use std::ops::BitOr; /// Information about a [`Fairing`](/rocket/fairing/trait.Fairing.html). /// /// The `name` field is an arbitrary name for a fairing. The `kind` field is a /// is an `or`d set of [`Kind`](/rocket/fairing/struct.Kind.html) structures. /// Rocket uses the values set in `Kind` to determine which callbacks from a /// given `Fairing` implementation to actually call. /// /// # Example /// /// A simple `Info` structure that can be used for a `Fairing` that implements /// all four callbacks: /// /// ``` /// use rocket::fairing::{Info, Kind}; /// /// # let _unused_info = /// Info { /// name: "Example Fairing", /// kind: Kind::Attach | Kind::Launch | Kind::Request | Kind::Response /// } /// # ; /// ``` pub struct Info { /// The name of the fairing. pub name: &'static str, /// A set representing the callbacks the fairing wishes to receive. pub kind: Kind } /// A bitset representing the kinds of callbacks a /// [`Fairing`](/rocket/fairing/trait.Fairing.html) wishes to receive. /// /// A fairing can request any combination of any of the following kinds of /// callbacks: /// /// * Attach /// * Launch /// * Request /// * Response /// /// Two `Kind` structures can be `or`d together to represent a combination. For /// instance, to represent a fairing that is both a launch and request fairing, /// use `Kind::Launch | Kind::Request`. Similarly, to represent a fairing that /// is only an attach fairing, use `Kind::Attach`. #[derive(Debug, Clone, Copy)] pub struct Kind(usize); #[allow(non_upper_case_globals)] impl Kind { /// `Kind` flag representing a request for an 'attach' callback. pub const Attach: Kind = Kind(0b0001); /// `Kind` flag representing a request for a 'launch' callback. pub const Launch: Kind = Kind(0b0010); /// `Kind` flag representing a request for a 'request' callback. pub const Request: Kind = Kind(0b0100); /// `Kind` flag representing a request for a 'response' callback. pub const Response: Kind = Kind(0b1000); /// Returns `true` if `self` is a superset of `other`. In other words, /// returns `true` if all of the kinds in `other` are also in `self`. /// /// # Example /// /// ```rust /// use rocket::fairing::Kind; /// /// let launch_and_req = Kind::Launch | Kind::Request; /// assert!(launch_and_req.is(Kind::Launch | Kind::Request)); /// /// assert!(launch_and_req.is(Kind::Launch)); /// assert!(launch_and_req.is(Kind::Request)); /// /// assert!(!launch_and_req.is(Kind::Response)); /// assert!(!launch_and_req.is(Kind::Launch | Kind::Response)); /// assert!(!launch_and_req.is(Kind::Launch | Kind::Request | Kind::Response)); /// ``` #[inline] pub fn is(self, other: Kind) -> bool { (other.0 & self.0) == other.0 } /// Returns `true` if `self` is exactly `other`. /// /// # Example /// /// ```rust /// use rocket::fairing::Kind; /// /// let launch_and_req = Kind::Launch | Kind::Request; /// assert!(launch_and_req.is_exactly(Kind::Launch | Kind::Request)); /// /// assert!(!launch_and_req.is_exactly(Kind::Launch)); /// assert!(!launch_and_req.is_exactly(Kind::Request)); /// assert!(!launch_and_req.is_exactly(Kind::Response)); /// assert!(!launch_and_req.is_exactly(Kind::Launch | Kind::Response)); /// ``` #[inline] pub fn is_exactly(self, other: Kind) -> bool { self.0 == other.0 } } impl BitOr for Kind { type Output = Self; #[inline(always)] fn bitor(self, rhs: Self) -> Self { Kind(self.0 | rhs.0) } }