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Direktori : /usr/share/perl/5.38.2/Pod/ |
Current File : //usr/share/perl/5.38.2/Pod/Simple.pm |
require 5; package Pod::Simple; use strict; use Carp (); BEGIN { *DEBUG = sub () {0} unless defined &DEBUG } use integer; use Pod::Escapes 1.04 (); use Pod::Simple::LinkSection (); use Pod::Simple::BlackBox (); use Pod::Simple::TiedOutFH; #use utf8; use vars qw( $VERSION @ISA @Known_formatting_codes @Known_directives %Known_formatting_codes %Known_directives $NL ); @ISA = ('Pod::Simple::BlackBox'); $VERSION = '3.43'; @Known_formatting_codes = qw(I B C L E F S X Z); %Known_formatting_codes = map(($_=>1), @Known_formatting_codes); @Known_directives = qw(head1 head2 head3 head4 head5 head6 item over back); %Known_directives = map(($_=>'Plain'), @Known_directives); $NL = $/ unless defined $NL; #----------------------------------------------------------------------------- # Set up some constants: BEGIN { if(defined &ASCII) { } elsif(chr(65) eq 'A') { *ASCII = sub () {1} } else { *ASCII = sub () {''} } unless(defined &MANY_LINES) { *MANY_LINES = sub () {20} } DEBUG > 4 and print STDERR "MANY_LINES is ", MANY_LINES(), "\n"; unless(MANY_LINES() >= 1) { die "MANY_LINES is too small (", MANY_LINES(), ")!\nAborting"; } if(defined &UNICODE) { } elsif($] >= 5.008) { *UNICODE = sub() {1} } else { *UNICODE = sub() {''} } } if(DEBUG > 2) { print STDERR "# We are ", ASCII ? '' : 'not ', "in ASCII-land\n"; print STDERR "# We are under a Unicode-safe Perl.\n"; } # The NO BREAK SPACE and SOFT HYHPEN are used in several submodules. if ($] ge 5.007_003) { # On sufficiently modern Perls we can handle any # character set $Pod::Simple::nbsp = chr utf8::unicode_to_native(0xA0); $Pod::Simple::shy = chr utf8::unicode_to_native(0xAD); } elsif (Pod::Simple::ASCII) { # Hard code ASCII early Perl $Pod::Simple::nbsp = "\xA0"; $Pod::Simple::shy = "\xAD"; } else { # EBCDIC on early Perl. We know what the values are for the code # pages supported then. $Pod::Simple::nbsp = "\x41"; $Pod::Simple::shy = "\xCA"; } # Design note: # This is a parser for Pod. It is not a parser for the set of Pod-like # languages which happens to contain Pod -- it is just for Pod, plus possibly # some extensions. # @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ #@ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ __PACKAGE__->_accessorize( '_output_is_for_JustPod', # For use only by Pod::Simple::JustPod, # If non-zero, don't expand Z<> E<> S<> L<>, # and count how many brackets in format codes 'nbsp_for_S', # Whether to map S<...>'s to \xA0 characters 'source_filename', # Filename of the source, for use in warnings 'source_dead', # Whether to consider this parser's source dead 'output_fh', # The filehandle we're writing to, if applicable. # Used only in some derived classes. 'hide_line_numbers', # For some dumping subclasses: whether to pointedly # suppress the start_line attribute 'line_count', # the current line number 'pod_para_count', # count of pod paragraphs seen so far 'no_whining', # whether to suppress whining 'no_errata_section', # whether to suppress the errata section 'complain_stderr', # whether to complain to stderr 'doc_has_started', # whether we've fired the open-Document event yet 'bare_output', # For some subclasses: whether to prepend # header-code and postpend footer-code 'keep_encoding_directive', # whether to emit =encoding 'nix_X_codes', # whether to ignore X<...> codes 'merge_text', # whether to avoid breaking a single piece of # text up into several events 'preserve_whitespace', # whether to try to keep whitespace as-is 'strip_verbatim_indent', # What indent to strip from verbatim 'expand_verbatim_tabs', # 0: preserve tabs in verbatim blocks # n: expand tabs to stops every n columns 'parse_characters', # Whether parser should expect chars rather than octets 'content_seen', # whether we've seen any real Pod content 'errors_seen', # TODO: document. whether we've seen any errors (fatal or not) 'codes_in_verbatim', # for PseudoPod extensions 'code_handler', # coderef to call when a code (non-pod) line is seen 'cut_handler', # ... when a =cut line is seen 'pod_handler', # ... when a =pod line is seen 'whiteline_handler', # ... when a line with only whitespace is seen #Called like: # $code_handler->($line, $self->{'line_count'}, $self) if $code_handler; # $cut_handler->($line, $self->{'line_count'}, $self) if $cut_handler; # $pod_handler->($line, $self->{'line_count'}, $self) if $pod_handler; # $wl_handler->($line, $self->{'line_count'}, $self) if $wl_handler; 'parse_empty_lists', # whether to acknowledge empty =over/=back blocks 'raw_mode', # to report entire raw lines instead of Pod elements ); #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub any_errata_seen { # good for using as an exit() value... return shift->{'errors_seen'} || 0; } sub errata_seen { return shift->{'all_errata'} || {}; } # Returns the encoding only if it was recognized as being handled and set sub detected_encoding { return shift->{'detected_encoding'}; } sub encoding { my $this = shift; return $this->{'encoding'} unless @_; # GET. $this->_handle_encoding_line("=encoding $_[0]"); if ($this->{'_processed_encoding'}) { delete $this->{'_processed_encoding'}; if(! $this->{'encoding_command_statuses'} ) { DEBUG > 2 and print STDERR " CRAZY ERROR: encoding wasn't really handled?!\n"; } elsif( $this->{'encoding_command_statuses'}[-1] ) { $this->scream( "=encoding $_[0]", sprintf "Couldn't do %s: %s", $this->{'encoding_command_reqs' }[-1], $this->{'encoding_command_statuses'}[-1], ); } else { DEBUG > 2 and print STDERR " (encoding successfully handled.)