// RUN: %clang_cc1 -fsyntax-only -Wuninitialized -fsyntax-only -fcxx-exceptions %s -verify // Stub out types for 'typeid' to work. namespace std { class type_info {}; } int test1_aux(int &x); int test1() { int x; test1_aux(x); return x; // no-warning } int test2_aux() { int x; int &y = x; return x; // no-warning } // Don't warn on unevaluated contexts. void unevaluated_tests() { int x; (void)sizeof(x); (void)typeid(x); } // Warn for glvalue arguments to typeid whose type is polymorphic. struct A { virtual ~A() {} }; void polymorphic_test() { A *a; // expected-note{{initialize the variable 'a' to silence this warning}} (void)typeid(*a); // expected-warning{{variable 'a' is uninitialized when used here}} } // Handle cases where the CFG may constant fold some branches, thus // mitigating the need for some path-sensitivity in the analysis. unsigned test3_aux(); unsigned test3() { unsigned x = 0; const bool flag = true; if (flag && (x = test3_aux()) == 0) { return x; } return x; } unsigned test3_b() { unsigned x ; const bool flag = true; if (flag && (x = test3_aux()) == 0) { x = 1; } return x; // no-warning } unsigned test3_c() { unsigned x; // expected-note{{initialize the variable 'x' to silence this warning}} const bool flag = false; if (flag && (x = test3_aux()) == 0) { x = 1; } return x; // expected-warning{{variable 'x' is uninitialized when used here}} } enum test4_A { test4_A_a, test_4_A_b }; test4_A test4() { test4_A a; // expected-note{{variable 'a' is declared here}} return a; // expected-warning{{variable 'a' is uninitialized when used here}} } // Test variables getting invalidated by function calls with reference arguments // *AND* there are multiple invalidated arguments. void test5_aux(int &, int &); int test5() { int x, y; test5_aux(x, y); return x + y; // no-warning } // This test previously crashed Sema. class Rdar9188004A { public: virtual ~Rdar9188004A(); }; template< typename T > class Rdar9188004B : public Rdar9188004A { virtual double *foo(Rdar9188004B *next) const { double *values = next->foo(0); try { } catch(double e) { values[0] = e; } return 0; } }; class Rdar9188004C : public Rdar9188004B { virtual void bar(void) const; }; void Rdar9188004C::bar(void) const {} // Don't warn about uninitialized variables in unreachable code. void PR9625() { if (false) { int x; (void)static_cast(x); // no-warning } } // Don't warn about variables declared in "catch" void RDar9251392_bar(const char *msg); void RDar9251392() { try { throw "hi"; } catch (const char* msg) { RDar9251392_bar(msg); // no-warning } } // Test handling of "no-op" casts. void test_noop_cast() { int x = 1; int y = (int&)x; // no-warning } void test_noop_cast2() { int x; // expected-note {{initialize the variable 'x' to silence this warning}} int y = (int&)x; // expected-warning {{uninitialized when used here}} } // Test handling of bit casts. void test_bitcasts() { int x = 1; int y = (float &)x; // no-warning } void test_bitcasts_2() { int x; // expected-note {{initialize the variable 'x' to silence this warning}} int y = (float &)x; // expected-warning {{uninitialized when used here}} } void consume_const_ref(const int &n); int test_const_ref() { int n; // expected-note {{variable}} consume_const_ref(n); return n; // expected-warning {{uninitialized when used here}} }