Laravel 5.4
Awesome Laravel
- Awesome Laravel (Chirag Gude)
Prologue
- Release Notes
- Upgrade Guide
Getting Started
- Installation
- Configuration
- Directory Structure
- Laravel Homestead
- valet
Architecture Concepts
- Request Lifecycle
- Service Container
- Service Providers
- Facades
The Basics
- Routing
- Errors & Logging
- Middleware
- CSRF Protection
- Controllers
- HTTP Requests
- HTTP Responses
- Views
- HTTP Session
- Validation
Frontend
- Blade Templates
- Localization
- JavaScript & CSS Scaffolding
- Compiling Assets (Laravel Mix)
Security
- Authentication
- API Authentication (Passport)
- Authorization
- Encryption
- Hashing
- Resetting Passwords
Digging Deeper
- Artisan Console
- Queues
- Package Development
- Task Scheduling
- Broadcasting
- Cache
- Collections
- Events
- File Storage
- helpers
- Notifications
Database
- Database Getting Started
- Database Query Builder
- Database Pagination
- Database Migrations
- Database Seeding
- Redis
Eloquent ORM
- Eloquent Getting Started
- Eloquent Relationships
- Eloquent Collections
- Eloquent Mutators
- Eloquent Serialization
Testing
- Testing Getting Started
- HTTP Tests
- Browser Tests (Laravel Dusk)
- Database Testing
- Mocking
- redirect
Official Packages
- Laravel Cashier
- Envoy Task Runner
- Laravel Scout
Eloquent Getting Started
Introduction
The Eloquent ORM included with Laravel provides a beautiful, simple ActiveRecord implementation for working with your database. Each database table has a corresponding “Model” which is used to interact with that table. Models allow you to query for data in your tables, as well as insert new records into the table.
Before getting started, be sure to configure a database connection in config/database.php
. For more information on configuring your database, check out the documentation.
Defining Models
To get started, let’s create an Eloquent model. Models typically live in the app
directory, but you are free to place them anywhere that can be auto-loaded according to your composer.json
file. All Eloquent models extend Illuminate\Database\Eloquent\Model
class.
The easiest way to create a model instance is using the make:model
Artisan command:
If you would like to generate a database migration when you generate the model, you may use the --migration
or -m
option:
Eloquent Model Conventions
Now, let’s look at an example Flight
model, which we will use to retrieve and store information from our flights
database table:
Table Names
Note that we did not tell Eloquent which table to use for our Flight
model. By convention, the “snake case”, plural name of the class will be used as the table name unless another name is explicitly specified. So, in this case, Eloquent will assume the Flight
model stores records in the flights
table. You may specify a custom table by defining a table
property on your model:
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Primary Keys
Eloquent will also assume that each table has a primary key column named id
. You may define a $primaryKey
property to override this convention.
In addition, Eloquent assumes that the primary key is an incrementing integer value, which means that by default the primary key will be cast to an int
automatically. If you wish to use a non-incrementing or a non-numeric primary key you must set the public $incrementing
property on your model to false
.
Timestamps
By default, Eloquent expects created_at
and updated_at
columns to exist on your tables. If you do not wish to have these columns automatically managed by Eloquent, set the $timestamps
property on your model to false
:
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If you need to customize the format of your timestamps, set the $dateFormat
property on your model. This property determines how date attributes are stored in the database, as well as their format when the model is serialized to an array or JSON:
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If you need to customize the names of the columns used to store the timestamps, you may set the CREATED_AT
and UPDATED_AT
constants in your model:
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Database Connection
By default, all Eloquent models will use the default database connection configured for your application. If you would like to specify a different connection for the model, use the $connection
property:
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Retrieving Models
Once you have created a model and its associated database table, you are ready to start retrieving data from your database. Think of each Eloquent model as a powerful query builder allowing you to fluently query the database table associated with the model. For example:
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Adding Additional Constraints
The Eloquent all
method will return all of the results in the model’s table. Since each Eloquent model serves as a query builder, you may also add constraints to queries, and then use the get
method to retrieve the results:
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{tip} Since Eloquent models are query builders, you should review all of the methods available on the query builder. You may use any of these methods in your Eloquent queries.
Collections
For Eloquent methods like all
and get
which retrieve multiple results, an instance of Illuminate\Database\Eloquent\Collection
will be returned. The Collection
class provides a variety of helpful methods for working with your Eloquent results:
Of course, you may also simply loop over the collection like an array:
Chunking Results
If you need to process thousands of Eloquent records, use the chunk
command. The chunk
method will retrieve a “chunk” of Eloquent models, feeding them to a given Closure
for processing. Using the chunk
method will conserve memory when working with large result sets:
The first argument passed to the method is the number of records you wish to receive per “chunk”. The Closure passed as the second argument will be called for each chunk that is retrieved from the database. A database query will be executed to retrieve each chunk of records passed to the Closure.
