#include #include #include #include #include void zig_panic(void); static void assert_or_panic(bool ok) { if (!ok) { zig_panic(); } } #if defined __powerpc__ && !defined _ARCH_PPC64 # define ZIG_PPC32 #endif #if defined __riscv && defined _ILP32 # define ZIG_RISCV32 #endif #ifdef __i386__ # define ZIG_NO_I128 #endif #ifdef __arm__ # define ZIG_NO_I128 #endif #ifdef __mips__ # define ZIG_NO_I128 #endif #ifdef ZIG_PPC32 # define ZIG_NO_I128 #endif #ifdef ZIG_RISCV32 # define ZIG_NO_I128 #endif #ifdef __i386__ # define ZIG_NO_COMPLEX #endif #ifdef __mips__ # define ZIG_NO_COMPLEX #endif #ifdef __arm__ # define ZIG_NO_COMPLEX #endif #ifdef __powerpc__ # define ZIG_NO_COMPLEX #endif #ifdef __riscv # define ZIG_NO_COMPLEX #endif #ifdef __x86_64__ #define ZIG_NO_RAW_F16 #endif #ifdef __i386__ #define ZIG_NO_RAW_F16 #endif #ifdef __mips__ #define ZIG_NO_RAW_F16 #endif #ifdef __riscv #define ZIG_NO_RAW_F16 #endif #ifdef __wasm__ #define ZIG_NO_RAW_F16 #endif #ifdef __powerpc__ #define ZIG_NO_RAW_F16 #endif #ifdef __aarch64__ #define ZIG_NO_F128 #endif #ifdef __arm__ #define ZIG_NO_F128 #endif #ifdef __mips__ #define ZIG_NO_F128 #endif #ifdef __riscv #define ZIG_NO_F128 #endif #ifdef __powerpc__ #define ZIG_NO_F128 #endif #ifdef __APPLE__ #define ZIG_NO_F128 #endif #ifndef ZIG_NO_I128 struct i128 { __int128 value; }; struct u128 { unsigned __int128 value; }; #endif void zig_u8(uint8_t); void zig_u16(uint16_t); void zig_u32(uint32_t); void zig_u64(uint64_t); #ifndef ZIG_NO_I128 void zig_struct_u128(struct u128); #endif void zig_i8(int8_t); void zig_i16(int16_t); void zig_i32(int32_t); void zig_i64(int64_t); #ifndef ZIG_NO_I128 void zig_struct_i128(struct i128); #endif void zig_five_integers(int32_t, int32_t, int32_t, int32_t, int32_t); void zig_f32(float); void zig_f64(double); void zig_longdouble(long double); void zig_five_floats(float, float, float, float, float); bool zig_ret_bool(); uint8_t zig_ret_u8(); uint16_t zig_ret_u16(); uint32_t zig_ret_u32(); uint64_t zig_ret_u64(); int8_t zig_ret_i8(); int16_t zig_ret_i16(); int32_t zig_ret_i32(); int64_t zig_ret_i64(); void zig_ptr(void *); void zig_bool(bool); // Note: These two functions match the signature of __mulsc3 and __muldc3 in compiler-rt (and libgcc) float complex zig_cmultf_comp(float a_r, float a_i, float b_r, float b_i); double complex zig_cmultd_comp(double a_r, double a_i, double b_r, double b_i); float complex zig_cmultf(float complex a, float complex b); double complex zig_cmultd(double complex a, double complex b); struct BigStruct { uint64_t a; uint64_t b; uint64_t c; uint64_t d; uint8_t e; }; void zig_big_struct(struct BigStruct); union BigUnion { struct BigStruct a; }; void zig_big_union(union BigUnion); struct SmallStructInts { uint8_t a; uint8_t b; uint8_t c; uint8_t d; }; void zig_small_struct_ints(struct SmallStructInts); struct SmallStructInts zig_ret_small_struct_ints(); struct MedStructMixed { uint32_t a; float b; float c; uint32_t d; }; void zig_med_struct_mixed(struct MedStructMixed); struct MedStructMixed zig_ret_med_struct_mixed(); void zig_small_packed_struct(uint8_t); #ifndef ZIG_NO_I128 void zig_big_packed_struct(__int128); #endif struct SplitStructInts { uint64_t a; uint8_t b; uint32_t c; }; void zig_split_struct_ints(struct SplitStructInts); struct