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-----------------------------------------------------------------------------
This source file is part of OGRE
(Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org/
Copyright (c) 2000-2011 Torus Knot Software Ltd
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
-----------------------------------------------------------------------------
*/
#ifndef __OgreWorkQueue_H__
#define __OgreWorkQueue_H__
#include "OgrePrerequisites.h"
#include "OgreAtomicWrappers.h"
#include "OgreAny.h"
#include "OgreSharedPtr.h"
namespace Ogre
{
/** \addtogroup Core
* @{
*/
/** \addtogroup General
* @{
*/
/** Interface to a general purpose request / response style background work queue.
@remarks
A work queue is a simple structure, where requests for work are placed
onto the queue, then removed by a worker for processing, then finally
a response is placed on the result queue for the originator to pick up
at their leisure. The typical use for this is in a threaded environment,
although any kind of deferred processing could use this approach to
decouple and distribute work over a period of time even
if it was single threaded.
@par
WorkQueues also incorporate thread pools. One or more background worker threads
can wait on the queue and be notified when a request is waiting to be
processed. For maximal thread usage, a WorkQueue instance should be shared
among many sources of work, rather than many work queues being created.
This way, you can share a small number of hardware threads among a large
number of background tasks. This doesn't mean you have to implement all the
request processing in one class, you can plug in many handlers in order to
process the requests.
@par
This is an abstract interface definition; users can subclass this and
provide their own implementation if required to centralise task management
in their own subsystems. We also provide a default implementation in the
form of DefaultWorkQueue.
*/
class _OgreExport WorkQueue : public UtilityAlloc
{
protected:
typedef std::map<String, uint16> ChannelMap;
ChannelMap mChannelMap;
uint16 mNextChannel;
OGRE_MUTEX(mChannelMapMutex)
public:
/// Numeric identifier for a request
typedef unsigned long long int RequestID;
/** General purpose request structure.
*/
class _OgreExport Request : public UtilityAlloc
{
friend class WorkQueue;
protected:
/// The request channel, as an integer
uint16 mChannel;
/// The request type, as an integer within the channel (user can define enumerations on this)
uint16 mType;
/// The details of the request (user defined)
Any mData;
/// Retry count - set this to non-zero to have the request try again on failure
uint8 mRetryCount;
/// Identifier (assigned by the system)
RequestID mID;
/// Abort Flag
mutable bool mAborted;
public:
/// Constructor
Request(uint16 channel, uint16 rtype, const Any& rData, uint8 retry, RequestID rid);
~Request();
/// Set the abort flag
void abortRequest() const { mAborted = true; }
/// Get the request channel (top level categorisation)
uint16 getChannel() const { return mChannel; }
/// Get the type of this request within the given channel
uint16 getType() const { return mType; }
/// Get the user details of this request
const Any& getData() const { return mData; }
/// Get the remaining retry count
uint8 getRetryCount() const { return mRetryCount; }
/// Get the identifier of this request
RequestID getID() const { return mID; }
/// Get the abort flag
bool getAborted() const { return mAborted; }
};
/** General purpose response structure.
*/
struct _OgreExport Response : public UtilityAlloc
{
/// Pointer to the request that this response is in relation to
const Request* mRequest;
/// Whether the work item succeeded or not
bool mSuccess;
/// Any diagnostic messages
String mMessages;
/// Data associated with the result of the process
Any mData;
public:
Response(const Request* rq, bool success, const Any& data, const String& msg = StringUtil::BLANK);
~Response();
/// Get the request that this is a response to (NB destruction destroys this)
const Request* getRequest() const { return mRequest; }
/// Return whether this is a successful response
bool succeeded() const { return mSuccess; }
/// Get any diagnostic messages about the process
const String& getMessages() const { return mMessages; }
/// Return the response data (user defined, only valid on success)
const Any& getData() const { return mData; }
/// Abort the request
void abortRequest() { mRequest->abortRequest(); mData.destroy(); }
};
/** Interface definition for a handler of requests.
@remarks
User classes are expected to implement this interface in order to
process requests on the queue. It's important to realise that
the calls to this class may be in a separate thread to the main
render context, and as such it may not be possible to make
rendersystem or other GPU-dependent calls in this handler. You can only
do so if the queue was created with 'workersCanAccessRenderSystem'
set to true, and OGRE_THREAD_SUPPORT=1, but this puts extra strain
on the thread safety of the render system and is not recommended.
It is best to perform CPU-side work in these handlers and let the
response handler transfer results to the GPU in the main render thread.
