// RUN: %clang_cc1 %s -fsyntax-only -verify -pedantic -Wstrlcpy-strlcat-size -Wno-string-plus-int -triple=i686-apple-darwin9 // This test needs to set the target because it uses __builtin_ia32_vec_ext_v4si int test1(float a, int b) { return __builtin_isless(a, b); // expected-note {{declared here}} } int test2(int a, int b) { return __builtin_islessequal(a, b); // expected-error {{floating point type}} } int test3(double a, float b) { return __builtin_isless(a, b); } int test4(int* a, double b) { return __builtin_islessequal(a, b); // expected-error {{floating point type}} } int test5(float a, long double b) { return __builtin_isless(a, b, b); // expected-error {{too many arguments}} } int test6(float a, long double b) { return __builtin_islessequal(a); // expected-error {{too few arguments}} } #define CFSTR __builtin___CFStringMakeConstantString void test7() { const void *X; X = CFSTR("\242"); // expected-warning {{input conversion stopped}} X = CFSTR("\0"); // no-warning X = CFSTR(242); // expected-error {{CFString literal is not a string constant}} expected-warning {{incompatible integer to pointer conversion}} X = CFSTR("foo", "bar"); // expected-error {{too many arguments to function call}} } // atomics. void test9(short v) { unsigned i, old; old = __sync_fetch_and_add(); // expected-error {{too few arguments to function call}} old = __sync_fetch_and_add(&old); // expected-error {{too few arguments to function call}} old = __sync_fetch_and_add((unsigned*)0, 42i); // expected-warning {{imaginary constants are a GNU extension}} // PR7600: Pointers are implicitly casted to integers and back. void *old_ptr = __sync_val_compare_and_swap((void**)0, 0, 0); // Ensure the return type is correct even when implicit casts are stripped // away. This triggers an assertion while checking the comparison otherwise. if (__sync_fetch_and_add(&old, 1) == 1) { } } // overloaded atomics should be declared only once. void test9_1(volatile int* ptr, int val) { __sync_fetch_and_add_4(ptr, val); } void test9_2(volatile int* ptr, int val) { __sync_fetch_and_add(ptr, val); } void test9_3(volatile int* ptr, int val) { __sync_fetch_and_add_4(ptr, val); __sync_fetch_and_add(ptr, val); __sync_fetch_and_add(ptr, val); __sync_fetch_and_add_4(ptr, val); __sync_fetch_and_add_4(ptr, val); } void test9_4(volatile int* ptr, int val) { // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_fetch_and_nand(ptr, val); } // rdar://7236819 void test10(void) __attribute__((noreturn)); void test10(void) { __asm__("int3"); __builtin_unreachable(); // No warning about falling off the end of a noreturn function. } void test11(int X) { switch (X) { case __builtin_eh_return_data_regno(0): // constant foldable. break; } __builtin_eh_return_data_regno(X); // expected-error {{argument to '__builtin_eh_return_data_regno' must be a constant integer}} } // PR5062 void test12(void) __attribute__((__noreturn__)); void test12(void) { __builtin_trap(); // no warning because trap is noreturn. } void test_unknown_builtin(int a, int b) { __builtin_isles(a, b); // expected-error{{use of unknown builtin}} \ // expected-note{{did you mean '__builtin_isless'?}} } int test13() { __builtin_eh_return(0, 0); // no warning, eh_return never returns. } // void test14() { int old; old = __sync_fetch_and_min((volatile int *)&old, 1); } // void test15(const char *s) { __builtin_printf("string is %s\n", s); } // PR7885 int test16() { return __builtin_constant_p() + // expected-error{{too few arguments}} __builtin_constant_p(1, 2); // expected-error {{too many arguments}} } // __builtin_constant_p cannot resolve non-constants as a file scoped array. int expr; char y[__builtin_constant_p(expr) ? -1 : 1]; // no warning, the builtin is false. // no warning, the builtin is false. struct foo { int a; }; struct foo x = (struct foo) { __builtin_constant_p(42) ? 