src/third_party/llvm-project/clang/test/SemaCXX/array-bounds.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -verify -std=c++11 %s

 int foo() {
   int x[2]; // expected-note 4 {{array 'x' declared here}}
   int y[2]; // expected-note 2 {{array 'y' declared here}}
   int z[1]; // expected-note {{array 'z' declared here}}
   int w[1][1]; // expected-note {{array 'w' declared here}}
   int v[1][1][1]; // expected-note {{array 'v' declared here}}
   int *p = &y[2]; // no-warning
   (void) sizeof(x[2]); // no-warning
   y[2] = 2; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
   z[1] = 'x'; // expected-warning {{array index 1 is past the end of the array (which contains 1 element)}}
   w[0][2] = 0; // expected-warning {{array index 2 is past the end of the array (which contains 1 element)}}
   v[0][0][2] = 0; // expected-warning {{array index 2 is past the end of the array (which contains 1 element)}}
   return x[2] +  // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
          y[-1] + // expected-warning {{array index -1 is before the beginning of the array}}
          x[sizeof(x)] +  // expected-warning {{array index 8 is past the end of the array (which contains 2 elements)}}
          x[sizeof(x) / sizeof(x[0])] +  // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
          x[sizeof(x) / sizeof(x[0]) - 1] + // no-warning
          x[sizeof(x[2])]; // expected-warning {{array index 4 is past the end of the array (which contains 2 elements)}}
 }

 // This code example tests that -Warray-bounds works with arrays that
 // are template parameters.
 template <char *sz> class Qux {
   bool test() { return sz[0] == 'a'; }
 };

 void f1(int a[1]) {
   int val = a[3]; // no warning for function argumnet
 }

 void f2(const int (&a)[2]) { // expected-note {{declared here}}
   int val = a[3];  // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
 }

 void test() {
   struct {
     int a[0];
   } s2;
   s2.a[3] = 0; // no warning for 0-sized array

   union {
     short a[2]; // expected-note 4 {{declared here}}
     char c[4];
   } u;
   u.a[3] = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
   u.c[3] = 1; // no warning
   short *p = &u.a[2]; // no warning
   p = &u.a[3]; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
   *(&u.a[2]) = 1; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
   *(&u.a[3]) = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
   *(&u.c[3]) = 1; // no warning

   const int const_subscript = 3;
   int array[2]; // expected-note {{declared here}}
   array[const_subscript] = 0;  // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}

   int *ptr;
   ptr[3] = 0; // no warning for pointer references
   int array2[] = { 0, 1, 2 }; // expected-note 2 {{declared here}}

   array2[3] = 0; // expected-warning {{array index 3 is past the end of the array (which contains 3 elements)}}
   array2[2+2] = 0; // expected-warning {{array index 4 is past the end of the array (which contains 3 elements)}}

   const char *str1 = "foo";
   char c1 = str1[5]; // no warning for pointers

   const char str2[] = "foo"; // expected-note {{declared here}}
   char c2 = str2[5]; // expected-warning {{array index 5 is past the end of the array (which contains 4 elements)}}

   int (*array_ptr)[2];
   (*array_ptr)[3] = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
 }

 template <int I> struct S {
   char arr[I]; // expected-note 3 {{declared here}}
 };
 template <int I> void f() {
   S<3> s;
   s.arr[4] = 0; // expected-warning 2 {{array index 4 is past the end of the array (which contains 3 elements)}}
   s.arr[I] = 0; // expected-warning {{array index 5 is past the end of the array (which contains 3 elements)}}
 }

 void test_templates() {
   f<5>(); // expected-note {{in instantiation}}
 }

 #define SIZE 10
 #define ARR_IN_MACRO(flag, arr, idx) flag ? arr[idx] : 1

 int test_no_warn_macro_unreachable() {
   int arr[SIZE]; // expected-note {{array 'arr' declared here}}
   return ARR_IN_MACRO(0, arr, SIZE) + // no-warning
          ARR_IN_MACRO(1, arr, SIZE); // expected-warning{{array index 10 is past the end of the array (which contains 10 elements)}}
 }

