--- title: Extractors menu: docs_basics weight: 170 --- # Type-safe information extraction Actix provides facility for type-safe request information extraction. By default, actix provides several extractor implementations. # Accessing Extractors How you access an Extractor depends on whether you are using a handler function or a custom Handler type. ## Within Handler Functions An Extractor can be passed to a handler function as a function parameter *or* accessed within the function by calling the ExtractorType::<...>::extract(req) function. ```rust // Option 1: passed as a parameter to a handler function fn index((params, info): (Path<(String, String,)>, Json)) -> HttpResponse { ... } // Option 2: accessed by calling extract() on the Extractor use actix_web::FromRequest; fn index(req: HttpRequest) -> HttpResponse { let params = Path::<(String, String)>::extract(&req); let info = Json::::extract(&req); ... } ``` ## Within Custom Handler Types Like a handler function, a custom Handler type can *access* an Extractor by calling the ExtractorType::<...>::extract(&req) function. An Extractor *cannot* be passed as a parameter to a custom Handler type because a custom Handler type must follow the ``handle`` function signature specified by the Handler trait it implements. ```rust struct MyHandler(String); impl Handler for MyHandler { type Result = HttpResponse; /// Handle request fn handle(&mut self, req: HttpRequest) -> Self::Result { let params = Path::<(String, String)>::extract(&req); let info = Json::::extract(&req); ... HttpResponse::Ok().into() } } ``` # Path [*Path*](../../actix-web/actix_web/struct.Path.html) 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. ```rust use actix_web::{App, Path, Result, http}; /// extract path info from "/users/{userid}/{friend}" url /// {userid} - - deserializes to a u32 /// {friend} - deserializes to a String fn index(info: Path<(u32, String)>) -> Result { Ok(format!("Welcome {}! {}", info.1, info.0)) } fn main() { let app = App::new().resource( "/users/{userid}/{friend}", // <- define path parameters |r| r.method(http::Method::GET).with(index)); // <- use `with` extractor } ``` Remember! A handler function that uses extractors has to be registered using the [*Route::with()*](../../actix-web/actix_web/dev/struct.Route.html#method.with) method. 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. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Path, Result, http}; #[derive(Deserialize)] struct Info { userid: u32, friend: String, } /// extract path info using serde fn index(info: Path) -> Result { Ok(format!("Welcome {}!", info.friend)) } fn main() { let app = App::new().resource( "/users/{userid}/{friend}", // <- define path parameters |r| r.method(http::Method::GET).with(index)); // <- use `with` extractor } ``` # Query Same can be done with the request's query. The [*Query*](../../actix-web/actix_web/struct.Query.html) type provides extraction functionality. Underneath it uses *serde_urlencoded* crate. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Query, http}; #[derive(Deserialize)] struct Info { username: String, } // this handler get called only if the request's query contains `username` field fn index(info: Query) -> String { format!("Welcome {}!", info.username) } fn main() { let app = App::new().resource( "/index.html", |r| r.method(http::Method::GET).with(index)); // <- use `with` extractor } ``` # Json [*Json*](../../actix-web/actix_web/struct.Json.html) 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*. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Json, Result, http}; #[derive(Deserialize)] struct Info { username: String, } /// deserialize `Info` from request's body fn index(info: Json) -> Result { Ok(format!("Welcome {}!", info.username)) } fn main() { let app = App::new().resource( "/index.html", |r| r.method(http::Method::POST).with(index)); // <- use `with` extractor } ``` Some extractors provide a way to configure the extraction process. Json extractor [*JsonConfig*](../../actix-web/actix_web/dev/struct.JsonConfig.html) type for configuration. When you register a handler using `Route::with()`, it returns a configuration instance. 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. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Json, HttpResponse, Result, http, error}; #[derive(Deserialize)] struct Info { username: String, } /// deserialize `Info` from request's body, max payload size is 4kb fn index(info: Json) -> Result { Ok(format!("Welcome {}!", info.username)) } fn main() { let app = App::new().resource( "/index.html", |r| { r.method(http::Method::POST) .with(index) .limit(4096) // <- change json extractor configuration .error_handler(|err, req| { // <- create custom error response error::InternalError::from_response( err, HttpResponse::Conflict().finish()).into() }); }); } ``` # 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*](../../actix-web/actix_web/dev/struct.FormConfig.html) allows configuring the extraction process. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Form, Result}; #[derive(Deserialize)] struct FormData { username: String, } /// extract form data using serde /// this handler gets called only if the content type is *x-www-form-urlencoded* /// and the content of the request could be deserialized to a `FormData` struct fn index(form: Form) -> Result { Ok(format!("Welcome {}!", form.username)) } # fn main() {} ``` # Multiple extractors Actix provides extractor implementations for tuples (up to 10 elements) whose elements implement `FromRequest`. For example we can use a path extractor and a query extractor at the same time. ```rust #[macro_use] extern crate serde_derive; use actix_web::{App, Query, Path, http}; #[derive(Deserialize)] struct Info { username: String, } fn index((path, query): (Path<(u32, String)>, Query)) -> String { format!("Welcome {}!", query.username) } fn main() { let app = App::new().resource( "/users/{userid}/{friend}", // <- define path parameters |r| r.method(http::Method::GET).with(index)); // <- use `with` extractor } ``` # Other Actix also provides several other extractors: * [*State*](../../actix-web/actix_web/struct.State.html) - If you need access to an application state. This is similar to a `HttpRequest::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*](../../actix-web/actix_web/trait.FromRequest.html#example-1) is available in doc strings. * *bytes::Bytes* - You can convert a request's payload into *Bytes*. [*Example*](../../actix-web/actix_web/trait.FromRequest.html#example) is available in doc strings.