Using Cursors
The cursor
method allows you to iterate through your database records using a cursor, which will only execute a single query. When processing large amounts of data, the cursor
method may be used to greatly reduce your memory usage:
Retrieving Single Models / Aggregates
Of course, in addition to retrieving all of the records for a given table, you may also retrieve single records using find
or first
. Instead of returning a collection of models, these methods return a single model instance:
You may also call the find
method with an array of primary keys, which will return a collection of the matching records:
Not Found Exceptions
Sometimes you may wish to throw an exception if a model is not found. This is particularly useful in routes or controllers. The findOrFail
and firstOrFail
methods will retrieve the first result of the query; however, if no result is found, a Illuminate\Database\Eloquent\ModelNotFoundException
will be thrown:
If the exception is not caught, a 404
HTTP response is automatically sent back to the user. It is not necessary to write explicit checks to return 404
responses when using these methods:
Retrieving Aggregates
You may also use the count
, sum
, max
, and other aggregate methods provided by the query builder. These methods return the appropriate scalar value instead of a full model instance:
Inserting & Updating Models
Inserts
To create a new record in the database, simply create a new model instance, set attributes on the model, then call the save
method:
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In this example, we simply assign the name
parameter from the incoming HTTP request to the name
attribute of the App\Flight
model instance. When we call the save
method, a record will be inserted into the database. The created_at
and updated_at
timestamps will automatically be set when the save
method is called, so there is no need to set them manually.
Updates
The save
method may also be used to update models that already exist in the database. To update a model, you should retrieve it, set any attributes you wish to update, and then call the save
method. Again, the updated_at
timestamp will automatically be updated, so there is no need to manually set its value:
Mass Updates
Updates can also be performed against any number of models that match a given query. In this example, all flights that are active
and have a destination
of San Diego
will be marked as delayed:
The update
method expects an array of column and value pairs representing the columns that should be updated.
{note} When issuing a mass update via Eloquent, the
saved
andupdated
model events will not be fired for the updated models. This is because the models are never actually retrieved when issuing a mass update.
Mass Assignment
You may also use the create
method to save a new model in a single line. The inserted model instance will be returned to you from the method. However, before doing so, you will need to specify either a fillable
or guarded
attribute on the model, as all Eloquent models protect against mass-assignment by default.
A mass-assignment vulnerability occurs when a user passes an unexpected HTTP parameter through a request, and that parameter changes a column in your database you did not expect. For example, a malicious user might send an is_admin
parameter through an HTTP request, which is then passed into your model’s create
method, allowing the user to escalate themselves to an administrator.
So, to get started, you should define which model attributes you want to make mass assignable. You may do this using the $fillable
property on the model. For example, let’s make the name
attribute of our Flight
model mass assignable:
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Once we have made the attributes mass assignable, we can use the create
method to insert a new record in the database. The create
method returns the saved model instance:
Guarding Attributes
While $fillable
serves as a “white list” of attributes that should be mass assignable, you may also choose to use $guarded
. The $guarded
property should contain an array of attributes that you do not want to be mass assignable. All other attributes not in the array will be mass assignable. So, $guarded
functions like a “black list”. Of course, you should use either $fillable
or $guarded
- not both. In the example below, all attributes except for price
will be mass assignable:
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If you would like to make all attributes mass assignable, you may define the $guarded
property as an empty array:
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Other Creation Methods
firstOrCreate
/ firstOrNew
There are two other methods you may use to create models by mass assigning attributes: firstOrCreate
and firstOrNew
. The firstOrCreate
method will attempt to locate a database record using the given column / value pairs. If the model can not be found in the database, a record will be inserted with the given attributes.
The firstOrNew
method, like firstOrCreate
will attempt to locate a record in the database matching the given attributes. However, if a model is not found, a new model instance will be returned. Note that the model returned by firstOrNew
has not yet been persisted to the database. You will need to call save
manually to persist it:
updateOrCreate
You may also come across situations where you want to update an existing model or create a new model if none exists. Laravel provides an updateOrCreate
method to do this in one step. Like the firstOrCreate
method, updateOrCreate
persists the model, so there’s no need to call save()
:
Deleting Models
To delete a model, call the delete
method on a model instance:
Deleting An Existing Model By Key
In the example above, we are retrieving the model from the database before calling the delete
method. However, if you know the primary key of the model, you may delete the model without retrieving it. To do so, call the destroy
method:
Deleting Models By Query
Of course, you may also run a delete statement on a set of models. In this example, we will delete all flights that are marked as inactive. Like mass updates, mass deletes will not fire any model events for the models that are deleted:
{note} When executing a mass delete statement via Eloquent, the
deleting
anddeleted
model events will not be fired for the deleted models. This is because the models are never actually retrieved when executing the delete statement.