 // This exhibited an assertion failure for a 32-bit build of Clang.
 int test_pr9240() {
   short array[100]; // expected-note {{array 'array' declared here}}
   return array[(unsigned long long) 100]; // expected-warning {{array index 100 is past the end of the array (which contains 100 elements)}}
 }

 // PR 9284 - a template parameter can cause an array bounds access to be
 // infeasible.
 template <bool extendArray>
 void pr9284() {
     int arr[3 + (extendArray ? 1 : 0)];

     if (extendArray)
         arr[3] = 42; // no-warning
 }

 template <bool extendArray>
 void pr9284b() {
     int arr[3 + (extendArray ? 1 : 0)]; // expected-note {{array 'arr' declared here}}

     if (!extendArray)
         arr[3] = 42; // expected-warning{{array index 3 is past the end of the array (which contains 3 elements)}}
 }

 void test_pr9284() {
     pr9284<true>();
     pr9284<false>();
     pr9284b<true>();
     pr9284b<false>(); // expected-note{{in instantiation of function template specialization 'pr9284b<false>' requested here}}
 }

 int test_pr9296() {
     int array[2];
     return array[true]; // no-warning
 }

 int test_sizeof_as_condition(int flag) {
   int arr[2] = { 0, 0 }; // expected-note {{array 'arr' declared here}}
   if (flag)
     return sizeof(char) != sizeof(char) ? arr[2] : arr[1];
   return sizeof(char) == sizeof(char) ? arr[2] : arr[1]; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
 }

 void test_switch() {
   switch (4) {
     case 1: {
       int arr[2];
       arr[2] = 1; // no-warning
       break;
     }
     case 4: {
       int arr[2]; // expected-note {{array 'arr' declared here}}
       arr[2] = 1; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
       break;
     }
     default: {
       int arr[2];
       arr[2] = 1; // no-warning
       break;
     }
   }
 }

 // Test nested switch statements.
 enum enumA { enumA_A, enumA_B, enumA_C, enumA_D, enumA_E };
 enum enumB { enumB_X, enumB_Y, enumB_Z };
 static enum enumB myVal = enumB_X;
 void test_nested_switch() {
   switch (enumA_E) { // expected-warning {{no case matching constant}}
     switch (myVal) { // expected-warning {{enumeration values 'enumB_X' and 'enumB_Z' not handled in switch}}
       case enumB_Y: ;
     }
   }
 }

 // Test that if all the values of an enum covered, that the 'default' branch
 // is unreachable.
 enum Values { A, B, C, D };
 void test_all_enums_covered(enum Values v) {
   int x[2];
   switch (v) {
   case A: return;
   case B: return;
   case C: return;
   case D: return;
   }
   x[2] = 0; // no-warning
 }

 namespace tailpad {
   struct foo {
     char c1[1]; // expected-note {{declared here}}
     int x;
     char c2[1];
   };

   class baz {
    public:
     char c1[1]; // expected-note {{declared here}}
     int x;
     char c2[1];
   };

   char bar(struct foo *F, baz *B) {
     return F->c1[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
            F->c2[3] + // no warning, foo could have tail padding allocated.
            B->c1[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
            B->c2[3]; // no warning, baz could have tail padding allocated.
   }
 }

 namespace metaprogramming {
 #define ONE 1
   struct foo { char c[ONE]; }; // expected-note {{declared here}}
   template <int N> struct bar { char c[N]; }; // expected-note {{declared here}}

   char test(foo *F, bar<1> *B) {
     return F->c[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
            B->c[3]; // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
   }
 }

 void bar(int x) {}
 int test_more() {
   int foo[5]; // expected-note 5 {{array 'foo' declared here}}
   bar(foo[5]); // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
   ++foo[5]; // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
   if (foo[6]) // expected-warning {{array index 6 is past the end of the array (which contains 5 elements)}}
     return --foo[6]; // expected-warning {{array index 6 is past the end of the array (which contains 5 elements)}}
   else
     return foo[5]; // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
 }

 void test_pr10771() {
     double foo[4096];  // expected-note {{array 'foo' declared here}}

     ((char*)foo)[sizeof(foo) - 1] = '\0';  // no-warning
     *(((char*)foo) + sizeof(foo) - 1) = '\0';  // no-warning

