Poser
Laravel Class-based Model Factories in literal seconds! Write tests that look as sexy as this...
/** @test */
public function a_user_can_have_customers()
{
UserFactory::times(20)
->hasAddress()
->withCustomers(CustomerFactory::times(20)->withBooks(5))();
$this->assertCount(20 * 20 * 5, Book::all());
}
...with a Factory that looks like this...
namespace Tests\Factories;
use Lukeraymonddowning\Poser\Factory;
class UserFactory extends Factory {
// No need to write any code here
}
Note for Laravel 8 users
Whilst Poser is tagged for Laravel 8, you should start migrating to use Laravel's new built in class based factories. The syntax is nearly identical and you'll pick it up in no time. I want to thank everybody who used, tested, altered and discussed Poser. Its been so much fun to build something to the Laravel community!
Examples
Want to see what Poser looks like compared with the default Laravel tests? Check out our examples!
Install
First, install into your Laravel project using composer.
composer require lukeraymonddowning/poser
Next, publish the Poser config file by calling
php artisan vendor:publish --tag=poser
Lumen Installation
Create the poser.php
in your config directory and copy the lukeraymonddowning/poser/src/config/poser.php
into it
Add $app->configure('poser');
to the config section in boostrap/app.php
Add $app->register(\Lukeraymonddowning\Poser\PoserServiceProvider::class);
to the providers section in boostrap/app.php
Getting Started
To get started quickly, we provide a php artisan make:poser
command. You may pass the desired name
of your factory as an argument. So the command to create the UserFactory
would be php artisan make:poser UserFactory
.
If you want to let Poser do all of the work, simply call php artisan make:poser
to turn all the models defined in your poser.models_namespace
config entry into Poser Factories.
More of a visual person? Watch this video demonstration of Poser
Usage
Poser takes all of the boilerplate out of writing class-based model factories. To get started, install Poser and go to your test suite. Please note: Poser uses the database (obviously), so make sure your test class extends Laravel's TestCase, not PhpUnit's.
The Basics
Let's imagine you have a user model that has many customers...
<?php
namespace App;
class User extends Authenticatable
{
// ...a little while later
public function customers()
{
return $this->hasMany(Customer::class);
}
}
To set up the factory for this, create a class (we suggest a 'Factories' directory in your 'tests' folder)
called UserFactory
(you can also just call it User
, but we think the Factory
suffix helps), and a class
called CustomerFactory
.
Both of these classes should extend the Poser/Factory
abstract class. Poser can take care of this for you via the make:poser
command,
so you can call php artisan make:poser UserFactory
and php artisan make:poser CustomerFactory
.
You should also have CustomerFactory
and UserFactory
as entries in your database/factories
directory (standard Laravel stuff)
Now, head to the test you want to write, and type the following:
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(CustomerFactory::times(30))
->create();
$this->assertCount(30, $user->customers);
}
The test should pass with flying colors. Hurrah! Notice that we didn't have to implement the
withCustomers()
method: Poser was able to intelligently decide what we were trying to do.
For HasOne
or HasMany
relationships, you can simply prepend with
to the relationship method in
the model (eg: the customers()
method in the User
model becomes withCustomers
in the tests),
and Poser will do the rest.
Let's add a little more complexity: each customer can own many books...
class Customer extends Model
{
public function books()
{
return $this->hasMany(Book::class);
}
public function user()
{
return $this->belongsTo(User::class);
}
}
So far, so good. Let's create another factory class, this time called BookFactory
,
that again extends Poser's abstract Factory
class. That's all there is to it! Modify your original
test to give our customers 5 books each...
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(
CustomerFactory::times(30)->withBooks(BookFactory::times(5))
)
->create();
$this->assertCount(30, $user->customers);
$this->assertCount(150, Book::all());
}
...and watch the tests pass. Pretty nice, huh?