Soft Deleting
In addition to actually removing records from your database, Eloquent can also “soft delete” models. When models are soft deleted, they are not actually removed from your database. Instead, a deleted_at
attribute is set on the model and inserted into the database. If a model has a non-null deleted_at
value, the model has been soft deleted. To enable soft deletes for a model, use the Illuminate\Database\Eloquent\SoftDeletes
trait on the model and add the deleted_at
column to your $dates
property:
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Of course, you should add the deleted_at
column to your database table. The Laravel schema builder contains a helper method to create this column:
Now, when you call the delete
method on the model, the deleted_at
column will be set to the current date and time. And, when querying a model that uses soft deletes, the soft deleted models will automatically be excluded from all query results.
To determine if a given model instance has been soft deleted, use the trashed
method:
Querying Soft Deleted Models
Including Soft Deleted Models
As noted above, soft deleted models will automatically be excluded from query results. However, you may force soft deleted models to appear in a result set using the withTrashed
method on the query:
The withTrashed
method may also be used on a relationship query:
Retrieving Only Soft Deleted Models
The onlyTrashed
method will retrieve only soft deleted models:
Restoring Soft Deleted Models
Sometimes you may wish to “un-delete” a soft deleted model. To restore a soft deleted model into an active state, use the restore
method on a model instance:
You may also use the restore
method in a query to quickly restore multiple models. Again, like other “mass” operations, this will not fire any model events for the models that are restored:
Like the withTrashed
method, the restore
method may also be used on relationships:
Permanently Deleting Models
Sometimes you may need to truly remove a model from your database. To permanently remove a soft deleted model from the database, use the forceDelete
method:
Query Scopes
Global Scopes
Global scopes allow you to add constraints to all queries for a given model. Laravel’s own soft delete functionality utilizes global scopes to only pull “non-deleted” models from the database. Writing your own global scopes can provide a convenient, easy way to make sure every query for a given model receives certain constraints.
Writing Global Scopes
Writing a global scope is simple. Define a class that implements the Illuminate\Database\Eloquent\Scope
interface. This interface requires you to implement one method: apply
. The apply
method may add where
constraints to the query as needed:
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{tip} There is not a predefined folder for scopes in a default Laravel application, so feel free to make your own
Scopes
folder within your Laravel application’sapp
directory.
Applying Global Scopes
To assign a global scope to a model, you should override a given model’s boot
method and use the addGlobalScope
method:
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After adding the scope, a query to User::all()
will produce the following SQL:
Anonymous Global Scopes
Eloquent also allows you to define global scopes using Closures, which is particularly useful for simple scopes that do not warrant a separate class:
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Removing Global Scopes
If you would like to remove a global scope for a given query, you may use the withoutGlobalScope
method. The method accepts the class name of the global scope as its only argument:
If you would like to remove several or even all of the global scopes, you may use the withoutGlobalScopes
method:
Local Scopes
Local scopes allow you to define common sets of constraints that you may easily re-use throughout your application. For example, you may need to frequently retrieve all users that are considered “popular”. To define a scope, simply prefix an Eloquent model method with scope
.
Scopes should always return a query builder instance:
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Utilizing A Local Scope
Once the scope has been defined, you may call the scope methods when querying the model. However, you do not need to include the scope
prefix when calling the method. You can even chain calls to various scopes, for example:
Dynamic Scopes
Sometimes you may wish to define a scope that accepts parameters. To get started, just add your additional parameters to your scope. Scope parameters should be defined after the $query
parameter:
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Now, you may pass the parameters when calling the scope:
Events
Eloquent models fire several events, allowing you to hook into the following points in a model’s lifecycle: creating
, created
, updating
, updated
, saving
, saved
, deleting
, deleted
, restoring
, restored
. Events allow you to easily execute code each time a specific model class is saved or updated in the database.
Whenever a new model is saved for the first time, the creating
and created
events will fire. If a model already existed in the database and the save
method is called, the updating
/ updated
events will fire. However, in both cases, the saving
/ saved
events will fire.
To get started, define an $events
property on your Eloquent model that maps various points of the Eloquent model’s lifecycle to your own event classes:
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Observers
If you are listening for many events on a given model, you may use observers to group all of your listeners into a single class. Observers classes have method names which reflect the Eloquent events you wish to listen for. Each of these methods receives the model as their only argument. Laravel does not include a default directory for observers, so you may create any directory you like to house your observer classes:
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To register an observer, use the observe
method on the model you wish to observe. You may register observers in the boot
method of one of your service providers. In this example, we’ll register the observer in the AppServiceProvider
:
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