rust/tests/codegen/avr/avr-func-addrspace.rs

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// compile-flags: -O --target=avr-unknown-gnu-atmega328 --crate-type=rlib
// needs-llvm-components: avr
// This test validates that function pointers can be stored in global variables
// and called upon. It ensures that Rust emits function pointers in the correct
// address space to LLVM so that an assertion error relating to casting is
// not triggered.
//
// It also validates that functions can be called through function pointers
// through traits.
#![feature(no_core, lang_items, intrinsics, unboxed_closures, arbitrary_self_types)]
#![crate_type = "lib"]
#![no_core]
#[lang = "sized"]
pub trait Sized { }
#[lang = "copy"]
pub trait Copy { }
#[lang = "receiver"]
pub trait Receiver { }
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#[lang = "tuple_trait"]
pub trait Tuple { }
pub struct Result<T, E> { _a: T, _b: E }
impl Copy for usize {}
impl Copy for &usize {}
#[lang = "drop_in_place"]
pub unsafe fn drop_in_place<T: ?Sized>(_: *mut T) {}
#[lang = "fn_once"]
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pub trait FnOnce<Args: Tuple> {
#[lang = "fn_once_output"]
type Output;
extern "rust-call" fn call_once(self, args: Args) -> Self::Output;
}
#[lang = "fn_mut"]
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pub trait FnMut<Args: Tuple> : FnOnce<Args> {
extern "rust-call" fn call_mut(&mut self, args: Args) -> Self::Output;
}
#[lang = "fn"]
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pub trait Fn<Args: Tuple>: FnOnce<Args> {
/// Performs the call operation.
extern "rust-call" fn call(&self, args: Args) -> Self::Output;
}
extern "rust-intrinsic" {
pub fn transmute<Src, Dst>(src: Src) -> Dst;
}
pub static mut STORAGE_FOO: fn(&usize, &mut u32) -> Result<(), ()> = arbitrary_black_box;
pub static mut STORAGE_BAR: u32 = 12;
fn arbitrary_black_box(ptr: &usize, _: &mut u32) -> Result<(), ()> {
let raw_ptr = ptr as *const usize;
let _v: usize = unsafe { *raw_ptr };
loop {}
}
#[inline(never)]
#[no_mangle]
fn call_through_fn_trait(a: &mut impl Fn<(), Output=()>) {
(*a)()
}
#[inline(never)]
fn update_bar_value() {
unsafe {
STORAGE_BAR = 88;
}
}
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// CHECK: define dso_local void @test(){{.+}}addrspace(1)
#[no_mangle]
pub extern "C" fn test() {
let mut buf = 7;
// A call through the Fn trait must use address space 1.
//
// CHECK: call{{.+}}addrspace(1) void @call_through_fn_trait()
call_through_fn_trait(&mut update_bar_value);
// A call through a global variable must use address space 1.
// CHECK: load {{.*}}addrspace(1){{.+}}FOO
unsafe {
STORAGE_FOO(&1, &mut buf);
}
}
// Validate that we can codegen transmutes between data ptrs and fn ptrs.
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// CHECK: define{{.+}}ptr addrspace(1) @transmute_data_ptr_to_fn(ptr{{.*}} %x)
#[no_mangle]
pub unsafe fn transmute_data_ptr_to_fn(x: *const ()) -> fn() {
// It doesn't matter precisely how this is codegenned (through memory or an addrspacecast),
// as long as it doesn't cause a verifier error by using `bitcast`.
transmute(x)
}
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// CHECK: define{{.+}}ptr @transmute_fn_ptr_to_data(ptr addrspace(1){{.*}} %x)
#[no_mangle]
pub unsafe fn transmute_fn_ptr_to_data(x: fn()) -> *const () {
// It doesn't matter precisely how this is codegenned (through memory or an addrspacecast),
// as long as it doesn't cause a verifier error by using `bitcast`.
transmute(x)
}
pub enum Either<T, U> { A(T), B(U) }
// Previously, we would codegen this as passing/returning a scalar pair of `{ i8, ptr }`,
// with the `ptr` field representing both `&i32` and `fn()` depending on the variant.
// This is incorrect, because `fn()` should be `ptr addrspace(1)`, not `ptr`.
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// CHECK: define{{.+}}void @should_not_combine_addrspace(ptr{{.+}}sret{{.+}}%_0, ptr{{.+}}%x)
#[no_mangle]
#[inline(never)]
pub fn should_not_combine_addrspace(x: Either<&i32, fn()>) -> Either<&i32, fn()> {
x
}
// The incorrectness described above would result in us producing (after optimizations)
// a `ptrtoint`/`inttoptr` roundtrip to convert from `ptr` to `ptr addrspace(1)`.
// CHECK-LABEL: @call_with_fn_ptr
#[no_mangle]
pub fn call_with_fn_ptr<'a>(f: fn()) -> Either<&'a i32, fn()> {
// CHECK-NOT: ptrtoint
// CHECK-NOT: inttoptr
// CHECK: call addrspace(1) void @should_not_combine_addrspace
should_not_combine_addrspace(Either::B(f))
}