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// Test that structs aligned to 128 bits are passed with the correct ABI on aarch64.
// revisions:linux darwin windows
//[linux] compile-flags: --target aarch64-unknown-linux-gnu
//[darwin] compile-flags: --target aarch64-apple-darwin
//[windows] compile-flags: --target aarch64-pc-windows-msvc
//[linux] needs-llvm-components: aarch64
//[darwin] needs-llvm-components: aarch64
//[windows] needs-llvm-components: aarch64
#![feature(no_core, lang_items)]
#![crate_type = "lib"]
#![no_core]
#[lang="sized"]
trait Sized { }
#[lang="freeze"]
trait Freeze { }
#[lang="copy"]
trait Copy { }
// Passed as `[i64 x 2]`, since it's an aggregate with size <= 128 bits, align < 128 bits.
#[repr(C)]
pub struct Align8 {
pub a: u64,
pub b: u64,
}
// repr(transparent), so same as above.
#[repr(transparent)]
pub struct Transparent8 {
a: Align8
}
// Passed as `[i64 x 2]`, since it's an aggregate with size <= 128 bits, align < 128 bits.
#[repr(C)]
pub struct Wrapped8 {
a: Align8,
}
extern "C" {
// linux: declare void @test_8([2 x i64], [2 x i64], [2 x i64])
// darwin: declare void @test_8([2 x i64], [2 x i64], [2 x i64])
// windows: declare void @test_8([2 x i64], [2 x i64], [2 x i64])
fn test_8(a: Align8, b: Transparent8, c: Wrapped8);
}
// Passed as `i128`, since it's an aggregate with size <= 128 bits, align = 128 bits.
// EXCEPT on Linux, where there's a special case to use its unadjusted alignment,
// making it the same as `Align8`, so it's be passed as `[i64 x 2]`.
#[repr(C)]
#[repr(align(16))]
pub struct Align16 {
pub a: u64,
pub b: u64,
}
// repr(transparent), so same as above.
#[repr(transparent)]
pub struct Transparent16 {
a: Align16
}
// Passed as `i128`, since it's an aggregate with size <= 128 bits, align = 128 bits.
// On Linux, the "unadjustedness" doesn't recurse into fields, so this is passed as `i128`.
#[repr(C)]
pub struct Wrapped16 {
pub a: Align16,
}
extern "C" {
// linux: declare void @test_16([2 x i64], [2 x i64], i128)
// darwin: declare void @test_16(i128, i128, i128)
// windows: declare void @test_16(i128, i128, i128)
fn test_16(a: Align16, b: Transparent16, c: Wrapped16);
}
// Passed as `i128`, since it's an aggregate with size <= 128 bits, align = 128 bits.
#[repr(C)]
pub struct I128 {
pub a: i128,
}
// repr(transparent), so same as above.
#[repr(transparent)]
pub struct TransparentI128 {
a: I128
}
// Passed as `i128`, since it's an aggregate with size <= 128 bits, align = 128 bits.
#[repr(C)]
pub struct WrappedI128 {
pub a: I128
}
extern "C" {
// linux: declare void @test_i128(i128, i128, i128)
// darwin: declare void @test_i128(i128, i128, i128)
// windows: declare void @test_i128(i128, i128, i128)
fn test_i128(a: I128, b: TransparentI128, c: WrappedI128);
}
// Passed as `[2 x i64]`, since it's an aggregate with size <= 128 bits, align < 128 bits.
// Note that the Linux special case does not apply, because packing is not considered "adjustment".
#[repr(C)]
#[repr(packed)]
pub struct Packed {
pub a: i128,
}
// repr(transparent), so same as above.
#[repr(transparent)]
pub struct TransparentPacked {
a: Packed
}
// Passed as `[2 x i64]`, since it's an aggregate with size <= 128 bits, align < 128 bits.
#[repr(C)]
pub struct WrappedPacked {
pub a: Packed
}
extern "C" {
// linux: declare void @test_packed([2 x i64], [2 x i64], [2 x i64])
// darwin: declare void @test_packed([2 x i64], [2 x i64], [2 x i64])
// windows: declare void @test_packed([2 x i64], [2 x i64], [2 x i64])
fn test_packed(a: Packed, b: TransparentPacked, c: WrappedPacked);
}
pub unsafe fn main(
a1: Align8, a2: Transparent8, a3: Wrapped8,
b1: Align16, b2: Transparent16, b3: Wrapped16,
c1: I128, c2: TransparentI128, c3: WrappedI128,
d1: Packed, d2: TransparentPacked, d3: WrappedPacked,
) {
test_8(a1, a2, a3);
test_16(b1, b2, b3);
test_i128(c1, c2, c3);
test_packed(d1, d2, d3);
}
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