598 lines
18 KiB
Perl
598 lines
18 KiB
Perl
package TmplTokenizer;
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use strict;
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#use warnings; FIXME - Bug 2505
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use TmplTokenType;
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use TmplToken;
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use TTParser;
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use VerboseWarnings qw( pedantic_p error_normal warn_normal warn_pedantic );
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require Exporter;
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use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS);
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###############################################################################
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=head1 NAME
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TmplTokenizer.pm - Simple-minded wrapper class for TTParser
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=head1 DESCRIPTION
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A wrapper for the functionality found in TTParser to allow an easier transition to Template Toolkit
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=cut
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###############################################################################
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$VERSION = 0.02;
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@ISA = qw(Exporter);
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@EXPORT_OK = qw();
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use vars qw( $pedantic_attribute_error_in_nonpedantic_mode_p );
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use vars qw( $pedantic_tmpl_var_use_in_nonpedantic_mode_p );
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use vars qw( $pedantic_error_markup_in_pcdata_p );
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###############################################################################
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# Hideous stuff
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use vars qw( $re_xsl $re_end_entity $re_tmpl_var);
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BEGIN {
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$re_tmpl_var = q{\[%\s*[get|set|default]?\s*[\w\.]+\s*[|.*?]?\s*%\]};
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$re_xsl = q{<\/?(?:xsl:)(?:[\s\-a-zA-Z0-9"'\/\.\[\]\@\(\):=,$]+)\/?>};
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$re_end_entity = '(?:;|$|(?=\s))'; # semicolon or before-whitespace
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}
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# End of the hideous stuff
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use vars qw( $serial );
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###############################################################################
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sub FATAL_P () {'fatal-p'}
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sub SYNTAXERROR_P () {'syntaxerror-p'}
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sub FILENAME () {'input'}
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#sub HANDLE () {'handle'}
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#sub READAHEAD () {'readahead'}
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sub LINENUM_START () {'lc_0'}
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sub LINENUM () {'lc'}
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sub CDATA_MODE_P () {'cdata-mode-p'}
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sub CDATA_CLOSE () {'cdata-close'}
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#sub PCDATA_MODE_P () {'pcdata-mode-p'} # additional submode for CDATA
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sub JS_MODE_P () {'js-mode-p'} # cdata-mode-p must also be true
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sub ALLOW_CFORMAT_P () {'allow-cformat-p'}
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sub new {
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shift;
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my ($filename) = @_;
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#open my $handle,$filename or die "can't open $filename";
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my $parser = TTParser->new;
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$parser->build_tokens( $filename );
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bless {
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filename => $filename,
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_parser => $parser
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# , handle => $handle
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# , readahead => []
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} , __PACKAGE__;
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}
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###############################################################################
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# Simple getters
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sub filename {
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my $this = shift;
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return $this->{filename};
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}
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sub fatal_p {
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my $this = shift;
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return $this->{+FATAL_P};
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}
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# work around, currently not implemented
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sub syntaxerror_p {
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# my $this = shift;
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# return $this->{+SYNTAXERROR_P};
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return 0;
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}
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sub js_mode_p {
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my $this = shift;
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return $this->{+JS_MODE_P};
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}
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sub allow_cformat_p {
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my $this = shift;
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return $this->{+ALLOW_CFORMAT_P};
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}
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# Simple setters
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sub _set_fatal {
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my $this = shift;
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$this->{+FATAL_P} = $_[0];
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return $this;
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}
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sub _set_js_mode {
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my $this = shift;
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$this->{+JS_MODE_P} = $_[0];
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return $this;
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}
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#used in xgettext, tmpl_process3 and text-extract2
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sub set_allow_cformat {
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my $this = shift;
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$this->{+ALLOW_CFORMAT_P} = $_[0];
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return $this;
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}
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###############################################################################
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use vars qw( $js_EscapeSequence );
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BEGIN {
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# Perl quoting is really screwed up, but this common subexp is way too long
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$js_EscapeSequence = q{\\\\(?:['"\\\\bfnrt]|[^0-7xu]|[0-3]?[0-7]{1,2}|x[\da-fA-F]{2}|u[\da-fA-F]{4})};
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}
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sub parenleft () { '(' }
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sub parenright () { ')' }
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sub _split_js ($) {
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my ($s0) = @_;
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my @it = ();
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while (length $s0) {
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if ($s0 =~ /^\s+/s) { # whitespace
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push @it, $&;
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$s0 = $';
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} elsif ($s0 =~ /^\/\/[^\r\n]*(?:[\r\n]|$)/s) { # C++-style comment
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push @it, $&;
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$s0 = $';
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} elsif ($s0 =~ /^\/\*(?:(?!\*\/).)*\*\//s) { # C-style comment
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push @it, $&;
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$s0 = $';
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# Keyword or identifier, ECMA-262 p.13 (section 7.5)
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} elsif ($s0 =~ /^[A-Z_\$][A-Z\d_\$]*/is) { # IdentifierName
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push @it, $&;
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$s0 = $';