\n"; } return $this->{'encoding'}; } else { return undef; } } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ # Pull in some functions that, for some reason, I expect to see here too: BEGIN { *pretty = \&Pod::Simple::BlackBox::pretty; *stringify_lol = \&Pod::Simple::BlackBox::stringify_lol; *my_qr = \&Pod::Simple::BlackBox::my_qr; } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub version_report { my $class = ref($_[0]) || $_[0]; if($class eq __PACKAGE__) { return "$class $VERSION"; } else { my $v = $class->VERSION; return "$class $v (" . __PACKAGE__ . " $VERSION)"; } } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ #sub curr_open { # read-only list accessor # return @{ $_[0]{'curr_open'} || return() }; #} #sub _curr_open_listref { $_[0]{'curr_open'} ||= [] } sub output_string { # Works by faking out output_fh. Simplifies our code. # my $this = shift; return $this->{'output_string'} unless @_; # GET. my $x = (defined($_[0]) and ref($_[0])) ? $_[0] : \( $_[0] ); $$x = '' unless defined $$x; DEBUG > 4 and print STDERR "# Output string set to $x ($$x)\n"; $this->{'output_fh'} = Pod::Simple::TiedOutFH->handle_on($_[0]); return $this->{'output_string'} = $_[0]; #${ ${ $this->{'output_fh'} } }; } sub abandon_output_string { $_[0]->abandon_output_fh; delete $_[0]{'output_string'} } sub abandon_output_fh { $_[0]->output_fh(undef) } # These don't delete the string or close the FH -- they just delete our # references to it/them. # TODO: document these #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub new { # takes no parameters my $class = ref($_[0]) || $_[0]; #Carp::croak(__PACKAGE__ . " is a virtual base class -- see perldoc " # . __PACKAGE__ ); my $obj = bless { 'accept_codes' => { map( ($_=>$_), @Known_formatting_codes ) }, 'accept_directives' => { %Known_directives }, 'accept_targets' => {}, }, $class; $obj->expand_verbatim_tabs(8); return $obj; } # TODO: an option for whether to interpolate E<...>'s, or just resolve to codes. #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub _handle_element_start { # OVERRIDE IN DERIVED CLASS my($self, $element_name, $attr_hash_r) = @_; return; } sub _handle_element_end { # OVERRIDE IN DERIVED CLASS my($self, $element_name) = @_; return; } sub _handle_text { # OVERRIDE IN DERIVED CLASS my($self, $text) = @_; return; } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ # # And now directives (not targets) sub accept_directive_as_verbatim { shift->_accept_directives('Verbatim', @_) } sub accept_directive_as_data { shift->_accept_directives('Data', @_) } sub accept_directive_as_processed { shift->_accept_directives('Plain', @_) } sub _accept_directives { my($this, $type) = splice @_,0,2; foreach my $d (@_) { next unless defined $d and length $d; Carp::croak "\"$d\" isn't a valid directive name" unless $d =~ m/^[a-zA-Z][a-zA-Z0-9]*$/s; Carp::croak "\"$d\" is already a reserved Pod directive name" if exists $Known_directives{$d}; $this->{'accept_directives'}{$d} = $type; DEBUG > 2 and print STDERR "Learning to accept \"=$d\" as directive of type $type\n"; } DEBUG > 6 and print STDERR "$this\'s accept_directives : ", pretty($this->{'accept_directives'}), "\n"; return sort keys %{ $this->{'accept_directives'} } if wantarray; return; } #-------------------------------------------------------------------------- # TODO: document these: sub unaccept_directive { shift->unaccept_directives(@_) }; sub unaccept_directives { my $this = shift; foreach my $d (@_) { next unless defined $d and length $d; Carp::croak "\"$d\" isn't a valid directive name" unless $d =~ m/^[a-zA-Z][a-zA-Z0-9]*$/s; Carp::croak "But you must accept \"$d\" directives -- it's a builtin!" if exists $Known_directives{$d}; delete $this->{'accept_directives'}{$d}; DEBUG > 2 and print STDERR "OK, won't accept \"=$d\" as directive.\n"; } return sort keys %{ $this->{'accept_directives'} } if wantarray; return } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ # # And now targets (not directives) sub accept_target { shift->accept_targets(@_) } # alias sub accept_target_as_text { shift->accept_targets_as_text(@_) } # alias sub accept_targets { shift->_accept_targets('1', @_) } sub accept_targets_as_text { shift->_accept_targets('force_resolve', @_) } # forces them to be processed, even when there's no ":". sub _accept_targets { my($this, $type) = splice @_,0,2; foreach my $t (@_) { next unless defined $t and length $t; # TODO: enforce some limitations on what a target name can be? $this->{'accept_targets'}{$t} = $type; DEBUG > 2 and print STDERR "Learning to accept \"$t\" as target of type $type\n"; } return sort keys %{ $this->{'accept_targets'} } if wantarray; return; } #-------------------------------------------------------------------------- sub unaccept_target { shift->unaccept_targets(@_) } sub unaccept_targets { my $this = shift; foreach my $t (@_) { next unless defined $t and length $t; # TODO: enforce some limitations on what a target name can be? delete $this->{'accept_targets'}{$t}; DEBUG > 2 and print STDERR "OK, won't accept \"$t\" as target.\n"; } return sort keys %{ $this->{'accept_targets'} } if wantarray; return; } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ # # And now codes (not targets or directives) # XXX Probably it is an error that the digit '9' is excluded from these re's. # Broken for early Perls on EBCDIC my $xml_name_re = my_qr('[^-.0-8:A-Z_a-z[:^ascii:]]', '9'); $xml_name_re = qr/[\x00-\x2C\x2F\x39\x3B-\x40\x5B-\x5E\x60\x7B-\x7F]/ unless $xml_name_re; sub accept_code { shift->accept_codes(@_) } # alias sub accept_codes { # Add some codes my $this = shift; foreach my $new_code (@_) { next unless defined $new_code and length $new_code; # A good-enough check that it's good as an XML Name symbol: Carp::croak "\"$new_code\" isn't a valid element name" if $new_code =~ $xml_name_re # Characters under 0x80 that aren't legal in an XML Name. or $new_code =~ m/^[-\.0-9]/s or $new_code =~ m/:[-\.0-9]/s; # The legal under-0x80 Name characters that # an XML Name still can't start with. $this->{'accept_codes'}{$new_code} = $new_code; # Yes, map to itself -- just so that when we # see "=extend W [whatever] thatelementname", we say that W maps # to whatever $this->{accept_codes}{thatelementname} is, # i.e., "thatelementname". Then when we go re-mapping, # a "W" in the treelet turns into "thatelementname". We only # remap once. # If we say we accept "W", then a "W" in the treelet simply turns # into "W". } return; } #-------------------------------------------------------------------------- sub unaccept_code { shift->unaccept_codes(@_) } sub unaccept_codes { # remove some codes my $this = shift; foreach my $new_code (@_) { next unless defined $new_code and length $new_code; # A good-enough check that it's good as an XML Name symbol: Carp::croak "\"$new_code\" isn't a valid element name" if $new_code =~ $xml_name_re # Characters under 0x80 that aren't legal in an XML Name. or $new_code =~ m/^[-\.0-9]/s or $new_code =~ m/:[-\.0-9]/s; # The legal under-0x80 Name characters that # an XML Name still can't start with. Carp::croak "But you must accept \"$new_code\" codes -- it's a builtin!" if grep $new_code eq $_, @Known_formatting_codes; delete $this->{'accept_codes'}{$new_code}; DEBUG > 2 and print STDERR "OK, won't accept the code $new_code<...>.\n"; } return; } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub parse_string_document { my $self = shift; my @lines; foreach my $line_group (@_) { next unless defined $line_group and length $line_group; pos($line_group) = 0; while($line_group =~ m/([^\n\r]*)(\r?\n?)/g # supports \r, \n ,\r\n #m/([^\n\r]*)((?:\r?\n)?)/g ) { #print(">> $1\n"), $self->parse_lines($1) if length($1) or length($2) or pos($line_group) != length($line_group); # I.e., unless it's a zero-length "empty line" at the very # end of "foo\nbar\n" (i.e., between the \n and the EOS). } } $self->parse_lines(undef); # to signal EOF return $self; } sub _init_fh_source { my($self, $source) = @_; #DEBUG > 1 and print STDERR "Declaring $source as :raw for starters\n"; #$self->_apply_binmode($source, ':raw'); #binmode($source, ":raw"); return; } #:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:. # sub parse_file { my($self, $source) = (@_); if(!defined $source) { Carp::croak("Can't use empty-string as a source for parse_file"); } elsif(ref(\$source) eq 'GLOB') { $self->{'source_filename'} = '' . ($source); } elsif(ref $source) { $self->{'source_filename'} = '' . ($source); } elsif(!length $source) { Carp::croak("Can't use empty-string as a source for parse_file"); } else { { local *PODSOURCE; open(PODSOURCE, "<$source") || Carp::croak("Can't open $source: $!"); $self->{'source_filename'} = $source; $source = *PODSOURCE{IO}; } $self->_init_fh_source($source); } # By here, $source is a FH. $self->{'source_fh'} = $source; my($i, @lines); until( $self->{'source_dead'} ) { splice @lines; for($i = MANY_LINES; $i--;) { # read those many lines at a time local $/ = $NL; push @lines, scalar(<$source>); # readline last unless defined $lines[-1]; # but pass thru the undef, which will set source_dead to true } my $at_eof = ! $lines[-1]; # keep track of the undef pop @lines if $at_eof; # silence warnings # be eol agnostic s/\r\n?/\n/g for @lines; # make sure there are only one line elements for parse_lines @lines = split(/(?<=\n)/, join('', @lines)); # push the undef back after popping it to set source_dead to true push @lines, undef if $at_eof; $self->parse_lines(@lines); } delete($self->{'source_fh'}); # so it can be GC'd return $self; } #:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:. sub parse_from_file { # An emulation of Pod::Parser's interface, for the sake of Perldoc. # Basically just a wrapper around parse_file. my($self, $source, $to) = @_; $self = $self->new unless ref($self); # so we tolerate being a class method if(!defined $source) { $source = *STDIN{IO} } elsif(ref(\$source) eq 'GLOB') { # stet } elsif(ref($source) ) { # stet } elsif(!length $source or $source eq '-' or $source =~ m/^<&(?:STDIN|0)$/i ) { $source = *STDIN{IO}; } if(!defined $to) { $self->output_fh( *STDOUT{IO} ); } elsif(ref(\$to) eq 'GLOB') { $self->output_fh( $to ); } elsif(ref($to)) { $self->output_fh( $to ); } elsif(!length $to or $to eq '-' or $to =~ m/^>&?(?:STDOUT|1)$/i ) { $self->output_fh( *STDOUT{IO} ); } elsif($to =~ m/^>&(?:STDERR|2)$/i) { $self->output_fh( *STDERR{IO} ); } else { require Symbol; my $out_fh = Symbol::gensym(); DEBUG and print STDERR "Write-opening to $to\n"; open($out_fh, ">$to") or Carp::croak "Can't write-open $to: $!"; binmode($out_fh) if $self->can('write_with_binmode') and $self->write_with_binmode; $self->output_fh($out_fh); } return $self->parse_file($source); } #----------------------------------------------------------------------------- sub whine { #my($self,$line,$complaint) = @_; my $self = shift(@_); ++$self->{'errors_seen'}; if($self->{'no_whining'}) { DEBUG > 9 and print STDERR "Discarding complaint (at line $_[0]) $_[1]\n because no_whining is on.\n"; return; } push @{$self->{'all_errata'}{$_[0]}}, $_[1]; return $self->_complain_warn(@_) if $self->{'complain_stderr'}; return $self->_complain_errata(@_); } sub scream { # like whine, but not suppressible #my($self,$line,$complaint) = @_; my $self = shift(@_); ++$self->{'errors_seen'}; push @{$self->{'all_errata'}{$_[0]}}, $_[1]; return $self->_complain_warn(@_) if $self->{'complain_stderr'}; return $self->_complain_errata(@_); } sub _complain_warn { my($self,$line,$complaint) = @_; return printf STDERR "%s around line %s: %s\n", $self->{'source_filename'} || 'Pod input', $line, $complaint; } sub _complain_errata { my($self,$line,$complaint) = @_; if( $self->{'no_errata_section'} ) { DEBUG > 9 and print STDERR "Discarding erratum (at line $line) $complaint\n because no_errata_section is on.