Magic Bindings
If your model relationship method name (ie: the customers()
method on our User
model) is the same
or a plural version of our Factory
class (ie: CustomerFactory
), then we can take advantage of Magic Bindings
in Poser.
Let's take another look at our User
/Customer
example.
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(CustomerFactory::times(30))
->create();
$this->assertCount(30, $user->customers);
}
Poser is smart enough to be able to work out that withCustomers()
is a reference to the CustomerFactory
,
and allows us to rewrite our test like this:
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(30)
->create();
$this->assertCount(30, $user->customers);
}
The first argument passed to withCustomers()
is the number of customers we want to create, in this case: 30
.
Imagine, for a contrived example, that every customer should be called "Joe Bloggs". We can pass a second
argument to withCustomers()
that defines an associative array of column names and values, just like we
do with the create()
, make()
and withAttributes()
methods:
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(30, [
"name" => "Joe Bloggs"
])
->create();
$this->assertCount(30, $user->customers);
}
To take this a step further, imagine that we want 10 of our customers to be called "Joe Bloggs", 10 to be called
"Jane Bloggs" and 10 to be called "John Doe". Poser allows multiple attribute arrays to be passed to the withAttributes
,
make
and create
methods, along with any method using magic bindings, to facilitate this:
/** @test */
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(30, ["name" => "Joe Bloggs"], ["name" => "Jane Bloggs"], ["name" => "John Doe"])
->create();
$this->assertCount(10, $user->customers->filter(fn($customer) => $customer->name == "Joe Bloggs"));
$this->assertCount(10, $user->customers->filter(fn($customer) => $customer->name == "Jane Bloggs"));
$this->assertCount(10, $user->customers->filter(fn($customer) => $customer->name == "John Doe"));
}
For HasOne relationships, like our User
's Address, we can do very much the same:
/** @test */
public function user_has_address()
{
$user = UserFactory::new()
->withAddress()
->create();
$this->assertNotEmpty($user->address);
}
We can also pass an array of attributes, but in this case we pass it as the first argument:
/** @test */
public function user_has_address()
{
$user = UserFactory::new()
->withAddress([
"line_1" => "1 Test Street"
])
->create();
$this->assertNotEmpty($user->address);
}
Sometimes, with[RelationshipMethodName]
might not be the most readable choice.
Poser also supports the has[RelationshipMethodName]
syntax, like so:
/** @test */
public function user_has_address()
{
$user = UserFactory::new()
->hasAddress([
"line_1" => "1 Test Street"
])
->create();
$this->assertNotEmpty($user->address);
}
In most cases, we don't even need to call create
, Poser will call it for us when we try to access a method or property
on the model or collection we have built (in this case, the $user
property).
/** @test */
public function user_has_address()
{
$user = UserFactory::new()
->hasAddress([
"line_1" => "1 Test Street"
]);
$this->assertNotEmpty($user->address); // When we access the $address property, Poser automatically calls `create` for us.
}
Let's now put this all together, and demonstrate how simple it is to world build in Poser. Imagine we
want 10 Users, each with an Address and 20 customers. Each customer should have 5 books. That should
be 10 User
s, 10 Address
es, 200 Customer
s and 1000 Book
s. Check it out:
/** @test */
public function users_with_addresses_can_have_customers_with_books() {
UserFactory::times(10)
->hasAddress()
->withCustomers(CustomerFactory::times(20)->withBooks(5))();
$this->assertCount(1000, Book::all());
$this->assertCount(200, Customer::all());
$this->assertCount(10, User::all());
$this->assertCount(10, Address::all());
}
Let's break down this code. First, we ask the UserFactory to create 10 users, and pass it the
hasAddress()
function. Poser is able to find the AddressFactory
, so it automatically instantiates
it for us and gives each user an Address
.
Next, we call withCustomers()
. Because we want to specify additional parameters for each Customer
,
we instantiate CustomerFactory
directly, asking for 20
at a time. We then chain withBooks()
onto
the CustomerFactory
, simply passing the integer 5
. Poser looks for a BookFactory
, which it finds,
and automatically calls BookFactory::times(5)
under the hood.
