column value) is * returned if the primary key is composite. A string is returned otherwise (null will be returned if the key * value is null). This property is read-only. * @property array $populatedRelations An array of relation data indexed by relation names. This property is * read-only. * @property mixed $primaryKey The primary key value. An array (column name => column value) is returned if * the primary key is composite. A string is returned otherwise (null will be returned if the key value is null). * This property is read-only. * @property string $snippet Snippet value. * @property string $snippetSource Snippet source string. This property is read-only. * * @author Paul Klimov * @since 2.0 */ abstract class ActiveRecord extends Model { /** * @event Event an event that is triggered when the record is initialized via [[init()]]. */ const EVENT_INIT = 'init'; /** * @event Event an event that is triggered after the record is created and populated with query result. */ const EVENT_AFTER_FIND = 'afterFind'; /** * @event ModelEvent an event that is triggered before inserting a record. * You may set [[ModelEvent::isValid]] to be false to stop the insertion. */ const EVENT_BEFORE_INSERT = 'beforeInsert'; /** * @event Event an event that is triggered after a record is inserted. */ const EVENT_AFTER_INSERT = 'afterInsert'; /** * @event ModelEvent an event that is triggered before updating a record. * You may set [[ModelEvent::isValid]] to be false to stop the update. */ const EVENT_BEFORE_UPDATE = 'beforeUpdate'; /** * @event Event an event that is triggered after a record is updated. */ const EVENT_AFTER_UPDATE = 'afterUpdate'; /** * @event ModelEvent an event that is triggered before deleting a record. * You may set [[ModelEvent::isValid]] to be false to stop the deletion. */ const EVENT_BEFORE_DELETE = 'beforeDelete'; /** * @event Event an event that is triggered after a record is deleted. */ const EVENT_AFTER_DELETE = 'afterDelete'; /** * The insert operation. This is mainly used when overriding [[transactions()]] to specify which operations are transactional. */ const OP_INSERT = 0x01; /** * The update operation. This is mainly used when overriding [[transactions()]] to specify which operations are transactional. */ const OP_UPDATE = 0x02; /** * The delete operation. This is mainly used when overriding [[transactions()]] to specify which operations are transactional. */ const OP_DELETE = 0x04; /** * All three operations: insert, update, delete. * This is a shortcut of the expression: OP_INSERT | OP_UPDATE | OP_DELETE. */ const OP_ALL = 0x07; /** * @var array attribute values indexed by attribute names */ private $_attributes = []; /** * @var array old attribute values indexed by attribute names. */ private $_oldAttributes; /** * @var array related models indexed by the relation names */ private $_related = []; /** * @var string current snippet value for this Active Record instance. * It will be filled up automatically when instance found using [[Query::snippetCallback]] * or [[ActiveQuery::snippetByModel()]]. */ private $_snippet; /** * Returns the Sphinx connection used by this AR class. * By default, the "sphinx" application component is used as the Sphinx connection. * You may override this method if you want to use a different Sphinx connection. * @return Connection the Sphinx connection used by this AR class. */ public static function getDb() { return \Yii::$app->getComponent('sphinx'); } /** * Creates an [[ActiveQuery]] instance for query purpose. * * @param mixed $q the query parameter. This can be one of the followings: * * - a string: fulltext query by a query string and return the list * of matching records. * - an array of name-value pairs: query by a set of column values and return a single record matching all of them. * - null: return a new [[ActiveQuery]] object for further query purpose. * * @return ActiveQuery|ActiveRecord[]|ActiveRecord|null When `$q` is null, a new [[ActiveQuery]] instance * is returned; when `$q` is a string, an array of ActiveRecord objects matching it will be returned; * when `$q` is an array, an ActiveRecord object matching it will be returned (null * will be returned if there is no matching). * @see createQuery() */ public static function find($q = null) { $query = static::createQuery(); if (is_array($q)) { return $query->where($q)->one(); } elseif ($q !== null) { return $query->match($q)->all(); } return $query; } /** * Creates an [[ActiveQuery]] instance with a given SQL statement. * * Note that because the SQL statement is already specified, calling additional * query modification methods (such as `where()`, `order()`) on the created [[ActiveQuery]] * instance will have no effect. However, calling `with()`, `asArray()` or `indexBy()` is * still fine. * * Below is an example: * * ~~~ * $customers = Article::findBySql("SELECT * FROM `idx_article` WHERE MATCH('development')")->all(); * ~~~ * * @param string $sql the SQL statement to be executed * @param array $params parameters to be bound to the SQL statement during execution. * @return ActiveQuery the newly created [[ActiveQuery]] instance */ public static function findBySql($sql, $params = []) { $query = static::createQuery(); $query->sql = $sql; return $query->params($params); } /** * Updates the whole table using the provided attribute values and conditions. * For example, to change the status to be 1 for all articles which status is 2: * * ~~~ * Article::updateAll(['status' => 1], 'status = 2'); * ~~~ * * @param array $attributes attribute values (name-value pairs) to be saved