gcc/testsuite/g++.dg/bprob/g++-bprob-1.C - gcc - Git at Google

 /* Check that various C constructs (in C++) don't cause problems for
  * profile-directed block ordering.

    Most of this test is the same as bprob-1.c and gcov-4.c in
    gcc.misc-tests.  The "count" comments are left in to make comparisons
    easier; they are ignored for this test. */

 extern "C" void abort (void);

 /* Check for loops. */

 int for_val1;
 int for_val2;
 int for_temp;

 int
 test_for1 (int n)
 {
   int i;
   for_temp = 1;				/* count(3) */
   for (i = 0; i < n; i++)
     for_temp++;				/* count(9) */
   return for_temp;			/* count(3) */
 }

 int
 test_for2 (int m, int n, int o)
 {
   int i, j, k;
   for_temp = 1;				/* count(6) */
   for (i = 0; i < n; i++)
     for (j = 0; j < m; j++)
       for (k = 0; k < o; k++)
 	for_temp++;			/* count(81) */
   return for_temp;			/* count(6) */
 }

 void
 call_for ()
 {
   for_val1 += test_for1 (0);
   for_val1 += test_for1 (2);
   for_val1 += test_for1 (7);

   for_val2 += test_for2 (0, 0, 0);
   for_val2 += test_for2 (1, 0, 0);
   for_val2 += test_for2 (1, 3, 0);
   for_val2 += test_for2 (1, 3, 1);
   for_val2 += test_for2 (3, 1, 5);
   for_val2 += test_for2 (3, 7, 3);
 }

 /* Check the use of goto. */

 int goto_val;

 int
 test_goto1 (int f)
 {
   if (f)				/* count(2) */
     goto lab1;				/* count(1) */
   return 1;				/* count(1) */
 lab1:
   return 2;				/* count(1) */
 }

 int
 test_goto2 (int f)
 {
   int i;
   for (i = 0; i < 10; i++)		/* count(15) */
     if (i == f) goto lab2;		/* count(14) */
   return 4;				/* count(1) */
 lab2:
   return 8;				/* count(1) */
 }

 void
 call_goto ()
 {
   goto_val += test_goto1 (0);
   goto_val += test_goto1 (1);
   goto_val += test_goto2 (3);
   goto_val += test_goto2 (30);
 }

 /* Check nested if-then-else statements. */

 int ifelse_val1;
 int ifelse_val2;
 int ifelse_val3;

 int
 test_ifelse1 (int i, int j)
 {
   int result = 0;
   if (i)				/* count(5) */
     if (j)				/* count(3) */
       result = 4;			/* count(3) */
     else
       result = 1024;
   else
     if (j)				/* count(2) */
       result = 1;			/* count(1) */
     else
       result = 2;			/* count(1) */
   if (i > j)				/* count(5) */
     result *= 2;			/* count(1) */
   if (i > 10)				/* count(5) */
     if (j > 10)				/* count(1) */
       result *= 4;			/* count(1) */
   return result;			/* count(5) */
 }

 int
 test_ifelse2 (int i)
 {
   int result = 0;
   if (!i)				/* count(6) */
     result = 1;				/* count(1) */
   if (i == 1)				/* count(6) */
     result = 1024;
   if (i == 2)				/* count(6) */
     result = 2;				/* count(3) */
   if (i == 3)				/* count(6) */
     return 8;				/* count(2) */
   if (i == 4)				/* count(4) */
     return 2048;
   return result;			/* count(4) */
 }

 int
 test_ifelse3 (int i, int j)
 {
   int result = 1;
   if (i > 10 && j > i && j < 20)	/* count(11) */
     result = 16;			/* count(1) */
   if (i > 20)				/* count(11) */
     if (j > i)				/* count(5) */
       if (j < 30)			/* count(2) */
 	result = 32;			/* count(1) */
   if (i == 3 || j == 47 || i == j)	/* count(11) */
     result = 64;			/* count(3) */
   return result;			/* count(11) */
 }

 void
 call_ifelse ()
 {
   ifelse_val1 += test_ifelse1 (0, 2);
   ifelse_val1 += test_ifelse1 (0, 0);
   ifelse_val1 += test_ifelse1 (1, 2);
   ifelse_val1 += test_ifelse1 (10, 2);
   ifelse_val1 += test_ifelse1 (11, 11);

