// RUN: %clang_cc1 -triple x86_64-linux -verify=expected,all -std=c11 -Wcast-qual %s -fexperimental-new-constant-interpreter // RUN: %clang_cc1 -triple x86_64-linux -verify=pedantic,pedantic-expected,all -std=c11 -Wcast-qual -pedantic %s -fexperimental-new-constant-interpreter // RUN: %clang_cc1 -triple x86_64-linux -verify=ref,all -std=c11 -Wcast-qual %s // RUN: %clang_cc1 -triple x86_64-linux -verify=pedantic,pedantic-ref,all -std=c11 -Wcast-qual -pedantic %s typedef __INTPTR_TYPE__ intptr_t; typedef __PTRDIFF_TYPE__ ptrdiff_t; _Static_assert(1, ""); _Static_assert(__objc_yes, ""); _Static_assert(!__objc_no, ""); _Static_assert(0 != 1, ""); _Static_assert(1.0 == 1.0, ""); // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-expected-warning {{not an integer constant expression}} _Static_assert(1 && 1.0, ""); // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-expected-warning {{not an integer constant expression}} _Static_assert( (5 > 4) + (3 > 2) == 2, ""); _Static_assert(!!1.0, ""); // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-expected-warning {{not an integer constant expression}} _Static_assert(!!1, ""); _Static_assert(!(_Bool){(void*)0}, ""); // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-expected-warning {{not an integer constant expression}} int a = (1 == 1 ? 5 : 3); _Static_assert(a == 5, ""); // all-error {{not an integral constant expression}} const int DiscardedPtrToIntCast = ((intptr_t)((void*)0), 0); // all-warning {{left operand of comma operator has no effect}} const int b = 3; _Static_assert(b == 3, ""); // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-expected-warning {{not an integer constant expression}} const int c; // all-note {{declared here}} _Static_assert(c == 0, ""); // ref-error {{not an integral constant expression}} \ // ref-note {{initializer of 'c' is unknown}} \ // pedantic-ref-error {{not an integral constant expression}} \ // pedantic-ref-note {{initializer of 'c' is unknown}} \ // expected-error {{not an integral constant expression}} \ // expected-note {{initializer of 'c' is unknown}} \ // pedantic-expected-error {{not an integral constant expression}} \ // pedantic-expected-note {{initializer of 'c' is unknown}} _Static_assert(&c != 0, ""); // ref-warning {{always true}} \ // pedantic-ref-warning {{always true}} \ // pedantic-ref-warning {{is a GNU extension}} \ // expected-warning {{always true}} \ // pedantic-expected-warning {{always true}} \ // pedantic-expected-warning {{is a GNU extension}} _Static_assert(&a != 0, ""); // ref-warning {{always true}} \ // pedantic-ref-warning {{always true}} \ // pedantic-ref-warning {{is a GNU extension}} \ // expected-warning {{always true}} \ // pedantic-expected-warning {{always true}} \ // pedantic-expected-warning {{is a GNU extension}} _Static_assert((&c + 1) != 0, ""); // pedantic-ref-warning {{is a GNU extension}} \ // pedantic-expected-warning {{is a GNU extension}} _Static_assert((&a + 100) != 0, ""); // pedantic-ref-warning {{is a GNU extension}} \ // pedantic-ref-note {{100 of non-array}} \ // pedantic-expected-note {{100 of non-array}} \ // pedantic-expected-warning {{is a GNU extension}} _Static_assert((&a - 100) != 0, ""); // pedantic-ref-warning {{is a GNU extension}} \ // pedantic-expected-warning {{is a GNU extension}} \ // pedantic-ref-note {{-100 of non-array}} \ // pedantic-expected-note {{-100 of non-array}} /// extern variable of a composite type. extern struct Test50S Test50; _Static_assert(&Test50 != (void*)0, ""); // all-warning {{always true}} \ // pedantic-warning {{is a GNU extension}} \ // pedantic-note {{this conversion is not allowed in a constant expression}} struct y {int x,y;}; int a2[(intptr_t)&((struct y*)0)->y]; // all-warning {{folded to constant array}} const struct y *yy = (struct y*)0; const intptr_t L = (intptr_t)(&(yy->y)); // all-error {{not a compile-time constant}} _Static_assert((long)&((struct y*)0)->y > 0, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-ref-note {{this conversion is not allowed in a constant expression}} \ // pedantic-expected-warning {{GNU extension}} \ // pedantic-expected-note {{this conversion is not allowed in a constant expression}} const ptrdiff_t m = &m + 137 - &m; _Static_assert(m == 137, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} /// from test/Sema/switch.c, used to cause an assertion failure. void f (int z) { while (z) { default: z--; // all-error {{'default' statement not in switch}} } } int expr; int chooseexpr[__builtin_choose_expr(1, 1, expr)]; int somefunc(int