Running PHPStan on max with Laravel

Over the last few years static analysis in PHP, and more specifically Laravel, has become more and more popular. With more people adopting it into their Software Delivery Lifecycle, I thought it would be a good time to write a tutorial on how you can add this to your Laravel project.

Back in 2019 Nuno Maduro released a package called Larastan which was a set of PHPStan rules that work well for Laravel applications, and I was extremely excited. Up until this point I had struggled getting a good static analysis coverage in Laravel using PHPStan or Psalm. Larastans rules allowed me to start applying more static analysis to my code base, and in turn having a lot more confidence in my code. Fast forward to today with PHP 8.1 and Laravel 9 – I have never felt more confident in the code I write thanks to the amount of amazing tools that are available to me.

In this tutorial I will walk through adding Larastan to a new Laravel project, set the level up to max, and see what we need to resolve. Then we will start to add some logic to our application, and see what is needed to allow us to keep confidence in our code as we go.

Like all things, you need somewhere to start – so create a new Laravel project called larastan-test in whichever way you would usually do it, I use the laravel installer personally but I know not everyone does:

1laravel new larastan-test

Open this project in your code editor of choice, and we can get started. The first thing we will do is install Larastan, by running the following composer command:

1composer require nunomaduro/larastan --dev

Once we have this dependency installed as a dev dependency, we can set up the configuration. The reason we want this as a dev dependency is because in production we should never be running any static analysis – it is for development purposes only to ensure your code is as type safe as possible. PHPStan uses a configuration format called neon, which is similar to yaml in a way. So we will create a new file in the root directory of out application called ./phpstan.neon – if you are building a package, the recommended approach is to add .dist to the end of these configuration files, but for local app development this is fine. Inside this file we will start to define the configuration we need for phpstan to run and what rules we might want to impose, add the following code to the config file and we can walk through what it means:


2 - ./vendor/nunomaduro/larastan/extension.neon


4 paths:

5 - app

6 level: 9

7 ignoreErrors:

8 excludePaths:

We start with includes these are typically rules from packages that we want to include in our base phpstan ruleset. Then we move onto parameters, the first option paths allows us to define where we want phpstan to check – in our case we are only interested in our app directory where our Application code lives. You can extend this to cover over areas if you like, but be careful what you include as things are about to get strict! Next our level PHPStan has various levels it can check at, 0 being the lowest and 9 currently being the highest. As you can see we have set our level to 9, I would suggest this on an existing application as ideally you would want to work up to this level – but as this is a brand new project we can be pretty comfortable at 9. Next we have ignoreErrors and excludePaths these 2 are options that allow us to basically tell PHPStan to ignore files or specific errors that either we aren’t interested in, or we cannot control or fix right now. Perhaps you are in the middle of refactoring a few things and you are getting errors, you might be refactoring this code in a way that static analysis will be fine later on and you want to ignore the errors until you are done.

So let’s run phpstan against a default Laravel application and see what errors we are getting, if any. Run the following command in your terminal:

1./vendor/bin/phpstan analyse

The output we are getting from a default Laravel application is shown below:

1Note: Using configuration file /Users/steve/code/sites/larastan-test/phpstan.neon.

2 18/18 [▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓] 100%


4 ------ ----------------------------------------------------------------------------------------------------------------------------

5 Line Providers/RouteServiceProvider.php

6 ------ ----------------------------------------------------------------------------------------------------------------------------

7 49 Parameter #1 $key of method Illuminate\Cache\RateLimiting\Limit::by() expects string, int<min, -1>|int<1, max>|string|null

8 given.

9 ------ ----------------------------------------------------------------------------------------------------------------------------


11 [ERROR] Found 1 error

As you can see we only get one error with the default Laravel application, even when our strictness is set as high as it can go. That is pretty good going right? Of course you might see different results if you are adding this to an existing project, but following this tutorial you will learn how to approach these issues so you have a nice workflow to follow.

You can add a script to your composer file to run this if you would prefer to have a handy way of running it, so let us add that now so that we can run this command a little easier, add the following code block to your composer.json file:

1"scripts": {

2 "phpstan": [

3 "./vendor/bin/phpstan analyse"

4 ]


6"scripts-descriptions": {

7 "phpstan": "Run PHPStan static analysis against your application."