into the table * @param string|array $condition the conditions that will be put in the WHERE part of the UPDATE SQL. * Please refer to [[Query::where()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return integer the number of rows updated */ public static function updateAll($attributes, $condition = '', $params = []) { $command = static::getDb()->createCommand(); $command->update(static::indexName(), $attributes, $condition, $params); return $command->execute(); } /** * Deletes rows in the index using the provided conditions. * * For example, to delete all articles whose status is 3: * * ~~~ * Article::deleteAll('status = 3'); * ~~~ * * @param string|array $condition the conditions that will be put in the WHERE part of the DELETE SQL. * Please refer to [[Query::where()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return integer the number of rows deleted */ public static function deleteAll($condition = '', $params = []) { $command = static::getDb()->createCommand(); $command->delete(static::indexName(), $condition, $params); return $command->execute(); } /** * Creates an [[ActiveQuery]] instance. * This method is called by [[find()]], [[findBySql()]] and [[count()]] to start a SELECT query. * You may override this method to return a customized query (e.g. `ArticleQuery` specified * written for querying `Article` purpose.) * @return ActiveQuery the newly created [[ActiveQuery]] instance. */ public static function createQuery() { return new ActiveQuery(['modelClass' => get_called_class()]); } /** * Declares the name of the Sphinx index associated with this AR class. * By default this method returns the class name as the index name by calling [[Inflector::camel2id()]]. * For example, 'Article' becomes 'article', and 'StockItem' becomes * 'stock_item'. You may override this method if the index is not named after this convention. * @return string the index name */ public static function indexName() { return Inflector::camel2id(StringHelper::basename(get_called_class()), '_'); } /** * Returns the schema information of the Sphinx index associated with this AR class. * @return IndexSchema the schema information of the Sphinx index associated with this AR class. * @throws InvalidConfigException if the index for the AR class does not exist. */ public static function getIndexSchema() { $schema = static::getDb()->getIndexSchema(static::indexName()); if ($schema !== null) { return $schema; } else { throw new InvalidConfigException("The index does not exist: " . static::indexName()); } } /** * Returns the primary key name for this AR class. * The default implementation will return the primary key as declared * in the Sphinx index, which is associated with this AR class. * * Note that an array should be returned even for a table with single primary key. * * @return string[] the primary keys of the associated Sphinx index. */ public static function primaryKey() { return [static::getIndexSchema()->primaryKey]; } /** * Builds a snippet from provided data and query, using specified index settings. * @param string|array $source is the source data to extract a snippet from. * It could be either a single string or array of strings. * @param string $match the full-text query to build snippets for. * @param array $options list of options in format: optionName => optionValue * @return string|array built snippet in case "source" is a string, list of built snippets * in case "source" is an array. */ public static function callSnippets($source, $match, $options = []) { $command = static::getDb()->createCommand(); $command->callSnippets(static::indexName(), $source, $match, $options); if (is_array($source)) { return $command->queryColumn(); } else { return $command->queryScalar(); } } /** * Returns tokenized and normalized forms of the keywords, and, optionally, keyword statistics. * @param string $text the text to break down to keywords. * @param boolean $fetchStatistic whether to return document and hit occurrence statistics * @return array keywords and statistics */ public static function callKeywords($text, $fetchStatistic = false) { $command = static::getDb()->createCommand(); $command->callKeywords(static::indexName(), $text, $fetchStatistic); return $command->queryAll(); } /** * @param string $snippet */ public function setSnippet($snippet) { $this->_snippet = $snippet; } /** * Returns current snippet value or generates new one from given match. * @param string $match snippet source query * @param array $options list of options in format: optionName => optionValue * @return string snippet value */ public function getSnippet($match = null, $options = []) { if ($match !== null) { $this->_snippet = $this->fetchSnippet($match, $options); } return $this->_snippet; } /** * Builds up the snippet value from the given query. * @param string $match the full-text query to build snippets for. * @param array $options list of options in format: optionName => optionValue * @return string snippet value. */ protected function fetchSnippet($match, $options = []) { return static::callSnippets($this->getSnippetSource(), $match, $options); } /** * Returns the string, which should be used as a source to create snippet for this * Active Record instance. * Child classes must implement this method to return the actual snippet source text. * For example: * ~~~ * public function getSnippetSource() * { * return $this->snippetSourceRelation->content; * } * ~~~ * @return string snippet source string. * @throws \yii\base\NotSupportedException if this is not supported by the Active Record class */ public function