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- /*
- ==============================================================================
-
- This file is part of the JUCE library.
- Copyright (c) 2015 - ROLI Ltd.
-
- Permission is granted to use this software under the terms of either:
- a) the GPL v2 (or any later version)
- b) the Affero GPL v3
-
- Details of these licenses can be found at: www.gnu.org/licenses
-
- JUCE 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.
-
- ------------------------------------------------------------------------------
-
- To release a closed-source product which uses JUCE, commercial licenses are
- available: visit www.juce.com for more information.
-
- ==============================================================================
- */
-
- #ifndef JUCE_MESSAGEMANAGER_H_INCLUDED
- #define JUCE_MESSAGEMANAGER_H_INCLUDED
-
- class MessageManagerLock;
- class ThreadPoolJob;
- class ActionListener;
- class ActionBroadcaster;
-
-
- //==============================================================================
- /** See MessageManager::callFunctionOnMessageThread() for use of this function type. */
- typedef void* (MessageCallbackFunction) (void* userData);
-
-
- //==============================================================================
- /**
- This class is in charge of the application's event-dispatch loop.
-
- @see Message, CallbackMessage, MessageManagerLock, JUCEApplication, JUCEApplicationBase
- */
- class JUCE_API MessageManager
- {
- public:
- //==============================================================================
- /** Returns the global instance of the MessageManager. */
- static MessageManager* getInstance();
-
- /** Returns the global instance of the MessageManager, or nullptr if it doesn't exist. */
- static MessageManager* getInstanceWithoutCreating() noexcept;
-
- /** Deletes the global MessageManager instance.
- Does nothing if no instance had been created.
- */
- static void deleteInstance();
-
- //==============================================================================
- /** Runs the event dispatch loop until a stop message is posted.
-
- This method is only intended to be run by the application's startup routine,
- as it blocks, and will only return after the stopDispatchLoop() method has been used.
-
- @see stopDispatchLoop
- */
- void runDispatchLoop();
-
- /** Sends a signal that the dispatch loop should terminate.
-
- After this is called, the runDispatchLoop() or runDispatchLoopUntil() methods
- will be interrupted and will return.
-
- @see runDispatchLoop
- */
- void stopDispatchLoop();
-
- /** Returns true if the stopDispatchLoop() method has been called.
- */
- bool hasStopMessageBeenSent() const noexcept { return quitMessagePosted; }
-
- #if JUCE_MODAL_LOOPS_PERMITTED || DOXYGEN
- /** Synchronously dispatches messages until a given time has elapsed.
-
- Returns false if a quit message has been posted by a call to stopDispatchLoop(),
- otherwise returns true.
- */
- bool runDispatchLoopUntil (int millisecondsToRunFor);
- #endif
-
- //==============================================================================
- #if JUCE_COMPILER_SUPPORTS_LAMBDAS
- /** Asynchronously invokes a function or C++11 lambda on the message thread.
- Internally this uses the CallbackMessage class to invoke the callback.
- */
- static void callAsync (std::function<void(void)>);
- #endif
-
- /** Calls a function using the message-thread.
-
- This can be used by any thread to cause this function to be called-back
- by the message thread. If it's the message-thread that's calling this method,
- then the function will just be called; if another thread is calling, a message
- will be posted to the queue, and this method will block until that message
- is delivered, the function is called, and the result is returned.
-
- Be careful not to cause any deadlocks with this! It's easy to do - e.g. if the caller
- thread has a critical section locked, which an unrelated message callback then tries to lock
- before the message thread gets round to processing this callback.
-
- @param callback the function to call - its signature must be @code
- void* myCallbackFunction (void*) @endcode
- @param userData a user-defined pointer that will be passed to the function that gets called
- @returns the value that the callback function returns.
- @see MessageManagerLock
- */
- void* callFunctionOnMessageThread (MessageCallbackFunction* callback, void* userData);
-
- /** Returns true if the caller-thread is the message thread. */
- bool isThisTheMessageThread() const noexcept;
-
- /** Called to tell the manager that the current thread is the one that's running the dispatch loop.
-
- (Best to ignore this method unless you really know what you're doing..)
- @see getCurrentMessageThread
- */
- void setCurrentThreadAsMessageThread();
-
- /** Returns the ID of the current message thread, as set by setCurrentThreadAsMessageThread().
-
- (Best to ignore this method unless you really know what you're doing..)
- @see setCurrentThreadAsMessageThread
- */
- Thread::ThreadID getCurrentMessageThread() const noexcept { return messageThreadId; }
-
- /** Returns true if the caller thread has currently got the message manager locked.
-
- see the MessageManagerLock class for more info about this.
-
- This will be true if the caller is the message thread, because that automatically
- gains a lock while a message is being dispatched.
- */
- bool currentThreadHasLockedMessageManager() const noexcept;
-
- //==============================================================================
- /** Sends a message to all other JUCE applications that are running.
-
- @param messageText the string that will be passed to the actionListenerCallback()
- method of the broadcast listeners in the other app.
- @see registerBroadcastListener, ActionListener
- */
- static void broadcastMessage (const String& messageText);
-
- /** Registers a listener to get told about broadcast messages.
-
- The actionListenerCallback() callback's string parameter
- is the message passed into broadcastMessage().
-
- @see broadcastMessage
- */
- void registerBroadcastListener (ActionListener* listener);
-
- /** Deregisters a broadcast listener. */
- void deregisterBroadcastListener (ActionListener* listener);
-
- //==============================================================================
- /** Internal class used as the base class for all message objects.