*/
class _OgreExport RequestHandler
{
public:
RequestHandler() {}
virtual ~RequestHandler() {}
/** Return whether this handler can process a given request.
@remarks
Defaults to true, but if you wish to add several handlers each of
which deal with different types of request, you can override
this method.
*/
virtual bool canHandleRequest(const Request* req, const WorkQueue* srcQ)
{ (void)srcQ; return !req->getAborted(); }
/** The handler method every subclass must implement.
If a failure is encountered, return a Response with a failure
result rather than raise an exception.
@param req The Request structure, which is effectively owned by the
handler during this call. It must be attached to the returned
Response regardless of success or failure.
@param srcQ The work queue that this request originated from
@return Pointer to a Response object - the caller is responsible
for deleting the object.
*/
virtual Response* handleRequest(const Request* req, const WorkQueue* srcQ) = 0;
};
/** Interface definition for a handler of responses.
@remarks
User classes are expected to implement this interface in order to
process responses from the queue. All calls to this class will be
in the main render thread and thus all GPU resources will be
available.
*/
class _OgreExport ResponseHandler
{
public:
ResponseHandler() {}
virtual ~ResponseHandler() {}
/** Return whether this handler can process a given response.
@remarks
Defaults to true, but if you wish to add several handlers each of
which deal with different types of response, you can override
this method.
*/
virtual bool canHandleResponse(const Response* res, const WorkQueue* srcQ)
{ (void)srcQ; return !res->getRequest()->getAborted(); }
/** The handler method every subclass must implement.
@param res The Response structure. The caller is responsible for
deleting this after the call is made, none of the data contained
(except pointers to structures in user Any data) will persist
after this call is returned.
@param srcQ The work queue that this request originated from
*/
virtual void handleResponse(const Response* res, const WorkQueue* srcQ) = 0;
};
WorkQueue() : mNextChannel(0) {}
virtual ~WorkQueue() {}
/** Start up the queue with the options that have been set.
@param forceRestart If the queue is already running, whether to shut it
down and restart.
*/
virtual void startup(bool forceRestart = true) = 0;
/** Add a request handler instance to the queue.
@remarks
Every queue must have at least one request handler instance for each
channel in which requests are raised. If you
add more than one handler per channel, then you must implement canHandleRequest
differently in each if you wish them to respond to different requests.
@param channel The channel for requests you want to handle
@param rh Your handler
*/
virtual void addRequestHandler(uint16 channel, RequestHandler* rh) = 0;
/** Remove a request handler. */
virtual void removeRequestHandler(uint16 channel, RequestHandler* rh) = 0;
/** Add a response handler instance to the queue.
@remarks
Every queue must have at least one response handler instance for each
channel in which requests are raised. If you add more than one, then you
must implement canHandleResponse differently in each if you wish them
to respond to different responses.
@param channel The channel for responses you want to handle
@param rh Your handler
*/
virtual void addResponseHandler(uint16 channel, ResponseHandler* rh) = 0;
/** Remove a Response handler. */
virtual void removeResponseHandler(uint16 channel, ResponseHandler* rh) = 0;
/** Add a new request to the queue.
@param channel The channel this request will go into = 0; the channel is the top-level
categorisation of the request
@param requestType An identifier that's unique within this queue which
identifies the type of the request (user decides the actual value)
@param rData The data required by the request process.
@param retryCount The number of times the request should be retried
if it fails.
@param forceSynchronous Forces the request to be processed immediately
even if threading is enabled.
@returns The ID of the request that has been added
*/
virtual RequestID addRequest(uint16 channel, uint16 requestType, const Any& rData, uint8 retryCount = 0,
bool forceSynchronous = false) = 0;
/** Abort a previously issued request.
If the request is still waiting to be processed, it will be
removed from the queue.
@param id The ID of the previously issued request.
*/
virtual void abortRequest(RequestID id) = 0;
/** Abort all previously issued requests in a given channel.
Any requests still waiting to be processed of the given channel, will be
removed from the queue.
@param channel The type of request to be aborted
*/
virtual void abortRequestsByChannel(uint16 channel) = 0;
/** Abort all previously issued requests.
Any requests still waiting to be processed will be removed from the queue.
Any requests that are being processed will still complete.
*/
virtual void abortAllRequests() = 0;
/** Set whether to pause further processing of any requests.
If true, any further requests will simply be queued and not processed until
setPaused(false) is called. Any requests which are in the process of being
worked on already will still continue.
