--- title: Extractors menu: docs_basics weight: 170 --- # Type-safe information extraction Actix-web provides a facility for type-safe request information access called *extractors* (ie, `impl FromRequest`). By default, actix-web provides several extractor implementations. An extractor can be accessed as an arguments to a handler function. Actix-web supports up to 10 extractors per handler function. Argument position does not matter. {{< include-example example="extractors" file="main.rs" section="option-one" >}} # Path [*Path*][pathstruct] provides information that can be extracted from the Request's path. You can deserialize any variable segment from the path. For instance, for resource that registered for the `/users/{userid}/{friend}` path two segments could be deserialized, `userid` and `friend`. These segments could be extracted into a `tuple`, i.e. `Path<(u32, String)>` or any structure that implements the `Deserialize` trait from the *serde* crate. {{< include-example example="extractors" file="path_one.rs" section="path-one" >}} It is also possible to extract path information to a specific type that implements the `Deserialize` trait from *serde*. Here is an equivalent example that uses *serde* instead of a *tuple* type. {{< include-example example="extractors" file="path_two.rs" section="path-two" >}} It is also possible to `get` or `query` the request for path parameters by name: {{< include-example example="extractors" file="path_three.rs" section="path-three" >}} # Query The [*Query*][querystruct] type provides extraction functionality for the request's query parameters. Underneath it uses *serde_urlencoded* crate. {{< include-example example="extractors" file="query.rs" section="query" >}} # Json [*Json*][jsonstruct] allows to deserialize a request body into a struct. To extract typed information from a request's body, the type `T` must implement the `Deserialize` trait from *serde*. {{< include-example example="extractors" file="json_one.rs" section="json-one" >}} Some extractors provide a way to configure the extraction process. Json extractor [*JsonConfig*][jsonconfig] type for configuration. To configure an extractor, pass it's configuration object to the resource's `.data()` method. In case of a *Json* extractor it returns a *JsonConfig*. You can configure the maximum size of the json payload as well as a custom error handler function. The following example limits the size of the payload to 4kb and uses a custom error handler. {{< include-example example="extractors" file="json_two.rs" section="json-two" >}} # Form At the moment only url-encoded forms are supported. The url-encoded body could be extracted to a specific type. This type must implement the `Deserialize` trait from the *serde* crate. [*FormConfig*][formconfig] allows configuring the extraction process. {{< include-example example="extractors" file="form.rs" section="form" >}} # Other Actix-web also provides several other extractors: * [*Data*][datastruct] - If you need access to an application state. * *HttpRequest* - *HttpRequest* itself is an extractor which returns self, in case you need access to the request. * *String* - You can convert a request's payload to a *String*. [*Example*][stringexample] is available in doc strings. * *bytes::Bytes* - You can convert a request's payload into *Bytes*. [*Example*][bytesexample] is available in doc strings. * *Payload* - You can access a request's payload. [*Example*][payloadexample] # Application state extractor Application state is accessible from the handler with the `web::Data` extractor; however, state is accessible as a read-only reference. If you need mutable access to state, it must be implemented. > **Beware**, actix creates multiple copies of the application state and the handlers, > unique for each thread. If you run your application in several threads, actix will > create the same amount as number of threads of application state objects and handler > objects. Here is an example of a handler that stores the number of processed requests: {{< include-example example="request-handlers" file="main.rs" section="data" >}} Although this handler will work, `self.0` will be different depending on the number of threads and number of requests processed per thread. A proper implementation would use `Arc` and `AtomicUsize`. {{< include-example example="request-handlers" file="handlers_arc.rs" section="arc" >}} > Be careful with synchronization primitives like `Mutex` or `RwLock`. The `actix-web` framework > handles requests asynchronously. By blocking thread execution, all concurrent > request handling processes would block. If you need to share or update some state > from multiple threads, consider using the tokio synchronization primitives. [pathstruct]: https://docs.rs/actix-web/2/actix_web/dev/struct.Path.html [querystruct]: https://docs.rs/actix-web/2/actix_web/web/struct.Query.html [jsonstruct]: https://docs.rs/actix-web/2/actix_web/web/struct.Json.html [jsonconfig]: https://docs.rs/actix-web/2/actix_web/web/struct.JsonConfig.html [formconfig]: https://docs.rs/actix-web/2/actix_web/web/struct.FormConfig.html [datastruct]: https://docs.rs/actix-web/2/actix_web/web/struct.Data.html [stringexample]: https://docs.rs/actix-web/2/actix_web/trait.FromRequest.html#example-2 [bytesexample]: https://docs.rs/actix-web/2/actix_web/trait.FromRequest.html#example-4 [payloadexample]: https://docs.rs/actix-web/2/actix_web/web/struct.Payload.html [actix]: https://actix.github.io/actix/actix/