#############################################################################
# Pod/Parser.pm -- package which defines a base class for parsing POD docs.
#
-# Based on Tom Christiansen's Pod::Text module
-# (with extensive modifications).
-#
-# Copyright (C) 1996-1999 Tom Christiansen. All rights reserved.
+# Copyright (C) 1996-2000 by Bradford Appleton. All rights reserved.
# This file is part of "PodParser". PodParser is free software;
# you can redistribute it and/or modify it under the same terms
# as Perl itself.
package Pod::Parser;
use vars qw($VERSION);
-$VERSION = 1.081; ## Current version of this package
-require 5.004; ## requires this Perl version or later
+$VERSION = 1.13; ## Current version of this package
+require 5.005; ## requires this Perl version or later
#############################################################################
sub interior_sequence {
my ($parser, $seq_command, $seq_argument) = @_;
## Expand an interior sequence; sample actions might be:
- return "*$seq_argument*" if ($seq_command = 'B');
- return "`$seq_argument'" if ($seq_command = 'C');
- return "_${seq_argument}_'" if ($seq_command = 'I');
+ return "*$seq_argument*" if ($seq_command eq 'B');
+ return "`$seq_argument'" if ($seq_command eq 'C');
+ return "_${seq_argument}_'" if ($seq_command eq 'I');
## ... other sequence commands and their resulting text
}
=head1 REQUIRES
-perl5.004, Pod::InputObjects, Exporter, FileHandle, Carp
+perl5.005, Pod::InputObjects, Exporter, Symbol, Carp
=head1 EXPORTS
do most of the input parsing for you and leave you free to worry about
how to intepret the commands and translate the result.
+Note that all we have described here in this quick overview is the
+simplest most straightforward use of B<Pod::Parser> to do stream-based
+parsing. It is also possible to use the B<Pod::Parser::parse_text> function
+to do more sophisticated tree-based parsing. See L<"TREE-BASED PARSING">.
+
+=head1 PARSING OPTIONS
+
+A I<parse-option> is simply a named option of B<Pod::Parser> with a
+value that corresponds to a certain specified behavior. These various
+behaviors of B<Pod::Parser> may be enabled/disabled by setting
+or unsetting one or more I<parse-options> using the B<parseopts()> method.
+The set of currently accepted parse-options is as follows:
+
+=over 3
+
+=item B<-want_nonPODs> (default: unset)
+
+Normally (by default) B<Pod::Parser> will only provide access to
+the POD sections of the input. Input paragraphs that are not part
+of the POD-format documentation are not made available to the caller
+(not even using B<preprocess_paragraph()>). Setting this option to a
+non-empty, non-zero value will allow B<preprocess_paragraph()> to see
+non-POD sections of the input as well as POD sections. The B<cutting()>
+method can be used to determine if the corresponding paragraph is a POD
+paragraph, or some other input paragraph.
+
+=item B<-process_cut_cmd> (default: unset)
+
+Normally (by default) B<Pod::Parser> handles the C<=cut> POD directive
+by itself and does not pass it on to the caller for processing. Setting
+this option to a non-empty, non-zero value will cause B<Pod::Parser> to
+pass the C<=cut> directive to the caller just like any other POD command
+(and hence it may be processed by the B<command()> method).
+
+B<Pod::Parser> will still interpret the C<=cut> directive to mean that
+"cutting mode" has been (re)entered, but the caller will get a chance
+to capture the actual C<=cut> paragraph itself for whatever purpose
+it desires.
+
+=item B<-warnings> (default: unset)
+
+Normally (by default) B<Pod::Parser> recognizes a bare minimum of
+pod syntax errors and warnings and issues diagnostic messages
+for errors, but not for warnings. (Use B<Pod::Checker> to do more
+thorough checking of POD syntax.) Setting this option to a non-empty,
+non-zero value will cause B<Pod::Parser> to issue diagnostics for
+the few warnings it recognizes as well as the errors.
+
+=back
+
+Please see L<"parseopts()"> for a complete description of the interface
+for the setting and unsetting of parse-options.