\n"; } else { DEBUG > 9 and print STDERR "Queuing erratum (at line $line) $complaint\n"; push @{$self->{'errata'}{$line}}, $complaint # for a report to be generated later! } return 1; } #@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@ sub _get_initial_item_type { # A hack-wrapper here for when you have like "=over\n\n=item 456\n\n" my($self, $para) = @_; return $para->[1]{'~type'} if $para->[1]{'~type'}; return $para->[1]{'~type'} = 'text' if join("\n", @{$para}[2 .. $#$para]) =~ m/^\s*(\d+)\.?\s*$/s and $1 ne '1'; # Else fall thru to the general case: return $self->_get_item_type($para); } sub _get_item_type { # mutates the item!! my($self, $para) = @_; return $para->[1]{'~type'} if $para->[1]{'~type'}; # Otherwise we haven't yet been to this node. Maybe alter it... my $content = join "\n", @{$para}[2 .. $#$para]; if($content =~ m/^\s*\*\s*$/s or $content =~ m/^\s*$/s) { # Like: "=item *", "=item * ", "=item" splice @$para, 2; # so it ends up just being ['=item', { attrhash } ] $para->[1]{'~orig_content'} = $content; return $para->[1]{'~type'} = 'bullet'; } elsif($content =~ m/^\s*\*\s+(.+)/s) { # tolerance # Like: "=item * Foo bar baz"; $para->[1]{'~orig_content'} = $content; $para->[1]{'~_freaky_para_hack'} = $1; DEBUG > 2 and print STDERR " Tolerating $$para[2] as =item *\\n\\n$1\n"; splice @$para, 2; # so it ends up just being ['=item', { attrhash } ] return $para->[1]{'~type'} = 'bullet'; } elsif($content =~ m/^\s*(\d+)\.?\s*$/s) { # Like: "=item 1.", "=item 123412" $para->[1]{'~orig_content'} = $content; $para->[1]{'number'} = $1; # Yes, stores the number there! splice @$para, 2; # so it ends up just being ['=item', { attrhash } ] return $para->[1]{'~type'} = 'number'; } else { # It's anything else. return $para->[1]{'~type'} = 'text'; } } #----------------------------------------------------------------------------- sub _make_treelet { my $self = shift; # and ($para, $start_line) my $treelet; if(!@_) { return ['']; } if(ref $_[0] and ref $_[0][0] and $_[0][0][0] eq '~Top') { # Hack so we can pass in fake-o pre-cooked paragraphs: # just have the first line be a reference to a ['~Top', {}, ...] # We use this feechure in gen_errata and stuff. DEBUG and print STDERR "Applying precooked treelet hack to $_[0][0]\n"; $treelet = $_[0][0]; splice @$treelet, 0, 2; # lop the top off return $treelet; } else { $treelet = $self->_treelet_from_formatting_codes(@_); } if( ! $self->{'_output_is_for_JustPod'} # Retain these as-is for pod output && $self->_remap_sequences($treelet) ) { $self->_treat_Zs($treelet); # Might as well nix these first $self->_treat_Ls($treelet); # L has to precede E and S $self->_treat_Es($treelet); $self->_treat_Ss($treelet); # S has to come after E $self->_wrap_up($treelet); # Nix X's and merge texties } else { DEBUG and print STDERR "Formatless treelet gets fast-tracked.\n"; # Very common case! } splice @$treelet, 0, 2; # lop the top off return $treelet; } #:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:. sub _wrap_up { my($self, @stack) = @_; my $nixx = $self->{'nix_X_codes'}; my $merge = $self->{'merge_text' }; return unless $nixx or $merge; DEBUG > 2 and print STDERR "\nStarting _wrap_up traversal.\n", $merge ? (" Merge mode on\n") : (), $nixx ? (" Nix-X mode on\n") : (), ; my($i, $treelet); while($treelet = shift @stack) { DEBUG > 3 and print STDERR " Considering children of this $treelet->[0] node...\n"; for($i = 2; $i < @$treelet; ++$i) { # iterate over children DEBUG > 3 and print STDERR " Considering child at $i ", pretty($treelet->[$i]), "\n"; if($nixx and ref $treelet->[$i] and $treelet->[$i][0] eq 'X') { DEBUG > 3 and print STDERR " Nixing X node at $i\n"; splice(@$treelet, $i, 1); # just nix this node (and its descendants) # no need to back-update the counter just yet redo; } elsif($merge and $i != 2 and # non-initial !ref $treelet->[$i] and !ref $treelet->[$i - 1] ) { DEBUG > 3 and print STDERR " Merging ", $i-1, ":[$treelet->[$i-1]] and $i\:[$treelet->[$i]]\n"; $treelet->[$i-1] .= ( splice(@$treelet, $i, 1) )[0]; DEBUG > 4 and print STDERR " Now: ", $i-1, ":[$treelet->[$i-1]]\n"; --$i; next; # since we just pulled the possibly last node out from under # ourselves, we can't just redo() } elsif( ref $treelet->[$i] ) { DEBUG > 4 and print STDERR " Enqueuing ", pretty($treelet->[$i]), " for traversal.\n"; push @stack, $treelet->[$i]; if($treelet->[$i][0] eq 'L') { my $thing; foreach my $attrname ('section', 'to') { if(defined($thing = $treelet->[$i][1]{$attrname}) and ref $thing) { unshift @stack, $thing; DEBUG > 4 and print STDERR " +Enqueuing ", pretty( $treelet->[$i][1]{$attrname} ), " as an attribute value to tweak.\n"; } } } } } } DEBUG > 2 and print STDERR "End of _wrap_up traversal.\n\n"; return; } #:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:. sub _remap_sequences { my($self,@stack) = @_; if(@stack == 1 and @{ $stack[0] } == 3 and !ref $stack[0][2]) { # VERY common case: abort it. DEBUG and print STDERR "Skipping _remap_sequences: formatless treelet.\n"; return 0; } my $map = ($self->{'accept_codes'} || die "NO accept_codes in $self?!?"); my $start_line = $stack[0][1]{'start_line'}; DEBUG > 2 and printf "\nAbout to start _remap_sequences on treelet from line %s.\n", $start_line || '[?]' ; DEBUG > 3 and print STDERR " Map: ", join('; ', map "$_=" . ( ref($map->{$_}) ? join(",", @{$map->{$_}}) : $map->{$_} ), sort keys %$map ), ("B~C~E~F~I~L~S~X~Z" eq join '~', sort keys %$map) ? " (all normal)\n" : "\n" ; # A recursive algorithm implemented iteratively! Whee! my($is, $was, $i, $treelet); # scratch while($treelet = shift @stack) { DEBUG > 3 and print STDERR " Considering children of this $treelet->[0] node...\n"; for($i = 2; $i < @$treelet; ++$i) { # iterate over children next unless ref $treelet->[$i]; # text nodes are uninteresting DEBUG > 4 and print STDERR " Noting child $i : $treelet->[$i][0]<...>\n"; $is = $treelet->[$i][0] = $map->{ $was = $treelet->[$i][0] }; if( DEBUG > 3 ) { if(!defined $is) { print STDERR " Code $was<> is UNKNOWN!\n"; } elsif($is eq $was) { DEBUG > 4 and print STDERR " Code $was<> stays the same.