getSnippetSource() { throw new NotSupportedException($this->className() . ' does not provide snippet source.'); } /** * Returns the name of the column that stores the lock version for implementing optimistic locking. * * Optimistic locking allows multiple users to access the same record for edits and avoids * potential conflicts. In case when a user attempts to save the record upon some staled data * (because another user has modified the data), a [[StaleObjectException]] exception will be thrown, * and the update or deletion is skipped. * * Optimistic locking is only supported by [[update()]] and [[delete()]]. * * To use optimistic locking: * * 1. Create a column to store the version number of each row. The column type should be `BIGINT DEFAULT 0`. * Override this method to return the name of this column. * 2. In the Web form that collects the user input, add a hidden field that stores * the lock version of the recording being updated. * 3. In the controller action that does the data updating, try to catch the [[StaleObjectException]] * and implement necessary business logic (e.g. merging the changes, prompting stated data) * to resolve the conflict. * * Warning: optimistic lock will NOT work in case of updating fields (not attributes) for the * runtime indexes! * * @return string the column name that stores the lock version of a table row. * If null is returned (default implemented), optimistic locking will not be supported. */ public function optimisticLock() { return null; } /** * Declares which operations should be performed within a transaction in different scenarios. * The supported DB operations are: [[OP_INSERT]], [[OP_UPDATE]] and [[OP_DELETE]], * which correspond to the [[insert()]], [[update()]] and [[delete()]] methods, respectively. * By default, these methods are NOT enclosed in a transaction. * * In some scenarios, to ensure data consistency, you may want to enclose some or all of them * in transactions. You can do so by overriding this method and returning the operations * that need to be transactional. For example, * * ~~~ * return [ * 'admin' => self::OP_INSERT, * 'api' => self::OP_INSERT | self::OP_UPDATE | self::OP_DELETE, * // the above is equivalent to the following: * // 'api' => self::OP_ALL, * * ]; * ~~~ * * The above declaration specifies that in the "admin" scenario, the insert operation ([[insert()]]) * should be done in a transaction; and in the "api" scenario, all the operations should be done * in a transaction. * * @return array the declarations of transactional operations. The array keys are scenarios names, * and the array values are the corresponding transaction operations. */ public function transactions() { return []; } /** * PHP getter magic method. * This method is overridden so that attributes and related objects can be accessed like properties. * @param string $name property name * @return mixed property value * @see getAttribute() */ public function __get($name) { if (isset($this->_attributes[$name]) || array_key_exists($name, $this->_attributes)) { return $this->_attributes[$name]; } elseif ($this->hasAttribute($name)) { return null; } else { if (isset($this->_related[$name]) || array_key_exists($name, $this->_related)) { return $this->_related[$name]; } $value = parent::__get($name); if ($value instanceof ActiveRelationInterface) { return $this->_related[$name] = $value->multiple ? $value->all() : $value->one(); } else { return $value; } } } /** * PHP setter magic method. * This method is overridden so that AR attributes can be accessed like properties. * @param string $name property name * @param mixed $value property value */ public function __set($name, $value) { if ($this->hasAttribute($name)) { $this->_attributes[$name] = $value; } else { parent::__set($name, $value); } } /** * Checks if a property value is null. * This method overrides the parent implementation by checking if the named attribute is null or not. * @param string $name the property name or the event name * @return boolean whether the property value is null */ public function __isset($name) { try { return $this->__get($name) !== null; } catch (\Exception $e) { return false; } } /** * Sets a component property to be null. * This method overrides the parent implementation by clearing * the specified attribute value. * @param string $name the property name or the event name */ public function __unset($name) { if ($this->hasAttribute($name)) { unset($this->_attributes[$name]); } else { if (isset($this->_related[$name])) { unset($this->_related[$name]); } else { parent::__unset($name); } } } /** * Declares a `has-one` relation. * The declaration is returned in terms of an [[ActiveRelation]] instance * through which the related record can be queried and retrieved back. * * A `has-one` relation means that there is at most one related record matching * the criteria set by this relation, e.g., a particular index has one source. * * For example, to declare the `source` relation for `ArticleIndex` class, we can write * the following code in the `ArticleIndex` class: * * ~~~ * public function getSource() * { * return $this->hasOne('db', ArticleContent::className(), ['article_id' => 'id']); * } * ~~~ * * Note that in the above, the 'article_id' key in the `$link` parameter refers to an attribute name * in the related class `ArticleContent`, while the 'id' value refers to an attribute name * in the current AR class. * * Call methods declared in [[ActiveRelation]] to further customize the relation. * * @param string $class the class name of the related record * @param array $link