test/SemaCXX/warn-bool-conversion.cpp - third_party/swift-clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s

 namespace BooleanFalse {
 int* j = false; // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}

 void foo(int* i, int *j=(false)) // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
 {
   foo(false); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
   foo((int*)false); // no-warning: explicit cast
   foo(0); // no-warning: not a bool, even though its convertible to bool

   foo(false == true); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
   foo((42 + 24) < 32); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}

   const bool kFlag = false;
   foo(kFlag); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
 }

 char f(struct Undefined*);
 double f(...);

 // Ensure that when using false in metaprogramming machinery its conversion
 // isn't flagged.
 template <int N> struct S {};
 S<sizeof(f(false))> s;

 }

 namespace Function {
 void f1();

 struct S {
   static void f2();
 };

 extern void f3() __attribute__((weak_import));

 struct S2 {
   static void f4() __attribute__((weak_import));
 };

 bool f5();
 bool f6(int);

 void bar() {
   bool b;

   b = f1; // expected-warning {{address of function 'f1' will always evaluate to 'true'}} \
              expected-note {{prefix with the address-of operator to silence this warning}}
   if (f1) {} // expected-warning {{address of function 'f1' will always evaluate to 'true'}} \
                 expected-note {{prefix with the address-of operator to silence this warning}}
   b = S::f2; // expected-warning {{address of function 'S::f2' will always evaluate to 'true'}} \
                 expected-note {{prefix with the address-of operator to silence this warning}}
   if (S::f2) {} // expected-warning {{address of function 'S::f2' will always evaluate to 'true'}} \
                    expected-note {{prefix with the address-of operator to silence this warning}}
   b = f5; // expected-warning {{address of function 'f5' will always evaluate to 'true'}} \
              expected-note {{prefix with the address-of operator to silence this warning}} \
              expected-note {{suffix with parentheses to turn this into a function call}}
   b = f6; // expected-warning {{address of function 'f6' will always evaluate to 'true'}} \
              expected-note {{prefix with the address-of operator to silence this warning}}

   // implicit casts of weakly imported symbols are ok:
   b = f3;
   if (f3) {}
   b = S2::f4;
   if (S2::f4) {}
 }
 }

 namespace Array {
   #define GetValue(ptr)  ((ptr) ? ptr[0] : 0)
   extern int a[] __attribute__((weak));
   int b[] = {8,13,21};
   struct {
     int x[10];
   } c;
   const char str[] = "text";
   void ignore() {
     if (a) {}
     if (a) {}
     (void)GetValue(b);
   }
   void test() {
     if (b) {}
     // expected-warning@-1{{address of array 'b' will always evaluate to 'true'}}
     if (b) {}
     // expected-warning@-1{{address of array 'b' will always evaluate to 'true'}}
     if (c.x) {}
     // expected-warning@-1{{address of array 'c.x' will always evaluate to 'true'}}
     if (str) {}
     // expected-warning@-1{{address of array 'str' will always evaluate to 'true'}}
   }
 }

 namespace Pointer {
   extern int a __attribute__((weak));
   int b;
   static int c;
   class S {
   public:
     static int a;
     int b;
   };
   void ignored() {
     if (&a) {}
   }
   void test() {
     S s;
     if (&b) {}
     // expected-warning@-1{{address of 'b' will always evaluate to 'true'}}
     if (&c) {}
     // expected-warning@-1{{address of 'c' will always evaluate to 'true'}}
     if (&s.a) {}
     // expected-warning@-1{{address of 's.a' will always evaluate to 'true'}}
     if (&s.b) {}
     // expected-warning@-1{{address of 's.b' will always evaluate to 'true'}}
     if (&S::a) {}
     // expected-warning@-1{{address of 'S::a' will always evaluate to 'true'}}
   }
 }

 namespace macros {
   #define assert(x) if (x) {}
   #define zero_on_null(x) ((x) ? *(x) : 0)

   int array[5];
   void fun();
   int x;

   void test() {
     assert(array);
     assert(array && "expecting null pointer");
     // expected-warning@-1{{address of array 'array' will always evaluate to 'true'}}

     assert(fun);
     assert(fun && "expecting null pointer");
     // expected-warning@-1{{address of function 'fun' will always evaluate to 'true'}}
     // expected-note@-2 {{prefix with the address-of operator to silence this warning}}

