1.0.0[−][src]Module nom::lib::std::ops
Overloadable operators.
Implementing these traits allows you to overload certain operators.
Some of these traits are imported by the prelude, so they are available in
every Rust program. Only operators backed by traits can be overloaded. For
example, the addition operator (+
) can be overloaded through the Add
trait, but since the assignment operator (=
) has no backing trait, there
is no way of overloading its semantics. Additionally, this module does not
provide any mechanism to create new operators. If traitless overloading or
custom operators are required, you should look toward macros or compiler
plugins to extend Rust's syntax.
Implementations of operator traits should be unsurprising in their
respective contexts, keeping in mind their usual meanings and
operator precedence. For example, when implementing Mul
, the operation
should have some resemblance to multiplication (and share expected
properties like associativity).
Note that the &&
and ||
operators short-circuit, i.e., they only
evaluate their second operand if it contributes to the result. Since this
behavior is not enforceable by traits, &&
and ||
are not supported as
overloadable operators.
Many of the operators take their operands by value. In non-generic
contexts involving built-in types, this is usually not a problem.
However, using these operators in generic code, requires some
attention if values have to be reused as opposed to letting the operators
consume them. One option is to occasionally use clone
.
Another option is to rely on the types involved providing additional
operator implementations for references. For example, for a user-defined
type T
which is supposed to support addition, it is probably a good
idea to have both T
and &T
implement the traits Add<T>
and
Add<&T>
so that generic code can be written without unnecessary
cloning.
Examples
This example creates a Point
struct that implements Add
and Sub
,
and then demonstrates adding and subtracting two Point
s.
use std::ops::{Add, Sub}; #[derive(Debug, PartialEq)] struct Point { x: i32, y: i32, } impl Add for Point { type Output = Point; fn add(self, other: Point) -> Point { Point {x: self.x + other.x, y: self.y + other.y} } } impl Sub for Point { type Output = Point; fn sub(self, other: Point) -> Point { Point {x: self.x - other.x, y: self.y - other.y} } } assert_eq!(Point {x: 3, y: 3}, Point {x: 1, y: 0} + Point {x: 2, y: 3}); assert_eq!(Point {x: -1, y: -3}, Point {x: 1, y: 0} - Point {x: 2, y: 3});
See the documentation for each trait for an example implementation.
The Fn
, FnMut
, and FnOnce
traits are implemented by types that can be
invoked like functions. Note that Fn
takes &self
, FnMut
takes &mut self
and FnOnce
takes self
. These correspond to the three kinds of
methods that can be invoked on an instance: call-by-reference,
call-by-mutable-reference, and call-by-value. The most common use of these
traits is to act as bounds to higher-level functions that take functions or
closures as arguments.
Taking a Fn
as a parameter:
fn call_with_one<F>(func: F) -> usize where F: Fn(usize) -> usize { func(1) } let double = |x| x * 2; assert_eq!(call_with_one(double), 2);
Taking a FnMut
as a parameter:
fn do_twice<F>(mut func: F) where F: FnMut() { func(); func(); } let mut x: usize = 1; { let add_two_to_x = || x += 2; do_twice(add_two_to_x); } assert_eq!(x, 5);
Taking a FnOnce
as a parameter:
fn consume_with_relish<F>(func: F) where F: FnOnce() -> String { // `func` consumes its captured variables, so it cannot be run more // than once println!("Consumed: {}", func()); println!("Delicious!"); // Attempting to invoke `func()` again will throw a `use of moved // value` error for `func` } let x = String::from("x"); let consume_and_return_x = move || x; consume_with_relish(consume_and_return_x); // `consume_and_return_x` can no longer be invoked at this point
Structs
Range | A (half-open) range bounded inclusively below and exclusively above
( |
RangeFrom | A range only bounded inclusively below ( |
RangeFull | An unbounded range ( |
RangeInclusive | A range bounded inclusively below and above ( |
RangeTo | A range only bounded exclusively above ( |
RangeToInclusive | A range only bounded inclusively above ( |
Enums
Bound | An endpoint of a range of keys. |
GeneratorState | Experimental The result of a generator resumption. |
Traits
Add | The addition operator |
AddAssign | The addition assignment operator |
BitAnd | The bitwise AND operator |
BitAndAssign | The bitwise AND assignment operator |
BitOr | The bitwise OR operator |
BitOrAssign | The bitwise OR assignment operator |
BitXor | The bitwise XOR operator |
BitXorAssign | The bitwise XOR assignment operator |
Deref | Used for immutable dereferencing operations, like |
DerefMut | Used for mutable dereferencing operations, like in |
Div | The division operator |
DivAssign | The division assignment operator |
Drop | Used to run some code when a value goes out of scope. This is sometimes called a 'destructor'. |
Fn | The version of the call operator that takes an immutable receiver. |
FnMut | The version of the call operator that takes a mutable receiver. |
FnOnce | The version of the call operator that takes a by-value receiver. |
Index | Used for indexing operations ( |
IndexMut | Used for indexing operations ( |
Mul | The multiplication operator |
MulAssign | The multiplication assignment operator |
Neg | The unary negation operator |
Not | The unary logical negation operator |
RangeBounds |
|
Rem | The remainder operator |
RemAssign | The remainder assignment operator |
Shl | The left shift operator |
ShlAssign | The left shift assignment operator |
Shr | The right shift operator |
ShrAssign | The right shift assignment operator |
Sub | The subtraction operator |
SubAssign | The subtraction assignment operator |
CoerceUnsized | Experimental Trait that indicates that this is a pointer or a wrapper for one, where unsizing can be performed on the pointee. |
DispatchFromDyn | Experimental This is used for object safety, to check that a method's receiver type can be dispatched on. |
Generator | Experimental The trait implemented by builtin generator types. |
Try | Experimental A trait for customizing the behavior of the |