Finally, we complete the statement by invoking the UserFactory with ()
. This is a shorthand syntax
for calling create()
on the UserFactory
. Because in these tests we are accessing the models indirectly
(we request the models from the database in the assertions rather than accessing a property or method on the users),
we must invoke the create
or ()
method.
For reference, the same test using Laravel's built in factories looks like this:
/** @test */
public function users_with_addresses_can_have_customers_with_books() {
$user = factory(User::class)->times(10)->create();
$user->each(function($user) {
$user->address()->save(factory(Address::class)->make());
$customers = factory(Customer::class)->times(20)->make();
$user->customers()->saveMany($customers);
$user->customers->each(function($customer) {
$customer->books()->saveMany(factory(Book::class)->times(5)->make());
});
});
$this->assertCount(1000, Book::all());
$this->assertCount(200, Customer::all());
$this->assertCount(10, User::all());
$this->assertCount(10, Address::all());
}
Belongs To Many Relationships
Poser supports Many-to-Many relationships using the exact same with[RelationshipMethodName]()
or has[RelationshipMethodName]()
syntax you're now used to.
Let's take the commonly used example of a User
that can have many Role
s, and a Role
that can have many User
s.
/** @test */
public function a_user_can_have_many_roles() {
$user = UserFactory::new()->withRoles(3)();
$this->assertCount(3, $user->roles);
}
/** @test */
public function a_role_can_have_many_users() {
$role = RoleFactory::new()->hasUsers(5)();
$this->assertCount(5, $role->users);
}
Poser also allows you to save data to your pivot table when handing Many-to-Many relationships using the withPivotAttributes()
method:
/** @test */
public function a_user_can_have_many_roles() {
$expiry = now();
$user = UserFactory::new()->withRoles(RoleFactory::new()->withPivotAttributes([
'expires_at' => $expiry
]))();
$this->assertDatabaseHas('role_user', [
'user_id' => $user->id,
'expires_at' => $expiry
]);
}
For instances where you would like to save different pivot data on each related model, withPivotAttributes()
accepts
multiple attribute sets:
/** @test */
public function a_user_can_have_many_roles() {
$user = UserFactory::new()->withRoles(RoleFactory::times(3)->withPivotAttributes(
['expires_at' => now()->addDay()],
['expires_at' => now()->addDays(2)],
['expires_at' => now()->addDays(3)]
))();
// ...assertions go here
}
It is important to note that you should not use the make()
, create()
or invoke()
methods on the relationship factory
when adding pivot attributes, as Poser will have no way to access them when saving the models.
$user = UserFactory::new()->withRoles(RoleFactory::new()->withPivotAttributes([
'expires_at' => $expiry
])->make())(); // Don't do this
$user = UserFactory::new()->withRoles(RoleFactory::new()->withPivotAttributes([
'expires_at' => $expiry
]))(); // Do this instead
Polymorphic Relationships
Poser supports all polymorphic relationship types using the same with[RelationshipMethodName]()
or has[RelationshipMethodName]()
syntax you're now very used to. Imagine that both our User
and Customer
models can have Comment
s. Your Poser tests might look something like
this:
/** @test */
public function a_user_can_have_many_comments() {
$user = UserFactory::new()->withComments(10)();
$this->assertCount(10, $user->comments);
}
/** @test */
public function a_customer_can_have_many_comments() {
$customer = CustomerFactory::new()->withComments(25)->forUser(UserFactory::new())();
$this->assertCount(25, $customer->comments);
}
Many to Many polymorphic relationships work in exactly the same way.
