gdb/testsuite/gdb.base/return2.c - third_party/binutils-gdb - Git at Google

 /* Test gdb's "return" command.  */

 int void_test = 0;
 int main_test = 0;

 char      char_returnval      = '1';
 short     short_returnval     = 1;
 int       int_returnval       = 1;
 long      long_returnval      = 1;
 long long long_long_returnval = 1;
 float     float_returnval     = 1;
 double    double_returnval    = 1;

 union {
   char      char_testval;
   short     short_testval;
   int       int_testval;
   long      long_testval;
   long long long_long_testval;
   float     float_testval;
   double    double_testval;
   char      ffff[80];
 } testval;

 void void_func ()
 {
   void_test = 1;
 }

 char char_func ()
 {
   return char_returnval;
 }

 short short_func ()
 {
   return short_returnval;
 }

 int int_func ()
 {
   return int_returnval;
 }

 long long_func ()
 {
   return long_returnval;
 }

 long long long_long_func ()
 {
   return long_long_returnval;
 }

 float float_func ()
 {
   return float_returnval;
 }

 double double_func ()
 {
   return double_returnval;
 }

 int main (int argc, char **argv)
 {
   char char_resultval;
   short short_resultval;
   int int_resultval;
   long long_resultval;
   long long long_long_resultval;
   float float_resultval;
   double double_resultval;
   int i;

   /* A "test load" that will insure that the function really returns
      a ${type} (as opposed to just a truncated or part of a ${type}).  */
   for (i = 0; i < sizeof (testval.ffff); i++)
     testval.ffff[i] = 0xff;

   void_func (); 				/* call to void_func */
   char_resultval      = char_func ();		/* void_checkpoint */
   short_resultval     = short_func ();		/* char_checkpoint */
   int_resultval       = int_func ();		/* short_checkpoint */
   long_resultval      = long_func ();		/* int_checkpoint */
   long_long_resultval = long_long_func ();	/* long_checkpoint */

   /* On machines using IEEE floating point, the test pattern of all
      1-bits established above turns out to be a floating-point NaN
      ("Not a Number").  According to the IEEE rules, NaN's aren't even
      equal to themselves.  This can lead to stupid conversations with
      GDB like:

        (gdb) p testval.float_testval == testval.float_testval
        $7 = 0
        (gdb)

      This is the correct answer, but it's not the sort of thing
      return2.exp wants to see.  So to make things work the way they
      ought, we'll set aside the `union' cleverness and initialize the
      test values explicitly here.  These values have interesting bits
      throughout the value, so we'll still detect truncated values.  */

   testval.float_testval = 2.7182818284590452354;/* long_long_checkpoint */
   float_resultval     = float_func ();
   testval.double_testval = 3.14159265358979323846; /* float_checkpoint */
   double_resultval    = double_func ();
   main_test = 1;				/* double_checkpoint */
   return 0;
 }
	/* Test gdb's "return" command. */

	int void_test = 0;
	int main_test = 0;

	char char_returnval = '1';
	short short_returnval = 1;
	int int_returnval = 1;
	long long_returnval = 1;
	long long long_long_returnval = 1;
	float float_returnval = 1;
	double double_returnval = 1;

	union {
	char char_testval;
	short short_testval;
	int int_testval;
	long long_testval;
	long long long_long_testval;
	float float_testval;
	double double_testval;
	char ffff[80];
	} testval;

	void void_func ()
	{
	void_test = 1;
	}

	char char_func ()
	{
	return char_returnval;
	}

	short short_func ()
	{
	return short_returnval;
	}

	int int_func ()
	{
	return int_returnval;
	}

	long long_func ()
	{
	return long_returnval;
	}

	long long long_long_func ()
	{
	return long_long_returnval;
	}

	float float_func ()
	{
	return float_returnval;
	}

	double double_func ()
	{
	return double_returnval;
	}

	int main (int argc, char **argv)
	{
	char char_resultval;
	short short_resultval;
	int int_resultval;
	long long_resultval;
	long long long_long_resultval;
	float float_resultval;
	double double_resultval;
	int i;

	/* A "test load" that will insure that the function really returns
	a ${type} (as opposed to just a truncated or part of a ${type}). */
	for (i = 0; i < sizeof (testval.ffff); i++)
	testval.ffff[i] = 0xff;

	void_func (); /* call to void_func */
	char_resultval = char_func (); /* void_checkpoint */
	short_resultval = short_func (); /* char_checkpoint */
	int_resultval = int_func (); /* short_checkpoint */
	long_resultval = long_func (); /* int_checkpoint */
	long_long_resultval = long_long_func (); /* long_checkpoint */

	/* On machines using IEEE floating point, the test pattern of all
	1-bits established above turns out to be a floating-point NaN
	("Not a Number"). According to the IEEE rules, NaN's aren't even
	equal to themselves. This can lead to stupid conversations with
	GDB like:

	(gdb) p testval.float_testval == testval.float_testval
	$7 = 0
	(gdb)

	This is the correct answer, but it's not the sort of thing
	return2.exp wants to see. So to make things work the way they
	ought, we'll set aside the `union' cleverness and initialize the
	test values explicitly here. These values have interesting bits
	throughout the value, so we'll still detect truncated values. */

	testval.float_testval = 2.7182818284590452354;/* long_long_checkpoint */
	float_resultval = float_func ();
	testval.double_testval = 3.14159265358979323846; /* float_checkpoint */
	double_resultval = double_func ();
	main_test = 1; /* double_checkpoint */
	return 0;
	}