barrier/src/lib/base/IEventQueue.h

217 lines
6.3 KiB
C++

/*
* synergy -- mouse and keyboard sharing utility
* Copyright (C) 2004 Chris Schoeneman, Nick Bolton, Sorin Sbarnea
*
* This package is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* found in the file COPYING that should have accompanied this file.
*
* This package is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef IEVENTQUEUE_H
#define IEVENTQUEUE_H
#include "IInterface.h"
#include "CEvent.h"
#define EVENTQUEUE IEventQueue::getInstance()
class IEventJob;
class IEventQueueBuffer;
// Opaque type for timer info. This is defined by subclasses of
// IEventQueueBuffer.
class CEventQueueTimer;
//! Event queue interface
/*!
An event queue provides a queue of CEvents. Clients can block waiting
on any event becoming available at the head of the queue and can place
new events at the end of the queue. Clients can also add and remove
timers which generate events periodically.
*/
class IEventQueue : public IInterface {
public:
class CTimerEvent {
public:
CEventQueueTimer* m_timer; //!< The timer
UInt32 m_count; //!< Number of repeats
};
//! @name manipulators
//@{
//! Set the buffer
/*!
Replace the current event queue buffer. Any queued events are
discarded. The queue takes ownership of the buffer.
*/
virtual void adoptBuffer(IEventQueueBuffer*) = 0;
//! Remove event from queue
/*!
Returns the next event on the queue into \p event. If no event is
available then blocks for up to \p timeout seconds, or forever if
\p timeout is negative. Returns true iff an event was available.
*/
virtual bool getEvent(CEvent& event, double timeout = -1.0) = 0;
//! Dispatch an event
/*!
Looks up the dispatcher for the event's target and invokes it.
Returns true iff a dispatcher exists for the target.
*/
virtual bool dispatchEvent(const CEvent& event) = 0;
//! Add event to queue
/*!
Adds \p event to the end of the queue.
*/
virtual void addEvent(const CEvent& event) = 0;
//! Create a recurring timer
/*!
Creates and returns a timer. An event is returned after \p duration
seconds and the timer is reset to countdown again. When a timer event
is returned the data points to a \c CTimerEvent. The client must pass
the returned timer to \c deleteTimer() (whether or not the timer has
expired) to release the timer. The returned timer event uses the
given \p target. If \p target is NULL it uses the returned timer as
the target.
Events for a single timer don't accumulate in the queue, even if the
client reading events can't keep up. Instead, the \c m_count member
of the \c CTimerEvent indicates how many events for the timer would
have been put on the queue since the last event for the timer was
removed (or since the timer was added).
*/
virtual CEventQueueTimer*
newTimer(double duration, void* target) = 0;
//! Create a one-shot timer
/*!
Creates and returns a one-shot timer. An event is returned when
the timer expires and the timer is removed from further handling.
When a timer event is returned the data points to a \c CTimerEvent.
The \m c_count member of the \c CTimerEvent is always 1. The client
must pass the returned timer to \c deleteTimer() (whether or not the
timer has expired) to release the timer. The returned timer event
uses the given \p target. If \p target is NULL it uses the returned
timer as the target.
*/
virtual CEventQueueTimer*
newOneShotTimer(double duration,
void* target) = 0;
//! Destroy a timer
/*!
Destroys a previously created timer. The timer is removed from the
queue and will not generate event, even if the timer has expired.
*/
virtual void deleteTimer(CEventQueueTimer*) = 0;
//! Register an event handler for an event type
/*!
Registers an event handler for \p type and \p target. The \p handler
is adopted. Any existing handler for the type,target pair is deleted.
\c dispatchEvent() will invoke \p handler for any event for \p target
of type \p type. If no such handler exists it will use the handler
for \p target and type \p kUnknown if it exists.
*/
virtual void adoptHandler(CEvent::Type type,
void* target, IEventJob* handler) = 0;
//! Unregister an event handler for an event type
/*!
Unregisters an event handler for the \p type, \p target pair and
deletes it.
*/
virtual void removeHandler(CEvent::Type type, void* target) = 0;
//! Unregister all event handlers for an event target
/*!
Unregisters all event handlers for the \p target and deletes them.
*/
virtual void removeHandlers(void* target) = 0;
//! Creates a new event type
/*!
Returns a unique event type id.
*/
virtual CEvent::Type
registerType(const char* name) = 0;
//! Creates a new event type
/*!
If \p type contains \c kUnknown then it is set to a unique event
type id otherwise it is left alone. The final value of \p type
is returned.
*/
virtual CEvent::Type
registerTypeOnce(CEvent::Type& type,
const char* name) = 0;
//@}
//! @name accessors
//@{
//! Test if queue is empty
/*!
Returns true iff the queue has no events in it, including timer
events.
*/
virtual bool isEmpty() const = 0;
//! Get an event handler
/*!
Finds and returns the event handler for the \p type, \p target pair
if it exists, otherwise it returns NULL.
*/
virtual IEventJob* getHandler(CEvent::Type type, void* target) const = 0;
//! Get name for event
/*!
Returns the name for the event \p type. This is primarily for
debugging.
*/
virtual const char* getTypeName(CEvent::Type type) = 0;
//! Get the system event type target
/*!
Returns the target to use for dispatching \c CEvent::kSystem events.
*/
static void* getSystemTarget();
//! Get the singleton instance
/*!
Returns the singleton instance of the event queue
*/
static IEventQueue* getInstance();
//@}
protected:
//! @name manipulators
//@{
//! Set the singleton instance
/*!
Sets the singleton instance of the event queue
*/
static void setInstance(IEventQueue*);
//@}
private:
static IEventQueue* s_instance;
};
#endif