old-cross-binutils/gdb/testsuite/gdb.cp/koenig.cc
Sami Wagiaalla 4c3376c849 Test and support all cpp operator types.
2010-06-07  Sami Wagiaalla  <swagiaal@redhat.com>

	* value.h: Created oload_search_type enum.
	(find_overload_match): Use oload_search_type enum.
	* valops.c (find_overload_match): Support combined member and
	non-member search.
	* eval.c (evaluate_subexp_standard): Calls to
	find_overload_match now use oload_search_type enum.
	(oload_method_static): Verify index is a proper value.
	* valarith.c (value_user_defined_cpp_op): Search for and handle
	both member and non-member operators.
	(value_user_defined_cpp_op): New function.
	(value_user_defined_op): New function.
	(value_x_unop): Use value_user_defined_op.
	(value_x_binop): Ditto.
	* cp-support.c (make_symbol_overload_list_using): Added block
	iteration.
	Add check for namespace aliases and imported declarations.

2010-06-07  Sami Wagiaalla  <swagiaal@redhat.com>

	* gdb.cp/koenig.exp: Test for ADL operators.
	* gdb.cp/koenig.cc: Added ADL operators.
	* gdb.cp/operator.exp: New test.
	* gdb.cp/operator.cc: New test.
2010-06-07 16:11:35 +00:00

306 lines
3.3 KiB
C++

namespace A
{
class C
{
public:
static const int x = 11;
};
int
first (C c)
{
return 11;
}
int
first (int a, C c)
{
return 22;
}
int
second (int a, int b, C cc, int c, int d)
{
return 33;
}
}
struct B
{
A::C c;
};
//------------
namespace E
{
class O{};
int foo (O o){return 1; }
int foo (O o, O o2){return 2; }
int foo (O o, O o2, int i){return 3; }
}
namespace F
{
class O{};
int foo ( O fo, ::E::O eo){ return 4;}
int foo (int i, O fo, ::E::O eo){ return 5;}
}
namespace G
{
class O{};
int foo (O go, ::F::O fo, ::E::O eo){ return 6; }
}
//------------
namespace H
{
class O{};
int foo (O){ return 7;}
}
namespace I
{
class O: public H::O {};
class X: H::O{};
}
//------------
namespace J
{
union U{};
struct S{};
enum E{};
class A{
public:
class B{};
};
class C{};
int foo (U){ return 8;}
int foo (S){ return 9;}
int foo (E){ return 10;}
int foo (A::B){ return 11;}
int foo (A*){ return 12;}
int foo (A**){ return 13;}
int foo (C[]){ return 14;}
}
//------------
namespace K{
class O{};
int foo(O, int){
return 15;
}
int bar(O, int){
return 15;
}
}
int foo(K::O, float){
return 16;
}
int bar(K::O, int){
return 16;
}
//------------
namespace L {
namespace A{
namespace B{
class O {};
int foo (O){
return 17;
}
}
}
}
//------------
namespace M {
class A{
public:
int foo(char) {
return 18;
}
};
int foo(A,char){
return 19;
}
int foo(A *,char){
return 23;
}
int bar(char){
return 21;
}
namespace N {
int foo(::M::A,int){
return 20;
}
int bar(int){
return 22;
}
}
}
//------------
namespace O {
class A{};
int foo(A,int){
return 23;
}
}
typedef O::A TOA;
typedef TOA TTOA;
//------------
static union {
int a;
char b;
}p_union;
//------------
namespace P {
class Q{
public:
int operator== (int)
{
return 24;
}
int operator== (float)
{
return 25;
}
int operator+ (float)
{
return 26;
}
};
int operator!= (Q, int)
{
return 27;
}
int operator!= (Q, double)
{
return 28;
}
int operator+ (Q, int)
{
return 29;
}
int operator++ (Q)
{
return 30;
}
}
//------------
int
main ()
{
A::C c;
B b;
A::first (c);
first (0, c);
second (0, 0, c, 0, 0);
A::first (b.c);
E::O eo;
F::O fo;
G::O go;
foo (eo);
foo (eo, eo);
foo (eo, eo, 1);
foo (fo, eo);
foo (1 ,fo, eo);
foo (go, fo, eo);
I::O io;
I::X ix;
foo (io);
//foo (ix);
J::U ju;
J::S js;
J::E je;
J::A::B jab;
J::A *jap;
J::A **japp;
J::C jca[3];
foo (ju);
foo (js);
foo (je);
foo (jab);
foo (jap);
foo (japp);
foo (jca);
K::O ko;
foo (ko, 1);
foo (ko, 1.0f);
//bar(ko,1);
L::A::B::O labo;
foo (labo);
M::A ma;
foo(ma,'a');
ma.foo('a');
M::N::foo(ma,'a');
M::bar('a');
M::N::bar('a');
TTOA ttoa;
foo (ttoa, 'a');
P::Q q;
q == 5;
q == 5.0f;
q != 5;
q != 5.0f;
q + 5;
q + 5.0f;
++q;
return first (0, c) + foo (eo) +
foo (eo, eo) + foo (eo, eo, 1) +
foo (fo, eo) + foo (1 ,fo, eo) +
foo (go, fo, eo);
}