| // RUN: %clang_cc1 -triple aarch64-none-linux-gnu -emit-llvm -w -o - %s | FileCheck -check-prefix=PCS %s |
| |
| // Sign extension is performed by the callee on AArch64, which means |
| // that we *shouldn't* tag arguments and returns with their extension. |
| |
| // PCS: define i8 @f0(i16 %a) |
| char f0(short a) { |
| return a; |
| } |
| |
| // PCS: define [1 x i64] @f1() |
| struct s1 { char f0; }; |
| struct s1 f1(void) {} |
| |
| // PCS: define [1 x i64] @f2() |
| struct s2 { short f0; }; |
| struct s2 f2(void) {} |
| |
| // PCS: define [1 x i64] @f3() |
| struct s3 { int f0; }; |
| struct s3 f3(void) {} |
| |
| // PCS: define [1 x i64] @f4() |
| struct s4 { struct s4_0 { int f0; } f0; }; |
| struct s4 f4(void) {} |
| |
| // PCS: define [1 x i64] @f5() |
| struct s5 { struct { } f0; int f1; }; |
| struct s5 f5(void) {} |
| |
| // PCS: define [1 x i64] @f6() |
| struct s6 { int f0[1]; }; |
| struct s6 f6(void) {} |
| |
| // PCS: define void @f7() |
| struct s7 { struct { int : 0; } f0; }; |
| struct s7 f7(void) {} |
| |
| // PCS: define void @f8() |
| struct s8 { struct { int : 0; } f0[1]; }; |
| struct s8 f8(void) {} |
| |
| // PCS: define [1 x i64] @f9() |
| struct s9 { long f0; int : 0; }; |
| struct s9 f9(void) {} |
| |
| // PCS: define [1 x i64] @f10() |
| struct s10 { long f0; int : 0; int : 0; }; |
| struct s10 f10(void) {} |
| |
| // PCS: define [1 x i64] @f11() |
| struct s11 { int : 0; long f0; }; |
| struct s11 f11(void) {} |
| |
| // PCS: define [1 x i64] @f12() |
| union u12 { char f0; short f1; int f2; long f3; }; |
| union u12 f12(void) {} |
| |
| // PCS: define %struct.s13 @f13() |
| struct s13 { float f0; }; |
| struct s13 f13(void) {} |
| |
| // PCS: define %union.u14 @f14() |
| union u14 { float f0; }; |
| union u14 f14(void) {} |
| |
| // PCS: define void @f15() |
| void f15(struct s7 a0) {} |
| |
| // PCS: define void @f16() |
| void f16(struct s8 a0) {} |
| |
| // PCS: define [1 x i64] @f17() |
| struct s17 { short f0 : 13; char f1 : 4; }; |
| struct s17 f17(void) {} |
| |
| // PCS: define [1 x i64] @f18() |
| struct s18 { short f0; char f1 : 4; }; |
| struct s18 f18(void) {} |
| |
| // PCS: define [1 x i64] @f19() |
| struct s19 { long f0; struct s8 f1; }; |
| struct s19 f19(void) {} |
| |
| // PCS: define [1 x i64] @f20() |
| struct s20 { struct s8 f1; long f0; }; |
| struct s20 f20(void) {} |
| |
| // PCS: define [1 x i64] @f21() |
| struct s21 { struct {} f1; long f0 : 4; }; |
| struct s21 f21(void) {} |
| |
| // PCS: define { float, float } @f22() |
| // PCS: define { double, double } @f23( |
| _Complex float f22(void) {} |
| _Complex double f23(void) {} |
| |
| // PCS: define [1 x i64] @f24() |
| struct s24 { _Complex char f0; }; |
| struct s24 f24() {} |
| |
| // PCS: define [1 x i64] @f25() |
| struct s25 { _Complex short f0; }; |
| struct s25 f25() {} |
| |
| // PCS: define [1 x i64] @f26() |
| struct s26 { _Complex int f0; }; |
| struct s26 f26() {} |
| |
| // PCS: define [2 x i64] @f27() |
| struct s27 { _Complex long f0; }; |
| struct s27 f27() {} |
| |
| // PCS: define void @f28(i8 %a, i16 %b, i32 %c, i64 %d, float %e, double %f) |
| void f28(char a, short b, int c, long d, float e, double f) {} |
| |
| // PCS: define void @f29([2 x i64] %a |
| struct s29 { int arr[4]; }; |
| void f29(struct s29 a) {} |
| |
| // PCS: define void @f30(%struct.s30* %a) |
| struct s30 { int arr[4]; char c;}; |
| void f30(struct s30 a) {} |
| |
| // PCS: define void @f31([4 x double] %a |
| struct s31 { double arr[4]; }; |
| void f31(struct s31 a) {} |
| |
