gdb/testsuite/gdb.cp/cplusfuncs.cc - binutils-gdb - Git at Google

 #include <stddef.h>

 class foo {
 public:
   foo  (int);
   foo  (int, const char *);
   foo  (foo&);
   ~foo ();

   void  operator *      (foo&);
   void  operator %      (foo&);
   void  operator -      (foo&);
   void  operator >>     (foo&);
   void  operator !=     (foo&);
   void  operator >      (foo&);
   void  operator >=     (foo&);
   void  operator |      (foo&);
   void  operator &&     (foo&);
   void  operator !      (void);
   void  operator ++     (int);
   void  operator =      (foo&);
   void  operator +=     (foo&);
   void  operator *=     (foo&);
   void  operator %=     (foo&);
   void  operator >>=    (foo&);
   void  operator |=     (foo&);
   void  operator ,      (foo&);
   void  operator /      (foo&);
   void  operator +      (foo&);
   void  operator <<     (foo&);
   void  operator ==     (foo&);
   void  operator <      (foo&);
   void  operator <=     (foo&);
   void  operator &      (foo&);
   void  operator ^      (foo&);
   void  operator ||     (foo&);
   void  operator ~      (void);
   void  operator --     (int);
   foo*  operator ->     (void);
   void  operator -=     (foo&);
   void  operator /=     (foo&);
   void  operator <<=    (foo&);
   void  operator &=     (foo&);
   void  operator ^=     (foo&);
   void  operator ->*    (foo&);
   void  operator []     (foo&);
   void  operator ()     (foo&);
   void* operator new    (size_t) throw ();
   void* operator new[]  (size_t) throw ();
   void  operator delete (void *);
   void  operator delete[] (void *);
   /**/  operator int    ();
   /**/  operator char*  ();

   int foofunc (int); // forced to have int return type, which is required
   int foofunc (int, signed char *); // forced to have int return type, which is required
   int ifoo;
   const char *ccpfoo;
 };

 int main () {
    int z=3;
 }

 foo::foo  (int i)                  { ifoo = i;}
 foo::foo  (int i, const char *ccp) { ifoo = i; ccpfoo = ccp; }
 foo::foo  (foo& afoo)              { afoo.ifoo = 0; }
 foo::~foo ()                       {}

 void  foo::operator *      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator %      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator -      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator >>     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator !=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator >      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator >=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator |      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator &&     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator !      (void) {}
 void  foo::operator ++     (int ival) { ival = 0; }
 void  foo::operator =      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator +=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator *=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator %=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator >>=    (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator |=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ,      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator /      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator +      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator <<     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ==     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator <      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator <=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator &      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ^      (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ||     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ~      (void) {}
 void  foo::operator --     (int ival) { ival = 0; }
 foo*  foo::operator ->     (void) {return this;}
 void  foo::operator -=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator /=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator <<=    (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator &=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ^=     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ->*    (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator []     (foo& afoo) { afoo.ifoo = 0; }
 void  foo::operator ()     (foo& afoo) { afoo.ifoo = 0; }
 void* foo::operator new    (size_t ival) throw () { ival = 0; return 0; }
 void* foo::operator new[]    (size_t ival) throw () { ival = 0; return 0; }
 void  foo::operator delete (void *ptr) { ptr = 0; }
 void  foo::operator delete[] (void *ptr) { ptr = 0; }
 /**/  foo::operator int    () { return 0; }
 /**/  foo::operator char*  () { return 0; }

 /* Some functions to test overloading by varying one argument type. */

 void overload1arg (void)		{          }
 void overload1arg (char arg)		{ arg = 0; }
 void overload1arg (signed char arg)	{ arg = 0; }
 void overload1arg (unsigned char arg)	{ arg = 0; }
 void overload1arg (short arg)		{ arg = 0; }
 void overload1arg (unsigned short arg)	{ arg = 0; }
 void overload1arg (int arg)		{ arg = 0; }
 void overload1arg (unsigned int arg)	{ arg = 0; }
 void overload1arg (long arg)		{ arg = 0; }
 void overload1arg (unsigned long arg)	{ arg = 0; }
 void overload1arg (float arg)		{ arg = 0; }
 void overload1arg (double arg)		{ arg = 0; }

 /* Some functions to test overloading by varying argument count. */

 void overloadargs (int a1)				{ a1 = 0; }
 void overloadargs (int a1, int a2)			{ a1 = a2 = 0; }
 void overloadargs (int a1, int a2, int a3)		{ a1 = a2 = a3 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4)
 			{ a1 = a2 = a3 = a4 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5)
 			{ a1 = a2 = a3 = a4 = a5 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
 		   int a8)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
 		   int a8, int a9)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
 		   int a8, int a9, int a10)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 =
 			  a10 = 0; }
 void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
 		   int a8, int a9, int a10, int a11)
 			{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 =
 			  a10 = a11 == 0; }

