tests/ui/structs-enums/enum-clike-ffi-as-int.rs - toolchain/rustc - Git at Google

 //@ run-pass
 #![allow(dead_code)]

 /*!
  * C-like enums have to be represented as LLVM ints, not wrapped in a
  * struct, because it's important for the FFI that they interoperate
  * with C integers/enums, and the ABI can treat structs differently.
  * For example, on i686-linux-gnu, a struct return value is passed by
  * storing to a hidden out parameter, whereas an integer would be
  * returned in a register.
  *
  * This test just checks that the ABIs for the enum and the plain
  * integer are compatible, rather than actually calling C code.
  * The unused parameter to `foo` is to increase the likelihood of
  * crashing if something goes wrong here.
  */

 #[repr(u32)]
 enum Foo {
     A = 0,
     B = 23
 }

 #[inline(never)]
 extern "C" fn foo(_x: usize) -> Foo { Foo::B }

 pub fn main() {
     unsafe {
         let f: extern "C" fn(usize) -> u32 =
             ::std::mem::transmute(foo as extern "C" fn(usize) -> Foo);
         assert_eq!(f(0xDEADBEEF), Foo::B as u32);
     }
 }
	//@ run-pass
	#![allow(dead_code)]

	/*!
	* C-like enums have to be represented as LLVM ints, not wrapped in a
	* struct, because it's important for the FFI that they interoperate
	* with C integers/enums, and the ABI can treat structs differently.
	* For example, on i686-linux-gnu, a struct return value is passed by
	* storing to a hidden out parameter, whereas an integer would be
	* returned in a register.
	*
	* This test just checks that the ABIs for the enum and the plain
	* integer are compatible, rather than actually calling C code.
	* The unused parameter to `foo` is to increase the likelihood of
	* crashing if something goes wrong here.
	*/

	#[repr(u32)]
	enum Foo {
	A = 0,
	B = 23
	}

	#[inline(never)]
	extern "C" fn foo(_x: usize) -> Foo { Foo::B }

	pub fn main() {
	unsafe {
	let f: extern "C" fn(usize) -> u32 =
	::std::mem::transmute(foo as extern "C" fn(usize) -> Foo);
	assert_eq!(f(0xDEADBEEF), Foo::B as u32);
	}
	}