+
=cut
#############################################################################
#use diagnostics;
use Pod::InputObjects;
use Carp;
-use FileHandle;
use Exporter;
+BEGIN {
+ if ($] < 5.6) {
+ require Symbol;
+ import Symbol;
+ }
+}
@ISA = qw(Exporter);
## These "variables" are used as local "glob aliases" for performance
-use vars qw(%myData @input_stack);
+use vars qw(%myData %myOpts @input_stack);
#############################################################################
place If the empty string is returned or an undefined value is
returned, then the given C<$text> is ignored (not processed).
-This method is invoked after gathering up all thelines in a paragraph
+This method is invoked after gathering up all the lines in a paragraph
+and after determining the cutting state of the paragraph,
but before trying to further parse or interpret them. After
B<preprocess_paragraph()> returns, the current cutting state (which
is returned by C<$self-E<gt>cutting()>) is examined. If it evaluates
-to false then input text (including the given C<$text>) is cut (not
+to true then input text (including the given C<$text>) is cut (not
processed) until the next POD directive is encountered.
Please note that the B<preprocess_line()> method is invoked I<before>
the B<preprocess_paragraph()> method. After all (possibly preprocessed)
-lines in a paragraph have been assembled together and it has been
+lines in a paragraph have been assembled together and either it has been
determined that the paragraph is part of the POD documentation from one
-of the selected sections, then B<preprocess_paragraph()> is invoked.
+of the selected sections or the C<-want_nonPODs> option is true,
+then B<preprocess_paragraph()> is invoked.
The base class implementation of this method returns the given text.
=head1 METHODS FOR PARSING AND PROCESSING
B<Pod::Parser> provides several methods to process input text. These
-methods typically won't need to be overridden, but subclasses may want
-to invoke them to exploit their functionality.
+methods typically won't need to be overridden (and in some cases they
+can't be overridden), but subclasses may want to invoke them to exploit
+their functionality.
=cut
This method is useful if you need to perform your own interpolation
of interior sequences and can't rely upon B<interpolate> to expand
-them in simple bottom-up order order.
+them in simple bottom-up order.
The parameter C<$text> is a string or block of text to be parsed
for interior sequences; and the parameter C<$line_num> is the
[I<NOTE>: If the B<interior_sequence()> method is specified, then it is
invoked according to the interface specified in L<"interior_sequence()">].
+=item B<-expand_text> =E<gt> I<code-ref>|I<method-name>
+
+Normally, the parse-tree returned by B<parse_text()> will contain a
+text-string for each contiguous sequence of characters outside of an
+interior-sequence. Specifying B<-expand_text> tells B<parse_text()> to
+"preprocess" every such text-string it sees by invoking the referenced
+function (or named method of the parser object) and using the return value
+as the preprocessed (or "expanded") result. [Note that if the result is
+an interior-sequence, then it will I<not> be expanded as specified by the
+B<-expand_seq> option; Any such recursive expansion needs to be handled by
+the specified callback routine.]
+
+If a subroutine reference was given, it is invoked as:
+
+ &$code_ref( $parser, $text, $ptree_node )
+
+and if a method-name was given, it is invoked as:
+
+ $parser->method_name( $text, $ptree_node )
+
+where C<$parser> is a reference to the parser object, C<$text> is the
+text-string encountered, and C<$ptree_node> is a reference to the current
+node in the parse-tree (usually an interior-sequence object or else the
+top-level node of the parse-tree).
+
=item B<-expand_ptree> =E<gt> I<code-ref>|I<method-name>
Rather than returning a C<Pod::ParseTree>, pass the parse-tree as an
=cut
-## This global regex is used to see if the text before a '>' inside
-## an interior sequence looks like '-' or '=', but not '--', '==',
-## '$-', or '$='
-use vars qw( $ARROW_RE );
-$ARROW_RE = join('', qw{ (?: [^-+*/=!&|%^x.<>$]= | [^$-]- )$ });
-#$ARROW_RE = qr/(?:[^=]+=|[^-]+-)$/; ## 5.005+ only!