SplitStructMixed { uint64_t a; uint8_t b; float c; }; void zig_split_struct_mixed(struct SplitStructMixed); struct SplitStructMixed zig_ret_split_struct_mixed(); struct BigStruct zig_big_struct_both(struct BigStruct); typedef struct Vector3 { float x; float y; float z; } Vector3; typedef struct Vector5 { float x; float y; float z; float w; float q; } Vector5; typedef struct Rect { uint32_t left; uint32_t right; uint32_t top; uint32_t bottom; } Rect; void zig_multiple_struct_ints(struct Rect, struct Rect); typedef struct FloatRect { float left; float right; float top; float bottom; } FloatRect; void zig_multiple_struct_floats(struct FloatRect, struct FloatRect); void run_c_tests(void) { zig_u8(0xff); zig_u16(0xfffe); zig_u32(0xfffffffd); zig_u64(0xfffffffffffffffc); #ifndef ZIG_NO_I128 { struct u128 s = {0xfffffffffffffffc}; zig_struct_u128(s); } #endif zig_i8(-1); zig_i16(-2); zig_i32(-3); zig_i64(-4); #ifndef ZIG_NO_I128 { struct i128 s = {-6}; zig_struct_i128(s); } #endif zig_five_integers(12, 34, 56, 78, 90); zig_f32(12.34f); zig_f64(56.78); zig_longdouble(12.34l); zig_five_floats(1.0f, 2.0f, 3.0f, 4.0f, 5.0f); zig_ptr((void *)0xdeadbeefL); zig_bool(true); #ifndef ZIG_NO_COMPLEX // TODO: Resolve https://github.com/ziglang/zig/issues/8465 //{ // float complex a = 1.25f + I * 2.6f; // float complex b = 11.3f - I * 1.5f; // float complex z = zig_cmultf(a, b); // assert_or_panic(creal(z) == 1.5f); // assert_or_panic(cimag(z) == 13.5f); //} { double complex a = 1.25 + I * 2.6; double complex b = 11.3 - I * 1.5; double complex z = zig_cmultd(a, b); assert_or_panic(creal(z) == 1.5); assert_or_panic(cimag(z) == 13.5); } { float a_r = 1.25f; float a_i = 2.6f; float b_r = 11.3f; float b_i = -1.5f; float complex z = zig_cmultf_comp(a_r, a_i, b_r, b_i); assert_or_panic(creal(z) == 1.5f); assert_or_panic(cimag(z) == 13.5f); } { double a_r = 1.25; double a_i = 2.6; double b_r = 11.3; double b_i = -1.5; double complex z = zig_cmultd_comp(a_r, a_i, b_r, b_i); assert_or_panic(creal(z) == 1.5); assert_or_panic(cimag(z) == 13.5); } #endif #if !defined __mips__ && !defined ZIG_PPC32 { struct BigStruct s = {1, 2, 3, 4, 5}; zig_big_struct(s); } #endif #if !defined __i386__ && !defined __arm__ && !defined __mips__ && \ !defined ZIG_PPC32 && !defined _ARCH_PPC64 { struct SmallStructInts s = {1, 2, 3, 4}; zig_small_struct_ints(s); } #endif #ifndef ZIG_NO_I128 { __int128 s = 0; s |= 1 << 0; s |= (__int128)2 << 64; zig_big_packed_struct(s); } #endif { uint8_t s = 0; s |= 0 << 0; s |= 1 << 2; s |= 2 << 4; s |= 3 << 6; zig_small_packed_struct(s); } #if !defined __i386__ && !defined __arm__ && !defined __mips__ && \ !defined ZIG_PPC32 && !defined _ARCH_PPC64 { struct SplitStructInts s = {1234, 100, 1337}; zig_split_struct_ints(s); } #endif #if !defined __arm__ && !defined ZIG_PPC32 && !defined _ARCH_PPC64 { struct MedStructMixed s = {1234, 100.0f, 1337.0f}; zig_med_struct_mixed(s); } #endif #if !defined __i386__ && !defined __arm__ && !defined __mips__ && \ !defined ZIG_PPC32 && !defined _ARCH_PPC64 { struct SplitStructMixed s = {1234, 100, 1337.0f}; zig_split_struct_mixed(s); } #endif #if !defined __mips__ && !defined ZIG_PPC32 { struct BigStruct s = {30, 31, 32, 33, 34}; struct BigStruct res = zig_big_struct_both(s); assert_or_panic(res.a == 20); assert_or_panic(res.b == 21); assert_or_panic(res.c == 22); assert_or_panic(res.d == 23); assert_or_panic(res.e == 24); } #endif #if !defined ZIG_PPC32 && !defined _ARCH_PPC64 { struct Rect r1 = {1, 21, 16, 4}; struct Rect r2 = {178, 189, 21, 15}; zig_multiple_struct_ints(r1, r2); } #endif #if !defined __mips__ && !defined ZIG_PPC32 { struct FloatRect r1 = {1, 21, 16, 4}; struct FloatRect r2 = {178, 189, 21, 15}; zig_multiple_struct_floats(r1, r2); } #endif { assert_or_panic(zig_ret_bool() == 1); assert_or_panic(zig_ret_u8() == 0xff); assert_or_panic(zig_ret_u16() == 0xffff); assert_or_panic(zig_ret_u32() == 0xffffffff); assert_or_panic(zig_ret_u64() == 0xffffffffffffffff); assert_or_panic(zig_ret_i8() == -1); assert_or_panic(zig_ret_i16() == -1); assert_or_panic(zig_ret_i32() == -1); assert_or_panic(zig_ret_i64() == -1); } } void c_u8(uint8_t x) { assert_or_panic(x == 0xff); } void c_u16(uint16_t x) { assert_or_panic(x == 0xfffe); } void c_u32(uint32_t x) { assert_or_panic(x == 0xfffffffd); } void c_u64(uint64_t x) { assert_or_panic(x == 0xfffffffffffffffcULL); } #ifndef ZIG_NO_I128 void c_struct_u128(struct u128 x) { assert_or_panic(x.value == 0xfffffffffffffffcULL); } #endif void c_i8(int8_t x) { assert_or_panic(x == -1); } void c_i16(int16_t x) { assert_or_panic(x == -2); } void c_i32(int32_t x) { assert_or_panic(x == -3); } void c_i64(int64_t x) { assert_or_panic(x == -4); } #ifndef ZIG_NO_I128 void c_struct_i128(struct i128 x) { assert_or_panic(x.value == -6); } #endif void c_f32(float x) { assert_or_panic(x == 12.34f); } void c_f64(double x) { assert_or_panic(x == 56.78); } void c_long_double(long double x) { assert_or_panic(x == 12.34l); } void c_ptr(void *x) { assert_or_panic(x == (void *)0xdeadbeefL); } void c_bool(bool x) { assert_or_panic(x); } void c_five_integers(int32_t a, int32_t b, int32_t c, int32_t d, int32_t e) { assert_or_panic(a == 12); assert_or_panic(b == 34); assert_or_panic(c == 56); assert_or_panic(d == 78); assert_or_panic(e == 90); } void c_five_floats(float a, float b, float c, float d, float e) { assert_or_panic(a == 1.0); assert_or_panic(b == 2.0); assert_or_panic(c == 3.0); assert_or_panic(d == 4.0); assert_or_panic(e == 5.0); } float complex c_cmultf_comp(float a_r, float a_i, float b_r, float b_i) { assert_or_panic(a_r == 1.25f); assert_or_panic(a_i == 2.6f); assert_or_panic(b_r == 11.3f); assert_or_panic(b_i == -1.5f); return 1.5f + I * 13.5f; } double complex c_cmultd_comp(double a_r, double a_i, double b_r, double b_i) { assert_or_panic(a_r == 1.25); assert_or_panic(a_i == 2.6); assert_or_panic(b_r == 11.3); assert_or_panic(b_i == -1.5); return 1.5 + I * 13.5; } float complex c_cmultf(float complex a, float complex b) { assert_or_panic(creal(a) == 1.25f); assert_or_panic(cimag(a) == 2.6f); assert_or_panic(creal(b) == 11.3f); assert_or_panic(cimag(b) == -1.5f); return 1.5f + I * 13.5f; } double complex c_cmultd(double complex a, double complex b) { assert_or_panic(creal(a) == 1.25); assert_or_panic(cimag(a) == 2.6); assert_or_panic(creal(b) == 11.3); assert_or_panic(cimag(b) == -1.5); return 1.5 + I * 13.5; } void c_big_struct(struct BigStruct x) { assert_or_panic(x.a == 1); assert_or_panic(x.b == 2); assert_or_panic(x.c == 3); assert_or_panic(x.d == 4); assert_or_panic(x.e == 5); } void c_big_union(union