- Introduction
- Defining Relationships
- Many To Many Relationships
- Polymorphic Relationships
- Dynamic Relationships
- Querying Relations
- Aggregating Related Models
- Eager Loading
- Inserting & Updating Related Models
- Touching Parent Timestamps
Database tables are often related to one another. For example, a blog post may have many comments or an order could be related to the user who placed it. Eloquent makes managing and working with these relationships easy, and supports a variety of common relationships:
Eloquent relationships are defined as methods on your Eloquent model classes. Since relationships also serve as powerful query builders, defining relationships as methods provides powerful method chaining and querying capabilities. For example, we may chain additional query constraints on this posts
relationship:
$user->posts()->where('active', 1)->get();
But, before diving too deep into using relationships, let's learn how to define each type of relationship supported by Eloquent.
A one-to-one relationship is a very basic type of database relationship. For example, a User
model might be associated with one Phone
model. To define this relationship, we will place a phone
method on the User
model. The phone
method should call the hasOne
method and return its result. The hasOne
method is available to your model via the model's Illuminate\Database\Eloquent\Model
base class:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\HasOne;
class User extends Model
{
/**
* Get the phone associated with the user.
*/
public function phone(): HasOne
{
return $this->hasOne(Phone::class);
}
}
The first argument passed to the hasOne
method is the name of the related model class. Once the relationship is defined, we may retrieve the related record using Eloquent's dynamic properties. Dynamic properties allow you to access relationship methods as if they were properties defined on the model:
$phone = User::find(1)->phone;
Eloquent determines the foreign key of the relationship based on the parent model name. In this case, the Phone
model is automatically assumed to have a user_id
foreign key. If you wish to override this convention, you may pass a second argument to the hasOne
method:
return $this->hasOne(Phone::class, 'foreign_key');
Additionally, Eloquent assumes that the foreign key should have a value matching the primary key column of the parent. In other words, Eloquent will look for the value of the user's id
column in the user_id
column of the Phone
record. If you would like the relationship to use a primary key value other than id
or your model's $primaryKey
property, you may pass a third argument to the hasOne
method:
return $this->hasOne(Phone::class, 'foreign_key', 'local_key');
So, we can access the Phone
model from our User
model. Next, let's define a relationship on the Phone
model that will let us access the user that owns the phone. We can define the inverse of a hasOne
relationship using the belongsTo
method:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsTo;
class Phone extends Model
{
/**
* Get the user that owns the phone.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class);
}
}
When invoking the user
method, Eloquent will attempt to find a User
model that has an id
which matches the user_id
column on the Phone
model.
Eloquent determines the foreign key name by examining the name of the relationship method and suffixing the method name with _id
. So, in this case, Eloquent assumes that the Phone
model has a user_id
column. However, if the foreign key on the Phone
model is not user_id
, you may pass a custom key name as the second argument to the belongsTo
method:
/**
* Get the user that owns the phone.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class, 'foreign_key');
}
If the parent model does not use id
as its primary key, or you wish to find the associated model using a different column, you may pass a third argument to the belongsTo
method specifying the parent table's custom key:
/**
* Get the user that owns the phone.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class, 'foreign_key', 'owner_key');
}
A one-to-many relationship is used to define relationships where a single model is the parent to one or more child models. For example, a blog post may have an infinite number of comments. Like all other Eloquent relationships, one-to-many relationships are defined by defining a method on your Eloquent model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\HasMany;
class Post extends Model
{
/**
* Get the comments for the blog post.
*/
public function comments(): HasMany
{
return $this->hasMany(Comment::class);
}
}
Remember, Eloquent will automatically determine the proper foreign key column for the Comment
model. By convention, Eloquent will take the "snake case" name of the parent model and suffix it with _id
. So, in this example, Eloquent will assume the foreign key column on the Comment
model is post_id
.
Once the relationship method has been defined, we can access the collection of related comments by accessing the comments
property. Remember, since Eloquent provides "dynamic relationship properties", we can access relationship methods as if they were defined as properties on the model:
use App\Models\Post;
$comments = Post::find(1)->comments;
foreach ($comments as $comment) {
// ...
}
Since all relationships also serve as query builders, you may add further constraints to the relationship query by calling the comments
method and continuing to chain conditions onto the query:
$comment = Post::find(1)->comments()
->where('title', 'foo')
->first();
Like the hasOne
method, you may also override the foreign and local keys by passing additional arguments to the hasMany
method:
return $this->hasMany(Comment::class, 'foreign_key');
return $this->hasMany(Comment::class, 'foreign_key', 'local_key');
Now that we can access all of a post's comments, let's define a relationship to allow a comment to access its parent post. To define the inverse of a hasMany
relationship, define a relationship method on the child model which calls the belongsTo
method:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsTo;
class Comment extends Model
{
/**
* Get the post that owns the comment.
*/
public function post(): BelongsTo
{
return $this->belongsTo(Post::class);
}
}
Once the relationship has been defined, we can retrieve a comment's parent post by accessing the post
"dynamic relationship property":
use App\Models\Comment;
$comment = Comment::find(1);
return $comment->post->title;
In the example above, Eloquent will attempt to find a Post
model that has an id
which matches the post_id
column on the Comment
model.
Eloquent determines the default foreign key name by examining the name of the relationship method and suffixing the method name with a _
followed by the name of the parent model's primary key column. So, in this example, Eloquent will assume the Post
model's foreign key on the comments
table is post_id
.
However, if the foreign key for your relationship does not follow these conventions, you may pass a custom foreign key name as the second argument to the belongsTo
method:
/**
* Get the post that owns the comment.
*/
public function post(): BelongsTo
{
return $this->belongsTo(Post::class, 'foreign_key');
}
If your parent model does not use id
as its primary key, or you wish to find the associated model using a different column, you may pass a third argument to the belongsTo
method specifying your parent table's custom key:
/**
* Get the post that owns the comment.
*/
public function post(): BelongsTo
{
return $this->belongsTo(Post::class, 'foreign_key', 'owner_key');
}
The belongsTo
, hasOne
, hasOneThrough
, and morphOne
relationships allow you to define a default model that will be returned if the given relationship is null
. This pattern is often referred to as the Null Object pattern and can help remove conditional checks in your code. In the following example, the user
relation will return an empty App\Models\User
model if no user is attached to the Post
model:
/**
* Get the author of the post.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class)->withDefault();
}
To populate the default model with attributes, you may pass an array or closure to the withDefault
method:
/**
* Get the author of the post.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class)->withDefault([
'name' => 'Guest Author',
]);
}
/**
* Get the author of the post.
*/
public function user(): BelongsTo
{
return $this->belongsTo(User::class)->withDefault(function (User $user, Post $post) {
$user->name = 'Guest Author';
});
}
When querying for the children of a "belongs to" relationship, you may manually build the where
clause to retrieve the corresponding Eloquent models:
use App\Models\Post;
$posts = Post::where('user_id', $user->id)->get();
However, you may find it more convenient to use the whereBelongsTo
method, which will automatically determine the proper relationship and foreign key for the given model:
$posts = Post::whereBelongsTo($user)->get();
You may also provide a collection instance to the whereBelongsTo
method. When doing so, Laravel will retrieve models that belong to any of the parent models within the collection:
$users = User::where('vip', true)->get();
$posts = Post::whereBelongsTo($users)->get();
By default, Laravel will determine the relationship associated with the given model based on the class name of the model; however, you may specify the relationship name manually by providing it as the second argument to the whereBelongsTo
method:
$posts = Post::whereBelongsTo($user, 'author')->get();
Sometimes a model may have many related models, yet you want to easily retrieve the "latest" or "oldest" related model of the relationship. For example, a User
model may be related to many Order
models, but you want to define a convenient way to interact with the most recent order the user has placed. You may accomplish this using the hasOne
relationship type combined with the ofMany
methods:
/**
* Get the user's most recent order.
