/usr/share/perl5/Pod/Simple/BlackBox.pm is in libpod-simple-perl 3.32-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 | package Pod::Simple::BlackBox;
#
# "What's in the box?" "Pain."
#
###########################################################################
#
# This is where all the scary things happen: parsing lines into
# paragraphs; and then into directives, verbatims, and then also
# turning formatting sequences into treelets.
#
# Are you really sure you want to read this code?
#
#-----------------------------------------------------------------------------
#
# The basic work of this module Pod::Simple::BlackBox is doing the dirty work
# of parsing Pod into treelets (generally one per non-verbatim paragraph), and
# to call the proper callbacks on the treelets.
#
# Every node in a treelet is a ['name', {attrhash}, ...children...]
use integer; # vroom!
use strict;
use Carp ();
use vars qw($VERSION );
$VERSION = '3.32';
#use constant DEBUG => 7;
BEGIN {
require Pod::Simple;
*DEBUG = \&Pod::Simple::DEBUG unless defined &DEBUG
}
# Matches a character iff the character will have a different meaning
# if we choose CP1252 vs UTF-8 if there is no =encoding line.
# This is broken for early Perls on non-ASCII platforms.
my $non_ascii_re = eval "qr/[[:^ascii:]]/";
$non_ascii_re = qr/[\x80-\xFF]/ if ! defined $non_ascii_re;
my $utf8_bom;
if (($] ge 5.007_003)) {
$utf8_bom = "\x{FEFF}";
utf8::encode($utf8_bom);
} else {
$utf8_bom = "\xEF\xBB\xBF"; # No EBCDIC BOM detection for early Perls.
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub parse_line { shift->parse_lines(@_) } # alias
# - - - Turn back now! Run away! - - -
sub parse_lines { # Usage: $parser->parse_lines(@lines)
# an undef means end-of-stream
my $self = shift;
my $code_handler = $self->{'code_handler'};
my $cut_handler = $self->{'cut_handler'};
my $wl_handler = $self->{'whiteline_handler'};
$self->{'line_count'} ||= 0;
my $scratch;
DEBUG > 4 and
print STDERR "# Parsing starting at line ", $self->{'line_count'}, ".\n";
DEBUG > 5 and
print STDERR "# About to parse lines: ",
join(' ', map defined($_) ? "[$_]" : "EOF", @_), "\n";
my $paras = ($self->{'paras'} ||= []);
# paragraph buffer. Because we need to defer processing of =over
# directives and verbatim paragraphs. We call _ponder_paragraph_buffer
# to process this.
$self->{'pod_para_count'} ||= 0;
my $line;
foreach my $source_line (@_) {
if( $self->{'source_dead'} ) {
DEBUG > 4 and print STDERR "# Source is dead.\n";
last;
}
unless( defined $source_line ) {
DEBUG > 4 and print STDERR "# Undef-line seen.\n";
push @$paras, ['~end', {'start_line' => $self->{'line_count'}}];
push @$paras, $paras->[-1], $paras->[-1];
# So that it definitely fills the buffer.
$self->{'source_dead'} = 1;
$self->_ponder_paragraph_buffer;
next;
}
if( $self->{'line_count'}++ ) {
($line = $source_line) =~ tr/\n\r//d;
# If we don't have two vars, we'll end up with that there
# tr/// modding the (potentially read-only) original source line!
} else {
DEBUG > 2 and print STDERR "First line: [$source_line]\n";
if( ($line = $source_line) =~ s/^$utf8_bom//s ) {
DEBUG and print STDERR "UTF-8 BOM seen. Faking a '=encoding utf8'.\n";
$self->_handle_encoding_line( "=encoding utf8" );
delete $self->{'_processed_encoding'};
$line =~ tr/\n\r//d;
} elsif( $line =~ s/^\xFE\xFF//s ) {
DEBUG and print STDERR "Big-endian UTF-16 BOM seen. Aborting parsing.\n";
$self->scream(
$self->{'line_count'},
"UTF16-BE Byte Encoding Mark found; but Pod::Simple v$Pod::Simple::VERSION doesn't implement UTF16 yet."
);
splice @_;
push @_, undef;
next;
# TODO: implement somehow?
} elsif( $line =~ s/^\xFF\xFE//s ) {
DEBUG and print STDERR "Little-endian UTF-16 BOM seen. Aborting parsing.\n";
$self->scream(
$self->{'line_count'},
"UTF16-LE Byte Encoding Mark found; but Pod::Simple v$Pod::Simple::VERSION doesn't implement UTF16 yet."
);
splice @_;
push @_, undef;
next;
# TODO: implement somehow?
} else {
DEBUG > 2 and print STDERR "First line is BOM-less.\n";
($line = $source_line) =~ tr/\n\r//d;
}
}
if(!$self->{'parse_characters'} && !$self->{'encoding'}
&& ($self->{'in_pod'} || $line =~ /^=/s)
&& $line =~ /$non_ascii_re/
) {
my $encoding;
# No =encoding line, and we are at the first line in the input that
# contains a non-ascii byte, that is one whose meaning varies depending
# on whether the file is encoded in UTF-8 or CP1252, which are the two
# possibilities permitted by the pod spec. (ASCII is assumed if the
# file only contains ASCII bytes.) In order to process this line, we
# need to figure out what encoding we will use for the file.
#
# Strictly speaking ISO 8859-1 (Latin 1) refers to the code points
# 160-255, but it is used here, as it often colloquially is, to refer to
# the complete set of code points 0-255, including ASCII (0-127), the C1
# controls (128-159), and strict Latin 1 (160-255).
#
# CP1252 is effectively a superset of Latin 1, because it differs only
# from colloquial 8859-1 in the C1 controls, which are very unlikely to
# actually be present in 8859-1 files, so can be used for other purposes
# without conflict. CP 1252 uses most of them for graphic characters.
#
# Note that all ASCII-range bytes represent their corresponding code
# points in CP1252 and UTF-8. In ASCII platform UTF-8 all other code
# points require multiple (non-ASCII) bytes to represent. (A separate
# paragraph for EBCDIC is below.) The multi-byte representation is
# quite structured. If we find an isolated byte that requires multiple
# bytes to represent in UTF-8, we know that the encoding is not UTF-8.
# If we find a sequence of bytes that violates the UTF-8 structure, we
# also can presume the encoding isn't UTF-8, and hence must be 1252.
#
# But there are ambiguous cases where we could guess wrong. If so, the
# user will end up having to supply an =encoding line. We use all
# readily available information to improve our chances of guessing
# right. The odds of something not being UTF-8, but still passing a
# UTF-8 validity test go down very rapidly with increasing length of the
# sequence. Therefore we look at all the maximal length non-ascii
# sequences on the line. If any of the sequences can't be UTF-8, we
# quit there and choose CP1252. If all could be UTF-8, we guess UTF-8.
#
# On EBCDIC platforms, the situation is somewhat different. In
# UTF-EBCDIC, not only do ASCII-range bytes represent their code points,
# but so do the bytes that are for the C1 controls. Recall that these
# correspond to the unused portion of 8859-1 that 1252 mostly takes
# over. That means that there are fewer code points that are
# represented by multi-bytes. But, note that the these controls are
# very unlikely to be in pod text. So if we encounter one of them, it
# means that it is quite likely CP1252 and not UTF-8. The net result is
# the same code below is used for both platforms.
while ($line =~ m/($non_ascii_re+)/g) {
my $non_ascii_seq = $1;
if (length $non_ascii_seq == 1) {
$encoding = 'CP1252';
goto guessed;
} elsif ($] ge 5.007_003) {
# On Perls that have this function, we can see if the sequence is
# valid UTF-8 or not.
if (! utf8::decode($non_ascii_seq)) {
$encoding = 'CP1252';
goto guessed;
}
} elsif (ord("A") == 65) { # An early Perl, ASCII platform
# Without utf8::decode, it's a lot harder to do a rigorous check
# (though some early releases had a different function that
# accomplished the same thing). Since these are ancient Perls, not
# likely to be in use today, we take the easy way out, and look at
# just the first two bytes of the sequence to see if they are the
# start of a UTF-8 character. In ASCII UTF-8, continuation bytes
# must be between 0x80 and 0xBF. Start bytes can range from 0xC2
# through 0xFF, but anything above 0xF4 is not Unicode, and hence
# extremely unlikely to be in a pod.
if ($non_ascii_seq !~ /^[\xC2-\xF4][\x80-\xBF]/) {
$encoding = 'CP1252';
goto guessed;
}
# We don't bother doing anything special for EBCDIC on early Perls.
# If there is a solitary variant, CP1252 will be chosen; otherwise
# UTF-8.
}
} # End of loop through all variant sequences on the line
# All sequences in the line could be UTF-8. Guess that.
$encoding = 'UTF-8';
guessed:
$self->_handle_encoding_line( "=encoding $encoding" );
delete $self->{'_processed_encoding'};
$self->{'_transcoder'} && $self->{'_transcoder'}->($line);
my ($word) = $line =~ /(\S*$non_ascii_re\S*)/;
$self->whine(
$self->{'line_count'},
"Non-ASCII character seen before =encoding in '$word'. Assuming $encoding"
);
}
DEBUG > 5 and print STDERR "# Parsing line: [$line]\n";
if(!$self->{'in_pod'}) {
if($line =~ m/^=([a-zA-Z][a-zA-Z0-9]*)(?:\s|$)/s) {
if($1 eq 'cut') {
$self->scream(
$self->{'line_count'},
"=cut found outside a pod block. Skipping to next block."
