
1754						$pod_para->parse_tree( $ptree );
1755						$parser->parse_tree()->append( $pod_para );
1756						}
1757
1758						...
1759
1760						package main;
1761						...
1762						my $parser = new MyPodParserTree2(...);
1763						$parser->parse_from_file(...);
1764						my $ptree = $parser->parse_tree;
1765						...
1766
1767						Now you have the entire POD document as one great big parse-tree. You
1768						can even use the B<-expand_seq> option to B to insert
1769						whole different kinds of objects. Just don't expect B
1770						to know what to do with them after that. That will need to be in your
1771						code. Or, alternatively, you can insert any object you like so long as
1772						it conforms to the B interface.
1773
1774						One could use this to create subclasses of B and
1775						B for specific commands (or to create your own
1776						custom node-types in the parse-tree) and add some kind of B
1777						method to each custom node/subclass object in the tree. Then all you'd
1778						need to do is recursively walk the tree in the desired order, processing
1779						the children (most likely from left to right) by formatting them if
1780						they are text-strings, or by calling their B method if they
1781						are objects/references.
1782
1783						=head1 CAVEATS
1784
1785						Please note that POD has the notion of "paragraphs": this is something
1786						starting I a blank (read: empty) line, with the single exception
1787						of the file start, which is also starting a paragraph. That means that
1788						especially a command (e.g. C<=head1>) I be preceded with a blank
1789						line; C<__END__> is I a blank line.
1790
1791						=head1 SEE ALSO
1792
1793						L, L
1794
1795						B defines POD input objects corresponding to
1796						command paragraphs, parse-trees, and interior-sequences.
1797
1798						B is a subclass of B which provides the ability
1799						to selectively include and/or exclude sections of a POD document from being
1800						translated based upon the current heading, subheading, subsubheading, etc.
1801
1802						=for __PRIVATE__
1803						B is a subclass of B which gives its users
1804						the ability the employ I instead of, or in addition
1805						to, overriding methods of the base class.
1806
1807						=for __PRIVATE__
1808						B and B do not override any
1809						methods nor do they define any new methods with the same name. Because
1810						of this, they may I be used (in combination) as a base class of
1811						the same subclass in order to combine their functionality without
1812						causing any namespace clashes due to multiple inheritance.
1813
1814						=head1 AUTHOR
1815
1816						Please report bugs using L.
1817
1818						Brad Appleton Ebradapp@enteract.comE
1819
1820						Based on code for B written by
1821						Tom Christiansen Etchrist@mox.perl.comE
1822
1823						=head1 LICENSE
1824
1825						Pod-Parser is free software; you can redistribute it and/or modify it
1826						under the terms of the Artistic License distributed with Perl version
1827						5.000 or (at your option) any later version. Please refer to the
1828						Artistic License that came with your Perl distribution for more
1829						details. If your version of Perl was not distributed under the
1830						terms of the Artistic License, than you may distribute PodParser
1831						under the same terms as Perl itself.
1832
1833						=cut
1834
1835						1;
1836						# vim: ts=4 sw=4 et