src/test/ui/coercion/coerce-to-bang.rs - toolchain/rustc - Git at Google

 #![feature(never_type)]

 fn foo(x: usize, y: !, z: usize) { }

 fn call_foo_a() {
     foo(return, 22, 44);
     //~^ ERROR mismatched types
 }

 fn call_foo_b() {
     // Divergence happens in the argument itself, definitely ok.
     foo(22, return, 44);
 }

 fn call_foo_c() {
     // This test fails because the divergence happens **after** the
     // coercion to `!`:
     foo(22, 44, return); //~ ERROR mismatched types
 }

 fn call_foo_d() {
     // This test passes because `a` has type `!`:
     let a: ! = return;
     let b = 22;
     let c = 44;
     foo(a, b, c); // ... and hence a reference to `a` is expected to diverge.
     //~^ ERROR mismatched types
 }

 fn call_foo_e() {
     // This test probably could pass but we don't *know* that `a`
     // has type `!` so we don't let it work.
     let a = return;
     let b = 22;
     let c = 44;
     foo(a, b, c); //~ ERROR mismatched types
 }

 fn call_foo_f() {
     // This fn fails because `a` has type `usize`, and hence a
     // reference to is it **not** considered to diverge.
     let a: usize = return;
     let b = 22;
     let c = 44;
     foo(a, b, c); //~ ERROR mismatched types
 }

 fn array_a() {
     // Return is coerced to `!` just fine, but `22` cannot be.
     let x: [!; 2] = [return, 22]; //~ ERROR mismatched types
 }

 fn array_b() {
     // Error: divergence has not yet occurred.
     let x: [!; 2] = [22, return]; //~ ERROR mismatched types
 }

 fn tuple_a() {
     // No divergence at all.
     let x: (usize, !, usize) = (22, 44, 66); //~ ERROR mismatched types
 }

 fn tuple_b() {
     // Divergence happens before coercion: OK
     let x: (usize, !, usize) = (return, 44, 66);
     //~^ ERROR mismatched types
 }

 fn tuple_c() {
     // Divergence happens before coercion: OK
     let x: (usize, !, usize) = (22, return, 66);
 }

 fn tuple_d() {
     // Error: divergence happens too late
     let x: (usize, !, usize) = (22, 44, return); //~ ERROR mismatched types
 }

 fn main() { }
	#![feature(never_type)]

	fn foo(x: usize, y: !, z: usize) { }

	fn call_foo_a() {
	foo(return, 22, 44);
	//~^ ERROR mismatched types
	}

	fn call_foo_b() {
	// Divergence happens in the argument itself, definitely ok.
	foo(22, return, 44);
	}

	fn call_foo_c() {
	// This test fails because the divergence happens after the
	// coercion to `!`:
	foo(22, 44, return); //~ ERROR mismatched types
	}

	fn call_foo_d() {
	// This test passes because `a` has type `!`:
	let a: ! = return;
	let b = 22;
	let c = 44;
	foo(a, b, c); // ... and hence a reference to `a` is expected to diverge.
	//~^ ERROR mismatched types
	}

	fn call_foo_e() {
	// This test probably could pass but we don't know that `a`
	// has type `!` so we don't let it work.
	let a = return;
	let b = 22;
	let c = 44;
	foo(a, b, c); //~ ERROR mismatched types
	}

	fn call_foo_f() {
	// This fn fails because `a` has type `usize`, and hence a
	// reference to is it not considered to diverge.
	let a: usize = return;
	let b = 22;
	let c = 44;
	foo(a, b, c); //~ ERROR mismatched types
	}

	fn array_a() {
	// Return is coerced to `!` just fine, but `22` cannot be.
	let x: [!; 2] = [return, 22]; //~ ERROR mismatched types
	}

	fn array_b() {
	// Error: divergence has not yet occurred.
	let x: [!; 2] = [22, return]; //~ ERROR mismatched types
	}

	fn tuple_a() {
	// No divergence at all.
	let x: (usize, !, usize) = (22, 44, 66); //~ ERROR mismatched types
	}

	fn tuple_b() {
	// Divergence happens before coercion: OK
	let x: (usize, !, usize) = (return, 44, 66);
	//~^ ERROR mismatched types
	}

	fn tuple_c() {
	// Divergence happens before coercion: OK
	let x: (usize, !, usize) = (22, return, 66);
	}

	fn tuple_d() {
	// Error: divergence happens too late
	let x: (usize, !, usize) = (22, 44, return); //~ ERROR mismatched types
	}

	fn main() { }