You should already have some records under scripts in your composer file – just append the phpstan script to the end of the block. Now we can run PHPStan again, but this time using composer, which is a little easier to type:

1composer phpstan

So we have 1 error, let’s have a look at that specific line, and see what it currently looks like:

1protected function configureRateLimiting()


3 RateLimiter::for('api', function (Request $request) {

4 return Limit::perMinute(60)->by($request->user()?->id ?: $request->ip());

5 });


The specific part that our static analysis is complaining about is this section:

1$request->user()?->id ?: $request->ip()

So we want to get the request user, if there is one and return the ID, or we want to return the IP address if the first part is null. So there is no real way to ensure that this is ever going to be a string, the user could be null and the request IP could also be null. This is a situation where you want to quiet the error, because there is no way you can enforce this as it is vendor code. The best thing you can do in this specific situation is tell PHPStan to ignore the error, but not globally. What we want to do here is add a command block instead of setting a rule, to tell PHPStan while it is analysing this code, to ignore this specific line. Refactor this method to look like the following:

1protected function configureRateLimiting(): void


3 RateLimiter::for('api', static function (Request $request): Limit {

4 /** @phpstan-ignore-next-line */

5 return Limit::perMinute(60)->by($request->user()?->id ?: $request->ip());

6 });


We have added a return type to the method, made the callback a static closure – and type hinted the return. But then we add the command block above the return telling PHPStan that we want to ignore the next line. If we now run PHPStan in the command line again you will see the following output:

1Note: Using configuration file /Users/steve/code/sites/larastan-test/phpstan.neon.

2 18/18 [▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓] 100%


4 [OK] No errors

So we have the default Laravel application running on PHPStan at max, now we need to start adding some actual logic to our application so that we can ensure type safety as we add features and logic. For this we are going to create a simple application that stores bookmarks, nothing fancy.

Let’s get started by adding a Model using artisan, and using the CLI flags to create the migration and factory at the same time:

1php artisan make:model Bookmark -mf

We want to make our migration up method look like the following:

1Schema::create('bookmarks', static function (Blueprint $table): void {

2 $table->id();


4 $table->string('name');

5 $table->string('url');


7 $table->boolean('starred')->default(false);


9 $table->foreignId('user_id')->index()->constrained()->cascadeOnDelete();


11 $table->timestamps();


Now we can add this to our model:

1class Bookmark extends Model


3 use HasFactory;


5 protected $fillable = [

6 'name',

7 'url',

8 'starred',

9 'user_id',

10 ];


12 protected $casts = [

13 'starred' => 'boolean',

14 ];


16 /**

17 * @return BelongsTo

18 */

19 public function user(): BelongsTo

20 {

21 return $this->belongsTo(

22 related: User::class,

23 foreignKey: 'user_id',

24 );

25 }


As you can see from the above, the only thing we care about here is a name, url, if the user wants to star/favourite a bookmark and that the bookmark belongs to a user. Now we can leave that here, but personally I like to add type definitions to my model properties – as currently in Laravel 9 I cannot type hint them. So refactor your model to look like the following:

1class Bookmark extends Model


3 use HasFactory;


5 /**

6 * @var array<int,string>

7 */

8 protected $fillable = [

9 'name',

10 'url',

11 'starred',

12 'user_id',

13 ];


15 /**

16 * @var array<string,string>

17 */

18 protected $casts = [

19 'starred' => 'boolean',

20 ];


22 /**

23 * @return BelongsTo

24 */

25 public function user(): BelongsTo

26 {

27 return $this->belongsTo(

28 related: User::class,

29 foreignKey: 'user_id',

30 );

31 }


All we are doing here is telling PHP and our IDE that the fillable array is an array of strings with no keys – which means it will default to integers. Then our casts array is a keyed array of strings, where the keys are also strings. Now this will not fail static analysis when you run it even without the type definitions – but it is a good practice to get into so that your IDE has as much information as possible while you are working.

Let’s move onto our routes and controllers so that we can keep running static analysis checks as we go. Now I am a big fan of invokable controllers – I find they work well for my code style, however you may not like them or have a different preference, so the next part feel free to stray away from following me line by line if you are more comfortable.

We will create a controller now, so run the following artisan command to create the index controller for bookmarks:

1php artisan make:controller Bookmarks/IndexController --invokable

That is our index controller that we will need for our routing, so we can go and add a new route block to routes/web.php so we can start using it:

1Route::middleware(['auth'])->prefix('bookmarks')->as('bookmarks:')->group(static function (): void {

2 Route::get('/', App\Http\Controllers\Bookmarks\IndexController::class)->name('index');


We want this block to be wrapped in our auth middleware so that we control access to bookmarks by the author, we also want to prefix all of the routes under bookmarks and set the naming strategy for this group to bookmarks:*. If we now run our static analysis on our code base we will see some errors, but this is mostly because we have no content inside our controller:

1composer phpstan

1Note: Using configuration file /Users/steve/code/sites/larastan-test/phpstan.neon.