37 : 927 }; const int test17_n = 0; const char test17_c[] = {1, 2, 3, 0}; const char test17_d[] = {1, 2, 3, 4}; typedef int __attribute__((vector_size(16))) IntVector; struct Aggregate { int n; char c; }; enum Enum { EnumValue1, EnumValue2 }; typedef __typeof(sizeof(int)) size_t; size_t strlen(const char *); void test17() { #define ASSERT(...) { enum { folded = (__VA_ARGS__) }; int arr[folded ? 1 : -1]; } #define T(...) ASSERT(__builtin_constant_p(__VA_ARGS__)) #define F(...) ASSERT(!__builtin_constant_p(__VA_ARGS__)) // __builtin_constant_p returns 1 if the argument folds to: // - an arithmetic constant with value which is known at compile time T(test17_n); T(&test17_c[3] - test17_c); T(3i + 5); // expected-warning {{imaginary constant}} T(4.2 * 7.6); T(EnumValue1); T((enum Enum)(int)EnumValue2); // - the address of the first character of a string literal, losslessly cast // to any type T("string literal"); T((double*)"string literal"); T("string literal" + 0); T((long)"string literal"); // ... and otherwise returns 0. F("string literal" + 1); F(&test17_n); F(test17_c); F(&test17_c); F(&test17_d); F((struct Aggregate){0, 1}); F((IntVector){0, 1, 2, 3}); F(test17); // Ensure that a technique used in glibc is handled correctly. #define OPT(...) (__builtin_constant_p(__VA_ARGS__) && strlen(__VA_ARGS__) < 4) // FIXME: These are incorrectly treated as ICEs because strlen is treated as // a builtin. ASSERT(OPT("abc")); ASSERT(!OPT("abcd")); // In these cases, the strlen is non-constant, but the __builtin_constant_p // is 0: the array size is not an ICE but is foldable. ASSERT(!OPT(test17_c)); // expected-warning {{folding}} ASSERT(!OPT(&test17_c[0])); // expected-warning {{folding}} ASSERT(!OPT((char*)test17_c)); // expected-warning {{folding}} ASSERT(!OPT(test17_d)); // expected-warning {{folding}} ASSERT(!OPT(&test17_d[0])); // expected-warning {{folding}} ASSERT(!OPT((char*)test17_d)); // expected-warning {{folding}} #undef OPT #undef T #undef F } void test18() { char src[1024]; char dst[2048]; size_t result; void *ptr; ptr = __builtin___memccpy_chk(dst, src, '\037', sizeof(src), sizeof(dst)); result = __builtin___strlcpy_chk(dst, src, sizeof(dst), sizeof(dst)); result = __builtin___strlcat_chk(dst, src, sizeof(dst), sizeof(dst)); ptr = __builtin___memccpy_chk(dst, src, '\037', sizeof(src)); // expected-error {{too few arguments to function call}} ptr = __builtin___strlcpy_chk(dst, src, sizeof(dst), sizeof(dst)); // expected-warning {{incompatible integer to pointer conversion}} ptr = __builtin___strlcat_chk(dst, src, sizeof(dst), sizeof(dst)); // expected-warning {{incompatible integer to pointer conversion}} } void no_ms_builtins() { __assume(1); // expected-warning {{implicit declaration}} __noop(1); // expected-warning {{implicit declaration}} __debugbreak(); // expected-warning {{implicit declaration}} } void unavailable() { __builtin_operator_new(0); // expected-error {{'__builtin_operator_new' is only available in C++}} __builtin_operator_delete(0); // expected-error {{'__builtin_operator_delete' is only available in C++}} } // rdar://18259539 size_t strlcpy(char * restrict dst, const char * restrict src, size_t size); size_t strlcat(char * restrict dst, const char * restrict src, size_t size); void Test19(void) { static char b[40]; static char buf[20]; strlcpy(buf, b, sizeof(b)); // expected-warning {{size argument in 'strlcpy' call appears to be size of the source; expected the size of the destination}} \\ // expected-note {{change size argument to be the size of the destination}} __builtin___strlcpy_chk(buf, b, sizeof(b), __builtin_object_size(buf, 0)); // expected-warning {{size