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jb-data.de/vendor/smarty/smarty-lexer/LexerGenerator/Parser.php
steven 72a26edcff init
2025-08-11 22:23:30 +02:00

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<?php
/* Driver template for the PHP_PHP_LexerGenerator_ParserrGenerator parser generator. (PHP port of LEMON)
*/
/**
* This can be used to store both the string representation of
* a token, and any useful meta-data associated with the token.
*
* meta-data should be stored as an array
*/
class PHP_LexerGenerator_ParseryyToken implements ArrayAccess
{
public $string = '';
public $metadata = array();
public function __construct($s, $m = array())
{
if ($s instanceof PHP_LexerGenerator_ParseryyToken) {
$this->string = $s->string;
$this->metadata = $s->metadata;
} else {
$this->string = (string) $s;
if ($m instanceof PHP_LexerGenerator_ParseryyToken) {
$this->metadata = $m->metadata;
} elseif (is_array($m)) {
$this->metadata = $m;
}
}
}
public function __toString()
{
return $this->string;
}
public function offsetExists($offset)
{
return isset($this->metadata[$offset]);
}
public function offsetGet($offset)
{
return $this->metadata[$offset];
}
public function offsetSet($offset, $value)
{
if ($offset === null) {
if (isset($value[0])) {
$x = ($value instanceof PHP_LexerGenerator_ParseryyToken) ?
$value->metadata : $value;
$this->metadata = array_merge($this->metadata, $x);
return;
}
$offset = count($this->metadata);
}
if ($value === null) {
return;
}
if ($value instanceof PHP_LexerGenerator_ParseryyToken) {
if ($value->metadata) {
$this->metadata[$offset] = $value->metadata;
}
} elseif ($value) {
$this->metadata[$offset] = $value;
}
}
public function offsetUnset($offset)
{
unset($this->metadata[$offset]);
}
}
/** The following structure represents a single element of the
* parser's stack. Information stored includes:
*
* + The state number for the parser at this level of the stack.
*
* + The value of the token stored at this level of the stack.
* (In other words, the "major" token.)
*
* + The semantic value stored at this level of the stack. This is
* the information used by the action routines in the grammar.
* It is sometimes called the "minor" token.
*/
class PHP_LexerGenerator_ParseryyStackEntry
{
public $stateno; /* The state-number */
public $major; /* The major token value. This is the code
** number for the token at this stack level */
public $minor; /* The user-supplied minor token value. This
** is the value of the token */
};
// code external to the class is included here
#line 3 "Parser.y"
/* ?><?php {//*/
/**
* PHP_LexerGenerator, a php 5 lexer generator.
*
* This lexer generator translates a file in a format similar to
* re2c ({@link http://re2c.org}) and translates it into a PHP 5-based lexer
*
* PHP version 5
*
* LICENSE:
*
* Copyright (c) 2006, Gregory Beaver <cellog@php.net>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the distribution.
* * Neither the name of the PHP_LexerGenerator nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
* IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* @category php
* @package PHP_LexerGenerator
* @author Gregory Beaver <cellog@php.net>
* @copyright 2006 Gregory Beaver
* @license http://www.opensource.org/licenses/bsd-license.php New BSD License
* @version CVS: $Id: Parser.php 246683 2007-11-22 04:43:52Z instance $
* @since File available since Release 0.1.0
*/
/**
* For regular expression validation
*/
require_once './LexerGenerator/Regex/Lexer.php';
require_once './LexerGenerator/Regex/Parser.php';
require_once './LexerGenerator/Exception.php';
/**
* Token parser for plex files.
*
* This parser converts tokens pulled from {@link PHP_LexerGenerator_Lexer}
* into abstract patterns and rules, then creates the output file
* @package PHP_LexerGenerator
* @author Gregory Beaver <cellog@php.net>
* @copyright 2006 Gregory Beaver
* @license http://www.php.net/license/3_01.txt PHP License 3.01
* @version @package_version@
* @since Class available since Release 0.1.0
*/
#line 166 "Parser.php"
// declare_class is output here
#line 2 "Parser.y"
class PHP_LexerGenerator_Parser#line 171 "Parser.php"
{
/* First off, code is included which follows the "include_class" declaration
** in the input file. */
#line 82 "Parser.y"
private $patterns;
private $out;
private $lex;
private $input;
private $counter;
private $token;
private $value;
private $line;
private $matchlongest;
private $_regexLexer;
private $_regexParser;
private $_patternIndex = 0;
private $_outRuleIndex = 1;
private $caseinsensitive;
private $patternFlags;
private $unicode;
public $transTable = array(
1 => self::PHPCODE,
2 => self::COMMENTSTART,
3 => self::COMMENTEND,
4 => self::QUOTE,
5 => self::SINGLEQUOTE,
6 => self::PATTERN,
7 => self::CODE,
8 => self::SUBPATTERN,
9 => self::PI,
);
public function __construct($outfile, $lex)
{
$this->out = fopen($outfile, 'wb');
if (!$this->out) {
throw new Exception('unable to open lexer output file "' . $outfile . '"');
}
$this->lex = $lex;
$this->_regexLexer = new PHP_LexerGenerator_Regex_Lexer('');
$this->_regexParser = new PHP_LexerGenerator_Regex_Parser($this->_regexLexer);
}
public function doLongestMatch($rules, $statename, $ruleindex)
{
fwrite($this->out, '
if (' . $this->counter . ' >= strlen(' . $this->input . ')) {
return false; // end of input
}
do {
$rules = array(');
foreach ($rules as $rule) {
fwrite($this->out, '
\'/\G' . $rule['pattern'] . '/' . $this->patternFlags . ' \',');
}
fwrite($this->out, '
);
$match = false;
foreach ($rules as $index => $rule) {
if (preg_match($rule, substr(' . $this->input . ', ' .
$this->counter . '), $yymatches)) {
if ($match) {
if (strlen($yymatches[0]) > strlen($match[0][0])) {
$match = array($yymatches, $index); // matches, token
}
} else {
$match = array($yymatches, $index);
}
}
}
if (!$match) {
throw new Exception(\'Unexpected input at line \' . ' . $this->line . ' .
\': \' . ' . $this->input . '[' . $this->counter . ']);
}
' . $this->token . ' = $match[1];
' . $this->value . ' = $match[0][0];
$yysubmatches = $match[0];
array_shift($yysubmatches);
if (!$yysubmatches) {
$yysubmatches = array();
}
$r = $this->{\'yy_r' . $ruleindex . '_\' . ' . $this->token . '}($yysubmatches);
if ($r === null) {
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
// accept this token
return true;
} elseif ($r === true) {
// we have changed state
// process this token in the new state
return $this->yylex();
} elseif ($r === false) {
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
if (' . $this->counter . ' >= strlen(' . $this->input . ')) {
return false; // end of input
}
// skip this token
continue;
} else {');
fwrite($this->out, '
$yy_yymore_patterns = array_slice($rules, $this->token, true);
// yymore is needed
do {
if (!isset($yy_yymore_patterns[' . $this->token . '])) {
throw new Exception(\'cannot do yymore for the last token\');
}
$match = false;
foreach ($yy_yymore_patterns[' . $this->token . '] as $index => $rule) {
if (preg_match(\'/\' . $rule . \'/' . $this->patternFlags . '\',
' . $this->input . ', $yymatches, 0, ' . $this->counter . ')) {
if (strlen($yysubmatches[0]) < 200) {
$yymatches = preg_grep("/(.|\s)+/", $yysubmatches);
} else {
$yymatches = array_filter($yymatches, \'strlen\');
}
if ($match) {
if (strlen($yymatches[0]) > strlen($match[0][0])) {
$match = array($yymatches, $index); // matches, token
}
} else {
$match = array($yymatches, $index);
}
}
}
if (!$match) {
throw new Exception(\'Unexpected input at line \' . ' . $this->line . ' .
\': \' . ' . $this->input . '[' . $this->counter . ']);
}
' . $this->token . ' = $match[1];
' . $this->value . ' = $match[0][0];
$yysubmatches = $match[0];
array_shift($yysubmatches);
if (!$yysubmatches) {
$yysubmatches = array();
}
' . $this->line . ' = substr_count(' . $this->value . ', "\n");
$r = $this->{\'yy_r' . $ruleindex . '_\' . ' . $this->token . '}();
} while ($r !== null || !$r);
if ($r === true) {
// we have changed state
// process this token in the new state
return $this->yylex();
} else {
// accept
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
return true;
}
}
} while (true);
');
}
public function doFirstMatch($rules, $statename, $ruleindex)
{
$patterns = array();
$pattern = '/';
$ruleMap = array();
$tokenindex = array();
$actualindex = 1;
$i = 0;
foreach ($rules as $rule) {
$ruleMap[$i++] = $actualindex;
$tokenindex[$actualindex] = $rule['subpatterns'];
$actualindex += $rule['subpatterns'] + 1;
$patterns[] = '\G(' . $rule['pattern'] . ')';
}
// Re-index tokencount from zero.