\n"; } else { print STDERR " Code $was<> maps to ", ref($is) ? ( "tags ", map("$_<", @$is), '...', map('>', @$is), "\n" ) : "tag $is<...>.\n"; } } if(!defined $is) { $self->whine($start_line, "Deleting unknown formatting code $was<>"); $is = $treelet->[$i][0] = '1'; # But saving the children! # I could also insert a leading "$was<" and tailing ">" as # children of this node, but something about that seems icky. } if(ref $is) { my @dynasty = @$is; DEBUG > 4 and print STDERR " Renaming $was node to $dynasty[-1]\n"; $treelet->[$i][0] = pop @dynasty; my $nugget; while(@dynasty) { DEBUG > 4 and printf " Grafting a new %s node between %s and %s\n", $dynasty[-1], $treelet->[0], $treelet->[$i][0], ; #$nugget = ; splice @$treelet, $i, 1, [pop(@dynasty), {}, $treelet->[$i]]; # relace node with a new parent } } elsif($is eq '0') { splice(@$treelet, $i, 1); # just nix this node (and its descendants) --$i; # back-update the counter } elsif($is eq '1') { splice(@$treelet, $i, 1 # replace this node with its children! => splice @{ $treelet->[$i] },2 # (not catching its first two (non-child) items) ); --$i; # back up for new stuff } else { # otherwise it's unremarkable unshift @stack, $treelet->[$i]; # just recurse } } } DEBUG > 2 and print STDERR "End of _remap_sequences traversal.\n\n"; if(@_ == 2 and @{ $_[1] } == 3 and !ref $_[1][2]) { DEBUG and print STDERR "Noting that the treelet is now formatless.\n"; return 0; } return 1; } # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . sub _ponder_extend { # "Go to an extreme, move back to a more comfortable place" # -- /Oblique Strategies/, Brian Eno and Peter Schmidt my($self, $para) = @_; my $content = join ' ', splice @$para, 2; $content =~ s/^\s+//s; $content =~ s/\s+$//s; DEBUG > 2 and print STDERR "Ogling extensor: =extend $content\n"; if($content =~ m/^ (\S+) # 1 : new item \s+ (\S+) # 2 : fallback(s) (?:\s+(\S+))? # 3 : element name(s) \s* $ /xs ) { my $new_letter = $1; my $fallbacks_one = $2; my $elements_one; $elements_one = defined($3) ? $3 : $1; DEBUG > 2 and print STDERR "Extensor has good syntax.\n"; unless($new_letter =~ m/^[A-Z]$/s or $new_letter) { DEBUG > 2 and print STDERR " $new_letter isn't a valid thing to entend.\n"; $self->whine( $para->[1]{'start_line'}, "You can extend only formatting codes A-Z, not like \"$new_letter\"" ); return; } if(grep $new_letter eq $_, @Known_formatting_codes) { DEBUG > 2 and print STDERR " $new_letter isn't a good thing to extend, because known.\n"; $self->whine( $para->[1]{'start_line'}, "You can't extend an established code like \"$new_letter\"" ); #TODO: or allow if last bit is same? return; } unless($fallbacks_one =~ m/^[A-Z](,[A-Z])*$/s # like "B", "M,I", etc. or $fallbacks_one eq '0' or $fallbacks_one eq '1' ) { $self->whine( $para->[1]{'start_line'}, "Format for second =extend parameter must be like" . " M or 1 or 0 or M,N or M,N,O but you have it like " . $fallbacks_one ); return; } unless($elements_one =~ m/^[^ ,]+(,[^ ,]+)*$/s) { # like "B", "M,I", etc. $self->whine( $para->[1]{'start_line'}, "Format for third =extend parameter: like foo or bar,Baz,qu:ux but not like " . $elements_one ); return; } my @fallbacks = split ',', $fallbacks_one, -1; my @elements = split ',', $elements_one, -1; foreach my $f (@fallbacks) { next if exists $Known_formatting_codes{$f} or $f eq '0' or $f eq '1'; DEBUG > 2 and print STDERR " Can't fall back on unknown code $f\n"; $self->whine( $para->[1]{'start_line'}, "Can't use unknown formatting code '$f' as a fallback for '$new_letter'" ); return; } DEBUG > 3 and printf STDERR "Extensor: Fallbacks <%s> Elements <%s>.\n", @fallbacks, @elements; my $canonical_form; foreach my $e (@elements) { if(exists $self->{'accept_codes'}{$e}) { DEBUG > 1 and print STDERR " Mapping '$new_letter' to known extension '$e'\n"; $canonical_form = $e; last; # first acceptable elementname wins! } else { DEBUG > 1 and print STDERR " Can't map '$new_letter' to unknown extension '$e'\n"; } } if( defined $canonical_form ) { # We found a good N => elementname mapping $self->{'accept_codes'}{$new_letter} = $canonical_form; DEBUG > 2 and print "Extensor maps $new_letter => known element $canonical_form.\n"; } else { # We have to use the fallback(s), which might be '0', or '1'. $self->{'accept_codes'}{$new_letter} = (@fallbacks == 1) ? $fallbacks[0] : \@fallbacks; DEBUG > 2 and print "Extensor maps $new_letter => fallbacks @fallbacks.\n"; } } else { DEBUG > 2 and print STDERR "Extensor has bad syntax.\n"; $self->whine( $para->[1]{'start_line'}, "Unknown =extend syntax: $content" ) } return; } #:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:.:. sub _treat_Zs { # Nix Z<...>'s my($self,@stack) = @_; my($i, $treelet); my $start_line = $stack[0][1]{'start_line'}; # A recursive algorithm implemented iteratively! Whee! while($treelet = shift @stack) { for($i = 2; $i < @$treelet; ++$i) { # iterate over children next unless ref $treelet->[$i]; # text nodes are uninteresting unless($treelet->[$i][0] eq 'Z') { unshift @stack, $treelet->[$i]; # recurse next; } DEBUG > 1 and print STDERR "Nixing Z node @{$treelet->[$i]}\n"; # bitch UNLESS it's empty unless( @{$treelet->[$i]} == 2 or (@{$treelet->[$i]} == 3 and $treelet->[$i][2] eq '') ) { $self->whine( $start_line, "A non-empty Z<>" ); } # but kill it anyway splice(@$treelet, $i, 1); # thereby just nix this node. --$i; } } return; } # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . # Quoting perlpodspec: # In parsing an L<...