// min-llvm-version: 14.0 // ignore-debug: the debug assertions get in the way // compile-flags: -O -Z merge-functions=disabled #![crate_type = "lib"] // Ensure that trivial casts of vec elements are O(1) pub struct Wrapper(T); #[repr(C)] pub struct Foo { a: u64, b: u64, c: u64, d: u64, } // Going from an aggregate struct to another type currently requires Copy to // enable the TrustedRandomAccess specialization. Without it optimizations do not yet // reliably recognize the loops as noop for repr(C) or non-Copy structs. #[derive(Copy, Clone)] pub struct Bar { a: u64, b: u64, c: u64, d: u64, } // CHECK-LABEL: @vec_iterator_cast_primitive #[no_mangle] pub fn vec_iterator_cast_primitive(vec: Vec) -> Vec { // CHECK-NOT: loop // CHECK-NOT: call vec.into_iter().map(|e| e as u8).collect() } // CHECK-LABEL: @vec_iterator_cast_wrapper #[no_mangle] pub fn vec_iterator_cast_wrapper(vec: Vec) -> Vec> { // CHECK-NOT: loop // CHECK-NOT: call vec.into_iter().map(|e| Wrapper(e)).collect() } // CHECK-LABEL: @vec_iterator_cast_unwrap #[no_mangle] pub fn vec_iterator_cast_unwrap(vec: Vec>) -> Vec { // CHECK-NOT: loop // CHECK-NOT: call vec.into_iter().map(|e| e.0).collect() } // CHECK-LABEL: @vec_iterator_cast_aggregate #[no_mangle] pub fn vec_iterator_cast_aggregate(vec: Vec<[u64; 4]>) -> Vec { // FIXME These checks should be the same as other functions. // CHECK-NOT: @__rust_alloc // CHECK-NOT: @__rust_alloc vec.into_iter().map(|e| unsafe { std::mem::transmute(e) }).collect() } // CHECK-LABEL: @vec_iterator_cast_deaggregate #[no_mangle] pub fn vec_iterator_cast_deaggregate(vec: Vec) -> Vec<[u64; 4]> { // FIXME These checks should be the same as other functions. // CHECK-NOT: @__rust_alloc // CHECK-NOT: @__rust_alloc // Safety: For the purpose of this test we assume that Bar layout matches [u64; 4]. // This currently is not guaranteed for repr(Rust) types, but it happens to work here and // the UCG may add additional guarantees for homogenous types in the future that would make this // correct. vec.into_iter().map(|e| unsafe { std::mem::transmute(e) }).collect() }