There are three ways to add custom validation rules in Laravel: using closures, Rule classes, and form requests. 1. Use closures to be suitable for lightweight verification, such as preventing the user name "admin"; 2. Create Rule classes (such as ValidUsernameRule) to make complex logic clearer and maintainable; 3. Integrate multiple rules in form requests and centrally manage verification logic. At the same time, you can set prompts through custom messages methods or incoming error message arrays to improve flexibility and maintainability.

The core methods for Laravel applications to implement multilingual support include: setting language files, dynamic language switching, translation URL routing, and managing translation keys in Blade templates. First, organize the strings of each language in the corresponding folders (such as en, es, fr) in the /resources/lang directory, and define the translation content by returning the associative array; 2. Translate the key value through the \_\_() helper function call, and use App::setLocale() to combine session or routing parameters to realize language switching; 3. For translation URLs, paths can be defined for different languages ??through prefixed routing groups, or route alias in language files dynamically mapped; 4. Keep the translation keys concise and

ToworkeffectivelywithpivottablesinLaravel,firstaccesspivotdatausingwithPivot()orwithTimestamps(),thenupdateentrieswithupdateExistingPivot(),managerelationshipsviadetach()andsync(),andusecustompivotmodelswhenneeded.1.UsewithPivot()toincludespecificcol

Laravelprovidesacleanandflexiblewaytosendnotificationsviamultiplechannelslikeemail,SMS,in-appalerts,andpushnotifications.Youdefinenotificationchannelsinthevia()methodofanotificationclass,andimplementspecificmethodsliketoMail(),toDatabase(),ortoVonage

ServiceProvider is the core mechanism used in the Laravel framework for registering services and initializing logic. You can create a custom ServiceProvider through the Artisan command; 1. The register method is used to bind services, register singletons, set aliases, etc., and other services that have not yet been loaded cannot be called; 2. The boot method runs after all services are registered and is used to register event listeners, view synthesizers, middleware and other logic that depends on other services; common uses include binding interfaces and implementations, registering Facades, loading configurations, registering command-line instructions and view components; it is recommended to centralize relevant bindings to a ServiceProvider to manage, and pay attention to registration

Dependency injection automatically handles class dependencies through service containers in Laravel without manual new objects. Its core is constructor injection and method injection, such as automatically passing in the Request instance in the controller. Laravel parses dependencies through type prompts and recursively creates the required objects. The binding interface and implementation can be used by the service provider to use the bind method, or singleton to bind a singleton. When using it, you need to ensure type prompts, avoid constructor complications, use context bindings with caution, and understand automatic parsing rules. Mastering these can improve code flexibility and maintenance.

The core methods for handling exceptions and recording errors in Laravel applications include: 1. Use the App\Exceptions\Handler class to centrally manage unhandled exceptions, and record or notify exception information through the report() method, such as sending Slack notifications; 2. Use Monolog to configure the log system, set the log level and output method in config/logging.php, and enable error and above level logs in production environment. At the same time, detailed exception information can be manually recorded in report() in combination with the context; 3. Customize the render() method to return a unified JSON format error response, improving the collaboration efficiency of the front and back end of the API. These steps are

Laravel performance optimization can improve application efficiency through four core directions. 1. Use the cache mechanism to reduce duplicate queries, store infrequently changing data through Cache::remember() and other methods to reduce database access frequency; 2. Optimize database from the model to query statements, avoid N 1 queries, specifying field queries, adding indexes, paging processing and reading and writing separation, and reduce bottlenecks; 3. Use time-consuming operations such as email sending and file exporting to queue asynchronous processing, use Supervisor to manage workers and set up retry mechanisms; 4. Use middleware and service providers reasonably to avoid complex logic and unnecessary initialization code, and delay loading of services to improve startup efficiency.