jquery/browse/ParseMaster.pm

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2006-03-22 03:33:07 +00:00
#ParseMaster (July 25 2005)
# Based on "ParseMaster.js" by Dean Edwards <http://dean.edwards.name/>
# Ported to Perl by Rob Seiler, ELR Software Pty Ltd <http://www.elr.com.au>
# Copyright 2005. License <http://creativecommons.org/licenses/LGPL/2.1/>
package ParseMaster;
use strict;
use Data::Dumper;
# Package wide variable declarations
use vars qw/$VERSION
@_X_escaped @_X_patterns
/;
$VERSION = '017';
# constants
my $X_EXPRESSION = 0;
my $X_REPLACEMENT = 1;
my $X_LENGTH = 2;
# re's used to determine nesting levels
my $X_GROUPS = qr/\(/o; # NB: Requires g modifier!
my $X_SUB_REPLACE = qr/\$\d/o;
my $X_INDEXED = qr/^\$\d+$/o;
my $XX_ESCAPE = qr/\\./o; # NB: Requires g modifier!
my $XX_DELETED = qr/\001[^\001]*\001/o; # NB: Requires g modifier!
my $DIGIT = qr/[^\D]/o; # Yep - this is a digit - contains no non-digits
# Constructor
sub new {
my $class = shift;
my $self = {};
@_X_escaped = (); # Re-initialize global for each instance
@_X_patterns = (); # Re-initialize global for each instance
# Instance variables - access by similarly named set/get functions
$self->{_ignoreCase_} = 0;
$self->{_escapeChar_} = '';
bless ($self, $class);
return $self;
}
sub ignoreCase {
my ($self, $value) = @_;
if (defined($value)) {
$self->{_ignoreCase_} = $value;
}
return $self->{_ignoreCase_};
}
sub escapeChar{
my ($self, $value) = @_;
if (defined($value)) {
$self->{_escapeChar_} = $value;
}
return $self->{_escapeChar_};
}
#######################
# Public Parsemaster functions
my $X_DELETE = sub(@$) {
my $X_offset = pop;
my @X_match = @_;
return (chr(001) . $X_match[$X_offset] . chr(001));
}; # NB semicolon required for closure!
# create and add a new pattern to the patterns collection
sub add {
my ($self, $expression, $X_replacement) = @_;
if (!$X_replacement) {$X_replacement = $X_DELETE};
# count the number of sub-expressions
my $temp = &_X_internalEscape($expression);
my $length = 1; # Always at least one because each pattern is itself a sub-expression
$length += $temp =~ s/$X_GROUPS//g; # One way to count the left capturing parentheses in the regexp string
# does the pattern deal with sub-expressions?
if ((ref($X_replacement) ne "CODE") && ($X_replacement =~ m/$X_SUB_REPLACE/)) {
if ($X_replacement =~ m/$X_INDEXED/) { # a simple lookup? (eg "$2")
# store the index (used for fast retrieval of matched strings)
$X_replacement = substr($X_replacement,1) - 1;
}
else { # a complicated lookup (eg "Hello $2 $1")
my $i = $length;
while ($i) { # Had difficulty getting Perl to do Dean's splitting and joining of strings containing $'s
my $str = '$a[$o+' . ($i-1) . ']'; # eg $a[$o+1]
$X_replacement =~ s/\$$i/$str/; # eg $2 $3 -> $a[$o+1] $a[$o+2]
$i--;
}
# build a function to do the lookup - returns interpolated string of array lookups
$X_replacement = eval('sub {my $o=pop; my @a=@_; return "' . $X_replacement . '"};');
}
}
else {}
# pass the modified arguments
&_X_add($expression || q/^$/, $X_replacement, $length);
}
# execute the global replacement
sub exec {
#print Dumper(@_X_patterns);
my ($self, $X_string) = @_;
my $escChar = $self->escapeChar();
my $ignoreCase = $self->ignoreCase();
my ($regexp,$captures) = &_getPatterns(); # Concatenated and parenthesized regexp eg '(regex1)|(regex2)|(regex3)' etc
$X_string = &_X_escape($X_string, $escChar);
if ($ignoreCase) {$X_string =~ s/$regexp/{&_X_replacement(&_matchVars($captures,\$X_string))}/gie} # Pass $X_String as a
else {$X_string =~ s/$regexp/{&_X_replacement(&_matchVars($captures,\$X_string))}/ge} # reference for speed
$X_string = &_X_unescape($X_string, $escChar);
$X_string =~ s/$XX_DELETED//g;
return $X_string;
}
sub _X_add {
push (@_X_patterns, [@_]); # Save each argument set as is into an array of arrays
}
# this is the global replace function (it's quite complicated)
sub _X_replacement {
my (@arguments) = @_;
#print Dumper (@arguments);