 /* Some hairy function definitions.
    Use typedefs to help maintain sanity. */

 typedef int   (*PFPc_i)(char *);
 typedef short (*PFPl_s)(long *);
 typedef short (*PFPc_s)(char *);
 typedef int   (*PFl_i)(long);
 typedef PFl_i (*PFPc_PFl_i)(char *);
 typedef PFl_i (*PFPi_PFl_i)(int *);
 typedef PFl_i (*PFPFPc_i_PFl_i)(PFPc_i);
 typedef PFl_i (*PFs_PFl_i)(short);
 typedef int   (*PFPFPl_s_i)(PFPl_s);
 typedef int   (*PFPFPc_s_i)(PFPc_s);

 PFs_PFl_i hairyfunc1 (int arg)			{ arg = 0; return 0; }
 int       hairyfunc2 (PFPc_i arg)		{ arg = 0; return 0; }
 int	  hairyfunc3 (PFPFPl_s_i arg)		{ arg = 0; return 0; }
 int	  hairyfunc4 (PFPFPc_s_i arg)		{ arg = 0; return 0; }
 int	  hairyfunc5 (PFPc_PFl_i arg)		{ arg = 0; return 0; }
 int	  hairyfunc6 (PFPi_PFl_i arg)		{ arg = 0; return 0; }
 int	  hairyfunc7 (PFPFPc_i_PFl_i arg)	{ arg = 0; return 0; }

 /* gdb has two demanglers (one for g++ 2.95, one for g++ 3).
    These marker functions help me figure out which demangler is in use. */

 char *	dm_type_char_star (char * p)		{ return p; }
 int	dm_type_foo_ref (foo & foo)		{ return foo.ifoo; }
 int *	dm_type_int_star (int * p)		{ return p; }
 long *	dm_type_long_star (long * p)		{ return p; }
 int	dm_type_short (short i)			{ return i; }
 int	dm_type_long (long i)			{ return i; }
 int	dm_type_unsigned_int (unsigned int i)	{ return i; }
 int	dm_type_unsigned_short (unsigned short i)	{ return i; }
 int	dm_type_unsigned_long (unsigned long i)	{ return i; }
 int	dm_type_void (void)			{ return 0; }
 void *	dm_type_void_star (void * p)		{ return p; }
 typedef int myint;
 int	dm_type_typedef (myint i)		{ return i; }
	#include <stddef.h>

	class foo {
	public:
	foo (int);
	foo (int, const char *);
	foo (foo&);
	~foo ();

	void operator * (foo&);
	void operator % (foo&);
	void operator - (foo&);
	void operator >> (foo&);
	void operator != (foo&);
	void operator > (foo&);
	void operator >= (foo&);
	void operator \| (foo&);
	void operator && (foo&);
	void operator ! (void);
	void operator ++ (int);
	void operator = (foo&);
	void operator += (foo&);
	void operator *= (foo&);
	void operator %= (foo&);
	void operator >>= (foo&);
	void operator \|= (foo&);
	void operator , (foo&);
	void operator / (foo&);
	void operator + (foo&);
	void operator << (foo&);
	void operator == (foo&);
	void operator < (foo&);
	void operator <= (foo&);
	void operator & (foo&);
	void operator ^ (foo&);
	void operator \|\| (foo&);
	void operator ~ (void);
	void operator -- (int);
	foo* operator -> (void);
	void operator -= (foo&);
	void operator /= (foo&);
	void operator <<= (foo&);
	void operator &= (foo&);
	void operator ^= (foo&);
	void operator ->* (foo&);
	void operator [] (foo&);
	void operator () (foo&);
	void* operator new (size_t) throw ();
	void* operator new[] (size_t) throw ();
	void operator delete (void *);
	void operator delete[] (void *);
	/**/ operator int ();
	/*/ operator char ();

	int foofunc (int); // forced to have int return type, which is required
	int foofunc (int, signed char *); // forced to have int return type, which is required
	int ifoo;
	const char *ccpfoo;
	};

	int main () {
	int z=3;
	}

	foo::foo (int i) { ifoo = i;}
	foo::foo (int i, const char *ccp) { ifoo = i; ccpfoo = ccp; }
	foo::foo (foo& afoo) { afoo.ifoo = 0; }
	foo::~foo () {}

