TimeTrex/vendor/nikic/php-parser/lib/PhpParser/ParserAbstract.php

1040 lines
40 KiB
PHP

<?php declare(strict_types=1);
namespace PhpParser;
/*
* This parser is based on a skeleton written by Moriyoshi Koizumi, which in
* turn is based on work by Masato Bito.
*/
use PhpParser\Node\Expr;
use PhpParser\Node\Expr\Cast\Double;
use PhpParser\Node\Name;
use PhpParser\Node\Param;
use PhpParser\Node\Scalar\Encapsed;
use PhpParser\Node\Scalar\LNumber;
use PhpParser\Node\Scalar\String_;
use PhpParser\Node\Stmt\Class_;
use PhpParser\Node\Stmt\ClassConst;
use PhpParser\Node\Stmt\ClassMethod;
use PhpParser\Node\Stmt\Enum_;
use PhpParser\Node\Stmt\Interface_;
use PhpParser\Node\Stmt\Namespace_;
use PhpParser\Node\Stmt\Property;
use PhpParser\Node\Stmt\TryCatch;
use PhpParser\Node\Stmt\UseUse;
use PhpParser\Node\VarLikeIdentifier;
abstract class ParserAbstract implements Parser
{
const SYMBOL_NONE = -1;
/*
* The following members will be filled with generated parsing data:
*/
/** @var int Size of $tokenToSymbol map */
protected $tokenToSymbolMapSize;
/** @var int Size of $action table */
protected $actionTableSize;
/** @var int Size of $goto table */
protected $gotoTableSize;
/** @var int Symbol number signifying an invalid token */
protected $invalidSymbol;
/** @var int Symbol number of error recovery token */
protected $errorSymbol;
/** @var int Action number signifying default action */
protected $defaultAction;
/** @var int Rule number signifying that an unexpected token was encountered */
protected $unexpectedTokenRule;
protected $YY2TBLSTATE;
/** @var int Number of non-leaf states */
protected $numNonLeafStates;
/** @var int[] Map of lexer tokens to internal symbols */
protected $tokenToSymbol;
/** @var string[] Map of symbols to their names */
protected $symbolToName;
/** @var array Names of the production rules (only necessary for debugging) */
protected $productions;
/** @var int[] Map of states to a displacement into the $action table. The corresponding action for this
* state/symbol pair is $action[$actionBase[$state] + $symbol]. If $actionBase[$state] is 0, the
* action is defaulted, i.e. $actionDefault[$state] should be used instead. */
protected $actionBase;
/** @var int[] Table of actions. Indexed according to $actionBase comment. */
protected $action;
/** @var int[] Table indexed analogously to $action. If $actionCheck[$actionBase[$state] + $symbol] != $symbol
* then the action is defaulted, i.e. $actionDefault[$state] should be used instead. */
protected $actionCheck;
/** @var int[] Map of states to their default action */
protected $actionDefault;
/** @var callable[] Semantic action callbacks */
protected $reduceCallbacks;
/** @var int[] Map of non-terminals to a displacement into the $goto table. The corresponding goto state for this
* non-terminal/state pair is $goto[$gotoBase[$nonTerminal] + $state] (unless defaulted) */
protected $gotoBase;
/** @var int[] Table of states to goto after reduction. Indexed according to $gotoBase comment. */
protected $goto;
/** @var int[] Table indexed analogously to $goto. If $gotoCheck[$gotoBase[$nonTerminal] + $state] != $nonTerminal
* then the goto state is defaulted, i.e. $gotoDefault[$nonTerminal] should be used. */
protected $gotoCheck;
/** @var int[] Map of non-terminals to the default state to goto after their reduction */
protected $gotoDefault;
/** @var int[] Map of rules to the non-terminal on their left-hand side, i.e. the non-terminal to use for
* determining the state to goto after reduction. */
protected $ruleToNonTerminal;
/** @var int[] Map of rules to the length of their right-hand side, which is the number of elements that have to
* be popped from the stack(s) on reduction. */
protected $ruleToLength;
/*
* The following members are part of the parser state:
*/
/** @var Lexer Lexer that is used when parsing */
protected $lexer;
/** @var mixed Temporary value containing the result of last semantic action (reduction) */
protected $semValue;
/** @var array Semantic value stack (contains values of tokens and semantic action results) */
protected $semStack;
/** @var array[] Start attribute stack */
protected $startAttributeStack;
/** @var array[] End attribute stack */
protected $endAttributeStack;
/** @var array End attributes of last *shifted* token */
protected $endAttributes;
/** @var array Start attributes of last *read* token */
protected $lookaheadStartAttributes;
/** @var ErrorHandler Error handler */
protected $errorHandler;
/** @var int Error state, used to avoid error floods */
protected $errorState;
/**
* Initialize $reduceCallbacks map.