$tokencount = array_values($tokenindex);
$tokenindex = var_export($tokenindex, true);
$tokenindex = explode("\n", $tokenindex);
// indent for prettiness
$tokenindex = implode("\n ", $tokenindex);
$pattern .= implode('|', $patterns);
$pattern .= '/' . $this->patternFlags;
fwrite($this->out, '
if (!isset($this->yy_global_pattern' . $ruleindex . ')) {
$this->yy_global_pattern' . $ruleindex . ' = $this->replace("' . $pattern . 'isS");
}
if (!isset($this->dataLength)) {
$this->dataLength = strlen(' . $this->input . ');
}
if (' . $this->counter . ' >= $this->dataLength) {
return false; // end of input
}
');
fwrite($this->out, '
do {
if (preg_match($this->yy_global_pattern' . $ruleindex . ',' . $this->input . ', $yymatches, 0, ' .
$this->counter .
')) {
if (!isset($yymatches[ 0 ][1])) {
$yymatches = preg_grep("/(.|\s)+/", $yymatches);
} else {
$yymatches = array_filter($yymatches);
}
if (empty($yymatches)) {
throw new Exception(\'Error: lexing failed because a rule matched\' .
\' an empty string. Input "\' . substr(' . $this->input . ',
' . $this->counter . ', 5) . \'... state ' . $statename . '\');
}
next($yymatches); // skip global match
' . $this->token . ' = key($yymatches); // token number
' . $this->value . ' = current($yymatches); // token value
$r = $this->{\'yy_r' . $ruleindex . '_\' . ' . $this->token . '}();
if ($r === null) {
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
// accept this token
return true;
} elseif ($r === true) {
// we have changed state
// process this token in the new state
return $this->yylex();
} elseif ($r === false) {
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
if (' . $this->counter . ' >= $this->dataLength) {
return false; // end of input
}
// skip this token
continue;
}');
// } else {');
/** fwrite($this->out, ' $yy_yymore_patterns = array(' . "\n");
$extra = 0;
for ($i = 0; count($patterns); $i++) {
unset($patterns[$i]);
$extra += $tokencount[0];
array_shift($tokencount);
fwrite($this->out, ' ' . $ruleMap[$i] . ' => array(' . $extra . ', "' .
implode('|', $patterns) . "\"),\n");
}
fwrite($this->out, ' );' . "\n");
fwrite($this->out, '
// yymore is needed
do {
if (!strlen($yy_yymore_patterns[' . $this->token . '][1])) {
throw new Exception(\'cannot do yymore for the last token\');
}
$yysubmatches = array();
if (preg_match(\'/\' . $yy_yymore_patterns[' . $this->token . '][1] . \'/' . $this->patternFlags . '\',
' . $this->input . ', $yymatches, null, ' . $this->counter .')) {
$yysubmatches = $yymatches;
$yymatches = array_filter($yymatches, \'strlen\'); // remove empty sub-patterns
next($yymatches); // skip global match
' . $this->token . ' += key($yymatches) + $yy_yymore_patterns[' . $this->token . '][0]; // token number
' . $this->value . ' = current($yymatches); // token value
' . $this->line . ' = substr_count(' . $this->value . ', "\n");
if ($tokenMap[' . $this->token . ']) {
// extract sub-patterns for passing to lex function
$yysubmatches = array_slice($yysubmatches, ' . $this->token . ' + 1,
$tokenMap[' . $this->token . ']);
} else {
$yysubmatches = array();
}
}
$r = $this->{\'yy_r' . $ruleindex . '_\' . ' . $this->token . '}($yysubmatches);
} while ($r !== null && !is_bool($r));
if ($r === true) {
// we have changed state
// process this token in the new state
return $this->yylex();
} elseif ($r === false) {
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
if (' . $this->counter . ' >= $this->dataLength) {
return false; // end of input
}
// skip this token
continue;
} else {
// accept
' . $this->counter . ' += strlen(' . $this->value . ');
' . $this->line . ' += substr_count(' . $this->value . ', "\n");
return true;
}
}
*/
fwrite($this->out, ' } else {
throw new Exception(\'Unexpected input at line\' . ' . $this->line . ' .
\': \' . ' . $this->input . '[' . $this->counter . ']);
}
break;
} while (true);
');
}
public function makeCaseInsensitve($string)
{
return preg_replace('/[a-z]/ie', "'[\\0'.strtoupper('\\0').']'", strtolower($string));
}
public function outputRules($rules, $statename)
{
if (!$statename) {
$statename = $this -> _outRuleIndex;
}
fwrite($this->out, '
public function yylex' . $this -> _outRuleIndex . '()
{');
if ($this->matchlongest) {
$ruleMap = array();
foreach ($rules as $i => $rule) {
$ruleMap[$i] = $i;
}
$this->doLongestMatch($rules, $statename, $this -> _outRuleIndex);
} else {
$ruleMap = array();
$actualindex = 1;
$i = 0;
foreach ($rules as $rule) {
$ruleMap[$i++] = $actualindex;
$actualindex += $rule['subpatterns'] + 1;
}
$this->doFirstMatch($rules, $statename, $this -> _outRuleIndex);
}
fwrite($this->out, '
} // end function
');
if (is_string($statename)) {
fwrite($this->out, '
const ' . $statename . ' = ' . $this -> _outRuleIndex . ';
');
}
foreach ($rules as $i => $rule) {
fwrite($this->out, ' public function yy_r' . $this -> _outRuleIndex . '_' . $ruleMap[$i] . '()
{
' . $rule['code'] .
' }
');
}
$this -> _outRuleIndex++; // for next set of rules
}
public function error($msg)
{
echo 'Error on line ' . $this->lex->line . ': ' , $msg;
}
public function _validatePattern($pattern, $update = false)
{
$this->_regexLexer->reset($pattern, $this->lex->line);
$this->_regexParser->reset($this->_patternIndex, $update);
try {
while ($this->_regexLexer->yylex()) {
$this->_regexParser->doParse(
$this->_regexLexer->token, $this->_regexLexer->value);
}
$this->_regexParser->doParse(0, 0);
} catch (PHP_LexerGenerator_Exception $e) {
$this->error($e->getMessage());
throw new PHP_LexerGenerator_Exception('Invalid pattern "' . $pattern . '"');
}
return $this->_regexParser->result;
}
#line 529 "Parser.php"
/* Next is all token values, as class constants
*/
/*
** These constants (all generated automatically by the parser generator)
** specify the various kinds of tokens (terminals) that the parser
** understands.
**
** Each symbol here is a terminal symbol in the grammar.
*/
const PHPCODE = 1;
const COMMENTSTART = 2;
const COMMENTEND = 3;
const PI = 4;
const SUBPATTERN = 5;
const CODE = 6;
const PATTERN = 7;
const QUOTE = 8;
const SINGLEQUOTE = 9;
const YY_NO_ACTION = 99;
const YY_ACCEPT_ACTION = 98;
const YY_ERROR_ACTION = 97;
