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// -*- C++ -*-
// $Id$
/**
* Code generated by the The ACE ORB (TAO) IDL Compiler v1.8.3
* TAO and the TAO IDL Compiler have been developed by:
* Center for Distributed Object Computing
* Washington University
* St. Louis, MO
* USA
* http://www.cs.wustl.edu/~schmidt/doc-center.html
* and
* Distributed Object Computing Laboratory
* University of California at Irvine
* Irvine, CA
* USA
* and
* Institute for Software Integrated Systems
* Vanderbilt University
* Nashville, TN
* USA
* http://www.isis.vanderbilt.edu/
*
* Information about TAO is available at:
* http://www.cs.wustl.edu/~schmidt/TAO.html
**/
#include "Keyed_Test_Sender_exec.h"
#include "tao/ORB_Core.h"
#include "ace/Reactor.h"
namespace CIAO_Keyed_Test_Sender_Impl
{
/**
* Write action generator
*/
pulse_Generator::pulse_Generator (Sender_exec_i &callback)
: pulse_callback_ (callback)
{
}
int
pulse_Generator::handle_timeout (const ACE_Time_Value &, const void *)
{
this->pulse_callback_.tick ();
return 0;
}
/**
* Component Executor Implementation Class: Sender_exec_i
*/
Sender_exec_i::Sender_exec_i (void)
: rate_ (1)
, keys_ (5)
, iterations_ (10)
{
ACE_NEW_THROW_EX (this->ticker_,
pulse_Generator (*this),
::CORBA::NO_MEMORY ());
}
Sender_exec_i::~Sender_exec_i (void)
{
delete this->ticker_;
}
// Supported operations and attributes.
ACE_Reactor*
Sender_exec_i::reactor (void)
{
ACE_Reactor* reactor = 0;
::CORBA::Object_var ccm_object =
this->ciao_context_->get_CCM_object();
if (! ::CORBA::is_nil (ccm_object.in ()))
{
::CORBA::ORB_var orb = ccm_object->_get_orb ();
if (! ::CORBA::is_nil (orb.in ()))
{
reactor = orb->orb_core ()->reactor ();
}
}
if (reactor == 0)
{
throw ::CORBA::INTERNAL ();
}
return reactor;
}
void
Sender_exec_i::tick (void)
{
if (this->last_key != this->ktests_.end ())
{
try
{
KeyedTestConnector::Writer_var writer =
this->ciao_context_->get_connection_info_write_data ();
++this->last_key->second->iteration;
writer->write_one (this->last_key->second, ::DDS::HANDLE_NIL);
ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("Written key <%C> with <%d>\n"),
this->last_key->first.c_str (),
this->last_key->second->iteration));
}
catch (const CCM_DDS::InternalError& )
{
ACE_ERROR ((LM_ERROR, "ERROR: Internal Error while writing KeyedTest info for <%C>.\n",
this->last_key->first.c_str ()));
}
++this->last_key;
}
else
{
// Onto the next iteration
this->last_key = this->ktests_.begin ();
while (this->last_key != this->ktests_.end ())
{
if (this->last_key->second->iteration == this->iterations_)
{
++this->last_key;
}
else
{
break;
}
}
}
}
void
Sender_exec_i::start (void)
{
long const usec = 1000000 / this->rate_;
if (this->reactor ()->schedule_timer (
this->ticker_,
0,
ACE_Time_Value (0, usec),
ACE_Time_Value (0, usec)) == -1)
{
ACE_ERROR ((LM_ERROR, ACE_TEXT ("Sender_exec_i::start : ")
ACE_TEXT ("Error scheduling timer")));
}
}
void
Sender_exec_i::stop (void)
{
this->reactor ()->cancel_timer (this->ticker_);
}
// Component attributes and port operations.
::CORBA::ULong
Sender_exec_i::rate (void)
{
return this->rate_;
}
void
Sender_exec_i::rate (
const ::CORBA::ULong rate)
{
this->rate_ = rate;
}
::CORBA::UShort
Sender_exec_i::keys (void)
{
return this->keys_;
}
void
Sender_exec_i::keys (
const ::CORBA::UShort keys)
{
this->keys_ = keys;
}
::CORBA::UShort
Sender_exec_i::iterations (void)
{
return this->iterations_;
}
void
Sender_exec_i::iterations (
const ::CORBA::UShort iterations)
{
this->iterations_ = iterations;
}
// Operations from Components::SessionComponent.
void
Sender_exec_i::set_session_context (
::Components::SessionContext_ptr ctx)
{
this->ciao_context_ =
::Keyed_Test::CCM_Sender_Context::_narrow (ctx);
if ( ::CORBA::is_nil (this->ciao_context_.in ()))
{
throw ::CORBA::INTERNAL ();
}
}
void
Sender_exec_i::configuration_complete (void)
{
/* Your code here. */
}
void
Sender_exec_i::ccm_activate (void)
{
this->start ();
ACE_GUARD_THROW_EX (TAO_SYNCH_MUTEX, _guard,
this->mutex_, CORBA::INTERNAL ());
for (CORBA::UShort i = 1; i < this->keys_ + 1; ++i)
{
char key[7];
KeyedTest *new_key = new KeyedTest;
ACE_OS::sprintf (key, "KEY_%d", i);
new_key->key = CORBA::string_dup(key);
new_key->iteration = 0;
this->ktests_[key] = new_key;
}
this->last_key = this->ktests_.begin ();
}
void
Sender_exec_i::ccm_passivate (void)
{
this->stop ();
}
void
Sender_exec_i::ccm_remove (void)
{
/* Your code here. */
}
extern "C" SENDER_EXEC_Export ::Components::EnterpriseComponent_ptr
create_Keyed_Test_Sender_Impl (void)
{
::Components::EnterpriseComponent_ptr retval =
::Components::EnterpriseComponent::_nil ();
ACE_NEW_NORETURN (
retval,
Sender_exec_i);
return retval;
}
}
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