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Active Record
Active Record implements the Active Record design pattern. The premise behind Active Record is that an individual ActiveRecord object is associated with a specific row in a database table. The object's attributes are mapped to the columns of the corresponding table. Referencing an Active Record attribute is equivalent to accessing the corresponding table column for that record.
As an example, say that the Customer
ActiveRecord class is associated with the
tbl_customer
table. This would mean that the class's name
attribute is automatically mapped to the name
column in tbl_customer
.
Thanks to Active Record, assuming the variable $customer
is an object of type Customer
, to get the value of the name
column for the table row, you can use the expression $customer->name
. In this example, Active Record is providing an object-oriented interface for accessing data stored in the database. But Active Record provides much more functionality than this.
With Active Record, instead of writing raw SQL statements to perform database queries, you can call intuitive methods to achieve the same goals. For example, calling ActiveRecord::save() would perform an INSERT or UPDATE query, creating or updating a row in the associated table of the ActiveRecord class:
$customer = new Customer();
$customer->name = 'Qiang';
$customer->save(); // a new row is inserted into tbl_customer
Declaring ActiveRecord Classes
To declare an ActiveRecord class you need to extend \yii\db\ActiveRecord and
implement the tableName
method:
use yii\db\ActiveRecord;
class Customer extends ActiveRecord
{
/**
* @return string the name of the table associated with this ActiveRecord class.
*/
public static function tableName()
{
return 'tbl_customer';
}
}
The tableName
method only has to return the name of the database table associated with the class.
Class instances are obtained in one of two ways:
- Using the
new
operator to create a new, empty object - Using a method to fetch an existing record (or records) from the database
Connecting to the Database
ActiveRecord relies on a Connection to perform the underlying DB operations.
By default, ActiveRecord assumes that there is an application component named db
which provides the needed
Connection instance. Usually this component is configured in application configuration file:
return [
'components' => [
'db' => [
'class' => 'yii\db\Connection',
'dsn' => 'mysql:host=localhost;dbname=testdb',
'username' => 'demo',
'password' => 'demo',
],
],
];
Please read the Database basics section to learn more on how to configure and use database connections.
Querying Data from the Database
There are two ActiveRecord methods for querying data from database:
- ActiveRecord::find()
- ActiveRecord::findBySql()
Both methods return an ActiveQuery instance, which extends Query, and thus supports the same set of flexible and powerful DB query methods. The following examples demonstrate some of the possibilities.
// to retrieve all *active* customers and order them by their ID:
$customers = Customer::find()
->where(['status' => $active])
->orderBy('id')
->all();
// to return a single customer whose ID is 1:
$customer = Customer::find(1);
// the above code is equivalent to the following:
$customer = Customer::find()
->where(['id' => 1])
->one();
// to retrieve customers using a raw SQL statement:
$sql = 'SELECT * FROM tbl_customer';
$customers = Customer::findBySql($sql)->all();
// to return the number of *active* customers:
$count = Customer::find()
->where(['status' => $active])
->count();
// to return customers in terms of arrays rather than `Customer` objects:
$customers = Customer::find()
->asArray()
->all();
// each element of $customers is an array of name-value pairs
// to index the result by customer IDs:
$customers = Customer::find()->indexBy('id')->all();
// $customers array is indexed by customer IDs
Accessing Column Data
ActiveRecord maps each column of the corresponding database table row to an attribute in the ActiveRecord object. The attribute behaves like any regular object public property. The attribute's name will be the same as the corresponding column name, and is case-sensitive.
To read the value of a column, you can use the following syntax:
// "id" and "email" are the names of columns in the table associated with $customer ActiveRecord object
$id = $customer->id;
$email = $customer->email;
To change the value of a column, assign a new value to the associated property and save the object:
$customer->email = 'jane@example.com';
$customer->save();
Manipulating Data in the Database
ActiveRecord provides the following methods to insert, update and delete data in the database:
- ActiveRecord::save()
- ActiveRecord::insert()
- ActiveRecord::update()
- ActiveRecord::delete()
- ActiveRecord::updateCounters()
- ActiveRecord::updateAll()
- ActiveRecord::updateAllCounters()
- ActiveRecord::deleteAll()
Note that ActiveRecord::updateAll(), ActiveRecord::updateAllCounters() and ActiveRecord::deleteAll() are static methods that apply to the whole database table. The other methods only apply to the row associated with the ActiveRecord object through which the method is being called.