   ifelse_val2 += test_ifelse2 (0);
   ifelse_val2 += test_ifelse2 (2);
   ifelse_val2 += test_ifelse2 (2);
   ifelse_val2 += test_ifelse2 (2);
   ifelse_val2 += test_ifelse2 (3);
   ifelse_val2 += test_ifelse2 (3);

   ifelse_val3 += test_ifelse3 (11, 19);
   ifelse_val3 += test_ifelse3 (25, 27);
   ifelse_val3 += test_ifelse3 (11, 22);
   ifelse_val3 += test_ifelse3 (11, 10);
   ifelse_val3 += test_ifelse3 (21, 32);
   ifelse_val3 += test_ifelse3 (21, 20);
   ifelse_val3 += test_ifelse3 (1, 2);
   ifelse_val3 += test_ifelse3 (32, 31);
   ifelse_val3 += test_ifelse3 (3, 0);
   ifelse_val3 += test_ifelse3 (0, 47);	/* count(1) */
   ifelse_val3 += test_ifelse3 (65, 65);	/* count(1) */
 }

 /* Check switch statements. */

 int switch_val, switch_m;

 int
 test_switch (int i, int j)
 {
   int result = 0;			/* count(5) */

   switch (i)				/* count(5) */
     {
       case 1:
         result = 2;			/* count(1) */
         break;
       case 2:
         result = 1024;
         break;
       case 3:
       case 4:
         if (j == 2)			/* count(3) */
           return 4;			/* count(1) */
         result = 8;			/* count(2) */
         break;
       default:
 	result = 32;			/* count(1) */
 	switch_m++;			/* count(1) */
         break;
     }
   return result;			/* count(4) */
 }

 void
 call_switch ()
 {
   switch_val += test_switch (1, 0);
   switch_val += test_switch (3, 0);
   switch_val += test_switch (3, 2);
   switch_val += test_switch (4, 0);
   switch_val += test_switch (16, 0);
   switch_val += switch_m;
 }

 int
 main()
 {
   call_for ();
   call_goto ();
   call_ifelse ();
   call_switch ();
   if ((for_val1 != 12)
       || (for_val2 != 87)
       || (goto_val != 15)
       || (ifelse_val1 != 31)
       || (ifelse_val2 != 23)
       || (ifelse_val3 != 246)
       || (switch_val != 55))
     abort ();
   return 0;
 }
	/* Check that various C constructs (in C++) don't cause problems for
	* profile-directed block ordering.

	Most of this test is the same as bprob-1.c and gcov-4.c in
	gcc.misc-tests. The "count" comments are left in to make comparisons
	easier; they are ignored for this test. */

	extern "C" void abort (void);

	/* Check for loops. */

	int for_val1;
	int for_val2;
	int for_temp;

	int
	test_for1 (int n)
	{
	int i;
	for_temp = 1; /* count(3) */
	for (i = 0; i < n; i++)
	for_temp++; /* count(9) */
	return for_temp; /* count(3) */
	}

	int
	test_for2 (int m, int n, int o)
	{
	int i, j, k;
	for_temp = 1; /* count(6) */
	for (i = 0; i < n; i++)
	for (j = 0; j < m; j++)
	for (k = 0; k < o; k++)
	for_temp++; /* count(81) */
	return for_temp; /* count(6) */
	}

	void
	call_for ()
	{
	for_val1 += test_for1 (0);
	for_val1 += test_for1 (2);
	for_val1 += test_for1 (7);

	for_val2 += test_for2 (0, 0, 0);
	for_val2 += test_for2 (1, 0, 0);
	for_val2 += test_for2 (1, 3, 0);
	for_val2 += test_for2 (1, 3, 1);
	for_val2 += test_for2 (3, 1, 5);
	for_val2 += test_for2 (3, 7, 3);
	}

	/* Check the use of goto. */

	int goto_val;

	int
	test_goto1 (int f)
	{
	if (f) /* count(2) */
	goto lab1; /* count(1) */
	return 1; /* count(1) */
	lab1:
	return 2; /* count(1) */
	}

	int
	test_goto2 (int f)
	{
	int i;
	for (i = 0; i < 10; i++) /* count(15) */
	if (i == f) goto lab2; /* count(14) */
	return 4; /* count(1) */
	lab2:
	return 8; /* count(1) */
	}

	void
	call_goto ()
	{
	goto_val += test_goto1 (0);
	goto_val += test_goto1 (1);
	goto_val += test_goto2 (3);
	goto_val += test_goto2 (30);
	}

