* * For the full copyright and license information, please view the LICENSE * file that was distributed with this source code. */ namespace Symfony\Component\VarDumper\Cloner; use Symfony\Component\VarDumper\Caster\Caster; /** * @author Nicolas Grekas
*/ class Data implements \ArrayAccess, \Countable, \IteratorAggregate { private $data; private $position = 0; private $key = 0; private $maxDepth = 20; private $maxItemsPerDepth = -1; private $useRefHandles = -1; /** * @param array $data A array as returned by ClonerInterface::cloneVar() */ public function __construct(array $data) { $this->data = $data; } /** * @return string The type of the value. */ public function getType() { $item = $this->data[$this->position][$this->key]; if ($item instanceof Stub && Stub::TYPE_REF === $item->type && !$item->position) { $item = $item->value; } if (!$item instanceof Stub) { return gettype($item); } if (Stub::TYPE_STRING === $item->type) { return 'string'; } if (Stub::TYPE_ARRAY === $item->type) { return 'array'; } if (Stub::TYPE_OBJECT === $item->type) { return $item->class; } if (Stub::TYPE_RESOURCE === $item->type) { return $item->class.' resource'; } } /** * @param bool $recursive Whether values should be resolved recursively or not. * * @return scalar|array|null|Data[] A native representation of the original value. */ public function getValue($recursive = false) { $item = $this->data[$this->position][$this->key]; if ($item instanceof Stub && Stub::TYPE_REF === $item->type && !$item->position) { $item = $item->value; } if (!$item instanceof Stub) { return $item; } if (Stub::TYPE_STRING === $item->type) { return $item->value; } $children = $item->position ? $this->data[$item->position] : array(); foreach ($children as $k => $v) { if ($recursive && !$v instanceof Stub) { continue; } $children[$k] = clone $this; $children[$k]->key = $k; $children[$k]->position = $item->position; if ($recursive) { if ($v instanceof Stub && Stub::TYPE_REF === $v->type && $v->value instanceof Stub) { $recursive = (array) $recursive; if (isset($recursive[$v->value->position])) { continue; } $recursive[$v->value->position] = true; } $children[$k] = $children[$k]->getValue($recursive); } } return $children; } public function count() { return count($this->getValue()); } public function getIterator() { if (!is_array($value = $this->getValue())) { throw new \LogicException(sprintf('%s object holds non-iterable type "%s".', self::class, gettype($value))); } foreach ($value as $k => $v) { yield $k => $v; } } public function __get($key) { if (null !== $data = $this->seek($key)) { $item = $data->data[$data->position][$data->key]; return $item instanceof Stub || array() === $item ? $data : $item; } } public function __isset($key) { return null !== $this->seek($key); } public function offsetExists($key) { return $this->__isset($key); } public function offsetGet($key) { return $this->__get($key); } public function offsetSet($key, $value) { throw new \BadMethodCallException(self::class.' objects are immutable.'); } public function offsetUnset($key) { throw new \BadMethodCallException(self::class.' objects are immutable.'); } public function __toString() { $value = $this->getValue(); if (!is_array($value)) { return (string) $value; } return sprintf('%s (count=%d)', $this->getType(), count($value)); } /** * @return array The raw data structure * * @deprecated since version 3.3. Use array or object access instead. */ public function getRawData() { @trigger_error(sprintf('The %s() method is deprecated since version 3.3 and will be removed in 4.0. Use the array or object access instead.', __METHOD__)); return $this->data; } /** * Returns a depth limited clone of $this. * * @param int $maxDepth The max dumped depth level * * @return self A clone of $this */ public function withMaxDepth($maxDepth) { $data = clone $this; $data->maxDepth = (int) $maxDepth; return $data; } /** * Limits the number of elements per depth level. * * @param int $maxItemsPerDepth The max number of items dumped per depth level * * @return self A clone of $this */ public function withMaxItemsPerDepth($maxItemsPerDepth) { $data = clone $this; $data->maxItemsPerDepth = (int) $maxItemsPerDepth; return $data; } /** * Enables/disables objects' identifiers tracking. * * @param bool $useRefHandles False to hide global ref. handles * * @return self A clone of $this */ public function withRefHandles($useRefHandles) { $data = clone $this; $data->useRefHandles = $useRefHandles ? -1 : 0; return $data; } /** * Seeks to a specific key in nested data structures. * * @param string|int $key The key to seek to * * @return self|null A clone of $this of null if the key is not set */ public function seek($key) { $item = $this->data[$this->position][$this->key]; if ($item instanceof Stub && Stub::TYPE_REF === $item->type && !