Traits
Model traits are used to implement common functionality.
# Attribute Manipulation
# Nullable
Nullable attributes are set to NULL
when left empty. To nullify attributes in your model, apply the October\Rain\Database\Traits\Nullable
trait and declare a $nullable
property with an array containing the attributes to nullify.
class Product extends Model
{
use \October\Rain\Database\Traits\Nullable;
/**
* @var array Nullable attributes.
*/
protected $nullable = ['sku'];
}
# Hashable
Hashed attributes are hashed immediately when the attribute is first set on the model. To hash attributes in your model, apply the October\Rain\Database\Traits\Hashable
trait and declare a $hashable
property with an array containing the attributes to hash.
class User extends Model
{
use \October\Rain\Database\Traits\Hashable;
/**
* @var array List of attributes to hash.
*/
protected $hashable = ['password'];
}
# Purgeable
Purged attributes will not be saved to the database when a model is created or updated. To purge attributes in your model, apply the October\Rain\Database\Traits\Purgeable
trait and declare a $purgeable
property with an array containing the attributes to purge.
class User extends Model
{
use \October\Rain\Database\Traits\Purgeable;
/**
* @var array List of attributes to purge.
*/
protected $purgeable = ['password_confirmation'];
}
The defined attributes will be purged when the model is saved, before the model events are triggered, including validation. Use the getOriginalPurgeValue
to find a value that was purged.
return $user->getOriginalPurgeValue('password_confirmation');
# Encryptable
Similar to the hashable trait, encrypted attributes are encrypted when set but also decrypted when an attribute is retrieved. To encrypt attributes in your model, apply the October\Rain\Database\Traits\Encryptable
trait and declare a $encryptable
property with an array containing the attributes to encrypt.
class User extends Model
{
use \October\Rain\Database\Traits\Encryptable;
/**
* @var array List of attributes to encrypt.
*/
protected $encryptable = ['api_key', 'api_secret'];
}
Note: Encrypted attributes are not compatible with
jsonable
attributes.
# Sluggable
Slugs are meaningful codes that are commonly used in page URLs. To automatically generate a unique slug for your model, apply the October\Rain\Database\Traits\Sluggable
trait and declare a $slugs
property.
class User extends Model
{
use \October\Rain\Database\Traits\Sluggable;
/**
* @var array Generate slugs for these attributes.
*/
protected $slugs = ['slug' => 'name'];
}
The $slugs
property should be an array where the key is the destination column for the slug and the value is the source string used to generate the slug. In the above example, if the name
column was set to Cheyenne, as a result the slug
column would be set to cheyenne, cheyenne-2, or cheyenne-3, etc before the model is created.
To generate a slug from multiple sources, pass another array as the source value:
protected $slugs = [
'slug' => ['first_name', 'last_name']
];
Slugs are only generated when a model first created. To override or disable this functionality, simply set the slug attribute manually:
$user = new User;
$user->name = 'Remy';
$user->slug = 'custom-slug';
$user->save(); // Slug will not be generated
Use the slugAttributes
method to regenerate slugs when updating a model:
$user = User::find(1);
$user->slug = null;
$user->slugAttributes();
$user->save();
# Sorting and Reordering
# Sortable
Sorted models will store a number value in sort_order
which maintains the sort order of each individual model in a collection. To store a sort order for your models, apply the October\Rain\Database\Traits\Sortable
trait and ensure that your schema has a column defined for it to use (example: $table->integer('sort_order')->default(0);
).
class User extends Model
{
use \October\Rain\Database\Traits\Sortable;
}
You may modify the key name used to identify the sort order by defining the SORT_ORDER
constant:
const SORT_ORDER = 'my_sort_order_column';
Use the setSortableOrder
method to set the orders on a single record or multiple records.
// Sets the order of the user to 1...
$user->setSortableOrder($user->id, 1);
// Sets the order of records 1, 2, 3 to 3, 2, 1 respectively...
$user->setSortableOrder([1, 2, 3], [3, 2, 1]);
# Simple Tree
A simple tree model will use the parent_id
column maintain a parent and child relationship between models. To use the simple tree, apply the October\Rain\Database\Traits\SimpleTree
trait.
class Category extends Model
{
use \October\Rain\Database\Traits\SimpleTree;
}
This trait will automatically inject two model relations called parent
and children
, it is the equivalent of the following definitions.
public $belongsTo = [
'parent' => [Category ::class, 'key' => 'parent_id'],
];
public $hasMany = [
'children' => [Category ::class, 'key' => 'parent_id'],
];
You do not need to define these relations yourself, however, you may modify the key name used to identify the parent by defining the PARENT_ID
constant:
const PARENT_ID = 'my_parent_column';
Collections of models that use this trait will return the type of October\Rain\Database\TreeCollection
which adds the toNested
method. To build an eager loaded tree structure, return the records with the relations eager loaded.
