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// $Id$
// ============================================================================
//
// = LIBRARY
// TAO/tests/Cubit/CORBAplus/IDL_Cubit
//
// = FILENAME
// cubit_i.cpp
//
// = AUTHOR
// Sergio Flores-Gaitan
//
// ============================================================================
#include "pbroker/corba/orb.h"
#include "pbroker/corba/environ.h"
#include <pbroker/corba/xpsboa.h>
#include <pbroker/corba/lifecycl/impldecl.h>
#include "cubit_i.h"
ACE_RCSID(IDL_Cubit, cubit_i, "$Id$")
// Declare the Implementation
XPS_DECLARE_IMPLEMENTATION_ID(Cubit_Factory_iId,"Cubit_Factory_iId")
XPS_DECLARE_IMPLEMENTATION(Cubit_Factory_decl,Cubit_Factory_iId,Cubit_Factory)
// Declare the associated activator,
XPS_DECLARE_DEFAULT_ACTIVATOR(Cubit_Factory_decl,Cubit_FactoryDefActivator,Cubit_Factory,Cubit_Factory_i)
XPS_CAST1_IMPL(Cubit_Factory_i,Cubit_Factory_base_impl)
// Constructor
Cubit_Factory_i::Cubit_Factory_i (const char *key, int numobjs)
:numobjs_ (numobjs)
{
// Create implementation object with user specified key.
this->my_cubit_ = new Cubit_i_ptr [this->numobjs_];
static char obj_str [MAXNAMELEN];
for (u_int i = 0; i < this->numobjs_; i++)
{
ACE_OS::memset (obj_str, '\0', MAXNAMELEN);
ACE_OS::sprintf (obj_str, "key%d", i);
my_cubit_[i] = new Cubit_i (obj_str);
if (my_cubit_[i] == 0)
ACE_ERROR ((LM_ERROR,
" (%P|%t) Unable to create implementation object%d\n",
i));
}
}
// Destructor
Cubit_Factory_i::~Cubit_Factory_i (void)
{
ACE_DEBUG ((LM_DEBUG, "~~~ in destructor ~Cubit_Factory_i()\n"));
delete [] this->my_cubit_;
}
Cubit_ptr
Cubit_Factory_i::make_cubit (const char *key)
{
CORBA_Environment env;
for (size_t i = 0; i < this->numobjs_; i++)
{
const char *obj_str = this->my_cubit_[i]->_get_name ();
// Keys matched.
if (!ACE_OS::strcmp (obj_str, key))
return Cubit::_duplicate (this->my_cubit_ [i]);
}
return Cubit::_nil ();
}
// Constructor
Cubit_i::Cubit_i (const char *obj_name)
: key_(obj_name)
{
}
const char *
Cubit_i::_get_name (void)
{
return key_;
}
// Destructor
Cubit_i::~Cubit_i (void)
{
}
// Cube an octet
CORBA::Octet
Cubit_i::cube_octet (CORBA::Octet o)
{
return o * o * o;
}
// Cube a short.
CORBA::Short
Cubit_i::cube_short (CORBA::Short s)
{
return s * s * s;
}
// Cube a long
CORBA::Long
Cubit_i::cube_long (CORBA::Long l)
{
return l * l * l;
}
// Cube a struct
Cubit::Many
Cubit_i::cube_struct (const Cubit::Many &values)
{
Cubit::Many temp;
temp.o = values.o * values.o * values.o;
temp.s = values.s * values.s * values.s;
temp.l = values.l * values.l * values.l;
return temp;
}
// Cube a union
Cubit::oneof
Cubit_i::cube_union (const Cubit::oneof &values)
{
Cubit::oneof temp;
switch (values._d ())
{
case e_0th:
temp.o (values.o () * values.o () * values.o ());
break;
case e_1st:
temp.s (values.s () * values.s () * values.s ());
break;
case e_2nd:
temp.l (values.l () * values.l () * values.l ());
break;
case e_3rd:
default:
temp._d (values._d ()); // set the discriminant
// use the read/write accessor
temp.cm ().o = values.cm ().o * values.cm ().o * values.cm ().o;
temp.cm ().s = values.cm ().s * values.cm ().s * values.cm ().s;
temp.cm ().l = values.cm ().l * values.cm ().l * values.cm ().l;
}
return temp;
}
// Shutdown.
void Cubit_i::please_exit (void)
{
ACE_DEBUG ((LM_DEBUG, "I've been asked to shut down...\n"));
}
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