> code, Pod parsers must distinguish at least four # attributes: ############# Not used. Expressed via the element children plus ############# the value of the "content-implicit" flag. # First: # The link-text. If there is none, this must be undef. (E.g., in "L<Perl # Functions|perlfunc>", the link-text is "Perl Functions". In # "L<Time::HiRes>" and even "L<|Time::HiRes>", there is no link text. Note # that link text may contain formatting.) # ############# The element children # Second: # The possibly inferred link-text -- i.e., if there was no real link text, # then this is the text that we'll infer in its place. (E.g., for # "L<Getopt::Std>", the inferred link text is "Getopt::Std".) # ############# The "to" attribute (which might be text, or a treelet) # Third: # The name or URL, or undef if none. (E.g., in "L<Perl # Functions|perlfunc>", the name -- also sometimes called the page -- is # "perlfunc". In "L</CAVEATS>", the name is undef.) # ############# The "section" attribute (which might be next, or a treelet) # Fourth: # The section (AKA "item" in older perlpods), or undef if none. E.g., in # Getopt::Std/DESCRIPTION, "DESCRIPTION" is the section. (Note that this # is not the same as a manpage section like the "5" in "man 5 crontab". # "Section Foo" in the Pod sense means the part of the text that's # introduced by the heading or item whose text is "Foo".) # # Pod parsers may also note additional attributes including: # ############# The "type" attribute. # Fifth: # A flag for whether item 3 (if present) is a URL (like # "http://lists.perl.org" is), in which case there should be no section # attribute; a Pod name (like "perldoc" and "Getopt::Std" are); or # possibly a man page name (like "crontab(5)" is). # ############# The "raw" attribute that is already there. # Sixth: # The raw original L<...> content, before text is split on "|", "/", etc, # and before E<...> codes are expanded. # For L<...> codes without a "name|" part, only E<...> and Z<> codes may # occur -- no other formatting codes. That is, authors should not use # "L<B<Foo::Bar>>". # # Note, however, that formatting codes and Z<>'s can occur in any and all # parts of an L<...> (i.e., in name, section, text, and url). sub _treat_Ls { # Process our dear dear friends, the L<...> sequences # L<name> # L<name/"sec"> or L<name/sec> # L</"sec"> or L</sec> or L<"sec"> # L<text|name> # L<text|name/"sec"> or L<text|name/sec> # L<text|/"sec"> or L<text|/sec> or L<text|"sec"> # L<scheme:...> # L<text|scheme:...> my($self,@stack) = @_; my($i, $treelet); my $start_line = $stack[0][1]{'start_line'}; # A recursive algorithm implemented iteratively! Whee! while($treelet = shift @stack) { for(my $i = 2; $i < @$treelet; ++$i) { # iterate over children of current tree node next unless ref $treelet->[$i]; # text nodes are uninteresting unless($treelet->[$i][0] eq 'L') { unshift @stack, $treelet->[$i]; # recurse next; } # By here, $treelet->[$i] is definitely an L node my $ell = $treelet->[$i]; DEBUG > 1 and print STDERR "Ogling L node " . pretty($ell) . "\n"; # bitch if it's empty or is just '/' if (@{$ell} == 3 and $ell->[2] =~ m!\A\s*/\s*\z!) { $self->whine( $start_line, "L<> contains only '/'" ); $treelet->[$i] = 'L</>'; # just make it a text node next; # and move on } if( @{$ell} == 2 or (@{$ell} == 3 and $ell->[2] eq '') ) { $self->whine( $start_line, "An empty L<>" ); $treelet->[$i] = 'L<>'; # just make it a text node next; # and move on } if( (! ref $ell->[2] && $ell->[2] =~ /\A\s/) ||(! ref $ell->[-1] && $ell->[-1] =~ /\s\z/) ) { $self->whine( $start_line, "L<> starts or ends with whitespace" ); } # Catch URLs: # there are a number of possible cases: # 1) text node containing url: http://foo.com # -> [ 'http://foo.com' ] # 2) text node containing url and text: foo|http://foo.com # -> [ 'foo|http://foo.com' ] # 3) text node containing url start: mailto:xE<at>foo.com # -> [ 'mailto:x', [ E ... ], 'foo.com' ] # 4) text node containing url start and text: foo|mailto:xE<at>foo.com # -> [ 'foo|mailto:x', [ E ... ], 'foo.com' ] # 5) other nodes containing text and url start: OE<39>Malley|http://foo.com # -> [ 'O', [ E ... ], 'Malley', '|http://foo.com' ] # ... etc. # anything before the url is part of the text. # anything after it is part of the url. # the url text node itself may contain parts of both. if (my ($url_index, $text_part, $url_part) = # grep is no good here; we want to bail out immediately so that we can # use $1, $2, etc. without having to do the match twice. sub { for (2..$#$ell) { next if ref $ell->[$_]; next unless $ell->[$_] =~ m/^(?:([^|]*)\|)?(\w+:[^:\s]\S*)$/s; return ($_, $1, $2); } return; }->() ) { $ell->[1]{'type'} = 'url'; my @text = @{$ell}[2..$url_index-1]; push @text, $text_part if defined $text_part; my @url = @{$ell}[$url_index+1..$#$ell]; unshift @url, $url_part; unless (@text) { $ell->[1]{'content-implicit'} = 'yes'; @text = @url; } $ell->[1]{to} = Pod::Simple::LinkSection->new( @url == 1 ? $url[0] : [ '', {}, @url ], ); splice @$ell, 2, $#$ell, @text; next; } # Catch some very simple and/or common cases if(@{$ell} == 3 and ! ref $ell->[2]) { my $it = $ell->[2]; if($it =~ m{^[^/|]+[(][-a-zA-Z0-9]+[)]$}s) { # man sections # Hopefully neither too broad nor too restrictive a RE DEBUG > 1 and print STDERR "Catching \"$it\" as manpage link.\n"; $ell->[1]{'type'} = 'man'; # This's the only place where man links can get made. $ell->[1]{'content-implicit'} = 'yes'; $ell->[1]{'to' } = Pod::Simple::LinkSection->new( $it ); # treelet! next; } if($it =~ m/^[^\/\|,\$\%\@\ \"\<\>\:\#\&\*\{\}\[\]\(\)]+(\:\:[^\/\|,\$\%\@\ \"\<\>\:\#\&\*\{\}\[\]\(\)]+)*$/s) { # Extremely forgiving idea of what constitutes a bare # modulename link like L<Foo::Bar> or even L<Thing::1.0::Docs::Tralala> DEBUG > 1 and print STDERR "Catching \"$it\" as ho-hum L<Modulename> link.\n"; $ell->[1]{'type'} = 'pod'; $ell->[1]{'content-implicit'} = 'yes'; $ell->[1]{'to' } = Pod::Simple::LinkSection->new( $it ); # treelet! next; } # else fall thru... } # ...Uhoh, here's the real L<...> parsing stuff... # "With the ill behavior, with the ill behavior, with the ill behavior..." DEBUG > 1 and print STDERR "Running a real parse on this non-trivial L\n"; my $link_text; # set to an arrayref if found my @ell_content = @$ell; splice @ell_content,0,2; # Knock off the 'L' and {} bits DEBUG > 3 and print STDERR " Ell content to start: ", pretty(@ell_content), "\n"; # Look for the "|" -- only in CHILDREN (not all underlings!) # Like L<I like the strictness|strict> DEBUG > 3 and print STDERR " Peering at L content for a '|' ...