Belongs To Relationships
What if we want to create a BelongsTo
relationship? Poser makes this easy too. Instead of
prepending with
, we can prepend for
. Let's take another look at our examples. Say we wanted to
request that a customer is given a user. Simply do this:
/** @test */
public function customer_has_user()
{
$customer = CustomerFactory::new()
->forUser(
UserFactory::new()
)->create();
$this->assertNotEmpty($customer->user);
}
No need to call create
on the UserFactory
either; Poser will do that for you!
Static Instantiation
If you only want a single instance of a model, you don't necessarily have to use the ::new()
method. When called
statically, Poser will build a factory instance and handle your relationship methods for you. So instead of writing
UserFactory::new()->withCustomers(5)->create()
, we could instead write UserFactory::withCustomers(5)->create()
.
Note that static resolution only works with dynamic methods, not methods that you define in your factory or methods
built into the Poser class. So UserFactory::withoutEvents()->create()
would not work.
Factory States
If you have setup any States in your laravel factories, then you can also use them with Poser. So if in your Laravel customer factory class you have the following states setup
$factory->state(Customer::class, 'active', function (Faker $faker) {
return [
'active' => true,
];
});
$factory->state(Customer::class, 'inactive', function (Faker $faker) {
return [
'active' => false,
];
});
Then you can use the state
method to tell Poser to also use these factory states
/** @test */
public function customer_is_active()
{
$customer = CustomerFactory::new()
->state('active')
->create();
$this->assertTrue($customer->active);
}
You may alternatively use the as
method, which calls the state
method under the hood
/** @test */
public function customer_is_active()
{
$customer = CustomerFactory::new()
->as('active')
->create();
$this->assertTrue($customer->active);
}
Like Laravel's Factories, there is also a states
method to allow you to use multiple states
$customer = CustomerFactory::new()
->states('state1', 'state2', 'etc')
->create();
As Poser makes use of the built in Laravel factory methods, you can use the afterMaking()
, afterCreating()
, afterMakingState()
and afterCreatingState()
callbacks in your Laravel database factories as you always have done, and they will be called as you would expect.
After Creating
Similar to Laravel's model factories, Poser also offers an afterCreating()
method that will accept a closure to run after the record(s) have been created.
Example:
- User belongs to a company
- Company has a single Main user (stored on company record)
- setMainUser on Company is a function to just update the main_user_id column on Company
CompanyFactory::new()
->afterCreating(\App\Company $company) {
$company->setMainUser(UserFactory::new()->forCompany($company)->create());
})->create();
So after the Company has been created, it will create a new user for that company, and set it as the main user for the company.
This will also work when using times()
to create multiple companies, and it will create a new user for each created company
CompanyFactory::times(3)
->afterCreating(\App\Company $company) {
$company->setMainUser(UserFactory::new()->forCompany($company)->create());
})->create();
Logic like this is likely to be commonly used, and this is where Poser being classed based helps, as you can store this
logic behind a function on the CompanyFactory
class, as such:
class CompanyFactory extends Factory {
public function withMainUser()
{
return $this->afterCreating(function(Company $company) {
$company->setMainUser(UserFactory::new()->forCompany($company)->create());
});
}
}
Allowing you to then just call withMainUser()
CompanyFactory::times(3)
->withMainUser()
->create();
The afterCreating()
method also works on nested relationships:
/** @test */
$user = UserFactory::new()->withCustomers(CustomerFactory::times(10)->afterCreating(function($customer, $user) {
// Perform an action to the newly created (and linked) customer model
}))->create();
Note that nested relationships are also given the parent model, in this case the User
that was created, as the
second argument of the closure.
Factory API
::new()
Creates a new instance of the factory. If you only want to create one model, use this to instantiate the class.
If you're going to call a dynamic relationship method directly after this call, you can remove this call entirely and
instead call the relationship method statically, like so: UserFactory::withCustomers(5)->create()
.
::times($count)
Creates a new instance of the factory, but informs the factory that you will be creating multiple models. Use this to instantiate the class when you wish to create multiple entries in the database.