/* Next are that tables used to determine what action to take based on the
** current state and lookahead token. These tables are used to implement
** functions that take a state number and lookahead value and return an
** action integer.
**
** Suppose the action integer is N. Then the action is determined as
** follows
**
** 0 <= N < self::YYNSTATE Shift N. That is,
** push the lookahead
** token onto the stack
** and goto state N.
**
** self::YYNSTATE <= N < self::YYNSTATE+self::YYNRULE Reduce by rule N-YYNSTATE.
**
** N == self::YYNSTATE+self::YYNRULE A syntax error has occurred.
**
** N == self::YYNSTATE+self::YYNRULE+1 The parser accepts its
** input. (and concludes parsing)
**
** N == self::YYNSTATE+self::YYNRULE+2 No such action. Denotes unused
** slots in the yy_action[] table.
**
** The action table is constructed as a single large static array $yy_action.
** Given state S and lookahead X, the action is computed as
**
** self::$yy_action[self::$yy_shift_ofst[S] + X ]
**
** If the index value self::$yy_shift_ofst[S]+X is out of range or if the value
** self::$yy_lookahead[self::$yy_shift_ofst[S]+X] is not equal to X or if
** self::$yy_shift_ofst[S] is equal to self::YY_SHIFT_USE_DFLT, it means that
** the action is not in the table and that self::$yy_default[S] should be used instead.
**
** The formula above is for computing the action when the lookahead is
** a terminal symbol. If the lookahead is a non-terminal (as occurs after
** a reduce action) then the static $yy_reduce_ofst array is used in place of
** the static $yy_shift_ofst array and self::YY_REDUCE_USE_DFLT is used in place of
** self::YY_SHIFT_USE_DFLT.
**
** The following are the tables generated in this section:
**
** self::$yy_action A single table containing all actions.
** self::$yy_lookahead A table containing the lookahead for each entry in
** yy_action. Used to detect hash collisions.
** self::$yy_shift_ofst For each state, the offset into self::$yy_action for
** shifting terminals.
** self::$yy_reduce_ofst For each state, the offset into self::$yy_action for
** shifting non-terminals after a reduce.
** self::$yy_default Default action for each state.
*/
const YY_SZ_ACTTAB = 91;
public static $yy_action = array(
/* 0 */ 25, 50, 49, 31, 49, 54, 53, 54, 53, 35,
/* 10 */ 11, 49, 18, 22, 54, 53, 14, 59, 51, 28,
/* 20 */ 55, 57, 58, 59, 47, 1, 55, 57, 32, 15,
/* 30 */ 49, 29, 49, 54, 53, 54, 53, 30, 52, 49,
/* 40 */ 42, 46, 54, 53, 98, 56, 5, 13, 38, 18,
/* 50 */ 49, 43, 40, 54, 53, 12, 39, 18, 3, 37,
/* 60 */ 36, 17, 7, 8, 2, 10, 33, 18, 9, 2,
/* 70 */ 41, 44, 1, 24, 16, 34, 45, 27, 60, 48,
/* 80 */ 4, 1, 2, 1, 20, 19, 21, 26, 23, 6,
/* 90 */ 7,
);
public static $yy_lookahead = array(
/* 0 */ 3, 1, 5, 4, 5, 8, 9, 8, 9, 3,
/* 10 */ 19, 5, 21, 4, 8, 9, 7, 5, 6, 14,
/* 20 */ 8, 9, 3, 5, 6, 20, 8, 9, 3, 7,
/* 30 */ 5, 4, 5, 8, 9, 8, 9, 3, 1, 5,
/* 40 */ 5, 6, 8, 9, 11, 12, 13, 19, 5, 21,
/* 50 */ 5, 8, 9, 8, 9, 19, 5, 21, 5, 8,
/* 60 */ 9, 1, 2, 1, 2, 19, 14, 21, 1, 2,
/* 70 */ 5, 6, 20, 15, 16, 14, 2, 14, 1, 1,
/* 80 */ 5, 20, 2, 20, 18, 21, 18, 17, 4, 13,
/* 90 */ 2,
);
const YY_SHIFT_USE_DFLT = -4;
const YY_SHIFT_MAX = 35;
public static $yy_shift_ofst = array(
/* 0 */ 60, 27, -1, 45, 45, 62, 67, 84, 80, 80,
/* 10 */ 34, 25, -3, 6, 51, 51, 9, 88, 12, 18,
/* 20 */ 43, 43, 65, 35, 19, 0, 22, 74, 74, 75,
/* 30 */ 78, 53, 77, 74, 74, 37,
);
const YY_REDUCE_USE_DFLT = -10;
const YY_REDUCE_MAX = 17;
public static $yy_reduce_ofst = array(
/* 0 */ 33, 28, -9, 46, 36, 52, 63, 58, 61, 5,
/* 10 */ 64, 64, 64, 64, 66, 68, 70, 76,
);
public static $yyExpectedTokens = array(
/* 0 */ array(1, 2, ),
/* 1 */ array(4, 5, 8, 9, ),
/* 2 */ array(4, 5, 8, 9, ),
/* 3 */ array(5, 8, 9, ),
/* 4 */ array(5, 8, 9, ),
/* 5 */ array(1, 2, ),
/* 6 */ array(1, 2, ),
/* 7 */ array(4, ),
/* 8 */ array(2, ),
/* 9 */ array(2, ),
/* 10 */ array(3, 5, 8, 9, ),
/* 11 */ array(3, 5, 8, 9, ),
/* 12 */ array(3, 5, 8, 9, ),
/* 13 */ array(3, 5, 8, 9, ),
/* 14 */ array(5, 8, 9, ),
/* 15 */ array(5, 8, 9, ),
/* 16 */ array(4, 7, ),
/* 17 */ array(2, ),
/* 18 */ array(5, 6, 8, 9, ),
/* 19 */ array(5, 6, 8, 9, ),
/* 20 */ array(5, 8, 9, ),
/* 21 */ array(5, 8, 9, ),
/* 22 */ array(5, 6, ),
/* 23 */ array(5, 6, ),
/* 24 */ array(3, ),
/* 25 */ array(1, ),
/* 26 */ array(7, ),
/* 27 */ array(2, ),
/* 28 */ array(2, ),
/* 29 */ array(5, ),
/* 30 */ array(1, ),
/* 31 */ array(5, ),
/* 32 */ array(1, ),
/* 33 */ array(2, ),
/* 34 */ array(2, ),
/* 35 */ array(1, ),
/* 36 */ array(),
/* 37 */ array(),
/* 38 */ array(),
/* 39 */ array(),
/* 40 */ array(),
/* 41 */ array(),
/* 42 */ array(),
/* 43 */ array(),
/* 44 */ array(),
/* 45 */ array(),
/* 46 */ array(),
/* 47 */ array(),
/* 48 */ array(),
/* 49 */ array(),
/* 50 */ array(),
/* 51 */ array(),
/* 52 */ array(),
/* 53 */ array(),
/* 54 */ array(),
/* 55 */ array(),
/* 56 */ array(),
/* 57 */ array(),
/* 58 */ array(),
/* 59 */ array(),
/* 60 */ array(),
);
public static $yy_default = array(
/* 0 */ 97, 97, 97, 97, 97, 97, 97, 97, 97, 97,
/* 10 */ 97, 97, 97, 97, 97, 97, 97, 97, 97, 97,
/* 20 */ 72, 73, 97, 97, 97, 79, 67, 64, 65, 97,
/* 30 */ 75, 97, 74, 62, 63, 78, 92, 91, 96, 93,
/* 40 */ 95, 70, 68, 94, 71, 82, 69, 84, 77, 87,
/* 50 */ 81, 83, 80, 86, 85, 88, 61, 89, 66, 90,
/* 60 */ 76,
);
/* The next thing included is series of defines which control
** various aspects of the generated parser.
** self::YYNOCODE is a number which corresponds
** to no legal terminal or nonterminal number. This
** number is used to fill in empty slots of the hash
** table.
** self::YYFALLBACK If defined, this indicates that one or more tokens
** have fall-back values which should be used if the
** original value of the token will not parse.
** self::YYSTACKDEPTH is the maximum depth of the parser's stack.
** self::YYNSTATE the combined number of states.
** self::YYNRULE the number of rules in the grammar
** self::YYERRORSYMBOL is the code number of the error symbol. If not
** defined, then do no error processing.
*/
const YYNOCODE = 23;
const YYSTACKDEPTH = 100;
const YYNSTATE = 61;
const YYNRULE = 36;
const YYERRORSYMBOL = 10;
const YYERRSYMDT = 'yy0';
const YYFALLBACK = 0;
/** The next table maps tokens into fallback tokens. If a construct
* like the following:
*
* %fallback ID X Y Z.
*
* appears in the grammer, then ID becomes a fallback token for X, Y,
* and Z. Whenever one of the tokens X, Y, or Z is input to the parser
* but it does not parse, the type of the token is changed to ID and
* the parse is retried before an error is thrown.
*/
public static $yyFallback = array(
);
/**
* Turn parser tracing on by giving a stream to which to write the trace
* and a prompt to preface each trace message. Tracing is turned off
* by making either argument NULL
*
* Inputs:
*
* - A stream resource to which trace output should be written.
* If NULL, then tracing is turned off.
* - A prefix string written at the beginning of every
* line of trace output. If NULL, then tracing is
* turned off.
*
* Outputs:
*
* - None.
* @param resource
* @param string
*/
public static function Trace($TraceFILE, $zTracePrompt)
{
if (!$TraceFILE) {
$zTracePrompt = 0;
} elseif (!$zTracePrompt) {
$TraceFILE = 0;
}
$this->yyTraceFILE = $TraceFILE;
$this->yyTracePrompt = $zTracePrompt;
}
/**
* Output debug information to output (php://output stream)
*/
public static function PrintTrace()
{
$this->yyTraceFILE = fopen('php://output', 'w');
$this->yyTracePrompt = '';
}
/**
* @var resource|0
*/
public $yyTraceFILE;
/**
* String to prepend to debug output
* @var string|0
*/
public $yyTracePrompt;
/**
* @var int
*/
public $yyidx; /* Index of top element in stack */
/**
* @var int
*/
public $yyerrcnt; /* Shifts left before out of the error */
/**
* @var array
*/
public $yystack = array(); /* The parser's stack */
/**
* For tracing shifts, the names of all terminals and nonterminals
* are required. The following table supplies these names
* @var array
*/
public static $yyTokenName = array(
'$', 'PHPCODE', 'COMMENTSTART', 'COMMENTEND',
'PI', 'SUBPATTERN', 'CODE', 'PATTERN',
'QUOTE', 'SINGLEQUOTE', 'error', 'start',
'lexfile', 'declare', 'rules', 'declarations',
'processing_instructions', 'pattern_declarations', 'subpattern', 'rule',
'reset_rules', 'rule_subpattern',
);
/**
* For tracing reduce actions, the names of all rules are required.
