baril / smoothie
Some fruity additions to Laravel's Eloquent: fuzzy dates, mutual many-to-many relationships, orderable behavior, closure tables.
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Requires
- php: >=7.0
- illuminate/cache: ~5.6
- illuminate/console: ~5.6
- illuminate/database: ~5.6
- illuminate/support: ~5.6
Requires (Dev)
- orchestra/database: ~3.6
- orchestra/testbench: ~3.6
- squizlabs/php_codesniffer: ^2.8
Suggests
- rutorika/sortable: An alternative version of the 'Orderable' behavior that inspired Smoothie's implementation.
This package is auto-updated.
Last update: 2024-12-09 00:56:06 UTC
README
Some fruity additions to Laravel's Eloquent:
- Miscellaneous
- Field aliases
- Accessor cache
- Fuzzy dates
- Mutually-belongs-to-many-selves relationship
- N-ary many-to-many relationships
- Dynamic relationships
- Orderable behavior
- Tree-like structures and closure tables
- Cacheable behavior
⚠️ Note: only MySQL is tested and actively supported.
Miscellaneous
Save model and restore modified attributes
This package adds a new option restore
to the save
method:
$model->save(['restore' => true]);
This forces the model to refresh its original
array of attributes from the
database before saving. It's useful when your database row has changed outside
the current $model
instance, and you need to make sure that the $model
's
current state will be saved exactly, even restoring attributes that haven't
changed in the current instance:
$model1 = Article::find(1); $model2 = Article::find(1); $model2->title = 'new title'; $model2->save(); $model1->save(['restore' => true]); // the original title will be restored // because it hasn't changed in `$model1`
To use this option, you need your model to extend the Baril\Smoothie\Model
class instead of Illuminate\Database\Eloquent\Model
.
Update only
Laravel's native update
method will not only update the provided fields, but
also whatever properties of the model were previously modified:
$article = Article::create(['title' => 'old title']); $article->title = 'new title'; $article->update(['subtitle' => 'new subtitle']); $article->fresh()->title; // "new title"
This package provides another method called updateOnly
, that will update
the provided fields but leave the rest of the row alone:
$article = Article::create(['title' => 'old title']); $article->title = 'new title'; $article->updateOnly(['subtitle' => 'new subtitle']); $article->fresh()->title; // "old title" $article->title; // "new title" $article->subtitle; // "new subtitle"
To use this method, you need your model to extend the Baril\Smoothie\Model
class instead of Illuminate\Database\Eloquent\Model
.
Explicitly order the query results
The package adds the following method to Eloquent collections:
$collection = YourModel::all()->sortByKeys([3, 4, 2]);
It allows for explicit ordering of collections by primary key. In the above example, the returned collection will contain (in this order):
- model with id 3,
- model with id 4,
- model with id 2,
- any other models of the original collection, in the same order as
before calling
sortByKeys
.
Similarly, using the findInOrder
method on models or query builders, instead
of findMany
, will preserve the order of the provided ids:
$collection = Article::findMany([4, 5, 3]); // we're not sure that the article // with id 4 will be the first of // the returned collection $collection = Article::findInOrder([4, 5, 3]); // now we're sure
In order to use these methods, you need Smoothie's service provider to be
registered in your config\app.php
(or use package auto-discovery):
return [ // ... 'providers' => [ Baril\Smoothie\SmoothieServiceProvider::class, // ... ], ];
Timestamp scopes
The Baril\Smoothie\Concerns\ScopesTimestamps
trait provides some scopes for
models with created_at
and updated_at
columns:
$query->orderByCreation($direction = 'asc')
,$query->createdAfter($date, $strict = false)
(the$date
argument can be of any datetime-castable type, and the$strict
parameter can be set totrue
if you want to use a strict inequality),$query->createdBefore($date, $strict = false)
,$query->createdBetween($start, $end, $strictStart = false, $strictEnd = false)
,$query->orderByUpdate($direction = 'asc')
,$query->updatedAfter($date, $strict = false)
,$query->updatedBefore($date, $strict = false)
,$query->updatedBetween($start, $end, $strictStart = false, $strictEnd = false)
.
Cross-database relations
With Laravel, it's possible to declare relations between models that don't belong to the same connection, but it will fail in some cases:
- counting the relation and querying its existence won't work (because it uses a subquery),
- many-to-many relations will work only when the pivot table is in the same database as the related model (because of the join).
This package provides a crossDatabase
method that will solve this problem
by prepending the table name with the database name. Of course, it works only
if all databases are on the same server.
The usage is:
class Post { public function comments() { return $this->hasMany(Comment::class)->crossDatabase(); } public function category() { return $this->hasMany(Comment::class)->crossDatabase(); } }
For a many-to-many relation, you can specify whether the pivot table is in the
same database as the parent table or the related table. In the example
below, the pivot table is in the same database as the posts
table:
class Post { public function tags() { // same database as parent table (posts): return $this->belongsToMany(Tag::class)->crossDatabase('parent'); } } class Tag { public function posts() { // same database as related table (posts): return $this->belongsToMany(Post::class)->crossDatabase('related'); } }
Debugging
This package adds a debugSql
method to the Builder
class. It is similar as
toSql
except that it returns an actual SQL query where bindings have been
replaced with their values.
Article::where('id', 5)->toSql(); // "SELECT articles WHERE id = ?" -- WTF? Article::where('id', 5)->debugSql(); // "SELECT articles WHERE id = 5" -- much better
In order to use this method, you need Smoothie's service provider to be
registered in your config\app.php
(or use package auto-discovery).