);
## Before there were errata sections in the world, it was
## least-pessimal to abort processing the file. But now we can
## just barrel on thru (but still not start a pod block).
#splice @_;
#push @_, undef;
next;
} else {
$self->{'in_pod'} = $self->{'start_of_pod_block'}
= $self->{'last_was_blank'} = 1;
# And fall thru to the pod-mode block further down
}
} else {
DEBUG > 5 and print STDERR "# It's a code-line.\n";
$code_handler->(map $_, $line, $self->{'line_count'}, $self)
if $code_handler;
# Note: this may cause code to be processed out of order relative
# to pods, but in order relative to cuts.
# Note also that we haven't yet applied the transcoding to $line
# by time we call $code_handler!
if( $line =~ m/^#\s*line\s+(\d+)\s*(?:\s"([^"]+)")?\s*$/ ) {
# That RE is from perlsyn, section "Plain Old Comments (Not!)",
#$fname = $2 if defined $2;
#DEBUG > 1 and defined $2 and print STDERR "# Setting fname to \"$fname\"\n";
DEBUG > 1 and print STDERR "# Setting nextline to $1\n";
$self->{'line_count'} = $1 - 1;
}
next;
}
}
# . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
# Else we're in pod mode:
# Apply any necessary transcoding:
$self->{'_transcoder'} && $self->{'_transcoder'}->($line);
# HERE WE CATCH =encoding EARLY!
if( $line =~ m/^=encoding\s+\S+\s*$/s ) {
next if $self->parse_characters; # Ignore this line
$line = $self->_handle_encoding_line( $line );
}
if($line =~ m/^=cut/s) {
# here ends the pod block, and therefore the previous pod para
DEBUG > 1 and print STDERR "Noting =cut at line ${$self}{'line_count'}\n";
$self->{'in_pod'} = 0;
# ++$self->{'pod_para_count'};
$self->_ponder_paragraph_buffer();
# by now it's safe to consider the previous paragraph as done.
$cut_handler->(map $_, $line, $self->{'line_count'}, $self)
if $cut_handler;
# TODO: add to docs: Note: this may cause cuts to be processed out
# of order relative to pods, but in order relative to code.
} elsif($line =~ m/^(\s*)$/s) { # it's a blank line
if (defined $1 and $1 =~ /[^\S\r\n]/) { # it's a white line
$wl_handler->(map $_, $line, $self->{'line_count'}, $self)
if $wl_handler;
}
if(!$self->{'start_of_pod_block'} and @$paras and $paras->[-1][0] eq '~Verbatim') {
DEBUG > 1 and print STDERR "Saving blank line at line ${$self}{'line_count'}\n";
push @{$paras->[-1]}, $line;
} # otherwise it's not interesting
if(!$self->{'start_of_pod_block'} and !$self->{'last_was_blank'}) {
DEBUG > 1 and print STDERR "Noting para ends with blank line at ${$self}{'line_count'}\n";
}
$self->{'last_was_blank'} = 1;
} elsif($self->{'last_was_blank'}) { # A non-blank line starting a new para...
if($line =~ m/^(=[a-zA-Z][a-zA-Z0-9]*)(?:\s+|$)(.*)/s) {
# THIS IS THE ONE PLACE WHERE WE CONSTRUCT NEW DIRECTIVE OBJECTS
my $new = [$1, {'start_line' => $self->{'line_count'}}, $2];
# Note that in "=head1 foo", the WS is lost.
# Example: ['=head1', {'start_line' => 123}, ' foo']
++$self->{'pod_para_count'};
$self->_ponder_paragraph_buffer();
# by now it's safe to consider the previous paragraph as done.
push @$paras, $new; # the new incipient paragraph
DEBUG > 1 and print STDERR "Starting new ${$paras}[-1][0] para at line ${$self}{'line_count'}\n";
} elsif($line =~ m/^\s/s) {
if(!$self->{'start_of_pod_block'} and @$paras and $paras->[-1][0] eq '~Verbatim') {
DEBUG > 1 and print STDERR "Resuming verbatim para at line ${$self}{'line_count'}\n";
push @{$paras->[-1]}, $line;
} else {
++$self->{'pod_para_count'};
$self->_ponder_paragraph_buffer();
# by now it's safe to consider the previous paragraph as done.
DEBUG > 1 and print STDERR "Starting verbatim para at line ${$self}{'line_count'}\n";
push @$paras, ['~Verbatim', {'start_line' => $self->{'line_count'}}, $line];
}
} else {
++$self->{'pod_para_count'};
$self->_ponder_paragraph_buffer();
# by now it's safe to consider the previous paragraph as done.
push @$paras, ['~Para', {'start_line' => $self->{'line_count'}}, $line];
DEBUG > 1 and print STDERR "Starting plain para at line ${$self}{'line_count'}\n";
}
$self->{'last_was_blank'} = $self->{'start_of_pod_block'} = 0;
} else {
# It's a non-blank line /continuing/ the current para
if(@$paras) {
DEBUG > 2 and print STDERR "Line ${$self}{'line_count'} continues current paragraph\n";
push @{$paras->[-1]}, $line;
} else {
# Unexpected case!
die "Continuing a paragraph but \@\$paras is empty?";
}
$self->{'last_was_blank'} = $self->{'start_of_pod_block'} = 0;
}
} # ends the big while loop
DEBUG > 1 and print STDERR (pretty(@$paras), "\n");
return $self;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub _handle_encoding_line {
my($self, $line) = @_;
return if $self->parse_characters;
# The point of this routine is to set $self->{'_transcoder'} as indicated.
return $line unless $line =~ m/^=encoding\s+(\S+)\s*$/s;
DEBUG > 1 and print STDERR "Found an encoding line \"=encoding $1\"\n";
my $e = $1;
my $orig = $e;
push @{ $self->{'encoding_command_reqs'} }, "=encoding $orig";
my $enc_error;
# Cf. perldoc Encode and perldoc Encode::Supported
require Pod::Simple::Transcode;
if( $self->{'encoding'} ) {
my $norm_current = $self->{'encoding'};
my $norm_e = $e;
foreach my $that ($norm_current, $norm_e) {
$that = lc($that);
$that =~ s/[-_]//g;
}
if($norm_current eq $norm_e) {
DEBUG > 1 and print STDERR "The '=encoding $orig' line is ",
"redundant. ($norm_current eq $norm_e). Ignoring.\n";
$enc_error = '';
# But that doesn't necessarily mean that the earlier one went okay
} else {
$enc_error = "Encoding is already set to " . $self->{'encoding'};
DEBUG > 1 and print STDERR $enc_error;
}
} elsif (
# OK, let's turn on the encoding
do {
DEBUG > 1 and print STDERR " Setting encoding to $e\n";
$self->{'encoding'} = $e;
1;
}
and $e eq 'HACKRAW'
) {
DEBUG and print STDERR " Putting in HACKRAW (no-op) encoding mode.\n";
} elsif( Pod::Simple::Transcode::->encoding_is_available($e) ) {
die($enc_error = "WHAT? _transcoder is already set?!")