*/
public function latestOrder(): HasOne
{
return $this->hasOne(Order::class)->latestOfMany();
}
Likewise, you may define a method to retrieve the "oldest", or first, related model of a relationship:
/**
* Get the user's oldest order.
*/
public function oldestOrder(): HasOne
{
return $this->hasOne(Order::class)->oldestOfMany();
}
By default, the latestOfMany
and oldestOfMany
methods will retrieve the latest or oldest related model based on the model's primary key, which must be sortable. However, sometimes you may wish to retrieve a single model from a larger relationship using a different sorting criteria.
For example, using the ofMany
method, you may retrieve the user's most expensive order. The ofMany
method accepts the sortable column as its first argument and which aggregate function (min
or max
) to apply when querying for the related model:
/**
* Get the user's largest order.
*/
public function largestOrder(): HasOne
{
return $this->hasOne(Order::class)->ofMany('price', 'max');
}
Warning
Because PostgreSQL does not support executing theMAX
function against UUID columns, it is not currently possible to use one-of-many relationships in combination with PostgreSQL UUID columns.
Often, when retrieving a single model using the latestOfMany
, oldestOfMany
, or ofMany
methods, you already have a "has many" relationship defined for the same model. For convenience, Laravel allows you to easily convert this relationship into a "has one" relationship by invoking the one
method on the relationship:
/**
* Get the user's orders.
*/
public function orders(): HasMany
{
return $this->hasMany(Order::class);
}
/**
* Get the user's largest order.
*/
public function largestOrder(): HasOne
{
return $this->orders()->one()->ofMany('price', 'max');
}
It is possible to construct more advanced "has one of many" relationships. For example, a Product
model may have many associated Price
models that are retained in the system even after new pricing is published. In addition, new pricing data for the product may be able to be published in advance to take effect at a future date via a published_at
column.
So, in summary, we need to retrieve the latest published pricing where the published date is not in the future. In addition, if two prices have the same published date, we will prefer the price with the greatest ID. To accomplish this, we must pass an array to the ofMany
method that contains the sortable columns which determine the latest price. In addition, a closure will be provided as the second argument to the ofMany
method. This closure will be responsible for adding additional publish date constraints to the relationship query:
/**
* Get the current pricing for the product.
*/
public function currentPricing(): HasOne
{
return $this->hasOne(Price::class)->ofMany([
'published_at' => 'max',
'id' => 'max',
], function (Builder $query) {
$query->where('published_at', '<', now());
});
}
The "has-one-through" relationship defines a one-to-one relationship with another model. However, this relationship indicates that the declaring model can be matched with one instance of another model by proceeding through a third model.
For example, in a vehicle repair shop application, each Mechanic
model may be associated with one Car
model, and each Car
model may be associated with one Owner
model. While the mechanic and the owner have no direct relationship within the database, the mechanic can access the owner through the Car
model. Let's look at the tables necessary to define this relationship:
mechanics
id - integer
name - string
cars
id - integer
model - string
mechanic_id - integer
owners
id - integer
name - string
car_id - integer
Now that we have examined the table structure for the relationship, let's define the relationship on the Mechanic
model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\HasOneThrough;
class Mechanic extends Model
{
/**
* Get the car's owner.
*/
public function carOwner(): HasOneThrough
{
return $this->hasOneThrough(Owner::class, Car::class);
}
}
The first argument passed to the hasOneThrough
method is the name of the final model we wish to access, while the second argument is the name of the intermediate model.
Or, if the relevant relationships have already been defined on all of the models involved in the relationship, you may fluently define a "has-one-through" relationship by invoking the through
method and supplying the names of those relationships. For example, if the Mechanic
model has a cars
relationship and the Car
model has an owner
relationship, you may define a "has-one-through" relationship connecting the mechanic and the owner like so:
// String based syntax...
return $this->through('cars')->has('owner');
// Dynamic syntax...
return $this->throughCars()->hasOwner();
Typical Eloquent foreign key conventions will be used when performing the relationship's queries. If you would like to customize the keys of the relationship, you may pass them as the third and fourth arguments to the hasOneThrough
method. The third argument is the name of the foreign key on the intermediate model. The fourth argument is the name of the foreign key on the final model. The fifth argument is the local key, while the sixth argument is the local key of the intermediate model:
class Mechanic extends Model
{
/**
* Get the car's owner.
*/
public function carOwner(): HasOneThrough
{
return $this->hasOneThrough(
Owner::class,
Car::class,
'mechanic_id', // Foreign key on the cars table...
'car_id', // Foreign key on the owners table...
'id', // Local key on the mechanics table...
'id' // Local key on the cars table...
);
}
}
Or, as discussed earlier, if the relevant relationships have already been defined on all of the models involved in the relationship, you may fluently define a "has-one-through" relationship by invoking the through
method and supplying the names of those relationships. This approach offers the advantage of reusing the key conventions already defined on the existing relationships:
// String based syntax...
return $this->through('cars')->has('owner');
// Dynamic syntax...
return $this->throughCars()->hasOwner();
The "has-many-through" relationship provides a convenient way to access distant relations via an intermediate relation. For example, let's assume we are building a deployment platform like Laravel Vapor. A Project
model might access many Deployment
models through an intermediate Environment
model. Using this example, you could easily gather all deployments for a given project. Let's look at the tables required to define this relationship:
projects
id - integer
name - string
environments
id - integer
project_id - integer
name - string
deployments
id - integer
environment_id - integer
commit_hash - string
Now that we have examined the table structure for the relationship, let's define the relationship on the Project
model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\HasManyThrough;
class Project extends Model
{
/**
* Get all of the deployments for the project.
*/
public function deployments(): HasManyThrough
{
return $this->hasManyThrough(Deployment::class, Environment::class);
}
}
The first argument passed to the hasManyThrough
method is the name of the final model we wish to access, while the second argument is the name of the intermediate model.
Or, if the relevant relationships have already been defined on all of the models involved in the relationship, you may fluently define a "has-many-through" relationship by invoking the through
method and supplying the names of those relationships. For example, if the Project
model has a environments
relationship and the Environment
model has a deployments
relationship, you may define a "has-many-through" relationship connecting the project and the deployments like so:
// String based syntax...
return $this->through('environments')->has('deployments');
// Dynamic syntax...
return $this->throughEnvironments()->hasDeployments();
Though the Deployment
model's table does not contain a project_id
column, the hasManyThrough
relation provides access to a project's deployments via $project->deployments
. To retrieve these models, Eloquent inspects the project_id
column on the intermediate Environment
model's table. After finding the relevant environment IDs, they are used to query the Deployment
model's table.