*/
abstract protected function initReduceCallbacks();
/**
* Creates a parser instance.
*
* Options: Currently none.
*
* @param Lexer $lexer A lexer
* @param array $options Options array.
*/
public function __construct(Lexer $lexer, array $options = []) {
$this->lexer = $lexer;
if (isset($options['throwOnError'])) {
throw new \LogicException(
'"throwOnError" is no longer supported, use "errorHandler" instead');
}
$this->initReduceCallbacks();
}
/**
* Parses PHP code into a node tree.
*
* If a non-throwing error handler is used, the parser will continue parsing after an error
* occurred and attempt to build a partial AST.
*
* @param string $code The source code to parse
* @param ErrorHandler|null $errorHandler Error handler to use for lexer/parser errors, defaults
* to ErrorHandler\Throwing.
*
* @return Node\Stmt[]|null Array of statements (or null non-throwing error handler is used and
* the parser was unable to recover from an error).
*/
public function parse(string $code, ErrorHandler $errorHandler = null) {
$this->errorHandler = $errorHandler ?: new ErrorHandler\Throwing;
$this->lexer->startLexing($code, $this->errorHandler);
$result = $this->doParse();
// Clear out some of the interior state, so we don't hold onto unnecessary
// memory between uses of the parser
$this->startAttributeStack = [];
$this->endAttributeStack = [];
$this->semStack = [];
$this->semValue = null;
return $result;
}
protected function doParse() {
// We start off with no lookahead-token
$symbol = self::SYMBOL_NONE;
// The attributes for a node are taken from the first and last token of the node.
// From the first token only the startAttributes are taken and from the last only
// the endAttributes. Both are merged using the array union operator (+).
$startAttributes = [];
$endAttributes = [];
$this->endAttributes = $endAttributes;
// Keep stack of start and end attributes
$this->startAttributeStack = [];
$this->endAttributeStack = [$endAttributes];
// Start off in the initial state and keep a stack of previous states
$state = 0;
$stateStack = [$state];
// Semantic value stack (contains values of tokens and semantic action results)
$this->semStack = [];
// Current position in the stack(s)
$stackPos = 0;
$this->errorState = 0;
for (;;) {
//$this->traceNewState($state, $symbol);
if ($this->actionBase[$state] === 0) {
$rule = $this->actionDefault[$state];
} else {
if ($symbol === self::SYMBOL_NONE) {
// Fetch the next token id from the lexer and fetch additional info by-ref.
// The end attributes are fetched into a temporary variable and only set once the token is really
// shifted (not during read). Otherwise you would sometimes get off-by-one errors, when a rule is
// reduced after a token was read but not yet shifted.
$tokenId = $this->lexer->getNextToken($tokenValue, $startAttributes, $endAttributes);
// map the lexer token id to the internally used symbols
$symbol = $tokenId >= 0 && $tokenId < $this->tokenToSymbolMapSize
? $this->tokenToSymbol[$tokenId]
: $this->invalidSymbol;
if ($symbol === $this->invalidSymbol) {
throw new \RangeException(sprintf(
'The lexer returned an invalid token (id=%d, value=%s)',
$tokenId, $tokenValue
));
}
// Allow productions to access the start attributes of the lookahead token.