the primary-foreign key constraint. The keys of the array refer to * the attributes in the `$class` model, while the values of the array refer to the corresponding * attributes in the index associated with this AR class. * @return ActiveRelationInterface the relation object. */ public function hasOne($class, $link) { /** @var ActiveRecord $class */ return $class::createActiveRelation([ 'modelClass' => $class, 'primaryModel' => $this, 'link' => $link, 'multiple' => false, ]); } /** * Declares a `has-many` relation. * The declaration is returned in terms of an [[ActiveRelationInterface]] instance * through which the related record can be queried and retrieved back. * * A `has-many` relation means that there are multiple related records matching * the criteria set by this relation, e.g., an article has many tags. * * For example, to declare the `tags` relation for `ArticleIndex` class, we can write * the following code in the `ArticleIndex` class: * * ~~~ * public function getOrders() * { * return $this->hasMany('db', Tag::className(), ['id' => 'tag_id']); * } * ~~~ * * Note that in the above, the 'id' key in the `$link` parameter refers to * an attribute name in the related class `Tag`, while the 'tag_id' value refers to * a multi value attribute name in the current AR class. * * @param string $class the class name of the related record * @param array $link the primary-foreign key constraint. The keys of the array refer to * the columns in the table associated with the `$class` model, while the values of the * array refer to the corresponding columns in the table associated with this AR class. * @return ActiveRelationInterface the relation object. */ public function hasMany($class, $link) { /** @var ActiveRecord $class */ return $class::createActiveRelation([ 'modelClass' => $class, 'primaryModel' => $this, 'link' => $link, 'multiple' => true, ]); } /** * Creates an [[ActiveRelationInterface]] instance. * This method is called by [[hasOne()]] and [[hasMany()]] to create a relation instance. * You may override this method to return a customized relation. * @param array $config the configuration passed to the ActiveRelation class. * @return ActiveRelationInterface the newly created [[ActiveRelation]] instance. */ public static function createActiveRelation($config = []) { return new ActiveRelation($config); } /** * Populates the named relation with the related records. * Note that this method does not check if the relation exists or not. * @param string $name the relation name (case-sensitive) * @param ActiveRecord|array|null the related records to be populated into the relation. */ public function populateRelation($name, $records) { $this->_related[$name] = $records; } /** * Check whether the named relation has been populated with records. * @param string $name the relation name (case-sensitive) * @return bool whether relation has been populated with records. */ public function isRelationPopulated($name) { return array_key_exists($name, $this->_related); } /** * Returns all populated relations. * @return array an array of relation data indexed by relation names. */ public function getPopulatedRelations() { return $this->_related; } /** * Returns the list of all attribute names of the model. * The default implementation will return all column names of the table associated with this AR class. * @return array list of attribute names. */ public function attributes() { return array_keys(static::getIndexSchema()->columns); } /** * Returns a value indicating whether the model has an attribute with the specified name. * @param string $name the name of the attribute * @return boolean whether the model has an attribute with the specified name. */ public function hasAttribute($name) { return isset($this->_attributes[$name]) || in_array($name, $this->attributes()); } /** * Returns the named attribute value. * If this record is the result of a query and the attribute is not loaded, * null will be returned. * @param string $name the attribute name * @return mixed the attribute value. Null if the attribute is not set or does not exist. * @see hasAttribute() */ public function getAttribute($name) { return isset($this->_attributes[$name]) ? $this->_attributes[$name] : null; } /** * Sets the named attribute value. * @param string $name the attribute name * @param mixed $value the attribute value. * @throws InvalidParamException if the named attribute does not exist. * @see hasAttribute() */ public function setAttribute($name, $value) { if ($this->hasAttribute($name)) { $this->_attributes[$name] = $value; } else { throw new InvalidParamException(get_class($this) . ' has no attribute named "' . $name . '".'); } } /** * Returns the old attribute values. * @return array the old attribute values (name-value pairs) */ public function getOldAttributes() { return $this->_oldAttributes === null ? [] : $this->_oldAttributes; } /** * Sets the old attribute values. * All existing old attribute values will be discarded. * @param array $values old attribute values to be set. */ public function setOldAttributes($values) { $this->_oldAttributes = $values; } /** * Returns the old value of the named attribute. * If this record is the result of a query and the attribute is not loaded, * null will be returned. * @param string $name the attribute name * @return mixed the old attribute value. Null if the attribute is not loaded before * or does not exist. * @see hasAttribute() */ public function getOldAttribute($name) { return isset($this->_oldAttributes[$name]) ? $this->_oldAttributes[$name] : null; } /** * Sets the old value of the named attribute. * @param string $name the attribute name * @param mixed $value the old attribute value. * @throws InvalidParamException if the named attribute does not exist. * @see hasAttribute() */ public function setOldAttribute($name, $value) { if (isset($this->_oldAttributes[$name]) || $this->hasAttribute($name)) { $this->_oldAttributes[$name] = $value; } else { throw new InvalidParamException(get_class($this) . ' has no attribute named "' . $name . '".'); } } /** * Returns a value indicating whether the named attribute has been changed. * @param string $name the name of the attribute * @return boolean whether the attribute has been changed */ public function isAttributeChanged($name) { if (isset($this->_attributes[$name], $this->_oldAttributes[$name])) { return $this->_attributes[$name] !