tests/codegen-llvm/align-offset.rs - third_party/rust - Git at Google

 //@ compile-flags: -Copt-level=3

 #![crate_type = "lib"]

 // CHECK-LABEL: @align8
 #[no_mangle]
 pub fn align8(p: *const u8) -> bool {
     // CHECK: ret i1 true
     p.align_offset(8) < 8
 }

 #[repr(align(4))]
 pub struct Align4([u8; 4]);

 // CHECK-LABEL: @align_to4
 #[no_mangle]
 pub fn align_to4(x: &[u8]) -> bool {
     // CHECK: ret i1 true
     let (prefix, _middle, suffix) = unsafe { x.align_to::<Align4>() };
     prefix.len() < 4 && suffix.len() < 4
 }

 // CHECK-LABEL: @align_offset_byte_ptr(ptr{{.+}}%ptr)
 #[no_mangle]
 pub fn align_offset_byte_ptr(ptr: *const u8) -> usize {
     // CHECK: %[[ADDR:.+]] = ptrtoint ptr %ptr to [[USIZE:i[0-9]+]]
     // CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
     // CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
     // CHECK: %[[OFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]

     // Since we're offsetting a byte pointer, there's no further fixups
     // CHECK-NOT: shr
     // CHECK-NOT: div
     // CHECK-NOT: select

     // CHECK: ret [[USIZE]] %[[OFFSET]]
     ptr.align_offset(32)
 }

 // CHECK-LABEL: @align_offset_word_slice(ptr{{.+}}align 4{{.+}}%slice.0
 #[no_mangle]
 pub fn align_offset_word_slice(slice: &[Align4]) -> usize {
     // CHECK: %[[ADDR:.+]] = ptrtoint ptr %slice.0 to [[USIZE]]
     // CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
     // CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
     // CHECK: %[[BOFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]
     // CHECK: %[[OFFSET:.+]] = lshr exact [[USIZE]] %[[BOFFSET]], 2

     // Slices are known to be aligned, so we don't need the "maybe -1" path
     // CHECK-NOT: select

     // CHECK: ret [[USIZE]] %[[OFFSET]]
     slice.as_ptr().align_offset(32)
 }

 // CHECK-LABEL: @align_offset_word_ptr(ptr{{.+}}%ptr
 #[no_mangle]
 pub fn align_offset_word_ptr(ptr: *const Align4) -> usize {
     // CHECK: %[[ADDR:.+]] = ptrtoint ptr %ptr to [[USIZE]]
     // CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
     // CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
     // CHECK: %[[BOFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]

     // While we can always get a *byte* offset that will work, if the original
     // pointer is unaligned it might be impossible to return an *element* offset
     // that will make it aligned. We want it to be a `select`, not a `br`, so
     // that the assembly will be branchless.
     // CHECK: %[[LOW:.+]] = and [[USIZE]] %[[ADDR]], 3
     // CHECK: %[[ORIGINAL_ALIGNED:.+]] = icmp eq [[USIZE]] %[[LOW]], 0
     // CHECK: %[[OFFSET:.+]] = lshr exact [[USIZE]] %[[BOFFSET]], 2
     // CHECK: %[[R:.+]] = select i1 %[[ORIGINAL_ALIGNED]], [[USIZE]] %[[OFFSET]], [[USIZE]] -1

     // CHECK: ret [[USIZE]] %[[R]]
     ptr.align_offset(32)
 }
	//@ compile-flags: -Copt-level=3

	#![crate_type = "lib"]

	// CHECK-LABEL: @align8
	#[no_mangle]
	pub fn align8(p: *const u8) -> bool {
	// CHECK: ret i1 true
	p.align_offset(8) < 8
	}

	#[repr(align(4))]
	pub struct Align4([u8; 4]);

	// CHECK-LABEL: @align_to4
	#[no_mangle]
	pub fn align_to4(x: &[u8]) -> bool {
	// CHECK: ret i1 true
	let (prefix, _middle, suffix) = unsafe { x.align_to::<Align4>() };
	prefix.len() < 4 && suffix.len() < 4
	}

	// CHECK-LABEL: @align_offset_byte_ptr(ptr{{.+}}%ptr)
	#[no_mangle]
	pub fn align_offset_byte_ptr(ptr: *const u8) -> usize {
	// CHECK: %[[ADDR:.+]] = ptrtoint ptr %ptr to [[USIZE:i[0-9]+]]
	// CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
	// CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
	// CHECK: %[[OFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]

	// Since we're offsetting a byte pointer, there's no further fixups
	// CHECK-NOT: shr
	// CHECK-NOT: div
	// CHECK-NOT: select

	// CHECK: ret [[USIZE]] %[[OFFSET]]
	ptr.align_offset(32)
	}

	// CHECK-LABEL: @align_offset_word_slice(ptr{{.+}}align 4{{.+}}%slice.0
	#[no_mangle]
	pub fn align_offset_word_slice(slice: &[Align4]) -> usize {
	// CHECK: %[[ADDR:.+]] = ptrtoint ptr %slice.0 to [[USIZE]]
	// CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
	// CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
	// CHECK: %[[BOFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]
	// CHECK: %[[OFFSET:.+]] = lshr exact [[USIZE]] %[[BOFFSET]], 2

	// Slices are known to be aligned, so we don't need the "maybe -1" path
	// CHECK-NOT: select

	// CHECK: ret [[USIZE]] %[[OFFSET]]
	slice.as_ptr().align_offset(32)
	}

	// CHECK-LABEL: @align_offset_word_ptr(ptr{{.+}}%ptr
	#[no_mangle]
	pub fn align_offset_word_ptr(ptr: *const Align4) -> usize {
	// CHECK: %[[ADDR:.+]] = ptrtoint ptr %ptr to [[USIZE]]
	// CHECK: %[[UP:.+]] = add [[USIZE]] %[[ADDR]], 31
	// CHECK: %[[ALIGNED:.+]] = and [[USIZE]] %[[UP]], -32
	// CHECK: %[[BOFFSET:.+]] = sub [[USIZE]] %[[ALIGNED]], %[[ADDR]]

	// While we can always get a byte offset that will work, if the original
	// pointer is unaligned it might be impossible to return an element offset
	// that will make it aligned. We want it to be a `select`, not a `br`, so
	// that the assembly will be branchless.
	// CHECK: %[[LOW:.+]] = and [[USIZE]] %[[ADDR]], 3
	// CHECK: %[[ORIGINAL_ALIGNED:.+]] = icmp eq [[USIZE]] %[[LOW]], 0
	// CHECK: %[[OFFSET:.+]] = lshr exact [[USIZE]] %[[BOFFSET]], 2
	// CHECK: %[[R:.+]] = select i1 %[[ORIGINAL_ALIGNED]], [[USIZE]] %[[OFFSET]], [[USIZE]] -1

	// CHECK: ret [[USIZE]] %[[R]]
	ptr.align_offset(32)
	}