gdb/testsuite/gdb.cp/cpexprs.cc - native_client/nacl-gdb - Git at Google

 /* This testcase is part of GDB, the GNU debugger.

    Copyright 2008-2013 Free Software Foundation, Inc.

    Contributed by Red Hat, originally written by Keith Seitz.

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 3 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program.  If not, see <http://www.gnu.org/licenses/>.

    Please email any bugs, comments, and/or additions to this file to:
    bug-gdb@gnu.org  */

 #include <stdlib.h>
 #include <iostream>

 // Forward decls
 class base;
 class derived;

 // A simple template with specializations
 template <typename T>
 class tclass
 {
 public:
   void do_something () { } // tclass<T>::do_something
 };

 template <>
 void tclass<char>::do_something () { } // tclass<char>::do_something

 template <>
 void tclass<int>::do_something () { } // tclass<int>::do_something

 template<>
 void tclass<long>::do_something () { } // tclass<long>::do_something

 template<>
 void tclass<short>::do_something () { } // tclass<short>::do_something

 // A simple template with multiple template parameters
 template <class A, class B, class C, class D, class E>
 void flubber (void) // flubber
 {
   A a;
   B b;
   C c;
   D d;
   E e;

   ++a;
   ++b;
   ++c;
   ++d;
   ++e;
 }

 // Some contrived policies
 template <class T>
 struct operation_1
 {
   static void function (void) { } // operation_1<T>::function
 };

 template <class T>
 struct operation_2
 {
   static void function (void) { } // operation_2<T>::function
 };

 template <class T>
 struct operation_3
 {
   static void function (void) { } // operation_3<T>::function
 };

 template <class T>
 struct operation_4
 {
   static void function (void) { } // operation_4<T>::function
 };

 // A policy-based class w/ and w/o default policy
 template <class T, class Policy>
 class policy : public Policy
 {
 public:
   policy (T obj) : obj_ (obj) { } // policy<T, Policy>::policy

 private:
   T obj_;
 };

 template <class T, class Policy = operation_1<T> >
 class policyd : public Policy
 {
 public:
   policyd (T obj) : obj_ (obj) { } // policyd<T, Policy>::policyd
   ~policyd (void) { } // policyd<T, Policy>::~policyd

 private:
   T obj_;
 };

 typedef policy<int, operation_1<void*> > policy1;
 typedef policy<int, operation_2<void*> > policy2;
 typedef policy<int, operation_3<void*> > policy3;
 typedef policy<int, operation_4<void*> > policy4;

 typedef policyd<int> policyd1;
 typedef policyd<long> policyd2;
 typedef policyd<char> policyd3;
 typedef policyd<base> policyd4;
 typedef policyd<tclass<int> > policyd5;

 class fluff { };
 static fluff *g_fluff = new fluff ();

 class base
 {
 protected:
   int foo_;

 public:
   base (void) : foo_ (42) { } // base::base(void)
   base (int foo) : foo_ (foo) { } // base::base(int)
   ~base (void) { } // base::~base

   // Some overloaded methods
   int overload (void) const { return 0; } // base::overload(void) const
   int overload (int i) const { return 1; } // base::overload(int) const
   int overload (short s) const { return 2; } // base::overload(short) const
   int overload (long l) const { return 3; } // base::overload(long) const
   int overload (char* a) const { return 4; } // base::overload(char*) const
   int overload (base& b) const { return 5; } // base::overload(base&) const

   // Operators
   int operator+ (base const& o) const // base::operator+
   { return foo_ + o.foo_; }

   base operator++ (void) // base::operator++
   { ++foo_; return *this; }

   base operator+=(base const& o) // base::operator+=
   { foo_ += o.foo_; return *this; }

   int operator- (base const& o) const // base::operator-
   { return foo_ - o.foo_; }

   base operator-- (void) // base::operator--
   { --foo_; return *this; }

   base operator-= (base const& o) // base::operator-=
   { foo_ -= o.foo_; return *this; }

   int operator* (base const& o) const // base::operator*
   { return foo_ * o.foo_; }

   base operator*= (base const& o) // base::operator*=
   { foo_ *= o.foo_; return *this; }