Typical Eloquent foreign key conventions will be used when performing the relationship's queries. If you would like to customize the keys of the relationship, you may pass them as the third and fourth arguments to the hasManyThrough
method. The third argument is the name of the foreign key on the intermediate model. The fourth argument is the name of the foreign key on the final model. The fifth argument is the local key, while the sixth argument is the local key of the intermediate model:
class Project extends Model
{
public function deployments(): HasManyThrough
{
return $this->hasManyThrough(
Deployment::class,
Environment::class,
'project_id', // Foreign key on the environments table...
'environment_id', // Foreign key on the deployments table...
'id', // Local key on the projects table...
'id' // Local key on the environments table...
);
}
}
Or, as discussed earlier, if the relevant relationships have already been defined on all of the models involved in the relationship, you may fluently define a "has-many-through" relationship by invoking the through
method and supplying the names of those relationships. This approach offers the advantage of reusing the key conventions already defined on the existing relationships:
// String based syntax...
return $this->through('environments')->has('deployments');
// Dynamic syntax...
return $this->throughEnvironments()->hasDeployments();
Many-to-many relations are slightly more complicated than hasOne
and hasMany
relationships. An example of a many-to-many relationship is a user that has many roles and those roles are also shared by other users in the application. For example, a user may be assigned the role of "Author" and "Editor"; however, those roles may also be assigned to other users as well. So, a user has many roles and a role has many users.
To define this relationship, three database tables are needed: users
, roles
, and role_user
. The role_user
table is derived from the alphabetical order of the related model names and contains user_id
and role_id
columns. This table is used as an intermediate table linking the users and roles.
Remember, since a role can belong to many users, we cannot simply place a user_id
column on the roles
table. This would mean that a role could only belong to a single user. In order to provide support for roles being assigned to multiple users, the role_user
table is needed. We can summarize the relationship's table structure like so:
users
id - integer
name - string
roles
id - integer
name - string
role_user
user_id - integer
role_id - integer
Many-to-many relationships are defined by writing a method that returns the result of the belongsToMany
method. The belongsToMany
method is provided by the Illuminate\Database\Eloquent\Model
base class that is used by all of your application's Eloquent models. For example, let's define a roles
method on our User
model. The first argument passed to this method is the name of the related model class:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsToMany;
class User extends Model
{
/**
* The roles that belong to the user.
*/
public function roles(): BelongsToMany
{
return $this->belongsToMany(Role::class);
}
}
Once the relationship is defined, you may access the user's roles using the roles
dynamic relationship property:
use App\Models\User;
$user = User::find(1);
foreach ($user->roles as $role) {
// ...
}
Since all relationships also serve as query builders, you may add further constraints to the relationship query by calling the roles
method and continuing to chain conditions onto the query:
$roles = User::find(1)->roles()->orderBy('name')->get();
To determine the table name of the relationship's intermediate table, Eloquent will join the two related model names in alphabetical order. However, you are free to override this convention. You may do so by passing a second argument to the belongsToMany
method:
return $this->belongsToMany(Role::class, 'role_user');
In addition to customizing the name of the intermediate table, you may also customize the column names of the keys on the table by passing additional arguments to the belongsToMany
method. The third argument is the foreign key name of the model on which you are defining the relationship, while the fourth argument is the foreign key name of the model that you are joining to:
return $this->belongsToMany(Role::class, 'role_user', 'user_id', 'role_id');
To define the "inverse" of a many-to-many relationship, you should define a method on the related model which also returns the result of the belongsToMany
method. To complete our user / role example, let's define the users
method on the Role
model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsToMany;
class Role extends Model
{
/**
* The users that belong to the role.
*/
public function users(): BelongsToMany
{
return $this->belongsToMany(User::class);
}
}
As you can see, the relationship is defined exactly the same as its User
model counterpart with the exception of referencing the App\Models\User
model. Since we're reusing the belongsToMany
method, all of the usual table and key customization options are available when defining the "inverse" of many-to-many relationships.
As you have already learned, working with many-to-many relations requires the presence of an intermediate table. Eloquent provides some very helpful ways of interacting with this table. For example, let's assume our User
model has many Role
models that it is related to. After accessing this relationship, we may access the intermediate table using the pivot
attribute on the models:
use App\Models\User;
$user = User::find(1);
foreach ($user->roles as $role) {
echo $role->pivot->created_at;
}
Notice that each Role
model we retrieve is automatically assigned a pivot
attribute. This attribute contains a model representing the intermediate table.
By default, only the model keys will be present on the pivot
model. If your intermediate table contains extra attributes, you must specify them when defining the relationship:
return $this->belongsToMany(Role::class)->withPivot('active', 'created_by');
If you would like your intermediate table to have created_at
and updated_at
timestamps that are automatically maintained by Eloquent, call the withTimestamps
method when defining the relationship:
return $this->belongsToMany(Role::class)->withTimestamps();
Warning
Intermediate tables that utilize Eloquent's automatically maintained timestamps are required to have bothcreated_at
andupdated_at
timestamp columns.
As noted previously, attributes from the intermediate table may be accessed on models via the pivot
attribute. However, you are free to customize the name of this attribute to better reflect its purpose within your application.
For example, if your application contains users that may subscribe to podcasts, you likely have a many-to-many relationship between users and podcasts. If this is the case, you may wish to rename your intermediate table attribute to subscription
instead of pivot
. This can be done using the as
method when defining the relationship:
return $this->belongsToMany(Podcast::class)
->as('subscription')
->withTimestamps();
Once the custom intermediate table attribute has been specified, you may access the intermediate table data using the customized name:
$users = User::with('podcasts')->get();
foreach ($users->flatMap->podcasts as $podcast) {
echo $podcast->subscription->created_at;
}
You can also filter the results returned by belongsToMany
relationship queries using the wherePivot
, wherePivotIn
, wherePivotNotIn
, wherePivotBetween
, wherePivotNotBetween
, wherePivotNull
, and wherePivotNotNull
methods when defining the relationship:
return $this->belongsToMany(Role::class)
->wherePivot('approved', 1);
return $this->belongsToMany(Role::class)
->wherePivotIn('priority', [1, 2]);
return $this->belongsToMany(Role::class)
->wherePivotNotIn('priority', [1, 2]);
return $this->belongsToMany(Podcast::class)
->as('subscriptions')
->wherePivotBetween('created_at', ['2020-01-01 00:00:00', '2020-12-31 00:00:00']);
return $this->belongsToMany(Podcast::class)
->as('subscriptions')
->wherePivotNotBetween('created_at', ['2020-01-01 00:00:00', '2020-12-31 00:00:00']);
return $this->belongsToMany(Podcast::class)
->as('subscriptions')
->wherePivotNull('expired_at');
return $this->belongsToMany(Podcast::class)
->as('subscriptions')
->wherePivotNotNull('expired_at');
You can order the results returned by belongsToMany
relationship queries using the orderByPivot
method. In the following example, we will retrieve all of the latest badges for the user:
return $this->belongsToMany(Badge::class)
->where('rank', 'gold')
->orderByPivot('created_at', 'desc');
If you would like to define a custom model to represent the intermediate table of your many-to-many relationship, you may call the using
method when defining the relationship. Custom pivot models give you the opportunity to define additional behavior on the pivot model, such as methods and casts.
Custom many-to-many pivot models should extend the Illuminate\Database\Eloquent\Relations\Pivot
class while custom polymorphic many-to-many pivot models should extend the Illuminate\Database\Eloquent\Relations\MorphPivot
class. For example, we may define a Role
model which uses a custom RoleUser
pivot model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsToMany;
class Role extends Model
{
/**
* The users that belong to the role.