$this->lookaheadStartAttributes = $startAttributes;
//$this->traceRead($symbol);
}
$idx = $this->actionBase[$state] + $symbol;
if ((($idx >= 0 && $idx < $this->actionTableSize && $this->actionCheck[$idx] === $symbol)
|| ($state < $this->YY2TBLSTATE
&& ($idx = $this->actionBase[$state + $this->numNonLeafStates] + $symbol) >= 0
&& $idx < $this->actionTableSize && $this->actionCheck[$idx] === $symbol))
&& ($action = $this->action[$idx]) !== $this->defaultAction) {
/*
* >= numNonLeafStates: shift and reduce
* > 0: shift
* = 0: accept
* < 0: reduce
* = -YYUNEXPECTED: error
*/
if ($action > 0) {
/* shift */
//$this->traceShift($symbol);
++$stackPos;
$stateStack[$stackPos] = $state = $action;
$this->semStack[$stackPos] = $tokenValue;
$this->startAttributeStack[$stackPos] = $startAttributes;
$this->endAttributeStack[$stackPos] = $endAttributes;
$this->endAttributes = $endAttributes;
$symbol = self::SYMBOL_NONE;
if ($this->errorState) {
--$this->errorState;
}
if ($action < $this->numNonLeafStates) {
continue;
}
/* $yyn >= numNonLeafStates means shift-and-reduce */
$rule = $action - $this->numNonLeafStates;
} else {
$rule = -$action;
}
} else {
$rule = $this->actionDefault[$state];
}
}
for (;;) {
if ($rule === 0) {
/* accept */
//$this->traceAccept();
return $this->semValue;
} elseif ($rule !== $this->unexpectedTokenRule) {
/* reduce */
//$this->traceReduce($rule);
try {
$this->reduceCallbacks[$rule]($stackPos);
} catch (Error $e) {
if (-1 === $e->getStartLine() && isset($startAttributes['startLine'])) {
$e->setStartLine($startAttributes['startLine']);
}
$this->emitError($e);
// Can't recover from this type of error
return null;
}
/* Goto - shift nonterminal */
$lastEndAttributes = $this->endAttributeStack[$stackPos];
$ruleLength = $this->ruleToLength[$rule];
$stackPos -= $ruleLength;
$nonTerminal = $this->ruleToNonTerminal[$rule];
$idx = $this->gotoBase[$nonTerminal] + $stateStack[$stackPos];
if ($idx >= 0 && $idx < $this->gotoTableSize && $this->gotoCheck[$idx] === $nonTerminal) {
$state = $this->goto[$idx];
} else {
$state = $this->gotoDefault[$nonTerminal];
}
++$stackPos;
$stateStack[$stackPos] = $state;
$this->semStack[$stackPos] = $this->semValue;
$this->endAttributeStack[$stackPos] = $lastEndAttributes;
if ($ruleLength === 0) {
// Empty productions use the start attributes of the lookahead token.
$this->startAttributeStack[$stackPos] = $this->lookaheadStartAttributes;
}
} else {
/* error */
switch ($this->errorState) {
case 0:
$msg = $this->getErrorMessage($symbol, $state);
$this->emitError(new Error($msg, $startAttributes + $endAttributes));
// Break missing intentionally
case 1:
case 2:
$this->errorState = 3;
// Pop until error-expecting state uncovered
while (!(
(($idx = $this->actionBase[$state] + $this->errorSymbol) >= 0
&& $idx < $this->actionTableSize && $this->actionCheck[$idx] === $this->errorSymbol)
|| ($state < $this->YY2TBLSTATE
&& ($idx = $this->actionBase[$state + $this->numNonLeafStates] + $this->errorSymbol) >= 0
&& $idx < $this->actionTableSize && $this->actionCheck[$idx] === $this->errorSymbol)
) || ($action = $this->action[$idx]) === $this->defaultAction) { // Not totally sure about this
if ($stackPos <= 0) {
// Could not recover from error
return null;
}
$state = $stateStack[--$stackPos];
//$this->tracePop($state);
}
//$this->traceShift($this->errorSymbol);
++$stackPos;
$stateStack[$stackPos] = $state = $action;
// We treat the error symbol as being empty, so we reset the end attributes
// to the end attributes of the last non-error symbol
$this->startAttributeStack[$stackPos] = $this->lookaheadStartAttributes;
$this->endAttributeStack[$stackPos] = $this->endAttributeStack[$stackPos - 1];
$this->endAttributes = $this->endAttributeStack[$stackPos - 1];
break;
case 3:
if ($symbol === 0) {
// Reached EOF without recovering from error
return null;
}
//$this->traceDiscard($symbol);
$symbol = self::SYMBOL_NONE;
break 2;
}
}
if ($state < $this->numNonLeafStates) {
break;
}
/* >= numNonLeafStates means shift-and-reduce */
$rule = $state - $this->numNonLeafStates;
}
}
throw new \RuntimeException('Reached end of parser loop');
}
protected function emitError(Error $error) {
$this->errorHandler->handleError($error);
}
/**
* Format error message including expected tokens.