if $self->{'_transcoder'}; # should never happen
require Pod::Simple::Transcode;
$self->{'_transcoder'} = Pod::Simple::Transcode::->make_transcoder($e);
eval {
my @x = ('', "abc", "123");
$self->{'_transcoder'}->(@x);
};
$@ && die( $enc_error =
"Really unexpected error setting up encoding $e: $@\nAborting"
);
$self->{'detected_encoding'} = $e;
} else {
my @supported = Pod::Simple::Transcode::->all_encodings;
# Note unsupported, and complain
DEBUG and print STDERR " Encoding [$e] is unsupported.",
"\nSupporteds: @supported\n";
my $suggestion = '';
# Look for a near match:
my $norm = lc($e);
$norm =~ tr[-_][]d;
my $n;
foreach my $enc (@supported) {
$n = lc($enc);
$n =~ tr[-_][]d;
next unless $n eq $norm;
$suggestion = " (Maybe \"$e\" should be \"$enc\"?)";
last;
}
my $encmodver = Pod::Simple::Transcode::->encmodver;
$enc_error = join '' =>
"This document probably does not appear as it should, because its ",
"\"=encoding $e\" line calls for an unsupported encoding.",
$suggestion, " [$encmodver\'s supported encodings are: @supported]"
;
$self->scream( $self->{'line_count'}, $enc_error );
}
push @{ $self->{'encoding_command_statuses'} }, $enc_error;
if (defined($self->{'_processed_encoding'})) {
# Double declaration.
$self->scream( $self->{'line_count'}, 'Cannot have multiple =encoding directives');
}
$self->{'_processed_encoding'} = $orig;
return $line;
}
# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
sub _handle_encoding_second_level {
# By time this is called, the encoding (if well formed) will already
# have been acted one.
my($self, $para) = @_;
my @x = @$para;
my $content = join ' ', splice @x, 2;
$content =~ s/^\s+//s;
$content =~ s/\s+$//s;
DEBUG > 2 and print STDERR "Ogling encoding directive: =encoding $content\n";
if (defined($self->{'_processed_encoding'})) {
#if($content ne $self->{'_processed_encoding'}) {
# Could it happen?
#}
delete $self->{'_processed_encoding'};
# It's already been handled. Check for errors.
if(! $self->{'encoding_command_statuses'} ) {
DEBUG > 2 and print STDERR " CRAZY ERROR: It wasn't really handled?!\n";
} elsif( $self->{'encoding_command_statuses'}[-1] ) {
$self->whine( $para->[1]{'start_line'},
sprintf "Couldn't do %s: %s",
$self->{'encoding_command_reqs' }[-1],
$self->{'encoding_command_statuses'}[-1],
);
} else {
DEBUG > 2 and print STDERR " (Yup, it was successfully handled already.)\n";
}
} else {
# Otherwise it's a syntax error
$self->whine( $para->[1]{'start_line'},
"Invalid =encoding syntax: $content"
);
}
return;
}
#~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`~`
{
my $m = -321; # magic line number
sub _gen_errata {
my $self = $_[0];
# Return 0 or more fake-o paragraphs explaining the accumulated
# errors on this document.
return() unless $self->{'errata'} and keys %{$self->{'errata'}};
my @out;
foreach my $line (sort {$a <=> $b} keys %{$self->{'errata'}}) {
push @out,
['=item', {'start_line' => $m}, "Around line $line:"],
map( ['~Para', {'start_line' => $m, '~cooked' => 1},
#['~Top', {'start_line' => $m},
$_
#]
],
@{$self->{'errata'}{$line}}
)
;
}
# TODO: report of unknown entities? unrenderable characters?
unshift @out,
['=head1', {'start_line' => $m, 'errata' => 1}, 'POD ERRORS'],
['~Para', {'start_line' => $m, '~cooked' => 1, 'errata' => 1},
"Hey! ",
['B', {},
'The above document had some coding errors, which are explained below:'
]
],
['=over', {'start_line' => $m, 'errata' => 1}, ''],
;
push @out,
['=back', {'start_line' => $m, 'errata' => 1}, ''],
;
DEBUG and print STDERR "\n<<\n", pretty(\@out), "\n>>\n\n";
return @out;
}
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
##############################################################################
##
## stop reading now stop reading now stop reading now stop reading now stop
##
## HERE IT BECOMES REALLY SCARY
##
## stop reading now stop reading now stop reading now stop reading now stop
##
##############################################################################
sub _ponder_paragraph_buffer {
# Para-token types as found in the buffer.
# ~Verbatim, ~Para, ~end, =head1..4, =for, =begin, =end,
# =over, =back, =item
# and the null =pod (to be complained about if over one line)
#
# "~data" paragraphs are something we generate at this level, depending on
# a currently open =over region
# Events fired: Begin and end for:
# directivename (like head1 .. head4), item, extend,
# for (from =begin...=end, =for),
# over-bullet, over-number, over-text, over-block,
# item-bullet, item-number, item-text,
# Document,
# Data, Para, Verbatim
# B, C, longdirname (TODO -- wha?), etc. for all directives
#
my $self = $_[0];
my $paras;
return unless @{$paras = $self->{'paras'}};
my $curr_open = ($self->{'curr_open'} ||= []);
my $scratch;
DEBUG > 10 and print STDERR "# Paragraph buffer: <<", pretty($paras), ">>\n";
# We have something in our buffer. So apparently the document has started.
unless($self->{'doc_has_started'}) {
$self->{'doc_has_started'} = 1;
my $starting_contentless;
$starting_contentless =
(
!@$curr_open
and @$paras and ! grep $_->[0] ne '~end', @$paras
# i.e., if the paras is all ~ends
)
;
DEBUG and print STDERR "# Starting ",
$starting_contentless ? 'contentless' : 'contentful',
" document\n"
;
$self->_handle_element_start(
($scratch = 'Document'),
{
'start_line' => $paras->[0][1]{'start_line'},
$starting_contentless ? ( 'contentless' => 1 ) : (),
},
);
}
my($para, $para_type);
while(@$paras) {
last if @$paras == 1 and
( $paras->[0][0] eq '=over' or $paras->[0][0] eq '~Verbatim'
or $paras->[0][0] eq '=item' )
;
# Those're the three kinds of paragraphs that require lookahead.
# Actually, an "=item Foo" inside an <over type=text> region
# and any =item inside an <over type=block> region (rare)
# don't require any lookahead, but all others (bullets
# and numbers) do.
# TODO: whinge about many kinds of directives in non-resolving =for regions?
# TODO: many? like what? =head1 etc?
$para = shift @$paras;
$para_type = $para->[0];
DEBUG > 1 and print STDERR "Pondering a $para_type paragraph, given the stack: (",
$self->_dump_curr_open(), ")\n";
if($para_type eq '=for') {
next if $self->_ponder_for($para,$curr_open,$paras);
} elsif($para_type eq '=begin') {
next if $self->_ponder_begin($para,$curr_open,$paras);
} elsif($para_type eq '=end') {
next if $self->_ponder_end($para,$curr_open,$paras);
} elsif($para_type eq '~end') { # The virtual end-document signal
next if $self->_ponder_doc_end($para,$curr_open,$paras);
}
# ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
#~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
if(grep $_->[1]{'~ignore'}, @$curr_open) {
DEBUG > 1 and
print STDERR "Skipping $para_type paragraph because in ignore mode.\n";
next;
}
#~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
# ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
if($para_type eq '=pod') {
$self->_ponder_pod($para,$curr_open,$paras);
} elsif($para_type eq '=over') {
next if $self->_ponder_over($para,$curr_open,$paras);
} elsif($para_type eq '=back') {
next if $self->_ponder_back($para,$curr_open,$paras);
} else {
# All non-magical codes!!!
# Here we start using $para_type for our own twisted purposes, to
# mean how it should get treated, not as what the element name
# should be.
DEBUG > 1 and print STDERR "Pondering non-magical $para_type\n";
my $i;
# Enforce some =headN discipline
if($para_type =~ m/^=head\d$/s
and ! $self->{'accept_heads_anywhere'}
and @$curr_open
and $curr_open->[-1][0] eq '=over'
) {
DEBUG > 2 and print STDERR "'=$para_type' inside an '=over'!\n";
$self->whine(
$para->[1]{'start_line'},
"You forgot a '=back' before '$para_type'"
);
unshift @$paras, ['=back', {}, ''], $para; # close the =over
next;
}
if($para_type eq '=item') {
my $over;
unless(@$curr_open and
$over = (grep { $_->[0] eq '=over' } @$curr_open)[-1]) {
$self->whine(
$para->[1]{'start_line'},
"'=item' outside of any '=over'"
);
unshift @$paras,
['=over', {'start_line' => $para->[1]{'start_line'}}, ''],
$para
;
next;
}
my $over_type = $over->[1]{'~type'};
if(!$over_type) {
# Shouldn't happen1
die "Typeless over in stack, starting at line "
. $over->[1]{'start_line'};
} elsif($over_type eq 'block') {
unless($curr_open->[-1][1]{'~bitched_about'}) {
$curr_open->[-1][1]{'~bitched_about'} = 1;
$self->whine(
$curr_open->[-1][1]{'start_line'},
"You can't have =items (as at line "
. $para->[1]{'start_line'}
. ") unless the first thing after the =over is an =item"
);
}
# Just turn it into a paragraph and reconsider it
$para->[0] = '~Para';
unshift @$paras, $para;
next;
} elsif($over_type eq 'text') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
if($item_type eq 'text') {
# Nothing special needs doing for 'text'
} elsif($item_type eq 'number' or $item_type eq 'bullet') {
$self->whine(
$para->[1]{'start_line'},
"Expected text after =item, not a $item_type"
);
# Undo our clobbering:
push @$para, $para->[1]{'~orig_content'};
delete $para->[1]{'number'};