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# Punctuator, ECMA-262 p.13 (section 7.6)
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} elsif ($s0 =~ /^(?:[\(\){}\[\];]|>>>=|<<=|>>=|[-\+\*\/\&\|\^\%]=|>>>|<<|>>|--|\+\+|\|\||\&\&|==|<=|>=|!=|[=><,!~\?:\.\-\+\*\/\&\|\^\%])/s) {
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push @it, $&;
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$s0 = $';
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# DecimalLiteral, ECMA-262 p.14 (section 7.7.3); note: bug in the spec
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} elsif ($s0 =~ /^(?:0|[1-9]\d+(?:\.\d*(?:[eE][-\+]?\d+)?)?)/s) {
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push @it, $&;
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$s0 = $';
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# HexIntegerLiteral, ECMA-262 p.15 (section 7.7.3)
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} elsif ($s0 =~ /^0[xX][\da-fA-F]+/s) {
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push @it, $&;
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$s0 = $';
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# OctalIntegerLiteral, ECMA-262 p.15 (section 7.7.3)
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} elsif ($s0 =~ /^0[\da-fA-F]+/s) {
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push @it, $&;
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$s0 = $';
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# StringLiteral, ECMA-262 p.17 (section 7.7.4)
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# XXX SourceCharacter doesn't seem to be defined (?)
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} elsif ($s0 =~ /^(?:"(?:(?!["\\\r\n]).|$js_EscapeSequence)*"|'(?:(?!['\\\r\n]).|$js_EscapeSequence)*')/os) {
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push @it, $&;
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$s0 = $';
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} elsif ($s0 =~ /^./) { # UNKNOWN TOKEN !!!
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push @it, $&;
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$s0 = $';
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}
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}
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return @it;
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}
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sub STATE_UNDERSCORE () { 1 }
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sub STATE_PARENLEFT () { 2 }
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sub STATE_STRING_LITERAL () { 3 }
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# XXX This is a crazy hack. I don't want to write an ECMAScript parser.
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# XXX A scanner is one thing; a parser another thing.
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sub _identify_js_translatables (@) {
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my @input = @_;
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my @output = ();
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# We mark a JavaScript translatable string as in C, i.e., _("literal")
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# For simplicity, we ONLY look for "_" "(" StringLiteral ")"
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for (my $i = 0, my $state = 0, my($j, $q, $s); $i <= $#input; $i += 1) {
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my $reset_state_p = 0;
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push @output, [0, $input[$i]];
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if ($input[$i] !~ /\S/s) {
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;
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} elsif ($state == 0) {
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$state = STATE_UNDERSCORE if $input[$i] eq '_';
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} elsif ($state == STATE_UNDERSCORE) {
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$state = $input[$i] eq parenleft ? STATE_PARENLEFT : 0;
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} elsif ($state == STATE_PARENLEFT) {
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if ($input[$i] =~ /^(['"])(.*)\1$/s) {
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($state, $j, $q, $s) = (STATE_STRING_LITERAL, $#output, $1, $2);
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} else {
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$state = 0;
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}
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} elsif ($state == STATE_STRING_LITERAL) {
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if ($input[$i] eq parenright) {
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$output[$j] = [1, $output[$j]->[1], $q, $s];
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}
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$state = 0;
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} else {
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die "identify_js_translatables internal error: Unknown state $state"
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}
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}
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return \@output;
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}
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###############################################################################
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sub string_canon ($) {
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my $s = shift;
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# Fold all whitespace into single blanks
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$s =~ s/\s+/ /g;
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return $s;
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}
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# safer version used internally, preserves new lines
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sub string_canon_safe ($) {
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my $s = shift;
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# fold tabs and spaces into single spaces
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$s =~ s/[\ \t]+/ /gs;
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return $s;
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}
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sub _quote_cformat{
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my $s = shift;
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$s =~ s/%/%%/g;
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return $s;
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}
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sub _formalize_string_cformat{
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my $s = shift;
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return _quote_cformat( string_canon_safe $s );
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}
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sub _formalize{
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my $t = shift;
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if( $t->type == TmplTokenType::DIRECTIVE ){
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return '%s';
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} elsif( $t->type == TmplTokenType::TEXT ){
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return _formalize_string_cformat( $t->string );
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} elsif( $t->type == TmplTokenType::TAG ){
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if( $t->string =~ m/^a\b/is ){
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return '<a>';
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} elsif( $t->string =~ m/^input\b/is ){
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if( lc $t->attributes->{'type'}->[1] eq 'text' ){
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return '%S';
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} else{
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return '%p';
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}
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} else{
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return _quote_cformat $t->string;
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}
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} else{
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return _quote_cformat $t->string;
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}
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}
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# internal parametization, used within next_token
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# method that takes in an array of TEXT and DIRECTIVE tokens (DIRECTIVEs must be GET) and return a TmplTokenType::TEXT_PARAMETRIZED
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sub _parametrize_internal{
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my $this = shift;
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my @parts = @_;
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# my $s = "";
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# for my $item (@parts){
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# if( $item->type == TmplTokenType::TEXT ){
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# $s .= $item->string;
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# } else {
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# #must be a variable directive
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# $s .= "%s";
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# }
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# }
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my $s = join( "", map { _formalize $_ } @parts );
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# should both the string and form be $s? maybe only the later? posibly the former....