\n"; for(my $j = 0; $j < @ell_content; ++$j) { next if ref $ell_content[$j]; DEBUG > 3 and print STDERR " Peering at L-content text bit \"$ell_content[$j]\" for a '|'.\n"; if($ell_content[$j] =~ m/^([^\|]*)\|(.*)$/s) { my @link_text = ($1); # might be 0-length $ell_content[$j] = $2; # might be 0-length DEBUG > 3 and print STDERR " FOUND a '|' in it. Splitting into [$1] + [$2]\n"; if ($link_text[0] =~ m{[|/]}) { $self->whine( $start_line, "alternative text '$link_text[0]' contains non-escaped | or /" ); } unshift @link_text, splice @ell_content, 0, $j; # leaving only things at J and after @ell_content = grep ref($_)||length($_), @ell_content ; $link_text = [grep ref($_)||length($_), @link_text ]; DEBUG > 3 and printf " So link text is %s\n and remaining ell content is %s\n", pretty($link_text), pretty(@ell_content); last; } } # Now look for the "/" -- only in CHILDREN (not all underlings!) # And afterward, anything left in @ell_content will be the raw name # Like L<Foo::Bar/Object Methods> my $section_name; # set to arrayref if found DEBUG > 3 and print STDERR " Peering at L-content for a '/' ...\n"; for(my $j = 0; $j < @ell_content; ++$j) { next if ref $ell_content[$j]; DEBUG > 3 and print STDERR " Peering at L-content text bit \"$ell_content[$j]\" for a '/'.\n"; if($ell_content[$j] =~ m/^([^\/]*)\/(.*)$/s) { my @section_name = ($2); # might be 0-length $ell_content[$j] = $1; # might be 0-length DEBUG > 3 and print STDERR " FOUND a '/' in it.", " Splitting to page [...$1] + section [$2...]\n"; push @section_name, splice @ell_content, 1+$j; # leaving only things before and including J @ell_content = grep ref($_)||length($_), @ell_content ; @section_name = grep ref($_)||length($_), @section_name ; # Turn L<.../"foo"> into L<.../foo> if(@section_name and !ref($section_name[0]) and !ref($section_name[-1]) and $section_name[ 0] =~ m/^\"/s and $section_name[-1] =~ m/\"$/s and !( # catch weird degenerate case of L<"> ! @section_name == 1 and $section_name[0] eq '"' ) ) { $section_name[ 0] =~ s/^\"//s; $section_name[-1] =~ s/\"$//s; DEBUG > 3 and print STDERR " Quotes removed: ", pretty(@section_name), "\n"; } else { DEBUG > 3 and print STDERR " No need to remove quotes in ", pretty(@section_name), "\n"; } $section_name = \@section_name; last; } } # Turn L<"Foo Bar"> into L</Foo Bar> if(!$section_name and @ell_content and !ref($ell_content[0]) and !ref($ell_content[-1]) and $ell_content[ 0] =~ m/^\"/s and $ell_content[-1] =~ m/\"$/s and !( # catch weird degenerate case of L<"> ! @ell_content == 1 and $ell_content[0] eq '"' ) ) { $section_name = [splice @ell_content]; $section_name->[ 0] =~ s/^\"//s; $section_name->[-1] =~ s/\"$//s; $ell->[1]{'~tolerated'} = 1; } # Turn L<Foo Bar> into L</Foo Bar>. if(!$section_name and !$link_text and @ell_content and grep !ref($_) && m/ /s, @ell_content ) { $section_name = [splice @ell_content]; $ell->[1]{'~deprecated'} = 1; # That's support for the now-deprecated syntax. # Note that it deliberately won't work on L<...|Foo Bar> } # Now make up the link_text # L<Foo> -> L<Foo|Foo> # L</Bar> -> L<"Bar"|Bar> # L<Foo/Bar> -> L<"Bar" in Foo/Foo> unless($link_text) { $ell->[1]{'content-implicit'} = 'yes'; $link_text = []; push @$link_text, '"', @$section_name, '"' if $section_name; if(@ell_content) { $link_text->[-1] .= ' in ' if $section_name; push @$link_text, @ell_content; } } # And the E resolver will have to deal with all our treeletty things: if(@ell_content == 1 and !ref($ell_content[0]) and $ell_content[0] =~ m{^[^/]+[(][-a-zA-Z0-9]+[)]$}s ) { $ell->[1]{'type'} = 'man'; DEBUG > 3 and print STDERR "Considering this ($ell_content[0]) a man link.\n"; } else { $ell->[1]{'type'} = 'pod'; DEBUG > 3 and print STDERR "Considering this a pod link (not man or url).\n"; } if( defined $section_name ) { $ell->[1]{'section'} = Pod::Simple::LinkSection->new( ['', {}, @$section_name] ); DEBUG > 3 and print STDERR "L-section content: ", pretty($ell->[1]{'section'}), "\n"; } if( @ell_content ) { $ell->[1]{'to'} = Pod::Simple::LinkSection->new( ['', {}, @ell_content] ); DEBUG > 3 and print STDERR "L-to content: ", pretty($ell->[1]{'to'}), "\n"; } # And update children to be the link-text: @$ell = (@$ell[0,1], defined($link_text) ? splice(@$link_text) : ''); DEBUG > 2 and print STDERR "End of L-parsing for this node " . pretty($treelet->[$i]) . "\n"; unshift @stack, $treelet->[$i]; # might as well recurse } } return; } # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . sub _treat_Es { my($self,@stack) = @_; my($i, $treelet, $content, $replacer, $charnum); my $start_line = $stack[0][1]{'start_line'}; # A recursive algorithm implemented iteratively! Whee! # Has frightening side effects on L nodes' attributes. #my @ells_to_tweak; while($treelet = shift @stack) { for(my $i = 2; $i < @$treelet; ++$i) { # iterate over children next unless ref $treelet->[$i]; # text nodes are uninteresting if($treelet->[$i][0] eq 'L') { # SPECIAL STUFF for semi-processed L<>'s my $thing; foreach my $attrname ('section', 'to') { if(defined($thing = $treelet->[$i][1]{$attrname}) and ref $thing) { unshift @stack, $thing; DEBUG > 2 and print STDERR " Enqueuing ", pretty( $treelet->[$i][1]{$attrname} ), " as an attribute value to tweak.\n"; } } unshift @stack, $treelet->[$i]; # recurse next; } elsif($treelet->[$i][0] ne 'E') { unshift @stack, $treelet->[$i]; # recurse next; } DEBUG > 1 and print STDERR "Ogling E node ", pretty($treelet->[$i]), "\n"; # bitch if it's empty if( @{$treelet->[$i]} == 2 or (@{$treelet->[$i]} == 3 and $treelet->[$i][2] eq '') ) { $self->whine( $start_line, "An empty E<>" ); $treelet->[$i] = 'E<>'; # splice in a literal next; } # bitch if content is weird unless(@{$treelet->[$i]} == 3 and !ref($content = $treelet->[$i][2])) { $self->whine( $start_line, "An E<...