-
sub parse_text {
my $self = shift;
local $_ = '';
## Get options and set any defaults
my %opts = (ref $_[0]) ? %{ shift() } : ();
my $expand_seq = $opts{'-expand_seq'} || undef;
+ my $expand_text = $opts{'-expand_text'} || undef;
my $expand_ptree = $opts{'-expand_ptree'} || undef;
my $text = shift;
my $line = shift;
my $file = $self->input_file();
- my ($cmd, $prev) = ('', '');
+ my $cmd = "";
## Convert method calls into closures, for our convenience
my $xseq_sub = $expand_seq;
+ my $xtext_sub = $expand_text;
my $xptree_sub = $expand_ptree;
if (defined $expand_seq and $expand_seq eq 'interior_sequence') {
## If 'interior_sequence' is the method to use, we have to pass
};
}
ref $xseq_sub or $xseq_sub = sub { shift()->$expand_seq(@_) };
+ ref $xtext_sub or $xtext_sub = sub { shift()->$expand_text(@_) };
ref $xptree_sub or $xptree_sub = sub { shift()->$expand_ptree(@_) };
-
+
## Keep track of the "current" interior sequence, and maintain a stack
## of "in progress" sequences.
##
##
my $seq = Pod::ParseTree->new();
my @seq_stack = ($seq);
+ my ($ldelim, $rdelim) = ('', '');
- ## Iterate over all sequence starts/stops, newlines, & text
- ## (NOTE: split with capturing parens keeps the delimiters)
+ ## Iterate over all sequence starts text (NOTE: split with
+ ## capturing parens keeps the delimiters)
$_ = $text;
- for ( split /([A-Z]<|>|\n)/ ) {
- ## Keep track of line count
- ++$line if ($_ eq "\n");
+ my @tokens = split /([A-Z]<(?:<+\s)?)/;
+ while ( @tokens ) {
+ $_ = shift @tokens;
## Look for the beginning of a sequence
- if ( /^([A-Z])(<)$/ ) {
+ if ( /^([A-Z])(<(?:<+\s)?)$/ ) {
## Push a new sequence onto the stack of those "in-progress"
+ ($cmd, $ldelim) = ($1, $2);
$seq = Pod::InteriorSequence->new(
- -name => ($cmd = $1),
- -ldelim => $2, -rdelim => '',
- -file => $file, -line => $line
+ -name => $cmd,
+ -ldelim => $ldelim, -rdelim => '',
+ -file => $file, -line => $line
);
+ $ldelim =~ s/\s+$//, ($rdelim = $ldelim) =~ tr/</>/;
(@seq_stack > 1) and $seq->nested($seq_stack[-1]);
push @seq_stack, $seq;
}
- ## Look for sequence ending (preclude '->' and '=>' inside C<...>)
- elsif ( (@seq_stack > 1) and
- /^>$/ and ($cmd ne 'C' or $prev !~ /$ARROW_RE/o) )
- {
- ## End of current sequence, record terminating delimiter
- $seq->rdelim($_);
- ## Pop it off the stack of "in progress" sequences
- pop @seq_stack;
- ## Append result to its parent in current parse tree
- $seq_stack[-1]->append($expand_seq ? &$xseq_sub($self,$seq) : $seq);
- ## Remember the current cmd-name
- $cmd = (@seq_stack > 1) ? $seq_stack[-1]->name : '';
+ ## Look for sequence ending
+ elsif ( @seq_stack > 1 ) {
+ ## Make sure we match the right kind of closing delimiter
+ my ($seq_end, $post_seq) = ("", "");
+ if ( ($ldelim eq '<' and /\A(.*?)(>)/s)
+ or /\A(.*?)(\s+$rdelim)/s )
+ {
+ ## Found end-of-sequence, capture the interior and the
+ ## closing the delimiter, and put the rest back on the
+ ## token-list
+ $post_seq = substr($_, length($1) + length($2));
+ ($_, $seq_end) = ($1, $2);
+ (length $post_seq) and unshift @tokens, $post_seq;
+ }
+ if (length) {
+ ## In the middle of a sequence, append this text to it, and
+ ## dont forget to "expand" it if that's what the caller wanted
+ $seq->append($expand_text ? &$xtext_sub($self,$_,$seq) : $_);
+ $_ .= $seq_end;
+ }
+ if (length $seq_end) {
+ ## End of current sequence, record terminating delimiter
+ $seq->rdelim($seq_end);
+ ## Pop it off the stack of "in progress" sequences
+ pop @seq_stack;
+ ## Append result to its parent in current parse tree
+ $seq_stack[-1]->append($expand_seq ? &$xseq_sub($self,$seq)