::craft(int $count, ...$attributes)
Allows you to create multiple models, persist them to the database, and return the resulting collection, all in one method call. A very useful shortcut when you don't need complex relationship mapping. You may pass in the count of models you wish to create, along with attributes that should be given to those models.
::craft(...$attributes, int $count)
Alternate syntax for craft
as described above, which more closely matches factory
method baked into Laravel.
::craft(array $attributes = null)
If you only need to craft one model, you can omit the count. It will return a single model instead of a collection.
->create(...$attributes)
or (...$attributes)
Similar to the Laravel factory create
command, this will create the models, persisting them to the database.
You may pass an associative array of column names with desired values, which will be applied to the
created models. You can optionally call create by invoking the Factory. This allows for a shorter syntax.
If you're interacting with the models directly in your tests, rather than re-fetching them from the database,
you can omit the create
call completely. Poser will automatically call the create
method for you when you
try to access a property or call a method on the model(s)/collection.
If you would like to apply different attributes to each model that will be created, you may pass as many attribute arrays as separate parameters as desired.
->make(...$attributes)
Similar to the Laravel factory make
command, this will make the models without persisting them to the
database. You may pass an associative array of column names with desired values, which will be applied to the
created models.
If you would like to apply different attributes to each model that will be created, you may pass as many attribute arrays as separate parameters as desired.
->withAttributes(...$attributes)
You may pass an associative array of column names with desired values, which will be applied to the created models.
If you would like to apply different attributes to each model that will be created, you may pass as many attribute arrays as separate parameters as desired.
->state(string $state)
or ->as(string $state)
You may pass a factory state that you have defined in your laravel model factory, which will be applied to the created models.
->states(...$states)
Similar to ->state(string $state)
, but allows you to pass in multiple states that will all be applied
to the created models.
->withPivotAttributes(...$attributes)
When working with Many-to-Many relationships, you may want to store data on the pivot table. You may use this method to do so, passing in an associative array of column names with desired values. This should be called on the related factory, not the root-level factory.
If you would like to apply different pivot attributes to each model that will be created, you may pass as many attribute arrays as separate parameters as desired.
->afterCreating(Closure $closure)
Allows you to provide a hook that will be called when the given factory has created its model(s). This allows you to perform additional setup to created models. It can be placed on relationships as well as the parent model.
The closure will be provided with the created model as the first parameter. If afterCreating()
is called
on a relationship, it will also be given the parent model as the second parameter.
->withoutDefaults(...$defaultsToIgnore)
If you would like to ignore certain Poser defaults for a given test, you may chain this method onto your Poser Factory call. If you would like to ignore all defaults, simply call this method with no parameters.
$usersWithoutDefaultCustomers = UserFactory::new()->withoutDefaults('customers')->create();
->withoutEvents()
At times, it is useful to disable events when a model is being created to avoid unwanted side-effects in your tests. You may append this method to a Poser Factory call to ensure that no events will be fired during model creation.
php artisan make:poser
API
If no arguments are passed to the command, Poser will attempt to create matching factories for every model in your
application. It does this by looking at your poser.models_namespace
config entry, and scanning for models in that given
namespace. You may call make:poser
multiple times without fear of it overriding your existing factories; if it finds
that a given factory already exists, it will simply skip over it.
Individual Factories
You may optionally pass a name to the command, which corresponds to the name of the factory you want to create. For
instance, php artisan make:poser UserFactory
would create a factory called UserFactory
in the namespace defined
in your poser.factories_namespace
config file.
-m
or --model
Flag
The If your model name is different to the name you wish to give your factory, you may pass a -m
or --model
flag, along
with the name of the model that the factory will correspond to. So php artisan make:poser ClientFactory -m Customer
would create a factory called ClientFactory
, but point it to the Customer
model.
-f
or --factory
Flag
The You may pass -f
or --factory
to the command to optionally generate a corresponding Laravel database factory.
The database factory will take the form [modelName]Factory
.
