/*
- * Copyright (c) 2021 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2023 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
} // unnamed namespace
VectorAnimationTask::VectorAnimationTask(VisualFactoryCache& factoryCache)
-: mUrl(),
+: AsyncTask(MakeCallback(this, &VectorAnimationTask::TaskCompleted), AsyncTask::PriorityType::HIGH, AsyncTask::ThreadType::WORKER_THREAD),
+ mUrl(),
mVectorRenderer(VectorAnimationRenderer::New()),
mAnimationData(),
mVectorAnimationThread(factoryCache.GetVectorAnimationManager().GetVectorAnimationThread()),
mConditionalWait(),
- mAnimationFinishedTrigger(),
+ mResourceReadySignal(),
+ mLoadCompletedCallback(MakeCallback(this, &VectorAnimationTask::OnLoadCompleted)),
mPlayState(PlayState::STOPPED),
mStopBehavior(DevelImageVisual::StopBehavior::CURRENT_FRAME),
mLoopingMode(DevelImageVisual::LoopingMode::RESTART),
mUpdateFrameNumber(false),
mNeedAnimationFinishedTrigger(true),
mAnimationDataUpdated(false),
- mDestroyTask(false)
+ mDestroyTask(false),
+ mLoadRequest(false),
+ mLoadFailed(false),
+ mRasterized(false),
+ mKeepAnimation(false)
{
+ mVectorRenderer.UploadCompletedSignal().Connect(this, &VectorAnimationTask::OnUploadCompleted);
}
VectorAnimationTask::~VectorAnimationTask()
DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::~VectorAnimationTask: destructor [%p]\n", this);
}
+void VectorAnimationTask::Process()
+{
+ mRasterized = Rasterize();
+}
+
+bool VectorAnimationTask::IsReady()
+{
+ return true;
+}
+
void VectorAnimationTask::Finalize()
{
ConditionalWait::ScopedLock lock(mConditionalWait);
// Release some objects in the main thread
- if(mAnimationFinishedTrigger)
+ if(mAnimationFinishedCallback)
+ {
+ mVectorAnimationThread.RemoveEventTriggerCallback(mAnimationFinishedCallback.get());
+ mAnimationFinishedCallback.reset();
+ }
+ if(mLoadCompletedCallback)
{
- mAnimationFinishedTrigger.reset();
+ mVectorAnimationThread.RemoveEventTriggerCallback(mLoadCompletedCallback.get());
+ mLoadCompletedCallback.reset();
}
mVectorRenderer.Finalize();
mDestroyTask = true;
}
-bool VectorAnimationTask::Load(const std::string& url)
+void VectorAnimationTask::TaskCompleted(VectorAnimationTaskPtr task)
{
- mUrl = url;
+ mVectorAnimationThread.OnTaskCompleted(task, task->IsRasterized(), task->IsAnimating());
+}
+bool VectorAnimationTask::IsRasterized()
+{
+ return mRasterized;
+}
+
+bool VectorAnimationTask::IsAnimating()
+{
+ return mKeepAnimation;
+}
+
+bool VectorAnimationTask::Load(bool synchronousLoading)
+{
if(!mVectorRenderer.Load(mUrl))
{
DALI_LOG_ERROR("VectorAnimationTask::Load: Load failed [%s]\n", mUrl.c_str());
+ mLoadRequest = false;
+ mLoadFailed = true;
+ if(!synchronousLoading && mLoadCompletedCallback)
+ {
+ mVectorAnimationThread.AddEventTriggerCallback(mLoadCompletedCallback.get());
+ }
return false;
}
mFrameRate = mVectorRenderer.GetFrameRate();
mFrameDurationMicroSeconds = MICROSECONDS_PER_SECOND / mFrameRate;
- uint32_t width, height;
- mVectorRenderer.GetDefaultSize(width, height);
-
- SetSize(width, height);
+ mLoadRequest = false;
+ if(!synchronousLoading && mLoadCompletedCallback)