   int operator/ (base const& o) const // base::operator/
   { return foo_ / o.foo_; }

   base operator/= (base const& o) // base::operator/=
   { foo_ /= o.foo_; return *this; }

   int operator% (base const& o) const // base::operator%
   { return foo_ % o.foo_; }

   base operator%= (base const& o) // base::operator%=
   { foo_ %= o.foo_; return *this; }

   bool operator< (base const& o) const // base::operator<
   { return foo_ < o.foo_; }

   bool operator<= (base const& o) const // base::operator<=
   { return foo_ <= o.foo_; }

   bool operator> (base const& o) const // base::operator>
   { return foo_ > o.foo_; }

   bool operator>= (base const& o) const // base::operator>=
   { return foo_ >= o.foo_; }

   bool operator!= (base const& o) const // base::operator!=
   { return foo_ != o.foo_; }

   bool operator== (base const& o) const // base::operator==
   { return foo_ == o.foo_; }

   bool operator! (void) const // base::operator!
   { return !foo_; }

   bool operator&& (base const& o) const // base::operator&&
   { return foo_ && o.foo_; }

   bool operator|| (base const& o) const // base::operator||
   { return foo_ || o.foo_; }

   int operator<< (int value) const // base::operator<<
   { return foo_  << value; }

   base operator<<= (int value) // base::operator<<=
   { foo_ <<= value; return *this; }

   int operator>> (int value) const // base::operator>>
   { return foo_  >> value; }

   base operator>>= (int value) // base::operator>>=
   { foo_ >>= value; return *this; }

   int operator~ (void) const // base::operator~
   { return ~foo_; }

   int operator& (base const& o) const // base::operator&
   { return foo_ & o.foo_; }

   base operator&= (base const& o) // base::operator&=
   { foo_ &= o.foo_; return *this; }

   int operator| (base const& o) const // base::operator|
   { return foo_ | o.foo_; }

   base operator|= (base const& o) // base::operator|=
   { foo_ |= o.foo_; return *this; }

   int operator^ (base const& o) const // base::operator^
   { return foo_ ^ o.foo_; }

   base operator^= (base const& o) // base::operator^=
   { foo_ ^= o.foo_; return *this; }

   base operator= (base const& o) // base::operator=
   { foo_ = o.foo_; return *this; }

   void operator() (void) const // base::operator()
   { return; }

   int operator[] (int idx) const // base::operator[]
   { return idx; }

   void* operator new (size_t size) throw () // base::operator new
   { return malloc (size); }

   void operator delete (void* ptr) // base::operator delete
   { free (ptr); }

   void* operator new[] (size_t size) throw () // base::operator new[]
   { return malloc (size); }

   void operator delete[] (void* ptr) // base::operator delete[]
   { free (ptr); }

   base const* operator-> (void) const // base::opeartor->
   { return this; }

   int operator->* (base const& b) const // base::operator->*
   {  return foo_ * b.foo_; }

   operator char* () const { return const_cast<char*> ("hello"); } // base::operator char*
   operator int () const { return 21; } // base::operator int
   operator fluff* () const { return new fluff (); } // base::operator fluff*
   operator fluff** () const { return &g_fluff; } // base::operator fluff**
 };

 class base1 : public virtual base
 {
 public:
   base1 (void) : foo_ (21) { } // base1::base1(void)
   base1 (int a) : foo_(a) { } // base1::base1(int)
   void a_function (void) const { } // base1::a_function

 protected:
   int foo_;
 };

 class base2 : public virtual base
 {
 public:
   base2 () : foo_ (3) { } // base2::base2

 protected:
   void a_function (void) const { } // base2::a_function
   int foo_;
 };

 class derived : public base1, public base2
 {
   public:
   derived(void) : foo_ (4) { } // derived::derived
   void a_function (void) const // derived::a_function
   {
     this->base1::a_function ();
     this->base2::a_function ();
   }

   protected:
   int foo_;
 };