Things to note
Models location
By default, Poser looks for your models in the App
directory, which should be fine for most projects.
If you have your models in a different directory, you can let Poser know about it by editing the models_namespace
entry in the poser.php
config file.
If you need to override the model location for a single instance, you can override the $modelName
static variable
in your Factory class, passing it the fully qualified class name of the corresponding model.
Factories location
By default, Poser will search the Tests/Factories
directory for your Factory classes.
If you have your Factories in a different directory (eg: Tests/Models/Factories
),
you can let Poser know about it by editing the factories_namespace
entry in the poser.php
config
file.
Nested Models
What if you have a model located in a subfolder? For example: app/Models/Customers/Customer.php
. You can generate the factory for this by copying the namespace of the model: php artisan make:poser Models\\Customers\\CustomerFactory
. Note that the namespace should be relative to your models_namespace
entry in the poser.php
config file.
->create()
and ->make()
commands
The You should call the create
command at the end of the outermost Factory statement to cause it to persist to the
database. You do not need to call create()
or make()
on nested Factory statements, as Poser will do this for you.
The only exception to this is BelongsTo relationships, in which case you must call create()
on nested Factory
statements.
If you like terse syntax, you can replace ->create()
with ()
, as the Factory __invoke
function simply
calls create()
under the hood:
public function user_has_customers()
{
$user = UserFactory::new()
->withCustomers(
CustomerFactory::times(30)->withBooks(BookFactory::times(5))
)();
$this->assertCount(30, $user->customers);
$this->assertCount(150, Book::all());
}
Multiple attributes
Often, it is useful to be able to provide multiple attributes when dealing with multiple models. Poser is smart about this and allows you to do some very powerful world-building with 0 effort. Imagine we want to create 3 users all with different names. No problem:
$users = UserFactory::times(3)->create(["name" => "Joe"], ["name" => "Jane"], ["name" => "Jimmy"]);
You can do this with the create
, make
, withAttributes
and magic bindings such as withCustomers
. The latter
would look like this:
UserFactory::new()->withCustomers(3, ['name' => "Joe"], ["name" => "Jane"], ["name" => "Jimmy"])();
If you provide fewer attribute sets than models, Poser will loop through the attribute sets for you. So in the following example...
$users = UserFactory::times(10)->create(["name" => "Joe"], ["name" => "Jane"]);
...Poser will create 5 users called Joe and 5 users called Jane.
Default Relationships
After using Poser for a while, you may wish to provide default relationships that should be applied every time we create
a model. For example, in our examples, a Customer
requires a related User
model. To facilitate this, Poser understands
a default[RelationshipType][RelationshipMethodName]
syntax inside Poser Factories. To illustrate:
class CustomerFactory extends Factory
{
public function defaultForUser()
{
return UserFactory::new()->withAttributes(["name" => "Joe Bloggs"]);
}
}
Now, every time we call...
CustomerFactory::new()->create();
...a User
called Joe Bloggs
will be automatically assigned
to the customer. However, if we call...
CustomerFactory::new()->forUser(UserFactory::new()->withAttributes(["name" => "John Doe"]))->create();
...the default will be ignored and instead a User
called "John Doe" will be assigned to the Customer
.
For with/has relationship types, the case is much the same:
class UserFactory extends Factory
{
public function defaultWithAddress()
{
return AddressFactory::new();
}
public function defaultHasCustomers()
{
return CustomerFactory::times(10);
}
}
In this case, when we call UserFactory::new()->create()
, it will be given an Address
and 10 Customer
s.
If we would like to ignore your defaults for a given test, simply chain the withoutDefaults
method to your Factory.
call.
UserFactory::new()->withoutDefaults()->create();
This will create a User
with no Address
or Customer
s. If you would only like to ignore certain defaults, you may
pass them as properties to the withoutDefaults
method.
UserFactory::new()->withoutDefaults('customers')->create();
Now, our created User
will have no Customer
s but will have a default Address
.