// to insert a new customer record
$customer = new Customer;
$customer->name = 'James';
$customer->email = 'james@example.com';
$customer->save(); // equivalent to $customer->insert();
// to update an existing customer record
$customer = Customer::find($id);
$customer->email = 'james@example.com';
$customer->save(); // equivalent to $customer->update();
// to delete an existing customer record
$customer = Customer::find($id);
$customer->delete();
// to increment the age of ALL customers by 1
Customer::updateAllCounters(['age' => 1]);
Info: The
save()
method will either perform anINSERT
orUPDATE
SQL statement, depending on whether the ActiveRecord being saved is new or not by checkingActiveRecord::isNewRecord
.
Data Input and Validation
ActiveRecord inherits data validation and data input features from \yii\base\Model. Data validation is called
automatically when save()
is performed. If data validation fails, the saving operation will be cancelled.
For more details refer to the Model section of this guide.
Querying Relational Data
You can use ActiveRecord to also query a table's relational data (i.e., selection of data from Table A can also pull in related data from Table B). Thanks to ActiveRecord, the relational data returned can be accessed like a property of the ActiveRecord object associated with the primary table.
For example, with an appropriate relation declaration, by accessing $customer->orders
you may obtain
an array of Order
objects which represent the orders placed by the specified customer.
To declare a relation, define a getter method which returns an ActiveRelation object. For example,
class Customer extends \yii\db\ActiveRecord
{
public function getOrders()
{
return $this->hasMany(Order::className(), ['customer_id' => 'id']);
}
}
class Order extends \yii\db\ActiveRecord
{
public function getCustomer()
{
return $this->hasOne(Customer::className(), ['id' => 'customer_id']);
}
}
The methods ActiveRecord::hasMany() and ActiveRecord::hasOne() used in the above are used to model the many-one relationship and one-one relationship in a relational database. For example, a customer has many orders, and an order has one customer. Both methods take two parameters and return an ActiveRelation object:
$class
: the name of the class of the related model(s). If specified without a namespace, the namespace of the related model class will be taken from the declaring class.$link
: the association between columns from the two tables. This should be given as an array. The keys of the array are the names of the columns from the table associated with$class
, while the values of the array are the names of the columns from the declaring class. It is a good practice to define relationships based on table foreign keys.
After declaring relations, getting relational data is as easy as accessing a component property that is defined by the corresponding getter method:
// get the orders of a customer
$customer = Customer::find(1);
$orders = $customer->orders; // $orders is an array of Order objects
Behind the scene, the above code executes the following two SQL queries, one for each line of code:
SELECT * FROM tbl_customer WHERE id=1;
SELECT * FROM tbl_order WHERE customer_id=1;
Tip: If you access the expression
$customer->orders
again, will it perform the second SQL query again? Nope. The SQL query is only performed the first time when this expression is accessed. Any further accesses will only return the previously fetched results that are cached internally. If you want to re-query the relational data, simply unset the existing one first:unset($customer->orders);
.
Sometimes, you may want to pass parameters to a relational query. For example, instead of returning
all orders of a customer, you may want to return only big orders whose subtotal exceeds a specified amount.
To do so, declare a bigOrders
relation with the following getter method:
class Customer extends \yii\db\ActiveRecord
{
public function getBigOrders($threshold = 100)
{
return $this->hasMany(Order::className(), ['customer_id' => 'id'])
->where('subtotal > :threshold', [':threshold' => $threshold])
->orderBy('id');
}
}
Remember that hasMany()
returns an ActiveRelation object which extends from ActiveQuery
and thus supports the same set of querying methods as ActiveQuery.
