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/* -*- C++ -*- */
// $Id$
//
// ============================================================================
//
// = DESCRIPTION
// An example on custom marshaling in TAO.
//
// ============================================================================
#if !defined (ECM_CONSUMER_H)
#define ECM_CONSUMER_H
#include "ace/Task.h"
#include "orbsvcs/Channel_Clients_T.h"
class Driver;
class Test_Consumer : public POA_RtecEventComm::PushConsumer
{
//
// = TITLE
// Receive the events.
//
// = DESCRIPTION
public:
Test_Consumer (Driver* driver, void* cookie);
void connect (const char* name,
int event_a,
int event_b,
RtecEventChannelAdmin::EventChannel_ptr ec,
CORBA::Environment& _env);
// This method connects the consumer to the EC.
void disconnect (CORBA::Environment &_env);
// Disconnect from the EC.
virtual void push (const RtecEventComm::EventSet& events,
CORBA::Environment &_env);
virtual void disconnect_push_consumer (CORBA::Environment &);
// The skeleton methods.
private:
Driver* driver_;
// The main driver for the test.
void* cookie_;
// A magic cookie passed by the driver that we pass back in our
// callbacks.
RtecEventChannelAdmin::ProxyPushSupplier_var supplier_proxy_;
// We talk to the EC using this proxy.
};
class Driver
{
//
// = TITLE
//
// = DESCRIPTION
//
public:
Driver (void);
enum {
MAX_CONSUMERS = 16
// Maximum number of consumers.
};
int run (int argc, char* argv[]);
// Execute the test.
void push_consumer (void* consumer_cookie,
ACE_hrtime_t arrival,
const RtecEventComm::EventSet& events,
CORBA::Environment&);
// Callback method for consumers, if any of our consumers has
// received events it will invoke this method.
private:
int parse_args (int argc, char* argv[]);
// parse the command line args
void connect_consumers (RtecEventChannelAdmin::EventChannel_ptr local_ec,
CORBA::Environment &_env);
void disconnect_consumers (CORBA::Environment &_env);
// Connect and disconnect the consumers.
private:
Test_Consumer* consumers_[Driver::MAX_CONSUMERS];
// The consumer array.
int n_consumers_;
// The number of consumers.
int event_count_;
// How many messages we will send in the suppliers
int event_a_;
int event_b_;
// We send two types of events, with different contents.
const char* pid_file_name_;
// The name of a file where the process stores its pid
ACE_SYNCH_MUTEX recv_count_mutex_;
int recv_count_;
// How many events we have received.
};
#endif /* ECM_CONSUMER_H */
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