if ($arguments[0] le '') {return ''}
# Dereference last index (source String) here - faster than in _matchVars (maybe not needed at all?)
$arguments[$#arguments] = ${$arguments[$#arguments]};
my $i = 1;
# loop through the patterns
for (my $j=0; $j<scalar(@_X_patterns); $j++) { # Loop through global all @_X_patterns
my @X_pattern = @{$_X_patterns[$j]};
# do we have a result? NB: "if ($arguments[$i])" as in Dean's Javascript is false for the value 0!!!
if ((defined $arguments[$i]) && ($arguments[$i] gt '')) {
my $X_replacement = $X_pattern[$X_REPLACEMENT];
# switch on type of $replacement
if (ref($X_replacement) eq "CODE") { # function
return &$X_replacement(@arguments,$i);
}
elsif ($X_replacement =~ m/$DIGIT/) { # number (contains no non-digits)
return $arguments[$X_replacement + $i];
}
else { # default
return $X_replacement; # default
}
} # skip over references to sub-expressions
else {$i += $X_pattern[$X_LENGTH]}
}
}
#######################
# Private functions
#######################
# encode escaped characters
sub _X_escape {
my ($X_string, $X_escapeChar) = @_;
if ($X_escapeChar) {
my $re = '\\'.$X_escapeChar.'(.)';
$X_string =~ s/$re/{push(@_X_escaped,$1); $X_escapeChar}/ge;
}
return $X_string;
}
# decode escaped characters
sub _X_unescape {
my ($X_string, $X_escapeChar) = @_;
if ($X_escapeChar) { # We'll only do this if there is an $X_escapeChar!
my $re = '\\'.$X_escapeChar;
$X_string =~ s/$re/{$X_escapeChar . (shift(@_X_escaped))}/ge; # Don't use Dean Edwards as below 'or' here - because zero will return ''!
# $X_string =~ s/$re/{$X_escapeChar . (shift(@_X_escaped) || '')}/ge;
}
return $X_string;
}
sub _X_internalEscape {
my ($string) = shift;
$string =~ s/$XX_ESCAPE//g;
return $string;
}
# Builds an array of match variables to (approximately) emulate that available in Javascript String.replace()
sub _matchVars {
my ($m,$sref) = @_;
my @args = (1..$m); # establish the number potential memory variables
my @mv = map {eval("\$$_")} @args; # matchvarv[1..m] = the memory variables $1 .. $m
unshift (@mv, $&); # matchvar[0] = the substring that matched
push (@mv, length($`)); # matchvar[m+1] = offset within the source string where the match occurred (= length of prematch string)
push (@mv, $sref); # matchvar[m+2] = reference to full source string (dereference in caller if/when needed)
#print Dumper (@mv);
return @mv;
}
sub _getPatterns {
my @Patterns = ();
my $lcp = 0;
for (my $i=0; $i<scalar(@_X_patterns); $i++) { # Loop through global all @_patterns
push (@Patterns, $_X_patterns[$i][$X_EXPRESSION]); # accumulate the expressions
$lcp += $_X_patterns[$i][$X_LENGTH]; # sum the left capturing parenthesis counts
}
my $str = "(" . join(')|(',@Patterns). ")"; # enclose each pattern in () separated by "|"
return ($str, $lcp);
}
##################
# END #
##################
1; # ParseMaster #
##################