* @var array
*/
public static $yyRuleName = array(
/* 0 */ "start ::= lexfile",
/* 1 */ "lexfile ::= declare rules",
/* 2 */ "lexfile ::= declare PHPCODE rules",
/* 3 */ "lexfile ::= PHPCODE declare rules",
/* 4 */ "lexfile ::= PHPCODE declare PHPCODE rules",
/* 5 */ "declare ::= COMMENTSTART declarations COMMENTEND",
/* 6 */ "declarations ::= processing_instructions pattern_declarations",
/* 7 */ "processing_instructions ::= PI SUBPATTERN",
/* 8 */ "processing_instructions ::= PI CODE",
/* 9 */ "processing_instructions ::= processing_instructions PI SUBPATTERN",
/* 10 */ "processing_instructions ::= processing_instructions PI CODE",
/* 11 */ "pattern_declarations ::= PATTERN subpattern",
/* 12 */ "pattern_declarations ::= pattern_declarations PATTERN subpattern",
/* 13 */ "rules ::= COMMENTSTART rule COMMENTEND",
/* 14 */ "rules ::= COMMENTSTART PI SUBPATTERN rule COMMENTEND",
/* 15 */ "rules ::= COMMENTSTART rule COMMENTEND PHPCODE",
/* 16 */ "rules ::= COMMENTSTART PI SUBPATTERN rule COMMENTEND PHPCODE",
/* 17 */ "rules ::= reset_rules rule COMMENTEND",
/* 18 */ "rules ::= reset_rules PI SUBPATTERN rule COMMENTEND",
/* 19 */ "rules ::= reset_rules rule COMMENTEND PHPCODE",
/* 20 */ "rules ::= reset_rules PI SUBPATTERN rule COMMENTEND PHPCODE",
/* 21 */ "reset_rules ::= rules COMMENTSTART",
/* 22 */ "rule ::= rule_subpattern CODE",
/* 23 */ "rule ::= rule rule_subpattern CODE",
/* 24 */ "rule_subpattern ::= QUOTE",
/* 25 */ "rule_subpattern ::= SINGLEQUOTE",
/* 26 */ "rule_subpattern ::= SUBPATTERN",
/* 27 */ "rule_subpattern ::= rule_subpattern QUOTE",
/* 28 */ "rule_subpattern ::= rule_subpattern SINGLEQUOTE",
/* 29 */ "rule_subpattern ::= rule_subpattern SUBPATTERN",
/* 30 */ "subpattern ::= QUOTE",
/* 31 */ "subpattern ::= SINGLEQUOTE",
/* 32 */ "subpattern ::= SUBPATTERN",
/* 33 */ "subpattern ::= subpattern QUOTE",
/* 34 */ "subpattern ::= subpattern SINGLEQUOTE",
/* 35 */ "subpattern ::= subpattern SUBPATTERN",
);
/**
* This function returns the symbolic name associated with a token
* value.
* @param int
* @return string
*/
public function tokenName($tokenType)
{
if ($tokenType === 0) {
return 'End of Input';
}
if ($tokenType > 0 && $tokenType < count(self::$yyTokenName)) {
return self::$yyTokenName[$tokenType];
} else {
return "Unknown";
}
}
/**
* The following function deletes the value associated with a
* symbol. The symbol can be either a terminal or nonterminal.
* @param int the symbol code
* @param mixed the symbol's value
*/
public static function yy_destructor($yymajor, $yypminor)
{
switch ($yymajor) {
/* Here is inserted the actions which take place when a
** terminal or non-terminal is destroyed. This can happen
** when the symbol is popped from the stack during a
** reduce or during error processing or when a parser is
** being destroyed before it is finished parsing.
**
** Note: during a reduce, the only symbols destroyed are those
** which appear on the RHS of the rule, but which are not used
** inside the C code.
*/
default: break; /* If no destructor action specified: do nothing */
}
}
/**
* Pop the parser's stack once.
*
* If there is a destructor routine associated with the token which
* is popped from the stack, then call it.
*
* Return the major token number for the symbol popped.
* @param PHP_LexerGenerator_ParseryyParser
* @return int
*/
public function yy_pop_parser_stack()
{
if (empty($this->yystack)) {
return;
}
$yytos = array_pop($this->yystack);
if ($this->yyTraceFILE && $this->yyidx >= 0) {
fwrite($this->yyTraceFILE,
$this->yyTracePrompt . 'Popping ' . self::$yyTokenName[$yytos->major] .
"\n");
}
$yymajor = $yytos->major;
self::yy_destructor($yymajor, $yytos->minor);
$this->yyidx--;
return $yymajor;
}
/**
* Deallocate and destroy a parser. Destructors are all called for
* all stack elements before shutting the parser down.
*/
public function __destruct()
{
while ($this->yyidx >= 0) {
$this->yy_pop_parser_stack();
}
if (is_resource($this->yyTraceFILE)) {
fclose($this->yyTraceFILE);
}
}
/**
* Based on the current state and parser stack, get a list of all
* possible lookahead tokens
* @param int
* @return array
*/
public function yy_get_expected_tokens($token)
{
$state = $this->yystack[$this->yyidx]->stateno;
$expected = self::$yyExpectedTokens[$state];
if (in_array($token, self::$yyExpectedTokens[$state], true)) {
return $expected;
}
$stack = $this->yystack;
$yyidx = $this->yyidx;
do {
$yyact = $this->yy_find_shift_action($token);
if ($yyact >= self::YYNSTATE && $yyact < self::YYNSTATE + self::YYNRULE) {
// reduce action
$done = 0;
do {
if ($done++ == 100) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
// too much recursion prevents proper detection
// so give up
return array_unique($expected);
}
$yyruleno = $yyact - self::YYNSTATE;
$this->yyidx -= self::$yyRuleInfo[$yyruleno]['rhs'];
$nextstate = $this->yy_find_reduce_action(
$this->yystack[$this->yyidx]->stateno,
self::$yyRuleInfo[$yyruleno]['lhs']);
if (isset(self::$yyExpectedTokens[$nextstate])) {
$expected += self::$yyExpectedTokens[$nextstate];
if (in_array($token,
self::$yyExpectedTokens[$nextstate], true)) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
return array_unique($expected);
}
}
if ($nextstate < self::YYNSTATE) {
// we need to shift a non-terminal
$this->yyidx++;
$x = new PHP_LexerGenerator_ParseryyStackEntry;
$x->stateno = $nextstate;
$x->major = self::$yyRuleInfo[$yyruleno]['lhs'];
$this->yystack[$this->yyidx] = $x;
continue 2;
} elseif ($nextstate == self::YYNSTATE + self::YYNRULE + 1) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
// the last token was just ignored, we can't accept
// by ignoring input, this is in essence ignoring a
// syntax error!
return array_unique($expected);
} elseif ($nextstate === self::YY_NO_ACTION) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
// input accepted, but not shifted (I guess)
return $expected;
} else {
$yyact = $nextstate;
}
} while (true);
}
break;
} while (true);
return array_unique($expected);
}
/**
* Based on the parser state and current parser stack, determine whether
* the lookahead token is possible.
*
* The parser will convert the token value to an error token if not. This
* catches some unusual edge cases where the parser would fail.
