$item) // traverse each item in the vector * $n = count($vector); // count the number of items * ~~~ * * Note that if you plan to extend Vector by performing additional operations * with each addition or removal of an item (e.g. performing type check), * please make sure you override [[insertAt]] and [[removeAt]]. * * @author Qiang Xue * @since 2.0 */ class Vector extends Object implements \IteratorAggregate, \ArrayAccess, \Countable { /** * @var array internal data storage */ private $_d = array(); /** * @var integer number of items */ private $_c = 0; /** * Constructor. * Initializes the vector with an array or an iterable object. * @param mixed $data the initial data to be populated into the vector. * This can be an array or an iterable object. * @throws Exception if data is not well formed (neither an array nor an iterable object) */ public function __construct($data = array()) { if ($data !== array()) { $this->copyFrom($data); } } /** * Returns an iterator for traversing the items in the vector. * This method is required by the SPL interface `IteratorAggregate`. * It will be implicitly called when you use `foreach` to traverse the vector. * @return Iterator an iterator for traversing the items in the vector. */ public function getIterator() { return new VectorIterator($this->_d); } /** * Returns the number of items in the vector. * This method is required by the SPL `Countable` interface. * It will be implicitly called when you use `count($vector)`. * @return integer number of items in the vector. */ public function count() { return $this->getCount(); } /** * Returns the number of items in the vector. * @return integer the number of items in the vector */ public function getCount() { return $this->_c; } /** * Returns the item at the specified index. * @param integer $index the index of the item * @return mixed the item at the index * @throws Exception if the index is out of range */ public function itemAt($index) { if (isset($this->_d[$index])) { return $this->_d[$index]; } elseif ($index >= 0 && $index < $this->_c) { // in case the value is null return $this->_d[$index]; } else { throw new Exception('Index out of range: ' . $index); } } /** * Appends an item at the end of the vector. * @param mixed $item new item * @return integer the zero-based index at which the item is added * @throws Exception if the vector is read-only. */ public function add($item) { $this->insertAt($this->_c, $item); return $this->_c - 1; } /** * Inserts an item at the specified position. * Original item at the position and the following items will be moved * one step towards the end. * @param integer $index the specified position. * @param mixed $item new item to be inserted into the vector * @throws Exception if the index specified is out of range, or the vector is read-only. */ public function insertAt($index, $item) { if ($index === $this->_c) { $this->_d[$this->_c++] = $item; } elseif ($index >= 0 && $index < $this->_c) { array_splice($this->_d, $index, 0, array($item)); $this->_c++; } else { throw new Exception('Index out of range: ' . $index); } } /** * Removes an item from the vector. * The vector will search for the item, and the first item found * will be removed from the vector. * @param mixed $item the item to be removed. * @return mixed the index at which the item is being removed, or false * if the item cannot be found in the vector. * @throws Exception if the vector is read only. */ public function remove($item) { if (($index = $this->indexOf($item)) >= 0) { $this->removeAt($index); return $index; } else { return false; } } /** * Removes an item at the specified position. * @param integer $index the index of the item to be removed. * @return mixed the removed item. * @throws Exception if the index is out of range, or the vector is read only. */ public function removeAt($index) { if ($index >= 0 && $index < $this->_c) { $this->_c--; if ($index === $this->_c) { return array_pop($this->_d); } else { $item = $this->_d[$index]; array_splice($this->_d, $index, 1); return $item; } } else { throw new Exception('Index out of range: ' . $index); } } /** * Removes all items from the vector. * @param boolean $safeClear whether to clear every item by calling [[removeAt]]. * Defaults to false, meaning all items in the vector will be cleared directly * without calling [[removeAt]]. */ public function clear($safeClear = false) { if ($safeClear) { for ($i = $this->_c - 1; $i >= 0; --$i) { $this->removeAt($i); } } else { $this->_d = array(); $this->_c = 0; } } /** * Returns a value indicating whether the vector contains the specified item. * Note that the search is based on strict PHP comparison. * @param mixed $item the item * @return boolean whether the vector contains the item */ public function contains($item) { return $this->indexOf($item) >= 0; } /** * Returns the index of the specified item in the vector. * The index is zero-based. If the item is not found in the vector, -1 will be returned. * Note that the search is based on strict PHP comparison. * @param mixed $item the item * @return integer the index of the item in the vector (0 based), -1 if not found. */ public function indexOf($item) { $index = array_search($item, $this->_d, true); return $index === false ? -1 : $index; } /** * Returns the vector as a PHP array. * @return array the items in the vector. */ public function toArray() { return $this->_d; } /** * Copies iterable data into the vector. * Note, existing data in the vector will be cleared first. * @param mixed $data the data to be copied from, must be an array or an object implementing `Traversable` * @throws Exception if data is neither an array nor an object implementing `Traversable`. */ public function fromArray($data) { if (is_array($data) || $data instanceof \Traversable) { if ($this->_c > 0) { $this->clear(); } if ($data instanceof self) { $data = $data->_d; } foreach ($data as $item) { $this->add($item); } } else { throw new Exception('Data must be either an array or an object implementing Traversable.'); } } /** * Merges iterable data into the vector. * New items will be appended to the end of the existing items. * @param mixed $data the data to be merged with, must be an array or an object implementing `Traversable` * @throws Exception if data is neither an array nor an object implementing `Traversable`. */ public function mergeWith($data) { if (is_array($data) || ($data instanceof \Traversable)) { if ($data instanceof Vector) { $data = $data->_d; } foreach ($data as $item) { $this->add($item); } } else { throw new Exception('Data must be either an array or an object implementing Traversable.'); } } /** * Returns a value indicating whether there is an item at the specified offset. * This method is required by the SPL interface `ArrayAccess`. * It is implicitly called when you use something like `isset($vector[$offset])`. * @param integer $offset the offset to be checked * @return boolean whether there is an item at the specified offset. */ public function offsetExists($offset) { return $offset >= 0 && $offset < $this->_c; } /** * Returns the item at the specified offset. * This method is required by the SPL interface `ArrayAccess`. * It is implicitly called when you use something like `$value = $vector[$offset];`. * This is equivalent to [[itemAt]]. * @param integer $offset the offset to retrieve item. * @return mixed the item at the offset * @throws Exception if the offset is out of range */ public function offsetGet($offset) { return $this->itemAt($offset); } /** * Sets the item at the specified offset. * This method is required by the SPL interface `ArrayAccess`. * It is implicitly called when you use something like `$vector[$offset] = $item;`. * If the offset is null or equal to the number of the existing items, * the new item will be appended to the vector. * Otherwise, the existing item at the offset will be replaced with the new item. * @param integer $offset the offset to set item * @param mixed $item the item value * @throws Exception if the offset is out of range, or the vector is read only. */ public function offsetSet($offset, $item) { if ($offset === null || $offset === $this->_c) { $this->insertAt($this->_c, $item); } else { $this->removeAt($offset); $this->insertAt($offset, $item); } } /** * Unsets the item at the specified offset. * This method is required by the SPL interface `ArrayAccess`. * It is implicitly called when you use something like `unset($vector[$offset])`. * This is equivalent to [[removeAt]]. * @param integer $offset the offset to unset item * @throws Exception if the offset is out of range, or the vector is read only. */ public function offsetUnset($offset) { $this->removeAt($offset); } }