/*
- * Copyright (c) 2015 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2021 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.
// EXTERNAL INCLUDES
#include <dali/devel-api/adaptor-framework/image-loading.h>
+#include <dali/devel-api/adaptor-framework/thread-settings.h>
+#include <dali/integration-api/adaptor-framework/adaptor.h>
+#include <dali/integration-api/debug.h>
namespace Dali
{
-
namespace Toolkit
{
-
namespace Internal
{
+LoadingTask::LoadingTask(uint32_t id, Dali::AnimatedImageLoading animatedImageLoading, uint32_t frameIndex)
+: pixelBuffer(),
+ url(),
+ id(id),
+ dimensions(),
+ fittingMode(),
+ samplingMode(),
+ orientationCorrection(),
+ preMultiplyOnLoad(DevelAsyncImageLoader::PreMultiplyOnLoad::OFF),
+ isMaskTask(false),
+ maskPixelBuffer(),
+ contentScale(1.0f),
+ cropToMask(false),
+ animatedImageLoading(animatedImageLoading),
+ frameIndex(frameIndex)
+{
+}
-LoadingTask::LoadingTask( uint32_t id, const VisualUrl& url, ImageDimensions dimensions,
- FittingMode::Type fittingMode, SamplingMode::Type samplingMode, bool orientationCorrection )
+LoadingTask::LoadingTask(uint32_t id, const VisualUrl& url, ImageDimensions dimensions, FittingMode::Type fittingMode, SamplingMode::Type samplingMode, bool orientationCorrection, DevelAsyncImageLoader::PreMultiplyOnLoad preMultiplyOnLoad)
: pixelBuffer(),
- url( url ),
- id( id ),
- dimensions( dimensions ),
- fittingMode( fittingMode ),
- samplingMode( samplingMode ),
- orientationCorrection( orientationCorrection )
+ url(url),
+ id(id),
+ dimensions(dimensions),
+ fittingMode(fittingMode),
+ samplingMode(samplingMode),
+ orientationCorrection(orientationCorrection),
+ preMultiplyOnLoad(preMultiplyOnLoad),
+ isMaskTask(false),
+ maskPixelBuffer(),
+ contentScale(1.0f),
+ cropToMask(false),
+ animatedImageLoading(),
+ frameIndex(0u)
+{
+}
+
+LoadingTask::LoadingTask(uint32_t id, Devel::PixelBuffer pixelBuffer, Devel::PixelBuffer maskPixelBuffer, float contentScale, bool cropToMask, DevelAsyncImageLoader::PreMultiplyOnLoad preMultiplyOnLoad)
+: pixelBuffer(pixelBuffer),
+ url(""),
+ id(id),
+ dimensions(),
+ fittingMode(),
+ samplingMode(),
+ orientationCorrection(),
+ preMultiplyOnLoad(preMultiplyOnLoad),
+ isMaskTask(true),
+ maskPixelBuffer(maskPixelBuffer),
+ contentScale(contentScale),
+ cropToMask(cropToMask),
+ animatedImageLoading(),
+ frameIndex(0u)
{
}
void LoadingTask::Load()
{
- if( url.IsLocal() )
+ if(animatedImageLoading)
+ {
+ pixelBuffer = animatedImageLoading.LoadFrame(frameIndex);
+ }
+ else if(url.IsLocalResource())
{
- pixelBuffer = Dali::LoadImageFromFile( url.GetUrl(), dimensions, fittingMode, samplingMode, orientationCorrection );
+ pixelBuffer = Dali::LoadImageFromFile(url.GetUrl(), dimensions, fittingMode, samplingMode, orientationCorrection);
}
else
{
- pixelBuffer = Dali::DownloadImageSynchronously ( url.GetUrl(), dimensions, fittingMode, samplingMode, orientationCorrection );
+ pixelBuffer = Dali::DownloadImageSynchronously(url.GetUrl(), dimensions, fittingMode, samplingMode, orientationCorrection);
+ }
+
+ if(!pixelBuffer)
+ {
+ DALI_LOG_ERROR("LoadingTask::Load: Loading is failed: %s\n", url.GetUrl().c_str());
}
}
+void LoadingTask::ApplyMask()
+{
+ pixelBuffer.ApplyMask(maskPixelBuffer, contentScale, cropToMask);
+}
-ImageLoadThread::ImageLoadThread( EventThreadCallback* trigger )
-: mTrigger( trigger )
+void LoadingTask::MultiplyAlpha()
+{
+ if(pixelBuffer && Pixel::HasAlpha(pixelBuffer.GetPixelFormat()))
+ {
+ if(preMultiplyOnLoad == DevelAsyncImageLoader::PreMultiplyOnLoad::ON)
+ {
+ pixelBuffer.MultiplyColorByAlpha();
+ }
+ }
+}
+
+ImageLoadThread::ImageLoadThread(EventThreadCallback* trigger)
+: mTrigger(trigger),
+ mLogFactory(Dali::Adaptor::Get().GetLogFactory())
{
}
ImageLoadThread::~ImageLoadThread()
{
// add an empty task would stop the thread from conditional wait.
