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// $Id$
#include "TestC.h"
#include "tao/IFR_Client/IFR_BaseC.h"
#include "tao/TypeCodeFactory/TypeCodeFactory_Loader.h"
#include "ace/Get_Opt.h"
#include <algorithm>
#include <functional>
ACE_RCSID (Recursive,
client,
"$Id$")
const char * ior = "file://test.ior";
int
parse_args (int argc, char *argv[])
{
ACE_Get_Opt get_opts (argc, argv, "k:");
int c;
while ((c = get_opts ()) != -1)
switch (c)
{
case 'k':
ior = get_opts.opt_arg ();
break;
case '?':
case 'h':
default:
ACE_ERROR_RETURN ((LM_ERROR,
"usage: %s "
"-k <ior> "
"\n",
argv [0]),
-1);
}
// Successful command line parsing.
return 0;
}
template<typename T> void dump (T *); // Forward declaration.
template<>
void
dump<Test::RecursiveStruct> (Test::RecursiveStruct * data)
{
ACE_DEBUG ((LM_DEBUG,
"Test::RecursiveStruct\n"
"%d\n"
"%u\n"
"%d\n"
"%d\n",
data->i,
data->recursive_structs.length (),
data->recursive_structs[0].i,
data->recursive_structs[1].i));
}
template<>
void
dump<Test::NestedRecursiveStruct> (Test::NestedRecursiveStruct * data)
{
ACE_DEBUG ((LM_DEBUG,
"Test::NestedRecursiveStruct\n"
"%d\n"
"%u\n"
"%d\n"
"%d\n",
data->i,
data->ins.recursive_structs.length (),
data->ins.recursive_structs[0].i,
data->ins.recursive_structs[1].i));
}
template<>
void
dump<Test::RecursiveUnion> (Test::RecursiveUnion * data)
{
ACE_DEBUG ((LM_DEBUG, "Test::RecursiveUnion\n"));
switch (data->_d ())
{
case 0:
{
Test::RecursiveUnionSeq const & seq = data->recursive_unions ();
ACE_DEBUG ((LM_DEBUG,
"%u\n"
"%d\n"
"%u\n",
seq.length (),
seq[0].i (),
seq[1].recursive_unions ().length ()));
}
break;
default:
ACE_DEBUG ((LM_DEBUG,
"%d\n",
data->i ()));
break;
}
}
template<typename T>
void
perform_invocation (Test::Hello_ptr hello,
CORBA::Any const & the_any
ACE_ENV_ARG_DECL)
{
// Execute more than once to help verify that mutable recursive
// TypeCode state is managed correctly.
for (unsigned int n = 0; n < 2; ++n)
{
CORBA::Any_var my_any =
hello->get_any (the_any
ACE_ENV_ARG_PARAMETER);
T * my_foo = 0;
if (!(my_any.in () >>= my_foo))
ACE_THROW (Test::Demarshaling_From_Any_Failed ());
// ACE_DEBUG ((LM_DEBUG, "Data dump:\n"));
// dump<T> (my_foo);
CORBA::TypeCode_var the_tc = the_any.type ();
CORBA::TypeCode_var my_tc = my_any->type ();
CORBA::Boolean const equal_tc =
the_tc->equal (my_tc.in ()
ACE_ENV_ARG_PARAMETER);
if (!equal_tc)
ACE_THROW (Test::Recursive_Type_In_Any_Test_Failed ());
CORBA::Boolean const equiv_tc =
the_tc->equivalent (my_tc.in ()
ACE_ENV_ARG_PARAMETER);
if (!equiv_tc)
ACE_THROW (Test::Recursive_Type_In_Any_Test_Failed ());
}
}
void
recursive_struct_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr hello
ACE_ENV_ARG_DECL)
{
ACE_DEBUG ((LM_INFO,
"Executing recursive struct test\n"));
Test::RecursiveStruct foo;
foo.recursive_structs.length (2);
foo.recursive_structs[0].i = 37;
foo.recursive_structs[1].i = 11034;
foo.i = 12;
CORBA::Any the_any;
the_any <<= foo;
::perform_invocation<Test::RecursiveStruct> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
}
void
nested_recursive_struct_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr hello
ACE_ENV_ARG_DECL)
{
ACE_DEBUG ((LM_INFO,
"Executing nested recursive struct test\n"));
Test::NestedRecursiveStruct foo;
foo.ins.recursive_structs.length (2);
foo.ins.recursive_structs[0].i = 37;
foo.ins.recursive_structs[1].i = 11034;
foo.i = 12;
CORBA::Any the_any;
the_any <<= foo;
::perform_invocation<Test::NestedRecursiveStruct> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
}
void
recursive_union_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr hello
ACE_ENV_ARG_DECL)
{
ACE_DEBUG ((LM_INFO,
"Executing recursive union test\n"));
Test::RecursiveUnion foo;
Test::EnumUnion foo_enum;
static CORBA::Long const test_long = 238901;
CORBA::Any the_any;
// First simple case, just an union with an enum as discriminator
foo_enum.i (test_long);
the_any <<= foo_enum;
::perform_invocation<Test::EnumUnion> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
// Non-recursive member case.