* @param int
* @return bool
*/
public function yy_is_expected_token($token)
{
if ($token === 0) {
return true; // 0 is not part of this
}
$state = $this->yystack[$this->yyidx]->stateno;
if (in_array($token, self::$yyExpectedTokens[$state], true)) {
return true;
}
$stack = $this->yystack;
$yyidx = $this->yyidx;
do {
$yyact = $this->yy_find_shift_action($token);
if ($yyact >= self::YYNSTATE && $yyact < self::YYNSTATE + self::YYNRULE) {
// reduce action
$done = 0;
do {
if ($done++ == 100) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
// too much recursion prevents proper detection
// so give up
return true;
}
$yyruleno = $yyact - self::YYNSTATE;
$this->yyidx -= self::$yyRuleInfo[$yyruleno]['rhs'];
$nextstate = $this->yy_find_reduce_action(
$this->yystack[$this->yyidx]->stateno,
self::$yyRuleInfo[$yyruleno]['lhs']);
if (isset(self::$yyExpectedTokens[$nextstate]) &&
in_array($token, self::$yyExpectedTokens[$nextstate], true)) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
return true;
}
if ($nextstate < self::YYNSTATE) {
// we need to shift a non-terminal
$this->yyidx++;
$x = new PHP_LexerGenerator_ParseryyStackEntry;
$x->stateno = $nextstate;
$x->major = self::$yyRuleInfo[$yyruleno]['lhs'];
$this->yystack[$this->yyidx] = $x;
continue 2;
} elseif ($nextstate == self::YYNSTATE + self::YYNRULE + 1) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
if (!$token) {
// end of input: this is valid
return true;
}
// the last token was just ignored, we can't accept
// by ignoring input, this is in essence ignoring a
// syntax error!
return false;
} elseif ($nextstate === self::YY_NO_ACTION) {
$this->yyidx = $yyidx;
$this->yystack = $stack;
// input accepted, but not shifted (I guess)
return true;
} else {
$yyact = $nextstate;
}
} while (true);
}
break;
} while (true);
$this->yyidx = $yyidx;
$this->yystack = $stack;
return true;
}
/**
* Find the appropriate action for a parser given the terminal
* look-ahead token iLookAhead.
*
* If the look-ahead token is YYNOCODE, then check to see if the action is
* independent of the look-ahead. If it is, return the action, otherwise
* return YY_NO_ACTION.
* @param int The look-ahead token
*/
public function yy_find_shift_action($iLookAhead)
{
$stateno = $this->yystack[$this->yyidx]->stateno;
/* if ($this->yyidx < 0) return self::YY_NO_ACTION; */
if (!isset(self::$yy_shift_ofst[$stateno])) {
// no shift actions
return self::$yy_default[$stateno];
}
$i = self::$yy_shift_ofst[$stateno];
if ($i === self::YY_SHIFT_USE_DFLT) {
return self::$yy_default[$stateno];
}
if ($iLookAhead == self::YYNOCODE) {
return self::YY_NO_ACTION;
}
$i += $iLookAhead;
if ($i < 0 || $i >= self::YY_SZ_ACTTAB ||
self::$yy_lookahead[$i] != $iLookAhead) {
if (count(self::$yyFallback) && $iLookAhead < count(self::$yyFallback)
&& ($iFallback = self::$yyFallback[$iLookAhead]) != 0) {
if ($this->yyTraceFILE) {
fwrite($this->yyTraceFILE, $this->yyTracePrompt . "FALLBACK " .
self::$yyTokenName[$iLookAhead] . " => " .
self::$yyTokenName[$iFallback] . "\n");
}
return $this->yy_find_shift_action($iFallback);
}
return self::$yy_default[$stateno];
} else {
return self::$yy_action[$i];
}
}
/**
* Find the appropriate action for a parser given the non-terminal
* look-ahead token $iLookAhead.
*
* If the look-ahead token is self::YYNOCODE, then check to see if the action is
* independent of the look-ahead. If it is, return the action, otherwise
* return self::YY_NO_ACTION.
* @param int Current state number
* @param int The look-ahead token
*/
public function yy_find_reduce_action($stateno, $iLookAhead)
{
/* $stateno = $this->yystack[$this->yyidx]->stateno; */
if (!isset(self::$yy_reduce_ofst[$stateno])) {
return self::$yy_default[$stateno];
}
$i = self::$yy_reduce_ofst[$stateno];
if ($i == self::YY_REDUCE_USE_DFLT) {
return self::$yy_default[$stateno];
}
if ($iLookAhead == self::YYNOCODE) {
return self::YY_NO_ACTION;
}
$i += $iLookAhead;
if ($i < 0 || $i >= self::YY_SZ_ACTTAB ||
self::$yy_lookahead[$i] != $iLookAhead) {
return self::$yy_default[$stateno];
} else {
return self::$yy_action[$i];
}
}
/**
* Perform a shift action.
* @param int The new state to shift in
* @param int The major token to shift in
* @param mixed the minor token to shift in
*/
public function yy_shift($yyNewState, $yyMajor, $yypMinor)
{
$this->yyidx++;
if ($this->yyidx >= self::YYSTACKDEPTH) {
$this->yyidx--;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sStack Overflow!\n", $this->yyTracePrompt);
}
while ($this->yyidx >= 0) {
$this->yy_pop_parser_stack();
}
/* Here code is inserted which will execute if the parser
** stack ever overflows */
return;
}
$yytos = new PHP_LexerGenerator_ParseryyStackEntry;
$yytos->stateno = $yyNewState;
$yytos->major = $yyMajor;
$yytos->minor = $yypMinor;
array_push($this->yystack, $yytos);
if ($this->yyTraceFILE && $this->yyidx > 0) {
fprintf($this->yyTraceFILE, "%sShift %d\n", $this->yyTracePrompt,
$yyNewState);
fprintf($this->yyTraceFILE, "%sStack:", $this->yyTracePrompt);
for ($i = 1; $i <= $this->yyidx; $i++) {
fprintf($this->yyTraceFILE, " %s",
self::$yyTokenName[$this->yystack[$i]->major]);
}
fwrite($this->yyTraceFILE,"\n");
}
}
/**
* The following table contains information about every rule that
* is used during the reduce.
*
* <pre>
* array(
* array(
* int $lhs; Symbol on the left-hand side of the rule
* int $nrhs; Number of right-hand side symbols in the rule
* ),...
* );
* </pre>
*/
public static $yyRuleInfo = array(
array( 'lhs' => 11, 'rhs' => 1 ),
array( 'lhs' => 12, 'rhs' => 2 ),
array( 'lhs' => 12, 'rhs' => 3 ),
array( 'lhs' => 12, 'rhs' => 3 ),
array( 'lhs' => 12, 'rhs' => 4 ),
array( 'lhs' => 13, 'rhs' => 3 ),
array( 'lhs' => 15, 'rhs' => 2 ),
array( 'lhs' => 16, 'rhs' => 2 ),
array( 'lhs' => 16, 'rhs' => 2 ),
array( 'lhs' => 16, 'rhs' => 3 ),
array( 'lhs' => 16, 'rhs' => 3 ),
array( 'lhs' => 17, 'rhs' => 2 ),
array( 'lhs' => 17, 'rhs' => 3 ),
array( 'lhs' => 14, 'rhs' => 3 ),
array( 'lhs' => 14, 'rhs' => 5 ),
array( 'lhs' => 14, 'rhs' => 4 ),
array( 'lhs' => 14, 'rhs' => 6 ),
array( 'lhs' => 14, 'rhs' => 3 ),
array( 'lhs' => 14, 'rhs' => 5 ),
array( 'lhs' => 14, 'rhs' => 4 ),
array( 'lhs' => 14, 'rhs' => 6 ),
array( 'lhs' => 20, 'rhs' => 2 ),
array( 'lhs' => 19, 'rhs' => 2 ),
array( 'lhs' => 19, 'rhs' => 3 ),
array( 'lhs' => 21, 'rhs' => 1 ),
array( 'lhs' => 21, 'rhs' => 1 ),
array( 'lhs' => 21, 'rhs' => 1 ),
array( 'lhs' => 21, 'rhs' => 2 ),
array( 'lhs' => 21, 'rhs' => 2 ),
array( 'lhs' => 21, 'rhs' => 2 ),
array( 'lhs' => 18, 'rhs' => 1 ),
array( 'lhs' => 18, 'rhs' => 1 ),
array( 'lhs' => 18, 'rhs' => 1 ),
array( 'lhs' => 18, 'rhs' => 2 ),
array( 'lhs' => 18, 'rhs' => 2 ),
array( 'lhs' => 18, 'rhs' => 2 ),
);
/**
* The following table contains a mapping of reduce action to method name
* that handles the reduction.
*
* If a rule is not set, it has no handler.
