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//@ assembly-output: emit-asm
//@ compile-flags: --target hexagon-unknown-linux-musl
//@ needs-llvm-components: hexagon
#![feature(no_core, lang_items, rustc_attrs, repr_simd, asm_experimental_arch)]
#![crate_type = "rlib"]
#![no_core]
#![allow(asm_sub_register, non_camel_case_types)]
#[rustc_builtin_macro]
macro_rules! asm {
() => {};
}
#[rustc_builtin_macro]
macro_rules! concat {
() => {};
}
#[rustc_builtin_macro]
macro_rules! stringify {
() => {};
}
#[lang = "sized"]
trait Sized {}
#[lang = "copy"]
trait Copy {}
type ptr = *const i32;
impl Copy for i8 {}
impl Copy for i16 {}
impl Copy for i32 {}
impl Copy for f32 {}
impl Copy for ptr {}
extern "C" {
fn extern_func();
static extern_static: u8;
}
macro_rules! check {
($func:ident $ty:ident $class:ident) => {
#[no_mangle]
pub unsafe fn $func(x: $ty) -> $ty {
// Hack to avoid function merging
extern "Rust" {
fn dont_merge(s: &str);
}
dont_merge(stringify!($func));
let y;
asm!("{} = {}", out($class) y, in($class) x);
y
}
};
}
macro_rules! check_reg {
($func:ident $ty:ident $reg:tt) => {
#[no_mangle]
pub unsafe fn $func(x: $ty) -> $ty {
// Hack to avoid function merging
extern "Rust" {
fn dont_merge(s: &str);
}
dont_merge(stringify!($func));
let y;
asm!(concat!($reg, " = ", $reg), lateout($reg) y, in($reg) x);
y
}
};
}
// CHECK-LABEL: sym_static:
// CHECK: InlineAsm Start
// CHECK: r0 = {{#+}}extern_static
// CHECK: InlineAsm End
#[no_mangle]
pub unsafe fn sym_static() {
// Hack to avoid function merging
extern "Rust" {
fn dont_merge(s: &str);
}
dont_merge(stringify!($func));
asm!("r0 = #{}", sym extern_static);
}
// CHECK-LABEL: sym_fn:
// CHECK: InlineAsm Start
// CHECK: r0 = {{#+}}extern_func
// CHECK: InlineAsm End
#[no_mangle]
pub unsafe fn sym_fn() {
// Hack to avoid function merging
extern "Rust" {
fn dont_merge(s: &str);
}
dont_merge(stringify!($func));
asm!("r0 = #{}", sym extern_func);
}
// This is a test for multi-instruction packets,
// which require the escaped braces.
//
// CHECK-LABEL: packet:
// CHECK: InlineAsm Start
// CHECK: {
// CHECK: r{{[0-9]+}} = r0
// CHECK: memw(r1{{(\+#0)?}}) = r{{[0-9]+}}
// CHECK: }
// CHECK: InlineAsm End
#[no_mangle]
pub unsafe fn packet() {
let val = 1024;
asm!("{{
{} = r0
memw(r1) = {}
}}", out(reg) _, in(reg) &val);
}
// CHECK-LABEL: reg_ptr:
// CHECK: InlineAsm Start
// CHECK: r{{[0-9]+}} = r{{[0-9]+}}
// CHECK: InlineAsm End
check!(reg_ptr ptr reg);
// CHECK-LABEL: reg_f32:
// CHECK: InlineAsm Start
// CHECK: r{{[0-9]+}} = r{{[0-9]+}}
// CHECK: InlineAsm End
check!(reg_f32 f32 reg);
// CHECK-LABEL: reg_i32:
// CHECK: InlineAsm Start
// CHECK: r{{[0-9]+}} = r{{[0-9]+}}
// CHECK: InlineAsm End
check!(reg_i32 i32 reg);
// CHECK-LABEL: reg_i8:
// CHECK: InlineAsm Start
// CHECK: r{{[0-9]+}} = r{{[0-9]+}}
// CHECK: InlineAsm End
check!(reg_i8 i8 reg);
// CHECK-LABEL: reg_i16:
// CHECK: InlineAsm Start
// CHECK: r{{[0-9]+}} = r{{[0-9]+}}
// CHECK: InlineAsm End
check!(reg_i16 i16 reg);
// CHECK-LABEL: r0_ptr:
// CHECK: InlineAsm Start
// CHECK: r0 = r0
// CHECK: InlineAsm End
check_reg!(r0_ptr ptr "r0");
// CHECK-LABEL: r0_f32:
// CHECK: InlineAsm Start
// CHECK: r0 = r0
// CHECK: InlineAsm End
check_reg!(r0_f32 f32 "r0");
// CHECK-LABEL: r0_i32:
// CHECK: InlineAsm Start
// CHECK: r0 = r0
// CHECK: InlineAsm End
check_reg!(r0_i32 i32 "r0");
// CHECK-LABEL: r0_i8:
// CHECK: InlineAsm Start
// CHECK: r0 = r0
// CHECK: InlineAsm End
check_reg!(r0_i8 i8 "r0");
// CHECK-LABEL: r0_i16:
// CHECK: InlineAsm Start
// CHECK: r0 = r0
// CHECK: InlineAsm End
check_reg!(r0_i16 i16 "r0");
|
