* @author Carsten Brandt * @since 2.0 * * @method ActiveRecordInterface one() * @method ActiveRecordInterface[] all() * @property ActiveRecord $modelClass */ trait ActiveRelationTrait { /** * @var bool whether this query represents a relation to more than one record. * This property is only used in relational context. If true, this relation will * populate all query results into AR instances using [[Query::all()|all()]]. * If false, only the first row of the results will be retrieved using [[Query::one()|one()]]. */ public $multiple; /** * @var ActiveRecord the primary model of a relational query. * This is used only in lazy loading with dynamic query options. */ public $primaryModel; /** * @var array the columns of the primary and foreign tables that establish a relation. * The array keys must be columns of the table for this relation, and the array values * must be the corresponding columns from the primary table. * Do not prefix or quote the column names as this will be done automatically by Yii. * This property is only used in relational context. */ public $link; /** * @var array|object the query associated with the junction table. Please call [[via()]] * to set this property instead of directly setting it. * This property is only used in relational context. * @see via() */ public $via; /** * @var string the name of the relation that is the inverse of this relation. * For example, an order has a customer, which means the inverse of the "customer" relation * is the "orders", and the inverse of the "orders" relation is the "customer". * If this property is set, the primary record(s) will be referenced through the specified relation. * For example, `$customer->orders[0]->customer` and `$customer` will be the same object, * and accessing the customer of an order will not trigger new DB query. * This property is only used in relational context. * @see inverseOf() */ public $inverseOf; private $viaMap; /** * Clones internal objects. */ public function __clone() { parent::__clone(); // make a clone of "via" object so that the same query object can be reused multiple times if (is_object($this->via)) { $this->via = clone $this->via; } elseif (is_array($this->via)) { $this->via = [$this->via[0], clone $this->via[1], $this->via[2]]; } } /** * Specifies the relation associated with the junction table. * * Use this method to specify a pivot record/table when declaring a relation in the [[ActiveRecord]] class: * * ```php * class Order extends ActiveRecord * { * public function getOrderItems() { * return $this->hasMany(OrderItem::className(), ['order_id' => 'id']); * } * * public function getItems() { * return $this->hasMany(Item::className(), ['id' => 'item_id']) * ->via('orderItems'); * } * } * ``` * * @param string $relationName the relation name. This refers to a relation declared in [[primaryModel]]. * @param callable $callable a PHP callback for customizing the relation associated with the junction table. * Its signature should be `function($query)`, where `$query` is the query to be customized. * @return $this the relation object itself. */ public function via($relationName, callable $callable = null) { $relation = $this->primaryModel->getRelation($relationName); $callableUsed = $callable !== null; $this->via = [$relationName, $relation, $callableUsed]; if ($callable !== null) { call_user_func($callable, $relation); } return $this; } /** * Sets the name of the relation that is the inverse of this relation. * For example, a customer has orders, which means the inverse of the "orders" relation is the "customer". * If this property is set, the primary record(s) will be referenced through the specified relation. * For example, `$customer->orders[0]->customer` and `$customer` will be the same object, * and accessing the customer of an order will not trigger a new DB query. * * Use this method when declaring a relation in the [[ActiveRecord]] class, e.g. in Customer model: * * ```php * public function getOrders() * { * return $this->hasMany(Order::className(), ['customer_id' => 'id'])->inverseOf('customer'); * } * ``` * * This also may be used for Order model, but with caution: * * ```php * public function getCustomer() * { * return $this->hasOne(Customer::className(), ['id' => 'customer_id'])->inverseOf('orders'); * } * ``` * * in this case result will depend on how order(s) was