 class CV { public:
   static const int i;
   typedef int t;
   void m(t);
   void m(t) const;
   void m(t) volatile;
   void m(t) const volatile;
 };
 const int CV::i = 42;
 #ifdef __GNUC__
 # define ATTRIBUTE_USED __attribute__((used))
 #else
 # define ATTRIBUTE_USED
 #endif
 ATTRIBUTE_USED void CV::m(CV::t) {}
 ATTRIBUTE_USED void CV::m(CV::t) const {}
 ATTRIBUTE_USED void CV::m(CV::t) volatile {}
 ATTRIBUTE_USED void CV::m(CV::t) const volatile {}
 int CV_f (int x)
 {
   return x + 1;
 }

 int
 test_function (int argc, char* argv[]) // test_function
 { // test_function
   derived d;
   void (derived::*pfunc) (void) const = &derived::a_function;
   (d.*pfunc) ();

   base a (1), b (3), c (8);
   (void) a.overload ();
   (void) a.overload (static_cast<int> (0));
   (void) a.overload (static_cast<short> (0));
   (void) a.overload (static_cast<long> (0));
   (void) a.overload (static_cast<char*> (0));
   (void) a.overload (a);

   int r;
   r = b + c;
   ++a;
   a += b;
   r = b - c;
   --a;
   a -= b;
   r = b * c;
   a *= b;
   r = b / c;
   a /= b;
   r = b % c;
   a %= b;
   bool x = (b < c);
   x = (b <= c);
   x = (b > c);
   x = (b >= c);
   x = (b != c);
   x = (b == c);
   x = (!b);
   x = (b && c);
   x = (b || c);
   r = b << 2;
   a <<= 1;
   r = b >> 2;
   a >>= 1;
   r = ~b;
   r = b & c;
   a &= c;
   r = b | c;
   a |= c;
   r = b ^ c;
   a ^= c;
   a = c;
   a ();
   int i = a[3];
   derived* f = new derived ();
   derived* g = new derived[3];
   delete f;
   delete[] g;
   a->overload ();
   r = a->*b;

   tclass<char> char_tclass;
   tclass<int> int_tclass;
   tclass<short> short_tclass;
   tclass<long> long_tclass;
   tclass<base> base_tclass;
   char_tclass.do_something ();
   int_tclass.do_something ();
   short_tclass.do_something ();
   long_tclass.do_something ();
   base_tclass.do_something ();

   flubber<int, int, int, int, int> ();
   flubber<int, int, int, int, short> ();
   flubber<int, int, int, int, long> ();
   flubber<int, int, int, int, char> ();
   flubber<int, int, int, short, int> ();
   flubber<int, int, int, short, short> ();
   flubber<int, int, int, short, long> ();
   flubber<int, int, int, short, char> ();
   flubber<int, int, int, long, int> ();
   flubber<int, int, int, long, short> ();
   flubber<int, int, int, long, long> ();
   flubber<int, int, int, long, char> ();
   flubber<int, int, int, char, int> ();
   flubber<int, int, int, char, short> ();
   flubber<int, int, int, char, long> ();
   flubber<int, int, int, char, char> ();
   flubber<int, int, short, int, int> ();
   flubber<int, int, short, int, short> ();
   flubber<int, int, short, int, long> ();
   flubber<int, int, short, int, char> ();
   flubber<int, int, short, short, int> ();
   flubber<short, int, short, int, short> ();
   flubber<long, short, long, short, long> ();

   policy1 p1 (1);
   p1.function ();
   policy2 p2 (2);
   p2.function ();
   policy3 p3 (3);
   p3.function ();
   policy4 p4 (4);
   p4.function ();

   policyd1 pd1 (5);
   pd1.function ();
   policyd2 pd2 (6);
   pd2.function ();
   policyd3 pd3 (7);
   pd3.function ();
   policyd4 pd4 (d);
   pd4.function ();
   policyd5 pd5 (int_tclass);
   pd5.function ();

   base1 b1 (3);

   r = a;
   char* str = a;
   fluff* flp = a;
   fluff** flpp = a;

   CV_f(CV::i);

   return 0;
 }

 int
 main (int argc, char* argv[])
 {
   int i;

   /* Call the test function repeatedly, enough times for all our tests
      without running forever if something goes wrong.  */
   for (i = 0; i < 1000; i++)
     test_function (argc, argv);

   return 0;
 }
	/* This testcase is part of GDB, the GNU debugger.