# Only a PROPER item-number element is allowed
# to have a number attribute.
} else {
die "Unhandled item type $item_type"; # should never happen
}
# =item-text thingies don't need any assimilation, it seems.
} elsif($over_type eq 'number') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
my $expected_value = ++ $curr_open->[-1][1]{'~counter'};
if($item_type eq 'bullet') {
# Hm, it's not numeric. Correct for this.
$para->[1]{'number'} = $expected_value;
$self->whine(
$para->[1]{'start_line'},
"Expected '=item $expected_value'"
);
push @$para, $para->[1]{'~orig_content'};
# restore the bullet, blocking the assimilation of next para
} elsif($item_type eq 'text') {
# Hm, it's not numeric. Correct for this.
$para->[1]{'number'} = $expected_value;
$self->whine(
$para->[1]{'start_line'},
"Expected '=item $expected_value'"
);
# Text content will still be there and will block next ~Para
} elsif($item_type ne 'number') {
die "Unknown item type $item_type"; # should never happen
} elsif($expected_value == $para->[1]{'number'}) {
DEBUG > 1 and print STDERR " Numeric item has the expected value of $expected_value\n";
} else {
DEBUG > 1 and print STDERR " Numeric item has ", $para->[1]{'number'},
" instead of the expected value of $expected_value\n";
$self->whine(
$para->[1]{'start_line'},
"You have '=item " . $para->[1]{'number'} .
"' instead of the expected '=item $expected_value'"
);
$para->[1]{'number'} = $expected_value; # correcting!!
}
if(@$para == 2) {
# For the cases where we /didn't/ push to @$para
if($paras->[0][0] eq '~Para') {
DEBUG and print STDERR "Assimilating following ~Para content into $over_type item\n";
push @$para, splice @{shift @$paras},2;
} else {
DEBUG and print STDERR "Can't assimilate following ", $paras->[0][0], "\n";
push @$para, ''; # Just so it's not contentless
}
}
} elsif($over_type eq 'bullet') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
if($item_type eq 'bullet') {
# as expected!
if( $para->[1]{'~_freaky_para_hack'} ) {
DEBUG and print STDERR "Accomodating '=item * Foo' tolerance hack.\n";
push @$para, delete $para->[1]{'~_freaky_para_hack'};
}
} elsif($item_type eq 'number') {
$self->whine(
$para->[1]{'start_line'},
"Expected '=item *'"
);
push @$para, $para->[1]{'~orig_content'};
# and block assimilation of the next paragraph
delete $para->[1]{'number'};
# Only a PROPER item-number element is allowed
# to have a number attribute.
} elsif($item_type eq 'text') {
$self->whine(
$para->[1]{'start_line'},
"Expected '=item *'"
);
# But doesn't need processing. But it'll block assimilation
# of the next para.
} else {
die "Unhandled item type $item_type"; # should never happen
}
if(@$para == 2) {
# For the cases where we /didn't/ push to @$para
if($paras->[0][0] eq '~Para') {
DEBUG and print STDERR "Assimilating following ~Para content into $over_type item\n";
push @$para, splice @{shift @$paras},2;
} else {
DEBUG and print STDERR "Can't assimilate following ", $paras->[0][0], "\n";
push @$para, ''; # Just so it's not contentless
}
}
} else {
die "Unhandled =over type \"$over_type\"?";
# Shouldn't happen!
}
$para_type = 'Plain';
$para->[0] .= '-' . $over_type;
# Whew. Now fall thru and process it.
} elsif($para_type eq '=extend') {
# Well, might as well implement it here.
$self->_ponder_extend($para);
next; # and skip
} elsif($para_type eq '=encoding') {
# Not actually acted on here, but we catch errors here.
$self->_handle_encoding_second_level($para);
next unless $self->keep_encoding_directive;
$para_type = 'Plain';
} elsif($para_type eq '~Verbatim') {
$para->[0] = 'Verbatim';
$para_type = '?Verbatim';
} elsif($para_type eq '~Para') {
$para->[0] = 'Para';
$para_type = '?Plain';
} elsif($para_type eq 'Data') {
$para->[0] = 'Data';
$para_type = '?Data';
} elsif( $para_type =~ s/^=//s
and defined( $para_type = $self->{'accept_directives'}{$para_type} )
) {
DEBUG > 1 and print STDERR " Pondering known directive ${$para}[0] as $para_type\n";
} else {
# An unknown directive!
DEBUG > 1 and printf STDERR "Unhandled directive %s (Handled: %s)\n",
$para->[0], join(' ', sort keys %{$self->{'accept_directives'}} )
;
$self->whine(
$para->[1]{'start_line'},
"Unknown directive: $para->[0]"
);
# And maybe treat it as text instead of just letting it go?
next;
}
if($para_type =~ s/^\?//s) {
if(! @$curr_open) { # usual case
DEBUG and print STDERR "Treating $para_type paragraph as such because stack is empty.\n";
} else {
my @fors = grep $_->[0] eq '=for', @$curr_open;
DEBUG > 1 and print STDERR "Containing fors: ",
join(',', map $_->[1]{'target'}, @fors), "\n";
if(! @fors) {
DEBUG and print STDERR "Treating $para_type paragraph as such because stack has no =for's\n";
#} elsif(grep $_->[1]{'~resolve'}, @fors) {
#} elsif(not grep !$_->[1]{'~resolve'}, @fors) {
} elsif( $fors[-1][1]{'~resolve'} ) {
# Look to the immediately containing for
if($para_type eq 'Data') {
DEBUG and print STDERR "Treating Data paragraph as Plain/Verbatim because the containing =for ($fors[-1][1]{'target'}) is a resolver\n";
$para->[0] = 'Para';
$para_type = 'Plain';
} else {
DEBUG and print STDERR "Treating $para_type paragraph as such because the containing =for ($fors[-1][1]{'target'}) is a resolver\n";
}
} else {
DEBUG and print STDERR "Treating $para_type paragraph as Data because the containing =for ($fors[-1][1]{'target'}) is a non-resolver\n";
$para->[0] = $para_type = 'Data';
}
}
}
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
if($para_type eq 'Plain') {
$self->_ponder_Plain($para);
} elsif($para_type eq 'Verbatim') {
$self->_ponder_Verbatim($para);
} elsif($para_type eq 'Data') {
$self->_ponder_Data($para);
} else {
die "\$para type is $para_type -- how did that happen?";
# Shouldn't happen.
}
#~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
$para->[0] =~ s/^[~=]//s;
DEBUG and print STDERR "\n", pretty($para), "\n";
# traverse the treelet (which might well be just one string scalar)
$self->{'content_seen'} ||= 1;
$self->_traverse_treelet_bit(@$para);
}
}
return;
}
###########################################################################
# The sub-ponderers...
sub _ponder_for {
my ($self,$para,$curr_open,$paras) = @_;
# Fake it out as a begin/end
my $target;
if(grep $_->[1]{'~ignore'}, @$curr_open) {
DEBUG > 1 and print STDERR "Ignoring ignorable =for\n";
return 1;
}
for(my $i = 2; $i < @$para; ++$i) {
if($para->[$i] =~ s/^\s*(\S+)\s*//s) {
$target = $1;
last;
}
}
unless(defined $target) {
$self->whine(
$para->[1]{'start_line'},
"=for without a target?"
);
return 1;
}
DEBUG > 1 and
print STDERR "Faking out a =for $target as a =begin $target / =end $target\n";
$para->[0] = 'Data';
unshift @$paras,
['=begin',
{'start_line' => $para->[1]{'start_line'}, '~really' => '=for'},
$target,
],
$para,
['=end',
{'start_line' => $para->[1]{'start_line'}, '~really' => '=for'},
$target,
],
;
return 1;
}
sub _ponder_begin {
my ($self,$para,$curr_open,$paras) = @_;
my $content = join ' ', splice @$para, 2;
$content =~ s/^\s+//s;
$content =~ s/\s+$//s;
unless(length($content)) {
$self->whine(
$para->[1]{'start_line'},
"=begin without a target?"