(Credit for this method goes to Broutard, thanks!)
Field aliases
Basic usage
The Baril\Smoothie\Concerns\AliasesAttributes
trait provides an easy way
to normalize the attributes names of a model if you're working with an
existing database with column namings you don't like.
There are 2 different ways to define aliases:
- define a column prefix: all columns prefixed with it will become magically accessible as un-prefixed attributes,
- define an explicit alias for a given column.
Let's say you're working with the following table (this example comes from the blog application Dotclear):
dc_blog
blog_id
blog_uid
blog_creadt
blog_upddt
blog_url
blog_name
blog_desc
blog_status
Then you could define your model as follows:
class Blog extends Model { const CREATED_AT = 'blog_creadt'; const UPDATED_AT = 'blog_upddt'; protected $primaryKey = 'blog_id'; protected $keyType = 'string'; protected $columnsPrefix = 'blog_'; protected $aliases = [ 'description' => 'blog_desc', ]; }
Now the blog_id
column can be simply accessed this way: $model->id
.
Same goes for all other columns prefixed with blog_
.
Also, the blog_desc
column can be accessed with the more explicit alias
description
.
The original namings are still available. This means that there are actually 3
different ways to access the blog_desc
column:
$model->blog_desc
(original column name),$model->desc
(because of theblog_
prefix),$model->description
(thanks to the explicit alias).
Note: you can't have an alias (explicit or implicit) for another alias. Aliases are for actual column names only.
Collisions and priorities
If an alias collides with a real column name, it will have priority
over it. This means that in the example above, if the table had a column
actually named desc
or description
, you wouldn't be able to access it any
more. You still have the possibility to define another alias for the column
though.
class Article { protected $aliases = [ 'title' => 'meta_title', 'original_title' => 'title', ]; }
In the example above, the title
attribute of the model returns the value of
the meta_title
column in the database. The value of the title
column can
be accessed with the original_title
attribute.
Also, explicit aliases have priority over aliases implicitely defined by a column prefix. This means that when an "implicit alias" collides with a real column name, you can define an explicit alias that restores the original column name:
class Article { protected $aliases = [ 'title' => 'title', ]; protected $columnsPrefix = 'a_'; }
Here, the title
attribute of the model will return the value of the title
column of the database. The a_title
column can be accessed with the a_title
attribute (or you can define another alias for it).
Accessors, casts and mutators
You can define accessors either on the original attribute name, or the alias, or both.
- If there's an accessor on the original name only, it will always apply, whether you access the attribute with its original name or its alias.
- If there's an accessor on the alias only, it will apply only if you access the attribute using its alias.
- If there's an accessor on both, each will apply individually (and will receive
the original
$value
).
class Blog extends Model { const CREATED_AT = 'blog_creadt'; const UPDATED_AT = 'blog_upddt'; protected $primaryKey = 'blog_id'; protected $keyType = 'string'; protected $columnsPrefix = 'blog_'; protected $aliases = [ 'description' => 'blog_desc', ]; public function getPrDescAttribute($value) { return trim($value); } public function getDescriptionAttribute($value) { return htmlentities($value); } } $blog->pr_desc; // will return the trimmed description $blog->desc; // will return the trimmed description $blog->description; // will return the untrimmed, HTML-encoded description
The same logic applies to casts and mutators.
⚠️ Note: if you define a cast on the alias and an accessor on the original attribute name, the accessor won't apply to the alias, only the cast will.
Trait conflict resolution
The AliasesAttributes
trait overrides the getAttribute
and setAttribute
methods of Eloquent's Model
class. If you're using this trait with another
trait that override the same methods, you can just alias the other trait's
methods to getUnaliasedAttribute
and setUnaliasedAttribute
.
AliasesAttributes::getAttribute
and AliasesAttributes::setAttribute
will call getUnaliasedAttribute
or setUnaliasedAttribute
once the alias
is resolved.
class MyModel extends Model { use AliasesAttributes, SomeOtherTrait { AliasesAttributes::getAttribute insteadof SomeOtherTrait; SomeOtherTrait::getAttribute as getUnaliasedAttribute; AliasesAttributes::setAttribute insteadof SomeOtherTrait; SomeOtherTrait::setAttribute as setUnaliasedAttribute; } }
Accessor cache
Basic usage
Sometimes you define an accessor in your model that requires some computation time or executes some queries, and you don't want to go through the whole process everytime you call this accessor. That's why this package provides a trait that "caches" (in a protected property of the object) the results of the accessors.
You can define which accessors are cached using either the $cacheable
property
or the $uncacheable
property. If none of them are set, then everything is
cached.
class MyModel extends Model { use \Baril\Smoothie\Concerns\CachesAccessors; protected $cacheable = [ 'some_attribute', 'some_other_attribute', ]; } $model = MyModel::find(1); $model->some_attribute; // cached $model->yet_another_attribute; // not cached
Clearing cache
The cache for an attribute is cleared everytime this attribute is set.
If you have an accessor for an attribute A that depends on another
attribute B, you probably want to clear A's cache when B is set. You can use
the $clearAccessorCache
property to define such dependencies:
class User extends Model { use \Baril\Smoothie\Concerns\CachesAccessors; protected $clearAccessorCache = [ 'first_name' => ['full_name', 'name_with_initial'], 'last_name' => ['full_name', 'name_with_initial'], ]; public function getFullNameAttribute() { return $this->first_name . ' ' . $this->last_name; } public function getNameWithInitialAttribute() { return substr($this->first_name, 0, 1) . '. ' . $this->last_name; } } $user = new User([ 'first_name' => 'Jean', 'last_name' => 'Dupont', ]); echo $user->full_name; // "Jean Dupont" $user->first_name = 'Lazslo'; echo $user->full_name; // "Lazslo Dupont": cache has been cleared
Cache and aliases
If you want to use both the AliasesAttributes
trait and the
CachesAccessors
trait in the same model, the best way to do it is to use
the AliasesAttributesWithCache
trait, which merges the features of both
traits properly. Setting an attribute or an alias will automatically clear
the accessor cache for all aliases of the same attribute.