*/
public function users(): BelongsToMany
{
return $this->belongsToMany(User::class)->using(RoleUser::class);
}
}
When defining the RoleUser
model, you should extend the Illuminate\Database\Eloquent\Relations\Pivot
class:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Relations\Pivot;
class RoleUser extends Pivot
{
// ...
}
Warning
Pivot models may not use theSoftDeletes
trait. If you need to soft delete pivot records consider converting your pivot model to an actual Eloquent model.
If you have defined a many-to-many relationship that uses a custom pivot model, and that pivot model has an auto-incrementing primary key, you should ensure your custom pivot model class defines an incrementing
property that is set to true
.
/**
* Indicates if the IDs are auto-incrementing.
*
* @var bool
*/
public $incrementing = true;
A polymorphic relationship allows the child model to belong to more than one type of model using a single association. For example, imagine you are building an application that allows users to share blog posts and videos. In such an application, a Comment
model might belong to both the Post
and Video
models.
A one-to-one polymorphic relation is similar to a typical one-to-one relation; however, the child model can belong to more than one type of model using a single association. For example, a blog Post
and a User
may share a polymorphic relation to an Image
model. Using a one-to-one polymorphic relation allows you to have a single table of unique images that may be associated with posts and users. First, let's examine the table structure:
posts
id - integer
name - string
users
id - integer
name - string
images
id - integer
url - string
imageable_id - integer
imageable_type - string
Note the imageable_id
and imageable_type
columns on the images
table. The imageable_id
column will contain the ID value of the post or user, while the imageable_type
column will contain the class name of the parent model. The imageable_type
column is used by Eloquent to determine which "type" of parent model to return when accessing the imageable
relation. In this case, the column would contain either App\Models\Post
or App\Models\User
.
Next, let's examine the model definitions needed to build this relationship:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphTo;
class Image extends Model
{
/**
* Get the parent imageable model (user or post).
*/
public function imageable(): MorphTo
{
return $this->morphTo();
}
}
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphOne;
class Post extends Model
{
/**
* Get the post's image.
*/
public function image(): MorphOne
{
return $this->morphOne(Image::class, 'imageable');
}
}
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphOne;
class User extends Model
{
/**
* Get the user's image.
*/
public function image(): MorphOne
{
return $this->morphOne(Image::class, 'imageable');
}
}
Once your database table and models are defined, you may access the relationships via your models. For example, to retrieve the image for a post, we can access the image
dynamic relationship property:
use App\Models\Post;
$post = Post::find(1);
$image = $post->image;
You may retrieve the parent of the polymorphic model by accessing the name of the method that performs the call to morphTo
. In this case, that is the imageable
method on the Image
model. So, we will access that method as a dynamic relationship property:
use App\Models\Image;
$image = Image::find(1);
$imageable = $image->imageable;
The imageable
relation on the Image
model will return either a Post
or User
instance, depending on which type of model owns the image.
If necessary, you may specify the name of the "id" and "type" columns utilized by your polymorphic child model. If you do so, ensure that you always pass the name of the relationship as the first argument to the morphTo
method. Typically, this value should match the method name, so you may use PHP's __FUNCTION__
constant:
/**
* Get the model that the image belongs to.
*/
public function imageable(): MorphTo
{
return $this->morphTo(__FUNCTION__, 'imageable_type', 'imageable_id');
}
A one-to-many polymorphic relation is similar to a typical one-to-many relation; however, the child model can belong to more than one type of model using a single association. For example, imagine users of your application can "comment" on posts and videos. Using polymorphic relationships, you may use a single comments
table to contain comments for both posts and videos. First, let's examine the table structure required to build this relationship:
posts
id - integer
title - string
body - text
videos
id - integer
title - string
url - string
comments
id - integer
body - text
commentable_id - integer
commentable_type - string
Next, let's examine the model definitions needed to build this relationship:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphTo;
class Comment extends Model
{
/**
* Get the parent commentable model (post or video).
*/
public function commentable(): MorphTo
{
return $this->morphTo();
}
}
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphMany;
class Post extends Model
{
/**
* Get all of the post's comments.
*/
public function comments(): MorphMany
{
return $this->morphMany(Comment::class, 'commentable');
}
}
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphMany;
class Video extends Model
{
/**
* Get all of the video's comments.
*/
public function comments(): MorphMany
{
return $this->morphMany(Comment::class, 'commentable');
}
}
Once your database table and models are defined, you may access the relationships via your model's dynamic relationship properties. For example, to access all of the comments for a post, we can use the comments
dynamic property:
use App\Models\Post;
$post = Post::find(1);
foreach ($post->comments as $comment) {
// ...
}
You may also retrieve the parent of a polymorphic child model by accessing the name of the method that performs the call to morphTo
. In this case, that is the commentable
method on the Comment
model. So, we will access that method as a dynamic relationship property in order to access the comment's parent model:
use App\Models\Comment;
$comment = Comment::find(1);
$commentable = $comment->commentable;
The commentable
relation on the Comment
model will return either a Post
or Video
instance, depending on which type of model is the comment's parent.
Sometimes a model may have many related models, yet you want to easily retrieve the "latest" or "oldest" related model of the relationship. For example, a User
model may be related to many Image
models, but you want to define a convenient way to interact with the most recent image the user has uploaded. You may accomplish this using the morphOne
relationship type combined with the ofMany
methods:
/**
* Get the user's most recent image.
*/
public function latestImage(): MorphOne
{
return $this->morphOne(Image::class, 'imageable')->latestOfMany();
}
Likewise, you may define a method to retrieve the "oldest", or first, related model of a relationship:
/**
* Get the user's oldest image.
*/
public function oldestImage(): MorphOne
{
return $this->morphOne(Image::class, 'imageable')->oldestOfMany();
}
By default, the latestOfMany
and oldestOfMany
methods will retrieve the latest or oldest related model based on the model's primary key, which must be sortable. However, sometimes you may wish to retrieve a single model from a larger relationship using a different sorting criteria.
For example, using the ofMany
method, you may retrieve the user's most "liked" image. The ofMany
method accepts the sortable column as its first argument and which aggregate function (min
or max
) to apply when querying for the related model:
/**
* Get the user's most popular image.
*/
public function bestImage(): MorphOne
{
return $this->morphOne(Image::class, 'imageable')->ofMany('likes', 'max');
}
Note
It is possible to construct more advanced "one of many" relationships. For more information, please consult the has one of many documentation.
Many-to-many polymorphic relations are slightly more complicated than "morph one" and "morph many" relationships. For example, a Post
model and Video
model could share a polymorphic relation to a Tag
model. Using a many-to-many polymorphic relation in this situation would allow your application to have a single table of unique tags that may be associated with posts or videos. First, let's examine the table structure required to build this relationship:
posts
id - integer
name - string
videos
id - integer
name - string
tags
id - integer
name - string
taggables
tag_id - integer
taggable_id - integer
taggable_type - string
Note
Before diving into polymorphic many-to-many relationships, you may benefit from reading the documentation on typical many-to-many relationships.
Next, we're ready to define the relationships on the models. The Post
and Video
models will both contain a tags
method that calls the morphToMany
method provided by the base Eloquent model class.