BigUnion x) { assert_or_panic(x.a.a == 1); assert_or_panic(x.a.b == 2); assert_or_panic(x.a.c == 3); assert_or_panic(x.a.d == 4); } void c_small_struct_ints(struct SmallStructInts x) { assert_or_panic(x.a == 1); assert_or_panic(x.b == 2); assert_or_panic(x.c == 3); assert_or_panic(x.d == 4); struct SmallStructInts y = zig_ret_small_struct_ints(); assert_or_panic(y.a == 1); assert_or_panic(y.b == 2); assert_or_panic(y.c == 3); assert_or_panic(y.d == 4); } struct SmallStructInts c_ret_small_struct_ints() { struct SmallStructInts s = { .a = 1, .b = 2, .c = 3, .d = 4, }; return s; } void c_med_struct_mixed(struct MedStructMixed x) { assert_or_panic(x.a == 1234); assert_or_panic(x.b == 100.0f); assert_or_panic(x.c == 1337.0f); struct MedStructMixed y = zig_ret_med_struct_mixed(); assert_or_panic(y.a == 1234); assert_or_panic(y.b == 100.0f); assert_or_panic(y.c == 1337.0f); } struct MedStructMixed c_ret_med_struct_mixed() { struct MedStructMixed s = { .a = 1234, .b = 100.0, .c = 1337.0, }; return s; } void c_split_struct_ints(struct SplitStructInts x) { assert_or_panic(x.a == 1234); assert_or_panic(x.b == 100); assert_or_panic(x.c == 1337); } void c_split_struct_mixed(struct SplitStructMixed x) { assert_or_panic(x.a == 1234); assert_or_panic(x.b == 100); assert_or_panic(x.c == 1337.0f); struct SplitStructMixed y = zig_ret_split_struct_mixed(); assert_or_panic(y.a == 1234); assert_or_panic(y.b == 100); assert_or_panic(y.c == 1337.0f); } uint8_t c_ret_small_packed_struct() { uint8_t s = 0; s |= 0 << 0; s |= 1 << 2; s |= 2 << 4; s |= 3 << 6; return s; } void c_small_packed_struct(uint8_t x) { assert_or_panic(((x >> 0) & 0x3) == 0); assert_or_panic(((x >> 2) & 0x3) == 1); assert_or_panic(((x >> 4) & 0x3) == 2); assert_or_panic(((x >> 6) & 0x3) == 3); } #ifndef ZIG_NO_I128 __int128 c_ret_big_packed_struct() { __int128 s = 0; s |= 1 << 0; s |= (__int128)2 << 64; return s; } void c_big_packed_struct(__int128 x) { assert_or_panic(((x >> 0) & 0xFFFFFFFFFFFFFFFF) == 1); assert_or_panic(((x >> 64) & 0xFFFFFFFFFFFFFFFF) == 2); } #endif struct SplitStructMixed c_ret_split_struct_mixed() { struct SplitStructMixed s = { .a = 1234, .b = 100, .c = 1337.0f, }; return s; } struct BigStruct c_big_struct_both(struct BigStruct x) { assert_or_panic(x.a == 1); assert_or_panic(x.b == 2); assert_or_panic(x.c == 3); assert_or_panic(x.d == 4); assert_or_panic(x.e == 5); struct BigStruct y = {10, 11, 12, 13, 14}; return y; } void c_small_struct_floats(Vector3 vec) { assert_or_panic(vec.x == 3.0); assert_or_panic(vec.y == 6.0); assert_or_panic(vec.z == 12.0); } void c_small_struct_floats_extra(Vector3 vec, const char *str) { assert_or_panic(vec.x == 3.0); assert_or_panic(vec.y == 6.0); assert_or_panic(vec.z == 12.0); assert_or_panic(!strcmp(str, "hello")); } void c_big_struct_floats(Vector5 vec) { assert_or_panic(vec.x == 76.0); assert_or_panic(vec.y == -1.0); assert_or_panic(vec.z == -12.0); assert_or_panic(vec.w == 69); assert_or_panic(vec.q == 55); } void c_multiple_struct_ints(Rect x, Rect y) { assert_or_panic(x.left == 1); assert_or_panic(x.right == 21); assert_or_panic(x.top == 16); assert_or_panic(x.bottom == 4); assert_or_panic(y.left == 178); assert_or_panic(y.right == 189); assert_or_panic(y.top == 21); assert_or_panic(y.bottom == 15); } void