);
DEBUG and print STDERR "Ignoring targetless =begin\n";
return 1;
}
my ($target, $title) = $content =~ m/^(\S+)\s*(.*)$/;
$para->[1]{'title'} = $title if ($title);
$para->[1]{'target'} = $target; # without any ':'
$content = $target; # strip off the title
$content =~ s/^:!/!:/s;
my $neg; # whether this is a negation-match
$neg = 1 if $content =~ s/^!//s;
my $to_resolve; # whether to process formatting codes
$to_resolve = 1 if $content =~ s/^://s;
my $dont_ignore; # whether this target matches us
foreach my $target_name (
split(',', $content, -1),
$neg ? () : '*'
) {
DEBUG > 2 and
print STDERR " Considering whether =begin $content matches $target_name\n";
next unless $self->{'accept_targets'}{$target_name};
DEBUG > 2 and
print STDERR " It DOES match the acceptable target $target_name!\n";
$to_resolve = 1
if $self->{'accept_targets'}{$target_name} eq 'force_resolve';
$dont_ignore = 1;
$para->[1]{'target_matching'} = $target_name;
last; # stop looking at other target names
}
if($neg) {
if( $dont_ignore ) {
$dont_ignore = '';
delete $para->[1]{'target_matching'};
DEBUG > 2 and print STDERR " But the leading ! means that this is a NON-match!\n";
} else {
$dont_ignore = 1;
$para->[1]{'target_matching'} = '!';
DEBUG > 2 and print STDERR " But the leading ! means that this IS a match!\n";
}
}
$para->[0] = '=for'; # Just what we happen to call these, internally
$para->[1]{'~really'} ||= '=begin';
$para->[1]{'~ignore'} = (! $dont_ignore) || 0;
$para->[1]{'~resolve'} = $to_resolve || 0;
DEBUG > 1 and print STDERR " Making note to ", $dont_ignore ? 'not ' : '',
"ignore contents of this region\n";
DEBUG > 1 and $dont_ignore and print STDERR " Making note to treat contents as ",
($to_resolve ? 'verbatim/plain' : 'data'), " paragraphs\n";
DEBUG > 1 and print STDERR " (Stack now: ", $self->_dump_curr_open(), ")\n";
push @$curr_open, $para;
if(!$dont_ignore or scalar grep $_->[1]{'~ignore'}, @$curr_open) {
DEBUG > 1 and print STDERR "Ignoring ignorable =begin\n";
} else {
$self->{'content_seen'} ||= 1;
$self->_handle_element_start((my $scratch='for'), $para->[1]);
}
return 1;
}
sub _ponder_end {
my ($self,$para,$curr_open,$paras) = @_;
my $content = join ' ', splice @$para, 2;
$content =~ s/^\s+//s;
$content =~ s/\s+$//s;
DEBUG and print STDERR "Ogling '=end $content' directive\n";
unless(length($content)) {
$self->whine(
$para->[1]{'start_line'},
"'=end' without a target?" . (
( @$curr_open and $curr_open->[-1][0] eq '=for' )
? ( " (Should be \"=end " . $curr_open->[-1][1]{'target'} . '")' )
: ''
)
);
DEBUG and print STDERR "Ignoring targetless =end\n";
return 1;
}
unless($content =~ m/^\S+$/) { # i.e., unless it's one word
$self->whine(
$para->[1]{'start_line'},
"'=end $content' is invalid. (Stack: "
. $self->_dump_curr_open() . ')'
);
DEBUG and print STDERR "Ignoring mistargetted =end $content\n";
return 1;
}
unless(@$curr_open and $curr_open->[-1][0] eq '=for') {
$self->whine(
$para->[1]{'start_line'},
"=end $content without matching =begin. (Stack: "
. $self->_dump_curr_open() . ')'
);
DEBUG and print STDERR "Ignoring mistargetted =end $content\n";
return 1;
}
unless($content eq $curr_open->[-1][1]{'target'}) {
$self->whine(
$para->[1]{'start_line'},
"=end $content doesn't match =begin "
. $curr_open->[-1][1]{'target'}
. ". (Stack: "
. $self->_dump_curr_open() . ')'
);
DEBUG and print STDERR "Ignoring mistargetted =end $content at line $para->[1]{'start_line'}\n";
return 1;
}
# Else it's okay to close...
if(grep $_->[1]{'~ignore'}, @$curr_open) {
DEBUG > 1 and print STDERR "Not firing any event for this =end $content because in an ignored region\n";
# And that may be because of this to-be-closed =for region, or some
# other one, but it doesn't matter.
} else {
$curr_open->[-1][1]{'start_line'} = $para->[1]{'start_line'};
# what's that for?
$self->{'content_seen'} ||= 1;
$self->_handle_element_end( my $scratch = 'for', $para->[1]);
}
DEBUG > 1 and print STDERR "Popping $curr_open->[-1][0] $curr_open->[-1][1]{'target'} because of =end $content\n";
pop @$curr_open;
return 1;
}
sub _ponder_doc_end {
my ($self,$para,$curr_open,$paras) = @_;
if(@$curr_open) { # Deal with things left open
DEBUG and print STDERR "Stack is nonempty at end-document: (",
$self->_dump_curr_open(), ")\n";
DEBUG > 9 and print STDERR "Stack: ", pretty($curr_open), "\n";
unshift @$paras, $self->_closers_for_all_curr_open;
# Make sure there is exactly one ~end in the parastack, at the end:
@$paras = grep $_->[0] ne '~end', @$paras;
push @$paras, $para, $para;
# We need two -- once for the next cycle where we
# generate errata, and then another to be at the end
# when that loop back around to process the errata.
return 1;
} else {
DEBUG and print STDERR "Okay, stack is empty now.\n";
}
# Try generating errata section, if applicable
unless($self->{'~tried_gen_errata'}) {
$self->{'~tried_gen_errata'} = 1;
my @extras = $self->_gen_errata();
if(@extras) {
unshift @$paras, @extras;
DEBUG and print STDERR "Generated errata... relooping...\n";
return 1; # I.e., loop around again to process these fake-o paragraphs
}
}
splice @$paras; # Well, that's that for this paragraph buffer.
DEBUG and print STDERR "Throwing end-document event.\n";
$self->_handle_element_end( my $scratch = 'Document' );
return 1; # Hasta la byebye
}
sub _ponder_pod {
my ($self,$para,$curr_open,$paras) = @_;
$self->whine(
$para->[1]{'start_line'},
"=pod directives shouldn't be over one line long! Ignoring all "
. (@$para - 2) . " lines of content"
) if @$para > 3;
# Content ignored unless 'pod_handler' is set
if (my $pod_handler = $self->{'pod_handler'}) {
my ($line_num, $line) = map $_, $para->[1]{'start_line'}, $para->[2];
$line = $line eq '' ? "=pod" : "=pod $line"; # imitate cut_handler output
$pod_handler->($line, $line_num, $self);
}
# The surrounding methods set content_seen, so let us remain consistent.
# I do not know why it was not here before -- should it not be here?
# $self->{'content_seen'} ||= 1;
return;
}
sub _ponder_over {
my ($self,$para,$curr_open,$paras) = @_;
return 1 unless @$paras;
my $list_type;
if($paras->[0][0] eq '=item') { # most common case
$list_type = $self->_get_initial_item_type($paras->[0]);
} elsif($paras->[0][0] eq '=back') {
# Ignore empty lists by default
if ($self->{'parse_empty_lists'}) {
$list_type = 'empty';
} else {
shift @$paras;
return 1;
}
} elsif($paras->[0][0] eq '~end') {
$self->whine(
$para->[1]{'start_line'},
"=over is the last thing in the document?!"
);
return 1; # But feh, ignore it.
} else {
$list_type = 'block';
}
$para->[1]{'~type'} = $list_type;
push @$curr_open, $para;
# yes, we reuse the paragraph as a stack item
my $content = join ' ', splice @$para, 2;
my $overness;
if($content =~ m/^\s*$/s) {
$para->[1]{'indent'} = 4;
} elsif($content =~ m/^\s*((?:\d*\.)?\d+)\s*$/s) {
no integer;
$para->[1]{'indent'} = $1;
if($1 == 0) {
$self->whine(
$para->[1]{'start_line'},
"Can't have a 0 in =over $content"
);
$para->[1]{'indent'} = 4;
}
} else {
$self->whine(
$para->[1]{'start_line'},
"=over should be: '=over' or '=over positive_number'"
);
$para->[1]{'indent'} = 4;
}
DEBUG > 1 and print STDERR "=over found of type $list_type\n";
$self->{'content_seen'} ||= 1;
$self->_handle_element_start((my $scratch = 'over-' . $list_type), $para->[1]);
return;
}
sub _ponder_back {
my ($self,$para,$curr_open,$paras) = @_;
