gcc/testsuite/gcc.c-torture/execute/bcp-1.c - gcc - Git at Google

 int global;

 /* These must fail.  */
 int bad0(void) { return __builtin_constant_p(global); }
 int bad1(void) { return __builtin_constant_p(global++); }
 inline int bad2(int x) { return __builtin_constant_p(x++); }
 inline int bad3(int x) { return __builtin_constant_p(x); }
 inline int bad4(const char *x) { return __builtin_constant_p(x); }
 int bad5(void) { return bad2(1); }
 inline int bad6(int x) { return __builtin_constant_p(x+1); }
 int bad7(void) { return __builtin_constant_p(abort()); }
 int bad8(void) { char buf[10]; return __builtin_constant_p(buf); }
 int bad9(const char *x) { return __builtin_constant_p(x[123456]); }
 int bad10(void) { return __builtin_constant_p(&global); }

 /* These must pass, or we've broken gcc2 functionality.  */
 int good0(void) { return __builtin_constant_p(1); }
 int good1(void) { return __builtin_constant_p("hi"); }
 int good2(void) { return __builtin_constant_p((1234 + 45) & ~7); }

 /* These are extensions to gcc2.  Failure indicates an optimization
    regression.  */
 int opt0(void) { return bad3(1); }
 int opt1(void) { return bad6(1); }
 int opt2(void) { return __builtin_constant_p("hi"[0]); }

 /*
  * Opt3 is known to fail.  It is one of the important cases that glibc
  * was interested in though, so keep this around as a reminder.
  *
  * The solution is to add bits to recover bytes from constant pool
  * elements given nothing but a constant pool label and an offset.
  * When we can do that, and we can simplify strlen after the fact,
  * then we can enable recognition of constant pool labels as constants.
  */

 /* int opt3(void) { return bad4("hi"); } */


 /* Call through tables so -finline-functions can't screw with us.  */
 int (*bad_t0[])(void) = {
 	bad0, bad1, bad5, bad7, bad8, bad10
 };

 int (*bad_t1[])(int x) = {
 	bad2, bad3, bad6
 };

 int (*bad_t2[])(const char *x) = {
 	bad4, bad9
 };

 int (*good_t0[])(void) = {
 	good0, good1, good2
 };

 int (*opt_t0[])(void) = {
 	opt0, opt1, opt2 /* , opt3 */
 };

 #define N(arr) (sizeof(arr)/sizeof(*arr))

 int main()
 {
   int i;

   for (i = 0; i < N(bad_t0); ++i)
     if ((*bad_t0[i])())
       abort();

   for (i = 0; i < N(bad_t1); ++i)
     if ((*bad_t1[i])(1))
       abort();

   for (i = 0; i < N(bad_t2); ++i)
     if ((*bad_t2[i])("hi"))
       abort();

   for (i = 0; i < N(good_t0); ++i)
     if (! (*good_t0[i])())
       abort();

 #ifdef __OPTIMIZE__
   for (i = 0; i < N(opt_t0); ++i)
     if (! (*opt_t0[i])())
       abort();
 #endif

   exit(0);
 }
	int global;

	/* These must fail. */
	int bad0(void) { return __builtin_constant_p(global); }
	int bad1(void) { return __builtin_constant_p(global++); }
	inline int bad2(int x) { return __builtin_constant_p(x++); }
	inline int bad3(int x) { return __builtin_constant_p(x); }
	inline int bad4(const char *x) { return __builtin_constant_p(x); }
	int bad5(void) { return bad2(1); }
	inline int bad6(int x) { return __builtin_constant_p(x+1); }
	int bad7(void) { return __builtin_constant_p(abort()); }
	int bad8(void) { char buf[10]; return __builtin_constant_p(buf); }
	int bad9(const char *x) { return __builtin_constant_p(x[123456]); }
	int bad10(void) { return __builtin_constant_p(&global); }

	/* These must pass, or we've broken gcc2 functionality. */
	int good0(void) { return __builtin_constant_p(1); }
	int good1(void) { return __builtin_constant_p("hi"); }
	int good2(void) { return __builtin_constant_p((1234 + 45) & ~7); }

	/* These are extensions to gcc2. Failure indicates an optimization
	regression. */
	int opt0(void) { return bad3(1); }
	int opt1(void) { return bad6(1); }
	int opt2(void) { return __builtin_constant_p("hi"[0]); }

	/*
	* Opt3 is known to fail. It is one of the important cases that glibc
	* was interested in though, so keep this around as a reminder.
	*
	* The solution is to add bits to recover bytes from constant pool
	* elements given nothing but a constant pool label and an offset.
	* When we can do that, and we can simplify strlen after the fact,
	* then we can enable recognition of constant pool labels as constants.
	*/

	/* int opt3(void) { return bad4("hi"); } */


	/* Call through tables so -finline-functions can't screw with us. */
	int (*bad_t0[])(void) = {
	bad0, bad1, bad5, bad7, bad8, bad10
	};

	int (*bad_t1[])(int x) = {
	bad2, bad3, bad6
	};

	int (bad_t2[])(const char x) = {
	bad4, bad9
	};

	int (*good_t0[])(void) = {
	good0, good1, good2
	};

	int (*opt_t0[])(void) = {
	opt0, opt1, opt2 /* , opt3 */
	};

	#define N(arr) (sizeof(arr)/sizeof(*arr))

	int main()
	{
	int i;

	for (i = 0; i < N(bad_t0); ++i)
	if ((*bad_t0[i])())
	abort();

	for (i = 0; i < N(bad_t1); ++i)
	if ((*bad_t1[i])(1))
	abort();

	for (i = 0; i < N(bad_t2); ++i)
	if ((*bad_t2[i])("hi"))
	abort();

	for (i = 0; i < N(good_t0); ++i)
	if (! (*good_t0[i])())
	abort();

	#ifdef __OPTIMIZE__
	for (i = 0; i < N(opt_t0); ++i)
	if (! (*opt_t0[i])())
	abort();
	#endif

	exit(0);
	}