actix-website/content/docs/application.md

---
title: Application
menu: docs_basics
weight: 140
---

# Writing an Application

`actix-web` provides various primitives to build web servers and applications with Rust.
It provides routing, middlewares, pre-processing of requests, post-processing of
responses, etc.

All `actix-web` servers are built around the `App` instance.  It is used for
registering routes for resources and middlewares.  It also stores application
state shared across all handlers within same scope.

An application's `scope` acts as a namespace for all routes, i.e. all routes for a
specific application scope have the same url path prefix. The application prefix always
contains a leading "/" slash.  If a supplied prefix does not contain leading slash,
it is automatically inserted.  The prefix should consist of value path segments.

> For an application with scope `/app`,
> any request with the paths `/app`, `/app/`, or `/app/test` would match;
> however, the path `/application` would not match.

{{< include-example example="application" file="app.rs" section="setup" >}}

In this example, an application with the `/app` prefix and a `index.html` resource
are created. This resource is available through the `/app/index.html` url.

> For more information, check the
> [URL Dispatch](/docs/url-dispatch/index.html#using-an-application-prefix-to-compose-applications) section.

Multiple application scopes can be served with one server:

{{< include-example example="application" file="main.rs" section="multi" >}}

All `/app1` requests route to the first application, `/app2` to the second, and all other to the third.
**Applications get matched based on registration order**. If an application with a more generic
prefix is registered before a less generic one, it would effectively block the less generic
application matching. For example, if an `App` with the prefix `"/"` was registered
as the first application, it would match all incoming requests.

## State

Application state is shared with all routes and resources within the same scope. State
can be accessed with `web::Data<State>` as read-only, but interior mutability with
`Cell` can be used to achieve state mutability. State is also available for route
matching guards and middlewares.

Let's write a simple application that uses shared state. We are going to store request count
in the state:

{{< include-example example="application" file="state.rs" section="setup" >}}

When the app is initialized it needs to be passed the initial state:

{{< include-example example="application" file="state.rs" section="make_app" >}}

> **Note**: `HttpServer` accepts an application factory rather than an application
> instance. `HttpServer` constructs an application instance for each thread, thus
> application state must be constructed multiple times. If you want to share state between
> different threads, a shared object should be used, e.g. `Arc`. There is also an
> [Example](https://github.com/actix/examples/blob/master/state/src/main.rs) using `Arc`
> for this. Application state does not need to be `Send` and `Sync`,
> but the application factory must be `Send` + `Sync`.

To start the previous app, create it into a closure:

{{< include-example example="application" file="state.rs" section="start_app" >}}

## Combining applications with different state

Combining multiple applications with different state is possible as well.

{{< include-example example="application" file="combine.rs" section="combine" >}}

## Using an Application Scope to Compose Applications

The `web::scope()` method allows to set a specific application prefix.
This scope represents a resource prefix that will be prepended to all resource patterns added
by the resource configuration. This can be used to help mount a set of routes at a different
location than the included callable's author intended while still maintaining the same
resource names.

For example:

{{< include-example example="application" file="scope.rs" section="scope" >}}

In the above example, the *show_users* route will have an effective route pattern of
*/users/show* instead of */show* because the application's scope argument will be prepended
to the pattern. The route will then only match if the URL path is */users/show*,
and when the `HttpRequest.url_for()` function is called with the route name show_users,
it will generate a URL with that same path.

## Application guards and virtual hosting

You can think of a guard as a simple function that accepts a *request* object reference
and returns *true* or *false*. Formally, a guard is any object that implements the
[`Guard`](https://docs.rs/actix-web/1.0.2/actix_web/guard/trait.Guard.html) trait. Actix-web
provides several guards, you can check
[functions section](https://docs.rs/actix-web/1.0.2/actix_web/guard/index.html#functions)
of api docs.

One of the provided guards is [`Header`](https://docs.rs/actix-web/1.0.2/actix_web/guard/fn.Header.html),
it can be used as application's filter based on request's header information.

{{< include-example example="application" file="vh.rs" section="vh" >}}

# Configure

For simplicity and reusability both `App` and `web::scope` provide the `configure` method.
This function is useful for moving parts of configuration to a different module or even
library. For example, some of the resource's configuration could be moved to different
module.

{{< include-example example="application" file="config.rs" section="config" >}}

The result of the above example would be:

```
/         -> "/"
/app      -> "app"
/api/test -> "test"
```

Each `ServiceConfig` can have it's own `data`, `routes`, and `services`