Category::all()->toNested();
# Rendering
In order to render all levels of items and their children, you can use recursive processing
{% macro renderChildren(item) %}
{% import _self as SELF %}
{% if item.children is not empty %}
<ul>
{% for child in item.children %}
<li>{{ child.name }}{{ SELF.renderChildren(child)|raw }}</li>
{% endfor %}
</ul>
{% endif %}
{% endmacro %}
{% import _self as SELF %}
{{ SELF.renderChildren(category)|raw }}
# Nested Tree
The nested set model (opens new window) is an advanced technique for maintaining hierachies among models using parent_id
, nest_left
, nest_right
, and nest_depth
columns. To use a nested set model, apply the October\Rain\Database\Traits\NestedTree
trait. All of the features of the SimpleTree
trait are inherently available in this model.
class Category extends Model
{
use \October\Rain\Database\Traits\NestedTree;
}
# Creating a Root Node
By default, all nodes are created as roots:
$root = Category::create(['name' => 'Root category']);
Alternatively, you may find yourself in the need of converting an existing node into a root node:
$node->makeRoot();
You may also nullify it's parent_id
column which works the same as `makeRoot'.
$node->parent_id = null;
$node->save();
# Inserting Nodes
You can insert new nodes directly by the relation:
$child1 = $root->children()->create(['name' => 'Child 1']);
Or use the makeChildOf
method for existing nodes:
$child2 = Category::create(['name' => 'Child 2']);
$child2->makeChildOf($root);
# Deleting Nodes
When a node is deleted with the delete
method, all descendants of the node will also be deleted. Note that the delete model events will not be fired for the child models.
$child1->delete();
# Getting the Nesting Level of a Node
The getLevel
method will return current nesting level, or depth, of a node.
// 0 when root
$node->getLevel()
# Moving Nodes Around
There are several methods for moving nodes around:
moveLeft()
: Find the left sibling and move to the left of it.moveRight()
: Find the right sibling and move to the right of it.moveBefore($otherNode)
: Move to the node to the left of ...moveAfter($otherNode)
: Move to the node to the right of ...makeChildOf($otherNode)
: Make the node a child of ...makeRoot()
: Make current node a root node.
# Utility Functions
# Validation
October models uses the built-in Validator class. The validation rules are defined in the model class as a property named $rules
and the class must use the trait October\Rain\Database\Traits\Validation
:
class User extends Model
{
use \October\Rain\Database\Traits\Validation;
public $rules = [
'name' => 'required|between:4,16',
'email' => 'required|email',
'password' => 'required|alpha_num|between:4,8|confirmed',
'password_confirmation' => 'required|alpha_num|between:4,8'
];
}
You may also use array syntax for validation rules.
class User extends Model
{
use \October\Rain\Database\Traits\Validation;
public $rules = [
'links.*.url' => 'required|url',
'links.*.anchor' => 'required'
];
}
Models validate themselves automatically when the save
method is called.
$user = new User;
$user->name = 'Actual Person';
$user->email = 'a.person@example.com';
$user->password = 'passw0rd';
// Returns false if model is invalid
$success = $user->save();
Note: You can also validate a model at any time using the
validate
method.
# Retrieving Validation Errors
When a model fails to validate, a Illuminate\Support\MessageBag
object is attached to the model. The object which contains validation failure messages. Retrieve the validation errors message collection instance with errors
method or $validationErrors
property. Retrieve all validation errors with errors()->all()
. Retrieve errors for a specific attribute using validationErrors->get('attribute')
.
Note: The Model leverages the MessagesBag object which has a simple and elegant method of formatting errors.
# Overriding Validation
The forceSave
method validates the model and saves regardless of whether or not there are validation errors.
$user = new User;
// Creates a user without validation
$user->forceSave();
# Custom Error Messages
Just like the Validator class, you can set custom error messages using the same syntax.
class User extends Model
{
public $customMessages = [
'required' => 'The :attribute field is required.',
...
];
}
You can also add custom error messages to the array syntax for validation rules as well.
class User extends Model
{
use \October\Rain\Database\Traits\Validation;
public $rules = [
'links.*.url' => 'required|url',
'links.*.anchor' => 'required'
];
public $customMessages = [
'links.*.url.required' => 'The url is required',
'links.*.url.*' => 'The url needs to be a valid url'
'links.*.anchor.required' => 'The anchor text is required',
];
}
In the above example you can write custom error messages to specific validation rules (here we used: required
). Or you can use a *
to select everything else (here we added a custom message to the url
validation rule using the *
).