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# used line number from first token, should suffice
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my $t = TmplToken->new( $s, TmplTokenType::TEXT_PARAMETRIZED, $parts[0]->line_number, $this->filename );
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$t->set_children(@parts);
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$t->set_form($s);
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return $t;
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}
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sub next_token {
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my $self = shift;
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my $next;
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# parts that make up a text_parametrized (future children of the token)
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my @parts = ();
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while(1){
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$next = $self->{_parser}->next_token;
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return undef unless defined $next;
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# if cformat mode is off, dont bother parametrizing, just return them as they come
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return $next unless $self->allow_cformat_p;
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if( $next->type == TmplTokenType::TEXT ){
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push @parts, $next;
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} elsif( $next->type == TmplTokenType::DIRECTIVE && $next->string =~ m/\[%\s*\w+\s*%\]/ ){
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push @parts, $next;
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} else{
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# if there is nothing in parts, return this token
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return $next unless @parts;
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# OTHERWISE, put this token back and return the parametrized string of @parts
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$self->{_parser}->unshift_token($next);
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return $self->_parametrize_internal(@parts);
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}
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}
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}
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###############################################################################
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# function taken from old version
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# used by tmpl_process3
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sub parametrize ($$$$) {
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my($fmt_0, $cformat_p, $t, $f) = @_;
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my $it = '';
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if ($cformat_p) {
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my @params = $t->parameters_and_fields;
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for (my $n = 0, my $fmt = $fmt_0; length $fmt;) {
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if ($fmt =~ /^[^%]+/) {
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$fmt = $';
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$it .= $&;
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} elsif ($fmt =~ /^%%/) {
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$fmt = $';
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$it .= '%';
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} elsif ($fmt =~ /^%(?:(\d+)\$)?(?:(\d+)(?:\.(\d+))?)?s/s) {
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$n += 1;
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my($i, $width, $prec) = ((defined $1? $1: $n), $2, $3);
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$fmt = $';
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if (defined $width && defined $prec && !$width && !$prec) {
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;
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} elsif (defined $params[$i - 1]) {
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my $param = $params[$i - 1];
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warn_normal "$fmt_0: $&: Expected a TMPL_VAR, but found a "
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. $param->type->to_string . "\n", undef
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if $param->type != TmplTokenType::DIRECTIVE;
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warn_normal "$fmt_0: $&: Unsupported "
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. "field width or precision\n", undef
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if defined $width || defined $prec;
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warn_normal "$fmt_0: $&: Parameter $i not known", undef
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unless defined $param;
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$it .= defined $f? &$f( $param ): $param->string;
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}
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} elsif ($fmt =~ /^%(?:(\d+)\$)?(?:(\d+)(?:\.(\d+))?)?([pS])/s) {
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$n += 1;
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my($i, $width, $prec, $conv) = ((defined $1? $1: $n), $2, $3, $4);
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$fmt = $';
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my $param = $params[$i - 1];
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if (!defined $param) {
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warn_normal "$fmt_0: $&: Parameter $i not known", undef;
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} else {
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if ($param->type == TmplTokenType::TAG
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&& $param->string =~ /^<input\b/is) {
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my $type = defined $param->attributes?