The morphToMany
method accepts the name of the related model as well as the "relationship name". Based on the name we assigned to our intermediate table name and the keys it contains, we will refer to the relationship as "taggable":
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphToMany;
class Post extends Model
{
/**
* Get all of the tags for the post.
*/
public function tags(): MorphToMany
{
return $this->morphToMany(Tag::class, 'taggable');
}
}
Next, on the Tag
model, you should define a method for each of its possible parent models. So, in this example, we will define a posts
method and a videos
method. Both of these methods should return the result of the morphedByMany
method.
The morphedByMany
method accepts the name of the related model as well as the "relationship name". Based on the name we assigned to our intermediate table name and the keys it contains, we will refer to the relationship as "taggable":
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphToMany;
class Tag extends Model
{
/**
* Get all of the posts that are assigned this tag.
*/
public function posts(): MorphToMany
{
return $this->morphedByMany(Post::class, 'taggable');
}
/**
* Get all of the videos that are assigned this tag.
*/
public function videos(): MorphToMany
{
return $this->morphedByMany(Video::class, 'taggable');
}
}
Once your database table and models are defined, you may access the relationships via your models. For example, to access all of the tags for a post, you may use the tags
dynamic relationship property:
use App\Models\Post;
$post = Post::find(1);
foreach ($post->tags as $tag) {
// ...
}
You may retrieve the parent of a polymorphic relation from the polymorphic child model by accessing the name of the method that performs the call to morphedByMany
. In this case, that is the posts
or videos
methods on the Tag
model:
use App\Models\Tag;
$tag = Tag::find(1);
foreach ($tag->posts as $post) {
// ...
}
foreach ($tag->videos as $video) {
// ...
}
By default, Laravel will use the fully qualified class name to store the "type" of the related model. For instance, given the one-to-many relationship example above where a Comment
model may belong to a Post
or a Video
model, the default commentable_type
would be either App\Models\Post
or App\Models\Video
, respectively. However, you may wish to decouple these values from your application's internal structure.
For example, instead of using the model names as the "type", we may use simple strings such as post
and video
. By doing so, the polymorphic "type" column values in our database will remain valid even if the models are renamed:
use Illuminate\Database\Eloquent\Relations\Relation;
Relation::enforceMorphMap([
'post' => 'App\Models\Post',
'video' => 'App\Models\Video',
]);
You may call the enforceMorphMap
method in the boot
method of your App\Providers\AppServiceProvider
class or create a separate service provider if you wish.
You may determine the morph alias of a given model at runtime using the model's getMorphClass
method. Conversely, you may determine the fully-qualified class name associated with a morph alias using the Relation::getMorphedModel
method:
use Illuminate\Database\Eloquent\Relations\Relation;
$alias = $post->getMorphClass();
$class = Relation::getMorphedModel($alias);
Warning
When adding a "morph map" to your existing application, every morphable*_type
column value in your database that still contains a fully-qualified class will need to be converted to its "map" name.
You may use the resolveRelationUsing
method to define relations between Eloquent models at runtime. While not typically recommended for normal application development, this may occasionally be useful when developing Laravel packages.
The resolveRelationUsing
method accepts the desired relationship name as its first argument. The second argument passed to the method should be a closure that accepts the model instance and returns a valid Eloquent relationship definition. Typically, you should configure dynamic relationships within the boot method of a service provider:
use App\Models\Order;
use App\Models\Customer;
Order::resolveRelationUsing('customer', function (Order $orderModel) {
return $orderModel->belongsTo(Customer::class, 'customer_id');
});
Warning
When defining dynamic relationships, always provide explicit key name arguments to the Eloquent relationship methods.
Since all Eloquent relationships are defined via methods, you may call those methods to obtain an instance of the relationship without actually executing a query to load the related models. In addition, all types of Eloquent relationships also serve as query builders, allowing you to continue to chain constraints onto the relationship query before finally executing the SQL query against your database.
For example, imagine a blog application in which a User
model has many associated Post
models:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\HasMany;
class User extends Model
{
/**
* Get all of the posts for the user.
*/
public function posts(): HasMany
{
return $this->hasMany(Post::class);
}
}
You may query the posts
relationship and add additional constraints to the relationship like so:
use App\Models\User;
$user = User::find(1);
$user->posts()->where('active', 1)->get();
You are able to use any of the Laravel query builder's methods on the relationship, so be sure to explore the query builder documentation to learn about all of the methods that are available to you.
As demonstrated in the example above, you are free to add additional constraints to relationships when querying them. However, use caution when chaining orWhere
clauses onto a relationship, as the orWhere
clauses will be logically grouped at the same level as the relationship constraint:
$user->posts()
->where('active', 1)
->orWhere('votes', '>=', 100)
->get();
The example above will generate the following SQL. As you can see, the or
clause instructs the query to return any user with greater than 100 votes. The query is no longer constrained to a specific user:
select *
from posts
where user_id = ? and active = 1 or votes >= 100
In most situations, you should use logical groups to group the conditional checks between parentheses:
use Illuminate\Database\Eloquent\Builder;
$user->posts()
->where(function (Builder $query) {
return $query->where('active', 1)
->orWhere('votes', '>=', 100);
})
->get();
The example above will produce the following SQL. Note that the logical grouping has properly grouped the constraints and the query remains constrained to a specific user:
select *
from posts
where user_id = ? and (active = 1 or votes >= 100)
If you do not need to add additional constraints to an Eloquent relationship query, you may access the relationship as if it were a property. For example, continuing to use our User
and Post
example models, we may access all of a user's posts like so:
use App\Models\User;
$user = User::find(1);
foreach ($user->posts as $post) {
// ...
}
Dynamic relationship properties perform "lazy loading", meaning they will only load their relationship data when you actually access them. Because of this, developers often use eager loading to pre-load relationships they know will be accessed after loading the model. Eager loading provides a significant reduction in SQL queries that must be executed to load a model's relations.
When retrieving model records, you may wish to limit your results based on the existence of a relationship. For example, imagine you want to retrieve all blog posts that have at least one comment. To do so, you may pass the name of the relationship to the has
and orHas
methods:
use App\Models\Post;
// Retrieve all posts that have at least one comment...
$posts = Post::has('comments')->get();
You may also specify an operator and count value to further customize the query:
// Retrieve all posts that have three or more comments...
$posts = Post::has('comments', '>=', 3)->get();
Nested has
statements may be constructed using "dot" notation. For example, you may retrieve all posts that have at least one comment that has at least one image:
// Retrieve posts that have at least one comment with images...
$posts = Post::has('comments.images')->get();
If you need even more power, you may use the whereHas
and orWhereHas
methods to define additional query constraints on your has
queries, such as inspecting the content of a comment:
use Illuminate\Database\Eloquent\Builder;
// Retrieve posts with at least one comment containing words like code%...
$posts = Post::whereHas('comments', function (Builder $query) {
$query->where('content', 'like', 'code%');
})->get();
// Retrieve posts with at least ten comments containing words like code%...
$posts = Post::whereHas('comments', function (Builder $query) {
$query->where('content', 'like', 'code%');
}, '>=', 10)->get();
Warning
Eloquent does not currently support querying for relationship existence across databases. The relationships must exist within the same database.