+ : $seq);
+ ## Remember the current cmd-name and left-delimiter
+ $cmd = (@seq_stack > 1) ? $seq_stack[-1]->name : '';
+ $ldelim = (@seq_stack > 1) ? $seq_stack[-1]->ldelim : '';
+ $ldelim =~ s/\s+$//, ($rdelim = $ldelim) =~ tr/</>/;
+ }
}
- else {
- ## In the middle of a sequence, append this text to it
- $seq->append($_) if length;
+ elsif (length) {
+ ## In the middle of a sequence, append this text to it, and
+ ## dont forget to "expand" it if that's what the caller wanted
+ $seq->append($expand_text ? &$xtext_sub($self,$_,$seq) : $_);
}
- ## Remember the "current" sequence and the previously seen token
- ($seq, $prev) = ( $seq_stack[-1], $_ );
+ ## Keep track of line count
+ $line += tr/\n//;
+ ## Remember the "current" sequence
+ $seq = $seq_stack[-1];
}
## Handle unterminated sequences
+ my $errorsub = (@seq_stack > 1) ? $self->errorsub() : undef;
while (@seq_stack > 1) {
($cmd, $file, $line) = ($seq->name, $seq->file_line);
+ $ldelim = $seq->ldelim;
+ ($rdelim = $ldelim) =~ tr/</>/;
+ $rdelim =~ s/^(\S+)(\s*)$/$2$1/;
pop @seq_stack;
- warn "** Unterminated $cmd<...> at $file line $line\n";
+ my $errmsg = "*** ERROR: unterminated ${cmd}${ldelim}...${rdelim}".
+ " at line $line in file $file\n";
+ (ref $errorsub) and &{$errorsub}($errmsg)
+ or (defined $errorsub) and $self->$errorsub($errmsg)
+ or warn($errmsg);
$seq_stack[-1]->append($expand_seq ? &$xseq_sub($self,$seq) : $seq);
$seq = $seq_stack[-1];
}
with its corresponding line number, and invokes the appropriate method
(one of B<command()>, B<verbatim()>, or B<textblock()>).
-This method does I<not> usually need to be overridden by subclasses.
+For performance reasons, this method is invoked directly without any
+dynamic lookup; Hence subclasses may I<not> override it!
=end __PRIVATE__
sub parse_paragraph {
my ($self, $text, $line_num) = @_;
- local *myData = $self; ## an alias to avoid deref-ing overhead
+ local *myData = $self; ## alias to avoid deref-ing overhead
+ local *myOpts = ($myData{_PARSEOPTS} ||= {}); ## get parse-options
local $_;
- ## This is the end of a non-empty paragraph
+ ## See if we want to preprocess nonPOD paragraphs as well as POD ones.
+ my $wantNonPods = $myOpts{'-want_nonPODs'};
+
+ ## Update cutting status
+ $myData{_CUTTING} = 0 if $text =~ /^={1,2}\S/;
+
+ ## Perform any desired preprocessing if we wanted it this early
+ $wantNonPods and $text = $self->preprocess_paragraph($text, $line_num);
+
## Ignore up until next POD directive if we are cutting
- if ($myData{_CUTTING}) {
- return unless ($text =~ /^={1,2}\S/);
- $myData{_CUTTING} = 0;
- }
+ return if $myData{_CUTTING};
## Now we know this is block of text in a POD section!
$self->is_selected($text) or return ($myData{_CUTTING} = 1);
}
- ## Perform any desired preprocessing and re-check the "cutting" state
- $text = $self->preprocess_paragraph($text, $line_num);
- return 1 unless ((defined $text) and (length $text));
- return 1 if ($myData{_CUTTING});
+ ## If we havent already, perform any desired preprocessing and
+ ## then re-check the "cutting" state
+ unless ($wantNonPods) {
+ $text = $self->preprocess_paragraph($text, $line_num);
+ return 1 unless ((defined $text) and (length $text));
+ return 1 if ($myData{_CUTTING});
+ }
## Look for one of the three types of paragraphs
my ($pfx, $cmd, $arg, $sep) = ('', '', '', '');
## and whatever sequence of characters was used to separate them
$pfx = $1;
$_ = substr($text, length $pfx);
- $sep = /(\s+)(?=\S)/ ? $1 : '';
- ($cmd, $text) = split(" ", $_, 2);
+ ($cmd, $sep, $text) = split /(\s+)/, $_, 2;