With the above declaration, if you access $customer->bigOrders
, it will only return the orders
whose subtotal is greater than 100. To specify a different threshold value, use the following code:
$orders = $customer->getBigOrders(200)->all();
Relations with Pivot Table
Sometimes, two tables are related together via an intermediary table called pivot table. To declare such relations, we can customize the ActiveRelation object by calling its ActiveRelation::via() or ActiveRelation::viaTable() method.
For example, if table tbl_order
and table tbl_item
are related via pivot table tbl_order_item
,
we can declare the items
relation in the Order
class like the following:
class Order extends \yii\db\ActiveRecord
{
public function getItems()
{
return $this->hasMany(Item::className(), ['id' => 'item_id'])
->viaTable('tbl_order_item', ['order_id' => 'id']);
}
}
ActiveRelation::via() method is similar to ActiveRelation::viaTable() except that
the first parameter of ActiveRelation::via() takes a relation name declared in the ActiveRecord class
instead of the pivot table name. For example, the above items
relation can be equivalently declared as follows:
class Order extends \yii\db\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');
}
}
Lazy and Eager Loading
As described earlier, when you access the related objects the first time, ActiveRecord will perform a DB query to retrieve the corresponding data and populate it into the related objects. No query will be performed if you access the same related objects again. We call this lazy loading. For example,
// SQL executed: SELECT * FROM tbl_customer WHERE id=1
$customer = Customer::find(1);
// SQL executed: SELECT * FROM tbl_order WHERE customer_id=1
$orders = $customer->orders;
// no SQL executed
$orders2 = $customer->orders;
Lazy loading is very convenient to use. However, it may suffer from a performance issue in the following scenario:
// SQL executed: SELECT * FROM tbl_customer LIMIT 100
$customers = Customer::find()->limit(100)->all();
foreach ($customers as $customer) {
// SQL executed: SELECT * FROM tbl_order WHERE customer_id=...
$orders = $customer->orders;
// ...handle $orders...
}
How many SQL queries will be performed in the above code, assuming there are more than 100 customers in the database? 101! The first SQL query brings back 100 customers. Then for each customer, a SQL query is performed to bring back the orders of that customer.
To solve the above performance problem, you can use the so-called eager loading approach by calling ActiveQuery::with():
// SQL executed: SELECT * FROM tbl_customer LIMIT 100;
// SELECT * FROM tbl_orders WHERE customer_id IN (1,2,...)
$customers = Customer::find()->limit(100)
->with('orders')->all();
foreach ($customers as $customer) {
// no SQL executed
$orders = $customer->orders;
// ...handle $orders...
}
As you can see, only two SQL queries are needed for the same task.
Sometimes, you may want to customize the relational queries on the fly. This can be done for both lazy loading and eager loading. For example,
$customer = Customer::find(1);
// lazy loading: SELECT * FROM tbl_order WHERE customer_id=1 AND subtotal>100
$orders = $customer->getOrders()->where('subtotal>100')->all();
// eager loading: SELECT * FROM tbl_customer LIMIT 10
SELECT * FROM tbl_order WHERE customer_id IN (1,2,...) AND subtotal>100
$customers = Customer::find()->limit(100)->with([
'orders' => function($query) {
$query->andWhere('subtotal>100');
},
])->all();
Working with Relationships
ActiveRecord provides the following two methods for establishing and breaking a relationship between two ActiveRecord objects:
For example, given a customer and a new order, we can use the following code to make the order owned by the customer:
$customer = Customer::find(1);
$order = new Order;
$order->subtotal = 100;
$customer->link('orders', $order);
The link() call above will set the customer_id
of the order to be the primary key
value of $customer
and then call save() to save the order into database.
Life Cycles of an ActiveRecord Object
An ActiveRecord object undergoes different life cycles when it is used in different cases. Subclasses or ActiveRecord behaviors may "inject" custom code in these life cycles through method overriding and event handling mechanisms.