Inline Tests
Often, you'll find yourself writing short tests that check certain properties on a model can be successfully persisted to the database, or that the expected number of models are related to a parent model.
Poser provides you with a super simple syntax for checking all of this. All it requires is that you use PhpUnit for testing (which is the default testing library in Laravel).
Simply call a PhpUnit assertion as a chained method of the Factory anywhere before the create
function, and watch the magic happen.
Let's imagine that we want to check that a User has 5 customers attached. Using inline tests, we could write this test like so:
/** @test */
public function a_user_can_have_customers()
{
UserFactory::withCustomers(5)->assertCount(5, 'customers')();
}
With just one line, we are able to assert that the count of the customers
property on the
created User
model is 5. Here is another example:
/** @test */
public function a_user_can_have_customers()
{
UserFactory::assertEquals('John Doe', 'name')(['name' => 'John Doe']);
}
Of course, sometimes you'll need more power. To facilitate this, Poser allows you to pass a closure as the second argument of all assertion methods:
/** @test */
public function a_user_can_have_customers()
{
UserFactory::assertEquals('John', fn($user) => $user->locateFirstName())(['name' => 'John Doe']);
}
If you're working with multiple models, your method will be passed the Collection, like so:
/** @test */
public function a_user_can_have_customers()
{
UserFactory::times(5)->assertCount(5, fn($users) => $users)();
}
If you wish to perform an assertion on each model in the Collection, you may type hint the closure parameter with relevant model type. Poser will iterate over the models for you and run the assertion:
/** @test */
public function a_user_can_have_customers()
{
UserFactory::times(5)->withCustomers(10)->assertCount(10, fn(User $user) => $user->customers)();
}
Whilst we do not recommend using inline tests for complex use cases, it works perfectly for simple tests, or tests where the main assertion is on the model itself.
Troubleshooting
ArgumentsNotSatisfiableException
When using magic binding, I get an This error is thrown when Poser cannot find a factory that satifies the requested relationship method call. So, imagine you called UserFactory::new()->withCustomers(10)();
, but there was no CustomerFactory
, Poser would throw this error. The solution is to create the Factory. In this case, we could call php artisan make:poser CustomerFactory
from the terminal to automatically create the factory for us.
The other time this error can crop up is if your Parent Model's relationship method name is different to the Child Model name.
To illustrate, imaging that we have a UserFactory
for User
model that has a clients()
method. That method returns a has-many relationship for the Customer
model, and you have a Poser CustomerFactory
.
When we call UserFactory::new()->withClients()()
, Poser understands that you're using the clients()
method on the User
model, but it can't find a corresponding ClientFactory
(because, it is in fact called CustomerFactory
). The solution to this is to resort to standard bindings. So our updated call would be:
UserFactory::new()->withClients(CustomerFactory::times(10))();
Poser is creating more models than expected when handling relationships
This happens when you declare default closures in your Laravel Factories. Poser has no way to detect that these exist, so they are still created when Poser makes the models. Poser provides a suitable workaround to this in Poser defaults. If this issue affects you, we recommend stripping out the closures in your Laravel Factories and replacing them with defaults in the relevant Poser Factory. Let's look at an example.
$factory->define(Customer::class, function (Faker $faker) {
return [
'name' => $faker->name,
'user_id' => function() {
return factory(User::class)->create()->id;
}
];
});
This Customer
Laravel Factory has a closure for user_id
, which causes n+1 User
models to
be created when calling UserFactory::new()->withCustomers(n)->create()
. To resolve this issue,
alter the above factory like so:
$factory->define(Customer::class, function (Faker $faker) {
return [
'name' => $faker->name
];
});
Now, we can alter the Customer Poser factory, like so:
class CustomerFactory extends Factory {
public function defaultForUser()
{
return UserFactory::new();
}
}
Now, when calling UserFactory::new()->withCustomers(n)->create()
, the default will be ignored, as we have already
set it. However, when calling CustomerFactory::new()->create()
, the default will be called and we will set a default
User
up for the Customer
.
