// unit-test: LowerIntrinsics // ignore-wasm32 compiled with panic=abort by default #![feature(core_intrinsics, intrinsics)] #![crate_type = "lib"] // EMIT_MIR lower_intrinsics.wrapping.LowerIntrinsics.diff pub fn wrapping(a: i32, b: i32) { let _x = core::intrinsics::wrapping_add(a, b); let _y = core::intrinsics::wrapping_sub(a, b); let _z = core::intrinsics::wrapping_mul(a, b); } // EMIT_MIR lower_intrinsics.size_of.LowerIntrinsics.diff pub fn size_of() -> usize { core::intrinsics::size_of::() } // EMIT_MIR lower_intrinsics.align_of.LowerIntrinsics.diff pub fn align_of() -> usize { core::intrinsics::min_align_of::() } // EMIT_MIR lower_intrinsics.forget.LowerIntrinsics.diff pub fn forget(t: T) { core::intrinsics::forget(t) } // EMIT_MIR lower_intrinsics.unreachable.LowerIntrinsics.diff pub fn unreachable() -> ! { unsafe { core::intrinsics::unreachable() }; } // EMIT_MIR lower_intrinsics.non_const.LowerIntrinsics.diff pub fn non_const() -> usize { // Check that lowering works with non-const operand as a func. let size_of_t = core::intrinsics::size_of::; size_of_t() } pub enum E { A, B, C, } // EMIT_MIR lower_intrinsics.discriminant.LowerIntrinsics.diff pub fn discriminant(t: T) { core::intrinsics::discriminant_value(&t); core::intrinsics::discriminant_value(&0); core::intrinsics::discriminant_value(&()); core::intrinsics::discriminant_value(&E::B); } extern "rust-intrinsic" { // Cannot use `std::intrinsics::copy_nonoverlapping` as that is a wrapper function fn copy_nonoverlapping(src: *const T, dst: *mut T, count: usize); } // EMIT_MIR lower_intrinsics.f_copy_nonoverlapping.LowerIntrinsics.diff pub fn f_copy_nonoverlapping() { let src = (); let mut dst = (); unsafe { copy_nonoverlapping(&src as *const _ as *const i32, &mut dst as *mut _ as *mut i32, 0); } } // EMIT_MIR lower_intrinsics.assume.LowerIntrinsics.diff pub fn assume() { unsafe { std::intrinsics::assume(true); } } // EMIT_MIR lower_intrinsics.with_overflow.LowerIntrinsics.diff pub fn with_overflow(a: i32, b: i32) { let _x = core::intrinsics::add_with_overflow(a, b); let _y = core::intrinsics::sub_with_overflow(a, b); let _z = core::intrinsics::mul_with_overflow(a, b); } // EMIT_MIR lower_intrinsics.read_via_copy_primitive.LowerIntrinsics.diff pub fn read_via_copy_primitive(r: &i32) -> i32 { unsafe { core::intrinsics::read_via_copy(r) } } // EMIT_MIR lower_intrinsics.read_via_copy_uninhabited.LowerIntrinsics.diff pub fn read_via_copy_uninhabited(r: &Never) -> Never { unsafe { core::intrinsics::read_via_copy(r) } } pub enum Never {}