loaded. * Let's suppose customer has several orders. If only one order was loaded: * * ```php * $orders = Order::find()->where(['id' => 1])->all(); * $customerOrders = $orders[0]->customer->orders; * ``` * * variable `$customerOrders` will contain only one order. If orders was loaded like this: * * ```php * $orders = Order::find()->with('customer')->where(['customer_id' => 1])->all(); * $customerOrders = $orders[0]->customer->orders; * ``` * * variable `$customerOrders` will contain all orders of the customer. * * @param string $relationName the name of the relation that is the inverse of this relation. * @return $this the relation object itself. */ public function inverseOf($relationName) { $this->inverseOf = $relationName; return $this; } /** * Finds the related records for the specified primary record. * This method is invoked when a relation of an ActiveRecord is being accessed in a lazy fashion. * @param string $name the relation name * @param ActiveRecordInterface|BaseActiveRecord $model the primary model * @return mixed the related record(s) * @throws InvalidArgumentException if the relation is invalid */ public function findFor($name, $model) { if (method_exists($model, 'get' . $name)) { $method = new \ReflectionMethod($model, 'get' . $name); $realName = lcfirst(substr($method->getName(), 3)); if ($realName !== $name) { throw new InvalidArgumentException('Relation names are case sensitive. ' . get_class($model) . " has a relation named \"$realName\" instead of \"$name\"."); } } return $this->multiple ? $this->all() : $this->one(); } /** * If applicable, populate the query's primary model into the related records' inverse relationship. * @param array $result the array of related records as generated by [[populate()]] * @since 2.0.9 */ private function addInverseRelations(&$result) { if ($this->inverseOf === null) { return; } foreach ($result as $i => $relatedModel) { if ($relatedModel instanceof ActiveRecordInterface) { if (!isset($inverseRelation)) { $inverseRelation = $relatedModel->getRelation($this->inverseOf); } $relatedModel->populateRelation($this->inverseOf, $inverseRelation->multiple ? [$this->primaryModel] : $this->primaryModel); } else { if (!isset($inverseRelation)) { /* @var $modelClass ActiveRecordInterface */ $modelClass = $this->modelClass; $inverseRelation = $modelClass::instance()->getRelation($this->inverseOf); } $result[$i][$this->inverseOf] = $inverseRelation->multiple ? [$this->primaryModel] : $this->primaryModel; } } } /** * Finds the related records and populates them into the primary models. * @param string $name the relation name * @param array $primaryModels primary models * @return array the related models * @throws InvalidConfigException if [[link]] is invalid */ public function populateRelation($name, &$primaryModels) { if (!is_array($this->link)) { throw new InvalidConfigException('Invalid link: it must be an array of key-value pairs.'); } if ($this->via instanceof self) { // via junction table /* @var $viaQuery ActiveRelationTrait */ $viaQuery = $this->via; $viaModels = $viaQuery->findJunctionRows($primaryModels); $this->filterByModels($viaModels); } elseif (is_array($this->via)) { // via relation /* @var $viaQuery ActiveRelationTrait|ActiveQueryTrait */ list($viaName, $viaQuery) = $this->via; if ($viaQuery->asArray === null) { // inherit asArray from primary query $viaQuery->asArray($this->asArray); } $viaQuery->primaryModel = null; $viaModels = $viaQuery->populateRelation($viaName, $primaryModels); $this->filterByModels($viaModels); } else { $this->filterByModels($primaryModels); } if (!$this->multiple && count($primaryModels) === 1) { $model = $this->one(); $primaryModel = reset($primaryModels); if ($primaryModel instanceof ActiveRecordInterface) { $primaryModel->populateRelation($name, $model); } else { $primaryModels[key($primaryModels)][$name] = $model; } if ($this->inverseOf !== null) { $this->populateInverseRelation($primaryModels, [$model], $name, $this->inverseOf); } return [$model]; } // https://github.com/yiisoft/yii2/issues/3197 // delay indexing related models after buckets are built $indexBy = $this->indexBy; $this->indexBy = null; $models = $this->all(); if (isset($viaModels, $viaQuery)) { $buckets = $this->buildBuckets($models, $this->link, $viaModels, $viaQuery); } else { $buckets = $this->buildBuckets($models, $this->link); } $this->indexBy = $indexBy; if ($this->indexBy !