If you would like to query for a relationship's existence with a single, simple where condition attached to the relationship query, you may find it more convenient to use the whereRelation
, orWhereRelation
, whereMorphRelation
, and orWhereMorphRelation
methods. For example, we may query for all posts that have unapproved comments:
use App\Models\Post;
$posts = Post::whereRelation('comments', 'is_approved', false)->get();
Of course, like calls to the query builder's where
method, you may also specify an operator:
$posts = Post::whereRelation(
'comments', 'created_at', '>=', now()->subHour()
)->get();
When retrieving model records, you may wish to limit your results based on the absence of a relationship. For example, imagine you want to retrieve all blog posts that don't have any comments. To do so, you may pass the name of the relationship to the doesntHave
and orDoesntHave
methods:
use App\Models\Post;
$posts = Post::doesntHave('comments')->get();
If you need even more power, you may use the whereDoesntHave
and orWhereDoesntHave
methods to add additional query constraints to your doesntHave
queries, such as inspecting the content of a comment:
use Illuminate\Database\Eloquent\Builder;
$posts = Post::whereDoesntHave('comments', function (Builder $query) {
$query->where('content', 'like', 'code%');
})->get();
You may use "dot" notation to execute a query against a nested relationship. For example, the following query will retrieve all posts that do not have comments; however, posts that have comments from authors that are not banned will be included in the results:
use Illuminate\Database\Eloquent\Builder;
$posts = Post::whereDoesntHave('comments.author', function (Builder $query) {
$query->where('banned', 0);
})->get();
To query the existence of "morph to" relationships, you may use the whereHasMorph
and whereDoesntHaveMorph
methods. These methods accept the name of the relationship as their first argument. Next, the methods accept the names of the related models that you wish to include in the query. Finally, you may provide a closure which customizes the relationship query:
use App\Models\Comment;
use App\Models\Post;
use App\Models\Video;
use Illuminate\Database\Eloquent\Builder;
// Retrieve comments associated to posts or videos with a title like code%...
$comments = Comment::whereHasMorph(
'commentable',
[Post::class, Video::class],
function (Builder $query) {
$query->where('title', 'like', 'code%');
}
)->get();
// Retrieve comments associated to posts with a title not like code%...
$comments = Comment::whereDoesntHaveMorph(
'commentable',
Post::class,
function (Builder $query) {
$query->where('title', 'like', 'code%');
}
)->get();
You may occasionally need to add query constraints based on the "type" of the related polymorphic model. The closure passed to the whereHasMorph
method may receive a $type
value as its second argument. This argument allows you to inspect the "type" of the query that is being built:
use Illuminate\Database\Eloquent\Builder;
$comments = Comment::whereHasMorph(
'commentable',
[Post::class, Video::class],
function (Builder $query, string $type) {
$column = $type === Post::class ? 'content' : 'title';
$query->where($column, 'like', 'code%');
}
)->get();
Instead of passing an array of possible polymorphic models, you may provide *
as a wildcard value. This will instruct Laravel to retrieve all of the possible polymorphic types from the database. Laravel will execute an additional query in order to perform this operation:
use Illuminate\Database\Eloquent\Builder;
$comments = Comment::whereHasMorph('commentable', '*', function (Builder $query) {
$query->where('title', 'like', 'foo%');
})->get();
Sometimes you may want to count the number of related models for a given relationship without actually loading the models. To accomplish this, you may use the withCount
method. The withCount
method will place a {relation}_count
attribute on the resulting models:
use App\Models\Post;
$posts = Post::withCount('comments')->get();
foreach ($posts as $post) {
echo $post->comments_count;
}
By passing an array to the withCount
method, you may add the "counts" for multiple relations as well as add additional constraints to the queries:
use Illuminate\Database\Eloquent\Builder;
$posts = Post::withCount(['votes', 'comments' => function (Builder $query) {
$query->where('content', 'like', 'code%');
}])->get();
echo $posts[0]->votes_count;
echo $posts[0]->comments_count;
You may also alias the relationship count result, allowing multiple counts on the same relationship:
use Illuminate\Database\Eloquent\Builder;
$posts = Post::withCount([
'comments',
'comments as pending_comments_count' => function (Builder $query) {
$query->where('approved', false);
},
])->get();
echo $posts[0]->comments_count;
echo $posts[0]->pending_comments_count;
Using the loadCount
method, you may load a relationship count after the parent model has already been retrieved:
$book = Book::first();
$book->loadCount('genres');
If you need to set additional query constraints on the count query, you may pass an array keyed by the relationships you wish to count. The array values should be closures which receive the query builder instance:
$book->loadCount(['reviews' => function (Builder $query) {
$query->where('rating', 5);
}])
If you're combining withCount
with a select
statement, ensure that you call withCount
after the select
method:
$posts = Post::select(['title', 'body'])
->withCount('comments')
->get();
In addition to the withCount
method, Eloquent provides withMin
, withMax
, withAvg
, withSum
, and withExists
methods. These methods will place a {relation}_{function}_{column}
attribute on your resulting models:
use App\Models\Post;
$posts = Post::withSum('comments', 'votes')->get();
foreach ($posts as $post) {
echo $post->comments_sum_votes;
}
If you wish to access the result of the aggregate function using another name, you may specify your own alias:
$posts = Post::withSum('comments as total_comments', 'votes')->get();
foreach ($posts as $post) {
echo $post->total_comments;
}
Like the loadCount
method, deferred versions of these methods are also available. These additional aggregate operations may be performed on Eloquent models that have already been retrieved:
$post = Post::first();
$post->loadSum('comments', 'votes');
If you're combining these aggregate methods with a select
statement, ensure that you call the aggregate methods after the select
method:
$posts = Post::select(['title', 'body'])
->withExists('comments')
->get();
If you would like to eager load a "morph to" relationship, as well as related model counts for the various entities that may be returned by that relationship, you may utilize the with
method in combination with the morphTo
relationship's morphWithCount
method.
In this example, let's assume that Photo
and Post
models may create ActivityFeed
models. We will assume the ActivityFeed
model defines a "morph to" relationship named parentable
that allows us to retrieve the parent Photo
or Post
model for a given ActivityFeed
instance. Additionally, let's assume that Photo
models "have many" Tag
models and Post
models "have many" Comment
models.
Now, let's imagine we want to retrieve ActivityFeed
instances and eager load the parentable
parent models for each ActivityFeed
instance. In addition, we want to retrieve the number of tags that are associated with each parent photo and the number of comments that are associated with each parent post:
use Illuminate\Database\Eloquent\Relations\MorphTo;
$activities = ActivityFeed::with([
'parentable' => function (MorphTo $morphTo) {
$morphTo->morphWithCount([
Photo::class => ['tags'],
Post::class => ['comments'],
]);
}])->get();
Let's assume we have already retrieved a set of ActivityFeed
models and now we would like to load the nested relationship counts for the various parentable
models associated with the activity feeds. You may use the loadMorphCount
method to accomplish this:
$activities = ActivityFeed::with('parentable')->get();
$activities->loadMorphCount('parentable', [
Photo::class => ['tags'],
Post::class => ['comments'],
]);
When accessing Eloquent relationships as properties, the related models are "lazy loaded". This means the relationship data is not actually loaded until you first access the property. However, Eloquent can "eager load" relationships at the time you query the parent model. Eager loading alleviates the "N + 1" query problem. To illustrate the N + 1 query problem, consider a Book
model that "belongs to" to an Author
model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsTo;
class Book extends Model
{
/**
* Get the author that wrote the book.