== $this->_oldAttributes[$name]; } else { return isset($this->_attributes[$name]) || isset($this->_oldAttributes[$name]); } } /** * Returns the attribute values that have been modified since they are loaded or saved most recently. * @param string[]|null $names the names of the attributes whose values may be returned if they are * changed recently. If null, [[attributes()]] will be used. * @return array the changed attribute values (name-value pairs) */ public function getDirtyAttributes($names = null) { if ($names === null) { $names = $this->attributes(); } $names = array_flip($names); $attributes = []; if ($this->_oldAttributes === null) { foreach ($this->_attributes as $name => $value) { if (isset($names[$name])) { $attributes[$name] = $value; } } } else { foreach ($this->_attributes as $name => $value) { if (isset($names[$name]) && (!array_key_exists($name, $this->_oldAttributes) || $value !== $this->_oldAttributes[$name])) { $attributes[$name] = $value; } } } return $attributes; } /** * Saves the current record. * * This method will call [[insert()]] when [[isNewRecord]] is true, or [[update()]] * when [[isNewRecord]] is false. * * For example, to save an article record: * * ~~~ * $customer = new Article; // or $customer = Article::find(['id' => $id]); * $customer->id = $id; * $customer->genre_id = $genreId; * $customer->content = $email; * $customer->save(); * ~~~ * * * @param boolean $runValidation whether to perform validation before saving the record. * If the validation fails, the record will not be saved. * @param array $attributes list of attributes that need to be saved. Defaults to null, * meaning all attributes that are loaded from index will be saved. * @return boolean whether the saving succeeds */ public function save($runValidation = true, $attributes = null) { if ($this->getIsNewRecord()) { return $this->insert($runValidation, $attributes); } else { return $this->update($runValidation, $attributes) !== false; } } /** * Inserts a row into the associated Sphinx index using the attribute values of this record. * * This method performs the following steps in order: * * 1. call [[beforeValidate()]] when `$runValidation` is true. If validation * fails, it will skip the rest of the steps; * 2. call [[afterValidate()]] when `$runValidation` is true. * 3. call [[beforeSave()]]. If the method returns false, it will skip the * rest of the steps; * 4. insert the record into index. If this fails, it will skip the rest of the steps; * 5. call [[afterSave()]]; * * In the above step 1, 2, 3 and 5, events [[EVENT_BEFORE_VALIDATE]], * [[EVENT_BEFORE_INSERT]], [[EVENT_AFTER_INSERT]] and [[EVENT_AFTER_VALIDATE]] * will be raised by the corresponding methods. * * Only the [[changedAttributes|changed attribute values]] will be inserted. * * For example, to insert an article record: * * ~~~ * $article = new Article; * $article->id = $id; * $article->genre_id = $genreId; * $article->content = $content; * $article->insert(); * ~~~ * * @param boolean $runValidation whether to perform validation before saving the record. * If the validation fails, the record will not be inserted. * @param array $attributes list of attributes that need to be saved. Defaults to null, * meaning all attributes that are loaded from index will be saved. * @return boolean whether the attributes are valid and the record is inserted successfully. * @throws \Exception in case insert failed. */ public function insert($runValidation = true, $attributes = null) { if ($runValidation && !$this->validate($attributes)) { return false; } $db = static::getDb(); if ($this->isTransactional(self::OP_INSERT) && $db->getTransaction() === null) { $transaction = $db->beginTransaction(); try { $result = $this->insertInternal($attributes); if ($result === false) { $transaction->rollback(); } else { $transaction->commit(); } } catch (\Exception $e) { $transaction->rollback(); throw $e; } } else { $result = $this->insertInternal($attributes); } return $result; } /** * @see ActiveRecord::insert() */ private function insertInternal($attributes = null) { if (!$this->beforeSave(true)) { return false; } $values = $this->getDirtyAttributes($attributes); if (empty($values)) { foreach ($this->primaryKey() as $key) { $values[$key] = isset($this->_attributes[$key]) ? $this->_attributes[$key] : null; } } $db = static::getDb(); $command = $db->createCommand()->insert($this->indexName(), $values); if (!