src/test/ui/multiple-reprs.rs - third_party/rust - Git at Google

 // run-pass

 #![allow(dead_code)]

 use std::mem::{size_of, align_of};
 use std::os::raw::c_int;

 // The two enums that follow are designed so that bugs trigger layout optimization.
 // Specifically, if either of the following reprs used here is not detected by the compiler,
 // then the sizes will be wrong.

 #[repr(C, u8)]
 enum E1 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 #[repr(u8, C)]
 enum E2 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 // Check that repr(int) and repr(C) are in fact different from the above

 #[repr(u8)]
 enum E3 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 #[repr(u16)]
 enum E4 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 #[repr(u32)]
 enum E5 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 #[repr(u64)]
 enum E6 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 #[repr(C)]
 enum E7 {
     A(u8, u16, u8),
     B(u8, u16, u8)
 }

 // From pr 37429

 #[repr(C,packed)]
 pub struct p0f_api_query {
     pub magic: u32,
     pub addr_type: u8,
     pub addr: [u8; 16],
 }

 pub fn main() {
     assert_eq!(size_of::<E1>(), 8);
     assert_eq!(size_of::<E2>(), 8);
     assert_eq!(size_of::<E3>(), 6);
     assert_eq!(size_of::<E4>(), 8);
     assert_eq!(size_of::<E5>(), align_size(10, align_of::<u32>()));
     assert_eq!(size_of::<E6>(), align_size(14, align_of::<u64>()));
     assert_eq!(size_of::<E7>(), align_size(6 + size_of::<c_int>(), align_of::<c_int>()));
     assert_eq!(size_of::<p0f_api_query>(), 21);
 }

 fn align_size(size: usize, align: usize) -> usize {
     if size % align != 0 {
         size + (align - (size % align))
     } else {
         size
     }
 }
	// run-pass

	#![allow(dead_code)]

	use std::mem::{size_of, align_of};
	use std::os::raw::c_int;

	// The two enums that follow are designed so that bugs trigger layout optimization.
	// Specifically, if either of the following reprs used here is not detected by the compiler,
	// then the sizes will be wrong.

	#[repr(C, u8)]
	enum E1 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	#[repr(u8, C)]
	enum E2 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	// Check that repr(int) and repr(C) are in fact different from the above

	#[repr(u8)]
	enum E3 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	#[repr(u16)]
	enum E4 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	#[repr(u32)]
	enum E5 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	#[repr(u64)]
	enum E6 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	#[repr(C)]
	enum E7 {
	A(u8, u16, u8),
	B(u8, u16, u8)
	}

	// From pr 37429

	#[repr(C,packed)]
	pub struct p0f_api_query {
	pub magic: u32,
	pub addr_type: u8,
	pub addr: [u8; 16],
	}

	pub fn main() {
	assert_eq!(size_of::<E1>(), 8);
	assert_eq!(size_of::<E2>(), 8);
	assert_eq!(size_of::<E3>(), 6);
	assert_eq!(size_of::<E4>(), 8);
	assert_eq!(size_of::<E5>(), align_size(10, align_of::<u32>()));
	assert_eq!(size_of::<E6>(), align_size(14, align_of::<u64>()));
	assert_eq!(size_of::<E7>(), align_size(6 + size_of::<c_int>(), align_of::<c_int>()));
	assert_eq!(size_of::<p0f_api_query>(), 21);
	}

	fn align_size(size: usize, align: usize) -> usize {
	if size % align != 0 {
	size + (align - (size % align))
	} else {
	size
	}
	}