Fuzzy dates
The package provides a modified version of the Carbon
class that can handle
SQL "fuzzy" dates (where the day, or month and day, are zero).
With the original version of Carbon, such dates wouldn't be interpreted
properly, for example 2010-10-00
would be interpreted as 2010-09-30
.
With this version, zeros are allowed. An additional method is provided to determine if the date is fuzzy:
$date = Baril\Smoothie\Carbon::createFromFormat('Y-m-d', '2010-10-00'); $date->day; // will return null $date->isFuzzy(); // will return true if month and/or day is zero
The format
and formatLocalized
methods now have two additional (optional)
arguments $formatMonth
and $formatYear
. If the date is fuzzy, the method
will automatically fallback to the appropriate format:
$date = Baril\Smoothie\Carbon::createFromFormat('Y-m-d', '2010-10-00'); $date->format('d/m/Y', 'm/Y', 'Y'); // will display "10/2010"
⚠️ Note: because a fuzzy date can't convert to a timestamp, a date like
2010-10-00
is transformed to2010-10-01
internally before conversion to timestamp. Thus, any method or getter that relies on the timestamp value might return an "unexpected" result:
$date = Baril\Smoothie\Carbon::createFromFormat('Y-m-d', '2010-10-00'); $date->dayOfWeek; // will return 5, because October 1st 2010 was a friday
If you need fuzzy dates in your models, use the
Baril\Smoothie\Concerns\HasFuzzyDates
trait. Then, fields cast as
date
or datetime
will use this modified version of Carbon:
class Book extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\HasFuzzyDates; protected $casts = [ 'is_available' => 'boolean', 'release_date' => 'date', // will allow fuzzy dates ]; }
Alternatively, you can extend the Baril\Smoothie\Model
class to achieve the
same result. This class already uses the HasFuzzyDates
trait (as well as some
other traits described in the subsequent sections):
class Book extends \Baril\Smoothie\Model { protected $casts = [ 'is_available' => 'boolean', 'release_date' => 'date', // will allow fuzzy dates ]; }
⚠️ Note: you will need to disable MySQL strict mode in your
database.php
config file in order to use fuzzy dates:
return [ 'connections' => [ 'mysql' => [ 'strict' => false, // ... ], ], // ... ];
If you don't want to disable strict mode, another option is to use 3 separate
columns and merge them into one. To achieve this easily, you can use the
mergeDate
method in the accessor, and the splitDate
method is the mutator:
class Book extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\HasFuzzyDates; public function getReleaseDateAttribute() { return $this->mergeDate( 'release_date_year', 'release_date_month', 'release_date_day' ); } public function setReleaseDateAttribute($value) { $this->splitDate( $value, 'release_date_year', 'release_date_month', 'release_date_day' ); } }
The last 2 arguments of both methods can be omitted, if your column names use
the suffixes _year
, _month
and _day
. The following example is similar as
the one above:
class Book extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\HasFuzzyDates; public function getReleaseDateAttribute() { return $this->mergeDate('release_date'); } public function setReleaseDateAttribute($value) { $this->splitDate($value, 'release_date'); } }
⚠️ Note: your
_month
and_day
columns must be nullable, since a "zero" month or day will be stored asnull
.
Mutually-belongs-to-many-selves relationship
Usage
This new type of relationship defines a many-to-many, mutual
relationship to the same table/model. Laravel's native BelongsToMany
relationship can already handle self-referencing relationships, but with a
direction (for example sellers
/buyers
). The difference is that the
MutuallyBelongsToManySelves
relationship is meant to handle "mutual"
relationships (such as friends
):
class User extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\HasMutualSelfRelationships; public function friends() { return $this->mutuallyBelongsToManySelves(); } }
With this type of relationship, attaching $user1
to $users2
's friends
will implicitely attach $user2
to $user1
's friends
as well:
$user1->friends()->attach($user2->id); $user2->friends()->get(); // contains $user1
Similarly, detaching one side of the relation will detach the other as well:
$user2->friends()->detach($user1->id); $user1->friends()->get(); // doesn't contain $user2 any more
The full prototype for the mutuallyBelongsToManySelves
method is similar to
belongsToMany
, without the first argument (which we don't need since we
already know that the related class is the class itself):
public function mutuallyBelongsToManySelves( // Name of the pivot table (defaults to the snake-cased model name, // concatenated to itself with an underscore separator, // eg. "user_user"): $table = null, // First pivot key (defaults to the model's default foreign key, with // an added number, eg. "user1_id"): $firstPivotKey = null, // Second pivot key (the pivot keys can be passed in any order since // the relationship is mutual): $secondPivotKey = null, // Parent key (defaults to the model's primary key): $parentKey = null, // Relation name (defaults to the name of the caller method): $relation = null)
In order to use the mutuallyBelongsToManySelves
method, your model needs to
either use the Baril\Smoothie\Concerns\HasMutualSelfRelationships
, or
extend the Baril\Smoothie\Model
class.
