// RUN: %clang_cc1 -std=c++11 -Wno-conversion-null -analyze -analyzer-checker=core,debug.ExprInspection -analyzer-store region -verify %s void clang_analyzer_eval(int); // test to see if nullptr is detected as a null pointer void foo1(void) { char *np = nullptr; *np = 0; // expected-warning{{Dereference of null pointer}} } // check if comparing nullptr to nullptr is detected properly void foo2(void) { char *np1 = nullptr; char *np2 = np1; char c; if (np1 == np2) np1 = &c; *np1 = 0; // no-warning } // invoving a nullptr in a more complex operation should be cause a warning void foo3(void) { struct foo { int a, f; }; char *np = nullptr; // casting a nullptr to anything should be caught eventually int *ip = &(((struct foo *)np)->f); *ip = 0; // expected-warning{{Dereference of null pointer}} // should be error here too, but analysis gets stopped // *np = 0; } // nullptr is implemented as a zero integer value, so should be able to compare void foo4(void) { char *np = nullptr; if (np != 0) *np = 0; // no-warning char *cp = 0; if (np != cp) *np = 0; // no-warning } int pr10372(void *& x) { // GNU null is a pointer-sized integer, not a pointer. x = __null; // This used to crash. return __null; } void zoo1() { char **p = 0; delete *(p + 0); // expected-warning{{Dereference of null pointer}} } void zoo2() { int **a = 0; int **b = 0; asm ("nop" :"=r"(*a) :"0"(*b) // expected-warning{{Dereference of null pointer}} ); } int exprWithCleanups() { struct S { S(int a):a(a){} ~S() {} int a; }; int *x = 0; return S(*x).a; // expected-warning{{Dereference of null pointer}} } int materializeTempExpr() { int *n = 0; struct S { int a; S(int i): a(i) {} }; const S &s = S(*n); // expected-warning{{Dereference of null pointer}} return s.a; } typedef decltype(nullptr) nullptr_t; void testMaterializeTemporaryExprWithNullPtr() { // Create MaterializeTemporaryExpr with a nullptr inside. const nullptr_t &r = nullptr; } int getSymbol(); struct X { virtual void f() {} }; void invokeF(X* x) { x->f(); // expected-warning{{Called C++ object pointer is null}} } struct Type { decltype(nullptr) x; }; void shouldNotCrash() { decltype(nullptr) p; if (getSymbol()) invokeF(p); // expected-warning{{Function call argument is an uninit}} if (getSymbol()) invokeF(nullptr); if (getSymbol()) { X *x = Type().x; x->f(); // expected-warning{{Called C++ object pointer is null}} } } void f(decltype(nullptr) p) { int *q = nullptr; clang_analyzer_eval(p == 0); // expected-warning{{TRUE}} clang_analyzer_eval(q == 0); // expected-warning{{TRUE}} } decltype(nullptr) returnsNullPtrType(); void fromReturnType() { ((X *)returnsNullPtrType())->f(); // expected-warning{{Called C++ object pointer is null}} } #define AS_ATTRIBUTE __attribute__((address_space(256))) class AS1 { public: int x; ~AS1() { int AS_ATTRIBUTE *x = 0; *x = 3; // no-warning } }; void test_address_space_field_access() { AS1 AS_ATTRIBUTE *pa = 0; pa->x = 0; // no-warning } void test_address_space_bind() { AS1 AS_ATTRIBUTE *pa = 0; AS1 AS_ATTRIBUTE &r = *pa; r.x = 0; // no-warning }