## If this is a "cut" directive then we dont need to do anything
## except return to "cutting" mode.
if ($cmd eq 'cut') {
$myData{_CUTTING} = 1;
- return;
+ return unless $myOpts{'-process_cut_cmd'};
}
}
## Save the attributes indicating how the command was specified.
my %opts = (ref $_[0] eq 'HASH') ? %{ shift() } : ();
my ($in_fh, $out_fh) = @_;
$in_fh = \*STDIN unless ($in_fh);
+ local *myData = $self; ## alias to avoid deref-ing overhead
+ local *myOpts = ($myData{_PARSEOPTS} ||= {}); ## get parse-options
local $_;
## Put this stream at the top of the stack and do beginning-of-input
++$plines;
}
- ## See of this line is blank and ends the current paragraph.
+ ## See if this line is blank and ends the current paragraph.
## If it isnt, then keep iterating until it is.
- next unless (($textline =~ /^\s*$/) && (length $paragraph));
+ next unless (($textline =~ /^([^\S\r\n]*)[\r\n]*$/)
+ && (length $paragraph));
+
+ ## Issue a warning about any non-empty blank lines
+ if (length($1) > 0 and $myOpts{'-warnings'} and ! $myData{_CUTTING}) {
+ my $errorsub = $self->errorsub();
+ my $file = $self->input_file();
+ my $errmsg = "*** WARNING: line containing nothing but whitespace".
+ " in paragraph at line $nlines in file $file\n";
+ (ref $errorsub) and &{$errorsub}($errmsg)
+ or (defined $errorsub) and $self->$errorsub($errmsg)
+ or warn($errmsg);
+ }
## Now process the paragraph
parse_paragraph($self, $paragraph, ($nlines - $plines) + 1);
my $self = shift;
my %opts = (ref $_[0] eq 'HASH') ? %{ shift() } : ();
my ($infile, $outfile) = @_;
- my ($in_fh, $out_fh) = (undef, undef);
+ my ($in_fh, $out_fh) = (gensym, gensym) if ($] < 5.6);
my ($close_input, $close_output) = (0, 0);
local *myData = $self;
local $_;
else {
## We have a filename, open it for reading
$myData{_INFILE} = $infile;
- $in_fh = FileHandle->new("< $infile") or
+ open($in_fh, "< $infile") or
croak "Can't open $infile for reading: $!\n";
$close_input = 1;
}
elsif (ref $outfile) {
## Must be a filehandle-ref (or else assume its a ref to an
## object that supports the common IO write operations).
- $myData{_OUTFILE} = ${$outfile};;
+ $myData{_OUTFILE} = ${$outfile};
$out_fh = $outfile;
}
else {
## We have a filename, open it for writing
$myData{_OUTFILE} = $outfile;
- $out_fh = FileHandle->new("> $outfile") or
+ (-d $outfile) and croak "$outfile is a directory, not POD input!\n";
+ open($out_fh, "> $outfile") or
croak "Can't open $outfile for writing: $!\n";
$close_output = 1;
}
##---------------------------------------------------------------------------
+=head1 B<errorsub()>
+
+ $parser->errorsub("method_name");
+ $parser->errorsub(\&warn_user);
+ $parser->errorsub(sub { print STDERR, @_ });
+
+Specifies the method or subroutine to use when printing error messages
+about POD syntax. The supplied method/subroutine I<must> return TRUE upon
+successful printing of the message. If C<undef> is given, then the B<warn>
+builtin is used to issue error messages (this is the default behavior).
+
+ my $errorsub = $parser->errorsub()
+ my $errmsg = "This is an error message!\n"
+ (ref $errorsub) and &{$errorsub}($errmsg)
+ or (defined $errorsub) and $parser->$errorsub($errmsg)
+ or warn($errmsg);
+
+Returns a method name, or else a reference to the user-supplied subroutine
+used to print error messages. Returns C<undef> if the B<warn> builtin
+is used to issue error messages (this is the default behavior).