*/
virtual void setPaused(bool pause) = 0;
/// Return whether the queue is paused ie not sending more work to workers
virtual bool isPaused() const = 0;
/** Set whether to accept new requests or not.
If true, requests are added to the queue as usual. If false, requests
are silently ignored until setRequestsAccepted(true) is called.
*/
virtual void setRequestsAccepted(bool accept) = 0;
/// Returns whether requests are being accepted right now
virtual bool getRequestsAccepted() const = 0;
/** Process the responses in the queue.
@remarks
This method is public, and must be called from the main render
thread to 'pump' responses through the system. The method will usually
try to clear all responses before returning = 0; however, you can specify
a time limit on the response processing to limit the impact of
spikes in demand by calling setResponseProcessingTimeLimit.
*/
virtual void processResponses() = 0;
/** Get the time limit imposed on the processing of responses in a
single frame, in milliseconds (0 indicates no limit).
*/
virtual unsigned long getResponseProcessingTimeLimit() const = 0;
/** Set the time limit imposed on the processing of responses in a
single frame, in milliseconds (0 indicates no limit).
This sets the maximum time that will be spent in processResponses() in
a single frame. The default is 8ms.
*/
virtual void setResponseProcessingTimeLimit(unsigned long ms) = 0;
/** Shut down the queue.
*/
virtual void shutdown() = 0;
/** Get a channel ID for a given channel name.
@remarks
Channels are assigned on a first-come, first-served basis and are
not persistent across application instances. This method allows
applications to not worry about channel clashes through manually
assigned channel numbers.
*/
virtual uint16 getChannel(const String& channelName);
};
/** Base for a general purpose request / response style background work queue.
*/
class _OgreExport DefaultWorkQueueBase : public WorkQueue
{
public:
/** Constructor.
Call startup() to initialise.
@param name Optional name, just helps to identify logging output
*/
DefaultWorkQueueBase(const String& name = StringUtil::BLANK);
virtual ~DefaultWorkQueueBase();
/// Get the name of the work queue
const String& getName() const;
/** Get the number of worker threads that this queue will start when
startup() is called.
*/
virtual size_t getWorkerThreadCount() const;
/** Set the number of worker threads that this queue will start
when startup() is called (default 1).
Calling this will have no effect unless the queue is shut down and
restarted.
*/
virtual void setWorkerThreadCount(size_t c);
/** Get whether worker threads will be allowed to access render system
resources.
Accessing render system resources from a separate thread can require that
a context is maintained for that thread. Also, it requires that the
render system is running in threadsafe mode, which only happens
when OGRE_THREAD_SUPPORT=1. This option defaults to false, which means
that threads can not use GPU resources, and the render system can
work in non-threadsafe mode, which is more efficient.
*/
virtual bool getWorkersCanAccessRenderSystem() const;
/** Set whether worker threads will be allowed to access render system
resources.
Accessing render system resources from a separate thread can require that
a context is maintained for that thread. Also, it requires that the
render system is running in threadsafe mode, which only happens
when OGRE_THREAD_SUPPORT=1. This option defaults to false, which means
that threads can not use GPU resources, and the render system can
work in non-threadsafe mode, which is more efficient.
Calling this will have no effect unless the queue is shut down and
restarted.
*/
virtual void setWorkersCanAccessRenderSystem(bool access);
/** Process the next request on the queue.
@remarks
This method is public, but only intended for advanced users to call.
The only reason you would call this, is if you were using your
own thread to drive the worker processing. The thread calling this
method will be the thread used to call the RequestHandler.
*/
virtual void _processNextRequest();
/// Main function for each thread spawned.