# TODO: fire off </item-number> or </item-bullet> or </item-text> ??
my $content = join ' ', splice @$para, 2;
if($content =~ m/\S/) {
$self->whine(
$para->[1]{'start_line'},
"=back doesn't take any parameters, but you said =back $content"
);
}
if(@$curr_open and $curr_open->[-1][0] eq '=over') {
DEBUG > 1 and print STDERR "=back happily closes matching =over\n";
# Expected case: we're closing the most recently opened thing
#my $over = pop @$curr_open;
$self->{'content_seen'} ||= 1;
$self->_handle_element_end( my $scratch =
'over-' . ( (pop @$curr_open)->[1]{'~type'} ), $para->[1]
);
} else {
DEBUG > 1 and print STDERR "=back found without a matching =over. Stack: (",
join(', ', map $_->[0], @$curr_open), ").\n";
$self->whine(
$para->[1]{'start_line'},
'=back without =over'
);
return 1; # and ignore it
}
}
sub _ponder_item {
my ($self,$para,$curr_open,$paras) = @_;
my $over;
unless(@$curr_open and
$over = (grep { $_->[0] eq '=over' } @$curr_open)[-1]) {
$self->whine(
$para->[1]{'start_line'},
"'=item' outside of any '=over'"
);
unshift @$paras,
['=over', {'start_line' => $para->[1]{'start_line'}}, ''],
$para
;
return 1;
}
my $over_type = $over->[1]{'~type'};
if(!$over_type) {
# Shouldn't happen1
die "Typeless over in stack, starting at line "
. $over->[1]{'start_line'};
} elsif($over_type eq 'block') {
unless($curr_open->[-1][1]{'~bitched_about'}) {
$curr_open->[-1][1]{'~bitched_about'} = 1;
$self->whine(
$curr_open->[-1][1]{'start_line'},
"You can't have =items (as at line "
. $para->[1]{'start_line'}
. ") unless the first thing after the =over is an =item"
);
}
# Just turn it into a paragraph and reconsider it
$para->[0] = '~Para';
unshift @$paras, $para;
return 1;
} elsif($over_type eq 'text') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
if($item_type eq 'text') {
# Nothing special needs doing for 'text'
} elsif($item_type eq 'number' or $item_type eq 'bullet') {
$self->whine(
$para->[1]{'start_line'},
"Expected text after =item, not a $item_type"
);
# Undo our clobbering:
push @$para, $para->[1]{'~orig_content'};
delete $para->[1]{'number'};
# Only a PROPER item-number element is allowed
# to have a number attribute.
} else {
die "Unhandled item type $item_type"; # should never happen
}
# =item-text thingies don't need any assimilation, it seems.
} elsif($over_type eq 'number') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
my $expected_value = ++ $curr_open->[-1][1]{'~counter'};
if($item_type eq 'bullet') {
# Hm, it's not numeric. Correct for this.
$para->[1]{'number'} = $expected_value;
$self->whine(
$para->[1]{'start_line'},
"Expected '=item $expected_value'"
);
push @$para, $para->[1]{'~orig_content'};
# restore the bullet, blocking the assimilation of next para
} elsif($item_type eq 'text') {
# Hm, it's not numeric. Correct for this.
$para->[1]{'number'} = $expected_value;
$self->whine(
$para->[1]{'start_line'},
"Expected '=item $expected_value'"
);
# Text content will still be there and will block next ~Para
} elsif($item_type ne 'number') {
die "Unknown item type $item_type"; # should never happen
} elsif($expected_value == $para->[1]{'number'}) {
DEBUG > 1 and print STDERR " Numeric item has the expected value of $expected_value\n";
} else {
DEBUG > 1 and print STDERR " Numeric item has ", $para->[1]{'number'},
" instead of the expected value of $expected_value\n";
$self->whine(
$para->[1]{'start_line'},
"You have '=item " . $para->[1]{'number'} .
"' instead of the expected '=item $expected_value'"
);
$para->[1]{'number'} = $expected_value; # correcting!!
}
if(@$para == 2) {
# For the cases where we /didn't/ push to @$para
if($paras->[0][0] eq '~Para') {
DEBUG and print STDERR "Assimilating following ~Para content into $over_type item\n";
push @$para, splice @{shift @$paras},2;
} else {
DEBUG and print STDERR "Can't assimilate following ", $paras->[0][0], "\n";
push @$para, ''; # Just so it's not contentless
}
}
} elsif($over_type eq 'bullet') {
my $item_type = $self->_get_item_type($para);
# That kills the content of the item if it's a number or bullet.
DEBUG and print STDERR " Item is of type ", $para->[0], " under $over_type\n";
if($item_type eq 'bullet') {
# as expected!
if( $para->[1]{'~_freaky_para_hack'} ) {
DEBUG and print STDERR "Accomodating '=item * Foo' tolerance hack.\n";
push @$para, delete $para->[1]{'~_freaky_para_hack'};
}
} elsif($item_type eq 'number') {
$self->whine(
$para->[1]{'start_line'},
"Expected '=item *'"
);
push @$para, $para->[1]{'~orig_content'};
# and block assimilation of the next paragraph
delete $para->[1]{'number'};
# Only a PROPER item-number element is allowed
# to have a number attribute.
} elsif($item_type eq 'text') {
$self->whine(
$para->[1]{'start_line'},
"Expected '=item *'"
);
# But doesn't need processing. But it'll block assimilation
# of the next para.
} else {
die "Unhandled item type $item_type"; # should never happen
}
if(@$para == 2) {
# For the cases where we /didn't/ push to @$para
if($paras->[0][0] eq '~Para') {
DEBUG and print STDERR "Assimilating following ~Para content into $over_type item\n";
push @$para, splice @{shift @$paras},2;
} else {
DEBUG and print STDERR "Can't assimilate following ", $paras->[0][0], "\n";
push @$para, ''; # Just so it's not contentless
}
}
} else {
die "Unhandled =over type \"$over_type\"?";
# Shouldn't happen!
}
$para->[0] .= '-' . $over_type;
return;
}
sub _ponder_Plain {
my ($self,$para) = @_;
DEBUG and print STDERR " giving plain treatment...\n";
unless( @$para == 2 or ( @$para == 3 and $para->[2] eq '' )
or $para->[1]{'~cooked'}
) {
push @$para,
@{$self->_make_treelet(
join("\n", splice(@$para, 2)),
$para->[1]{'start_line'}
)};
}
# Empty paragraphs don't need a treelet for any reason I can see.
# And precooked paragraphs already have a treelet.
return;
}
sub _ponder_Verbatim {
my ($self,$para) = @_;
DEBUG and print STDERR " giving verbatim treatment...\n";
$para->[1]{'xml:space'} = 'preserve';
my $indent = $self->strip_verbatim_indent;
if ($indent && ref $indent eq 'CODE') {
my @shifted = (shift @{$para}, shift @{$para});
$indent = $indent->($para);
unshift @{$para}, @shifted;
}
for(my $i = 2; $i < @$para; $i++) {
foreach my $line ($para->[$i]) { # just for aliasing
# Strip indentation.
$line =~ s/^\Q$indent// if $indent
&& !($self->{accept_codes} && $self->{accept_codes}{VerbatimFormatted});
while( $line =~
# Sort of adapted from Text::Tabs -- yes, it's hardwired in that
# tabs are at every EIGHTH column. For portability, it has to be
# one setting everywhere, and 8th wins.
s/^([^\t]*)(\t+)/$1.(" " x ((length($2)<<3)-(length($1)&7)))/e
) {}
# TODO: whinge about (or otherwise treat) unindented or overlong lines
}
}
# Now the VerbatimFormatted hoodoo...
if( $self->{'accept_codes'} and
$self->{'accept_codes'}{'VerbatimFormatted'}
) {
while(@$para > 3 and $para->[-1] !~ m/\S/) { pop @$para }
# Kill any number of terminal newlines
$self->_verbatim_format($para);
} elsif ($self->{'codes_in_verbatim'}) {
push @$para,
@{$self->_make_treelet(
join("\n", splice(@$para, 2)),
$para->[1]{'start_line'}, $para->[1]{'xml:space'}
)};
$para->[-1] =~ s/\n+$//s; # Kill any number of terminal newlines
} else {
push @$para, join "\n", splice(@$para, 2) if @$para > 3;
$para->[-1] =~ s/\n+$//s; # Kill any number of terminal newlines
}
return;
}
sub _ponder_Data {
my ($self,$para) = @_;
DEBUG and print STDERR " giving data treatment...\n";
$para->[1]{'xml:space'} = 'preserve';
push @$para, join "\n", splice(@$para, 2) if @$para > 3;
return;
}
###########################################################################
sub _traverse_treelet_bit { # for use only by the routine above
my($self, $name) = splice @_,0,2;
my $scratch;
$self->_handle_element_start(($scratch=$name), shift @_);
while (@_) {
my $x = shift;
if (ref($x)) {
&_traverse_treelet_bit($self, @$x);
} else {
$x .= shift while @_ && !ref($_[0]);
$self->_handle_text($x);
}
}
$self->_handle_element_end($scratch=$name);
return;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub _closers_for_all_curr_open {
my $self = $_[0];
my @closers;
foreach my $still_open (@{ $self->{'curr_open'} || return }) {
my @copy = @$still_open;
$copy[1] = {%{ $copy[1] }};
#$copy[1]{'start_line'} = -1;
if($copy[0] eq '=for') {
$copy[0] = '=end';
} elsif($copy[0] eq '=over') {
$self->whine(
$still_open->[1]{start_line} ,
"=over without closing =back"
);
$copy[0] = '=back';
} else {
die "I don't know how to auto-close an open $copy[0] region";
}
unless( @copy > 2 ) {
push @copy, $copy[1]{'target'};
$copy[-1] = '' unless defined $copy[-1];
# since =over's don't have targets
}
$copy[1]{'fake-closer'} = 1;
DEBUG and print STDERR "Queuing up fake-o event: ", pretty(\@copy), "\n";
unshift @closers, \@copy;
}
return @closers;
}
#--------------------------------------------------------------------------
sub _verbatim_format {
my($it, $p) = @_;
my $formatting;
for(my $i = 2; $i < @$p; $i++) { # work backwards over the lines
DEBUG and print STDERR "_verbatim_format appends a newline to $i: $p->[$i]\n";
$p->[$i] .= "\n";