+ {
+ mVectorAnimationThread.AddEventTriggerCallback(mLoadCompletedCallback.get());
+ }
DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::Load: file = %s [%d frames, %f fps] [%p]\n", mUrl.c_str(), mTotalFrame, mFrameRate, this);
DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::SetRenderer [%p]\n", this);
}
+void VectorAnimationTask::RequestLoad(const std::string& url, bool synchronousLoading)
+{
+ mUrl = url;
+
+ if(!synchronousLoading)
+ {
+ mLoadRequest = true;
+
+ mVectorAnimationThread.AddTask(this);
+ }
+ else
+ {
+ Load(true);
+
+ OnLoadCompleted();
+ }
+}
+
+bool VectorAnimationTask::IsLoadRequested() const
+{
+ return mLoadRequest;
+}
+
void VectorAnimationTask::SetAnimationData(const AnimationData& data)
{
ConditionalWait::ScopedLock lock(mConditionalWait);
}
}
-void VectorAnimationTask::SetAnimationFinishedCallback(EventThreadCallback* callback)
+void VectorAnimationTask::SetAnimationFinishedCallback(CallbackBase* callback)
{
ConditionalWait::ScopedLock lock(mConditionalWait);
- if(callback)
- {
- mAnimationFinishedTrigger = std::unique_ptr<EventThreadCallback>(callback);
- }
+ mAnimationFinishedCallback = std::unique_ptr<CallbackBase>(callback);
}
void VectorAnimationTask::SetLoopCount(int32_t count)
}
// Make sure the range specified is between 0 and the total frame number
- if(startFrame < mTotalFrame && endFrame < mTotalFrame)
+ startFrame = std::min(startFrame, mTotalFrame - 1);
+ endFrame = std::min(endFrame, mTotalFrame - 1);
+
+ // If the range is not in order swap values
+ if(startFrame > endFrame)
{
- // If the range is not in order swap values
- if(startFrame > endFrame)
+ uint32_t temp = startFrame;
+ startFrame = endFrame;
+ endFrame = temp;
+ }
+
+ if(startFrame != mStartFrame || endFrame != mEndFrame)
+ {
+ mStartFrame = startFrame;
+ mEndFrame = endFrame;
+
+ // If the current frame is out of the range, change the current frame also.
+ if(mStartFrame > mCurrentFrame)
{
- uint32_t temp = startFrame;
- startFrame = endFrame;
- endFrame = temp;
+ mCurrentFrame = mStartFrame;
}
-
- if(startFrame != mStartFrame || endFrame != mEndFrame)
+ else if(mEndFrame < mCurrentFrame)
{
- mStartFrame = startFrame;
- mEndFrame = endFrame;
-
- // If the current frame is out of the range, change the current frame also.
- if(mStartFrame > mCurrentFrame)
- {
- mCurrentFrame = mStartFrame;
- }
- else if(mEndFrame < mCurrentFrame)
- {
- mCurrentFrame = mEndFrame;
- }
-
- DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::SetPlayRange: [%d, %d] [%p]\n", mStartFrame, mEndFrame, this);
+ mCurrentFrame = mEndFrame;
}
- }
- else
- {
- DALI_LOG_ERROR("VectorAnimationTask::SetPlayRange: Invalid range (%d, %d) [%p]\n", startFrame, endFrame, this);
- return;
+
+ DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::SetPlayRange: [%d, %d] [%s] [%p]\n", mStartFrame, mEndFrame, mUrl.c_str(), this);
}
}
}
else
{
- DALI_LOG_ERROR("Invalid frame number [%d (%d, %d)]\n", frameNumber, mStartFrame, mEndFrame);
+ DALI_LOG_ERROR("Invalid frame number [%d (%d, %d)] [%p]\n", frameNumber, mStartFrame, mEndFrame, this);
}
}
mVectorRenderer.GetLayerInfo(map);