i) { return (i, 65537) * 65537; // all-warning {{left operand of comma operator has no effect}} \ // all-warning {{overflow in expression; result is 131'073 with type 'int'}} } #pragma clang diagnostic ignored "-Wpointer-to-int-cast" struct ArrayStruct { char n[1]; }; char name2[(int)&((struct ArrayStruct*)0)->n]; // expected-warning {{folded to constant array}} \ // pedantic-expected-warning {{folded to constant array}} \ // ref-warning {{folded to constant array}} \ // pedantic-ref-warning {{folded to constant array}} _Static_assert(sizeof(name2) == 0, ""); #ifdef __SIZEOF_INT128__ void *PR28739d = &(&PR28739d)[(__int128)(unsigned long)-1]; // all-warning {{refers past the last possible element}} #endif extern float global_float; struct XX { int a, *b; }; struct XY { int before; struct XX xx, *xp; float* after; } xy[] = { 0, 0, &xy[0].xx.a, &xy[0].xx, &global_float, [1].xx = 0, &xy[1].xx.a, &xy[1].xx, &global_float, 0, // all-note {{previous initialization is here}} 0, // all-note {{previous initialization is here}} [2].before = 0, // all-warning {{initializer overrides prior initialization of this subobject}} 0, // all-warning {{initializer overrides prior initialization of this subobject}} &xy[2].xx.a, &xy[2].xx, &global_float }; void t14(void) { int array[256] = { 0 }; // expected-note {{array 'array' declared here}} \ // pedantic-expected-note {{array 'array' declared here}} \ // ref-note {{array 'array' declared here}} \ // pedantic-ref-note {{array 'array' declared here}} const char b = -1; int val = array[b]; // expected-warning {{array index -1 is before the beginning of the array}} \ // pedantic-expected-warning {{array index -1 is before the beginning of the array}} \ // ref-warning {{array index -1 is before the beginning of the array}} \ // pedantic-ref-warning {{array index -1 is before the beginning of the array}} } void bar_0(void) { struct C { const int a; int b; }; const struct C S = {0, 0}; *(int *)(&S.a) = 0; // all-warning {{cast from 'const int *' to 'int *' drops const qualifier}} *(int *)(&S.b) = 0; // all-warning {{cast from 'const int *' to 'int *' drops const qualifier}} } /// Complex-to-bool casts. const int A = ((_Complex double)1.0 ? 21 : 1); _Static_assert(A == 21, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} const int CTI1 = ((_Complex double){0.0, 1.0}); // pedantic-ref-warning {{extension}} \ // pedantic-expected-warning {{extension}} _Static_assert(CTI1 == 0, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} const _Bool CTB2 = (_Bool)(_Complex double){0.0, 1.0}; // pedantic-ref-warning {{extension}} \ // pedantic-expected-warning {{extension}} _Static_assert(CTB2, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} const _Bool CTB3 = (_Complex double){0.0, 1.0}; // pedantic-ref-warning {{extension}} \ // pedantic-expected-warning {{extension}} _Static_assert(CTB3, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} int t1 = sizeof(int); void test4(void) { t1 = sizeof(int); } void localCompoundLiteral(void) { struct S { int x, y; } s = {}; // pedantic-expected-warning {{use of an empty initializer}} \ // pedantic-ref-warning {{use of an empty initializer}} struct T { int i; struct S s; } t1 = { 1, {} }; // pedantic-expected-warning {{use of an empty initializer}} \ // pedantic-ref-warning {{use of an empty initializer}} struct T t3 = { (int){}, // pedantic-expected-warning {{use of an empty initializer}} \ // pedantic-ref-warning {{use of an empty initializer}} {} // pedantic-expected-warning {{use of an empty initializer}} \ // pedantic-ref-warning {{use of an empty initializer}} }; } /// struct copy struct StrA {int a; }; const struct StrA sa = { 12 }; const struct StrA * const sb = &sa; const struct StrA sc = *sb; _Static_assert(sc.a == 12, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} struct ComplexS { int a; float b; struct StrA sa[2]; }; const struct ComplexS CS = {12, 23.0f, {{1}, {2}}}; const struct ComplexS CS2 = CS; _Static_assert(CS2.sa[0].a == 1, ""); // pedantic-ref-warning {{GNU extension}} \ // pedantic-expected-warning {{GNU extension}} _Static_assert(((void*)0 + 1) != (void*)0, ""); // pedantic-expected-warning {{arithmetic on a pointer to void is a GNU extension}} \ // pedantic-expected-warning {{not an integer constant expression}} \ // pedantic-expected-note {{cannot perform pointer arithmetic on null pointer}} \ // pedantic-ref-warning {{arithmetic on a pointer to void is a GNU extension}} \ // pedantic-ref-warning {{not an integer constant expression}} \ // pedantic-ref-note {{cannot perform pointer arithmetic on null pointer}} typedef __INTPTR_TYPE__ intptr_t; int array[(intptr_t)(int*)1]; // ref-warning {{variable length array folded to constant array}} \ // pedantic-ref-warning {{variable length array folded to constant array}} \ // expected-warning {{variable length array folded to constant array}} \ // pedantic-expected-warning {{variable length array folded to constant array}} int castViaInt[*(int*)(unsigned long)"test"]; // ref-error {{variable length array}} \ // pedantic-ref-error {{variable length array}} \ // expected-error {{variable length array}} \ // pedantic-expected-error {{variable length array}} const void (*const funcp)(void) = (void*)123; // pedantic-warning {{converts between void pointer and function pointer}} \ // pedantic-expected-note {{this conversion is not allowed in a constant expression}} _Static_assert(funcp == (void*)0, ""); // all-error {{failed due to requirement 'funcp == (void *)0'}} \ // pedantic-warning {{expression is not an integer constant expression}} _Static_assert(funcp == (void*)123, ""); // pedantic-warning {{equality comparison between function pointer and void pointer}} \ // pedantic-warning {{expression is not an integer constant expression}} void unaryops(void) { (void)(++(struct x {unsigned x;}){3}.x); (void)(--(struct y {unsigned x;}){3}.x); (void)(++(struct z {float x;}){3}.x); (void)(--(struct w {float x;}){3}.x); (void)((struct xx {unsigned x;}){3}.x++); (void)((struct yy {unsigned x;}){3}.x--); (void)((struct zz {float x;}){3}.x++); (void)((struct ww {float x;}){3}.x--); } /// This used to fail because we didn't properly mark the struct /// initialized through a CompoundLiteralExpr as initialized. struct TestStruct { int a; int b; }; int Y __attribute__((annotate( "GlobalValAnnotationWithArgs", 42, (struct TestStruct) { .a = 1, .b = 2 } ))); #ifdef __SIZEOF_INT128__ const int *p = &b; const __int128 K = (__int128)(int*)0; const unsigned __int128 KU = (unsigned __int128)(int*)0; #endif int test3(void) { int a[2]; a[0] = test3; // all-error {{incompatible pointer to integer conversion assigning to 'int' from 'int (void)'}} return 0; } /// This tests that we have full type info, even for values we cannot read. int dummyarray[5]; _Static_assert(&dummyarray[0] < &dummyarray[1], ""); // pedantic-warning {{GNU extension}} void addrlabelexpr(void) { a0: ; static void *ps[] = { &&a0 }; // pedantic-warning {{use of GNU address-of-label extension}} } extern void cv2; void *foo5 (void) { return &cv2; // pedantic-warning{{address of an expression of type 'void'}} } __attribute__((weak)) const unsigned int test10_bound = 10; char test10_global[test10_bound]; // all-error {{variable length array declaration not allowed at file scope}} void test10(void) { char test10_local[test10_bound] = "help"; // all-error {{variable-sized object may not be initialized}} } void SuperSpecialFunc(void) { const int SuperSpecialCase = 10; _Static_assert((sizeof(SuperSpecialCase) == 12 && SuperSpecialCase == 3) || SuperSpecialCase == 10, ""); // pedantic-warning {{GNU extension}} } void T1(void) { static int *y[1] = {({ static int _x = 20; (void*)0;})}; // all-error {{initializer element is not a compile-time constant}} \ // pedantic-warning {{use of GNU statement expression extension}} } enum teste1 test1f(void), (*test1)(void) = test1f; // pedantic-warning {{ISO C forbids forward references to 'enum' types}} enum teste1 { TEST1 }; void func(void) { _Static_assert(func + 1 - func == 1, ""); // pedantic-warning {{arithmetic on a pointer to the function type}} \ // pedantic-warning {{arithmetic on pointers to the function type}} \ // pedantic-warning {{not an integer constant expression}} _Static_assert(func + 0xdead000000000000UL - 0xdead000000000000UL == func, ""); // pedantic-warning 2{{arithmetic on a pointer to the function type}} \ // pedantic-warning {{not an integer constant expression}} \ // pedantic-note {{cannot refer to element 16045481047390945280 of non-array object in a constant expression}} _Static_assert(func + 1 != func, ""); // pedantic-warning {{arithmetic on a pointer to the function type}} \ // pedantic-warning {{expression is not an integer constant expression}} func + 0xdead000000000000UL; // all-warning {{expression result unused}} \ // pedantic-warning {{arithmetic on a pointer to the function type}} func - 0xdead000000000000UL; // all-warning {{expression result unused}} \ // pedantic-warning {{arithmetic on a pointer to the function type}} } void foo3 (void) { void* x = 0; void* y = &*x; }