# Unlike with simple Verbatim blocks, we don't end up just doing
# a join("\n", ...) on the contents, so we have to append a
# newline to ever line, and then nix the last one later.
}
if( DEBUG > 4 ) {
print STDERR "<<\n";
for(my $i = $#$p; $i >= 2; $i--) { # work backwards over the lines
print STDERR "_verbatim_format $i: $p->[$i]";
}
print STDERR ">>\n";
}
for(my $i = $#$p; $i > 2; $i--) {
# work backwards over the lines, except the first (#2)
#next unless $p->[$i] =~ m{^#:([ \^\/\%]*)\n?$}s
# and $p->[$i-1] !~ m{^#:[ \^\/\%]*\n?$}s;
# look at a formatty line preceding a nonformatty one
DEBUG > 5 and print STDERR "Scrutinizing line $i: $$p[$i]\n";
if($p->[$i] =~ m{^#:([ \^\/\%]*)\n?$}s) {
DEBUG > 5 and print STDERR " It's a formatty line. ",
"Peeking at previous line ", $i-1, ": $$p[$i-1]: \n";
if( $p->[$i-1] =~ m{^#:[ \^\/\%]*\n?$}s ) {
DEBUG > 5 and print STDERR " Previous line is formatty! Skipping this one.\n";
next;
} else {
DEBUG > 5 and print STDERR " Previous line is non-formatty! Yay!\n";
}
} else {
DEBUG > 5 and print STDERR " It's not a formatty line. Ignoring\n";
next;
}
# A formatty line has to have #: in the first two columns, and uses
# "^" to mean bold, "/" to mean underline, and "%" to mean bold italic.
# Example:
# What do you want? i like pie. [or whatever]
# #:^^^^^^^^^^^^^^^^^ /////////////
DEBUG > 4 and print STDERR "_verbatim_format considers:\n<$p->[$i-1]>\n<$p->[$i]>\n";
$formatting = ' ' . $1;
$formatting =~ s/\s+$//s; # nix trailing whitespace
unless(length $formatting and $p->[$i-1] =~ m/\S/) { # no-op
splice @$p,$i,1; # remove this line
$i--; # don't consider next line
next;
}
if( length($formatting) >= length($p->[$i-1]) ) {
$formatting = substr($formatting, 0, length($p->[$i-1]) - 1) . ' ';
} else {
$formatting .= ' ' x (length($p->[$i-1]) - length($formatting));
}
# Make $formatting and the previous line be exactly the same length,
# with $formatting having a " " as the last character.
DEBUG > 4 and print STDERR "Formatting <$formatting> on <", $p->[$i-1], ">\n";
my @new_line;
while( $formatting =~ m{\G(( +)|(\^+)|(\/+)|(\%+))}g ) {
#print STDERR "Format matches $1\n";
if($2) {
#print STDERR "SKIPPING <$2>\n";
push @new_line,
substr($p->[$i-1], pos($formatting)-length($1), length($1));
} else {
#print STDERR "SNARING $+\n";
push @new_line, [
(
$3 ? 'VerbatimB' :
$4 ? 'VerbatimI' :
$5 ? 'VerbatimBI' : die("Should never get called")
), {},
substr($p->[$i-1], pos($formatting)-length($1), length($1))
];
#print STDERR "Formatting <$new_line[-1][-1]> as $new_line[-1][0]\n";
}
}
my @nixed =
splice @$p, $i-1, 2, @new_line; # replace myself and the next line
DEBUG > 10 and print STDERR "Nixed count: ", scalar(@nixed), "\n";
DEBUG > 6 and print STDERR "New version of the above line is these tokens (",
scalar(@new_line), "):",
map( ref($_)?"<@$_> ":"<$_>", @new_line ), "\n";
$i--; # So the next line we scrutinize is the line before the one
# that we just went and formatted
}
$p->[0] = 'VerbatimFormatted';
# Collapse adjacent text nodes, just for kicks.
for( my $i = 2; $i > $#$p; $i++ ) { # work forwards over the tokens except for the last
if( !ref($p->[$i]) and !ref($p->[$i + 1]) ) {
DEBUG > 5 and print STDERR "_verbatim_format merges {$p->[$i]} and {$p->[$i+1]}\n";
$p->[$i] .= splice @$p, $i+1, 1; # merge
--$i; # and back up
}
}
# Now look for the last text token, and remove the terminal newline
for( my $i = $#$p; $i >= 2; $i-- ) {
# work backwards over the tokens, even the first
if( !ref($p->[$i]) ) {
if($p->[$i] =~ s/\n$//s) {
DEBUG > 5 and print STDERR "_verbatim_format killed the terminal newline on #$i: {$p->[$i]}, after {$p->[$i-1]}\n";
} else {
DEBUG > 5 and print STDERR
"No terminal newline on #$i: {$p->[$i]}, after {$p->[$i-1]} !?\n";
}
last; # we only want the next one
}
}
return;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub _treelet_from_formatting_codes {
# Given a paragraph, returns a treelet. Full of scary tokenizing code.
# Like [ '~Top', {'start_line' => $start_line},
# "I like ",
# [ 'B', {}, "pie" ],
# "!"
# ]
my($self, $para, $start_line, $preserve_space) = @_;
my $treelet = ['~Top', {'start_line' => $start_line},];
unless ($preserve_space || $self->{'preserve_whitespace'}) {
$para =~ s/\s+/ /g; # collapse and trim all whitespace first.
$para =~ s/ $//;
$para =~ s/^ //;
}
# Only apparent problem the above code is that N<< >> turns into
# N<< >>. But then, word wrapping does that too! So don't do that!
my @stack;
my @lineage = ($treelet);
my $raw = ''; # raw content of L<> fcode before splitting/processing
# XXX 'raw' is not 100% accurate: all surrounding whitespace is condensed
# into just 1 ' '. Is this the regex's doing or 'raw's?
my $inL = 0;
DEBUG > 4 and print STDERR "Paragraph:\n$para\n\n";
# Here begins our frightening tokenizer RE. The following regex matches
# text in four main parts:
#
# * Start-codes. The first alternative matches C< or C<<, the latter
# followed by some whitespace. $1 will hold the entire start code
# (including any space following a multiple-angle-bracket delimiter),
# and $2 will hold only the additional brackets past the first in a
# multiple-bracket delimiter. length($2) + 1 will be the number of
# closing brackets we have to find.
#
# * Closing brackets. Match some amount of whitespace followed by
# multiple close brackets. The logic to see if this closes anything
# is down below. Note that in order to parse C<< >> correctly, we
# have to use look-behind (?<=\s\s), since the match of the starting
# code will have consumed the whitespace.
#
# * A single closing bracket, to close a simple code like C<>.
#
# * Something that isn't a start or end code. We have to be careful
# about accepting whitespace, since perlpodspec says that any whitespace
# before a multiple-bracket closing delimiter should be ignored.
#
while($para =~
m/\G
(?:
# Match starting codes, including the whitespace following a
# multiple-delimiter start code. $1 gets the whole start code and
# $2 gets all but one of the <s in the multiple-bracket case.
([A-Z]<(?:(<+)\s+)?)