     ((char*)foo)[sizeof(foo)] = '\0';  // expected-warning {{array index 32768 is past the end of the array (which contains 32768 elements)}}

     // TODO: This should probably warn, too.
     *(((char*)foo) + sizeof(foo)) = '\0';  // no-warning
 }

 int test_pr11007_aux(const char * restrict, ...);

 // Test checking with varargs.
 void test_pr11007() {
   double a[5]; // expected-note {{array 'a' declared here}}
   test_pr11007_aux("foo", a[1000]); // expected-warning {{array index 1000 is past the end of the array}}
 }

 void test_rdar10916006(void)
 {
 	int a[128]; // expected-note {{array 'a' declared here}}
 	a[(unsigned char)'\xA1'] = 1; // expected-warning {{array index 161 is past the end of the array}}
 }

 struct P {
   int a;
   int b;
 };

 void test_struct_array_index() {
   struct P p[10]; // expected-note {{array 'p' declared here}}
   p[11] = {0, 1}; // expected-warning {{array index 11 is past the end of the array (which contains 10 elements)}}
 }

 int operator+(const struct P &s1, const struct P &s2);
 int test_operator_overload_struct_array_index() {
   struct P x[10] = {0}; // expected-note {{array 'x' declared here}}
   return x[1] + x[11]; // expected-warning {{array index 11 is past the end of the array (which contains 10 elements)}}
 }

 int multi[2][2][2]; // expected-note 3 {{array 'multi' declared here}}
 int test_multiarray() {
   return multi[2][0][0] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
          multi[0][2][0] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
          multi[0][0][2];  // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
 }

 struct multi_s {
   int arr[4];
 };
 struct multi_s multi2[4]; // expected-note {{array 'multi2' declared here}}
 int test_struct_multiarray() {
   return multi2[4].arr[0]; // expected-warning {{array index 4 is past the end of the array (which contains 4 elements)}}
 }
	// RUN: %clang_cc1 -verify -std=c++11 %s

	int foo() {
	int x[2]; // expected-note 4 {{array 'x' declared here}}
	int y[2]; // expected-note 2 {{array 'y' declared here}}
	int z[1]; // expected-note {{array 'z' declared here}}
	int w[1][1]; // expected-note {{array 'w' declared here}}
	int v[1][1][1]; // expected-note {{array 'v' declared here}}
	int *p = &y[2]; // no-warning
	(void) sizeof(x[2]); // no-warning
	y[2] = 2; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	z[1] = 'x'; // expected-warning {{array index 1 is past the end of the array (which contains 1 element)}}
	w[0][2] = 0; // expected-warning {{array index 2 is past the end of the array (which contains 1 element)}}
	v[0][0][2] = 0; // expected-warning {{array index 2 is past the end of the array (which contains 1 element)}}
	return x[2] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	y[-1] + // expected-warning {{array index -1 is before the beginning of the array}}
	x[sizeof(x)] + // expected-warning {{array index 8 is past the end of the array (which contains 2 elements)}}
	x[sizeof(x) / sizeof(x[0])] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	x[sizeof(x) / sizeof(x[0]) - 1] + // no-warning
	x[sizeof(x[2])]; // expected-warning {{array index 4 is past the end of the array (which contains 2 elements)}}
	}

	// This code example tests that -Warray-bounds works with arrays that
	// are template parameters.
	template <char *sz> class Qux {
	bool test() { return sz[0] == 'a'; }
	};

	void f1(int a[1]) {
	int val = a[3]; // no warning for function argumnet
	}

	void f2(const int (&a)[2]) { // expected-note {{declared here}}
	int val = a[3]; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
	}

	void test() {
	struct {
	int a[0];
	} s2;
	s2.a[3] = 0; // no warning for 0-sized array

	union {
	short a[2]; // expected-note 4 {{declared here}}
	char c[4];
	} u;
	u.a[3] = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
	u.c[3] = 1; // no warning
	short *p = &u.a[2]; // no warning
	p = &u.a[3]; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
	*(&u.a[2]) = 1; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	*(&u.a[3]) = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
	*(&u.c[3]) = 1; // no warning