	Copyright 2008-2013 Free Software Foundation, Inc.

	Contributed by Red Hat, originally written by Keith Seitz.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3 of the License, or
	(at your option) any later version.

	This program is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program. If not, see <http://www.gnu.org/licenses/>.

	Please email any bugs, comments, and/or additions to this file to:
	bug-gdb@gnu.org */

	#include <stdlib.h>
	#include <iostream>

	// Forward decls
	class base;
	class derived;

	// A simple template with specializations
	template <typename T>
	class tclass
	{
	public:
	void do_something () { } // tclass<T>::do_something
	};

	template <>
	void tclass<char>::do_something () { } // tclass<char>::do_something

	template <>
	void tclass<int>::do_something () { } // tclass<int>::do_something

	template<>
	void tclass<long>::do_something () { } // tclass<long>::do_something

	template<>
	void tclass<short>::do_something () { } // tclass<short>::do_something

	// A simple template with multiple template parameters
	template <class A, class B, class C, class D, class E>
	void flubber (void) // flubber
	{
	A a;
	B b;
	C c;
	D d;
	E e;

	++a;
	++b;
	++c;
	++d;
	++e;
	}

	// Some contrived policies
	template <class T>
	struct operation_1
	{
	static void function (void) { } // operation_1<T>::function
	};

	template <class T>
	struct operation_2
	{
	static void function (void) { } // operation_2<T>::function
	};

	template <class T>
	struct operation_3
	{
	static void function (void) { } // operation_3<T>::function
	};

	template <class T>
	struct operation_4
	{
	static void function (void) { } // operation_4<T>::function
	};

	// A policy-based class w/ and w/o default policy
	template <class T, class Policy>
	class policy : public Policy
	{
	public:
	policy (T obj) : obj_ (obj) { } // policy<T, Policy>::policy

	private:
	T obj_;
	};

	template <class T, class Policy = operation_1<T> >
	class policyd : public Policy
	{
	public:
	policyd (T obj) : obj_ (obj) { } // policyd<T, Policy>::policyd
	~policyd (void) { } // policyd<T, Policy>::~policyd

	private:
	T obj_;
	};

	typedef policy<int, operation_1<void*> > policy1;
	typedef policy<int, operation_2<void*> > policy2;
	typedef policy<int, operation_3<void*> > policy3;
	typedef policy<int, operation_4<void*> > policy4;

	typedef policyd<int> policyd1;
	typedef policyd<long> policyd2;
	typedef policyd<char> policyd3;
	typedef policyd<base> policyd4;
	typedef policyd<tclass<int> > policyd5;

	class fluff { };
	static fluff *g_fluff = new fluff ();

	class base
	{
	protected:
	int foo_;

	public:
	base (void) : foo_ (42) { } // base::base(void)
	base (int foo) : foo_ (foo) { } // base::base(int)
	~base (void) { } // base::~base

	// Some overloaded methods
	int overload (void) const { return 0; } // base::overload(void) const
	int overload (int i) const { return 1; } // base::overload(int) const
	int overload (short s) const { return 2; } // base::overload(short) const
	int overload (long l) const { return 3; } // base::overload(long) const
	int overload (char* a) const { return 4; } // base::overload(char*) const
	int overload (base& b) const { return 5; } // base::overload(base&) const

	// Operators
	int operator+ (base const& o) const // base::operator+
	{ return foo_ + o.foo_; }

	base operator++ (void) // base::operator++
	{ ++foo_; return *this; }

	base operator+=(base const& o) // base::operator+=
	{ foo_ += o.foo_; return *this; }

	int operator- (base const& o) const // base::operator-
	{ return foo_ - o.foo_; }

	base operator-- (void) // base::operator--
	{ --foo_; return *this; }

	base operator-= (base const& o) // base::operator-=
	{ foo_ -= o.foo_; return *this; }

	int operator* (base const& o) const // base::operator*
	{ return foo_ * o.foo_; }

	base operator= (base const& o) // base::operator=
	{ foo_ = o.foo_; return this; }

	int operator/ (base const& o) const // base::operator/
	{ return foo_ / o.foo_; }