*
* @param int $symbol Unexpected symbol
* @param int $state State at time of error
*
* @return string Formatted error message
*/
protected function getErrorMessage(int $symbol, int $state) : string {
$expectedString = '';
if ($expected = $this->getExpectedTokens($state)) {
$expectedString = ', expecting ' . implode(' or ', $expected);
}
return 'Syntax error, unexpected ' . $this->symbolToName[$symbol] . $expectedString;
}
/**
* Get limited number of expected tokens in given state.
*
* @param int $state State
*
* @return string[] Expected tokens. If too many, an empty array is returned.
*/
protected function getExpectedTokens(int $state) : array {
$expected = [];
$base = $this->actionBase[$state];
foreach ($this->symbolToName as $symbol => $name) {
$idx = $base + $symbol;
if ($idx >= 0 && $idx < $this->actionTableSize && $this->actionCheck[$idx] === $symbol
|| $state < $this->YY2TBLSTATE
&& ($idx = $this->actionBase[$state + $this->numNonLeafStates] + $symbol) >= 0
&& $idx < $this->actionTableSize && $this->actionCheck[$idx] === $symbol
) {
if ($this->action[$idx] !== $this->unexpectedTokenRule
&& $this->action[$idx] !== $this->defaultAction
&& $symbol !== $this->errorSymbol
) {
if (count($expected) === 4) {
/* Too many expected tokens */
return [];
}
$expected[] = $name;
}
}
}
return $expected;
}
/*
* Tracing functions used for debugging the parser.
*/
/*
protected function traceNewState($state, $symbol) {
echo '% State ' . $state
. ', Lookahead ' . ($symbol == self::SYMBOL_NONE ? '--none--' : $this->symbolToName[$symbol]) . "\n";
}
protected function traceRead($symbol) {
echo '% Reading ' . $this->symbolToName[$symbol] . "\n";
}
protected function traceShift($symbol) {
echo '% Shift ' . $this->symbolToName[$symbol] . "\n";
}
protected function traceAccept() {
echo "% Accepted.\n";
}
protected function traceReduce($n) {
echo '% Reduce by (' . $n . ') ' . $this->productions[$n] . "\n";
}
protected function tracePop($state) {
echo '% Recovering, uncovered state ' . $state . "\n";
}
protected function traceDiscard($symbol) {
echo '% Discard ' . $this->symbolToName[$symbol] . "\n";
}
*/
/*
* Helper functions invoked by semantic actions
*/
/**
* Moves statements of semicolon-style namespaces into $ns->stmts and checks various error conditions.
*
* @param Node\Stmt[] $stmts
* @return Node\Stmt[]
*/
protected function handleNamespaces(array $stmts) : array {
$hasErrored = false;
$style = $this->getNamespacingStyle($stmts);
if (null === $style) {
// not namespaced, nothing to do
return $stmts;
} elseif ('brace' === $style) {
// For braced namespaces we only have to check that there are no invalid statements between the namespaces
$afterFirstNamespace = false;
foreach ($stmts as $stmt) {
if ($stmt instanceof Node\Stmt\Namespace_) {
$afterFirstNamespace = true;
} elseif (!$stmt instanceof Node\Stmt\HaltCompiler
&& !$stmt instanceof Node\Stmt\Nop
&& $afterFirstNamespace && !$hasErrored) {
$this->emitError(new Error(
'No code may exist outside of namespace {}', $stmt->getAttributes()));
$hasErrored = true; // Avoid one error for every statement
}
}
return $stmts;
} else {
// For semicolon namespaces we have to move the statements after a namespace declaration into ->stmts
$resultStmts = [];
$targetStmts =& $resultStmts;
$lastNs = null;
foreach ($stmts as $stmt) {
if ($stmt instanceof Node\Stmt\Namespace_) {
if ($lastNs !== null) {
$this->fixupNamespaceAttributes($lastNs);
}
if ($stmt->stmts === null) {
$stmt->stmts = [];
$targetStmts =& $stmt->stmts;
$resultStmts[] = $stmt;
} else {
// This handles the invalid case of mixed style namespaces
$resultStmts[] = $stmt;
$targetStmts =& $resultStmts;
}
$lastNs = $stmt;
} elseif ($stmt instanceof Node\Stmt\HaltCompiler) {
// __halt_compiler() is not moved into the namespace
$resultStmts[] = $stmt;
} else {
$targetStmts[] = $stmt;
}
}
if ($lastNs !== null) {
$this->fixupNamespaceAttributes($lastNs);
}
return $resultStmts;
}
}
private function fixupNamespaceAttributes(Node\Stmt\Namespace_ $stmt) {
// We moved the statements into the namespace node, as such the end of the namespace node
// needs to be extended to the end of the statements.
