clang-tests-external/gdb/7.5/gdb/testsuite/gdb.cp/meth-typedefs.cc - llvm-archive - Git at Google

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

    Copyright 2011-2012 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/>.

    Contributed by Red Hat, originally written by Keith Seitz.  */

 #include <stdlib.h>

 typedef const char* const* my_type;
 typedef int my_type_2;
 typedef my_type my_other_type;
 typedef my_type_2 my_other_type_2;
 typedef unsigned long CORE_ADDR;
 typedef enum {E_A, E_B, E_C} anon_enum;
 typedef struct {int a; char b;} anon_struct;
 typedef union {int a; char b;} anon_union;
 typedef anon_enum aenum;
 typedef anon_struct astruct;
 typedef anon_union aunion;

 typedef void (*fptr1) (my_other_type);
 typedef void (*fptr2) (fptr1, my_other_type_2);
 typedef void (*fptr3) (fptr2, my_other_type);
 typedef void (*fptr4) (anon_enum a, anon_struct const& b, anon_union const*** c);

 namespace A
 {
   class foo
   {
   public:
     foo (void) { }
     foo (my_other_type a) { } // A::FOO::foo(my_other_type)
     foo (my_other_type_2 a) { } // A::FOO::foo(my_other_type_2)
     foo (my_other_type_2 a, const my_other_type b) { } // A::FOO::foo(my_other_type_2, const my_other_type)
     foo (fptr3) { } // A::FOO::foo(fptr3)
     foo (fptr1* a) { } // A::FOO::foo(fptr1*)
     foo (CORE_ADDR (*) [10]) { } // A::FOO::foo(CORE_ADDR (*) [10])
     foo (aenum a, astruct const& b, aunion const*** c) { } // A::FOO::foo(aenum, astruct const&, aunion const***)

     void test (my_other_type a) { } // A::FOO::test(my_other_type)
     void test (my_other_type_2 a) { } // A::FOO::test(my_other_type_2)
     void test (my_other_type_2 a, const my_other_type b) { } // A::FOO::test(my_other_type_2, const my_other_type)
     void test (fptr3 a) { } // A::FOO::test(fptr3)
     void test (fptr1* a) { } // A::FOO::test(fptr1*)
     void test (CORE_ADDR (*) [10]) { } // A::FOO::test(CORE_ADDR (*) [10])
     void test (aenum a, astruct const& b, aunion const*** c) { }; // A::FOO::test(aenum, astruct const&, aunion const***)
   };

   typedef foo FOO;
 };

 namespace B
 {
   void
   test (my_other_type foo) { } // B::test(my_other_type)

   void
   test (aenum a, astruct const& b, aunion const*** c) { } // B::test(aenum, astruct const&, aunion const***)

   template <typename T1, typename T2>
   void test (T1 a, T2 b) { } // B::test (T1, T2)

   template <>
   void test (my_other_type foo, my_other_type_2) { } // B::test<my_other_type, my_other_type_2>(my_other_type, my_other_type_2)
 };

 namespace a
 {
   namespace b
   {
     namespace c
     {
       namespace d
       {
 	class bar { };
       }
     }

     typedef c::d::bar BAR;
   }
 }

 typedef a::b::BAR _BAR_;

 template <typename T1, typename T2>
 void test (T1 a, T2 b) {} // test (T1, T2)

 template <>
 void test (my_other_type foo, my_other_type_2) { } // test<my_other_type, my_other_type_2>(my_other_type, my_other_type_2)

 void
 test (my_other_type foo) { } // test(my_other_type)

 void
 test (_BAR_ &b) { } // test(_BAR_&)

 void
 test (aenum a, astruct const& b, aunion const*** c) { } // test(aenum, astruct const&, aunion const***)

 int
 main (void)
 {
   A::FOO my_foo;
   fptr1 fptr;
   astruct as = { 0, 0 };
   aunion const au = { 0 };
   aunion const* aup = &au;
   aunion const** aupp = &aup;
   aunion const*** auppp = &aupp;

   my_foo.test (static_cast<my_other_type> (NULL));
   my_foo.test (0);
   my_foo.test (0, static_cast<my_type> (NULL));
   my_foo.test (static_cast<fptr3> (NULL));
   my_foo.test (&fptr);
   my_foo.test (static_cast<CORE_ADDR (*) [10]> (0));
   my_foo.test (E_A, as, auppp);

   B::test (static_cast<my_other_type> (NULL));
   B::test (static_cast<my_other_type> (NULL), 0);
   B::test (E_A, as, auppp);

   test (static_cast<my_other_type> (NULL));
   test<my_other_type, my_other_type_2> (static_cast<my_other_type> (NULL), 0);
   test (E_A, as, auppp);

   A::foo a (static_cast<my_other_type> (NULL));
   A::foo b (0);
   A::foo c (0, static_cast<my_other_type> (NULL));
   A::foo d (static_cast<fptr3> (NULL));
   A::foo e (&fptr);
   A::foo f (static_cast<CORE_ADDR (*) [10]> (0));
   A::foo g (E_A, as, auppp);

   fptr4 f4;

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

	Copyright 2011-2012 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/>.

