Add, Mul, …
Operator overloading is implemented via traits in std::ops:
#[derive(Debug, Copy, Clone)] struct Point { x: i32, y: i32 } impl std::ops::Add for Point { type Output = Self; fn add(self, other: Self) -> Self { Self {x: self.x + other.x, y: self.y + other.y} } } fn main() { let p1 = Point { x: 10, y: 20 }; let p2 = Point { x: 100, y: 200 }; println!("{:?} + {:?} = {:?}", p1, p2, p1 + p2); }
Discussion points:
- You could implement
Addfor&Point. In which situations is that useful?- Answer:
Add:addconsumesself. If typeTfor which you are overloading the operator is notCopy, you should consider overloading the operator for&Tas well. This avoids unnecessary cloning on the call site.
- Answer:
- Why is
Outputan associated type? Could it be made a type parameter of the method?- Short answer: Function type parameters are controlled by the caller, but
associated types (like
Output) are controlled by the implementor of a trait.
- Short answer: Function type parameters are controlled by the caller, but
associated types (like
- You could implement
Addfor two different types, e.g.impl Add<(i32, i32)> for Pointwould add a tuple to aPoint.