if (empty($stmt->stmts)) {
return;
}
// We only move the builtin end attributes here. This is the best we can do with the
// knowledge we have.
$endAttributes = ['endLine', 'endFilePos', 'endTokenPos'];
$lastStmt = $stmt->stmts[count($stmt->stmts) - 1];
foreach ($endAttributes as $endAttribute) {
if ($lastStmt->hasAttribute($endAttribute)) {
$stmt->setAttribute($endAttribute, $lastStmt->getAttribute($endAttribute));
}
}
}
/**
* Determine namespacing style (semicolon or brace)
*
* @param Node[] $stmts Top-level statements.
*
* @return null|string One of "semicolon", "brace" or null (no namespaces)
*/
private function getNamespacingStyle(array $stmts) {
$style = null;
$hasNotAllowedStmts = false;
foreach ($stmts as $i => $stmt) {
if ($stmt instanceof Node\Stmt\Namespace_) {
$currentStyle = null === $stmt->stmts ? 'semicolon' : 'brace';
if (null === $style) {
$style = $currentStyle;
if ($hasNotAllowedStmts) {
$this->emitError(new Error(
'Namespace declaration statement has to be the very first statement in the script',
$stmt->getLine() // Avoid marking the entire namespace as an error
));
}
} elseif ($style !== $currentStyle) {
$this->emitError(new Error(
'Cannot mix bracketed namespace declarations with unbracketed namespace declarations',
$stmt->getLine() // Avoid marking the entire namespace as an error
));
// Treat like semicolon style for namespace normalization
return 'semicolon';
}
continue;
}
/* declare(), __halt_compiler() and nops can be used before a namespace declaration */
if ($stmt instanceof Node\Stmt\Declare_
|| $stmt instanceof Node\Stmt\HaltCompiler
|| $stmt instanceof Node\Stmt\Nop) {
continue;
}
/* There may be a hashbang line at the very start of the file */
if ($i === 0 && $stmt instanceof Node\Stmt\InlineHTML && preg_match('/\A#!.*\r?\n\z/', $stmt->value)) {
continue;
}
/* Everything else if forbidden before namespace declarations */
$hasNotAllowedStmts = true;
}
return $style;
}
/**
* Fix up parsing of static property calls in PHP 5.
*
* In PHP 5 A::$b[c][d] and A::$b[c][d]() have very different interpretation. The former is
* interpreted as (A::$b)[c][d], while the latter is the same as A::{$b[c][d]}(). We parse the
* latter as the former initially and this method fixes the AST into the correct form when we
* encounter the "()".