Cleanup command
In order to avoid duplicates, the MutuallyBelongsToManySelves
class will
ensure that attaching $model1
to $model2
will insert the same pivot row as
attaching $model2
to $model1
: the key defined as the first pivot key of
the relationship will always receive the smaller id. In case you're working
with pre-existing data, and you're not sure that the content of your pivot table
follows this rule, you can use the following Artisan command that will check the
data and fix it if needed:
php artisan smoothie:fix-pivots "App\\YourModelClass" relationName
N-ary many-to-many relationships
Let's say that you're building a project management app. Each user of your app has many roles in your ACL system: projet manager, developer... But each role applies to a specific project rather than the whole app.
Your basic database structure probably looks something like this:
projects
id - integer
name - string
roles
id - integer
name - string
users
id - integer
name - string
project_role_user
project_id - integer
role_id - integer
user_id - integer
Of course, you could define classic belongsToMany
relations between your models,
and even add a withPivot
clause to include the 3rd pivot column:
class User extends Model { public function projects() { return $this->belongsToMany(Project::class, 'project_role_user')->withPivot('role_id'); } public function roles() { return $this->belongsToMany(Role::class, 'project_role_user')->withPivot('project_id'); } }
It won't be very satisfactory though, because:
- querying
$user->projects()
or$user->roles()
might return duplicated results (in case the user has 2 different roles in the same project, or the same role in 2 different projects), - Both relations are not related to one another, so there's no elegant way to retrieve the user's role for a specific project, or the projects where the user has a specific role.
That's where the belongsToMultiMany
relation comes in handy.
Setup
Step 1: add a primary key to your pivot table.
class AddPrimaryKeyToProjectRoleUserTable extends Migration
{
public function up()
{
Schema::table('project_role_user', function (Blueprint $table) {
$table->increments('id')->first();
});
}
public function down()
{
Schema::table('project_role_user', function (Blueprint $table) {
$table->dropColumn('id');
});
}
}
Step 2: have your model use the
Baril\Smoothie\Concerns\HasMultiManyRelationships
trait (or extend the
Baril\Smoothie\Model
class).
Step 3: define your relations with belongsToMultiMany
instead of
belongsToMany
. The prototype for both methods is the same except that:
- the 2nd argument (pivot table name) is required for
belongsToMultiMany
(because we wouldn't be able to guess it), - there's an additional 3rd (optional) argument which is the name of the
primary key of the pivot table (defaults to
id
).
class User extends Model { use HasMultiManyRelationships; public function projects() { return $this->belongsToMultiMany(Project::class, 'project_role_user'); } public function roles() { return $this->belongsToMultiMany(Role::class, 'project_role_user'); } }
You can do the same in all 3 classes, which means you will declare 6 different relations. Note that:
- To avoid confusion, it's better (but not required) to give the same
name to the similar relations (
Project::roles()
andUser::roles()
). - You don't have to define all 6 relations if there are some of them you know you'll never need.
Also, notice that the definition of the relations are independant: there's
nothing here that says that projects
and roles
are related to one another.
The magic will happen only because they're defined as "multi-many" relationships
and because they're using the same pivot table.
Querying the relations
Overall, multi-many relations behave exactly like many-to-many relations. There are 2 differences though.
The first difference is that multi-many relations will return "folded" (ie.
deduplicated) results. For example, if $user
has the role admin
in 2
different projects, $user->roles
will return admin
only once (contrary
to a regular BelongsToMany
relation). Should you need to fetch the "unfolded"
results, you can just chain the unfolded()
method:
$user->roles()->unfolded()->get();
The 2nd (and most important) difference is that when you "chain" 2 (or more) "sibling" multi-many relations, the result returned by each relation will be automatically constrained by the previously chained relation(s).
Check the following example:
$roles = $user->projects->first()->roles;
Here, a regular BelongsToMany
relation would have returned all roles related
to the project, whether they're attached to this $user
or another one. But
with multi-many relations, $roles
contains only the roles of $user
in
this project.
If you ever need to, you can always cancel this behavior by chaining the
all()
method:
$project = $user->projects->first(); $roles = $project->roles()->all()->get();
Now $roles
contains all the roles for $project
, whether they come from this
$user
or any other one.
Another way to use the multi-many relation is as follows:
$project = $user->projects->first(); $roles = $user->roles()->for('project', $project)->get();
This will return only the roles that $user
has on $project
. It's a nicer
way to write the following:
$project = $user->projects->first(); $roles = $user->roles()->withPivot('project_id', $project->id)->get();
The arguments for the for
method are:
- the name of the "other" relation in the parent class (here:
projects
, as in the methodUser::projects()
), or its singular version (project
), - either a model object or id, or a collection (of models or ids), or an array of ids.
Eager-loading
The behavior described above works with eager loading too:
$users = User::with('projects', 'projects.roles')->get(); $user = $users->first(); $user->projects->first()->roles; // only the roles of $user on this project
Similarly as the all()
method described above, you can use withAll
if you
don't want to constrain the 2nd relation:
$users = User::with('projects')->withAll('projects.roles')->get();
Note: for non multi-many relations, or "unconstrained" multi-many relations,
withAll
is just an alias ofwith
:
$users = User::with('projects', 'status')->withAll('projects.roles')->get(); // can be shortened to: $users = User::withAll('projects', 'projects.roles', 'status')->get();
Querying relationship existence
Querying the existence of a relation will also have the same behavior:
User::has('projects.roles')->get();
The query above will return the users who have a role in any project.