foo.i (test_long);
the_any <<= foo;
::perform_invocation<Test::RecursiveUnion> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
// Recursive member case.
Test::RecursiveUnionSeq seq;
seq.length (2);
seq[0].i (37);
seq[1].recursive_unions (Test::RecursiveUnionSeq ());
foo.recursive_unions (seq);
the_any <<= foo;
::perform_invocation<Test::RecursiveUnion> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
// Recursive member case with no default member
Test::RecursiveUnionSeqNoDefault seqnodefault;
seqnodefault.length (2);
seqnodefault[0].a (37);
seqnodefault[1].recursive_unions (Test::RecursiveUnionSeqNoDefault ());
Test::RecursiveUnionNoDefault foonodefault;
foonodefault.recursive_unions (seqnodefault);
the_any <<= foonodefault;
::perform_invocation<Test::RecursiveUnionNoDefault> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
// Recursive member case with enum .
Test::VSortRecursiveUnionSeq vsortseq;
vsortseq.length (2);
vsortseq[0].i (37);
vsortseq[1].recursive_unions (Test::VSortRecursiveUnionSeq ());
Test::VSortRecursiveUnion vsort_foo;
vsort_foo.recursive_unions (vsortseq);
the_any <<= vsort_foo;
::perform_invocation<Test::VSortRecursiveUnion> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
// Non-recursive member case with enum .
Test::NonRecursiveUnionWithEnum val;
the_any <<= val;
::perform_invocation<Test::NonRecursiveUnionWithEnum> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
}
void
indirectly_recursive_valuetype_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr /* hello */
ACE_ENV_ARG_DECL_NOT_USED)
{
ACE_DEBUG ((LM_INFO,
"Executing indirectly recursive valuetype test\n"));
ACE_DEBUG ((LM_WARNING,
" Currently unimplemented.\n"));
}
void
directly_recursive_valuetype_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr /* hello */
ACE_ENV_ARG_DECL_NOT_USED)
{
ACE_DEBUG ((LM_INFO,
"Executing directly recursive valuetype test\n"));
ACE_DEBUG ((LM_WARNING,
" Currently unimplemented.\n"));
}
#if TAO_HAS_MINIMUM_CORBA == 0
void
recursive_struct_typecodefactory_test (CORBA::ORB_ptr orb,
Test::Hello_ptr hello
ACE_ENV_ARG_DECL)
{
ACE_DEBUG ((LM_INFO,
"Executing recursive struct via TypeCodeFactory test\n"));
Test::RecursiveStruct foo;
foo.recursive_structs.length (2);
foo.recursive_structs[0].i = 37;
foo.recursive_structs[1].i = 11034;
foo.i = 12;
CORBA::Any the_any;
the_any <<= foo;
CORBA::TypeCode_var recursive_tc =
orb->create_recursive_tc ("IDL:Test/RecursiveStruct:1.0"
ACE_ENV_ARG_PARAMETER);
CORBA::TypeCode_var seq_tc =
orb->create_sequence_tc (0,
recursive_tc.in ()
ACE_ENV_ARG_PARAMETER);
CORBA::StructMemberSeq members (3);
members.length (3);
members[0].name = "recursive_structs";
members[0].type = seq_tc;
members[1].name = "i";
members[1].type = CORBA::TypeCode::_duplicate (CORBA::_tc_long);
members[2].name = "recursive_structs_second";
members[2].type = seq_tc;
CORBA::TypeCode_var struct_tc =
orb->create_struct_tc ("IDL:Test/RecursiveStruct:1.0",
"RecursiveStruct",
members
ACE_ENV_ARG_PARAMETER);
// Reset the underlying TypeCode to the one we just created with the
// TypeCodeFactory.