|
# Match multiple-bracket end codes. $3 gets the whitespace that
# should be discarded before an end bracket but kept in other cases
# and $4 gets the end brackets themselves.
(\s+|(?<=\s\s))(>{2,})
|
(\s?>) # $5: simple end-codes
|
( # $6: stuff containing no start-codes or end-codes
(?:
[^A-Z\s>]
|
(?:
[A-Z](?!<)
)
|
# whitespace is ok, but we don't want to eat the whitespace before
# a multiple-bracket end code.
# NOTE: we may still have problems with e.g. S<< >>
(?:
\s(?!\s*>{2,})
)
)+
)
)
/xgo
) {
DEBUG > 4 and print STDERR "\nParagraphic tokenstack = (@stack)\n";
if(defined $1) {
if(defined $2) {
DEBUG > 3 and print STDERR "Found complex start-text code \"$1\"\n";
push @stack, length($2) + 1;
# length of the necessary complex end-code string
} else {
DEBUG > 3 and print STDERR "Found simple start-text code \"$1\"\n";
push @stack, 0; # signal that we're looking for simple
}
push @lineage, [ substr($1,0,1), {}, ]; # new node object
push @{ $lineage[-2] }, $lineage[-1];
if ('L' eq substr($1,0,1)) {
$raw = $inL ? $raw.$1 : ''; # reset raw content accumulator
$inL = 1;
} else {
$raw .= $1 if $inL;
}
} elsif(defined $4) {
DEBUG > 3 and print STDERR "Found apparent complex end-text code \"$3$4\"\n";
# This is where it gets messy...
if(! @stack) {
# We saw " >>>>" but needed nothing. This is ALL just stuff then.
DEBUG > 4 and print STDERR " But it's really just stuff.\n";
push @{ $lineage[-1] }, $3, $4;
next;
} elsif(!$stack[-1]) {
# We saw " >>>>" but needed only ">". Back pos up.
DEBUG > 4 and print STDERR " And that's more than we needed to close simple.\n";
push @{ $lineage[-1] }, $3; # That was a for-real space, too.
pos($para) = pos($para) - length($4) + 1;
} elsif($stack[-1] == length($4)) {
# We found " >>>>", and it was exactly what we needed. Commonest case.
DEBUG > 4 and print STDERR " And that's exactly what we needed to close complex.\n";
} elsif($stack[-1] < length($4)) {
# We saw " >>>>" but needed only " >>". Back pos up.
DEBUG > 4 and print STDERR " And that's more than we needed to close complex.\n";
pos($para) = pos($para) - length($4) + $stack[-1];
} else {
# We saw " >>>>" but needed " >>>>>>". So this is all just stuff!
DEBUG > 4 and print STDERR " But it's really just stuff, because we needed more.\n";
push @{ $lineage[-1] }, $3, $4;
next;
}
#print STDERR "\nHOOBOY ", scalar(@{$lineage[-1]}), "!!!\n";
push @{ $lineage[-1] }, '' if 2 == @{ $lineage[-1] };
# Keep the element from being childless
pop @stack;
pop @lineage;
unless (@stack) { # not in an L if there are no open fcodes
$inL = 0;
if (ref $lineage[-1][-1] && $lineage[-1][-1][0] eq 'L') {
$lineage[-1][-1][1]{'raw'} = $raw
}
}
$raw .= $3.$4 if $inL;
} elsif(defined $5) {
DEBUG > 3 and print STDERR "Found apparent simple end-text code \"$5\"\n";
if(@stack and ! $stack[-1]) {
# We're indeed expecting a simple end-code
DEBUG > 4 and print STDERR " It's indeed an end-code.\n";
if(length($5) == 2) { # There was a space there: " >"
push @{ $lineage[-1] }, ' ';
} elsif( 2 == @{ $lineage[-1] } ) { # Closing a childless element
push @{ $lineage[-1] }, ''; # keep it from being really childless
}
pop @stack;
pop @lineage;
} else {
DEBUG > 4 and print STDERR " It's just stuff.\n";
push @{ $lineage[-1] }, $5;
}
unless (@stack) { # not in an L if there are no open fcodes
$inL = 0;
if (ref $lineage[-1][-1] && $lineage[-1][-1][0] eq 'L') {
$lineage[-1][-1][1]{'raw'} = $raw
}
}
$raw .= $5 if $inL;
} elsif(defined $6) {
DEBUG > 3 and print STDERR "Found stuff \"$6\"\n";
push @{ $lineage[-1] }, $6;
$raw .= $6 if $inL;
# XXX does not capture multiplace whitespaces -- 'raw' ends up with
# at most 1 leading/trailing whitespace, why not all of it?
} else {
# should never ever ever ever happen
DEBUG and print STDERR "AYYAYAAAAA at line ", __LINE__, "\n";
die "SPORK 512512!";
}
}
if(@stack) { # Uhoh, some sequences weren't closed.
my $x= "...";
while(@stack) {
push @{ $lineage[-1] }, '' if 2 == @{ $lineage[-1] };
# Hmmmmm!
my $code = (pop @lineage)->[0];
my $ender_length = pop @stack;
if($ender_length) {
--$ender_length;
$x = $code . ("<" x $ender_length) . " $x " . (">" x $ender_length);
} else {
$x = $code . "<$x>";
}
}
DEBUG > 1 and print STDERR "Unterminated $x sequence\n";
$self->whine($start_line,
"Unterminated $x sequence",
);
}
return $treelet;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub text_content_of_treelet { # method: $parser->text_content_of_treelet($lol)
return stringify_lol($_[1]);
}
sub stringify_lol { # function: stringify_lol($lol)
my $string_form = '';
_stringify_lol( $_[0] => \$string_form );
return $string_form;
}
sub _stringify_lol { # the real recursor
my($lol, $to) = @_;
for(my $i = 2; $i < @$lol; ++$i) {
if( ref($lol->[$i] || '') and UNIVERSAL::isa($lol->[$i], 'ARRAY') ) {
_stringify_lol( $lol->[$i], $to); # recurse!
} else {
$$to .= $lol->[$i];
}
}
return;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
sub _dump_curr_open { # return a string representation of the stack
my $curr_open = $_[0]{'curr_open'};
return '[empty]' unless @$curr_open;
return join '; ',
map {;
($_->[0] eq '=for')
? ( ($_->[1]{'~really'} || '=over')
. ' ' . $_->[1]{'target'})
: $_->[0]
}
@$curr_open
;
}
###########################################################################
my %pretty_form = (
"\a" => '\a', # ding!
"\b" => '\b', # BS
"\e" => '\e', # ESC
"\f" => '\f', # FF
"\t" => '\t', # tab
"\cm" => '\cm',
"\cj" => '\cj',
"\n" => '\n', # probably overrides one of either \cm or \cj
'"' => '\"',
'\\' => '\\\\',
'$' => '\\$',
'@' => '\\@',
'%' => '\\%',
'#' => '\\#',
);
sub pretty { # adopted from Class::Classless
# Not the most brilliant routine, but passable.
# Don't give it a cyclic data structure!
my @stuff = @_; # copy
my $x;
my $out =
# join ",\n" .
join ", ",
map {;
if(!defined($_)) {
"undef";
} elsif(ref($_) eq 'ARRAY' or ref($_) eq 'Pod::Simple::LinkSection') {
$x = "[ " . pretty(@$_) . " ]" ;
$x;
} elsif(ref($_) eq 'SCALAR') {
$x = "\\" . pretty($$_) ;
$x;
} elsif(ref($_) eq 'HASH') {
my $hr = $_;
$x = "{" . join(", ",
map(pretty($_) . '=>' . pretty($hr->{$_}),
sort keys %$hr ) ) . "}" ;
$x;
} elsif(!length($_)) { q{''} # empty string
} elsif(
$_ eq '0' # very common case
or(
m/^-?(?:[123456789]\d*|0)(?:\.\d+)?$/s
and $_ ne '-0' # the strange case that RE lets thru
)
) { $_;
} else {
# Yes, explicitly name every character desired. There are shorcuts one
# could make, but I (Karl Williamson) was afraid that some Perl
# releases would have bugs in some of them. For example [A-Z] works
# even on EBCDIC platforms to match exactly the 26 uppercase English
# letters, but I don't know if it has always worked without bugs. It
# seemed safest just to list the characters.
# s<([^\x20\x21\x23\x27-\x3F\x41-\x5B\x5D-\x7E])>
s<([^ !#'()*+,\-./0123456789:;\<=\>?ABCDEFGHIJKLMNOPQRSTUVWXYZ\[\]^_`abcdefghijklmnopqrstuvwxyz{|}~])>
<$pretty_form{$1} || '\\x{'.sprintf("%x", ord($1)).'}'>eg;
#<$pretty_form{$1} || '\\x'.(unpack("H2",$1))>eg;
qq{"$_"};
}
} @stuff;
# $out =~ s/\n */ /g if length($out) < 75;
return $out;
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
# A rather unsubtle method of blowing away all the state information
# from a parser object so it can be reused. Provided as a utility for
# backward compatibility in Pod::Man, etc. but not recommended for
# general use.
sub reinit {
my $self = shift;
foreach (qw(source_dead source_filename doc_has_started
start_of_pod_block content_seen last_was_blank paras curr_open
line_count pod_para_count in_pod ~tried_gen_errata all_errata errata errors_seen
Title)) {
delete $self->{$_};
}
}
#@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
1;
|