Attaching / detaching related models
Attaching models to a multi-many relation will fill the pivot values for all the previously chained "sibling" multi-many relations
$user->projects()->first()->roles()->attach($admin); // The new pivot row will receive $user's id in the user_id column.
Detaching models from a relation will also take into account all the "relation chain":
$user->projects()->first()->roles()->detach($admin); // Will detach the $admin role from this project, for $user only. // Other admins of this project will be preserved.
Again, the behavior described above can be disabled by chaining the
all()
method:
$user->projects()->first()->roles()->all()->attach($admin); // The new pivot row's user_id will be NULL. $user->projects()->first()->roles()->all()->detach($admin); // Will delete all pivot rows for this project and the $admin role, // whoever the user is.
Multi-many relations "wrapper"
The WrapMultiMany
relation provides an alternative way to handle multi-many
relations. It can be used together with the BelongsToMultiMany
relations or
independantly.
Instead of looking at the ternary relation as six many-to-many relations that can be chained after another, we could look at it this way:
- a user has many role/project pairs,
- each of these pairs has one role and one project.
Of course, similarly, a role has many user/project pairs and a project has many role/user pairs.
To implement this, we could create a model for the pivot table and then define
all relations manually, but the WrapMultiMany
relation provides a quicker
alternative.
class User extends Model { use HasMultiManyRelationships; public function authorizations() { return $this->wrapMultiMany([ 'project' => $this->belongsToMultiMany(Project::class, 'project_role_user'), 'role' => $this->belongsToMultiMany(Role::class, 'project_role_user'), ]); } }
The authorizations
method above defines the following relations:
- a
HasMany
relation fromUser
to the pivot table, - a
BelongsTo
relation namedproject
, from the pivot table toProject
, - a
BelongsTo
relation namedrole
, from the pivot table toRole
.
You can query the relations like any regular relation, and even eager-load them:
$users = User::with('authorizations', 'authorizations.role', 'authorizations.project')->get(); foreach ($users as $user) { foreach ($user->authorizations as $authorization) { dump($authorization->role); dump($authorization->project); } }
You can use the following methods to insert or update data in the pivot table:
$user->authorizations()->attach($pivots, $additionalAttributes); $user->authorizations()->sync($pivots); $user->authorizations()->detach($pivots);
The $pivots
argument can be of different types:
$pivots = $user->authorizations->first(); // a Model $pivots = $user->authorizations->slice(0, 2); // an EloquentCollection of Models $pivots = ['role_id' => $roleId, 'project_id' => $projectId]; // an associative array keyed by the column names... $pivots = ['role' => $roleId, 'project' => $projectId]; // ... or the relation names $pivots = ['role' => Role::first(), 'project' => Project::first()]; // ... where values can be ids or Models $pivots = [ ['role_id' => $roleId, 'project_id' => $projectId] ]; // an array of such associative arrays $pivots = collect([ ['role_id' => $roleId, 'project_id' => $projectId] ]); // or even a Collection
Dynamic relationships
The Baril\Smoothie\Concerns\HasDynamicRelations
trait gives you the ability to
define new relations on your model on-the-fly.
These relations can be defined either "globally" (for all instances of the class), or locally (for a specific instance).
First, use the HasDynamicRelations
trait on your model:
class Asset extends Model { use \Baril\Smoothie\Concerns\HasDynamicRelations; }
You can now define your relations by calling the defineRelation
method,
either statically or on an instance:
// This relation will now be available on all your Assets: Asset::defineRelation($someName, function () use ($someClass) { return $this->belongsTo($someClass); }); // This relation will now be available on this instance only: $asset = new Asset; $asset->defineRelation($someOtherName, function () use ($someOtherClass) { return $this->belongsTo($someOtherClass); });
In both cases, once the relation has been defined, you can use it like any Eloquent relation:
$entities = $asset->$someName()->where('status', 1)->get(); // regular call $attachments = $asset->$someOtherClass; // dynamic property
Orderable behavior
Adds orderable behavior to Eloquent models (forked from https://github.com/boxfrommars/rutorika-sortable).
Setup
First, add a position
field to your model (see below how to change this name):
public function up() { Schema::create('articles', function (Blueprint $table) { // ... other fields ... $table->unsignedInteger('position'); }); }
Then, use the \Baril\Smoothie\Concerns\Orderable
trait in your model. The
position
field should be guarded as it won't be filled manually.
class Article extends Model { use \Baril\Smoothie\Concerns\Orderable; protected $guarded = ['position']; }
You need to set the $orderColumn
property if you want another name than
position
:
class Article extends Model { use \Baril\Smoothie\Concerns\Orderable; protected $orderColumn = 'order'; protected $guarded = ['order']; }
Basic usage
You can use the following method to change the model's position (no need to save it afterwards, the method does it already):
moveToOffset($offset)
($offset
starts at 0 and can be negative, ie.$offset = -1
is the last position),moveToStart()
,moveToEnd()
,moveToPosition($position)
($position
starts at 1 and must be a valid position),moveUp($positions = 1, $strict = true)
: moves the model up by$positions
positions (the$strict
parameter controls what happens if you try to move the model "out of bounds": if set tofalse
, the model will simply be moved to the first or last position, else it will throw aPositionException
),moveDown($positions = 1, $strict = true)
,swapWith($anotherModel)
,moveBefore($anotherModel)
,moveAfter($anotherModel)
.
$model = Article::find(1); $anotherModel = Article::find(10) $model->moveAfter($anotherModel); // $model is now positioned after $anotherModel, and both have been saved
Also, this trait:
- automatically defines the model position on the
create
event, so you don't need to setposition
manually, - automatically decreases the position of subsequent models on the
delete
event so that there's no "gap".
