gdb/testsuite/gdb.linespec/cpls-ops.cc - binutils-gdb - Git at Google

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

    Copyright 2017-2020 Free Software Foundation, Inc.

    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/>.  */

 #include <cstddef>

 /* Code for operator() tests.  */

 struct test_unique_op_call
 {
   void operator() (int);
 };

 void
 test_unique_op_call::operator() (int)
 {}

 struct test_op_call
 {
   void operator() ();
   void operator() (int);
   void operator() (long);

   template<typename T>
   void operator() (T *);
 };

 void
 test_op_call::operator() (int)
 {}

 void
 test_op_call::operator() ()
 {}

 void
 test_op_call::operator() (long)
 {}

 template<typename T>
 void
 test_op_call::operator() (T *t)
 {
 }

 /* Code for operator[] tests.  */

 struct test_unique_op_array
 {
   void operator[] (int);
 };

 void
 test_unique_op_array::operator[] (int)
 {}

 struct test_op_array
 {
   void operator[] (int);
   void operator[] (long);

   template<typename T>
   void operator[] (T *);
 };

 void
 test_op_array::operator[] (int)
 {}

 void
 test_op_array::operator[] (long)
 {}

 template<typename T>
 void
 test_op_array::operator[] (T *t)
 {}

 /* Code for operator new tests.  */

 struct test_op_new
 {
   void *operator new (size_t);
 };

 void *
 test_op_new::operator new (size_t)
 {
   return NULL;
 }

 /* Code for operator delete tests.  */

 struct test_op_delete
 {
   void operator delete (void *);
 };

 void
 test_op_delete::operator delete (void *)
 {
 }

 /* Code for operator new[] tests.  */

 struct test_op_new_array
 {
   void *operator new[] (size_t);
 };

 void *
 test_op_new_array::operator new[] (size_t)
 {
   return NULL;
 }

 /* Code for operator delete[] tests.  */

 struct test_op_delete_array
 {
   void operator delete[] (void *);
 };

 void
 test_op_delete_array::operator delete[] (void *)
 {
 }

 /* Code for user-defined conversion tests.  */

 struct test_op_conversion_res;

 struct test_op_conversion
 {
   operator const volatile test_op_conversion_res **() const volatile;
 };

 test_op_conversion::operator const volatile test_op_conversion_res **()
   const volatile
 {
   return NULL;
 }

 /* Code for the assignment operator tests.  */

 struct test_op_assign
 {
   test_op_assign operator= (const test_op_assign &);
 };

 test_op_assign
 test_op_assign::operator= (const test_op_assign &)
 {
   return test_op_assign ();
 }

 /* Code for the arrow operator tests.  */

 struct test_op_arrow
 {
   test_op_arrow operator-> ();
 };

 test_op_arrow
 test_op_arrow::operator-> ()
 {
   return test_op_arrow ();
 }

 /* Code for the logical/arithmetic operators tests.  */

 struct E
 {
 };

 #define GEN_OP(NS, ...)				\
   namespace test_ops {				\
     void operator __VA_ARGS__ {}		\
   }						\
   namespace test_op_ ## NS {			\
     void operator __VA_ARGS__ {}		\
   }

 GEN_OP (PLUS_A,    +=  (E, E)  )
 GEN_OP (PLUS,      +   (E, E)  )
 GEN_OP (MINUS_A,   -=  (E, E)  )
 GEN_OP (MINUS,     -   (E, E)  )
 GEN_OP (MOD_A,     %=  (E, E)  )
 GEN_OP (MOD,       %   (E, E)  )
 GEN_OP (EQ,        ==  (E, E)  )
 GEN_OP (NEQ,       !=  (E, E)  )
 GEN_OP (LAND,      &&  (E, E)  )
 GEN_OP (LOR,       ||  (E, E)  )
 GEN_OP (SL_A,      <<= (E, E)  )
 GEN_OP (SR_A,      >>= (E, E)  )
 GEN_OP (SL,        <<  (E, E)  )
 GEN_OP (SR,        >>  (E, E)  )
 GEN_OP (OE,        |=  (E, E)  )
 GEN_OP (BIT_O,     |   (E, E)  )
 GEN_OP (XOR_A,     ^=  (E, E)  )
 GEN_OP (XOR,       ^   (E, E)  )
 GEN_OP (BIT_AND_A, &=  (E, E)  )
 GEN_OP (BIT_AND,   &   (E, E)  )
 GEN_OP (LT,        <   (E, E)  )
 GEN_OP (LTE,       <=  (E, E)  )
 GEN_OP (GTE,       >=  (E, E)  )
 GEN_OP (GT,        >   (E, E)  )
 GEN_OP (MUL_A,     *=  (E, E)  )
 GEN_OP (MUL,       *   (E, E)  )
 GEN_OP (DIV_A,     /=  (E, E)  )
 GEN_OP (DIV,       /   (E, E)  )
 GEN_OP (NEG,       ~   (E)      )
 GEN_OP (NOT,       !   (E)      )
 GEN_OP (PRE_INC,   ++  (E)      )
 GEN_OP (POST_INC,  ++  (E, int) )
 GEN_OP (PRE_DEC,   --  (E)      )
 GEN_OP (POST_DEC,  --  (E, int) )
 GEN_OP (COMMA,     ,   (E, E)  )

 int
 main ()
 {
   test_op_call opcall;
   opcall ();
   opcall (1);
   opcall (1l);
   opcall ((int *) 0);

   test_unique_op_call opcall2;
   opcall2 (1);

   test_op_array op_array;
   op_array[1];
   op_array[1l];
   op_array[(int *) 0];

   test_unique_op_array unique_op_array;
   unique_op_array[1];

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

	Copyright 2017-2020 Free Software Foundation, Inc.