- You shouldn't need to use this directly - see the CallbackMessage or Message
- classes instead.
- */
- class JUCE_API MessageBase : public ReferenceCountedObject
- {
- public:
- MessageBase() noexcept {}
- virtual ~MessageBase() {}
-
- virtual void messageCallback() = 0;
- bool post();
-
- typedef ReferenceCountedObjectPtr<MessageBase> Ptr;
-
- JUCE_DECLARE_NON_COPYABLE (MessageBase)
- };
-
- //==============================================================================
- #ifndef DOXYGEN
- // Internal methods - do not use!
- void deliverBroadcastMessage (const String&);
- ~MessageManager() noexcept;
- #endif
-
- private:
- //==============================================================================
- MessageManager() noexcept;
-
- static MessageManager* instance;
-
- friend class MessageBase;
- class QuitMessage;
- friend class QuitMessage;
- friend class MessageManagerLock;
-
- ScopedPointer<ActionBroadcaster> broadcaster;
- bool quitMessagePosted, quitMessageReceived;
- Thread::ThreadID messageThreadId;
- Thread::ThreadID volatile threadWithLock;
- CriticalSection lockingLock;
-
- static bool postMessageToSystemQueue (MessageBase*);
- static void* exitModalLoopCallback (void*);
- static void doPlatformSpecificInitialisation();
- static void doPlatformSpecificShutdown();
- static bool dispatchNextMessageOnSystemQueue (bool returnIfNoPendingMessages);
-
- JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MessageManager)
- };
-
-
- //==============================================================================
- /** Used to make sure that the calling thread has exclusive access to the message loop.
-
- Because it's not thread-safe to call any of the Component or other UI classes
- from threads other than the message thread, one of these objects can be used to
- lock the message loop and allow this to be done. The message thread will be
- suspended for the lifetime of the MessageManagerLock object, so create one on
- the stack like this: @code
- void MyThread::run()
- {
- someData = 1234;
-
- const MessageManagerLock mmLock;
- // the event loop will now be locked so it's safe to make a few calls..
-
- myComponent->setBounds (newBounds);
- myComponent->repaint();
-
- // ..the event loop will now be unlocked as the MessageManagerLock goes out of scope
- }
- @endcode
-
- Obviously be careful not to create one of these and leave it lying around, or
- your app will grind to a halt!
-
- MessageManagerLocks are re-entrant, so can be safely nested if the current thread
- already has the lock.
-
- Another caveat is that using this in conjunction with other CriticalSections
- can create lots of interesting ways of producing a deadlock! In particular, if
- your message thread calls stopThread() for a thread that uses these locks,
- you'll get an (occasional) deadlock..
-
- @see MessageManager, MessageManager::currentThreadHasLockedMessageManager
- */
- class JUCE_API MessageManagerLock
- {
- public:
- //==============================================================================
- /** Tries to acquire a lock on the message manager.
-
- The constructor attempts to gain a lock on the message loop, and the lock will be
- kept for the lifetime of this object.
-
- Optionally, you can pass a thread object here, and while waiting to obtain the lock,
- this method will keep checking whether the thread has been given the
- Thread::signalThreadShouldExit() signal. If this happens, then it will return
- without gaining the lock. If you pass a thread, you must check whether the lock was
- successful by calling lockWasGained(). If this is false, your thread is being told to
- die, so you should take evasive action.
-
- If you pass nullptr for the thread object, it will wait indefinitely for the lock - be
- careful when doing this, because it's very easy to deadlock if your message thread
- attempts to call stopThread() on a thread just as that thread attempts to get the
- message lock.
-
- If the calling thread already has the lock, nothing will be done, so it's safe and
- quick to use these locks recursively.
-
- E.g.
- @code
- void run()
- {
- ...
-
- while (! threadShouldExit())
- {
- MessageManagerLock mml (Thread::getCurrentThread());
-
- if (! mml.lockWasGained())
- return; // another thread is trying to kill us!
-
- ..do some locked stuff here..
- }
-
- ..and now the MM is now unlocked..
- }
- @endcode
-
- */
- MessageManagerLock (Thread* threadToCheckForExitSignal = nullptr);
-
- //==============================================================================
- /** This has the same behaviour as the other constructor, but takes a ThreadPoolJob
- instead of a thread.
-
- See the MessageManagerLock (Thread*) constructor for details on how this works.
- */
- MessageManagerLock (ThreadPoolJob* jobToCheckForExitSignal);
-
-
- //==============================================================================
- /** Releases the current thread's lock on the message manager.
-
- Make sure this object is created and deleted by the same thread,
- otherwise there are no guarantees what will happen!
- */
- ~MessageManagerLock() noexcept;
-
- //==============================================================================
- /** Returns true if the lock was successfully acquired.
- (See the constructor that takes a Thread for more info).
- */
- bool lockWasGained() const noexcept { return locked; }
-
- private:
- class BlockingMessage;
- friend class ReferenceCountedObjectPtr<BlockingMessage>;
- ReferenceCountedObjectPtr<BlockingMessage> blockingMessage;
- bool locked;
-
- bool attemptLock (Thread*, ThreadPoolJob*);
-
- JUCE_DECLARE_NON_COPYABLE (MessageManagerLock)
- };
-
-
- #endif // JUCE_MESSAGEMANAGER_H_INCLUDED
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