// RUN: %clang_analyze_cc1 %s -verify \ // RUN: -analyzer-checker=core \ // RUN: -analyzer-config core.CallAndMessage:ArgPointeeInitializedness=true // // Just exercise the analyzer on code that has at one point caused issues // (i.e., no assertions or crashes). static void f1(const char *x, char *y) { while (*x != 0) { *y++ = *x++; } } // This following case checks that we properly handle typedefs when getting // the RvalueType of an ElementRegion. typedef struct F12_struct {} F12_typedef; typedef void* void_typedef; void_typedef f2_helper(); static void f2(void *buf) { F12_typedef* x; x = f2_helper(); memcpy((&x[1]), (buf), 1); // expected-warning{{implicitly declaring library function 'memcpy' with type 'void *(void *, const void *}} \ // expected-note{{include the header or explicitly provide a declaration for 'memcpy'}} } // AllocaRegion is untyped. Void pointer isn't of much help either. Before // realizing that the value is undefined, we need to somehow figure out // what type of value do we expect. void f3(void *dest) { void *src = __builtin_alloca(5); memcpy(dest, src, 1); // expected-warning{{2nd function call argument is a pointer to uninitialized value}} }