*
* @param Node\Expr\StaticPropertyFetch|Node\Expr\ArrayDimFetch $prop
* @param Node\Arg[] $args
* @param array $attributes
*
* @return Expr\StaticCall
*/
protected function fixupPhp5StaticPropCall($prop, array $args, array $attributes) : Expr\StaticCall {
if ($prop instanceof Node\Expr\StaticPropertyFetch) {
$name = $prop->name instanceof VarLikeIdentifier
? $prop->name->toString() : $prop->name;
$var = new Expr\Variable($name, $prop->name->getAttributes());
return new Expr\StaticCall($prop->class, $var, $args, $attributes);
} elseif ($prop instanceof Node\Expr\ArrayDimFetch) {
$tmp = $prop;
while ($tmp->var instanceof Node\Expr\ArrayDimFetch) {
$tmp = $tmp->var;
}
/** @var Expr\StaticPropertyFetch $staticProp */
$staticProp = $tmp->var;
// Set start attributes to attributes of innermost node
$tmp = $prop;
$this->fixupStartAttributes($tmp, $staticProp->name);
while ($tmp->var instanceof Node\Expr\ArrayDimFetch) {
$tmp = $tmp->var;
$this->fixupStartAttributes($tmp, $staticProp->name);
}
$name = $staticProp->name instanceof VarLikeIdentifier
? $staticProp->name->toString() : $staticProp->name;
$tmp->var = new Expr\Variable($name, $staticProp->name->getAttributes());
return new Expr\StaticCall($staticProp->class, $prop, $args, $attributes);
} else {
throw new \Exception;
}
}
protected function fixupStartAttributes(Node $to, Node $from) {
$startAttributes = ['startLine', 'startFilePos', 'startTokenPos'];
foreach ($startAttributes as $startAttribute) {
if ($from->hasAttribute($startAttribute)) {
$to->setAttribute($startAttribute, $from->getAttribute($startAttribute));
}
}
}
protected function handleBuiltinTypes(Name $name) {
$builtinTypes = [
'bool' => true,
'int' => true,
'float' => true,
'string' => true,
'iterable' => true,
'void' => true,
'object' => true,
'null' => true,
'false' => true,
'mixed' => true,
'never' => true,
'true' => true,
];
if (!$name->isUnqualified()) {
return $name;
}
$lowerName = $name->toLowerString();
if (!isset($builtinTypes[$lowerName])) {
return $name;
}
return new Node\Identifier($lowerName, $name->getAttributes());
}
/**
* Get combined start and end attributes at a stack location
*
* @param int $pos Stack location
*
* @return array Combined start and end attributes
*/
protected function getAttributesAt(int $pos) : array {
return $this->startAttributeStack[$pos] + $this->endAttributeStack[$pos];
}
protected function getFloatCastKind(string $cast): int
{
$cast = strtolower($cast);
if (strpos($cast, 'float') !== false) {
return Double::KIND_FLOAT;
}
if (strpos($cast, 'real') !== false) {
return Double::KIND_REAL;
}
return Double::KIND_DOUBLE;
}
protected function parseLNumber($str, $attributes, $allowInvalidOctal = false) {
try {
return LNumber::fromString($str, $attributes, $allowInvalidOctal);
} catch (Error $error) {
$this->emitError($error);
// Use dummy value
return new LNumber(0, $attributes);
}
}
/**
* Parse a T_NUM_STRING token into either an integer or string node.
*
* @param string $str Number string
* @param array $attributes Attributes
*
* @return LNumber|String_ Integer or string node.
*/
protected function parseNumString(string $str, array $attributes) {
if (!preg_match('/^(?:0|-?[1-9][0-9]*)$/', $str)) {
return new String_($str, $attributes);
}
$num = +$str;
if (!is_int($num)) {
return new String_($str, $attributes);
}
return new LNumber($num, $attributes);
}
protected function stripIndentation(
string $string, int $indentLen, string $indentChar,
bool $newlineAtStart, bool $newlineAtEnd, array $attributes
) {
if ($indentLen === 0) {
return $string;
}
$start = $newlineAtStart ? '(?:(?<=\n)|\A)' : '(?<=\n)';
$end = $newlineAtEnd ? '(?:(?=[\r\n])|\z)' : '(?=[\r\n])';
$regex = '/' . $start . '([ \t]*)(' . $end . ')?/';
return preg_replace_callback(
$regex,
function ($matches) use ($indentLen, $indentChar, $attributes) {
$prefix = substr($matches[1], 0, $indentLen);
if (false !== strpos($prefix, $indentChar === " " ? "\t" : " ")) {
$this->emitError(new Error(
'Invalid indentation - tabs and spaces cannot be mixed', $attributes
));
} elseif (strlen($prefix) < $indentLen && !isset($matches[2])) {
$this->emitError(new Error(
'Invalid body indentation level ' .