Changelog
Take a look at the CHANGELOG.md
file for details on changes from update to update.
Before and After Examples
Its easier to show somebody that power of poser than it is to explain it, so here are some before and after code snippets. Plain Laravel vs. Poser. Also, note that all of the following examples have 0 code in the generated factories, so there is no extra work taking place "behind the scenes".
Let's start with one of the main reasons to use Poser: tests with complex relationships. In this example, a User
can have friends. Those friends are other User
s, and they are connected via a lookup table. The User
and his friends can earn Achievement
s in the application. On the User
model, we have created a custom friendsWithAllAchievements
relationship that filters based on the fact that a User
has every achievemnent available. We want to test this relationship returns the expected amount of friends when called.
// Without Poser
/** @test */
function a_user_can_find_friends_with_all_achievements()
{
$user = factory(User::class)->create();
$achievements = factory(Achievement::class)->times(10)->create();
$friendsWithAchievements = factory(User::class)->times(15)->create();
$friendsWithAchievements->each(
function ($friend) {
$friend->achievements()->saveMany($achievements);
}
);
$user->friends()->saveMany($friendsWithAchievements);
$friendsWithoutAchievements = factory(User::class)->times(20)->create();
$user->friends()->saveMany($friendsWithoutAchievements);
$this->assertCount(15, $user->friendsWithAllAchievements);
}
// With Poser
/** @test */
function a_user_can_find_friends_with_all_achievements()
{
$achievements = AchievementFactory::times(10)();
UserFactory::withFriends(UserFactory::times(15)->withAchievements($achievements))
->withFriends(UserFactory::times(20))
->assertCount(15, 'friendsWithAllAchievements')();
}
As you can see, our test written with Poser is much simpler, more readable and manageable. Poser really shines when it comes to tests with a lot of preamble. It can make everybody's life a lot easier, and requires no additional effort!
However, even in 'simple' tests, Poser can make your life very simple. For example, you will often want to create a test to make sure a relationship works as expected, especially in TDD workflows. For the next test, our User
may have many Customer
s, but he could also have no Customer
s. We want to test both possibilities.
// Without Poser
/** @test */
function a_user_may_have_customers()
{
$userWithCustomers = factory(User::class)->create();
$userWithCustomers->customers()->saveMany(factory(Customer::class)->times(30)->make());
$userWithoutCustomers = factory(User::class)->create();
$this->assertCount(30, $userWithCustomers->customers);
$this->assertTrue($userWithoutCustomers->customers->isEmpty());
}
// With Poser
/** @test */
function a_user_may_have_customers()
{
UserFactory::withCustomers(30)->assertCount(30, 'customers')();
UserFactory::assertTrue(fn($user) => $user->customers->isEmpty())();
}
Even in this very simple test, we were able to reduce our lines of code by more than half, whilst improving readability. Every function used in our Poser example oozes meaning and understanding. In the first test, your eyes tend to glaze over the code. You have to force yourself to read and understand it. In our second test, our eyes are instead drawn to the code. We gain insight into its purpose in seconds, as it almost reads like two sentences.
Credits
Follow me on Twitter @LukeDowning19 for updates!
Also, please star the repo. It really helps!
Security
If you discover any security-related issues, please email [email protected] instead of using the issue tracker.
Testing
composer install
composer test
License
The MIT License (MIT). Please see License File for more information.
✨
Contributors Thanks goes to these wonderful people (emoji key):
Alan Holmes |
AndrewP 📖 ⚠️ |
veganista |
Brad Roberts |
Rhys Botfield 💻 |
MB |
Solomon Antoine |
Patompong Savaengsuk |
mishbah 🤔 |
Dainius |
This project follows the all-contributors specification. Contributions of any kind welcome!