+
+=cut
+
+sub errorsub {
+ return (@_ > 1) ? ($_[0]->{_ERRORSUB} = $_[1]) : $_[0]->{_ERRORSUB};
+}
+
+##---------------------------------------------------------------------------
+
=head1 B<cutting()>
$boolean = $parser->cutting();
##---------------------------------------------------------------------------
+##---------------------------------------------------------------------------
+
+=head1 B<parseopts()>
+
+When invoked with no additional arguments, B<parseopts> returns a hashtable
+of all the current parsing options.
+
+ ## See if we are parsing non-POD sections as well as POD ones
+ my %opts = $parser->parseopts();
+ $opts{'-want_nonPODs}' and print "-want_nonPODs\n";
+
+When invoked using a single string, B<parseopts> treats the string as the
+name of a parse-option and returns its corresponding value if it exists
+(returns C<undef> if it doesn't).
+
+ ## Did we ask to see '=cut' paragraphs?
+ my $want_cut = $parser->parseopts('-process_cut_cmd');
+ $want_cut and print "-process_cut_cmd\n";
+
+When invoked with multiple arguments, B<parseopts> treats them as
+key/value pairs and the specified parse-option names are set to the
+given values. Any unspecified parse-options are unaffected.
+
+ ## Set them back to the default
+ $parser->parseopts(-warnings => 0);
+
+When passed a single hash-ref, B<parseopts> uses that hash to completely
+reset the existing parse-options, all previous parse-option values
+are lost.
+
+ ## Reset all options to default
+ $parser->parseopts( { } );
+
+See L<"PARSING OPTIONS"> for more information on the name and meaning of each
+parse-option currently recognized.
+
+=cut
+
+sub parseopts {
+ local *myData = shift;
+ local *myOpts = ($myData{_PARSEOPTS} ||= {});
+ return %myOpts if (@_ == 0);
+ if (@_ == 1) {
+ local $_ = shift;
+ return ref($_) ? $myData{_PARSEOPTS} = $_ : $myOpts{$_};
+ }
+ my @newOpts = (%myOpts, @_);
+ $myData{_PARSEOPTS} = { @newOpts };
+}
+
+##---------------------------------------------------------------------------
+
=head1 B<output_file()>
$fname = $parser->output_file();
#############################################################################
+=head1 TREE-BASED PARSING
+
+If straightforward stream-based parsing wont meet your needs (as is
+likely the case for tasks such as translating PODs into structured
+markup languages like HTML and XML) then you may need to take the
+tree-based approach. Rather than doing everything in one pass and
+calling the B<interpolate()> method to expand sequences into text, it
+may be desirable to instead create a parse-tree using the B<parse_text()>
+method to return a tree-like structure which may contain an ordered
+list of children (each of which may be a text-string, or a similar
+tree-like structure).
+
+Pay special attention to L<"METHODS FOR PARSING AND PROCESSING"> and
+to the objects described in L<Pod::InputObjects>. The former describes
+the gory details and parameters for how to customize and extend the
+parsing behavior of B<Pod::Parser>. B<Pod::InputObjects> provides
+several objects that may all be used interchangeably as parse-trees. The
+most obvious one is the B<Pod::ParseTree> object. It defines the basic
+interface and functionality that all things trying to be a POD parse-tree
+should do. A B<Pod::ParseTree> is defined such that each "node" may be a
+text-string, or a reference to another parse-tree. Each B<Pod::Paragraph>
+object and each B<Pod::InteriorSequence> object also supports the basic
+parse-tree interface.
+
+The B<parse_text()> method takes a given paragraph of text, and
+returns a parse-tree that contains one or more children, each of which
+may be a text-string, or an InteriorSequence object. There are also
+callback-options that may be passed to B<parse_text()> to customize
+the way it expands or transforms interior-sequences, as well as the
+returned result. These callbacks can be used to create a parse-tree
+with custom-made objects (which may or may not support the parse-tree
+interface, depending on how you choose to do it).
+
+If you wish to turn an entire POD document into a parse-tree, that process
+is fairly straightforward. The B<parse_text()> method is the key to doing
+this successfully. Every paragraph-callback (i.e. the polymorphic methods
+for B<command()>, B<verbatim()>, and B<textblock()> paragraphs) takes
+a B<Pod::Paragraph> object as an argument. Each paragraph object has a
+B<parse_tree()> method that can be used to get or set a corresponding
+parse-tree. So for each of those paragraph-callback methods, simply call
+B<parse_text()> with the options you desire, and then use the returned
+parse-tree to assign to the given paragraph object.
