// compile-flags: -C opt-level=3 -C target-cpu=x86-64-v3 // only-x86_64 // ignore-debug (the extra assertions get in the way) #![crate_type = "lib"] // CHECK-LABEL: @short_integer_map #[no_mangle] pub fn short_integer_map(x: [u32; 8]) -> [u32; 8] { // CHECK: load <8 x i32> // CHECK: shl <8 x i32> // CHECK: or{{( disjoint)?}} <8 x i32> // CHECK: store <8 x i32> x.map(|x| 2 * x + 1) } // This test is checking that LLVM can SRoA away a bunch of the overhead, // like fully moving the iterators to registers. Notably, previous implementations // of `map` ended up `alloca`ing the whole `array::IntoIterator`, meaning both a // hard-to-eliminate `memcpy` and that the iteration counts needed to be written // out to stack every iteration, even for infallible operations on `Copy` types. // // This is still imperfect, as there's more copies than would be ideal, // but hopefully work like #103830 will improve that in future, // and update this test to be stricter. // // CHECK-LABEL: @long_integer_map #[no_mangle] pub fn long_integer_map(x: [u32; 512]) -> [u32; 512] { // CHECK: start: // CHECK-NEXT: alloca [512 x i32] // CHECK-NOT: alloca // CHECK: mul <{{[0-9]+}} x i32> // CHECK: add <{{[0-9]+}} x i32> x.map(|x| 13 * x + 7) }