/// Used for immutable dereferencing operations, like `*v`. /// /// In addition to being used for explicit dereferencing operations with the /// (unary) `*` operator in immutable contexts, `Deref` is also used implicitly /// by the compiler in many circumstances. This mechanism is called /// ['`Deref` coercion'][more]. In mutable contexts, [`DerefMut`] is used. /// /// Implementing `Deref` for smart pointers makes accessing the data behind them /// convenient, which is why they implement `Deref`. On the other hand, the /// rules regarding `Deref` and [`DerefMut`] were designed specifically to /// accommodate smart pointers. Because of this, **`Deref` should only be /// implemented for smart pointers** to avoid confusion. /// /// For similar reasons, **this trait should never fail**. Failure during /// dereferencing can be extremely confusing when `Deref` is invoked implicitly. /// /// # More on `Deref` coercion /// /// If `T` implements `Deref`, and `x` is a value of type `T`, then: /// /// * In immutable contexts, `*x` (where `T` is neither a reference nor a raw pointer) /// is equivalent to `*Deref::deref(&x)`. /// * Values of type `&T` are coerced to values of type `&U` /// * `T` implicitly implements all the (immutable) methods of the type `U`. /// /// For more details, visit [the chapter in *The Rust Programming Language*][book] /// as well as the reference sections on [the dereference operator][ref-deref-op], /// [method resolution] and [type coercions]. /// /// [book]: ../../book/ch15-02-deref.html /// [more]: #more-on-deref-coercion /// [ref-deref-op]: ../../reference/expressions/operator-expr.html#the-dereference-operator /// [method resolution]: ../../reference/expressions/method-call-expr.html /// [type coercions]: ../../reference/type-coercions.html /// /// # Examples /// /// A struct with a single field which is accessible by dereferencing the /// struct. /// /// ``` /// use std::ops::Deref; /// /// struct DerefExample { /// value: T /// } /// /// impl Deref for DerefExample { /// type Target = T; /// /// fn deref(&self) -> &Self::Target { /// &self.value /// } /// } /// /// let x = DerefExample { value: 'a' }; /// assert_eq!('a', *x); /// ``` #[lang = "deref"] #[doc(alias = "*")] #[doc(alias = "&*")] #[stable(feature = "rust1", since = "1.0.0")] pub trait Deref { /// The resulting type after dereferencing. #[stable(feature = "rust1", since = "1.0.0")] #[rustc_diagnostic_item = "deref_target"] type Target: ?Sized; /// Dereferences the value. #[must_use] #[stable(feature = "rust1", since = "1.0.0")] #[rustc_diagnostic_item = "deref_method"] fn deref(&self) -> &Self::Target; } #[stable(feature = "rust1", since = "1.0.0")] impl Deref for &T { type Target = T; fn deref(&self) -> &T { *self } } #[stable(feature = "rust1", since = "1.0.0")] impl !DerefMut for &T {} #[stable(feature = "rust1", since = "1.0.0")] impl Deref for &mut T { type Target = T; fn deref(&self) -> &T { *self } } /// Used for mutable dereferencing operations, like in `*v = 1;`. /// /// In addition to being used for explicit dereferencing operations with the /// (unary) `*` operator in mutable contexts, `DerefMut` is also used implicitly /// by the compiler in many circumstances. This mechanism is called /// ['`Deref` coercion'][more]. In immutable contexts, [`Deref`] is used. /// /// Implementing `DerefMut` for smart pointers makes mutating the data behind /// them convenient, which is why they implement `DerefMut`. On the other hand, /// the rules regarding [`Deref`] and `DerefMut` were designed specifically to /// accommodate smart pointers. Because of this, **`DerefMut` should only be /// implemented for smart pointers** to avoid confusion. /// /// For similar reasons, **this trait should never fail**. Failure during /// dereferencing can be extremely confusing when `DerefMut` is invoked /// implicitly. /// /// # More on `Deref` coercion /// /// If `T` implements `DerefMut`, and `x` is a value of type `T`, /// then: /// /// * In mutable contexts, `*x` (where `T` is neither a reference nor a raw pointer) /// is equivalent to `*DerefMut::deref_mut(&mut x)`. /// * Values of type `&mut T` are coerced to values of type `&mut U` /// * `T` implicitly implements all the (mutable) methods of the type `U`. /// /// For more details, visit [the chapter in *The Rust Programming Language*][book] /// as well as the reference sections on [the dereference operator][ref-deref-op], /// [method resolution] and [type coercions]. /// /// [book]: ../../book/ch15-02-deref.html /// [more]: #more-on-deref-coercion /// [ref-deref-op]: ../../reference/expressions/operator-expr.html#the-dereference-operator /// [method resolution]: ../../reference/expressions/method-call-expr.html /// [type coercions]: ../../reference/type-coercions.html /// /// # Examples /// /// A struct with a single field which is modifiable by dereferencing the /// struct. /// /// ``` /// use std::ops::{Deref, DerefMut}; /// /// struct DerefMutExample { /// value: T /// } /// /// impl Deref for DerefMutExample { /// type Target = T; /// /// fn deref(&self) -> &Self::Target { /// &self.value /// } /// } /// /// impl DerefMut for DerefMutExample { /// fn deref_mut(&mut self) -> &mut Self::Target { /// &mut self.value /// } /// } /// /// let mut x = DerefMutExample { value: 'a' }; /// *x = 'b'; /// assert_eq!('b', *x); /// ``` #[lang = "deref_mut"] #[doc(alias = "*")] #[stable(feature = "rust1", since = "1.0.0")] pub trait DerefMut: Deref { /// Mutably dereferences the value. #[stable(feature = "rust1", since = "1.0.0")] fn deref_mut(&mut self) -> &mut Self::Target; } #[stable(feature = "rust1", since = "1.0.0")] impl DerefMut for &mut T { fn deref_mut(&mut self) -> &mut T { *self } } /// Indicates that a struct can be used as a method receiver, without the /// `arbitrary_self_types` feature. This is implemented by stdlib pointer types like `Box`, /// `Rc`, `&T`, and `Pin

`. #[lang = "receiver"] #[unstable(feature = "receiver_trait", issue = "none")] #[doc(hidden)] pub trait Receiver { // Empty. } #[unstable(feature = "receiver_trait", issue = "none")] impl Receiver for &T {} #[unstable(feature = "receiver_trait", issue = "none")] impl Receiver for &mut T {}