$command->execute()) { return false; } foreach ($values as $name => $value) { $this->_oldAttributes[$name] = $value; } $this->afterSave(true); return true; } /** * Saves the changes to this active record into the associated Sphinx index. * * This method performs the following steps in order: * * 1. call [[beforeValidate()]] when `$runValidation` is true. If validation * fails, it will skip the rest of the steps; * 2. call [[afterValidate()]] when `$runValidation` is true. * 3. call [[beforeSave()]]. If the method returns false, it will skip the * rest of the steps; * 4. save the record into index. If this fails, it will skip the rest of the steps; * 5. call [[afterSave()]]; * * In the above step 1, 2, 3 and 5, events [[EVENT_BEFORE_VALIDATE]], * [[EVENT_BEFORE_UPDATE]], [[EVENT_AFTER_UPDATE]] and [[EVENT_AFTER_VALIDATE]] * will be raised by the corresponding methods. * * Only the [[changedAttributes|changed attribute values]] will be saved into database. * * For example, to update an article record: * * ~~~ * $article = Article::find(['id' => $id]); * $article->genre_id = $genreId; * $article->group_id = $groupId; * $article->update(); * ~~~ * * Note that it is possible the update does not affect any row in the table. * In this case, this method will return 0. For this reason, you should use the following * code to check if update() is successful or not: * * ~~~ * if ($this->update() !== false) { * // update successful * } else { * // update failed * } * ~~~ * * @param boolean $runValidation whether to perform validation before saving the record. * If the validation fails, the record will not be inserted into the database. * @param array $attributes list of attributes that need to be saved. Defaults to null, * meaning all attributes that are loaded from DB will be saved. * @return integer|boolean the number of rows affected, or false if validation fails * or [[beforeSave()]] stops the updating process. * @throws StaleObjectException if [[optimisticLock|optimistic locking]] is enabled and the data * being updated is outdated. * @throws \Exception in case update failed. */ public function update($runValidation = true, $attributes = null) { if ($runValidation && !$this->validate($attributes)) { return false; } $db = static::getDb(); if ($this->isTransactional(self::OP_UPDATE) && $db->getTransaction() === null) { $transaction = $db->beginTransaction(); try { $result = $this->updateInternal($attributes); if ($result === false) { $transaction->rollback(); } else { $transaction->commit(); } } catch (\Exception $e) { $transaction->rollback(); throw $e; } } else { $result = $this->updateInternal($attributes); } return $result; } /** * @see CActiveRecord::update() * @throws StaleObjectException */ private function updateInternal($attributes = null) { if (!$this->beforeSave(false)) { return false; } $values = $this->getDirtyAttributes($attributes); if (empty($values)) { $this->afterSave(false); return 0; } // Replace is supported only by runtime indexes and necessary only for field update $useReplace = false; $indexSchema = $this->getIndexSchema(); if ($this->getIndexSchema()->isRuntime) { foreach ($values as $name => $value) { $columnSchema = $indexSchema->getColumn($name); if ($columnSchema->isField) { $useReplace = true; break; } } } if ($useReplace) { $values = array_merge($values, $this->getOldPrimaryKey(true)); $command = static::getDb()->createCommand(); $command->replace(static::indexName(), $values); // We do not check the return value of replace because it's possible // that the REPLACE statement doesn't change anything and thus returns 0. $rows = $command->execute(); } else { $condition = $this->getOldPrimaryKey(true); $lock = $this->optimisticLock(); if ($lock !== null) { if (!isset($values[$lock])) { $values[$lock] = $this->$lock + 1; } $condition[$lock] = $this->$lock; } // We do not check the return value of updateAll() because it's possible // that the UPDATE statement doesn't change anything and thus returns 0. $rows = $this->updateAll($values, $condition); if ($lock !== null && !$rows) { throw new StaleObjectException('The object being updated is outdated.'); } } foreach ($values as $name => $value) { $this->_oldAttributes[$name] = $this->_attributes[$name]; } $this->afterSave(false); return $rows; } /** * Deletes the index entry corresponding to this active record. * * This method performs the following steps in order: * * 1. call [[beforeDelete()]]. If the method returns false, it will skip the * rest of the steps; * 2. delete the record from the index; * 3. call [[afterDelete()]]. * * In the above step 1 and 3, events named [[EVENT_BEFORE_DELETE]] and [[EVENT_AFTER_DELETE]] * will be raised by the corresponding methods. * * @return integer|boolean the number of rows deleted, or false if the deletion is unsuccessful for some reason. * Note that it is possible the number of rows deleted is 0, even though the deletion execution is successful. * @throws StaleObjectException if [[optimisticLock|optimistic locking]] is enabled and the data * being deleted is outdated. * @throws \Exception in case delete failed. */ public function delete() { $db = static::getDb(); $transaction = $this->isTransactional(self::OP_DELETE) && $db->getTransaction() === null ? $db->beginTransaction() : null; try { $result = false; if ($this->beforeDelete()) { // we do not check the return value of deleteAll() because it's possible // the record is already deleted in the database and thus the method will return 0 $condition = $this->getOldPrimaryKey(true); $lock = $this->optimisticLock(); if ($lock !== null) { $condition[$lock] = $this->$lock; } $result = $this->deleteAll($condition); if ($lock !== null && !$result) { throw new StaleObjectException('The object being deleted is outdated.'); } $this->_oldAttributes = null; $this->afterDelete(); } if ($transaction !