== null && $this->multiple) { $buckets = $this->indexBuckets($buckets, $this->indexBy); } $link = array_values($this->link); if (isset($viaQuery)) { $deepViaQuery = $viaQuery; while ($deepViaQuery->via) { $deepViaQuery = is_array($deepViaQuery->via) ? $deepViaQuery->via[1] : $deepViaQuery->via; }; $link = array_values($deepViaQuery->link); } foreach ($primaryModels as $i => $primaryModel) { if ($this->multiple && count($link) === 1 && is_array($keys = $primaryModel[reset($link)])) { $value = []; foreach ($keys as $key) { $key = $this->normalizeModelKey($key); if (isset($buckets[$key])) { if ($this->indexBy !== null) { // if indexBy is set, array_merge will cause renumbering of numeric array foreach ($buckets[$key] as $bucketKey => $bucketValue) { $value[$bucketKey] = $bucketValue; } } else { $value = array_merge($value, $buckets[$key]); } } } } else { $key = $this->getModelKey($primaryModel, $link); $value = isset($buckets[$key]) ? $buckets[$key] : ($this->multiple ? [] : null); } if ($primaryModel instanceof ActiveRecordInterface) { $primaryModel->populateRelation($name, $value); } else { $primaryModels[$i][$name] = $value; } } if ($this->inverseOf !== null) { $this->populateInverseRelation($primaryModels, $models, $name, $this->inverseOf); } return $models; } /** * @param ActiveRecordInterface[] $primaryModels primary models * @param ActiveRecordInterface[] $models models * @param string $primaryName the primary relation name * @param string $name the relation name */ private function populateInverseRelation(&$primaryModels, $models, $primaryName, $name) { if (empty($models) || empty($primaryModels)) { return; } $model = reset($models); /* @var $relation ActiveQueryInterface|ActiveQuery */ if ($model instanceof ActiveRecordInterface) { $relation = $model->getRelation($name); } else { /* @var $modelClass ActiveRecordInterface */ $modelClass = $this->modelClass; $relation = $modelClass::instance()->getRelation($name); } if ($relation->multiple) { $buckets = $this->buildBuckets($primaryModels, $relation->link, null, null, false); if ($model instanceof ActiveRecordInterface) { foreach ($models as $model) { $key = $this->getModelKey($model, $relation->link); $model->populateRelation($name, isset($buckets[$key]) ? $buckets[$key] : []); } } else { foreach ($primaryModels as $i => $primaryModel) { if ($this->multiple) { foreach ($primaryModel as $j => $m) { $key = $this->getModelKey($m, $relation->link); $primaryModels[$i][$j][$name] = isset($buckets[$key]) ? $buckets[$key] : []; } } elseif (!empty($primaryModel[$primaryName])) { $key = $this->getModelKey($primaryModel[$primaryName], $relation->link); $primaryModels[$i][$primaryName][$name] = isset($buckets[$key]) ? $buckets[$key] : []; } } } } elseif ($this->multiple) { foreach ($primaryModels as $i => $primaryModel) { foreach ($primaryModel[$primaryName] as $j => $m) { if ($m instanceof ActiveRecordInterface) { $m->populateRelation($name, $primaryModel); } else { $primaryModels[$i][$primaryName][$j][$name] = $primaryModel; } } } } else { foreach ($primaryModels as $i => $primaryModel) { if ($primaryModels[$i][$primaryName] instanceof ActiveRecordInterface) { $primaryModels[$i][$primaryName]->populateRelation($name, $primaryModel); } elseif (!empty($primaryModels[$i][$primaryName])) { $primaryModels[$i][$primaryName][$name] = $primaryModel; } } } } /** * @param array $models * @param array $link * @param array $viaModels * @param null|self $viaQuery * @param bool $checkMultiple * @return array */ private function buildBuckets($models, $link, $viaModels = null, $viaQuery = null, $checkMultiple = true) { if ($viaModels !== null) { $map = []; $viaLink = $viaQuery->link; $viaLinkKeys = array_keys($viaLink); $linkValues = array_values($link); foreach ($viaModels as $viaModel) { $key1 = $this->getModelKey($viaModel, $viaLinkKeys); $key2 = $this->getModelKey($viaModel, $linkValues); $map[$key2][$key1] = true; } $viaQuery->viaMap = $map; $viaVia = $viaQuery->via; while ($viaVia) { $viaViaQuery = is_array($viaVia) ? $viaVia[1] : $viaVia; $map = $this->mapVia($map, $viaViaQuery->viaMap); $viaVia = $viaViaQuery->via; }; } $buckets = []; $linkKeys = array_keys($link); if (isset($map)) { foreach ($models as $model) { $key = $this->getModelKey($model, $linkKeys); if (isset($map[$key])) { foreach (array_keys($map[$key]) as $key2) { $buckets[$key2][] = $model; } } } } else { foreach ($models as $model) { $key = $this->getModelKey($model, $linkKeys); $buckets[$key][] = $model; } } if ($checkMultiple && !