argument in '__builtin___strlcpy_chk' call appears to be size of the source; expected the size of the destination}} \ // expected-note {{change size argument to be the size of the destination}} \ // expected-warning {{'strlcpy' will always overflow; destination buffer has size 20, but size argument is 40}} strlcat(buf, b, sizeof(b)); // expected-warning {{size argument in 'strlcat' call appears to be size of the source; expected the size of the destination}} \ // expected-note {{change size argument to be the size of the destination}} __builtin___strlcat_chk(buf, b, sizeof(b), __builtin_object_size(buf, 0)); // expected-warning {{size argument in '__builtin___strlcat_chk' call appears to be size of the source; expected the size of the destination}} \ // expected-note {{change size argument to be the size of the destination}} \ // expected-warning {{'strlcat' will always overflow; destination buffer has size 20, but size argument is 40}} } // rdar://11076881 char * Test20(char *p, const char *in, unsigned n) { static char buf[10]; __builtin___memcpy_chk (&buf[6], in, 5, __builtin_object_size (&buf[6], 0)); // expected-warning {{'memcpy' will always overflow; destination buffer has size 4, but size argument is 5}} __builtin___memcpy_chk (p, "abcde", n, __builtin_object_size (p, 0)); __builtin___memcpy_chk (&buf[5], "abcde", 5, __builtin_object_size (&buf[5], 0)); __builtin___memcpy_chk (&buf[5], "abcde", n, __builtin_object_size (&buf[5], 0)); __builtin___memcpy_chk (&buf[6], "abcde", 5, __builtin_object_size (&buf[6], 0)); // expected-warning {{'memcpy' will always overflow; destination buffer has size 4, but size argument is 5}} return buf; } typedef void (fn_t)(int); void test_builtin_launder(char *p, void *vp, const void *cvp, const volatile int *ip, float *restrict fp, fn_t *fn) { __builtin_launder(); // expected-error {{too few arguments to function call, expected 1, have 0}} __builtin_launder(p, p); // expected-error {{too many arguments to function call, expected 1, have 2}} int x; __builtin_launder(x); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}} char *d = __builtin_launder(p); __builtin_launder(vp); // expected-error {{void pointer argument to '__builtin_launder' is not allowed}} __builtin_launder(cvp); // expected-error {{void pointer argument to '__builtin_launder' is not allowed}} const volatile int *id = __builtin_launder(ip); int *id2 = __builtin_launder(ip); // expected-warning {{discards qualifiers}} float *fd = __builtin_launder(fp); __builtin_launder(fn); // expected-error {{function pointer argument to '__builtin_launder' is not allowed}} } void test21(const int *ptr) { __sync_fetch_and_add(ptr, 1); // expected-error{{address argument to atomic builtin cannot be const-qualified ('const int *' invalid)}} __atomic_fetch_add(ptr, 1, 0); // expected-error {{address argument to atomic operation must be a pointer to non-const type ('const int *' invalid)}} } void test_ei_i42i(_ExtInt(42) *ptr, int value) { __sync_fetch_and_add(ptr, value); // expected-error {{Atomic memory operand must have a power-of-two size}} // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expected-error {{Atomic memory operand must have a power-of-two size}} __atomic_fetch_add(ptr, 1, 0); // expected-error {{argument to atomic builtin of type '_ExtInt' is not supported}} } void test_ei_i64i(_ExtInt(64) *ptr, int value) { __sync_fetch_and_add(ptr, value); // expect success // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expect success __atomic_fetch_add(ptr, 1, 0); // expected-error {{argument to atomic builtin of type '_ExtInt' is not supported}} } void test_ei_ii42(int *ptr, _ExtInt(42) value) { __sync_fetch_and_add(ptr, value); // expect success // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expect success } void test_ei_ii64(int *ptr, _ExtInt(64) value) { __sync_fetch_and_add(ptr, value); // expect success // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expect success } void test_ei_i42i42(_ExtInt(42) *ptr, _ExtInt(42) value) { __sync_fetch_and_add(ptr, value); // expected-error {{Atomic memory operand must have a power-of-two size}} // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expected-error {{Atomic memory operand must have a power-of-two size}} } void test_ei_i64i64(_ExtInt(64) *ptr, _ExtInt(64) value) { __sync_fetch_and_add(ptr, value); // expect success // expected-warning@+1 {{the semantics of this intrinsic changed with GCC version 4.4 - the newer semantics are provided here}} __sync_nand_and_fetch(ptr, value); // expect success } void test22(void) { (void)__builtin_signbit(); // expected-error{{too few arguments to function call, expected 1, have 0}} (void)__builtin_signbit(1.0, 2.0, 3.0); // expected-error{{too many arguments to function call, expected 1, have 3}} (void)__builtin_signbit(1); // expected-error {{floating point classification requires argument of floating point type (passed in 'int')}} (void)__builtin_signbit(1.0); (void)__builtin_signbit(1.0f); (void)__builtin_signbit(1.0L); (void)__builtin_signbitf(); // expected-error{{too few arguments to function call, expected 1, have 0}} (void)__builtin_signbitf(1.0, 2.0, 3.0); // expected-error{{too many arguments to function call, expected 1, have 3}} (void)__builtin_signbitf(1); (void)__builtin_signbitf(1.0); (void)__builtin_signbitf(1.0f); (void)__builtin_signbitf(1.0L); (void)__builtin_signbitl(); // expected-error{{too few arguments to function call, expected 1, have 0}} (void)__builtin_signbitl(1.0, 2.0, 3.0); // expected-error{{too many arguments to function call, expected 1, have 3}} (void)__builtin_signbitl(1); (void)__builtin_signbitl(1.0); (void)__builtin_signbitl(1.0f); (void)__builtin_signbitl(1.0L); } // rdar://43909200 #define memcpy(x,y,z) __builtin___memcpy_chk(x,y,z, __builtin_object_size(x,0)) #define my_memcpy(x,y,z) __builtin___memcpy_chk(x,y,z, __builtin_object_size(x,0)) void test23() { char src[1024]; char buf[10]; memcpy(buf, src, 11); // expected-warning{{'memcpy' will always overflow; destination buffer has size 10, but size argument is 11}} my_memcpy(buf, src, 11); // expected-warning{{'memcpy' will always overflow; destination buffer has size 10, but size argument is 11}} } // Test that __builtin_is_constant_evaluated() is not allowed in C int test_cxx_builtin() { // expected-error@+1 {{use of unknown builtin '__builtin_is_constant_evaluated'}} return __builtin_is_constant_evaluated(); } void test_builtin_complex() { __builtin_complex(); // expected-error {{too few}} __builtin_complex(1); // expected-error {{too few}} __builtin_complex(1, 2, 3); // expected-error {{too many}} _Static_assert(_Generic(__builtin_complex(1.0f, 2.0f), _Complex float: 1, default: 0), ""); _Static_assert(_Generic(__builtin_complex(1.0, 2.0), _Complex double: 1, default: 0), ""); _Static_assert(_Generic(__builtin_complex(1.0l, 2.0l), _Complex long double: 1, default: 0), ""); __builtin_complex(1, 2); // expected-error {{argument type 'int' is not a real floating point type}} __builtin_complex(1, 2.0); // expected-error {{argument type 'int' is not a real floating point type}} __builtin_complex(1.0, 2); // expected-error {{argument type 'int' is not a real floating point type}} __builtin_complex(1.0, 2.0f); // expected-error {{arguments are of different types ('double' vs 'float')}} __builtin_complex(1.0f, 2.0); // expected-error {{arguments are of different types ('float' vs 'double')}} } _Complex double builtin_complex_static_init = __builtin_complex(1.0, 2.0);