	/* Check nested if-then-else statements. */

	int ifelse_val1;
	int ifelse_val2;
	int ifelse_val3;

	int
	test_ifelse1 (int i, int j)
	{
	int result = 0;
	if (i) /* count(5) */
	if (j) /* count(3) */
	result = 4; /* count(3) */
	else
	result = 1024;
	else
	if (j) /* count(2) */
	result = 1; /* count(1) */
	else
	result = 2; /* count(1) */
	if (i > j) /* count(5) */
	result = 2; / count(1) */
	if (i > 10) /* count(5) */
	if (j > 10) /* count(1) */
	result = 4; / count(1) */
	return result; /* count(5) */
	}

	int
	test_ifelse2 (int i)
	{
	int result = 0;
	if (!i) /* count(6) */
	result = 1; /* count(1) */
	if (i == 1) /* count(6) */
	result = 1024;
	if (i == 2) /* count(6) */
	result = 2; /* count(3) */
	if (i == 3) /* count(6) */
	return 8; /* count(2) */
	if (i == 4) /* count(4) */
	return 2048;
	return result; /* count(4) */
	}

	int
	test_ifelse3 (int i, int j)
	{
	int result = 1;
	if (i > 10 && j > i && j < 20) /* count(11) */
	result = 16; /* count(1) */
	if (i > 20) /* count(11) */
	if (j > i) /* count(5) */
	if (j < 30) /* count(2) */
	result = 32; /* count(1) */
	if (i == 3 \|\| j == 47 \|\| i == j) /* count(11) */
	result = 64; /* count(3) */
	return result; /* count(11) */
	}

	void
	call_ifelse ()
	{
	ifelse_val1 += test_ifelse1 (0, 2);
	ifelse_val1 += test_ifelse1 (0, 0);
	ifelse_val1 += test_ifelse1 (1, 2);
	ifelse_val1 += test_ifelse1 (10, 2);
	ifelse_val1 += test_ifelse1 (11, 11);

	ifelse_val2 += test_ifelse2 (0);
	ifelse_val2 += test_ifelse2 (2);
	ifelse_val2 += test_ifelse2 (2);
	ifelse_val2 += test_ifelse2 (2);
	ifelse_val2 += test_ifelse2 (3);
	ifelse_val2 += test_ifelse2 (3);

	ifelse_val3 += test_ifelse3 (11, 19);
	ifelse_val3 += test_ifelse3 (25, 27);
	ifelse_val3 += test_ifelse3 (11, 22);
	ifelse_val3 += test_ifelse3 (11, 10);
	ifelse_val3 += test_ifelse3 (21, 32);
	ifelse_val3 += test_ifelse3 (21, 20);
	ifelse_val3 += test_ifelse3 (1, 2);
	ifelse_val3 += test_ifelse3 (32, 31);
	ifelse_val3 += test_ifelse3 (3, 0);
	ifelse_val3 += test_ifelse3 (0, 47); /* count(1) */
	ifelse_val3 += test_ifelse3 (65, 65); /* count(1) */
	}

	/* Check switch statements. */

	int switch_val, switch_m;

	int
	test_switch (int i, int j)
	{
	int result = 0; /* count(5) */

	switch (i) /* count(5) */
	{
	case 1:
	result = 2; /* count(1) */
	break;
	case 2:
	result = 1024;
	break;
	case 3:
	case 4:
	if (j == 2) /* count(3) */
	return 4; /* count(1) */
	result = 8; /* count(2) */
	break;
	default:
	result = 32; /* count(1) */
	switch_m++; /* count(1) */
	break;
	}
	return result; /* count(4) */
	}

	void
	call_switch ()
	{
	switch_val += test_switch (1, 0);
	switch_val += test_switch (3, 0);
	switch_val += test_switch (3, 2);
	switch_val += test_switch (4, 0);
	switch_val += test_switch (16, 0);
	switch_val += switch_m;
	}

	int
	main()
	{
	call_for ();
	call_goto ();
	call_ifelse ();
	call_switch ();
	if ((for_val1 != 12)
	\|\| (for_val2 != 87)
	\|\| (goto_val != 15)
	\|\| (ifelse_val1 != 31)
	\|\| (ifelse_val2 != 23)
	\|\| (ifelse_val3 != 246)
	\|\| (switch_val != 55))
	abort ();
	return 0;
	}