'(expecting an indentation level of at least ' . $indentLen . ')',
$attributes
));
}
return substr($matches[0], strlen($prefix));
},
$string
);
}
protected function parseDocString(
string $startToken, $contents, string $endToken,
array $attributes, array $endTokenAttributes, bool $parseUnicodeEscape
) {
$kind = strpos($startToken, "'") === false
? String_::KIND_HEREDOC : String_::KIND_NOWDOC;
$regex = '/\A[bB]?<<<[ \t]*[\'"]?([a-zA-Z_\x7f-\xff][a-zA-Z0-9_\x7f-\xff]*)[\'"]?(?:\r\n|\n|\r)\z/';
$result = preg_match($regex, $startToken, $matches);
assert($result === 1);
$label = $matches[1];
$result = preg_match('/\A[ \t]*/', $endToken, $matches);
assert($result === 1);
$indentation = $matches[0];
$attributes['kind'] = $kind;
$attributes['docLabel'] = $label;
$attributes['docIndentation'] = $indentation;
$indentHasSpaces = false !== strpos($indentation, " ");
$indentHasTabs = false !== strpos($indentation, "\t");
if ($indentHasSpaces && $indentHasTabs) {
$this->emitError(new Error(
'Invalid indentation - tabs and spaces cannot be mixed',
$endTokenAttributes
));
// Proceed processing as if this doc string is not indented
$indentation = '';
}
$indentLen = \strlen($indentation);
$indentChar = $indentHasSpaces ? " " : "\t";
if (\is_string($contents)) {
if ($contents === '') {
return new String_('', $attributes);
}
$contents = $this->stripIndentation(
$contents, $indentLen, $indentChar, true, true, $attributes
);
$contents = preg_replace('~(\r\n|\n|\r)\z~', '', $contents);
if ($kind === String_::KIND_HEREDOC) {
$contents = String_::parseEscapeSequences($contents, null, $parseUnicodeEscape);
}
return new String_($contents, $attributes);
} else {
assert(count($contents) > 0);
if (!$contents[0] instanceof Node\Scalar\EncapsedStringPart) {
// If there is no leading encapsed string part, pretend there is an empty one
$this->stripIndentation(
'', $indentLen, $indentChar, true, false, $contents[0]->getAttributes()
);
}
$newContents = [];
foreach ($contents as $i => $part) {
if ($part instanceof Node\Scalar\EncapsedStringPart) {
$isLast = $i === \count($contents) - 1;
$part->value = $this->stripIndentation(
$part->value, $indentLen, $indentChar,
$i === 0, $isLast, $part->getAttributes()
);
$part->value = String_::parseEscapeSequences($part->value, null, $parseUnicodeEscape);
if ($isLast) {
$part->value = preg_replace('~(\r\n|\n|\r)\z~', '', $part->value);
}
if ('' === $part->value) {
continue;
}
}
$newContents[] = $part;
}
return new Encapsed($newContents, $attributes);
}
}
/**
* Create attributes for a zero-length common-capturing nop.
*
* @param Comment[] $comments
* @return array
*/
protected function createCommentNopAttributes(array $comments) {
$comment = $comments[count($comments) - 1];
$commentEndLine = $comment->getEndLine();
$commentEndFilePos = $comment->getEndFilePos();
$commentEndTokenPos = $comment->getEndTokenPos();
$attributes = ['comments' => $comments];
if (-1 !== $commentEndLine) {
$attributes['startLine'] = $commentEndLine;
$attributes['endLine'] = $commentEndLine;
}
if (-1 !== $commentEndFilePos) {
$attributes['startFilePos'] = $commentEndFilePos + 1;
$attributes['endFilePos'] = $commentEndFilePos;
}
if (-1 !== $commentEndTokenPos) {
$attributes['startTokenPos'] = $commentEndTokenPos + 1;
$attributes['endTokenPos'] = $commentEndTokenPos;
}
return $attributes;
}
protected function checkClassModifier($a, $b, $modifierPos) {
try {
Class_::verifyClassModifier($a, $b);
} catch (Error $error) {
$error->setAttributes($this->getAttributesAt($modifierPos));
$this->emitError($error);
}
}
protected function checkModifier($a, $b, $modifierPos) {
// Jumping through some hoops here because verifyModifier() is also used elsewhere
try {
Class_::verifyModifier($a, $b);
} catch (Error $error) {
$error->setAttributes($this->getAttributesAt($modifierPos));
$this->emitError($error);
}
}
protected function checkParam(Param $node) {