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lc($param->attributes->{'type'}->[1]): undef;
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if ($conv eq 'S') {
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warn_normal "$fmt_0: $&: Expected type=text, "
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. "but found type=$type", undef
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unless $type eq 'text';
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} elsif ($conv eq 'p') {
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warn_normal "$fmt_0: $&: Expected type=radio, "
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. "but found type=$type", undef
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unless $type eq 'radio';
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}
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} else {
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warn_normal "$&: Expected an INPUT, but found a "
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. $param->type->to_string . "\n", undef
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}
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warn_normal "$fmt_0: $&: Unsupported "
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. "field width or precision\n", undef
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if defined $width || defined $prec;
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$it .= defined $f? &$f( $param ): $param->string;
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}
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} elsif ($fmt =~ /^%[^%a-zA-Z]*[a-zA-Z]/) {
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$fmt = $';
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$it .= $&;
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die "$&: Unknown or unsupported format specification\n"; #XXX
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} else {
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die "$&: Completely confused parametrizing\n";#XXX
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}
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}
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}
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my @anchors = $t->anchors;
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for (my $n = 0, my $fmt = $it, $it = ''; length $fmt;) {
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if ($fmt =~ /^(?:(?!<a\d+>).)+/is) {
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$fmt = $';
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$it .= $&;
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} elsif ($fmt =~ /^<a(\d+)>/is) {
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$n += 1;
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my $i = $1;
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$fmt = $';
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my $anchor = $anchors[$i - 1];
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warn_normal "$&: Anchor $1 not found for msgid \"$fmt_0\"", undef #FIXME
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unless defined $anchor;
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$it .= $anchor->string;
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} else {
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die "Completely confused decoding anchors: $fmt\n";#XXX
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}
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}
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return $it;
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}
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# Other simple functions (These are not methods)
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sub blank_p ($) {
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my($s) = @_;
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return $s =~ /^(?:\s|\ $re_end_entity|$re_tmpl_var|$re_xsl)*$/osi;
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}
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sub trim ($) {
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my($s0) = @_;
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my $l0 = length $s0;
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my $s = $s0;
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$s =~ s/^(\s|\ $re_end_entity)+//os; my $l1 = $l0 - length $s;
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$s =~ s/(\s|\ $re_end_entity)+$//os; my $l2 = $l0 - $l1 - length $s;
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return wantarray? (substr($s0, 0, $l1), $s, substr($s0, $l0 - $l2)): $s;
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}
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sub quote_po ($) {
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my($s) = @_;
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# Locale::PO->quote is buggy, it doesn't quote newlines :-/
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$s =~ s/([\\"])/\\\1/gs;
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$s =~ s/\n/\\n/g;
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#$s =~ s/[\177-\377]/ sprintf("\\%03o", ord($&)) /egs;
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return "\"$s\"";
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}
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sub charset_canon ($) {
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my($charset) = @_;
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$charset = uc($charset);
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$charset = "$1-$2" if $charset =~ /^(ISO|UTF)(\d.*)/i;
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$charset = 'Big5' if $charset eq 'BIG5'; # "Big5" must be in mixed case
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return $charset;
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}
