juicysfplugin/modules/juce_events/messages/juce_MessageManager.cpp

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2017 - ROLI Ltd.
JUCE is an open source library subject to commercial or open-source
licensing.
The code included in this file is provided under the terms of the ISC license
http://www.isc.org/downloads/software-support-policy/isc-license. Permission
To use, copy, modify, and/or distribute this software for any purpose with or
without fee is hereby granted provided that the above copyright notice and
this permission notice appear in all copies.
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
MessageManager::MessageManager() noexcept
: messageThreadId (Thread::getCurrentThreadId())
{
if (JUCEApplicationBase::isStandaloneApp())
Thread::setCurrentThreadName ("JUCE Message Thread");
}
MessageManager::~MessageManager() noexcept
{
broadcaster.reset();
doPlatformSpecificShutdown();
jassert (instance == this);
instance = nullptr; // do this last in case this instance is still needed by doPlatformSpecificShutdown()
}
MessageManager* MessageManager::instance = nullptr;
MessageManager* MessageManager::getInstance()
{
if (instance == nullptr)
{
instance = new MessageManager();
doPlatformSpecificInitialisation();
}
return instance;
}
MessageManager* MessageManager::getInstanceWithoutCreating() noexcept
{
return instance;
}
void MessageManager::deleteInstance()
{
deleteAndZero (instance);
}
//==============================================================================
bool MessageManager::MessageBase::post()
{
auto* mm = MessageManager::instance;
if (mm == nullptr || mm->quitMessagePosted.get() != 0 || ! postMessageToSystemQueue (this))
{
Ptr deleter (this); // (this will delete messages that were just created with a 0 ref count)
return false;
}
return true;
}
//==============================================================================
#if JUCE_MODAL_LOOPS_PERMITTED && ! (JUCE_MAC || JUCE_IOS)
bool MessageManager::runDispatchLoopUntil (int millisecondsToRunFor)
{
jassert (isThisTheMessageThread()); // must only be called by the message thread
auto endTime = Time::currentTimeMillis() + millisecondsToRunFor;
while (quitMessageReceived.get() == 0)
{
JUCE_TRY
{
if (! dispatchNextMessageOnSystemQueue (millisecondsToRunFor >= 0))
Thread::sleep (1);
}
JUCE_CATCH_EXCEPTION
if (millisecondsToRunFor >= 0 && Time::currentTimeMillis() >= endTime)
break;
}
return quitMessageReceived.get() == 0;
}
#endif
#if ! (JUCE_MAC || JUCE_IOS || JUCE_ANDROID)
class MessageManager::QuitMessage : public MessageManager::MessageBase
{
public:
QuitMessage() {}
void messageCallback() override
{
if (auto* mm = MessageManager::instance)
mm->quitMessageReceived = true;
}
JUCE_DECLARE_NON_COPYABLE (QuitMessage)
};
void MessageManager::runDispatchLoop()
{
jassert (isThisTheMessageThread()); // must only be called by the message thread
while (quitMessageReceived.get() == 0)
{
JUCE_TRY
{
if (! dispatchNextMessageOnSystemQueue (false))
Thread::sleep (1);
}
JUCE_CATCH_EXCEPTION
}
}
void MessageManager::stopDispatchLoop()
{
(new QuitMessage())->post();
quitMessagePosted = true;
}
#endif
//==============================================================================
class AsyncFunctionCallback : public MessageManager::MessageBase
{
public:
AsyncFunctionCallback (MessageCallbackFunction* const f, void* const param)
: func (f), parameter (param)
{}
void messageCallback() override
{
result = (*func) (parameter);
finished.signal();
}
WaitableEvent finished;
std::atomic<void*> result { nullptr };
private:
MessageCallbackFunction* const func;
void* const parameter;
JUCE_DECLARE_NON_COPYABLE (AsyncFunctionCallback)
};
void* MessageManager::callFunctionOnMessageThread (MessageCallbackFunction* const func, void* const parameter)
{
if (isThisTheMessageThread())
return func (parameter);
// If this thread has the message manager locked, then this will deadlock!
jassert (! currentThreadHasLockedMessageManager());
const ReferenceCountedObjectPtr<AsyncFunctionCallback> message (new AsyncFunctionCallback (func, parameter));
if (message->post())
{
message->finished.wait();
return message->result.load();
}
jassertfalse; // the OS message queue failed to send the message!
return nullptr;
}
//==============================================================================
void MessageManager::deliverBroadcastMessage (const String& value)
{
if (broadcaster != nullptr)
broadcaster->sendActionMessage (value);
}
void MessageManager::registerBroadcastListener (ActionListener* const listener)
{
if (broadcaster == nullptr)
broadcaster.reset (new ActionBroadcaster());
broadcaster->addActionListener (listener);
}
void MessageManager::deregisterBroadcastListener (ActionListener* const listener)
{
if (broadcaster != nullptr)
broadcaster->removeActionListener (listener);
}
//==============================================================================
bool MessageManager::isThisTheMessageThread() const noexcept
{
return Thread::getCurrentThreadId() == messageThreadId;
}
void MessageManager::setCurrentThreadAsMessageThread()
{
auto thisThread = Thread::getCurrentThreadId();
if (messageThreadId != thisThread)
{
messageThreadId = thisThread;
// This is needed on windows to make sure the message window is created by this thread
doPlatformSpecificShutdown();
doPlatformSpecificInitialisation();
}
}
bool MessageManager::currentThreadHasLockedMessageManager() const noexcept
{
auto thisThread = Thread::getCurrentThreadId();
return thisThread == messageThreadId || thisThread == threadWithLock.get();
}
//==============================================================================
//==============================================================================
/* The only safe way to lock the message thread while another thread does
some work is by posting a special message, whose purpose is to tie up the event
loop until the other thread has finished its business.