	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/>. */

	#include <cstddef>

	/* Code for operator() tests. */

	struct test_unique_op_call
	{
	void operator() (int);
	};

	void
	test_unique_op_call::operator() (int)
	{}

	struct test_op_call
	{
	void operator() ();
	void operator() (int);
	void operator() (long);

	template<typename T>
	void operator() (T *);
	};

	void
	test_op_call::operator() (int)
	{}

	void
	test_op_call::operator() ()
	{}

	void
	test_op_call::operator() (long)
	{}

	template<typename T>
	void
	test_op_call::operator() (T *t)
	{
	}

	/* Code for operator[] tests. */

	struct test_unique_op_array
	{
	void operator[] (int);
	};

	void
	test_unique_op_array::operator[] (int)
	{}

	struct test_op_array
	{
	void operator[] (int);
	void operator[] (long);

	template<typename T>
	void operator[] (T *);
	};

	void
	test_op_array::operator[] (int)
	{}

	void
	test_op_array::operator[] (long)
	{}

	template<typename T>
	void
	test_op_array::operator[] (T *t)
	{}

	/* Code for operator new tests. */

	struct test_op_new
	{
	void *operator new (size_t);
	};

	void *
	test_op_new::operator new (size_t)
	{
	return NULL;
	}

	/* Code for operator delete tests. */

	struct test_op_delete
	{
	void operator delete (void *);
	};

	void
	test_op_delete::operator delete (void *)
	{
	}

	/* Code for operator new[] tests. */

	struct test_op_new_array
	{
	void *operator new[] (size_t);
	};

	void *
	test_op_new_array::operator new[] (size_t)
	{
	return NULL;
	}

	/* Code for operator delete[] tests. */

	struct test_op_delete_array
	{
	void operator delete[] (void *);
	};

	void
	test_op_delete_array::operator delete[] (void *)
	{
	}

	/* Code for user-defined conversion tests. */

	struct test_op_conversion_res;

	struct test_op_conversion
	{
	operator const volatile test_op_conversion_res **() const volatile;
	};

	test_op_conversion::operator const volatile test_op_conversion_res **()
	const volatile
	{
	return NULL;
	}

	/* Code for the assignment operator tests. */

	struct test_op_assign
	{
	test_op_assign operator= (const test_op_assign &);
	};

	test_op_assign
	test_op_assign::operator= (const test_op_assign &)
	{
	return test_op_assign ();
	}

	/* Code for the arrow operator tests. */

	struct test_op_arrow
	{
	test_op_arrow operator-> ();
	};

	test_op_arrow
	test_op_arrow::operator-> ()
	{
	return test_op_arrow ();
	}

	/* Code for the logical/arithmetic operators tests. */

	struct E
	{
	};

	#define GEN_OP(NS, ...) \
	namespace test_ops { \
	void operator __VA_ARGS__ {} \
	} \
	namespace test_op_ ## NS { \
	void operator __VA_ARGS__ {} \
	}

	GEN_OP (PLUS_A, += (E, E) )
	GEN_OP (PLUS, + (E, E) )
	GEN_OP (MINUS_A, -= (E, E) )
	GEN_OP (MINUS, - (E, E) )
	GEN_OP (MOD_A, %= (E, E) )
	GEN_OP (MOD, % (E, E) )
	GEN_OP (EQ, == (E, E) )
	GEN_OP (NEQ, != (E, E) )
	GEN_OP (LAND, && (E, E) )
	GEN_OP (LOR, \|\| (E, E) )
	GEN_OP (SL_A, <<= (E, E) )
	GEN_OP (SR_A, >>= (E, E) )
	GEN_OP (SL, << (E, E) )
	GEN_OP (SR, >> (E, E) )
	GEN_OP (OE, \|= (E, E) )
	GEN_OP (BIT_O, \| (E, E) )
	GEN_OP (XOR_A, ^= (E, E) )
	GEN_OP (XOR, ^ (E, E) )
	GEN_OP (BIT_AND_A, &= (E, E) )
	GEN_OP (BIT_AND, & (E, E) )
	GEN_OP (LT, < (E, E) )
	GEN_OP (LTE, <= (E, E) )
	GEN_OP (GTE, >= (E, E) )
	GEN_OP (GT, > (E, E) )
	GEN_OP (MUL_A, *= (E, E) )
	GEN_OP (MUL, * (E, E) )
	GEN_OP (DIV_A, /= (E, E) )
	GEN_OP (DIV, / (E, E) )
	GEN_OP (NEG, ~ (E) )
	GEN_OP (NOT, ! (E) )
	GEN_OP (PRE_INC, ++ (E) )
	GEN_OP (POST_INC, ++ (E, int) )
	GEN_OP (PRE_DEC, -- (E) )
	GEN_OP (POST_DEC, -- (E, int) )
	GEN_OP (COMMA, , (E, E) )

	int
	main ()
	{
	test_op_call opcall;
	opcall ();
	opcall (1);
	opcall (1l);
	opcall ((int *) 0);

	test_unique_op_call opcall2;
	opcall2 (1);

	test_op_array op_array;
	op_array[1];
	op_array[1l];
	op_array[(int *) 0];

	test_unique_op_array unique_op_array;
	unique_op_array[1];

	return 0;
	}