	const int const_subscript = 3;
	int array[2]; // expected-note {{declared here}}
	array[const_subscript] = 0; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}

	int *ptr;
	ptr[3] = 0; // no warning for pointer references
	int array2[] = { 0, 1, 2 }; // expected-note 2 {{declared here}}

	array2[3] = 0; // expected-warning {{array index 3 is past the end of the array (which contains 3 elements)}}
	array2[2+2] = 0; // expected-warning {{array index 4 is past the end of the array (which contains 3 elements)}}

	const char *str1 = "foo";
	char c1 = str1[5]; // no warning for pointers

	const char str2[] = "foo"; // expected-note {{declared here}}
	char c2 = str2[5]; // expected-warning {{array index 5 is past the end of the array (which contains 4 elements)}}

	int (*array_ptr)[2];
	(*array_ptr)[3] = 1; // expected-warning {{array index 3 is past the end of the array (which contains 2 elements)}}
	}

	template <int I> struct S {
	char arr[I]; // expected-note 3 {{declared here}}
	};
	template <int I> void f() {
	S<3> s;
	s.arr[4] = 0; // expected-warning 2 {{array index 4 is past the end of the array (which contains 3 elements)}}
	s.arr[I] = 0; // expected-warning {{array index 5 is past the end of the array (which contains 3 elements)}}
	}

	void test_templates() {
	f<5>(); // expected-note {{in instantiation}}
	}

	#define SIZE 10
	#define ARR_IN_MACRO(flag, arr, idx) flag ? arr[idx] : 1

	int test_no_warn_macro_unreachable() {
	int arr[SIZE]; // expected-note {{array 'arr' declared here}}
	return ARR_IN_MACRO(0, arr, SIZE) + // no-warning
	ARR_IN_MACRO(1, arr, SIZE); // expected-warning{{array index 10 is past the end of the array (which contains 10 elements)}}
	}

	// This exhibited an assertion failure for a 32-bit build of Clang.
	int test_pr9240() {
	short array[100]; // expected-note {{array 'array' declared here}}
	return array[(unsigned long long) 100]; // expected-warning {{array index 100 is past the end of the array (which contains 100 elements)}}
	}

	// PR 9284 - a template parameter can cause an array bounds access to be
	// infeasible.
	template <bool extendArray>
	void pr9284() {
	int arr[3 + (extendArray ? 1 : 0)];

	if (extendArray)
	arr[3] = 42; // no-warning
	}

	template <bool extendArray>
	void pr9284b() {
	int arr[3 + (extendArray ? 1 : 0)]; // expected-note {{array 'arr' declared here}}

	if (!extendArray)
	arr[3] = 42; // expected-warning{{array index 3 is past the end of the array (which contains 3 elements)}}
	}

	void test_pr9284() {
	pr9284<true>();
	pr9284<false>();
	pr9284b<true>();
	pr9284b<false>(); // expected-note{{in instantiation of function template specialization 'pr9284b<false>' requested here}}
	}

	int test_pr9296() {
	int array[2];
	return array[true]; // no-warning
	}

	int test_sizeof_as_condition(int flag) {
	int arr[2] = { 0, 0 }; // expected-note {{array 'arr' declared here}}
	if (flag)
	return sizeof(char) != sizeof(char) ? arr[2] : arr[1];
	return sizeof(char) == sizeof(char) ? arr[2] : arr[1]; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	}

	void test_switch() {
	switch (4) {
	case 1: {
	int arr[2];
	arr[2] = 1; // no-warning
	break;
	}
	case 4: {
	int arr[2]; // expected-note {{array 'arr' declared here}}
	arr[2] = 1; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	break;
	}
	default: {
	int arr[2];
	arr[2] = 1; // no-warning
	break;
	}
	}
	}

	// Test nested switch statements.
	enum enumA { enumA_A, enumA_B, enumA_C, enumA_D, enumA_E };
	enum enumB { enumB_X, enumB_Y, enumB_Z };
	static enum enumB myVal = enumB_X;
	void test_nested_switch() {
	switch (enumA_E) { // expected-warning {{no case matching constant}}
	switch (myVal) { // expected-warning {{enumeration values 'enumB_X' and 'enumB_Z' not handled in switch}}
	case enumB_Y: ;
	}
	}
	}