*/
public function author(): BelongsTo
{
return $this->belongsTo(Author::class);
}
}
Now, let's retrieve all books and their authors:
use App\Models\Book;
$books = Book::all();
foreach ($books as $book) {
echo $book->author->name;
}
This loop will execute one query to retrieve all of the books within the database table, then another query for each book in order to retrieve the book's author. So, if we have 25 books, the code above would run 26 queries: one for the original book, and 25 additional queries to retrieve the author of each book.
Thankfully, we can use eager loading to reduce this operation to just two queries. When building a query, you may specify which relationships should be eager loaded using the with
method:
$books = Book::with('author')->get();
foreach ($books as $book) {
echo $book->author->name;
}
For this operation, only two queries will be executed - one query to retrieve all of the books and one query to retrieve all of the authors for all of the books:
select * from books
select * from authors where id in (1, 2, 3, 4, 5, ...)
Sometimes you may need to eager load several different relationships. To do so, just pass an array of relationships to the with
method:
$books = Book::with(['author', 'publisher'])->get();
To eager load a relationship's relationships, you may use "dot" syntax. For example, let's eager load all of the book's authors and all of the author's personal contacts:
$books = Book::with('author.contacts')->get();
Alternatively, you may specify nested eager loaded relationships by providing a nested array to the with
method, which can be convenient when eager loading multiple nested relationships:
$books = Book::with([
'author' => [
'contacts',
'publisher',
],
])->get();
If you would like to eager load a morphTo
relationship, as well as nested relationships on the various entities that may be returned by that relationship, you may use the with
method in combination with the morphTo
relationship's morphWith
method. To help illustrate this method, let's consider the following model:
<?php
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphTo;
class ActivityFeed extends Model
{
/**
* Get the parent of the activity feed record.
*/
public function parentable(): MorphTo
{
return $this->morphTo();
}
}
In this example, let's assume Event
, Photo
, and Post
models may create ActivityFeed
models. Additionally, let's assume that Event
models belong to a Calendar
model, Photo
models are associated with Tag
models, and Post
models belong to an Author
model.
Using these model definitions and relationships, we may retrieve ActivityFeed
model instances and eager load all parentable
models and their respective nested relationships:
use Illuminate\Database\Eloquent\Relations\MorphTo;
$activities = ActivityFeed::query()
->with(['parentable' => function (MorphTo $morphTo) {
$morphTo->morphWith([
Event::class => ['calendar'],
Photo::class => ['tags'],
Post::class => ['author'],
]);
}])->get();
You may not always need every column from the relationships you are retrieving. For this reason, Eloquent allows you to specify which columns of the relationship you would like to retrieve:
$books = Book::with('author:id,name,book_id')->get();
Warning
When using this feature, you should always include theid
column and any relevant foreign key columns in the list of columns you wish to retrieve.
Sometimes you might want to always load some relationships when retrieving a model. To accomplish this, you may define a $with
property on the model:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsTo;
class Book extends Model
{
/**
* The relationships that should always be loaded.
*
* @var array
*/
protected $with = ['author'];
/**
* Get the author that wrote the book.
*/
public function author(): BelongsTo
{
return $this->belongsTo(Author::class);
}
/**
* Get the genre of the book.
*/
public function genre(): BelongsTo
{
return $this->belongsTo(Genre::class);
}
}
If you would like to remove an item from the $with
property for a single query, you may use the without
method:
$books = Book::without('author')->get();
If you would like to override all items within the $with
property for a single query, you may use the withOnly
method:
$books = Book::withOnly('genre')->get();
Sometimes you may wish to eager load a relationship but also specify additional query conditions for the eager loading query. You can accomplish this by passing an array of relationships to the with
method where the array key is a relationship name and the array value is a closure that adds additional constraints to the eager loading query:
use App\Models\User;
use Illuminate\Contracts\Database\Eloquent\Builder;
$users = User::with(['posts' => function (Builder $query) {
$query->where('title', 'like', '%code%');
}])->get();
In this example, Eloquent will only eager load posts where the post's title
column contains the word code
. You may call other query builder methods to further customize the eager loading operation:
$users = User::with(['posts' => function (Builder $query) {
$query->orderBy('created_at', 'desc');
}])->get();
Warning
Thelimit
andtake
query builder methods may not be used when constraining eager loads.
If you are eager loading a morphTo
relationship, Eloquent will run multiple queries to fetch each type of related model. You may add additional constraints to each of these queries using the MorphTo
relation's constrain
method:
use Illuminate\Database\Eloquent\Builder;
use Illuminate\Database\Eloquent\Relations\MorphTo;
$comments = Comment::with(['commentable' => function (MorphTo $morphTo) {
$morphTo->constrain([
Post::class => function (Builder $query) {
$query->whereNull('hidden_at');
},
Video::class => function (Builder $query) {
$query->where('type', 'educational');
},
]);
}])->get();
In this example, Eloquent will only eager load posts that have not been hidden and videos that have a type
value of "educational".
You may sometimes find yourself needing to check for the existence of a relationship while simultaneously loading the relationship based on the same conditions. For example, you may wish to only retrieve User
models that have child Post
models matching a given query condition while also eager loading the matching posts. You may accomplish this using the withWhereHas
method:
use App\Models\User;
use Illuminate\Database\Eloquent\Builder;
$users = User::withWhereHas('posts', function (Builder $query) {
$query->where('featured', true);
})->get();
Sometimes you may need to eager load a relationship after the parent model has already been retrieved. For example, this may be useful if you need to dynamically decide whether to load related models:
use App\Models\Book;
$books = Book::all();
if ($someCondition) {
$books->load('author', 'publisher');
}
If you need to set additional query constraints on the eager loading query, you may pass an array keyed by the relationships you wish to load. The array values should be closure instances which receive the query instance:
$author->load(['books' => function (Builder $query) {
$query->orderBy('published_date', 'asc');
}]);
To load a relationship only when it has not already been loaded, use the loadMissing
method:
$book->loadMissing('author');
If you would like to eager load a morphTo
relationship, as well as nested relationships on the various entities that may be returned by that relationship, you may use the loadMorph
method.
This method accepts the name of the morphTo
relationship as its first argument, and an array of model / relationship pairs as its second argument. To help illustrate this method, let's consider the following model:
<?php
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\MorphTo;
class ActivityFeed extends Model
{
/**
* Get the parent of the activity feed record.
*/
public function parentable(): MorphTo
{
return $this->morphTo();
}
}
In this example, let's assume Event
, Photo
, and Post
models may create ActivityFeed
models. Additionally, let's assume that Event
models belong to a Calendar
model, Photo
models are associated with Tag
models, and Post
models belong to an Author
model.
Using these model definitions and relationships, we may retrieve ActivityFeed
model instances and eager load all parentable
models and their respective nested relationships:
$activities = ActivityFeed::with('parentable')
->get()
->loadMorph('parentable', [
Event::class => ['calendar'],
Photo::class => ['tags'],
Post::class => ['author'],
]);
As previously discussed, eager loading relationships can often provide significant performance benefits to your application. Therefore, if you would like, you may instruct Laravel to always prevent the lazy loading of relationships. To accomplish this, you may invoke the preventLazyLoading
method offered by the base Eloquent model class. Typically, you should call this method within the boot
method of your application's AppServiceProvider
class.
