// 32-bit systems will return 128bit values using a return area pointer. //@ revisions: bit32 bit64 //@[bit32] only-32bit //@[bit64] only-64bit //@ compile-flags: -O -C no-prepopulate-passes -Z randomize-layout=no #![crate_type = "lib"] #[repr(transparent)] pub struct Transparent32(u32); // CHECK: i32 @make_transparent(i32{{.*}} %x) #[no_mangle] pub fn make_transparent(x: u32) -> Transparent32 { // CHECK-NOT: alloca // CHECK: ret i32 %x let a = Transparent32(x); a } // CHECK: i32 @make_closure(i32{{.*}} %x) #[no_mangle] pub fn make_closure(x: i32) -> impl Fn(i32) -> i32 { // CHECK-NOT: alloca // CHECK: ret i32 %x move |y| x + y } #[repr(transparent)] pub struct TransparentPair((), (u16, u16), ()); // CHECK: { i16, i16 } @make_transparent_pair(i16 noundef %x.0, i16 noundef %x.1) #[no_mangle] pub fn make_transparent_pair(x: (u16, u16)) -> TransparentPair { // CHECK-NOT: alloca // CHECK: %[[TEMP0:.+]] = insertvalue { i16, i16 } poison, i16 %x.0, 0 // CHECK: %[[TEMP1:.+]] = insertvalue { i16, i16 } %[[TEMP0]], i16 %x.1, 1 // CHECK: ret { i16, i16 } %[[TEMP1]] let a = TransparentPair((), x, ()); a } // CHECK-LABEL: { i32, i32 } @make_2_tuple(i32{{.*}} %x) #[no_mangle] pub fn make_2_tuple(x: u32) -> (u32, u32) { // CHECK-NOT: alloca // CHECK: %[[TEMP0:.+]] = insertvalue { i32, i32 } poison, i32 %x, 0 // CHECK: %[[TEMP1:.+]] = insertvalue { i32, i32 } %[[TEMP0]], i32 %x, 1 // CHECK: ret { i32, i32 } %[[TEMP1]] let pair = (x, x); pair } // CHECK-LABEL: i8 @make_cell_of_bool(i1 noundef zeroext %b) #[no_mangle] pub fn make_cell_of_bool(b: bool) -> std::cell::Cell { // CHECK: %[[BYTE:.+]] = zext i1 %b to i8 // CHECK: ret i8 %[[BYTE]] std::cell::Cell::new(b) } // CHECK-LABEL: { i8, i16 } @make_cell_of_bool_and_short(i1 noundef zeroext %b, i16{{.*}} %s) #[no_mangle] pub fn make_cell_of_bool_and_short(b: bool, s: u16) -> std::cell::Cell<(bool, u16)> { // CHECK-NOT: alloca // CHECK: %[[BYTE:.+]] = zext i1 %b to i8 // CHECK: %[[TEMP0:.+]] = insertvalue { i8, i16 } poison, i8 %[[BYTE]], 0 // CHECK: %[[TEMP1:.+]] = insertvalue { i8, i16 } %[[TEMP0]], i16 %s, 1 // CHECK: ret { i8, i16 } %[[TEMP1]] std::cell::Cell::new((b, s)) } // CHECK-LABEL: { i1, i1 } @make_tuple_of_bools(i1 noundef zeroext %a, i1 noundef zeroext %b) #[no_mangle] pub fn make_tuple_of_bools(a: bool, b: bool) -> (bool, bool) { // CHECK-NOT: alloca // CHECK: %[[TEMP0:.+]] = insertvalue { i1, i1 } poison, i1 %a, 0 // CHECK: %[[TEMP1:.+]] = insertvalue { i1, i1 } %[[TEMP0]], i1 %b, 1 // CHECK: ret { i1, i1 } %[[TEMP1]] (a, b) } pub struct Struct0(); // CHECK-LABEL: void @make_struct_0() #[no_mangle] pub fn make_struct_0() -> Struct0 { // CHECK: ret void let s = Struct0(); s } pub struct Struct1(i32); // CHECK-LABEL: i32 @make_struct_1(i32{{.*}} %a) #[no_mangle] pub fn make_struct_1(a: i32) -> Struct1 { // CHECK: ret i32 %a let s = Struct1(a); s } pub struct Struct2Asc(i16, i64); // bit32-LABEL: void @make_struct_2_asc({{.*}} sret({{[^,]*}}) {{.*}} %s, // bit64-LABEL: { i64, i16 } @make_struct_2_asc( // CHECK-SAME: i16{{.*}} %a, i64 noundef %b) #[no_mangle] pub fn make_struct_2_asc(a: i16, b: i64) -> Struct2Asc { // CHECK-NOT: alloca // bit32: %[[GEP:.+]] = getelementptr inbounds i8, ptr %s, i32 8 // bit32: store i16 %a, ptr %[[GEP]] // bit32: store i64 %b, ptr %s // bit64: %[[TEMP0:.+]] = insertvalue { i64, i16 } poison, i64 %b, 0 // bit64: %[[TEMP1:.+]] = insertvalue { i64, i16 } %[[TEMP0]], i16 %a, 1 // bit64: ret { i64, i16 } %[[TEMP1]] let s = Struct2Asc(a, b); s } pub struct Struct2Desc(i64, i16); // bit32-LABEL: void @make_struct_2_desc({{.*}} sret({{[^,]*}}) {{.*}} %s, // bit64-LABEL: { i64, i16 } @make_struct_2_desc( // CHECK-SAME: i64 noundef %a, i16{{.*}} %b) #[no_mangle] pub fn make_struct_2_desc(a: i64, b: i16) -> Struct2Desc { // CHECK-NOT: alloca // bit32: store i64 %a, ptr %s // bit32: %[[GEP:.+]] = getelementptr inbounds i8, ptr %s, i32 8 // bit32: store i16 %b, ptr %[[GEP]] // bit64: %[[TEMP0:.+]] = insertvalue { i64, i16 } poison, i64 %a, 0 // bit64: %[[TEMP1:.+]] = insertvalue { i64, i16 } %[[TEMP0]], i16 %b, 1 // bit64: ret { i64, i16 } %[[TEMP1]] let s = Struct2Desc(a, b); s }