== null) { if ($result === false) { $transaction->rollback(); } else { $transaction->commit(); } } } catch (\Exception $e) { if ($transaction !== null) { $transaction->rollback(); } throw $e; } return $result; } /** * Returns a value indicating whether the current record is new. * @return boolean whether the record is new and should be inserted when calling [[save()]]. */ public function getIsNewRecord() { return $this->_oldAttributes === null; } /** * Sets the value indicating whether the record is new. * @param boolean $value whether the record is new and should be inserted when calling [[save()]]. * @see getIsNewRecord() */ public function setIsNewRecord($value) { $this->_oldAttributes = $value ? null : $this->_attributes; } /** * Initializes the object. * This method is called at the end of the constructor. * The default implementation will trigger an [[EVENT_INIT]] event. * If you override this method, make sure you call the parent implementation at the end * to ensure triggering of the event. */ public function init() { parent::init(); $this->trigger(self::EVENT_INIT); } /** * This method is called when the AR object is created and populated with the query result. * The default implementation will trigger an [[EVENT_AFTER_FIND]] event. * When overriding this method, make sure you call the parent implementation to ensure the * event is triggered. */ public function afterFind() { $this->trigger(self::EVENT_AFTER_FIND); } /** * This method is called at the beginning of inserting or updating a record. * The default implementation will trigger an [[EVENT_BEFORE_INSERT]] event when `$insert` is true, * or an [[EVENT_BEFORE_UPDATE]] event if `$insert` is false. * When overriding this method, make sure you call the parent implementation like the following: * * ~~~ * public function beforeSave($insert) * { * if (parent::beforeSave($insert)) { * // ...custom code here... * return true; * } else { * return false; * } * } * ~~~ * * @param boolean $insert whether this method called while inserting a record. * If false, it means the method is called while updating a record. * @return boolean whether the insertion or updating should continue. * If false, the insertion or updating will be cancelled. */ public function beforeSave($insert) { $event = new ModelEvent; $this->trigger($insert ? self::EVENT_BEFORE_INSERT : self::EVENT_BEFORE_UPDATE, $event); return $event->isValid; } /** * This method is called at the end of inserting or updating a record. * The default implementation will trigger an [[EVENT_AFTER_INSERT]] event when `$insert` is true, * or an [[EVENT_AFTER_UPDATE]] event if `$insert` is false. * When overriding this method, make sure you call the parent implementation so that * the event is triggered. * @param boolean $insert whether this method called while inserting a record. * If false, it means the method is called while updating a record. */ public function afterSave($insert) { $this->trigger($insert ? self::EVENT_AFTER_INSERT : self::EVENT_AFTER_UPDATE); } /** * This method is invoked before deleting a record. * The default implementation raises the [[EVENT_BEFORE_DELETE]] event. * When overriding this method, make sure you call the parent implementation like the following: * * ~~~ * public function beforeDelete() * { * if (parent::beforeDelete()) { * // ...custom code here... * return true; * } else { * return false; * } * } * ~~~ * * @return boolean whether the record should be deleted. Defaults to true. */ public function beforeDelete() { $event = new ModelEvent; $this->trigger(self::EVENT_BEFORE_DELETE, $event); return $event->isValid; } /** * This method is invoked after deleting a record. * The default implementation raises the [[EVENT_AFTER_DELETE]] event. * You may override this method to do postprocessing after the record is deleted. * Make sure you call the parent implementation so that the event is raised properly. */ public function afterDelete() { $this->trigger(self::EVENT_AFTER_DELETE); } /** * Repopulates this active record with the latest data. * @return boolean whether the row still exists in the database. If true, the latest data * will be populated to this active record. Otherwise, this record will remain unchanged. */ public function refresh() { $record = $this->find($this->getPrimaryKey(true)); if ($record === null) { return false; } foreach ($this->attributes() as $name) { $this->_attributes[$name] = isset($record->_attributes[$name]) ? $record->_attributes[$name] : null; } $this->_oldAttributes = $this->_attributes; $this->_related = []; return true; } /** * Returns a value indicating whether the given active record is the same as the current one. * The comparison is made by comparing the index names and the primary key values of the two active records. * If one of the records [[isNewRecord|is new]] they are also considered not equal. * @param ActiveRecord $record record to compare to * @return boolean whether the two active records refer to the same row in the same index. */ public function equals($record) { if ($this->isNewRecord || $record->isNewRecord) { return false; } return $this->indexName() === $record->indexName() && $this->getPrimaryKey() === $record->getPrimaryKey(); } /** * Returns the primary key value(s). * @param boolean $asArray whether to return the primary key value as an array. If true, * the return value will be an array with column names as keys and column values as values. * Note that for composite primary keys, an array will always be returned regardless of this parameter value. * @property mixed The primary key value. An array (column name => column value) is returned if * the primary key is composite. A string is returned otherwise (null will be returned if * the key value is null). * @return mixed the primary key value. An array (column name => column value) is returned if the primary key * is composite or `$asArray` is true. A string is returned otherwise (null will be returned if * the key value is null). */ public function getPrimaryKey($asArray = false) { $keys = $this->primaryKey(); if (count($keys) === 1 && !