src/third_party/llvm-project/clang/test/Analysis/builtin-functions.cpp - cobalt - Git at Google

 // RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin10 -analyzer-checker=core,debug.ExprInspection %s -std=c++11 -verify

 void clang_analyzer_eval(bool);
 void clang_analyzer_warnIfReached();

 void testAddressof(int x) {
   clang_analyzer_eval(&x == __builtin_addressof(x)); // expected-warning{{TRUE}}
 }

 void testSize() {
   struct {
     int x;
     int y;
     char z;
   } object;
   clang_analyzer_eval(__builtin_object_size(&object.y, 0) == sizeof(object) - sizeof(int)); // expected-warning{{TRUE}}

   // Clang can't actually evaluate these builtin "calls", but importantly they don't actually evaluate the argument expression either.
   int i = 0;
   char buf[10];
   clang_analyzer_eval(__builtin_object_size(&buf[i++], 0) == sizeof(buf)); // expected-warning{{FALSE}}
   clang_analyzer_eval(__builtin_object_size(&buf[++i], 0) == sizeof(buf) - 1); // expected-warning{{FALSE}}

   clang_analyzer_eval(i == 0); // expected-warning{{TRUE}}
 }

 void test_assume_aligned_1(char *p) {
   char *q;

   q = (char*) __builtin_assume_aligned(p, 16);
   clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
 }

 void test_assume_aligned_2(char *p) {
   char *q;

   q = (char*) __builtin_assume_aligned(p, 16, 8);
   clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
 }

 void test_assume_aligned_3(char *p) {
   void *q;

   q = __builtin_assume_aligned(p, 16, 8);
   clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
 }

 void test_assume_aligned_4(char *p) {
   char *q;

   q = (char*) __builtin_assume_aligned(p + 1, 16);
   clang_analyzer_eval(p == q); // expected-warning{{FALSE}}
 }

 void f(int i) {
   __builtin_assume(i < 10);
   clang_analyzer_eval(i < 15); // expected-warning {{TRUE}}
 }

 void g(int i) {
   if (i > 5) {
     __builtin_assume(i < 5);
     clang_analyzer_warnIfReached(); // Assumtion contradicts constraints.
                                     // We give up the analysis on this path.
   }
 }

 void test_constant_p() {
   int i = 1;
   const int j = 2;
   constexpr int k = 3;
   clang_analyzer_eval(__builtin_constant_p(42) == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(i) == 0); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(j) == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(k) == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(i + 42) == 0); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(j + 42) == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(k + 42) == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(" ") == 1); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(test_constant_p) == 0); // expected-warning {{TRUE}}
   clang_analyzer_eval(__builtin_constant_p(k - 3) == 0); // expected-warning {{FALSE}}
   clang_analyzer_eval(__builtin_constant_p(k - 3) == 1); // expected-warning {{TRUE}}
 }
	// RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin10 -analyzer-checker=core,debug.ExprInspection %s -std=c++11 -verify

	void clang_analyzer_eval(bool);
	void clang_analyzer_warnIfReached();

	void testAddressof(int x) {
	clang_analyzer_eval(&x == __builtin_addressof(x)); // expected-warning{{TRUE}}
	}

	void testSize() {
	struct {
	int x;
	int y;
	char z;
	} object;
	clang_analyzer_eval(__builtin_object_size(&object.y, 0) == sizeof(object) - sizeof(int)); // expected-warning{{TRUE}}

	// Clang can't actually evaluate these builtin "calls", but importantly they don't actually evaluate the argument expression either.
	int i = 0;
	char buf[10];
	clang_analyzer_eval(__builtin_object_size(&buf[i++], 0) == sizeof(buf)); // expected-warning{{FALSE}}
	clang_analyzer_eval(__builtin_object_size(&buf[++i], 0) == sizeof(buf) - 1); // expected-warning{{FALSE}}

	clang_analyzer_eval(i == 0); // expected-warning{{TRUE}}
	}

	void test_assume_aligned_1(char *p) {
	char *q;

	q = (char*) __builtin_assume_aligned(p, 16);
	clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
	}

	void test_assume_aligned_2(char *p) {
	char *q;

	q = (char*) __builtin_assume_aligned(p, 16, 8);
	clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
	}

	void test_assume_aligned_3(char *p) {
	void *q;

	q = __builtin_assume_aligned(p, 16, 8);
	clang_analyzer_eval(p == q); // expected-warning{{TRUE}}
	}

	void test_assume_aligned_4(char *p) {
	char *q;

	q = (char*) __builtin_assume_aligned(p + 1, 16);
	clang_analyzer_eval(p == q); // expected-warning{{FALSE}}
	}

	void f(int i) {
	__builtin_assume(i < 10);
	clang_analyzer_eval(i < 15); // expected-warning {{TRUE}}
	}

	void g(int i) {
	if (i > 5) {
	__builtin_assume(i < 5);
	clang_analyzer_warnIfReached(); // Assumtion contradicts constraints.
	// We give up the analysis on this path.
	}
	}

	void test_constant_p() {
	int i = 1;
	const int j = 2;
	constexpr int k = 3;
	clang_analyzer_eval(__builtin_constant_p(42) == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(i) == 0); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(j) == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(k) == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(i + 42) == 0); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(j + 42) == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(k + 42) == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(" ") == 1); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(test_constant_p) == 0); // expected-warning {{TRUE}}
	clang_analyzer_eval(__builtin_constant_p(k - 3) == 0); // expected-warning {{FALSE}}
	clang_analyzer_eval(__builtin_constant_p(k - 3) == 1); // expected-warning {{TRUE}}
	}