# Custom Attribute Names
You may also set custom attribute names with the $attributeNames
array.
class User extends Model
{
public $attributeNames = [
'email' => 'Email Address',
...
];
}
# Dynamic Validation Rules
You can apply rules dynamically by overriding the beforeValidate
model event method. Here we check if the is_remote
attribute is false
and then dynamically set the latitude
and longitude
attributes to be required fields.
public function beforeValidate()
{
if (!$this->is_remote) {
$this->rules['latitude'] = 'required';
$this->rules['longitude'] = 'required';
}
}
# Custom Validation Rules
You can also create custom validation rules the same way you would for the Validator service.
# Soft Deleting
When soft deleting a model, it is not actually removed from your database. Instead, a deleted_at
timestamp is set on the record. To enable soft deletes for a model, apply the October\Rain\Database\Traits\SoftDelete
trait to the model and add the deleted_at column to your $dates
property:
class User extends Model
{
use \October\Rain\Database\Traits\SoftDelete;
protected $dates = ['deleted_at'];
}
To add a deleted_at
column to your table, you may use the softDeletes
method from a migration:
Schema::table('posts', function ($table) {
$table->softDeletes();
});
Now, when you call the delete
method on the model, the deleted_at
column will be set to the current timestamp. When querying a model that uses soft deletes, the "deleted" models will not be included in query results.
To determine if a given model instance has been soft deleted, use the trashed
method:
if ($user->trashed()) {
//
}
# 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:
$users = User::withTrashed()->where('account_id', 1)->get();
The withTrashed
method may also be used on a relationship query:
$flight->history()->withTrashed()->get();
Retrieving Only Soft Deleted Models
The onlyTrashed
method will retrieve only soft deleted models:
$users = User::onlyTrashed()->where('account_id', 1)->get();
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:
$user->restore();
You may also use the restore
method in a query to quickly restore multiple models:
// Restore a single model instance...
User::withTrashed()->where('account_id', 1)->restore();
// Restore all related models...
$user->posts()->restore();
# 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:
// Force deleting a single model instance...
$user->forceDelete();
// Force deleting all related models...
$user->posts()->forceDelete();
# Soft Deleting Relations
When two related models have soft deletes enabled, you can cascade the delete event by defining the softDelete
option in the relation definition. In this example, if the user model is soft deleted, the comments belonging to that user will also be soft deleted.
class User extends Model
{
use \October\Rain\Database\Traits\SoftDelete;
public $hasMany = [
'comments' => [\Acme\Blog\Models\Comment::class, 'softDelete' => true]
];
}
Note: If the related model does not use the soft delete trait, it will be treated the same as the
delete
option and deleted permanently.
Under these same conditions, when the primary model is restored, all the related models that use the softDelete
option will also be restored.
// Restore the user and comments
$user->restore();
# Including Soft Deleted Relations
Soft deleted records are not included as part of relation lookups, however, you may include them by adding the withTrashed
scope to the query.
class User extends Model
{
public $hasMany = [
'comments' => [\Acme\Blog\Models\Comment::class, 'scope' => 'withTrashed']
];
}
# Revisionable
October CMS models can record the history of changes in values by storing revisions. To store revisions for your model, apply the October\Rain\Database\Traits\Revisionable
trait and declare a $revisionable
property with an array containing the attributes to monitor for changes. You also need to define a $morphMany
model relation called revision_history
that refers to the System\Models\Revision
class with the name revisionable
, this is where the revision history data is stored.
class User extends Model
{
use \October\Rain\Database\Traits\Revisionable;
/**
* @var array Monitor these attributes for changes.
*/
protected $revisionable = ['name', 'email'];
/**
* @var array Relations
*/
public $morphMany = [
'revision_history' => [\System\Models\Revision::class, 'name' => 'revisionable']
];
}
By default 500 records will be kept, however this can be modified by declaring a $revisionableLimit
property on the model with a new limit value.
/**
* @var int Maximum number of revision records to keep.
*/
public $revisionableLimit = 8;
The revision history can be accessed like any other relation:
$history = User::find(1)->revision_history;
foreach ($history as $record) {
echo $record->field . ' updated ';
echo 'from ' . $record->old_value;
echo 'to ' . $record->new_value;
}
The revision record optionally supports a user relationship using the user_id
attribute. You may include a getRevisionableUser
method in your model to keep track of the user that made the modification.
public function getRevisionableUser()
{
return BackendAuth::getUser()->id;
}