The preventLazyLoading
method accepts an optional boolean argument that indicates if lazy loading should be prevented. For example, you may wish to only disable lazy loading in non-production environments so that your production environment will continue to function normally even if a lazy loaded relationship is accidentally present in production code:
use Illuminate\Database\Eloquent\Model;
/**
* Bootstrap any application services.
*/
public function boot(): void
{
Model::preventLazyLoading(! $this->app->isProduction());
}
After preventing lazy loading, Eloquent will throw a Illuminate\Database\LazyLoadingViolationException
exception when your application attempts to lazy load any Eloquent relationship.
You may customize the behavior of lazy loading violations using the handleLazyLoadingViolationsUsing
method. For example, using this method, you may instruct lazy loading violations to only be logged instead of interrupting the application's execution with exceptions:
Model::handleLazyLoadingViolationUsing(function (Model $model, string $relation) {
$class = get_class($model);
info("Attempted to lazy load [{$relation}] on model [{$class}].");
});
Eloquent provides convenient methods for adding new models to relationships. For example, perhaps you need to add a new comment to a post. Instead of manually setting the post_id
attribute on the Comment
model you may insert the comment using the relationship's save
method:
use App\Models\Comment;
use App\Models\Post;
$comment = new Comment(['message' => 'A new comment.']);
$post = Post::find(1);
$post->comments()->save($comment);
Note that we did not access the comments
relationship as a dynamic property. Instead, we called the comments
method to obtain an instance of the relationship. The save
method will automatically add the appropriate post_id
value to the new Comment
model.
If you need to save multiple related models, you may use the saveMany
method:
$post = Post::find(1);
$post->comments()->saveMany([
new Comment(['message' => 'A new comment.']),
new Comment(['message' => 'Another new comment.']),
]);
The save
and saveMany
methods will persist the given model instances, but will not add the newly persisted models to any in-memory relationships that are already loaded onto the parent model. If you plan on accessing the relationship after using the save
or saveMany
methods, you may wish to use the refresh
method to reload the model and its relationships:
$post->comments()->save($comment);
$post->refresh();
// All comments, including the newly saved comment...
$post->comments;
If you would like to save
your model and all of its associated relationships, you may use the push
method. In this example, the Post
model will be saved as well as its comments and the comment's authors:
$post = Post::find(1);
$post->comments[0]->message = 'Message';
$post->comments[0]->author->name = 'Author Name';
$post->push();
The pushQuietly
method may be used to save a model and its associated relationships without raising any events:
$post->pushQuietly();
In addition to the save
and saveMany
methods, you may also use the create
method, which accepts an array of attributes, creates a model, and inserts it into the database. The difference between save
and create
is that save
accepts a full Eloquent model instance while create
accepts a plain PHP array
. The newly created model will be returned by the create
method:
use App\Models\Post;
$post = Post::find(1);
$comment = $post->comments()->create([
'message' => 'A new comment.',
]);
You may use the createMany
method to create multiple related models:
$post = Post::find(1);
$post->comments()->createMany([
['message' => 'A new comment.'],
['message' => 'Another new comment.'],
]);
The createQuietly
and createManyQuietly
methods may be used to create a model(s) without dispatching any events:
$user = User::find(1);
$user->posts()->createQuietly([
'title' => 'Post title.',
]);
$user->posts()->createManyQuietly([
['title' => 'First post.'],
['title' => 'Second post.'],
]);
You may also use the findOrNew
, firstOrNew
, firstOrCreate
, and updateOrCreate
methods to create and update models on relationships.
Note
Before using thecreate
method, be sure to review the mass assignment documentation.
If you would like to assign a child model to a new parent model, you may use the associate
method. In this example, the User
model defines a belongsTo
relationship to the Account
model. This associate
method will set the foreign key on the child model:
use App\Models\Account;
$account = Account::find(10);
$user->account()->associate($account);
$user->save();
To remove a parent model from a child model, you may use the dissociate
method. This method will set the relationship's foreign key to null
:
$user->account()->dissociate();
$user->save();
Eloquent also provides methods to make working with many-to-many relationships more convenient. For example, let's imagine a user can have many roles and a role can have many users. You may use the attach
method to attach a role to a user by inserting a record in the relationship's intermediate table:
use App\Models\User;
$user = User::find(1);
$user->roles()->attach($roleId);
When attaching a relationship to a model, you may also pass an array of additional data to be inserted into the intermediate table:
$user->roles()->attach($roleId, ['expires' => $expires]);
Sometimes it may be necessary to remove a role from a user. To remove a many-to-many relationship record, use the detach
method. The detach
method will delete the appropriate record out of the intermediate table; however, both models will remain in the database:
// Detach a single role from the user...
$user->roles()->detach($roleId);
// Detach all roles from the user...
$user->roles()->detach();
For convenience, attach
and detach
also accept arrays of IDs as input:
$user = User::find(1);
$user->roles()->detach([1, 2, 3]);
$user->roles()->attach([
1 => ['expires' => $expires],
2 => ['expires' => $expires],
]);
You may also use the sync
method to construct many-to-many associations. The sync
method accepts an array of IDs to place on the intermediate table. Any IDs that are not in the given array will be removed from the intermediate table. So, after this operation is complete, only the IDs in the given array will exist in the intermediate table:
$user->roles()->sync([1, 2, 3]);
You may also pass additional intermediate table values with the IDs:
$user->roles()->sync([1 => ['expires' => true], 2, 3]);
If you would like to insert the same intermediate table values with each of the synced model IDs, you may use the syncWithPivotValues
method:
$user->roles()->syncWithPivotValues([1, 2, 3], ['active' => true]);
If you do not want to detach existing IDs that are missing from the given array, you may use the syncWithoutDetaching
method:
$user->roles()->syncWithoutDetaching([1, 2, 3]);
The many-to-many relationship also provides a toggle
method which "toggles" the attachment status of the given related model IDs. If the given ID is currently attached, it will be detached. Likewise, if it is currently detached, it will be attached:
$user->roles()->toggle([1, 2, 3]);
You may also pass additional intermediate table values with the IDs:
$user->roles()->toggle([
1 => ['expires' => true],
2 => ['expires' => true],
]);
If you need to update an existing row in your relationship's intermediate table, you may use the updateExistingPivot
method. This method accepts the intermediate record foreign key and an array of attributes to update:
$user = User::find(1);
$user->roles()->updateExistingPivot($roleId, [
'active' => false,
]);
When a model defines a belongsTo
or belongsToMany
relationship to another model, such as a Comment
which belongs to a Post
, it is sometimes helpful to update the parent's timestamp when the child model is updated.
For example, when a Comment
model is updated, you may want to automatically "touch" the updated_at
timestamp of the owning Post
so that it is set to the current date and time. To accomplish this, you may add a touches
property to your child model containing the names of the relationships that should have their updated_at
timestamps updated when the child model is updated:
<?php
namespace App\Models;
use Illuminate\Database\Eloquent\Model;
use Illuminate\Database\Eloquent\Relations\BelongsTo;
class Comment extends Model
{
/**
* All of the relationships to be touched.
*
* @var array
*/
protected $touches = ['post'];
/**
* Get the post that the comment belongs to.
*/
public function post(): BelongsTo
{
return $this->belongsTo(Post::class);
}
}
Warning
Parent model timestamps will only be updated if the child model is updated using Eloquent'ssave
method.