c_multiple_struct_floats(FloatRect x, FloatRect y) { assert_or_panic(x.left == 1); assert_or_panic(x.right == 21); assert_or_panic(x.top == 16); assert_or_panic(x.bottom == 4); assert_or_panic(y.left == 178); assert_or_panic(y.right == 189); assert_or_panic(y.top == 21); assert_or_panic(y.bottom == 15); } bool c_ret_bool() { return 1; } uint8_t c_ret_u8() { return 0xff; } uint16_t c_ret_u16() { return 0xffff; } uint32_t c_ret_u32() { return 0xffffffff; } uint64_t c_ret_u64() { return 0xffffffffffffffff; } int8_t c_ret_i8() { return -1; } int16_t c_ret_i16() { return -1; } int32_t c_ret_i32() { return -1; } int64_t c_ret_i64() { return -1; } typedef struct { uint32_t a; uint8_t padding[4]; uint64_t b; } StructWithArray; void c_struct_with_array(StructWithArray x) { assert_or_panic(x.a == 1); assert_or_panic(x.b == 2); } StructWithArray c_ret_struct_with_array() { return (StructWithArray){4, {}, 155}; } typedef struct { struct Point { double x; double y; } origin; struct Size { double width; double height; } size; } FloatArrayStruct; void c_float_array_struct(FloatArrayStruct x) { assert_or_panic(x.origin.x == 5); assert_or_panic(x.origin.y == 6); assert_or_panic(x.size.width == 7); assert_or_panic(x.size.height == 8); } FloatArrayStruct c_ret_float_array_struct() { FloatArrayStruct x; x.origin.x = 1; x.origin.y = 2; x.size.width = 3; x.size.height = 4; return x; } typedef uint32_t SmallVec __attribute__((vector_size(2 * sizeof(uint32_t)))); void c_small_vec(SmallVec vec) { assert_or_panic(vec[0] == 1); assert_or_panic(vec[1] == 2); } SmallVec c_ret_small_vec(void) { return (SmallVec){3, 4}; } typedef size_t MediumVec __attribute__((vector_size(4 * sizeof(size_t)))); void c_medium_vec(MediumVec vec) { assert_or_panic(vec[0] == 1); assert_or_panic(vec[1] == 2); assert_or_panic(vec[2] == 3); assert_or_panic(vec[3] == 4); } MediumVec c_ret_medium_vec(void) { return (MediumVec){5, 6, 7, 8}; } typedef size_t BigVec __attribute__((vector_size(8 * sizeof(size_t)))); void c_big_vec(BigVec vec) { assert_or_panic(vec[0] == 1); assert_or_panic(vec[1] == 2); assert_or_panic(vec[2] == 3); assert_or_panic(vec[3] == 4); assert_or_panic(vec[4] == 5); assert_or_panic(vec[5] == 6); assert_or_panic(vec[6] == 7); assert_or_panic(vec[7] == 8); } BigVec c_ret_big_vec(void) { return (BigVec){9, 10, 11, 12, 13, 14, 15, 16}; } typedef struct { float x, y; } Vector2; void c_ptr_size_float_struct(Vector2 vec) { assert_or_panic(vec.x == 1); assert_or_panic(vec.y == 2); } Vector2 c_ret_ptr_size_float_struct(void) { return (Vector2){3, 4}; } /// Tests for Double + Char struct struct DC { double v1; char v2; }; int c_assert_DC(struct DC lv){ if (lv.v1 != -0.25) return 1; if (lv.v2 != 15) return 2; return 0; } struct DC c_ret_DC(){ struct DC lv = { .v1 = -0.25, .v2 = 15 }; return lv; } int zig_assert_DC(struct DC); int c_send_DC(){ return zig_assert_DC(c_ret_DC()); } struct DC zig_ret_DC(); int c_assert_ret_DC(){ return c_assert_DC(zig_ret_DC()); } /// Tests for Char + Float + Float struct struct CFF { char v1; float v2; float v3; }; int c_assert_CFF(struct CFF lv){ if (lv.v1 != 39) return 1; if (lv.v2 != 0.875) return 2; if (lv.v3 != 1.0) return 3; return 0; } struct CFF c_ret_CFF(){ struct CFF lv = { .v1 = 39, .v2 = 0.875, .v3 = 1.0 }; return lv; } int zig_assert_CFF(struct