//! Success, failure, and forward handling. //! //! The `Outcome` type is similar to the standard library's `Result` type. It is an enum with three variants, each containing a value: //! `Success(S)`, which represents a successful outcome, `Failure(E)`, which //! represents a failing outcome, and `Forward(F)`, which represents neither a //! success or failure, but instead, indicates that processing could not be //! handled and should instead be _forwarded_ to whatever can handle the //! processing next. //! //! The `Outcome` type is the return type of many of the core Rocket traits, //! including [FromRequest](../request/trait.FromRequest.html), //! [FromData](../request/trait.FromData.html), and //! [Responder](../response/trait.Responder.html). It is also the return type of //! request handlers via the [Response](../response/type.Response.html) type //! alias. //! //! # Success //! //! A successful `Outcome`, `Success(S)`, is returned from functions //! that complete successfully. The meaning of a `Success` outcome depends on //! the context. For instance, the `Outcome` of the `from_data` method of the //! `FromData` trait will be matched against the type expected by the user. For //! example, consider the following handler: //! //! ```rust,ignore //! #[post("/", data = "")] //! fn hello(my_val: S) -> ... { } //! ``` //! //! The `FromData` implementation for the type `S` returns an `Outcome` with a //! `Success(S)`. If `from_data` returns a `Success`, the `Success` value will //! be unwrapped and the value will be used as the value of `my_val`. //! //! # Failure //! //! A failure `Outcome`, `Failure(E)`, is returned when a function //! fails with some error and no processing can or should continue as a result. //! The meaning of a failure depends on the context. //! //! It Rocket, a `Failure` generally means that a request is taken out of normal //! processing. The request is then given to the catcher corresponding to some //! status code. users can catch failures by requesting a type of `Result` //! or `Option` in request handlers. For example, if a user's handler looks //! like: //! //! ```rust,ignore //! #[post("/", data = "")] //! fn hello(my_val: Result) -> ... { } //! ``` //! //! The `FromData` implementation for the type `S` returns an `Outcome` with a //! `Success(S)` and `Failure(E)`. If `from_data` returns a `Failure`, the //! `Failure` value will be unwrapped and the value will be used as the `Err` //! value of `my_val` while a `Success` will be unwrapped and used the `Ok` //! value. //! //! # Forward //! //! A forward `Outcome`, `Forward(F)`, is returned when a function //! wants to indicate that the requested processing should be _forwarded_ to the //! next available processor. Again, the exact meaning depends on the context. //! //! In Rocket, a `Forward` generally means that a request is forwarded to the //! next available request handler. For example, consider the following request //! handler: //! //! ```rust,ignore //! #[post("/", data = "")] //! fn hello(my_val: S) -> ... { } //! ``` //! //! The `FromData` implementation for the type `S` returns an `Outcome` with a //! `Success(S)`, `Failure(E)`, and `Forward(F)`. If the `Outcome` is a //! `Forward`, the `hello` handler isn't called. Instead, the incoming request //! is forwarded, or passed on to, the next matching route, if any. Ultimately, //! if there are no non-forwarding routes, forwarded requests are handled by the //! 404 catcher. Similar to `Failure`s, users can catch `Forward`s by requesting //! a type of `Option`. If an `Outcome` is a `Forward`, the `Option` will be //! `None`. use std::fmt; use term_painter::Color::*; use term_painter::Color; use term_painter::ToStyle; use self::Outcome::*; /// An enum representing success (`Success`), failure (`Failure`), or /// forwarding (`Forward`). #[must_use] #[derive(Clone, Copy, PartialEq, PartialOrd, Eq, Ord, Hash)] pub enum Outcome { /// Contains the success value. Success(S), /// Contains the failure error value. Failure(E), /// Contains the value to forward on. Forward(F), } /// Conversion trait from some type into an Outcome type. pub trait IntoOutcome { fn into_outcome(self) -> Outcome; } impl Outcome { /// Unwraps the Outcome, yielding the contents of a Success. /// /// # Panics /// /// Panics if the value is not `Success`. /// /// # Examples /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.unwrap(), 10); /// ``` #[inline(always)] pub fn unwrap(self) -> S { match self { Success(val) => val, _ => panic!