*/
public static $yyReduceMap = array(
1 => 1,
2 => 2,
3 => 3,
4 => 4,
5 => 5,
6 => 6,
7 => 7,
8 => 7,
9 => 9,
10 => 9,
11 => 11,
12 => 12,
13 => 13,
14 => 14,
15 => 15,
16 => 16,
17 => 17,
18 => 18,
19 => 19,
20 => 20,
21 => 21,
22 => 22,
23 => 23,
24 => 24,
25 => 25,
26 => 26,
27 => 27,
28 => 28,
29 => 29,
30 => 30,
31 => 31,
32 => 32,
33 => 33,
34 => 34,
35 => 35,
);
/* Beginning here are the reduction cases. A typical example
** follows:
** #line <lineno> <grammarfile>
** function yy_r0($yymsp){ ... } // User supplied code
** #line <lineno> <thisfile>
*/
#line 438 "Parser.y"
public function yy_r1()
{
fwrite($this->out, '
private $_yy_state = 1;
private $_yy_stack = array();
public function yylex()
{
return $this->{\'yylex\' . $this->_yy_state}();
}
public function yypushstate($state)
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState push %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
array_push($this->_yy_stack, $this->_yy_state);
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yypopstate()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState pop %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
$this->_yy_state = array_pop($this->_yy_stack);
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yybegin($state)
{
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState set %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
');
foreach ($this->yystack[$this->yyidx + 0]->minor as $rule) {
$this->outputRules($rule['rules'], $rule['statename']);
if ($rule['code']) {
fwrite($this->out, $rule['code']);
}
}
}
#line 1352 "Parser.php"
#line 472 "Parser.y"
public function yy_r2()
{
fwrite($this->out, '
private $_yy_stack = array();
public function yylex()
{
return $this->{\'yylex\' . $this->_yy_state}();
}
public function yypushstate($state)
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState push %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
array_push($this->_yy_stack, $this->_yy_state);
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yypopstate()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState pop %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
$this->_yy_state = array_pop($this->_yy_stack);
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yybegin($state)
{
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState set %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
');
if (strlen($this->yystack[$this->yyidx + -1]->minor)) {
fwrite($this->out, $this->yystack[$this->yyidx + -1]->minor);
}
foreach ($this->yystack[$this->yyidx + 0]->minor as $rule) {
$this->outputRules($rule['rules'], $rule['statename']);
if ($rule['code']) {
fwrite($this->out, $rule['code']);
}
}
}
#line 1391 "Parser.php"
#line 509 "Parser.y"
public function yy_r3()
{
if (strlen($this->yystack[$this->yyidx + -2]->minor)) {
fwrite($this->out, $this->yystack[$this->yyidx + -2]->minor);
}
fwrite($this->out, '
private $_yy_state = 1;
private $_yy_stack = array();
public function yylex()
{
return $this->{\'yylex\' . $this->_yy_state}();
}
public function yypushstate($state)
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState push %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
array_push($this->_yy_stack, $this->_yy_state);
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yypopstate()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState pop %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
$this->_yy_state = array_pop($this->_yy_stack);
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yybegin($state)
{
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState set %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
');
foreach ($this->yystack[$this->yyidx + 0]->minor as $rule) {
$this->outputRules($rule['rules'], $rule['statename']);
if ($rule['code']) {
fwrite($this->out, $rule['code']);
}
}
}
#line 1430 "Parser.php"
#line 546 "Parser.y"
public function yy_r4()
{
if (strlen($this->yystack[$this->yyidx + -3]->minor)) {
fwrite($this->out, $this->yystack[$this->yyidx + -3]->minor);
}
fwrite($this->out, '
private $_yy_state = 1;
private $_yy_stack = array();
public function yylex()
{
return $this->{\'yylex\' . $this->_yy_state}();
}
public function yypushstate($state)
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState push %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
array_push($this->_yy_stack, $this->_yy_state);
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yypopstate()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState pop %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
$this->_yy_state = array_pop($this->_yy_stack);
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%snew State %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
public function yybegin($state)
{
$this->_yy_state = $state;
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sState set %s\n", $this->yyTracePrompt, isset($this->state_name[$this->_yy_state]) ? $this->state_name[$this->_yy_state] : $this->_yy_state);
}
}
');
if (strlen($this->yystack[$this->yyidx + -1]->minor)) {
fwrite($this->out, $this->yystack[$this->yyidx + -1]->minor);
}
foreach ($this->yystack[$this->yyidx + 0]->minor as $rule) {
$this->outputRules($rule['rules'], $rule['statename']);
if ($rule['code']) {
fwrite($this->out, $rule['code']);
}
}
}
#line 1472 "Parser.php"
#line 587 "Parser.y"
public function yy_r5()
{
$this->_retvalue = $this->yystack[$this->yyidx + -1]->minor;
$this->patterns = $this->yystack[$this->yyidx + -1]->minor['patterns'];
$this->_patternIndex = 1;
}
#line 1479 "Parser.php"
#line 593 "Parser.y"
public function yy_r6()
{
$expected = array(
'counter' => true,
'input' => true,
'token' => true,
'value' => true,
'line' => true,
);
foreach ($this->yystack[$this->yyidx + -1]->minor as $pi) {
if (isset($expected[$pi['pi']])) {
unset($expected[$pi['pi']]);
continue;
}
if (count($expected)) {
throw new Exception('Processing Instructions "' .
implode(', ', array_keys($expected)) . '" must be defined');
}
}
$expected = array(
'caseinsensitive' => true,
'counter' => true,
'input' => true,
'token' => true,
'value' => true,
'line' => true,
'matchlongest' => true,
'unicode' => true,
);
foreach ($this->yystack[$this->yyidx + -1]->minor as $pi) {
if (isset($expected[$pi['pi']])) {
$this->{$pi['pi']} = $pi['definition'];
if ($pi['pi'] == 'matchlongest') {
$this->matchlongest = true;
}
continue;
}
$this->error('Unknown processing instruction %' . $pi['pi'] .
', should be one of "' . implode(', ', array_keys($expected)) . '"');
}
$this->patternFlags = ($this->caseinsensitive ? 'i' : '')
. ($this->unicode ? 'u' : '');
$this->_retvalue = array('patterns' => $this->yystack[$this->yyidx + 0]->minor, 'pis' => $this->yystack[$this->yyidx + -1]->minor);
$this->_patternIndex = 1;
}
#line 1525 "Parser.php"
#line 638 "Parser.y"
public function yy_r7()
{
$this->_retvalue = array(array('pi' => $this->yystack[$this->yyidx + -1]->minor, 'definition' => $this->yystack[$this->yyidx + 0]->minor));
}
#line 1530 "Parser.php"
#line 644 "Parser.y"
public function yy_r9()
{
$this->_retvalue = $this->yystack[$this->yyidx + -2]->minor;
$this->_retvalue[] = array('pi' => $this->yystack[$this->yyidx + -1]->minor, 'definition' => $this->yystack[$this->yyidx + 0]->minor);
}
#line 1536 "Parser.php"
#line 653 "Parser.y"
public function yy_r11()
{
$this->_retvalue = array($this->yystack[$this->yyidx + -1]->minor => $this->yystack[$this->yyidx + 0]->minor);
// reset internal indicator of where we are in a pattern
$this->_patternIndex = 0;
}
#line 1543 "Parser.php"
#line 658 "Parser.y"
public function yy_r12()
{
$this->_retvalue = $this->yystack[$this->yyidx + -2]->minor;
if (isset($this->_retvalue[$this->yystack[$this->yyidx + -1]->minor])) {
throw new Exception('Pattern "' . $this->yystack[$this->yyidx + -1]->minor . '" is already defined as "' .
$this->_retvalue[$this->yystack[$this->yyidx + -1]->minor] . '", cannot redefine as "' . $this->yystack[$this->yyidx + 0]->minor->string . '"');
}
$this->_retvalue[$this->yystack[$this->yyidx + -1]->minor] = $this->yystack[$this->yyidx + 0]->minor;
// reset internal indicator of where we are in a pattern declaration
$this->_patternIndex = 0;
}
#line 1555 "Parser.php"
#line 669 "Parser.y"
public function yy_r13()
{
$this->_retvalue = array(array('rules' => $this->yystack[$this->yyidx + -1]->minor, 'code' => '', 'statename' => ''));
}
#line 1560 "Parser.php"
#line 672 "Parser.y"
public function yy_r14()
{
if ($this->yystack[$this->yyidx + -3]->minor != 'statename') {
throw new Exception('Error: only %statename processing instruction ' .
'is allowed in rule sections (found ' . $this->yystack[$this->yyidx + -3]->minor . ').');
}
$this->_retvalue = array(array('rules' => $this->yystack[$this->yyidx + -1]->minor, 'code' => '', 'statename' => $this->yystack[$this->yyidx + -2]->minor));
}
#line 1569 "Parser.php"
#line 679 "Parser.y"
public function yy_r15()
{
$this->_retvalue = array(array('rules' => $this->yystack[$this->yyidx + -2]->minor, 'code' => $this->yystack[$this->yyidx + 0]->minor, 'statename' => ''));
}
#line 1574 "Parser.php"
#line 682 "Parser.y"
public function yy_r16()
{
if ($this->yystack[$this->yyidx + -4]->minor != 'statename') {
throw new Exception('Error: only %statename processing instruction ' .
'is allowed in rule sections (found ' . $this->yystack[$this->yyidx + -4]->minor . ').');
}
$this->_retvalue = array(array('rules' => $this->yystack[$this->yyidx + -2]->minor, 'code' => $this->yystack[$this->yyidx + 0]->minor, 'statename' => $this->yystack[$this->yyidx + -3]->minor));
$this->_patternIndex = 1;
}
#line 1584 "Parser.php"
#line 690 "Parser.y"
public function yy_r17()
{
$this->_retvalue = $this->yystack[$this->yyidx + -2]->minor;
$this->_retvalue[] = array('rules' => $this->yystack[$this->yyidx + -1]->minor, 'code' => '', 'statename' => '');
$this->_patternIndex = 1;
}
#line 1591 "Parser.php"
#line 695 "Parser.y"
public function yy_r18()
{
if ($this->yystack[$this->yyidx + -3]->minor != 'statename') {
throw new Exception('Error: only %statename processing instruction ' .