When instantiating a new ActiveRecord instance, we will have the following life cycles:
- constructor
- init(): will trigger an EVENT_INIT event
When getting an ActiveRecord instance through the find() method, we will have the following life cycles:
- constructor
- init(): will trigger an EVENT_INIT event
- afterFind(): will trigger an EVENT_AFTER_FIND event
When calling save() to insert or update an ActiveRecord, we will have the following life cycles:
- beforeValidate(): will trigger an EVENT_BEFORE_VALIDATE event
- afterValidate(): will trigger an EVENT_AFTER_VALIDATE event
- beforeSave(): will trigger an EVENT_BEFORE_INSERT or EVENT_BEFORE_UPDATE event
- perform the actual data insertion or updating
- afterSave(): will trigger an EVENT_AFTER_INSERT or EVENT_AFTER_UPDATE event
Finally when calling delete() to delete an ActiveRecord, we will have the following life cycles:
- beforeDelete(): will trigger an EVENT_BEFORE_DELETE event
- perform the actual data deletion
- afterDelete(): will trigger an EVENT_AFTER_DELETE event
Scopes
A scope is a method that customizes a given ActiveQuery object. Scope methods are static and are defined in the ActiveRecord classes. They can be invoked through the ActiveQuery object that is created via find() or findBySql(). The following is an example:
class Customer extends \yii\db\ActiveRecord
{
// ...
/**
* @param ActiveQuery $query
*/
public static function active($query)
{
$query->andWhere('status = 1');
}
}
$customers = Customer::find()->active()->all();
In the above, the active()
method is defined in Customer
while we are calling it
through ActiveQuery
returned by Customer::find()
.
Scopes can be parameterized. For example, we can define and use the following olderThan
scope:
class Customer extends \yii\db\ActiveRecord
{
// ...
/**
* @param ActiveQuery $query
* @param integer $age
*/
public static function olderThan($query, $age = 30)
{
$query->andWhere('age > :age', [':age' => $age]);
}
}
$customers = Customer::find()->olderThan(50)->all();
The parameters should follow after the $query
parameter when defining the scope method, and they
can take default values like shown above.
Transactional operations
When a few DB operations are related and are executed
TODO: FIXME: WIP, TBD, https://github.com/yiisoft/yii2/issues/226
, afterSave(), beforeDelete() and/or afterDelete() life cycle methods. Developer may come to the solution of overriding ActiveRecord save() method with database transaction wrapping or even using transaction in controller action, which is strictly speaking doesn't seems to be a good practice (recall skinny-controller fat-model fundamental rule).
Here these ways are (DO NOT use them unless you're sure what are you actually doing). Models:
class Feature extends \yii\db\ActiveRecord
{
// ...
public function getProduct()
{
return $this->hasOne(Product::className(), ['product_id' => 'id']);
}
}
class Product extends \yii\db\ActiveRecord
{
// ...
public function getFeatures()
{
return $this->hasMany(Feature::className(), ['id' => 'product_id']);
}
}
Overriding save() method:
class ProductController extends \yii\web\Controller
{
public function actionCreate()
{
// FIXME: TODO: WIP, TBD
}
}
Using transactions within controller layer:
class ProductController extends \yii\web\Controller
{
public function actionCreate()
{
// FIXME: TODO: WIP, TBD
}
}
Instead of using these fragile methods you should consider using atomic scenarios and operations feature.
class Feature extends \yii\db\ActiveRecord
{
// ...
public function getProduct()
{
return $this->hasOne(Product::className(), ['product_id' => 'id']);
}
public function scenarios()
{
return [
'userCreates' => [
'attributes' => ['name', 'value'],
'atomic' => [self::OP_INSERT],
],
];
}
}
class Product extends \yii\db\ActiveRecord
{
// ...
public function getFeatures()
{
return $this->hasMany(Feature::className(), ['id' => 'product_id']);
}
public function scenarios()
{
return [
'userCreates' => [
'attributes' => ['title', 'price'],
'atomic' => [self::OP_INSERT],
],
];
}
public function afterValidate()
{
parent::afterValidate();
// FIXME: TODO: WIP, TBD
}
public function afterSave($insert)
{
parent::afterSave();
if ($this->getScenario() === 'userCreates') {
// FIXME: TODO: WIP, TBD
}
}
}
Controller is very thin and neat:
class ProductController extends \yii\web\Controller
{
public function actionCreate()
{
// FIXME: TODO: WIP, TBD
}
}
Optimistic Locks
TODO
Dirty Attributes
TODO