("Expected a successful outcome!") } } /// Return true if this `Outcome` is a `Success`. /// /// # Examples /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.is_success(), true); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.is_success(), false); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.is_success(), false); /// ``` #[inline(always)] pub fn is_success(&self) -> bool { match *self { Success(_) => true, _ => false } } /// Return true if this `Outcome` is a `Failure`. /// /// # Examples /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.is_failure(), false); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.is_failure(), true); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.is_failure(), false); /// ``` #[inline(always)] pub fn is_failure(&self) -> bool { match *self { Failure(_) => true, _ => false } } /// Return true if this `Outcome` is a `Forward`. /// /// # Examples /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.is_forward(), false); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.is_forward(), false); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.is_forward(), true); /// ``` #[inline(always)] pub fn is_forward(&self) -> bool { match *self { Forward(_) => true, _ => false } } /// Converts from `Outcome` to `Option`. /// /// Returns the `Some` of the `Success` if this is a `Success`, otherwise /// returns `None`. `self` is consumed, and all other values are discarded. /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.succeeded(), Some(10)); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.succeeded(), None); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.succeeded(), None); /// ``` #[inline(always)] pub fn succeeded(self) -> Option { match self { Success(val) => Some(val), _ => None } } /// Converts from `Outcome` to `Option`. /// /// Returns the `Some` of the `Failure` if this is a `Failure`, otherwise /// returns `None`. `self` is consumed, and all other values are discarded. /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.failed(), None); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.failed(), Some("Hi! I'm an error.")); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.failed(), None); /// ``` #[inline(always)] pub fn failed(self) -> Option { match self { Failure(val) => Some(val), _ => None } } /// Converts from `Outcome` to `Option`. /// /// Returns the `Some` of the `Forward` if this is a `Forward`, otherwise /// returns `None`. `self` is consumed, and all other values are discarded. /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.forwarded(), None); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.forwarded(), None); /// /// let x: Outcome = Forward(25); /// assert_eq!(x.forwarded(), Some(25)); /// ``` #[inline(always)] pub fn forwarded(self) -> Option { match self { Forward(val) => Some(val), _ => None } } /// Converts from `Outcome` to `Outcome<&S, &E, &F>`. /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let x: Outcome = Success(10); /// assert_eq!(x.as_ref(), Success(&10)); /// /// let x: Outcome = Failure("Hi! I'm an error."); /// assert_eq!(x.as_ref(), Failure(&"Hi! I'm an error.")); /// ``` #[inline(always)] pub fn as_ref(&self) -> Outcome<&S, &E, &F> { match *self { Success(ref val) => Success(val), Failure(ref val) => Failure(val), Forward(ref val) => Forward(val), } } /// Converts from `Outcome` to `Outcome<&mut S, &mut E, &mut F>`. /// /// ```rust /// # use rocket::outcome::Outcome; /// # use rocket::outcome::Outcome::*; /// # /// let mut x: Outcome = Success(10); /// if let Success(val) = x.as_mut() { /// *val = 20; /// } /// /// assert_eq!(x.unwrap(), 20); /// ``` #[inline(always)] pub fn as_mut(&mut self) -> Outcome<&mut S, &mut E, &mut F> { match *self { Success(ref mut val) => Success(val), Failure(ref mut val) => Failure(val), Forward(ref mut val) => Forward(val), } } #[inline(always)] fn formatting(&self) -> (Color, &'static str) { match *self { Success(..) => (Green, "Succcess"), Failure(..) => (Red, "Failure"), Forward(..) => (Yellow, "Forward"), } } } impl fmt::Debug for Outcome { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "Outcome::{}", self.formatting().1) } } impl fmt::Display for Outcome { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let (color, string) = self.formatting(); write!(f, "{}", color.paint(string)) } }