	// Test that if all the values of an enum covered, that the 'default' branch
	// is unreachable.
	enum Values { A, B, C, D };
	void test_all_enums_covered(enum Values v) {
	int x[2];
	switch (v) {
	case A: return;
	case B: return;
	case C: return;
	case D: return;
	}
	x[2] = 0; // no-warning
	}

	namespace tailpad {
	struct foo {
	char c1[1]; // expected-note {{declared here}}
	int x;
	char c2[1];
	};

	class baz {
	public:
	char c1[1]; // expected-note {{declared here}}
	int x;
	char c2[1];
	};

	char bar(struct foo F, baz B) {
	return F->c1[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
	F->c2[3] + // no warning, foo could have tail padding allocated.
	B->c1[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
	B->c2[3]; // no warning, baz could have tail padding allocated.
	}
	}

	namespace metaprogramming {
	#define ONE 1
	struct foo { char c[ONE]; }; // expected-note {{declared here}}
	template <int N> struct bar { char c[N]; }; // expected-note {{declared here}}

	char test(foo F, bar<1> B) {
	return F->c[3] + // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
	B->c[3]; // expected-warning {{array index 3 is past the end of the array (which contains 1 element)}}
	}
	}

	void bar(int x) {}
	int test_more() {
	int foo[5]; // expected-note 5 {{array 'foo' declared here}}
	bar(foo[5]); // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
	++foo[5]; // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
	if (foo[6]) // expected-warning {{array index 6 is past the end of the array (which contains 5 elements)}}
	return --foo[6]; // expected-warning {{array index 6 is past the end of the array (which contains 5 elements)}}
	else
	return foo[5]; // expected-warning {{array index 5 is past the end of the array (which contains 5 elements)}}
	}

	void test_pr10771() {
	double foo[4096]; // expected-note {{array 'foo' declared here}}

	((char*)foo)[sizeof(foo) - 1] = '\0'; // no-warning
	(((char)foo) + sizeof(foo) - 1) = '\0'; // no-warning

	((char*)foo)[sizeof(foo)] = '\0'; // expected-warning {{array index 32768 is past the end of the array (which contains 32768 elements)}}

	// TODO: This should probably warn, too.
	(((char)foo) + sizeof(foo)) = '\0'; // no-warning
	}

	int test_pr11007_aux(const char * restrict, ...);

	// Test checking with varargs.
	void test_pr11007() {
	double a[5]; // expected-note {{array 'a' declared here}}
	test_pr11007_aux("foo", a[1000]); // expected-warning {{array index 1000 is past the end of the array}}
	}

	void test_rdar10916006(void)
	{
	int a[128]; // expected-note {{array 'a' declared here}}
	a[(unsigned char)'\xA1'] = 1; // expected-warning {{array index 161 is past the end of the array}}
	}

	struct P {
	int a;
	int b;
	};

	void test_struct_array_index() {
	struct P p[10]; // expected-note {{array 'p' declared here}}
	p[11] = {0, 1}; // expected-warning {{array index 11 is past the end of the array (which contains 10 elements)}}
	}

	int operator+(const struct P &s1, const struct P &s2);
	int test_operator_overload_struct_array_index() {
	struct P x[10] = {0}; // expected-note {{array 'x' declared here}}
	return x[1] + x[11]; // expected-warning {{array index 11 is past the end of the array (which contains 10 elements)}}
	}

	int multi[2][2][2]; // expected-note 3 {{array 'multi' declared here}}
	int test_multiarray() {
	return multi[2][0][0] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	multi[0][2][0] + // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	multi[0][0][2]; // expected-warning {{array index 2 is past the end of the array (which contains 2 elements)}}
	}

	struct multi_s {
	int arr[4];
	};
	struct multi_s multi2[4]; // expected-note {{array 'multi2' declared here}}
	int test_struct_multiarray() {
	return multi2[4].arr[0]; // expected-warning {{array index 4 is past the end of the array (which contains 4 elements)}}
	}