$article = new Article(); $article->title = $request->input('title'); $article->body = $request->input('body'); $article->save();
This model will be positioned at MAX(position) + 1
.
To get ordered models, use the ordered
scope:
$articles = Article::ordered()->get(); $articles = Article::ordered('desc')->get();
(You can cancel the effect of this scope by calling the unordered
scope.)
Previous and next models can be queried using the previous
and next
methods:
$entity = Article::find(10); $entity->next(10); // returns a QueryBuilder on the next 10 entities, ordered $entity->previous(5)->get(); // returns a collection with the previous 5 entities, in reverse order $entity->next()->first(); // returns the next entity
Mass reordering
The move*
methods described above are not appropriate for mass reordering
because:
- they would perform many unneeded queries,
- changing a model's position affects other model's positions as well, and can cause side effects if you're not careful.
Example:
$models = Article::orderBy('publication_date', 'desc')->get(); $models->map(function($model, $key) { return $model->moveToOffset($key); });
The sample code above will corrupt the data because you need each model to be "fresh" before you change its position. The following code, on the other hand, will work properly:
$collection = Article::orderBy('publication_date', 'desc')->get(); $collection->map(function($model, $key) { return $model->fresh()->moveToOffset($key); });
It's still not a good way to do it though, because it performs many unneeded
queries. A better way to handle mass reordering is to use the saveOrder
method on a collection:
$collection = Article::orderBy('publication_date', 'desc')->get(); // $collection is not a regular Eloquent collection object, it's a custom class // with the following additional method: $collection->saveOrder();
That's it! Now the items' order in the collection has been applied to the
position
column of the database.
To define the order explicitely, you can do something like this:
$collection = Status::all(); $collection->sortByKeys([2, 1, 5, 3, 4])->saveOrder();
Note: Only the models within the collection are reordered / swapped between one another. The other rows in the table remain untouched.
Orderable groups / one-to-many relationships
Sometimes, the table's data is "grouped" by some column, and you need to order
each group individually instead of having a global order. To achieve this, you
just need to set the $groupColumn
property:
class Article extends Model { use \Baril\Smoothie\Concerns\Orderable; protected $guarded = ['position']; protected $groupColumn = 'section_id'; }
If the group is defined by multiple columns, you can use an array:
protected $groupColumn = ['field_name1', 'field_name2'];
Orderable groups can be used to handle ordered one-to-many relationships:
class Section extends Model { public function articles() { return $this->hasMany(Article::class)->ordered(); } }
Ordered many-to-many relationships
If you need to order a many-to-many relationship, you will need a position
column (or some other name) in the pivot table.
Have your model use the \Baril\Smoothie\Concerns\HasOrderedRelationships
trait
(or extend the Baril\Smoothie\Model
class):
class Post extends Model { use \Baril\Smoothie\Concerns\HasOrderedRelationships; public function tags() { return $this->belongsToManyOrdered(Tag::class); } }
The prototype of the belongsToManyOrdered
method is similar as belongsToMany
with an added 2nd parameter $orderColumn
:
public function belongsToManyOrdered( $related, $orderColumn = 'position', $table = null, $foreignPivotKey = null, $relatedPivotKey = null, $parentKey = null, $relatedKey = null, $relation = null)
Now all the usual methods from the BelongsToMany
class will set the proper
position to attached models:
$post->tags()->attach($tag->id); // will attach $tag and give it the last position $post->tags()->sync([$tag1->id, $tag2->id, $tag3->id]) // will keep the provided order $post->tags()->detach($tag->id); // will decrement the position of subsequent $tags
When queried, the relation is sorted by default. If you want to order the
related models by some other field, you will need to use the unordered
scope
first:
$post->tags; // ordered by position $post->tags()->ordered('desc')->get(); // reverse order $post->tags()->unordered()->get(); // unordered // Note that orderBy has no effect here since the tags are already ordered by position: $post->tags()->orderBy('id')->get(); // This is the proper way to do it: $post->tags()->unordered()->orderBy('id')->get();
Of course, you can also define the relation like this if you don't want it ordered by default:
class Post extends Model { use \Baril\Smoothie\Concerns\HasOrderedRelationships; public function tags() { return $this->belongsToManyOrdered(Tag::class)->unordered(); } } $article->tags; // unordered $article->tags()->ordered()->get(); // ordered
The BelongsToManyOrdered
class has all the same methods as the Orderable
trait, except that you will need to pass them a related $model to work with:
moveToOffset($model, $offset)
,moveToStart($model)
,moveToEnd($model)
,moveToPosition($model, $position)
,moveUp($model, $positions = 1, $strict = true)
,moveDown($model, $positions = 1, $strict = true)
,swap($model, $anotherModel)
,moveBefore($model, $anotherModel)
($model
will be moved before$anotherModel
),moveAfter($model, $anotherModel)
($model
will be moved after$anotherModel
),before($model)
(similar as theprevious
method from theOrderable
trait),after($model)
(similar asnext
).
$tag1 = $article->tags()->first(); $tag2 = $article->tags()->last(); $article->tags()->moveBefore($tag1, $tag2); // now $tag1 is at the second to last position
Note that if $model
doesn't belong to the relationship, any of these methods
will throw a Baril\Smoothie\GroupException
.
There's also a method for mass reordering:
$article->tags()->setOrder([$id1, $id2, $id3]);
In the example above, tags with ids $id1
, $id2
, $id3
will now be at the
beginning of the article's tags
collection. Any other tags attached to the
article will come after, in the same order as before calling setOrder
.