Any other approach can get horribly deadlocked if the OS uses its own hidden locks which
get locked before making an event callback, because if the same OS lock gets indirectly
accessed from another thread inside a MM lock, you're screwed. (this is exactly what happens
in Cocoa).
*/
struct MessageManager::Lock::BlockingMessage : public MessageManager::MessageBase
{
BlockingMessage (const MessageManager::Lock* parent) noexcept
// need a const_cast here as VS2013 doesn't like a const pointer to be in an atomic
: owner (const_cast<MessageManager::Lock*> (parent)) {}
void messageCallback() override
{
{
ScopedLock lock (ownerCriticalSection);
if (auto* o = owner.get())
o->messageCallback();
}
releaseEvent.wait();
}
CriticalSection ownerCriticalSection;
Atomic<MessageManager::Lock*> owner;
WaitableEvent releaseEvent;
JUCE_DECLARE_NON_COPYABLE (BlockingMessage)
};
//==============================================================================
MessageManager::Lock::Lock() {}
MessageManager::Lock::~Lock() { exit(); }
void MessageManager::Lock::enter() const noexcept { tryAcquire (true); }
bool MessageManager::Lock::tryEnter() const noexcept { return tryAcquire (false); }
bool MessageManager::Lock::tryAcquire (bool lockIsMandatory) const noexcept
{
auto* mm = MessageManager::instance;
if (mm == nullptr)
{
jassertfalse;
return false;
}
if (! lockIsMandatory && (abortWait.get() != 0))
{
abortWait.set (0);
return false;
}
if (mm->currentThreadHasLockedMessageManager())
return true;
try
{
blockingMessage = new BlockingMessage (this);
}
catch (...)
{
jassert (! lockIsMandatory);
return false;
}
if (! blockingMessage->post())
{
// post of message failed while trying to get the lock
jassert (! lockIsMandatory);
blockingMessage = nullptr;
return false;
}
do
{
while (abortWait.get() == 0)
lockedEvent.wait (-1);
abortWait.set (0);
if (lockGained.get() != 0)
{
mm->threadWithLock = Thread::getCurrentThreadId();
return true;
}
} while (lockIsMandatory);
// we didn't get the lock
blockingMessage->releaseEvent.signal();
{
ScopedLock lock (blockingMessage->ownerCriticalSection);
lockGained.set (0);
blockingMessage->owner.set (nullptr);
}
blockingMessage = nullptr;
return false;
}
void MessageManager::Lock::exit() const noexcept
{
if (lockGained.compareAndSetBool (false, true))
{
auto* mm = MessageManager::instance;
jassert (mm == nullptr || mm->currentThreadHasLockedMessageManager());
lockGained.set (0);
if (mm != nullptr)
mm->threadWithLock = 0;
if (blockingMessage != nullptr)
{
blockingMessage->releaseEvent.signal();
blockingMessage = nullptr;
}
}
}
void MessageManager::Lock::messageCallback() const
{
lockGained.set (1);
abort();
}
void MessageManager::Lock::abort() const noexcept
{
abortWait.set (1);
lockedEvent.signal();
}
//==============================================================================
MessageManagerLock::MessageManagerLock (Thread* threadToCheck)
: locked (attemptLock (threadToCheck, nullptr))
{}
MessageManagerLock::MessageManagerLock (ThreadPoolJob* jobToCheck)
: locked (attemptLock (nullptr, jobToCheck))
{}
bool MessageManagerLock::attemptLock (Thread* threadToCheck, ThreadPoolJob* jobToCheck)
{
jassert (threadToCheck == nullptr || jobToCheck == nullptr);
if (threadToCheck != nullptr)
threadToCheck->addListener (this);
if (jobToCheck != nullptr)
jobToCheck->addListener (this);
// tryEnter may have a spurious abort (return false) so keep checking the condition
while ((threadToCheck == nullptr || ! threadToCheck->threadShouldExit())
&& (jobToCheck == nullptr || ! jobToCheck->shouldExit()))
{
if (mmLock.tryEnter())
break;
}
if (threadToCheck != nullptr)
{
threadToCheck->removeListener (this);
if (threadToCheck->threadShouldExit())
return false;
}
if (jobToCheck != nullptr)
{
jobToCheck->removeListener (this);
if (jobToCheck->shouldExit())
return false;
}
return true;
}
MessageManagerLock::~MessageManagerLock() noexcept { mmLock.exit(); }
void MessageManagerLock::exitSignalSent()
{
mmLock.abort();
}
//==============================================================================
JUCE_API void JUCE_CALLTYPE initialiseJuce_GUI();
JUCE_API void JUCE_CALLTYPE initialiseJuce_GUI()
{
JUCE_AUTORELEASEPOOL
{
MessageManager::getInstance();
}
}
JUCE_API void JUCE_CALLTYPE shutdownJuce_GUI();
JUCE_API void JUCE_CALLTYPE shutdownJuce_GUI()
{
JUCE_AUTORELEASEPOOL
{
DeletedAtShutdown::deleteAll();
MessageManager::deleteInstance();
}
}
static int numScopedInitInstances = 0;
ScopedJuceInitialiser_GUI::ScopedJuceInitialiser_GUI() { if (numScopedInitInstances++ == 0) initialiseJuce_GUI(); }
ScopedJuceInitialiser_GUI::~ScopedJuceInitialiser_GUI() { if (--numScopedInitInstances == 0) shutdownJuce_GUI(); }
} // namespace juce