+
+That gives you a parse-tree for each paragraph - so now all you need is
+an ordered list of paragraphs. You can maintain that yourself as a data
+element in the object/hash. The most straightforward way would be simply
+to use an array-ref, with the desired set of custom "options" for each
+invocation of B<parse_text>. Let's assume the desired option-set is
+given by the hash C<%options>. Then we might do something like the
+following:
+
+ package MyPodParserTree;
+
+ @ISA = qw( Pod::Parser );
+
+ ...
+
+ sub begin_pod {
+ my $self = shift;
+ $self->{'-paragraphs'} = []; ## initialize paragraph list
+ }
+
+ sub command {
+ my ($parser, $command, $paragraph, $line_num, $pod_para) = @_;
+ my $ptree = $parser->parse_text({%options}, $paragraph, ...);
+ $pod_para->parse_tree( $ptree );
+ push @{ $self->{'-paragraphs'} }, $pod_para;
+ }
+
+ sub verbatim {
+ my ($parser, $paragraph, $line_num, $pod_para) = @_;
+ push @{ $self->{'-paragraphs'} }, $pod_para;
+ }
+
+ sub textblock {
+ my ($parser, $paragraph, $line_num, $pod_para) = @_;
+ my $ptree = $parser->parse_text({%options}, $paragraph, ...);
+ $pod_para->parse_tree( $ptree );
+ push @{ $self->{'-paragraphs'} }, $pod_para;
+ }
+
+ ...
+
+ package main;
+ ...
+ my $parser = new MyPodParserTree(...);
+ $parser->parse_from_file(...);
+ my $paragraphs_ref = $parser->{'-paragraphs'};
+
+Of course, in this module-author's humble opinion, I'd be more inclined to
+use the existing B<Pod::ParseTree> object than a simple array. That way
+everything in it, paragraphs and sequences, all respond to the same core
+interface for all parse-tree nodes. The result would look something like:
+
+ package MyPodParserTree2;
+
+ ...
+
+ sub begin_pod {
+ my $self = shift;
+ $self->{'-ptree'} = new Pod::ParseTree; ## initialize parse-tree
+ }
+
+ sub parse_tree {
+ ## convenience method to get/set the parse-tree for the entire POD
+ (@_ > 1) and $_[0]->{'-ptree'} = $_[1];
+ return $_[0]->{'-ptree'};
+ }
+
+ sub command {
+ my ($parser, $command, $paragraph, $line_num, $pod_para) = @_;
+ my $ptree = $parser->parse_text({<<options>>}, $paragraph, ...);
+ $pod_para->parse_tree( $ptree );
+ $parser->parse_tree()->append( $pod_para );
+ }
+
+ sub verbatim {
+ my ($parser, $paragraph, $line_num, $pod_para) = @_;
+ $parser->parse_tree()->append( $pod_para );
+ }
+
+ sub textblock {
+ my ($parser, $paragraph, $line_num, $pod_para) = @_;
+ my $ptree = $parser->parse_text({<<options>>}, $paragraph, ...);
+ $pod_para->parse_tree( $ptree );
+ $parser->parse_tree()->append( $pod_para );
+ }
+
+ ...
+
+ package main;
+ ...
+ my $parser = new MyPodParserTree2(...);
+ $parser->parse_from_file(...);
+ my $ptree = $parser->parse_tree;
+ ...
+
+Now you have the entire POD document as one great big parse-tree. You
+can even use the B<-expand_seq> option to B<parse_text> to insert
+whole different kinds of objects. Just don't expect B<Pod::Parser>
+to know what to do with them after that. That will need to be in your
+code. Or, alternatively, you can insert any object you like so long as
+it conforms to the B<Pod::ParseTree> interface.
+
+One could use this to create subclasses of B<Pod::Paragraphs> and
+B<Pod::InteriorSequences> for specific commands (or to create your own
+custom node-types in the parse-tree) and add some kind of B<emit()>
+method to each custom node/subclass object in the tree. Then all you'd
+need to do is recursively walk the tree in the desired order, processing
+the children (most likely from left to right) by formatting them if
+they are text-strings, or by calling their B<emit()> method if they
+are objects/references.
+
=head1 SEE ALSO
L<Pod::InputObjects>, L<Pod::Select>