tests/ui/traits/wrong-mul-method-signature.rs - toolchain/rustc - Git at Google

 // This test is to make sure we don't just ICE if the trait
 // method for an operator is not implemented properly.
 // (In this case the mul method should take &f64 and not f64)
 // See: #11450

 use std::ops::Mul;

 struct Vec1 {
     x: f64
 }

 // Expecting value in input signature
 impl Mul<f64> for Vec1 {
     type Output = Vec1;

     fn mul(self, s: &f64) -> Vec1 {
     //~^ ERROR method `mul` has an incompatible type for trait
         Vec1 {
             x: self.x * *s
         }
     }
 }

 struct Vec2 {
     x: f64,
     y: f64
 }

 // Wrong type parameter ordering
 impl Mul<Vec2> for Vec2 {
     type Output = f64;

     fn mul(self, s: f64) -> Vec2 {
     //~^ ERROR method `mul` has an incompatible type for trait
         Vec2 {
             x: self.x * s,
             y: self.y * s
         }
     }
 }

 struct Vec3 {
     x: f64,
     y: f64,
     z: f64
 }

 // Unexpected return type
 impl Mul<f64> for Vec3 {
     type Output = i32;

     fn mul(self, s: f64) -> f64 {
     //~^ ERROR method `mul` has an incompatible type for trait
         s
     }
 }

 pub fn main() {
     // Check that the usage goes from the trait declaration:

     let x: Vec1 = Vec1 { x: 1.0 } * 2.0; // this is OK

     let x: Vec2 = Vec2 { x: 1.0, y: 2.0 } * 2.0; // trait had reversed order
     //~^ ERROR mismatched types
     //~| ERROR mismatched types

     let x: i32 = Vec3 { x: 1.0, y: 2.0, z: 3.0 } * 2.0;
 }
	// This test is to make sure we don't just ICE if the trait
	// method for an operator is not implemented properly.
	// (In this case the mul method should take &f64 and not f64)
	// See: #11450

	use std::ops::Mul;

	struct Vec1 {
	x: f64
	}

	// Expecting value in input signature
	impl Mul<f64> for Vec1 {
	type Output = Vec1;

	fn mul(self, s: &f64) -> Vec1 {
	//~^ ERROR method `mul` has an incompatible type for trait
	Vec1 {
	x: self.x * *s
	}
	}
	}

	struct Vec2 {
	x: f64,
	y: f64
	}

	// Wrong type parameter ordering
	impl Mul<Vec2> for Vec2 {
	type Output = f64;

	fn mul(self, s: f64) -> Vec2 {
	//~^ ERROR method `mul` has an incompatible type for trait
	Vec2 {
	x: self.x * s,
	y: self.y * s
	}
	}
	}

	struct Vec3 {
	x: f64,
	y: f64,
	z: f64
	}

	// Unexpected return type
	impl Mul<f64> for Vec3 {
	type Output = i32;

	fn mul(self, s: f64) -> f64 {
	//~^ ERROR method `mul` has an incompatible type for trait
	s
	}
	}

	pub fn main() {
	// Check that the usage goes from the trait declaration:

	let x: Vec1 = Vec1 { x: 1.0 } * 2.0; // this is OK

	let x: Vec2 = Vec2 { x: 1.0, y: 2.0 } * 2.0; // trait had reversed order
	//~^ ERROR mismatched types
	//~\| ERROR mismatched types

	let x: i32 = Vec3 { x: 1.0, y: 2.0, z: 3.0 } * 2.0;
	}