2 20/20 [▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓] 100%


4 ------ -------------------------------------------------------------------------------------------------

5 Line Http/Controllers/Bookmarks/IndexController.php

6 ------ -------------------------------------------------------------------------------------------------

7 15 Method App\Http\Controllers\Bookmarks\IndexController::__invoke() has no return type specified.

8 ------ -------------------------------------------------------------------------------------------------


10 ------ -----------------------------------------------------------------------------------------------------------------------------

11 Line Models/Bookmark.php

12 ------ -----------------------------------------------------------------------------------------------------------------------------

13 33 Method App\Models\Bookmark::user() return type with generic class Illuminate\Database\Eloquent\Relations\BelongsTo does not

14 specify its types: TRelatedModel, TChildModel

15 💡 You can turn this off by setting checkGenericClassInNonGenericObjectType: false in your

16 phpstan.neon.

17 ------ -----------------------------------------------------------------------------------------------------------------------------


19 ------ ----------------------------------------------------------------------------------------------------------------------------

20 Line Models/User.php

21 ------ ----------------------------------------------------------------------------------------------------------------------------

22 49 Method App\Models\User::bookmarks() return type with generic class Illuminate\Database\Eloquent\Relations\HasMany does not

23 specify its types: TRelatedModel

24 💡 You can turn this off by setting checkGenericClassInNonGenericObjectType: false in your

25 phpstan.neon.

26 ------ ----------------------------------------------------------------------------------------------------------------------------


28 [ERROR] Found 3 errors

The first thing standing out to me is the Method App\Models\User::bookmarks() return type with generic class error, now I don’t want to have a huge reliance on generics for this application. The error actually tells us what we can do, so let’s add checkGenericClassInNonGenericObjectType: false to our phpstan.neon file:


2 - ./vendor/nunomaduro/larastan/extension.neon


4 paths:

5 - app

6 level: 9

7 ignoreErrors:

8 excludePaths:

9 checkGenericClassInNonGenericObjectType: false

Now if we run the analysis again, there will be only 5 errors and these are all to do with our controllers – let us start with our IndexController and see what we can do. Refactor your index controller to look like the following:

1class IndexController extends Controller


3 public function __invoke(Request $request)

4 {

5 return View::make(

6 view: 'bookmarks.list',

7 data: [

8 'bookmarks' => Bookmark::query()

9 ->where('user_id', $request->user()->id)

10 ->paginate(),

11 ]

12 );

13 }


If we run static analysis against our code now, and pay attention only to the controller we are working on, we will see the following issues:

1------ -------------------------------------------------------------------------------------------------

2 Line Http/Controllers/Bookmarks/IndexController.php

3 ------ -------------------------------------------------------------------------------------------------

4 15 Method App\Http\Controllers\Bookmarks\IndexController::__invoke() has no return type specified.

5 21 Cannot access property $id on App\Models\User|null.

6 ------ -------------------------------------------------------------------------------------------------

So what can we do about these 2 errors? The first one is relatively simple to fix, we can add a return type:

1public function __invoke(Request $request): \Illuminate\Contracts\View\View

We can alias this contract to make it a little nicer on the eyes:

1public function __invoke(Request $request): ViewContract

The next one however, Cannot access property $id on App\Models\User|null. this is similar to what we had in our default Laravel application where the ID from a request user could be null. So the way I like to fix this is to use the Auth helper function to get the ID directly from our Auth guard. Refactor to query to look like the following:


2 ->where('user_id', auth()->id())

3 ->paginate()

Using the Auth ID method, we are getting an ID directly from the authentication guard instead of the request, where it has the potential to be null. The one thing to bear in mind while doing this is that if the route is not wrapped in authentication middleware then the id method will complain that you are trying to get the property ID of null. So make sure you have set the middleware for this route.

Now if we run static analysis again, we should have gotten rid of those errors:

1composer phpstan

1Note: Using configuration file /Users/steve/code/sites/larastan-test/phpstan.neon.

2 20/20 [▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓] 100%



5 [OK] No errors

Now that we have no errors coming from our IndexController anymore. What we do next is iterate through our application, making sure that we run our static analysis checks at important points. The last thing that we want to do is wait until the end of a sprint, or the end of adding a new feature to run it to find we have to spend countless hours fixing static analysis issues. However, at the end of it all – you will have code that you trust, and that is one of my favourite benefits of using static analysis in general. If you can pair static analysis with a good test suite, then there is no reason you should ever not have confidence in your code.

Are you using Larastan in your project? Have you been brave enough to turn the strictness to max? Let us know on twitter, or let us know your horror stories!

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