Ordered morph-to-many relationships
Similarly, the package defines a MorphToManyOrdered
type of relationship.
The 3rd parameter of the morphToManyOrdered
method is the name of the order
column (defaults to position
):
class Post extends Model { use \Baril\Smoothie\Concerns\HasOrderedRelationships; public function tags() { return $this->morphToManyOrdered('App\Tag', 'taggable', 'tag_order'); } }
Same thing with the morphedByManyOrdered
method:
class Tag extends Model { use \Baril\Smoothie\Concerns\HasOrderedRelationships; public function posts() { return $this->morphedByManyOrdered('App\Post', 'taggable', 'order'); } public function videos() { return $this->morphedByManyOrdered('App\Video', 'taggable', 'order'); } }
Tree-like structures and closure tables
This is an implementation of the "Closure Table" design pattern for Laravel and SQL. This pattern allows for faster querying of tree-like structures stored in a relational database.
Setup
You will need to create a closure table in your database. For example, if your
main table is tags
, you will need a closure table named tag_tree
(you can
change this name if you want -- see below), with the following columns:
ancestor_id
: foreign key to your main table,descendant_id
: foreign key to your main table,depth
: unsigned integer.
Of course, you don't need to write the migration manually: the package provides an Artisan command for that (see below).
Also, your main table will need a parent_id
column with a self-referencing
foreign key (you can change this name too -- see below). This column is the one
that holds the actual hierarchical data: the closures are merely a duplication
of that information.
Once your database is ready, have your model implement the
Baril\Smoothie\Concerns\BelongsToTree
trait.
You can use the following properties to configure the table and column names:
$parentForeignKey
: name of the self-referencing foreign key in the main table (defaults toparent_id
),$closureTable
: name of the closure table (defaults to the snake-cased model name suffixed with_tree
, eg.tag_tree
).
class File extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\BelongsToTree; protected $parentForeignKey = 'folder_id'; protected $closureTable = 'file_closures'; }
Artisan commands
Note: you need to configure your model as described above before you use these commands.
The grow-tree
command will generate the migration file for the closure table:
php artisan smoothie:grow-tree "App\\YourModel"
If you use the --migrate
option, then the command will also run the migration.
If your main table already contains data, it will also insert the closures for
the existing data.
php artisan smoothie:grow-tree "App\\YourModel" --migrate
⚠️ Note: if you use the
--migrate
option, any other pending migrations will run too.
There are some additional options: use --help
to learn more.
If you ever need to re-calculate the closures, you can use the following command:
php artisan smoothie:fix-tree "App\\YourModel"
It will truncate the table and fill it again based on the data from the main table.
Finally, the show-tree
command provides a quick-and-easy way to output the
content of the tree. It takes a label
parameter that defines which column
(or accessor) to use as label. Optionally you can also specify a max depth.
php artisan smoothie:show-tree "App\\YourModel" --label=name --depth=3
Basic usage
Just fill the model's parent_id
and save the model: the closure table will
be updated accordingly.
$tag = Tag::find($tagId); $tag->parent_id = $parentTagId; // or: $tag->parent()->associate($parentTag); $tag->save();
The save
method will throw a \Baril\Smoothie\TreeException
in
case of a redundancy error (ie. if the parent_id
corresponds to the model
itself or one of its descendants).
When you delete a model, its closures will be automatically deleted. If the
model has descendants, the delete
method will throw a TreeException
. You
need to use the deleteTree
method if you want to delete the model and all its
descendants.
try { $tag->delete(); } catch (\Baril\Smoothie\TreeException $e) { // some specific treatment // ... $tag->deleteTree(); }
Relationships
The trait defines the following relationships (which can't be renamed for now):
parent
:BelongsTo
relation to the parent,children
:HasMany
relation to the children,ancestors
:BelongsToMany
relation to the ancestors,ancestorsWithSelf
:BelongsToMany
relation to the ancestors, including $this,descendants
:BelongsToMany
relation to the descendants.descendantsWithSelf
:BelongsToMany
relation to the descendants, including $this.
⚠️ Note: The
ancestors
anddescendants
(and-WithSelf
) relations are read-only! Trying to use theattach
ordetach
method on them will throw an exception.
The ancestors
and descendants
relations can be ordered by depth (ie. with
the direct parent/children first):
$tags->descendants()->orderByDepth()->get();
Loading or eager-loading the descendants
relation will automatically load the
children
relation (with no additional query). Furthermore, it will load the
children
relation recursively for all the eager-loaded descendants:
$tags = Tag::with('descendants')->limit(10)->get(); // The following code won't execute any new query: foreach ($tags as $tag) { dump($tag->name); foreach ($tag->children as $child) { dump('-' . $child->name); foreach ($child->children as $grandchild) { dump('--' . $grandchild->name); } } }
Of course, same goes with the ancestors
and parent
relations.
You can retrieve the whole tree with this method:
$tags = Tag::getTree();
It will return a collection of the root elements, with the children
relation
eager-loaded on every element up to the leafs.
Methods
The trait defines the following methods:
isRoot()
: returnstrue
if the item'sparent_id
isnull
,isLeaf()
: checks if the item is a leaf (ie. has no children),hasChildren()
:$tag->hasChildren()
is similar to!$tag->isLeaf()
, albeit more readable,isChildOf($item)
,isParentOf($item)
,isDescendantOf($item)
,isAncestorOf($item)
,isSiblingOf($item)
,commonAncestorWith($item)
: returns the first common ancestor between 2 items, ornull
if they don't have a common ancestor (which can happen if the tree has multiple roots),distanceTo($item)
: returns the "distance" between 2 items,depth()
: returns the depth of the item in the tree,subtreeDepth()
: returns the depth of the subtree of which the item is the root.