$asArray) { return isset($this->_attributes[$keys[0]]) ? $this->_attributes[$keys[0]] : null; } else { $values = []; foreach ($keys as $name) { $values[$name] = isset($this->_attributes[$name]) ? $this->_attributes[$name] : null; } return $values; } } /** * Returns the old primary key value(s). * This refers to the primary key value that is populated into the record * after executing a find method (e.g. find(), findAll()). * The value remains unchanged even if the primary key attribute is manually assigned with a different value. * @param boolean $asArray whether to return the primary key value as an array. If true, * the return value will be an array with column name as key and column value as value. * If this is false (default), a scalar value will be returned for non-composite primary key. * @property mixed The old primary key value. An array (column name => column value) is * returned if the primary key is composite. A string is returned otherwise (null will be * returned if the key value is null). * @return mixed the old primary key value. An array (column name => column value) is returned if the primary key * is composite or `$asArray` is true. A string is returned otherwise (null will be returned if * the key value is null). */ public function getOldPrimaryKey($asArray = false) { $keys = $this->primaryKey(); if (count($keys) === 1 && !$asArray) { return isset($this->_oldAttributes[$keys[0]]) ? $this->_oldAttributes[$keys[0]] : null; } else { $values = []; foreach ($keys as $name) { $values[$name] = isset($this->_oldAttributes[$name]) ? $this->_oldAttributes[$name] : null; } return $values; } } /** * Creates an active record object using a row of data. * This method is called by [[ActiveQuery]] to populate the query results * into Active Records. It is not meant to be used to create new records. * @param array $row attribute values (name => value) * @return ActiveRecord the newly created active record. */ public static function create($row) { $record = static::instantiate($row); $columns = static::getIndexSchema()->columns; foreach ($row as $name => $value) { if (isset($columns[$name])) { $column = $columns[$name]; if ($column->isMva) { $value = explode(',', $value); } $record->_attributes[$name] = $value; } else { $record->$name = $value; } } $record->_oldAttributes = $record->_attributes; $record->afterFind(); return $record; } /** * Creates an active record instance. * This method is called by [[create()]]. * You may override this method if the instance being created * depends on the row data to be populated into the record. * @param array $row row data to be populated into the record. * @return ActiveRecord the newly created active record */ public static function instantiate($row) { return new static; } /** * Returns whether there is an element at the specified offset. * This method is required by the interface ArrayAccess. * @param mixed $offset the offset to check on * @return boolean whether there is an element at the specified offset. */ public function offsetExists($offset) { return $this->__isset($offset); } /** * Returns the relation object with the specified name. * A relation is defined by a getter method which returns an [[ActiveRelationInterface]] object. * It can be declared in either the Active Record class itself or one of its behaviors. * @param string $name the relation name * @return ActiveRelationInterface the relation object * @throws InvalidParamException if the named relation does not exist. */ public function getRelation($name) { $getter = 'get' . $name; try { $relation = $this->$getter(); if ($relation instanceof ActiveRelationInterface) { return $relation; } else { throw new InvalidParamException(get_class($this) . ' has no relation named "' . $name . '".'); } } catch (UnknownMethodException $e) { throw new InvalidParamException(get_class($this) . ' has no relation named "' . $name . '".', 0, $e); } } /** * Returns a value indicating whether the specified operation is transactional in the current [[scenario]]. * @param integer $operation the operation to check. Possible values are [[OP_INSERT]], [[OP_UPDATE]] and [[OP_DELETE]]. * @return boolean whether the specified operation is transactional in the current [[scenario]]. */ public function isTransactional($operation) { $scenario = $this->getScenario(); $transactions = $this->transactions(); return isset($transactions[$scenario]) && ($transactions[$scenario] & $operation); } /** * Sets the element at the specified offset. * This method is required by the SPL interface `ArrayAccess`. * It is implicitly called when you use something like `$model[$offset] = $item;`. * @param integer $offset the offset to set element * @param mixed $item the element value * @throws \Exception on failure */ public function offsetSet($offset, $item) { // Bypass relation owner restriction to 'yii\db\ActiveRecord' at [[yii\db\ActiveRelationTrait::findWith()]]: try { $relation = $this->getRelation($offset); if (is_object($relation)) { $this->populateRelation($offset, $item); return; } } catch (UnknownMethodException $e) { throw $e->getPrevious(); } parent::offsetSet($offset, $item); } }