if ($node->variadic && null !== $node->default) {
$this->emitError(new Error(
'Variadic parameter cannot have a default value',
$node->default->getAttributes()
));
}
}
protected function checkTryCatch(TryCatch $node) {
if (empty($node->catches) && null === $node->finally) {
$this->emitError(new Error(
'Cannot use try without catch or finally', $node->getAttributes()
));
}
}
protected function checkNamespace(Namespace_ $node) {
if (null !== $node->stmts) {
foreach ($node->stmts as $stmt) {
if ($stmt instanceof Namespace_) {
$this->emitError(new Error(
'Namespace declarations cannot be nested', $stmt->getAttributes()
));
}
}
}
}
private function checkClassName($name, $namePos) {
if (null !== $name && $name->isSpecialClassName()) {
$this->emitError(new Error(
sprintf('Cannot use \'%s\' as class name as it is reserved', $name),
$this->getAttributesAt($namePos)
));
}
}
private function checkImplementedInterfaces(array $interfaces) {
foreach ($interfaces as $interface) {
if ($interface->isSpecialClassName()) {
$this->emitError(new Error(
sprintf('Cannot use \'%s\' as interface name as it is reserved', $interface),
$interface->getAttributes()
));
}
}
}
protected function checkClass(Class_ $node, $namePos) {
$this->checkClassName($node->name, $namePos);
if ($node->extends && $node->extends->isSpecialClassName()) {
$this->emitError(new Error(
sprintf('Cannot use \'%s\' as class name as it is reserved', $node->extends),
$node->extends->getAttributes()
));
}
$this->checkImplementedInterfaces($node->implements);
}
protected function checkInterface(Interface_ $node, $namePos) {
$this->checkClassName($node->name, $namePos);
$this->checkImplementedInterfaces($node->extends);
}
protected function checkEnum(Enum_ $node, $namePos) {
$this->checkClassName($node->name, $namePos);
$this->checkImplementedInterfaces($node->implements);
}
protected function checkClassMethod(ClassMethod $node, $modifierPos) {
if ($node->flags & Class_::MODIFIER_STATIC) {
switch ($node->name->toLowerString()) {
case '__construct':
$this->emitError(new Error(
sprintf('Constructor %s() cannot be static', $node->name),
$this->getAttributesAt($modifierPos)));
break;
case '__destruct':
$this->emitError(new Error(
sprintf('Destructor %s() cannot be static', $node->name),
$this->getAttributesAt($modifierPos)));
break;
case '__clone':
$this->emitError(new Error(
sprintf('Clone method %s() cannot be static', $node->name),
$this->getAttributesAt($modifierPos)));
break;
}
}
if ($node->flags & Class_::MODIFIER_READONLY) {
$this->emitError(new Error(
sprintf('Method %s() cannot be readonly', $node->name),
$this->getAttributesAt($modifierPos)));
}
}
protected function checkClassConst(ClassConst $node, $modifierPos) {
if ($node->flags & Class_::MODIFIER_STATIC) {
$this->emitError(new Error(
"Cannot use 'static' as constant modifier",
$this->getAttributesAt($modifierPos)));
}
if ($node->flags & Class_::MODIFIER_ABSTRACT) {
$this->emitError(new Error(
"Cannot use 'abstract' as constant modifier",
$this->getAttributesAt($modifierPos)));
}
if ($node->flags & Class_::MODIFIER_READONLY) {
$this->emitError(new Error(
"Cannot use 'readonly' as constant modifier",
$this->getAttributesAt($modifierPos)));
}
}
protected function checkProperty(Property $node, $modifierPos) {
if ($node->flags & Class_::MODIFIER_ABSTRACT) {
$this->emitError(new Error('Properties cannot be declared abstract',
$this->getAttributesAt($modifierPos)));
}
if ($node->flags & Class_::MODIFIER_FINAL) {
$this->emitError(new Error('Properties cannot be declared final',
$this->getAttributesAt($modifierPos)));
}
}
protected function checkUseUse(UseUse $node, $namePos) {
if ($node->alias && $node->alias->isSpecialClassName()) {
$this->emitError(new Error(
sprintf(
'Cannot use %s as %s because \'%2$s\' is a special class name',
$node->name, $node->alias
),
$this->getAttributesAt($namePos)
));
}
}
}