'is allowed in rule sections (found ' . $this->yystack[$this->yyidx + -3]->minor . ').');
}
$this->_retvalue = $this->yystack[$this->yyidx + -4]->minor;
$this->_retvalue[] = array('rules' => $this->yystack[$this->yyidx + -1]->minor, 'code' => '', 'statename' => $this->yystack[$this->yyidx + -2]->minor);
}
#line 1601 "Parser.php"
#line 703 "Parser.y"
public function yy_r19()
{
$this->_retvalue = $this->yystack[$this->yyidx + -3]->minor;
$this->_retvalue[] = array('rules' => $this->yystack[$this->yyidx + -2]->minor, 'code' => $this->yystack[$this->yyidx + 0]->minor, 'statename' => '');
}
#line 1607 "Parser.php"
#line 707 "Parser.y"
public function yy_r20()
{
if ($this->yystack[$this->yyidx + -4]->minor != 'statename') {
throw new Exception('Error: only %statename processing instruction ' .
'is allowed in rule sections (found ' . $this->yystack[$this->yyidx + -4]->minor . ').');
}
$this->_retvalue = $this->yystack[$this->yyidx + -5]->minor;
$this->_retvalue[] = array('rules' => $this->yystack[$this->yyidx + -2]->minor, 'code' => $this->yystack[$this->yyidx + 0]->minor, 'statename' => $this->yystack[$this->yyidx + -3]->minor);
}
#line 1617 "Parser.php"
#line 716 "Parser.y"
public function yy_r21()
{
$this->_retvalue = $this->yystack[$this->yyidx + -1]->minor;
$this->_patternIndex = 1;
}
#line 1623 "Parser.php"
#line 721 "Parser.y"
public function yy_r22()
{
$name = $this->yystack[$this->yyidx + -1]->minor[1];
$this->yystack[$this->yyidx + -1]->minor = $this->yystack[$this->yyidx + -1]->minor[0];
$this->yystack[$this->yyidx + -1]->minor = $this->_validatePattern($this->yystack[$this->yyidx + -1]->minor);
$this->_patternIndex += $this->yystack[$this->yyidx + -1]->minor['subpatterns'] + 1;
if (@preg_match('/' . str_replace('/', '\\/', $this->yystack[$this->yyidx + -1]->minor['pattern']) . '/', '')) {
$this->error('Rule "' . $name . '" can match the empty string, this will break lexing');
}
$this->_retvalue = array(array('pattern' => str_replace('/', '\\/', $this->yystack[$this->yyidx + -1]->minor->string), 'code' => $this->yystack[$this->yyidx + 0]->minor, 'subpatterns' => $this->yystack[$this->yyidx + -1]->minor['subpatterns']));
}
#line 1635 "Parser.php"
#line 731 "Parser.y"
public function yy_r23()
{
$this->_retvalue = $this->yystack[$this->yyidx + -2]->minor;
$name = $this->yystack[$this->yyidx + -1]->minor[1];
$this->yystack[$this->yyidx + -1]->minor = $this->yystack[$this->yyidx + -1]->minor[0];
$this->yystack[$this->yyidx + -1]->minor = $this->_validatePattern($this->yystack[$this->yyidx + -1]->minor);
$this->_patternIndex += $this->yystack[$this->yyidx + -1]->minor['subpatterns'] + 1;
if (@preg_match('/' . str_replace('/', '\\/', $this->yystack[$this->yyidx + -1]->minor['pattern']) . '/', '')) {
$this->error('Rule "' . $name . '" can match the empty string, this will break lexing');
}
$this->_retvalue[] = array('pattern' => str_replace('/', '\\/', $this->yystack[$this->yyidx + -1]->minor->string), 'code' => $this->yystack[$this->yyidx + 0]->minor, 'subpatterns' => $this->yystack[$this->yyidx + -1]->minor['subpatterns']);
}
#line 1648 "Parser.php"
#line 743 "Parser.y"
public function yy_r24()
{
$this->_retvalue = array(preg_quote($this->yystack[$this->yyidx + 0]->minor, '/'), $this->yystack[$this->yyidx + 0]->minor);
}
#line 1653 "Parser.php"
#line 746 "Parser.y"
public function yy_r25()
{
$this->_retvalue = array($this->makeCaseInsensitve(preg_quote($this->yystack[$this->yyidx + 0]->minor, '/')), $this->yystack[$this->yyidx + 0]->minor);
}
#line 1658 "Parser.php"
#line 749 "Parser.y"
public function yy_r26()
{
if (!isset($this->patterns[$this->yystack[$this->yyidx + 0]->minor])) {
$this->error('Undefined pattern "' . $this->yystack[$this->yyidx + 0]->minor . '" used in rules');
throw new Exception('Undefined pattern "' . $this->yystack[$this->yyidx + 0]->minor . '" used in rules');
}
$this->_retvalue = array($this->patterns[$this->yystack[$this->yyidx + 0]->minor], $this->yystack[$this->yyidx + 0]->minor);
}
#line 1667 "Parser.php"
#line 756 "Parser.y"
public function yy_r27()
{
$this->_retvalue = array($this->yystack[$this->yyidx + -1]->minor[0] . preg_quote($this->yystack[$this->yyidx + 0]->minor, '/'), $this->yystack[$this->yyidx + -1]->minor[1] . ' ' . $this->yystack[$this->yyidx + 0]->minor);
}
#line 1672 "Parser.php"
#line 759 "Parser.y"
public function yy_r28()
{
$this->_retvalue = array($this->yystack[$this->yyidx + -1]->minor[0] . $this->makeCaseInsensitve(preg_quote($this->yystack[$this->yyidx + 0]->minor, '/')), $this->yystack[$this->yyidx + -1]->minor[1] . ' ' . $this->yystack[$this->yyidx + 0]->minor);
}
#line 1677 "Parser.php"
#line 762 "Parser.y"
public function yy_r29()
{
if (!isset($this->patterns[$this->yystack[$this->yyidx + 0]->minor])) {
$this->error('Undefined pattern "' . $this->yystack[$this->yyidx + 0]->minor . '" used in rules');
throw new Exception('Undefined pattern "' . $this->yystack[$this->yyidx + 0]->minor . '" used in rules');
}
$this->_retvalue = array($this->yystack[$this->yyidx + -1]->minor[0] . $this->patterns[$this->yystack[$this->yyidx + 0]->minor], $this->yystack[$this->yyidx + -1]->minor[1] . ' ' . $this->yystack[$this->yyidx + 0]->minor);
}
#line 1686 "Parser.php"
#line 770 "Parser.y"
public function yy_r30()
{
$this->_retvalue = preg_quote($this->yystack[$this->yyidx + 0]->minor, '/');
}
#line 1691 "Parser.php"
#line 773 "Parser.y"
public function yy_r31()
{
$this->_retvalue = $this->makeCaseInsensitve(preg_quote($this->yystack[$this->yyidx + 0]->minor, '/'));
}
#line 1696 "Parser.php"
#line 776 "Parser.y"
public function yy_r32()
{
// increment internal sub-pattern counter
// adjust back-references in pattern based on previous pattern
$test = $this->_validatePattern($this->yystack[$this->yyidx + 0]->minor, true);
$this->_patternIndex += $test['subpatterns'];
$this->_retvalue = $test['pattern'];
}
#line 1705 "Parser.php"
#line 783 "Parser.y"
public function yy_r33()
{
$this->_retvalue = $this->yystack[$this->yyidx + -1]->minor . preg_quote($this->yystack[$this->yyidx + 0]->minor, '/');
}
#line 1710 "Parser.php"
#line 786 "Parser.y"
public function yy_r34()
{
$this->_retvalue = $this->yystack[$this->yyidx + -1]->minor . $this->makeCaseInsensitve(preg_quote($this->yystack[$this->yyidx + 0]->minor, '/'));
}
#line 1715 "Parser.php"
#line 789 "Parser.y"
public function yy_r35()
{
// increment internal sub-pattern counter
// adjust back-references in pattern based on previous pattern
$test = $this->_validatePattern($this->yystack[$this->yyidx + 0]->minor, true);
$this->_patternIndex += $test['subpatterns'];
$this->_retvalue = $this->yystack[$this->yyidx + -1]->minor . $test['pattern'];
}
#line 1724 "Parser.php"
/**
* placeholder for the left hand side in a reduce operation.