$item->position) { $item = $item->value; } if (!$item instanceof Stub || !$item->position) { return; } $keys = array($key); switch ($item->type) { case Stub::TYPE_OBJECT: $keys[] = Caster::PREFIX_DYNAMIC.$key; $keys[] = Caster::PREFIX_PROTECTED.$key; $keys[] = Caster::PREFIX_VIRTUAL.$key; $keys[] = "\0$item->class\0$key"; case Stub::TYPE_ARRAY: case Stub::TYPE_RESOURCE: break; default: return; } $data = null; $children = $this->data[$item->position]; foreach ($keys as $key) { if (isset($children[$key]) || array_key_exists($key, $children)) { $data = clone $this; $data->key = $key; $data->position = $item->position; break; } } return $data; } /** * Dumps data with a DumperInterface dumper. */ public function dump(DumperInterface $dumper) { $refs = array(0); $this->dumpItem($dumper, new Cursor(), $refs, $this->data[$this->position][$this->key]); } /** * Depth-first dumping of items. * * @param DumperInterface $dumper The dumper being used for dumping * @param Cursor $cursor A cursor used for tracking dumper state position * @param array &$refs A map of all references discovered while dumping * @param mixed $item A Stub object or the original value being dumped */ private function dumpItem($dumper, $cursor, &$refs, $item) { $cursor->refIndex = 0; $cursor->softRefTo = $cursor->softRefHandle = $cursor->softRefCount = 0; $cursor->hardRefTo = $cursor->hardRefHandle = $cursor->hardRefCount = 0; $firstSeen = true; if (!$item instanceof Stub) { $cursor->attr = array(); $type = gettype($item); } elseif (Stub::TYPE_REF === $item->type) { if ($item->handle) { if (!isset($refs[$r = $item->handle - (PHP_INT_MAX >> 1)])) { $cursor->refIndex = $refs[$r] = $cursor->refIndex ?: ++$refs[0]; } else { $firstSeen = false; } $cursor->hardRefTo = $refs[$r]; $cursor->hardRefHandle = $this->useRefHandles & $item->handle; $cursor->hardRefCount = $item->refCount; } $cursor->attr = $item->attr; $type = $item->class ?: gettype($item->value); $item = $item->value; } if ($item instanceof Stub) { if ($item->refCount) { if (!isset($refs[$r = $item->handle])) { $cursor->refIndex = $refs[$r] = $cursor->refIndex ?: ++$refs[0]; } else { $firstSeen = false; } $cursor->softRefTo = $refs[$r]; } $cursor->softRefHandle = $this->useRefHandles & $item->handle; $cursor->softRefCount = $item->refCount; $cursor->attr = $item->attr; $cut = $item->cut; if ($item->position && $firstSeen) { $children = $this->data[$item->position]; if ($cursor->stop) { if ($cut >= 0) { $cut += count($children); } $children = array(); } } else { $children = array(); } switch ($item->type) { case Stub::TYPE_STRING: $dumper->dumpString($cursor, $item->value, Stub::STRING_BINARY === $item->class, $cut); break; case Stub::TYPE_ARRAY: $item = clone $item; $item->type = $item->class; $item->class = $item->value; // No break; case Stub::TYPE_OBJECT: case Stub::TYPE_RESOURCE: $withChildren = $children && $cursor->depth !== $this->maxDepth && $this->maxItemsPerDepth; $dumper->enterHash($cursor, $item->type, $item->class, $withChildren); if ($withChildren) { $cut = $this->dumpChildren($dumper, $cursor, $refs, $children, $cut, $item->type, null !== $item->class); } elseif ($children && 0 <= $cut) { $cut += count($children); } $dumper->leaveHash($cursor, $item->type, $item->class, $withChildren, $cut); break; default: throw new \RuntimeException(sprintf('Unexpected Stub type: %s', $item->type)); } } elseif ('array' === $type) { $dumper->enterHash($cursor, Cursor::HASH_INDEXED, 0, false); $dumper->leaveHash($cursor, Cursor::HASH_INDEXED, 0, false, 0); } elseif ('string' === $type) { $dumper->dumpString($cursor, $item, false, 0); } else { $dumper->dumpScalar($cursor, $type, $item); } } /** * Dumps children of hash structures. * * @param DumperInterface $dumper * @param Cursor $parentCursor The cursor of the parent hash * @param array &$refs A map of all references discovered while dumping * @param array $children The children to dump * @param int $hashCut The number of items removed from the original hash * @param string $hashType A Cursor::HASH_* const * @param bool $dumpKeys Whether keys should be dumped or not * * @return int The final number of removed items */ private function dumpChildren($dumper, $parentCursor, &$refs, $children, $hashCut, $hashType, $dumpKeys) { $cursor = clone $parentCursor; ++$cursor->depth; $cursor->hashType = $hashType; $cursor->hashIndex = 0; $cursor->hashLength = count($children); $cursor->hashCut = $hashCut; foreach ($children as $key => $child) { $cursor->hashKeyIsBinary = isset($key[0]) && !preg_match('//u', $key); $cursor->hashKey = $dumpKeys ? $key : null; $this->dumpItem($dumper, $cursor, $refs, $child); if (++$cursor->hashIndex === $this->maxItemsPerDepth || $cursor->stop) { $parentCursor->stop = true; return $hashCut >= 0 ? $hashCut + $cursor->hashLength - $cursor->hashIndex : $hashCut; } } return $hashCut; } }