	void foo::operator * (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator % (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator - (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator >> (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator != (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator > (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator >= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator \| (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator && (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator ! (void) {}
	void foo::operator ++ (int ival) { ival = 0; }
	void foo::operator = (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator += (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator *= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator %= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator >>= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator \|= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator , (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator / (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator + (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator << (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator == (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator < (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator <= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator & (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator ^ (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator \|\| (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator ~ (void) {}
	void foo::operator -- (int ival) { ival = 0; }
	foo* foo::operator -> (void) {return this;}
	void foo::operator -= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator /= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator <<= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator &= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator ^= (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator ->* (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator [] (foo& afoo) { afoo.ifoo = 0; }
	void foo::operator () (foo& afoo) { afoo.ifoo = 0; }
	void* foo::operator new (size_t ival) throw () { ival = 0; return 0; }
	void* foo::operator new[] (size_t ival) throw () { ival = 0; return 0; }
	void foo::operator delete (void *ptr) { ptr = 0; }
	void foo::operator delete[] (void *ptr) { ptr = 0; }
	/**/ foo::operator int () { return 0; }
	/*/ foo::operator char () { return 0; }

	/* Some functions to test overloading by varying one argument type. */

	void overload1arg (void) { }
	void overload1arg (char arg) { arg = 0; }
	void overload1arg (signed char arg) { arg = 0; }
	void overload1arg (unsigned char arg) { arg = 0; }
	void overload1arg (short arg) { arg = 0; }
	void overload1arg (unsigned short arg) { arg = 0; }
	void overload1arg (int arg) { arg = 0; }
	void overload1arg (unsigned int arg) { arg = 0; }
	void overload1arg (long arg) { arg = 0; }
	void overload1arg (unsigned long arg) { arg = 0; }
	void overload1arg (float arg) { arg = 0; }
	void overload1arg (double arg) { arg = 0; }

	/* Some functions to test overloading by varying argument count. */

	void overloadargs (int a1) { a1 = 0; }
	void overloadargs (int a1, int a2) { a1 = a2 = 0; }
	void overloadargs (int a1, int a2, int a3) { a1 = a2 = a3 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4)
	{ a1 = a2 = a3 = a4 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5)
	{ a1 = a2 = a3 = a4 = a5 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6)
	{ a1 = a2 = a3 = a4 = a5 = a6 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7)
	{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
	int a8)
	{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
	int a8, int a9)
	{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
	int a8, int a9, int a10)
	{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 =
	a10 = 0; }
	void overloadargs (int a1, int a2, int a3, int a4, int a5, int a6, int a7,
	int a8, int a9, int a10, int a11)
	{ a1 = a2 = a3 = a4 = a5 = a6 = a7 = a8 = a9 =
	a10 = a11 == 0; }

	/* Some hairy function definitions.
	Use typedefs to help maintain sanity. */

	typedef int (PFPc_i)(char );
	typedef short (PFPl_s)(long );
	typedef short (PFPc_s)(char );
	typedef int (*PFl_i)(long);
	typedef PFl_i (PFPc_PFl_i)(char );
	typedef PFl_i (PFPi_PFl_i)(int );
	typedef PFl_i (*PFPFPc_i_PFl_i)(PFPc_i);
	typedef PFl_i (*PFs_PFl_i)(short);
	typedef int (*PFPFPl_s_i)(PFPl_s);
	typedef int (*PFPFPc_s_i)(PFPc_s);

	PFs_PFl_i hairyfunc1 (int arg) { arg = 0; return 0; }
	int hairyfunc2 (PFPc_i arg) { arg = 0; return 0; }
	int hairyfunc3 (PFPFPl_s_i arg) { arg = 0; return 0; }
	int hairyfunc4 (PFPFPc_s_i arg) { arg = 0; return 0; }
	int hairyfunc5 (PFPc_PFl_i arg) { arg = 0; return 0; }
	int hairyfunc6 (PFPi_PFl_i arg) { arg = 0; return 0; }
	int hairyfunc7 (PFPFPc_i_PFl_i arg) { arg = 0; return 0; }

	/* gdb has two demanglers (one for g++ 2.95, one for g++ 3).
	These marker functions help me figure out which demangler is in use. */

	char * dm_type_char_star (char * p) { return p; }
	int dm_type_foo_ref (foo & foo) { return foo.ifoo; }
	int * dm_type_int_star (int * p) { return p; }
	long * dm_type_long_star (long * p) { return p; }
	int dm_type_short (short i) { return i; }
	int dm_type_long (long i) { return i; }
	int dm_type_unsigned_int (unsigned int i) { return i; }
	int dm_type_unsigned_short (unsigned short i) { return i; }
	int dm_type_unsigned_long (unsigned long i) { return i; }
	int dm_type_void (void) { return 0; }
	void * dm_type_void_star (void * p) { return p; }
	typedef int myint;
	int dm_type_typedef (myint i) { return i; }