// This test ensures that `mem::replace::` only ever calls `@llvm.memcpy` // with `size_of::()` as the size, and never goes through any wrapper that // may e.g. multiply `size_of::()` with a variable "count" (which is only // known to be `1` after inlining). //@ compile-flags: -C no-prepopulate-passes -Zinline-mir=no //@ ignore-std-debug-assertions // Reason: precondition checks in ptr::read make them a bad candidate for MIR inlining //@ needs-deterministic-layouts #![crate_type = "lib"] #[repr(C, align(8))] pub struct Big([u64; 7]); pub fn replace_big(dst: &mut Big, src: Big) -> Big { // Back in 1.68, this emitted six `memcpy`s. // `read_via_copy` in 1.69 got that down to three. // `write_via_move` and nvro get this down to the essential two. std::mem::replace(dst, src) } // NOTE(eddyb) the `CHECK-NOT`s ensure that the only calls of `@llvm.memcpy` in // the entire output, are the direct calls we want, from `ptr::replace`. // CHECK-NOT: call void @llvm.memcpy // For a large type, we expect exactly three `memcpy`s // CHECK-LABEL: define internal void @{{.+}}mem{{.+}}replace{{.+}}sret([56 x i8]) // CHECK-NOT: call void @llvm.memcpy // CHECK: call void @llvm.memcpy.{{.+}}(ptr align 8 %result, ptr align 8 %dest, i{{.*}} 56, i1 false) // CHECK-NOT: call void @llvm.memcpy // CHECK: call void @llvm.memcpy.{{.+}}(ptr align 8 %dest, ptr align 8 %src, i{{.*}} 56, i1 false) // CHECK-NOT: call void @llvm.memcpy // CHECK-NOT: call void @llvm.memcpy