<?php
class PHPParser_Lexer
{
protected $code;
protected $tokens;
protected $pos;
protected $line;
protected $tokenMap;
protected $dropTokens;
/**
* Creates a Lexer.
*/
public function __construct() {
// map from internal tokens to PHPParser tokens
$this->tokenMap = $this->createTokenMap();
// map of tokens to drop while lexing (the map is only used for isset lookup,
// that's why the value is simply set to 1; the value is never actually used.)
$this->dropTokens = array_fill_keys(array(T_WHITESPACE, T_OPEN_TAG), 1);
}
/**
* Initializes the lexer for lexing the provided source code.
*
* @param string $code The source code to lex
*
* @throws PHPParser_Error on lexing errors (unterminated comment or unexpected character)
*/
public function startLexing($code) {
$this->resetErrors();
$this->tokens = @token_get_all($code);
$this->handleErrors();
$this->code = $code; // keep the code around for __halt_compiler() handling
$this->pos = -1;
$this->line = 1;
}
protected function resetErrors() {
// clear error_get_last() by forcing an undefined variable error
@$undefinedVariable;
}
protected function handleErrors() {
$error = error_get_last();
if (preg_match(
'~^Unterminated comment starting line ([0-9]+)$~',
$error['message'], $matches
)) {
throw new PHPParser_Error('Unterminated comment', $matches[1]);
}
if (preg_match(
'~^Unexpected character in input: \'(.)\' \(ASCII=([0-9]+)\)~s',
$error['message'], $matches
)) {
throw new PHPParser_Error(sprintf(
'Unexpected character "%s" (ASCII %d)',
$matches[1], $matches[2]
));
}
// PHP cuts error message after null byte, so need special case
if (preg_match('~^Unexpected character in input: \'$~', $error['message'])) {
throw new PHPParser_Error('Unexpected null byte');
}
}
/**
* Fetches the next token.
*
* @param mixed $value Variable to store token content in
* @param mixed $startAttributes Variable to store start attributes in
* @param mixed $endAttributes Variable to store end attributes in
*
* @return int Token id
*/
public function getNextToken(&$value = null, &$startAttributes = null, &$endAttributes = null) {
$startAttributes = array();
$endAttributes = array();
while (isset($this->tokens[++$this->pos])) {
$token = $this->tokens[$this->pos];
if (is_string($token)) {
$startAttributes['startLine'] = $this->line;
$endAttributes['endLine'] = $this->line;
// bug in token_get_all
if ('b"' === $token) {
$value = 'b"';
return ord('"');
} else {
$value = $token;
return ord($token);
}
} else {
$this->line += substr_count($token[1], "\n");
if (T_COMMENT === $token[0]) {
$startAttributes['comments'][] = new PHPParser_Comment($token[1], $token[2]);
} elseif (T_DOC_COMMENT === $token[0]) {
$startAttributes['comments'][] = new PHPParser_Comment_Doc($token[1], $token[2]);
} elseif (!isset($this->dropTokens[$token[0]])) {
$value = $token[1];
$startAttributes['startLine'] = $token[2];
$endAttributes['endLine'] = $this->line;
return $this->tokenMap[$token[0]];
}
}
}
$startAttributes['startLine'] = $this->line;
// 0 is the EOF token
return 0;
}
/**
* Handles __halt_compiler() by returning the text after it.
*
* @return string Remaining text
*/
public function handleHaltCompiler() {
// get the length of the text before the T_HALT_COMPILER token
$textBefore = '';
for ($i = 0; $i <= $this->pos; ++$i) {
if (is_string($this->tokens[$i])) {
$textBefore .= $this->tokens[$i];
} else {
$textBefore .= $this->tokens[$i][1];
}
}
// text after T_HALT_COMPILER, still including ();
$textAfter = substr($this->code, strlen($textBefore));
// ensure that it is followed by ();
// this simplifies the situation, by not allowing any comments
// in between of the tokens.
if (!preg_match('~\s*\(\s*\)\s*(?:;|\?>\r?\n?)~', $textAfter, $matches)) {
throw new PHPParser_Error('__halt_compiler must be followed by "();"');
}
// prevent the lexer from returning any further tokens
$this->pos = count($this->tokens);
// return with (); removed
return (string) substr($textAfter, strlen($matches[0])); // (string) converts false to ''
}
/**
* Creates the token map.
*
* The token map maps the PHP internal token identifiers
* to the identifiers used by the Parser. Additionally it
* maps T_OPEN_TAG_WITH_ECHO to T_ECHO and T_CLOSE_TAG to ';'.
*
* @return array The token map
*/
protected function createTokenMap() {
$tokenMap = array();
// 256 is the minimum possible token number, as everything below
// it is an ASCII value
for ($i = 256; $i < 1000; ++$i) {
// T_DOUBLE_COLON is equivalent to T_PAAMAYIM_NEKUDOTAYIM
if (T_DOUBLE_COLON === $i) {
$tokenMap[$i] = PHPParser_Parser::T_PAAMAYIM_NEKUDOTAYIM;
// T_OPEN_TAG_WITH_ECHO with dropped T_OPEN_TAG results in T_ECHO
} elseif(T_OPEN_TAG_WITH_ECHO === $i) {
$tokenMap[$i] = PHPParser_Parser::T_ECHO;
// T_CLOSE_TAG is equivalent to ';'
} elseif(T_CLOSE_TAG === $i) {
$tokenMap[$i] = ord(';');
// and the others can be mapped directly
} elseif ('UNKNOWN' !== ($name = token_name($i))
&& defined($name = 'PHPParser_Parser::' . $name)
) {
$tokenMap[$i] = constant($name);
}
}
return $tokenMap;
}
}