*
* For a parser with a rule like this:
* <pre>
* rule(A) ::= B. { A = 1; }
* </pre>
*
* The parser will translate to something like:
*
* <code>
* function yy_r0(){$this->_retvalue = 1;}
* </code>
*/
private $_retvalue;
/**
* Perform a reduce action and the shift that must immediately
* follow the reduce.
*
* For a rule such as:
*
* <pre>
* A ::= B blah C. { dosomething(); }
* </pre>
*
* This function will first call the action, if any, ("dosomething();" in our
* example), and then it will pop three states from the stack,
* one for each entry on the right-hand side of the expression
* (B, blah, and C in our example rule), and then push the result of the action
* back on to the stack with the resulting state reduced to (as described in the .out
* file)
* @param int Number of the rule by which to reduce
*/
public function yy_reduce($yyruleno)
{
//int $yygoto; /* The next state */
//int $yyact; /* The next action */
//mixed $yygotominor; /* The LHS of the rule reduced */
//PHP_LexerGenerator_ParseryyStackEntry $yymsp; /* The top of the parser's stack */
//int $yysize; /* Amount to pop the stack */
if ($this->yyTraceFILE && $yyruleno >= 0
&& $yyruleno < count(self::$yyRuleName)) {
fprintf($this->yyTraceFILE, "%sReduce (%d) [%s].\n",
$this->yyTracePrompt, $yyruleno,
self::$yyRuleName[$yyruleno]);
}
$this->_retvalue = $yy_lefthand_side = null;
if (isset(self::$yyReduceMap[$yyruleno])) {
// call the action
$this->_retvalue = null;
$this->{'yy_r' . self::$yyReduceMap[$yyruleno]}();
$yy_lefthand_side = $this->_retvalue;
}
$yygoto = self::$yyRuleInfo[$yyruleno]['lhs'];
$yysize = self::$yyRuleInfo[$yyruleno]['rhs'];
$this->yyidx -= $yysize;
for ($i = $yysize; $i; $i--) {
// pop all of the right-hand side parameters
array_pop($this->yystack);
}
$yyact = $this->yy_find_reduce_action($this->yystack[$this->yyidx]->stateno, $yygoto);
if ($yyact < self::YYNSTATE) {
/* If we are not debugging and the reduce action popped at least
** one element off the stack, then we can push the new element back
** onto the stack here, and skip the stack overflow test in yy_shift().
** That gives a significant speed improvement. */
if (!$this->yyTraceFILE && $yysize) {
$this->yyidx++;
$x = new PHP_LexerGenerator_ParseryyStackEntry;
$x->stateno = $yyact;
$x->major = $yygoto;
$x->minor = $yy_lefthand_side;
$this->yystack[$this->yyidx] = $x;
} else {
$this->yy_shift($yyact, $yygoto, $yy_lefthand_side);
}
} elseif ($yyact == self::YYNSTATE + self::YYNRULE + 1) {
$this->yy_accept();
}
}
/**
* The following code executes when the parse fails
*
* Code from %parse_fail is inserted here
*/
public function yy_parse_failed()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sFail!\n", $this->yyTracePrompt);
}
while ($this->yyidx >= 0) {
$this->yy_pop_parser_stack();
}
/* Here code is inserted which will be executed whenever the
** parser fails */
}
/**
* The following code executes when a syntax error first occurs.
*
* %syntax_error code is inserted here
* @param int The major type of the error token
* @param mixed The minor type of the error token
*/
public function yy_syntax_error($yymajor, $TOKEN)
{
#line 70 "Parser.y"
echo "Syntax Error on line " . $this->lex->line . ": token '" .
$this->lex->value . "' while parsing rule:";
foreach ($this->yystack as $entry) {
echo $this->tokenName($entry->major) . ' ';
}
foreach ($this->yy_get_expected_tokens($yymajor) as $token) {
$expect[] = self::$yyTokenName[$token];
}
throw new Exception('Unexpected ' . $this->tokenName($yymajor) . '(' . $TOKEN
. '), expected one of: ' . implode(',', $expect));
#line 1849 "Parser.php"
}
/**
* The following is executed when the parser accepts
*
* %parse_accept code is inserted here
*/
public function yy_accept()
{
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sAccept!\n", $this->yyTracePrompt);
} while ($this->yyidx >= 0) {
$stack = $this->yy_pop_parser_stack();
}
/* Here code is inserted which will be executed whenever the
** parser accepts */
}
/**
* The main parser program.
*
* The first argument is the major token number. The second is
* the token value string as scanned from the input.
*
* @param int the token number
* @param mixed the token value
* @param mixed any extra arguments that should be passed to handlers
*/
public function doParse($yymajor, $yytokenvalue)
{
// $yyact; /* The parser action. */
// $yyendofinput; /* True if we are at the end of input */
$yyerrorhit = 0; /* True if yymajor has invoked an error */
/* (re)initialize the parser, if necessary */
if ($this->yyidx === null || $this->yyidx < 0) {
/* if ($yymajor == 0) return; // not sure why this was here... */
$this->yyidx = 0;
$this->yyerrcnt = -1;
$x = new PHP_LexerGenerator_ParseryyStackEntry;
$x->stateno = 0;
$x->major = 0;
$this->yystack = array();
array_push($this->yystack, $x);
}
$yyendofinput = ($yymajor==0);
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sInput %s\n",
$this->yyTracePrompt, self::$yyTokenName[$yymajor]);
}
do {
$yyact = $this->yy_find_shift_action($yymajor);
if ($yymajor < self::YYERRORSYMBOL &&
!$this->yy_is_expected_token($yymajor)) {
// force a syntax error
$yyact = self::YY_ERROR_ACTION;
}
if ($yyact < self::YYNSTATE) {
$this->yy_shift($yyact, $yymajor, $yytokenvalue);
$this->yyerrcnt--;
if ($yyendofinput && $this->yyidx >= 0) {
$yymajor = 0;
} else {
$yymajor = self::YYNOCODE;
}
} elseif ($yyact < self::YYNSTATE + self::YYNRULE) {
$this->yy_reduce($yyact - self::YYNSTATE);
} elseif ($yyact == self::YY_ERROR_ACTION) {
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sSyntax Error!\n",
$this->yyTracePrompt);
}
if (self::YYERRORSYMBOL) {
/* A syntax error has occurred.
** The response to an error depends upon whether or not the
** grammar defines an error token "ERROR".
**
** This is what we do if the grammar does define ERROR:
**
** * Call the %syntax_error function.
**
** * Begin popping the stack until we enter a state where
** it is legal to shift the error symbol, then shift
** the error symbol.
**
** * Set the error count to three.
**
** * Begin accepting and shifting new tokens. No new error
** processing will occur until three tokens have been
** shifted successfully.
**
*/
if ($this->yyerrcnt < 0) {
$this->yy_syntax_error($yymajor, $yytokenvalue);
}
$yymx = $this->yystack[$this->yyidx]->major;
if ($yymx == self::YYERRORSYMBOL || $yyerrorhit) {
if ($this->yyTraceFILE) {
fprintf($this->yyTraceFILE, "%sDiscard input token %s\n",
$this->yyTracePrompt, self::$yyTokenName[$yymajor]);
}
$this->yy_destructor($yymajor, $yytokenvalue);
$yymajor = self::YYNOCODE;
} else {
while ($this->yyidx >= 0 &&
$yymx != self::YYERRORSYMBOL &&
($yyact = $this->yy_find_shift_action(self::YYERRORSYMBOL)) >= self::YYNSTATE
){
$this->yy_pop_parser_stack();
}
if ($this->yyidx < 0 || $yymajor==0) {
$this->yy_destructor($yymajor, $yytokenvalue);
$this->yy_parse_failed();
$yymajor = self::YYNOCODE;
} elseif ($yymx != self::YYERRORSYMBOL) {
$u2 = 0;
$this->yy_shift($yyact, self::YYERRORSYMBOL, $u2);
}
}
$this->yyerrcnt = 3;
$yyerrorhit = 1;
} else {
/* YYERRORSYMBOL is not defined */
/* This is what we do if the grammar does not define ERROR:
**
** * Report an error message, and throw away the input token.
**
** * If the input token is $, then fail the parse.
**
** As before, subsequent error messages are suppressed until
** three input tokens have been successfully shifted.
*/
if ($this->yyerrcnt <= 0) {
$this->yy_syntax_error($yymajor, $yytokenvalue);
}
$this->yyerrcnt = 3;
$this->yy_destructor($yymajor, $yytokenvalue);
if ($yyendofinput) {
$this->yy_parse_failed();
}
$yymajor = self::YYNOCODE;
}
} else {
$this->yy_accept();
$yymajor = self::YYNOCODE;
}
} while ($yymajor != self::YYNOCODE && $this->yyidx >= 0);
}
}
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