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use vars qw( @latin1_utf8 );
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@latin1_utf8 = (
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"\302\200", "\302\201", "\302\202", "\302\203", "\302\204", "\302\205",
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"\302\206", "\302\207", "\302\210", "\302\211", "\302\212", "\302\213",
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"\302\214", "\302\215", undef, undef, "\302\220", "\302\221",
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"\302\222", "\302\223", "\302\224", "\302\225", "\302\226", "\302\227",
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"\302\230", "\302\231", "\302\232", "\302\233", "\302\234", "\302\235",
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"\302\236", "\302\237", "\302\240", "\302\241", "\302\242", "\302\243",
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"\302\244", "\302\245", "\302\246", "\302\247", "\302\250", "\302\251",
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"\302\252", "\302\253", "\302\254", "\302\255", "\302\256", "\302\257",
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"\302\260", "\302\261", "\302\262", "\302\263", "\302\264", "\302\265",
|
|
"\302\266", "\302\267", "\302\270", "\302\271", "\302\272", "\302\273",
|
|
"\302\274", "\302\275", "\302\276", "\302\277", "\303\200", "\303\201",
|
|
"\303\202", "\303\203", "\303\204", "\303\205", "\303\206", "\303\207",
|
|
"\303\210", "\303\211", "\303\212", "\303\213", "\303\214", "\303\215",
|
|
"\303\216", "\303\217", "\303\220", "\303\221", "\303\222", "\303\223",
|
|
"\303\224", "\303\225", "\303\226", "\303\227", "\303\230", "\303\231",
|
|
"\303\232", "\303\233", "\303\234", "\303\235", "\303\236", "\303\237",
|
|
"\303\240", "\303\241", "\303\242", "\303\243", "\303\244", "\303\245",
|
|
"\303\246", "\303\247", "\303\250", "\303\251", "\303\252", "\303\253",
|
|
"\303\254", "\303\255", "\303\256", "\303\257", "\303\260", "\303\261",
|
|
"\303\262", "\303\263", "\303\264", "\303\265", "\303\266", "\303\267",
|
|
"\303\270", "\303\271", "\303\272", "\303\273", "\303\274", "\303\275",
|
|
"\303\276", "\303\277" );
|
|
|
|
sub charset_convert ($$$) {
|
|
my($s, $charset_in, $charset_out) = @_;
|
|
if ($s !~ /[\200-\377]/s) { # FIXME: don't worry about iso2022 for now
|
|
;
|
|
} elsif ($charset_in eq 'ISO-8859-1' && $charset_out eq 'UTF-8') {
|
|
$s =~ s/[\200-\377]/ $latin1_utf8[ord($&) - 128] /egs;
|
|
} elsif ($charset_in ne $charset_out) {
|
|
VerboseWarnings::warn_normal "conversion from $charset_in to $charset_out is not supported\n", undef;
|
|
}
|
|
return $s;
|
|
}
|
|
|
|
###############################################################################
|
|
|
|
=pod
|
|
|
|
In addition to the basic scanning, this class will also perform
|
|
the following:
|
|
|
|
=over
|
|
|
|
=item -
|
|
|
|
Emulation of c-format strings (see below)
|
|
|
|
=item -
|
|
|
|
Display of warnings for certain things that affects either the
|
|
ability of this class to yield correct output, or things that
|
|
are known to cause the original template to cause trouble.
|
|
|
|
=item -
|
|
|
|
Automatic correction of some of the things warned about
|
|
(e.g., SGML "closed start tag" notation).
|
|
|
|
=back
|
|
|
|
=head2 c-format strings emulation
|
|
|
|
Because English word order is not universal, a simple extraction
|
|
of translatable strings may yield some strings like "Accounts for"
|
|
or ambiguous strings like "in". This makes the resulting strings
|
|
difficult to translate, but does not affect all languages alike.
|
|
For example, Chinese (with a somewhat different word order) would
|
|
be hit harder, but French would be relatively unaffected.
|
|
|
|
To overcome this problem, the scanner can be configured to detect
|
|
patterns with <TMPL_VAR> directives (as well as certain HTML tags),
|
|
and try to construct a larger pattern that will appear in the PO
|
|
file as c-format strings with %s placeholders. This additional
|
|
step allows the translator to deal with cases where word order
|
|
is different (replacing %s with %1$s, %2$s, etc.), or when certain
|
|
words will require certain inflectional suffixes in sentences.
|
|
|
|
Because this is an incompatible change, this mode must be explicitly
|
|
turned on using the set_allow_cformat(1) method call.
|
|
|
|
=head2 The flag characters
|
|
|
|
The character % is followed by zero or more of the following flags:
|
|
|
|
=over
|
|
|
|
=item #
|
|
|
|
The value comes from HTML <INPUT> elements.
|
|
This abuse of the flag character is somewhat reasonable,
|
|
since TMPL_VAR and INPUT are both variables, but of different kinds.
|
|
|
|
=back
|
|
|
|
=head2 The field width and precision
|
|
|
|
An optional 0.0 can be specified for %s to specify
|
|
that the <TMPL_VAR> should be suppressed.
|
|
|
|
=head2 The conversion specifier
|
|
|
|
=over
|
|
|
|
=item p
|
|
|
|
Specifies any input field that is neither text nor hidden
|
|
(which currently mean radio buttons).
|
|
The p conversion specifier is chosen because this does not
|
|
evoke any certain sensible data type.
|
|
|
|
=item S
|
|
|
|
Specifies a text input field (<INPUT TYPE=TEXT>).
|
|
This use of the S conversion specifier is somewhat reasonable,
|
|
since text input fields contain values of undeterminable type,
|
|
which can be treated as strings.
|
|
|
|
=item s
|
|
|
|
Specifies a <TMPL_VAR>.
|
|
This use of the o conversion specifier is somewhat reasonable,
|
|
since <TMPL_VAR> denotes values of undeterminable type, which
|
|
can be treated as strings.
|
|
|
|
=back
|
|
|
|
=head1 BUGS
|
|
|
|
There is no code to save the tag name anywhere in the scanned token.
|
|
|
|
The use of <AI<i>> to stand for the I<i>th anchor
|
|
is not very well thought out.
|
|
Some abuse of c-format specifies might have been more appropriate.
|
|
|
|
=head1 HISTORY
|
|
|
|
This tokenizer is mostly based
|
|
on Ambrose's hideous Perl script known as subst.pl.
|
|
|
|
=cut
|
|
|
|
1;
|