}
-VectorAnimationTask::UploadCompletedSignalType& VectorAnimationTask::UploadCompletedSignal()
+VectorAnimationTask::ResourceReadySignalType& VectorAnimationTask::ResourceReadySignal()
{
- return mVectorRenderer.UploadCompletedSignal();
+ return mResourceReadySignal;
}
bool VectorAnimationTask::Rasterize()
{
bool stopped = false;
uint32_t currentFrame;
+ mKeepAnimation = false;
{
ConditionalWait::ScopedLock lock(mConditionalWait);
}
}
+ if(mLoadRequest)
+ {
+ return Load(false);
+ }
+
+ if(mLoadFailed)
+ {
+ return false;
+ }
+
ApplyAnimationData();
if(mPlayState == PlayState::PLAYING && mUpdateFrameNumber)
{
- mCurrentFrame = mForward ? mCurrentFrame + mDroppedFrames + 1 : mCurrentFrame - mDroppedFrames - 1;
+ mCurrentFrame = mForward ? mCurrentFrame + mDroppedFrames + 1 : (mCurrentFrame > mDroppedFrames ? mCurrentFrame - mDroppedFrames - 1 : 0);
Dali::ClampInPlace(mCurrentFrame, mStartFrame, mEndFrame);
}
mForward = true;
mCurrentLoop = 0;
+ if(mVectorRenderer)
+ {
+ // Notify the Renderer that rendering is stopped.
+ mVectorRenderer.RenderStopped();
+ }
+
// Animation is finished
{
ConditionalWait::ScopedLock lock(mConditionalWait);
- if(mNeedAnimationFinishedTrigger && mAnimationFinishedTrigger)
+ if(mNeedAnimationFinishedTrigger && mAnimationFinishedCallback)
{
- mAnimationFinishedTrigger->Trigger();
+ mVectorAnimationThread.AddEventTriggerCallback(mAnimationFinishedCallback.get());
}
}
DALI_LOG_INFO(gVectorAnimationLogFilter, Debug::Verbose, "VectorAnimationTask::Rasterize: Animation is finished [current = %d] [%p]\n", currentFrame, this);
}
- bool keepAnimation = true;
- if(mPlayState == PlayState::PAUSED || mPlayState == PlayState::STOPPED)
+ if(mPlayState != PlayState::PAUSED && mPlayState != PlayState::STOPPED)
{
- keepAnimation = false;
+ mKeepAnimation = true;
}
- return keepAnimation;
+ return true;
}
uint32_t VectorAnimationTask::GetStoppedFrame(uint32_t startFrame, uint32_t endFrame, uint32_t currentFrame)
SetCurrentFrameNumber(mAnimationData[index].currentFrame);
}
+ if(mAnimationData[index].resendFlag & VectorAnimationTask::RESEND_NEED_RESOURCE_READY)
+ {
+ mVectorRenderer.InvalidateBuffer();
+ }
+
+ if(mAnimationData[index].resendFlag & VectorAnimationTask::RESEND_DYNAMIC_PROPERTY)
+ {
+ for(auto&& iter : mAnimationData[index].dynamicProperties)
+ {
+ mVectorRenderer.AddPropertyValueCallback(iter.keyPath, static_cast<VectorAnimationRenderer::VectorProperty>(iter.property), iter.callback, iter.id);
+ }
+ }
+
if(mAnimationData[index].resendFlag & VectorAnimationTask::RESEND_PLAY_STATE)
{
if(mAnimationData[index].playState == DevelImageVisual::PlayState::PLAYING)
}
}
+ // reset data
+ mAnimationData[index].dynamicProperties.clear();
mAnimationData[index].resendFlag = 0;
}
+void VectorAnimationTask::OnUploadCompleted()
+{
+ mResourceReadySignal.Emit(ResourceStatus::READY);
+}
+
+void VectorAnimationTask::OnLoadCompleted()
+{
+ if(!mLoadFailed)
+ {
+ mResourceReadySignal.Emit(ResourceStatus::LOADED);
+ }
+ else
+ {
+ mResourceReadySignal.Emit(ResourceStatus::FAILED);
+ }
+}
} // namespace Internal
} // namespace Toolkit