the_any.type (struct_tc.in ()
ACE_ENV_ARG_PARAMETER);
::perform_invocation<Test::RecursiveStruct> (hello,
the_any
ACE_ENV_ARG_PARAMETER);
}
void
recursive_union_typecodefactory_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr /* hello */
ACE_ENV_ARG_DECL_NOT_USED)
{
ACE_DEBUG ((LM_INFO,
"Executing recursive union via TypeCodeFactory test\n"));
ACE_DEBUG ((LM_WARNING,
" Currently unimplemented.\n"));
}
void
indirectly_recursive_valuetype_typecodefactory_test (
CORBA::ORB_ptr /* orb */,
Test::Hello_ptr /* hello */
ACE_ENV_ARG_DECL_NOT_USED)
{
ACE_DEBUG ((LM_INFO,
"Executing indirectly recursive valuetype via "
"TypeCodeFactory test\n"));
ACE_DEBUG ((LM_WARNING,
" Currently unimplemented.\n"));
}
void
directly_recursive_valuetype_typecodefactory_test (CORBA::ORB_ptr /* orb */,
Test::Hello_ptr /* hello */
ACE_ENV_ARG_DECL_NOT_USED)
{
ACE_DEBUG ((LM_INFO,
"Executing directly recursive valuetype via "
"TypeCodeFactory test\n"));
ACE_DEBUG ((LM_WARNING,
" Currently unimplemented.\n"));
}
#endif /* TAO_HAS_MINIMUM_CORBA == 0 */
/**
* @struct Caller
*
* @brief Test method invocation functor.
*
* Test method invocation functor.
*/
template <typename T>
struct Caller : public std::unary_function<T, void>
{
/// Constructor.
Caller (CORBA::ORB_ptr o, Test::Hello_ptr h)
: orb (CORBA::ORB::_duplicate (o))
, hello (Test::Hello::_duplicate (h))
, success (true)
{
}
/// Function call operator overload.
void operator() (T f)
{
ACE_DECLARE_NEW_ENV;
ACE_TRY
{
f (orb.in (),
hello.in ()
ACE_ENV_ARG_PARAMETER);
}
ACE_CATCHANY
{
ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION,
"Exception thrown:");
success = false;
}
ACE_ENDTRY;
}
CORBA::ORB_var orb;
Test::Hello_var hello;
bool success;
};
int
main (int argc, char *argv[])
{
ACE_TRY_NEW_ENV
{
CORBA::ORB_var orb =
CORBA::ORB_init (argc, argv, "" ACE_ENV_ARG_PARAMETER);
if (parse_args (argc, argv) != 0)
return 1;
CORBA::Object_var tmp =
orb->string_to_object(ior ACE_ENV_ARG_PARAMETER);
Test::Hello_var hello =
Test::Hello::_narrow(tmp.in () ACE_ENV_ARG_PARAMETER);
if (CORBA::is_nil (hello.in ()))
{
ACE_ERROR_RETURN ((LM_DEBUG,
"Nil Test::Hello reference <%s>\n",
ior),
1);
}
typedef void (*test_func) (CORBA::ORB_ptr,
Test::Hello_ptr
ACE_ENV_ARG_DECL);
static test_func const tests[] =
{
recursive_struct_test
, nested_recursive_struct_test
, recursive_union_test
, indirectly_recursive_valuetype_test
, directly_recursive_valuetype_test
#if TAO_HAS_MINIMUM_CORBA == 0
, recursive_struct_typecodefactory_test
, recursive_union_typecodefactory_test
, indirectly_recursive_valuetype_typecodefactory_test
, directly_recursive_valuetype_typecodefactory_test
#endif /* TAO_HAS_MINIMUM_CORBA == 0 */
};
static size_t const test_count = sizeof (tests) / sizeof (test_func);
// Have some fun with the STL. :-)
Caller<test_func> c =
std::for_each (tests,
tests + test_count,
Caller<test_func> (orb.in (),
hello.in ()));
if (!c.success)
ACE_TRY_THROW (Test::Recursive_Type_In_Any_Test_Failed ());
hello->shutdown ();
orb->destroy ();
}
ACE_CATCHANY
{
ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION,
"Exception caught:");
return 1;
}
ACE_ENDTRY;
return 0;
}
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