virtual void _threadMain() = 0;
/** Returns whether the queue is trying to shut down. */
virtual bool isShuttingDown() const { return mShuttingDown; }
/// @copydoc WorkQueue::addRequestHandler
virtual void addRequestHandler(uint16 channel, RequestHandler* rh);
/// @copydoc WorkQueue::removeRequestHandler
virtual void removeRequestHandler(uint16 channel, RequestHandler* rh);
/// @copydoc WorkQueue::addResponseHandler
virtual void addResponseHandler(uint16 channel, ResponseHandler* rh);
/// @copydoc WorkQueue::removeResponseHandler
virtual void removeResponseHandler(uint16 channel, ResponseHandler* rh);
/// @copydoc WorkQueue::addRequest
virtual RequestID addRequest(uint16 channel, uint16 requestType, const Any& rData, uint8 retryCount = 0,
bool forceSynchronous = false);
/// @copydoc WorkQueue::abortRequest
virtual void abortRequest(RequestID id);
/// @copydoc WorkQueue::abortRequestsByChannel
virtual void abortRequestsByChannel(uint16 channel);
/// @copydoc WorkQueue::abortAllRequests
virtual void abortAllRequests();
/// @copydoc WorkQueue::setPaused
virtual void setPaused(bool pause);
/// @copydoc WorkQueue::isPaused
virtual bool isPaused() const;
/// @copydoc WorkQueue::setRequestsAccepted
virtual void setRequestsAccepted(bool accept);
/// @copydoc WorkQueue::getRequestsAccepted
virtual bool getRequestsAccepted() const;
/// @copydoc WorkQueue::processResponses
virtual void processResponses();
/// @copydoc WorkQueue::getResponseProcessingTimeLimit
virtual unsigned long getResponseProcessingTimeLimit() const { return mResposeTimeLimitMS; }
/// @copydoc WorkQueue::setResponseProcessingTimeLimit
virtual void setResponseProcessingTimeLimit(unsigned long ms) { mResposeTimeLimitMS = ms; }
protected:
String mName;
size_t mWorkerThreadCount;
bool mWorkerRenderSystemAccess;
bool mIsRunning;
unsigned long mResposeTimeLimitMS;
typedef deque<Request*>::type RequestQueue;
typedef deque<Response*>::type ResponseQueue;
RequestQueue mRequestQueue;
RequestQueue mProcessQueue;
ResponseQueue mResponseQueue;
/// Thread function
struct WorkerFunc OGRE_THREAD_WORKER_INHERIT
{
DefaultWorkQueueBase* mQueue;
WorkerFunc(DefaultWorkQueueBase* q)
: mQueue(q) {}
void operator()();
void run();
};
WorkerFunc* mWorkerFunc;
/** Intermediate structure to hold a pointer to a request handler which
provides insurance against the handler itself being disconnected
while the list remains unchanged.
*/
class _OgreExport RequestHandlerHolder : public UtilityAlloc
{
protected:
OGRE_RW_MUTEX(mRWMutex);
RequestHandler* mHandler;
public:
RequestHandlerHolder(RequestHandler* handler)
: mHandler(handler) {}
// Disconnect the handler to allow it to be destroyed
void disconnectHandler()
{
// write lock - must wait for all requests to finish
OGRE_LOCK_RW_MUTEX_WRITE(mRWMutex);
mHandler = 0;
}
/** Get handler pointer - note, only use this for == comparison or similar,
do not attempt to call it as it is not thread safe.
*/
RequestHandler* getHandler() { return mHandler; }
/** Process a request if possible.
@return Valid response if processed, null otherwise
*/
Response* handleRequest(const Request* req, const WorkQueue* srcQ)
{
// Read mutex so that multiple requests can be processed by the
// same handler in parallel if required
OGRE_LOCK_RW_MUTEX_READ(mRWMutex);
Response* response = 0;
if (mHandler)
{
if (mHandler->canHandleRequest(req, srcQ))
{
response = mHandler->handleRequest(req, srcQ);
}
}
return response;
}
};
// Hold these by shared pointer so they can be copied keeping same instance
typedef SharedPtr<RequestHandlerHolder> RequestHandlerHolderPtr;
typedef list<RequestHandlerHolderPtr>::type RequestHandlerList;
typedef list<ResponseHandler*>::type ResponseHandlerList;
typedef map<uint16, RequestHandlerList>::type RequestHandlerListByChannel;
typedef map<uint16, ResponseHandlerList>::type ResponseHandlerListByChannel;
RequestHandlerListByChannel mRequestHandlers;
ResponseHandlerListByChannel mResponseHandlers;
RequestID mRequestCount;
bool mPaused;
bool mAcceptRequests;
bool mShuttingDown;
OGRE_MUTEX(mRequestMutex)
OGRE_MUTEX(mProcessMutex)
OGRE_MUTEX(mResponseMutex)
OGRE_RW_MUTEX(mRequestHandlerMutex);
void processRequestResponse(Request* r, bool synchronous);
Response* processRequest(Request* r);
void processResponse(Response* r);
/// Notify workers about a new request.
virtual void notifyWorkers() = 0;
/// Put a Request on the queue with a specific RequestID.
void addRequestWithRID(RequestID rid, uint16 channel, uint16 requestType, const Any& rData, uint8 retryCount);
};
/** @} */
/** @} */
}
#endif
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