     // TODO: warn on assert(&x) while not warning on zero_on_null(&x)
     zero_on_null(&x);
     assert(zero_on_null(&x));
     assert(&x);
     assert(&x && "expecting null pointer");
     // expected-warning@-1{{address of 'x' will always evaluate to 'true'}}
   }
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	namespace BooleanFalse {
	int* j = false; // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}

	void foo(int* i, int j=(false)) // expected-warning{{initialization of pointer of type 'int ' to null from a constant boolean expression}}
	{
	foo(false); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
	foo((int*)false); // no-warning: explicit cast
	foo(0); // no-warning: not a bool, even though its convertible to bool

	foo(false == true); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
	foo((42 + 24) < 32); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}

	const bool kFlag = false;
	foo(kFlag); // expected-warning{{initialization of pointer of type 'int *' to null from a constant boolean expression}}
	}

	char f(struct Undefined*);
	double f(...);

	// Ensure that when using false in metaprogramming machinery its conversion
	// isn't flagged.
	template <int N> struct S {};
	S<sizeof(f(false))> s;

	}

	namespace Function {
	void f1();

	struct S {
	static void f2();
	};

	extern void f3() __attribute__((weak_import));

	struct S2 {
	static void f4() __attribute__((weak_import));
	};

	bool f5();
	bool f6(int);

	void bar() {
	bool b;

	b = f1; // expected-warning {{address of function 'f1' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}}
	if (f1) {} // expected-warning {{address of function 'f1' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}}
	b = S::f2; // expected-warning {{address of function 'S::f2' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}}
	if (S::f2) {} // expected-warning {{address of function 'S::f2' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}}
	b = f5; // expected-warning {{address of function 'f5' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}} \
	expected-note {{suffix with parentheses to turn this into a function call}}
	b = f6; // expected-warning {{address of function 'f6' will always evaluate to 'true'}} \
	expected-note {{prefix with the address-of operator to silence this warning}}

	// implicit casts of weakly imported symbols are ok:
	b = f3;
	if (f3) {}
	b = S2::f4;
	if (S2::f4) {}
	}
	}

	namespace Array {
	#define GetValue(ptr) ((ptr) ? ptr[0] : 0)
	extern int a[] __attribute__((weak));
	int b[] = {8,13,21};
	struct {
	int x[10];
	} c;
	const char str[] = "text";
	void ignore() {
	if (a) {}
	if (a) {}
	(void)GetValue(b);
	}
	void test() {
	if (b) {}
	// expected-warning@-1{{address of array 'b' will always evaluate to 'true'}}
	if (b) {}
	// expected-warning@-1{{address of array 'b' will always evaluate to 'true'}}
	if (c.x) {}
	// expected-warning@-1{{address of array 'c.x' will always evaluate to 'true'}}
	if (str) {}
	// expected-warning@-1{{address of array 'str' will always evaluate to 'true'}}
	}
	}

	namespace Pointer {
	extern int a __attribute__((weak));
	int b;
	static int c;
	class S {
	public:
	static int a;
	int b;
	};
	void ignored() {
	if (&a) {}
	}
	void test() {
	S s;
	if (&b) {}
	// expected-warning@-1{{address of 'b' will always evaluate to 'true'}}
	if (&c) {}
	// expected-warning@-1{{address of 'c' will always evaluate to 'true'}}
	if (&s.a) {}
	// expected-warning@-1{{address of 's.a' will always evaluate to 'true'}}
	if (&s.b) {}
	// expected-warning@-1{{address of 's.b' will always evaluate to 'true'}}
	if (&S::a) {}
	// expected-warning@-1{{address of 'S::a' will always evaluate to 'true'}}
	}
	}

	namespace macros {
	#define assert(x) if (x) {}
	#define zero_on_null(x) ((x) ? *(x) : 0)

	int array[5];
	void fun();
	int x;

	void test() {
	assert(array);
	assert(array && "expecting null pointer");
	// expected-warning@-1{{address of array 'array' will always evaluate to 'true'}}

	assert(fun);
	assert(fun && "expecting null pointer");
	// expected-warning@-1{{address of function 'fun' will always evaluate to 'true'}}
	// expected-note@-2 {{prefix with the address-of operator to silence this warning}}

	// TODO: warn on assert(&x) while not warning on zero_on_null(&x)
	zero_on_null(&x);
	assert(zero_on_null(&x));
	assert(&x);
	assert(&x && "expecting null pointer");
	// expected-warning@-1{{address of 'x' will always evaluate to 'true'}}
	}
	}