CFF); int c_send_CFF(){ return zig_assert_CFF(c_ret_CFF()); } struct CFF zig_ret_CFF(); int c_assert_ret_CFF(){ return c_assert_CFF(zig_ret_CFF()); } struct PD { void* v1; double v2; }; int c_assert_PD(struct PD lv){ if (lv.v1 != 0) return 1; if (lv.v2 != 0.5) return 2; return 0; } struct PD c_ret_PD(){ struct PD lv = { .v1 = 0, .v2 = 0.5 }; return lv; } int zig_assert_PD(struct PD); int c_send_PD(){ return zig_assert_PD(c_ret_PD()); } struct PD zig_ret_PD(); int c_assert_ret_PD(){ return c_assert_PD(zig_ret_PD()); } struct ByRef { int val; int arr[15]; }; struct ByRef c_modify_by_ref_param(struct ByRef in) { in.val = 42; return in; } struct ByVal { struct { unsigned long x; unsigned long y; unsigned long z; } origin; struct { unsigned long width; unsigned long height; unsigned long depth; } size; }; void c_func_ptr_byval(void *a, void *b, struct ByVal in, unsigned long c, void *d, unsigned long e) { assert_or_panic((intptr_t)a == 1); assert_or_panic((intptr_t)b == 2); assert_or_panic(in.origin.x == 9); assert_or_panic(in.origin.y == 10); assert_or_panic(in.origin.z == 11); assert_or_panic(in.size.width == 12); assert_or_panic(in.size.height == 13); assert_or_panic(in.size.depth == 14); assert_or_panic(c == 3); assert_or_panic((intptr_t)d == 4); assert_or_panic(e == 5); } #ifndef ZIG_NO_RAW_F16 __fp16 c_f16(__fp16 a) { assert_or_panic(a == 12); return 34; } #endif typedef struct { __fp16 a; } f16_struct; f16_struct c_f16_struct(f16_struct a) { assert_or_panic(a.a == 12); return (f16_struct){34}; } #if defined __x86_64__ || defined __i386__ typedef long double f80; f80 c_f80(f80 a) { assert_or_panic((double)a == 12.34); return 56.78; } typedef struct { f80 a; } f80_struct; f80_struct c_f80_struct(f80_struct a) { assert_or_panic((double)a.a == 12.34); return (f80_struct){56.78}; } typedef struct { f80 a; int b; } f80_extra_struct; f80_extra_struct c_f80_extra_struct(f80_extra_struct a) { assert_or_panic((double)a.a == 12.34); assert_or_panic(a.b == 42); return (f80_extra_struct){56.78, 24}; } #endif #ifndef ZIG_NO_F128 __float128 c_f128(__float128 a) { assert_or_panic((double)a == 12.34); return 56.78; } typedef struct { __float128 a; } f128_struct; f128_struct c_f128_struct(f128_struct a) { assert_or_panic((double)a.a == 12.34); return (f128_struct){56.78}; } #endif void __attribute__((stdcall)) stdcall_scalars(char a, short b, int c, float d, double e) { assert_or_panic(a == 1); assert_or_panic(b == 2); assert_or_panic(c == 3); assert_or_panic(d == 4.0); assert_or_panic(e == 5.0); } typedef struct { short x; short y; } Coord2; Coord2 __attribute__((stdcall)) stdcall_coord2(Coord2 a, Coord2 b, Coord2 c) { assert_or_panic(a.x == 0x1111); assert_or_panic(a.y == 0x2222); assert_or_panic(b.x == 0x3333); assert_or_panic(b.y == 0x4444); assert_or_panic(c.x == 0x5555); assert_or_panic(c.y == 0x6666); return (Coord2){123, 456}; } void __attribute__((stdcall)) stdcall_big_union(union BigUnion x) { assert_or_panic(x.a.a == 1); assert_or_panic(x.a.b == 2); assert_or_panic(x.a.c == 3); assert_or_panic(x.a.d == 4); } #ifdef __x86_64__ struct ByRef __attribute__((ms_abi)) c_explict_win64(struct ByRef in) { in.val = 42; return in; } struct ByRef __attribute__((sysv_abi)) c_explict_sys_v(struct ByRef in) { in.val = 42; return in; } #endif