	base operator/= (base const& o) // base::operator/=
	{ foo_ /= o.foo_; return *this; }

	int operator% (base const& o) const // base::operator%
	{ return foo_ % o.foo_; }

	base operator%= (base const& o) // base::operator%=
	{ foo_ %= o.foo_; return *this; }

	bool operator< (base const& o) const // base::operator<
	{ return foo_ < o.foo_; }

	bool operator<= (base const& o) const // base::operator<=
	{ return foo_ <= o.foo_; }

	bool operator> (base const& o) const // base::operator>
	{ return foo_ > o.foo_; }

	bool operator>= (base const& o) const // base::operator>=
	{ return foo_ >= o.foo_; }

	bool operator!= (base const& o) const // base::operator!=
	{ return foo_ != o.foo_; }

	bool operator== (base const& o) const // base::operator==
	{ return foo_ == o.foo_; }

	bool operator! (void) const // base::operator!
	{ return !foo_; }

	bool operator&& (base const& o) const // base::operator&&
	{ return foo_ && o.foo_; }

	bool operator\|\| (base const& o) const // base::operator\|\|
	{ return foo_ \|\| o.foo_; }

	int operator<< (int value) const // base::operator<<
	{ return foo_ << value; }

	base operator<<= (int value) // base::operator<<=
	{ foo_ <<= value; return *this; }

	int operator>> (int value) const // base::operator>>
	{ return foo_ >> value; }

	base operator>>= (int value) // base::operator>>=
	{ foo_ >>= value; return *this; }

	int operator~ (void) const // base::operator~
	{ return ~foo_; }

	int operator& (base const& o) const // base::operator&
	{ return foo_ & o.foo_; }

	base operator&= (base const& o) // base::operator&=
	{ foo_ &= o.foo_; return *this; }

	int operator\| (base const& o) const // base::operator\|
	{ return foo_ \| o.foo_; }

	base operator\|= (base const& o) // base::operator\|=
	{ foo_ \|= o.foo_; return *this; }

	int operator^ (base const& o) const // base::operator^
	{ return foo_ ^ o.foo_; }

	base operator^= (base const& o) // base::operator^=
	{ foo_ ^= o.foo_; return *this; }

	base operator= (base const& o) // base::operator=
	{ foo_ = o.foo_; return *this; }

	void operator() (void) const // base::operator()
	{ return; }

	int operator[] (int idx) const // base::operator[]
	{ return idx; }

	void* operator new (size_t size) throw () // base::operator new
	{ return malloc (size); }

	void operator delete (void* ptr) // base::operator delete
	{ free (ptr); }

	void* operator new[] (size_t size) throw () // base::operator new[]
	{ return malloc (size); }

	void operator delete[] (void* ptr) // base::operator delete[]
	{ free (ptr); }

	base const* operator-> (void) const // base::opeartor->
	{ return this; }

	int operator->* (base const& b) const // base::operator->*
	{ return foo_ * b.foo_; }

	operator char* () const { return const_cast<char> ("hello"); } // base::operator char
	operator int () const { return 21; } // base::operator int
	operator fluff* () const { return new fluff (); } // base::operator fluff*
	operator fluff () const { return &g_fluff; } // base::operator fluff
	};

	class base1 : public virtual base
	{
	public:
	base1 (void) : foo_ (21) { } // base1::base1(void)
	base1 (int a) : foo_(a) { } // base1::base1(int)
	void a_function (void) const { } // base1::a_function

	protected:
	int foo_;
	};

	class base2 : public virtual base
	{
	public:
	base2 () : foo_ (3) { } // base2::base2

	protected:
	void a_function (void) const { } // base2::a_function
	int foo_;
	};

	class derived : public base1, public base2
	{
	public:
	derived(void) : foo_ (4) { } // derived::derived
	void a_function (void) const // derived::a_function
	{
	this->base1::a_function ();
	this->base2::a_function ();
	}

	protected:
	int foo_;
	};