> surrounding strange content" ); $replacer = $treelet->[$i]; # scratch splice(@$treelet, $i, 1, # fake out a literal 'E<', splice(@$replacer,2), # promote its content '>' ); # Don't need to do --$i, as the 'E<' we just added isn't interesting. next; } DEBUG > 1 and print STDERR "Ogling E<$content>\n"; # XXX E<>'s contents *should* be a valid char in the scope of the current # =encoding directive. Defaults to iso-8859-1, I believe. Fix this in the # future sometime. $charnum = Pod::Escapes::e2charnum($content); DEBUG > 1 and print STDERR " Considering E<$content> with char ", defined($charnum) ? $charnum : "undef", ".\n"; if(!defined( $charnum )) { DEBUG > 1 and print STDERR "I don't know how to deal with E<$content>.\n"; $self->whine( $start_line, "Unknown E content in E<$content>" ); $replacer = "E<$content>"; # better than nothing } elsif($charnum >= 255 and !UNICODE) { $replacer = ASCII ? "\xA4" : "?"; DEBUG > 1 and print STDERR "This Perl version can't handle ", "E<$content> (chr $charnum), so replacing with $replacer\n"; } else { $replacer = Pod::Escapes::e2char($content); DEBUG > 1 and print STDERR " Replacing E<$content> with $replacer\n"; } splice(@$treelet, $i, 1, $replacer); # no need to back up $i, tho } } return; } # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . sub _treat_Ss { my($self,$treelet) = @_; _change_S_to_nbsp($treelet,0) if $self->{'nbsp_for_S'}; # TODO: or a change_nbsp_to_S # Normalizing nbsp's to S is harder: for each text node, make S content # out of anything matching m/([^ \xA0]*(?:\xA0+[^ \xA0]*)+)/ return; } sub _change_S_to_nbsp { # a recursive function # Sanely assumes that the top node in the excursion won't be an S node. my($treelet, $in_s) = @_; my $is_s = ('S' eq $treelet->[0]); $in_s ||= $is_s; # So in_s is on either by this being an S element, # or by an ancestor being an S element. for(my $i = 2; $i < @$treelet; ++$i) { if(ref $treelet->[$i]) { if( _change_S_to_nbsp( $treelet->[$i], $in_s ) ) { my $to_pull_up = $treelet->[$i]; splice @$to_pull_up,0,2; # ...leaving just its content splice @$treelet, $i, 1, @$to_pull_up; # Pull up content $i += @$to_pull_up - 1; # Make $i skip the pulled-up stuff } } else { $treelet->[$i] =~ s/\s/$Pod::Simple::nbsp/g if $in_s; # Note that if you apply nbsp_for_S to text, and so turn # "foo S<bar baz> quux" into "foo bar faz quux", you # end up with something that fails to say "and don't hyphenate # any part of 'bar baz'". However, hyphenation is such a vexing # problem anyway, that most Pod renderers just don't render it # at all. But if you do want to implement hyphenation, I guess # that you'd better have nbsp_for_S off. } } return $is_s; } #----------------------------------------------------------------------------- sub _accessorize { # A simple-minded method-maker no strict 'refs'; foreach my $attrname (@_) { next if $attrname =~ m/::/; # a hack *{caller() . '::' . $attrname} = sub { use strict; $Carp::CarpLevel = 1, Carp::croak( "Accessor usage: \$obj->$attrname() or \$obj->$attrname(\$new_value)" ) unless (@_ == 1 or @_ == 2) and ref $_[0]; (@_ == 1) ? $_[0]->{$attrname} : ($_[0]->{$attrname} = $_[1]); }; } # Ya know, they say accessories make the ensemble! return; } # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . #============================================================================= sub filter { my($class, $source) = @_; my $new = $class->new; $new->output_fh(*STDOUT{IO}); if(ref($source || '') eq 'SCALAR') { $new->parse_string_document( $$source ); } elsif(ref($source)) { # it's a file handle $new->parse_file($source); } else { # it's a filename $new->parse_file($source); } return $new; } #----------------------------------------------------------------------------- sub _out { # For use in testing: Class->_out($source) # returns the transformation of $source my $class = shift(@_); my $mutor = shift(@_) if @_ and ref($_[0] || '') eq 'CODE'; DEBUG and print STDERR "\n\n", '#' x 76, "\nAbout to parse source: {{\n$_[0]\n}}\n\n"; my $parser = ref $class && $class->isa(__PACKAGE__) ? $class : $class->new; $parser->hide_line_numbers(1); my $out = ''; $parser->output_string( \$out ); DEBUG and print STDERR " _out to ", \$out, "\n"; $mutor->($parser) if $mutor; $parser->parse_string_document( $_[0] ); # use Data::Dumper; print STDERR Dumper($parser), "\n"; return $out; } sub _duo { # For use in testing: Class->_duo($source1, $source2) # returns the parse trees of $source1 and $source2. # Good in things like: &ok( Class->duo(... , ...) ); my $class = shift(@_); Carp::croak "But $class->_duo is useful only in list context!" unless wantarray; my $mutor = shift(@_) if @_ and ref($_[0] || '') eq 'CODE'; Carp::croak "But $class->_duo takes two parameters, not: @_" unless @_ == 2; my(@out); while( @_ ) { my $parser = $class->new; push @out, ''; $parser->output_string( \( $out[-1] ) ); DEBUG and print STDERR " _duo out to ", $parser->output_string(), " = $parser->{'output_string'}\n"; $parser->hide_line_numbers(1); $mutor->($parser) if $mutor; $parser->parse_string_document( shift( @_ ) ); # use Data::Dumper; print STDERR Dumper($parser), "\n"; } return @out; } #----------------------------------------------------------------------------- 1; __END__ TODO: A start_formatting_code and end_formatting_code methods, which in the base class call start_L, end_L, start_C, end_C, etc., if they are defined. have the POD FORMATTING ERRORS section note the localtime, and the version of Pod::Simple. option to delete all E<shy>s? option to scream if under-0x20 literals are found in the input, or under-E<32> E codes are found in the tree. And ditto \x7f-\x9f Option to turn highbit characters into their compromised form? (applies to E parsing too) TODO: BOM/encoding things. TODO: ascii-compat things in the XML classes?