	Contributed by Red Hat, originally written by Keith Seitz. */

	#include <stdlib.h>

	typedef const char* const* my_type;
	typedef int my_type_2;
	typedef my_type my_other_type;
	typedef my_type_2 my_other_type_2;
	typedef unsigned long CORE_ADDR;
	typedef enum {E_A, E_B, E_C} anon_enum;
	typedef struct {int a; char b;} anon_struct;
	typedef union {int a; char b;} anon_union;
	typedef anon_enum aenum;
	typedef anon_struct astruct;
	typedef anon_union aunion;

	typedef void (*fptr1) (my_other_type);
	typedef void (*fptr2) (fptr1, my_other_type_2);
	typedef void (*fptr3) (fptr2, my_other_type);
	typedef void (fptr4) (anon_enum a, anon_struct const& b, anon_union const** c);

	namespace A
	{
	class foo
	{
	public:
	foo (void) { }
	foo (my_other_type a) { } // A::FOO::foo(my_other_type)
	foo (my_other_type_2 a) { } // A::FOO::foo(my_other_type_2)
	foo (my_other_type_2 a, const my_other_type b) { } // A::FOO::foo(my_other_type_2, const my_other_type)
	foo (fptr3) { } // A::FOO::foo(fptr3)
	foo (fptr1* a) { } // A::FOO::foo(fptr1*)
	foo (CORE_ADDR () [10]) { } // A::FOO::foo(CORE_ADDR () [10])
	foo (aenum a, astruct const& b, aunion const* c) { } // A::FOO::foo(aenum, astruct const&, aunion const*)

	void test (my_other_type a) { } // A::FOO::test(my_other_type)
	void test (my_other_type_2 a) { } // A::FOO::test(my_other_type_2)
	void test (my_other_type_2 a, const my_other_type b) { } // A::FOO::test(my_other_type_2, const my_other_type)
	void test (fptr3 a) { } // A::FOO::test(fptr3)
	void test (fptr1* a) { } // A::FOO::test(fptr1*)
	void test (CORE_ADDR () [10]) { } // A::FOO::test(CORE_ADDR () [10])
	void test (aenum a, astruct const& b, aunion const* c) { }; // A::FOO::test(aenum, astruct const&, aunion const*)
	};

	typedef foo FOO;
	};

	namespace B
	{
	void
	test (my_other_type foo) { } // B::test(my_other_type)

	void
	test (aenum a, astruct const& b, aunion const* c) { } // B::test(aenum, astruct const&, aunion const*)

	template <typename T1, typename T2>
	void test (T1 a, T2 b) { } // B::test (T1, T2)

	template <>
	void test (my_other_type foo, my_other_type_2) { } // B::test<my_other_type, my_other_type_2>(my_other_type, my_other_type_2)
	};

	namespace a
	{
	namespace b
	{
	namespace c
	{
	namespace d
	{
	class bar { };
	}
	}

	typedef c::d::bar BAR;
	}
	}

	typedef a::b::BAR _BAR_;

	template <typename T1, typename T2>
	void test (T1 a, T2 b) {} // test (T1, T2)

	template <>
	void test (my_other_type foo, my_other_type_2) { } // test<my_other_type, my_other_type_2>(my_other_type, my_other_type_2)

	void
	test (my_other_type foo) { } // test(my_other_type)

	void
	test (_BAR_ &b) { } // test(_BAR_&)

	void
	test (aenum a, astruct const& b, aunion const* c) { } // test(aenum, astruct const&, aunion const*)

	int
	main (void)
	{
	A::FOO my_foo;
	fptr1 fptr;
	astruct as = { 0, 0 };
	aunion const au = { 0 };
	aunion const* aup = &au;
	aunion const** aupp = &aup;
	aunion const*** auppp = &aupp;

	my_foo.test (static_cast<my_other_type> (NULL));
	my_foo.test (0);
	my_foo.test (0, static_cast<my_type> (NULL));
	my_foo.test (static_cast<fptr3> (NULL));
	my_foo.test (&fptr);
	my_foo.test (static_cast<CORE_ADDR (*) [10]> (0));
	my_foo.test (E_A, as, auppp);

	B::test (static_cast<my_other_type> (NULL));
	B::test (static_cast<my_other_type> (NULL), 0);
	B::test (E_A, as, auppp);

	test (static_cast<my_other_type> (NULL));
	test<my_other_type, my_other_type_2> (static_cast<my_other_type> (NULL), 0);
	test (E_A, as, auppp);

	A::foo a (static_cast<my_other_type> (NULL));
	A::foo b (0);
	A::foo c (0, static_cast<my_other_type> (NULL));
	A::foo d (static_cast<fptr3> (NULL));
	A::foo e (&fptr);
	A::foo f (static_cast<CORE_ADDR (*) [10]> (0));
	A::foo g (E_A, as, auppp);

	fptr4 f4;

	return 0;
	}