| // PCS: define void @f32(%struct.s32* %a) |
| struct s32 { float arr[5]; }; |
| void f32(struct s32 a) {} |
| |
| // Not the only solution, but it *is* an HFA. |
| // PCS: define void @f33([3 x float] %a.coerce0, float %a.coerce1) |
| struct s33 { float arr[3]; float a; }; |
| void f33(struct s33 a) {} |
| |
| // PCS: define void @f34(%struct.s34* noalias sret |
| struct s34 { int a[4]; char b }; |
| struct s34 f34(void) {} |
| |
| // PCS: define void @f35() |
| struct s35 {}; |
| void f35(struct s35 a) {} |
| |
| // Check padding is added: |
| // PCS: @f36(i32 %x0, i32 %x1, i32 %x2, i32 %x3, i32 %x4, i32 %x5, i32 %x6, [1 x i64], %struct.s36* byval align 8 %stacked) |
| struct s36 { long a, b; }; |
| void f36(int x0, int x1, int x2, int x3, int x4, int x5, int x6, struct s36 stacked) {} |
| |
| // But only once: |
| // PCS: @f37(i32 %x0, i32 %x1, i32 %x2, i32 %x3, i32 %x4, i32 %x5, i32 %x6, [1 x i64], %struct.s37* byval align 8 %stacked, %struct.s37* byval align 8 %stacked2) |
| struct s37 { long a, b; }; |
| void f37(int x0, int x1, int x2, int x3, int x4, int x5, int x6, struct s37 stacked, struct s37 stacked2) {} |
| |
| // Check for HFA padding args. Also, they should not end up on the stack in a |
| // way which will have holes in when lowered further by LLVM. In particular [3 x |
| // float] would be unacceptable. |
| |
| // PCS: @f38(float %s0, double %d1, float %s2, float %s3, float %s4, float %s5, [2 x float], %struct.s38* byval align 4 %stacked) |
| struct s38 { float a, b, c; }; |
| void f38(float s0, double d1, float s2, float s3, float s4, float s5, struct s38 stacked) {} |
| |
| // Check both VFP and integer arguments are padded (also that pointers and enums |
| // get counted as integer types correctly). |
| struct s39_int { long a, b; }; |
| struct s39_float { float a, b, c, d; }; |
| enum s39_enum { Val1, Val2 }; |
| // PCS: @f39(float %s0, i32 %x0, float %s1, i32* %x1, float %s2, i32 %x2, float %s3, float %s4, i32 %x3, [3 x float], %struct.s39_float* byval align 4 %stacked, i32 %x4, i32 %x5, i32 %x6, [1 x i64], %struct.s39_int* byval align 8 %stacked2) |
| void f39(float s0, int x0, float s1, int *x1, float s2, enum s39_enum x2, float s3, float s4, |
| int x3, struct s39_float stacked, int x4, int x5, int x6, |
| struct s39_int stacked2) {} |
| |
| struct s40 { __int128 a; }; |
| // PCS: @f40(i32 %x0, [1 x i128] %x2_3.coerce, i32 %x4, i32 %x5, i32 %x6, [1 x i64], %struct.s40* byval align 16 %stacked) |
| void f40(int x0, struct s40 x2_3, int x4, int x5, int x6, struct s40 stacked) {} |
| |
| // Checking: __int128 will get properly aligned type, with padding so big struct doesn't use x7. |
| struct s41 { int arr[5]; }; |
| // PCS: @f41(i32 %x0, i32 %x1, i32 %x2, i32 %x3, i32 %x4, i32 %x5, i32 %x6, [1 x i64], i128* byval align 16, %struct.s41* %stacked2) |
| int f41(int x0, int x1, int x2, int x3, int x4, int x5, int x6, __int128 stacked, struct s41 stacked2) {} |
| |
| // Checking: __int128 needing to be aligned in registers will consume correct |
| // number. Previously padding was inserted before "stacked" because x6_7 was |
| // "allocated" to x5 and x6 by clang. |
| // PCS: @f42(i32 %x0, i32 %x1, i32 %x2, i32 %x3, i32 %x4, i128 %x6_7, i128* byval align 16) |
| void f42(int x0, int x1, int x2, int x3, int x4, __int128 x6_7, __int128 stacked) {} |
| |
| // Checking: __fp16 is extended to double when calling variadic functions |
| void variadic(int a, ...); |
| void f43(__fp16 *in) { |
| variadic(42, *in); |
| // CHECK: call void @variadic(i32 42, double |
| } |