$this->multiple) { foreach ($buckets as $i => $bucket) { $buckets[$i] = reset($bucket); } } return $buckets; } /** * @param array $map * @param array $viaMap * @return array */ private function mapVia($map, $viaMap) { $resultMap = []; foreach ($map as $key => $linkKeys) { foreach (array_keys($linkKeys) as $linkKey) { $resultMap[$key] = $viaMap[$linkKey]; } } return $resultMap; } /** * Indexes buckets by column name. * * @param array $buckets * @param string|callable $indexBy the name of the column by which the query results should be indexed by. * This can also be a callable (e.g. anonymous function) that returns the index value based on the given row data. * @return array */ private function indexBuckets($buckets, $indexBy) { $result = []; foreach ($buckets as $key => $models) { $result[$key] = []; foreach ($models as $model) { $index = is_string($indexBy) ? $model[$indexBy] : call_user_func($indexBy, $model); $result[$key][$index] = $model; } } return $result; } /** * @param array $attributes the attributes to prefix * @return array */ private function prefixKeyColumns($attributes) { if ($this instanceof ActiveQuery && (!empty($this->join) || !empty($this->joinWith))) { if (empty($this->from)) { /* @var $modelClass ActiveRecord */ $modelClass = $this->modelClass; $alias = $modelClass::tableName(); } else { foreach ($this->from as $alias => $table) { if (!is_string($alias)) { $alias = $table; } break; } } if (isset($alias)) { foreach ($attributes as $i => $attribute) { $attributes[$i] = "$alias.$attribute"; } } } return $attributes; } /** * @param array $models */ private function filterByModels($models) { $attributes = array_keys($this->link); $attributes = $this->prefixKeyColumns($attributes); $values = []; if (count($attributes) === 1) { // single key $attribute = reset($this->link); foreach ($models as $model) { if (($value = $model[$attribute]) !== null) { if (is_array($value)) { $values = array_merge($values, $value); } elseif ($value instanceof ArrayExpression && $value->getDimension() === 1) { $values = array_merge($values, $value->getValue()); } else { $values[] = $value; } } } if (empty($values)) { $this->emulateExecution(); } } else { // composite keys // ensure keys of $this->link are prefixed the same way as $attributes $prefixedLink = array_combine($attributes, $this->link); foreach ($models as $model) { $v = []; foreach ($prefixedLink as $attribute => $link) { $v[$attribute] = $model[$link]; } $values[] = $v; if (empty($v)) { $this->emulateExecution(); } } } if (!empty($values)) { $scalarValues = []; $nonScalarValues = []; foreach ($values as $value) { if (is_scalar($value)) { $scalarValues[] = $value; } else { $nonScalarValues[] = $value; } } $scalarValues = array_unique($scalarValues); $values = array_merge($scalarValues, $nonScalarValues); } $this->andWhere(['in', $attributes, $values]); } /** * @param ActiveRecordInterface|array $model * @param array $attributes * @return string */ private function getModelKey($model, $attributes) { $key = []; foreach ($attributes as $attribute) { $key[] = $this->normalizeModelKey($model[$attribute]); } if (count($key) > 1) { return serialize($key); } $key = reset($key); return is_scalar($key) ? $key : serialize($key); } /** * @param mixed $value raw key value. * @return string normalized key value. */ private function normalizeModelKey($value) { if (is_object($value) && method_exists($value, '__toString')) { // ensure matching to special objects, which are convertable to string, for cross-DBMS relations, for example: `|MongoId` $value = $value->__toString(); } return $value; } /** * @param array $primaryModels either array of AR instances or arrays * @return array */ private function findJunctionRows($primaryModels) { if (empty($primaryModels)) { return []; } $this->filterByModels($primaryModels); /* @var $primaryModel ActiveRecord */ $primaryModel = reset($primaryModels); if (!$primaryModel instanceof ActiveRecordInterface) { // when primaryModels are array of arrays (asArray case) $primaryModel = $this->modelClass; } return $this->asArray()->all($primaryModel::getDb()); } }