Query scopes
withAncestors($depth = null, $constraints = null)
: shortcut towith('ancestors')
, with the added ability to specify a$depth
limit (eg.$query->withAncestors(1)
will only load the direct parent). Optionally, you can pass additional$constraints
.withDescendants($depth = null, $constraints = null)
.withDepth($as = 'depth')
: will add adepth
column (or whatever alias you provided) on your resulting models.whereIsRoot($bool = true)
: limits the query to the items with no parent (the behavior of the scope can be reversed by setting the$bool
argument tofalse
).whereIsLeaf($bool = true)
.whereHasChildren($bool = true)
: is just the opposite ofwhereIsLeaf
.whereIsDescendantOf($ancestorId, $maxDepth = null, $includingSelf = false)
: limits the query to the descendants of$ancestorId
, with an optional$maxDepth
. If the$includingSelf
parameter is set totrue
, the ancestor will be included in the query results too.whereIsAncestorOf($descendantId, $maxDepth = null, $includingSelf = false)
.orderByDepth($direction = 'asc')
: this scope will work only when querying theancestors
ordescendants
relationships (see examples below).
$tag->ancestors()->orderByDepth(); Tag::with(['descendants' => function ($query) { $query->orderByDepth('desc'); }]);
Ordered tree
In case you need each level of the tree to be explicitely ordered, you can use
the Baril\Smoothie\Concerns\BelongsToOrderedTree
trait (instead of
BelongsToTree
).
You will need a position
column in your main table (the name of the column
can be configured with the $orderColumn
property).
class Tag extends \Illuminate\Database\Eloquent\Model { use \Baril\Smoothie\Concerns\BelongsToOrderedTree; protected $orderColumn = 'order'; }
The children
relation will now be ordered. In case you need to order it by
some other field (or don't need the children ordered at all), you can use
the unordered
scope:
$children = $this->children()->unordered()->orderBy('name');
Also, all methods defined by the Orderable
trait described
above will now be available:
$lastChild->moveToPosition(1);
Cacheable behavior
This package provides a Cacheable
trait for models. This is not a per-item
or per-query cache but rather a caching system that will store the whole table
contents as a collection. Thus, it's to be used with small tables that store
referential data that won't change very often (such as a list of countries or
statuses).
Basic principles
The basic principles are:
- The first time a "cached" query is executed, the whole contents of the table
will be stored in the cache as an
Eloquent\Collection
with an infinite lifetime. - The following methods will always use the cache when called statically on the
model class:
first
and its variants,find
and its variants,pluck
,count
andall
. - Other queries won't be cached by default, but caching can be enabled on
certain conditions by chaining the
usingCache
method to the query builder (see below). - When a model is inserted, updated or deleted, the cache for its table
is cleared. You can also clear the cache manually using the
clearCache
static method.
Setup
Just use the Cacheable
trait on your model class. Optionally, you can specify
which cache driver to use with the $cache
property:
class Country extends Model { use \Baril\Smoothie\Concerns\Cacheable; protected $cache = 'redis'; }
Of course $cache
must reference a cache store defined in the cache.php
config file.
If you need a finer customization of the cache store (such as setting tags), you
can do so by overriding the getCache
method:
class Country extends Model { use \Baril\Smoothie\Concerns\Cacheable; public function getCache() { return app('cache')->store('redis')->tags(['referentials']); } }
By default, what will be stored in the cache is the return of Model::all()
,
but it can be customized by overriding the loadFromDatabase
method, for
example if you need to load relations:
class Country extends Model { use \Baril\Smoothie\Concerns\Cacheable; protected static function loadFromDatabase() { return static::with('languages')->get(); } }
Now the countries will be stored in the cache with their languages
relation
loaded.
Caching queries
Caching specific queries is possible but only for very simple queries (see
below).
In order to enable cache on a query, you need to chain the usingCache
method
to the builder:
Country::where('code', 'fr_FR')->usingCache()->get();
When the get
method is called, the following occurs:
- The collection with the whole table contents is fetched from the cache (or from the database and stored in the cache if it was previously empty).
- All
where
andorderBy
clauses of the query are applied to the collection (using thewhere
andsortBy
methods). - The filtered and sorted collection is returned.
Step 2 will work only on the following conditions:
- All the
where
andorderBy
clauses are translatable into method calls on the collection. This excludes more complex clauses such as raw SQL clauses,WHERE
clauses joined by anOR
operator or with aLIKE
operator. - No other clauses (such as
having
,groupBy
orwith
) must be applied to the query, since they're not translatable.
⚠️ If you use untranslatable clauses and still enable cache, no exception will be thrown, but the clauses will be ignored and the query will return unexpected results.
Cached relations
Since Laravel relations behave like query builders, they can use cache too.
Of course, the related model needs to use the Cacheable
trait.
class User extends Model { public function country() { return $this->belongsTo(Country::class)->usingCache(); } }
Now the country
relation will always use cache when queried, unless you
disable it explicitely:
$user->country()->usingCache(false)->get();
BelongsToMany
(and BelongsToMultiMany
) relations can use cache too, but:
- a query to the pivot table will still be executed,
- the model that defines the relation need to use the
CachesRelationships
trait.
class User extends Model { use \Baril\Smoothie\Concerns\CachesRelationships; public function groups() { return $this->belongsToMany(Group::class)->usingCache(); } }