test/Sema/div-sizeof-array.cpp - clang - Git at Google

 // RUN: %clang_cc1 %s -verify -Wsizeof-array-div -fsyntax-only -triple=x86_64-linux-gnu
 // RUN: %clang_cc1 %s -verify -fsyntax-only -triple=x86_64-linux-gnu

 template <typename Ty, int N>
 int f(Ty (&Array)[N]) {
   return sizeof(Array) / sizeof(Ty); // Should not warn
 }

 typedef int int32;

 void test(void) {
   int arr[12]; // expected-note 2 {{array 'arr' declared here}}
   unsigned long long arr2[4];
   int *p = &arr[0];
   int a1 = sizeof(arr) / sizeof(*arr);
   int a2 = sizeof arr / sizeof p; // expected-warning {{expression does not compute the number of elements in this array; element type is 'int', not 'int *'}}
   // expected-note@-1 {{place parentheses around the 'sizeof p' expression to silence this warning}}
   int a4 = sizeof arr2 / sizeof p;
   int a5 = sizeof(arr) / sizeof(short); // expected-warning {{expression does not compute the number of elements in this array; element type is 'int', not 'short'}}
   // expected-note@-1 {{place parentheses around the 'sizeof(short)' expression to silence this warning}}
   int a6 = sizeof(arr) / sizeof(int32);
   int a7 = sizeof(arr) / sizeof(int);
   int a9 = sizeof(arr) / sizeof(unsigned int);
   const char arr3[2] = "A";
   int a10 = sizeof(arr3) / sizeof(char);
   int a11 = sizeof(arr2) / (sizeof(unsigned));
   int a12 = sizeof(arr) / (sizeof(short));
   int a13 = sizeof(arr3) / sizeof(p);
   int a14 = sizeof(arr3) / sizeof(int);

   int arr4[10][12];
   int b1 = sizeof(arr4) / sizeof(arr2[12]);
   int b2 = sizeof(arr4) / sizeof(int *);
   int b3 = sizeof(arr4) / sizeof(short *);
   int arr5[][5] = {
       {1, 2, 3, 4, 5},
       {6, 7, 8, 9, 0},
   };
   int c1 = sizeof(arr5) / sizeof(*arr5);
   int c2 = sizeof(arr5) / sizeof(**arr5);
   int c3 = sizeof(arr5) / sizeof(int);

   float m[4][4];
   int d1 = sizeof(m) / sizeof(**m);
 }
	// RUN: %clang_cc1 %s -verify -Wsizeof-array-div -fsyntax-only -triple=x86_64-linux-gnu
	// RUN: %clang_cc1 %s -verify -fsyntax-only -triple=x86_64-linux-gnu

	template <typename Ty, int N>
	int f(Ty (&Array)[N]) {
	return sizeof(Array) / sizeof(Ty); // Should not warn
	}

	typedef int int32;

	void test(void) {
	int arr[12]; // expected-note 2 {{array 'arr' declared here}}
	unsigned long long arr2[4];
	int *p = &arr[0];
	int a1 = sizeof(arr) / sizeof(*arr);
	int a2 = sizeof arr / sizeof p; // expected-warning {{expression does not compute the number of elements in this array; element type is 'int', not 'int *'}}
	// expected-note@-1 {{place parentheses around the 'sizeof p' expression to silence this warning}}
	int a4 = sizeof arr2 / sizeof p;
	int a5 = sizeof(arr) / sizeof(short); // expected-warning {{expression does not compute the number of elements in this array; element type is 'int', not 'short'}}
	// expected-note@-1 {{place parentheses around the 'sizeof(short)' expression to silence this warning}}
	int a6 = sizeof(arr) / sizeof(int32);
	int a7 = sizeof(arr) / sizeof(int);
	int a9 = sizeof(arr) / sizeof(unsigned int);
	const char arr3[2] = "A";
	int a10 = sizeof(arr3) / sizeof(char);
	int a11 = sizeof(arr2) / (sizeof(unsigned));
	int a12 = sizeof(arr) / (sizeof(short));
	int a13 = sizeof(arr3) / sizeof(p);
	int a14 = sizeof(arr3) / sizeof(int);

	int arr4[10][12];
	int b1 = sizeof(arr4) / sizeof(arr2[12]);
	int b2 = sizeof(arr4) / sizeof(int *);
	int b3 = sizeof(arr4) / sizeof(short *);
	int arr5[][5] = {
	{1, 2, 3, 4, 5},
	{6, 7, 8, 9, 0},
	};
	int c1 = sizeof(arr5) / sizeof(*arr5);
	int c2 = sizeof(arr5) / sizeof(**arr5);
	int c3 = sizeof(arr5) / sizeof(int);

	float m[4][4];
	int d1 = sizeof(m) / sizeof(**m);
	}