	class CV { public:
	static const int i;
	typedef int t;
	void m(t);
	void m(t) const;
	void m(t) volatile;
	void m(t) const volatile;
	};
	const int CV::i = 42;
	#ifdef __GNUC__
	# define ATTRIBUTE_USED __attribute__((used))
	#else
	# define ATTRIBUTE_USED
	#endif
	ATTRIBUTE_USED void CV::m(CV::t) {}
	ATTRIBUTE_USED void CV::m(CV::t) const {}
	ATTRIBUTE_USED void CV::m(CV::t) volatile {}
	ATTRIBUTE_USED void CV::m(CV::t) const volatile {}
	int CV_f (int x)
	{
	return x + 1;
	}

	int
	test_function (int argc, char* argv[]) // test_function
	{ // test_function
	derived d;
	void (derived::*pfunc) (void) const = &derived::a_function;
	(d.*pfunc) ();

	base a (1), b (3), c (8);
	(void) a.overload ();
	(void) a.overload (static_cast<int> (0));
	(void) a.overload (static_cast<short> (0));
	(void) a.overload (static_cast<long> (0));
	(void) a.overload (static_cast<char*> (0));
	(void) a.overload (a);

	int r;
	r = b + c;
	++a;
	a += b;
	r = b - c;
	--a;
	a -= b;
	r = b * c;
	a *= b;
	r = b / c;
	a /= b;
	r = b % c;
	a %= b;
	bool x = (b < c);
	x = (b <= c);
	x = (b > c);
	x = (b >= c);
	x = (b != c);
	x = (b == c);
	x = (!b);
	x = (b && c);
	x = (b \|\| c);
	r = b << 2;
	a <<= 1;
	r = b >> 2;
	a >>= 1;
	r = ~b;
	r = b & c;
	a &= c;
	r = b \| c;
	a \|= c;
	r = b ^ c;
	a ^= c;
	a = c;
	a ();
	int i = a[3];
	derived* f = new derived ();
	derived* g = new derived[3];
	delete f;
	delete[] g;
	a->overload ();
	r = a->*b;

	tclass<char> char_tclass;
	tclass<int> int_tclass;
	tclass<short> short_tclass;
	tclass<long> long_tclass;
	tclass<base> base_tclass;
	char_tclass.do_something ();
	int_tclass.do_something ();
	short_tclass.do_something ();
	long_tclass.do_something ();
	base_tclass.do_something ();

	flubber<int, int, int, int, int> ();
	flubber<int, int, int, int, short> ();
	flubber<int, int, int, int, long> ();
	flubber<int, int, int, int, char> ();
	flubber<int, int, int, short, int> ();
	flubber<int, int, int, short, short> ();
	flubber<int, int, int, short, long> ();
	flubber<int, int, int, short, char> ();
	flubber<int, int, int, long, int> ();
	flubber<int, int, int, long, short> ();
	flubber<int, int, int, long, long> ();
	flubber<int, int, int, long, char> ();
	flubber<int, int, int, char, int> ();
	flubber<int, int, int, char, short> ();
	flubber<int, int, int, char, long> ();
	flubber<int, int, int, char, char> ();
	flubber<int, int, short, int, int> ();
	flubber<int, int, short, int, short> ();
	flubber<int, int, short, int, long> ();
	flubber<int, int, short, int, char> ();
	flubber<int, int, short, short, int> ();
	flubber<short, int, short, int, short> ();
	flubber<long, short, long, short, long> ();

	policy1 p1 (1);
	p1.function ();
	policy2 p2 (2);
	p2.function ();
	policy3 p3 (3);
	p3.function ();
	policy4 p4 (4);
	p4.function ();

	policyd1 pd1 (5);
	pd1.function ();
	policyd2 pd2 (6);
	pd2.function ();
	policyd3 pd3 (7);
	pd3.function ();
	policyd4 pd4 (d);
	pd4.function ();
	policyd5 pd5 (int_tclass);
	pd5.function ();

	base1 b1 (3);

	r = a;
	char* str = a;
	fluff* flp = a;
	fluff** flpp = a;

	CV_f(CV::i);

	return 0;
	}

	int
	main (int argc, char* argv[])
	{
	int i;

	/* Call the test function repeatedly, enough times for all our tests
	without running forever if something goes wrong. */
	for (i = 0; i < 1000; i++)
	test_function (argc, argv);

	return 0;
	}