- AddTask( NULL );
+ AddTask(NULL);
// stop the thread
Join();
delete mTrigger;
+
+ for(auto&& iter : mLoadQueue)
+ {
+ delete iter;
+ }
+ mLoadQueue.Clear();
+
+ for(auto&& iter : mCompleteQueue)
+ {
+ delete iter;
+ }
+ mCompleteQueue.Clear();
}
void ImageLoadThread::Run()
{
- while( LoadingTask* task = NextTaskToProcess() )
+ SetThreadName("ImageLoadThread");
+ mLogFactory.InstallLogFunction();
+
+ while(LoadingTask* task = NextTaskToProcess())
{
- task->Load();
- AddCompletedTask( task );
+ if(!task->isMaskTask)
+ {
+ task->Load();
+ }
+ else
+ {
+ task->ApplyMask();
+ }
+ task->MultiplyAlpha();
+
+ AddCompletedTask(task);
}
}
-void ImageLoadThread::AddTask( LoadingTask* task )
+void ImageLoadThread::AddTask(LoadingTask* task)
{
bool wasEmpty = false;
-
{
// Lock while adding task to the queue
- ConditionalWait::ScopedLock lock( mConditionalWait );
+ ConditionalWait::ScopedLock lock(mConditionalWait);
wasEmpty = mLoadQueue.Empty();
- mLoadQueue.PushBack( task );
+ mLoadQueue.PushBack(task);
}
- if( wasEmpty )
+ if(wasEmpty)
{
// wake up the image loading thread
mConditionalWait.Notify();
LoadingTask* ImageLoadThread::NextCompletedTask()
{
// Lock while popping task out from the queue
- Mutex::ScopedLock lock( mMutex );
+ Mutex::ScopedLock lock(mMutex);
- if( mCompleteQueue.Empty() )
+ if(mCompleteQueue.Empty())
{
return NULL;
}
- Vector< LoadingTask* >::Iterator next = mCompleteQueue.Begin();
- LoadingTask* nextTask = *next;
- mCompleteQueue.Erase( next );
+ Vector<LoadingTask*>::Iterator next = mCompleteQueue.Begin();
+ LoadingTask* nextTask = *next;
+ mCompleteQueue.Erase(next);
return nextTask;
}
-bool ImageLoadThread::CancelTask( uint32_t loadingTaskId )
+bool ImageLoadThread::CancelTask(uint32_t loadingTaskId)
{
// Lock while remove task from the queue
- ConditionalWait::ScopedLock lock( mConditionalWait );
+ ConditionalWait::ScopedLock lock(mConditionalWait);
- for( Vector< LoadingTask* >::Iterator iter = mLoadQueue.Begin(); iter != mLoadQueue.End(); ++iter )
+ for(Vector<LoadingTask*>::Iterator iter = mLoadQueue.Begin(); iter != mLoadQueue.End(); ++iter)
{
- if( (*iter)->id == loadingTaskId )
+ if((*iter)->id == loadingTaskId)
{
- delete (*iter);
- mLoadQueue.Erase( iter );
+ delete(*iter);
+ mLoadQueue.Erase(iter);
return true;
}
}
return false;
}
-
void ImageLoadThread::CancelAll()
{
// Lock while remove task from the queue
- ConditionalWait::ScopedLock lock( mConditionalWait );
+ ConditionalWait::ScopedLock lock(mConditionalWait);
- for( Vector< LoadingTask* >::Iterator iter = mLoadQueue.Begin(); iter != mLoadQueue.End(); ++iter )
+ for(Vector<LoadingTask*>::Iterator iter = mLoadQueue.Begin(); iter != mLoadQueue.End(); ++iter)
{
- delete ( *iter );
+ delete(*iter);
}
mLoadQueue.Clear();
}
LoadingTask* ImageLoadThread::NextTaskToProcess()
{
// Lock while popping task out from the queue
- ConditionalWait::ScopedLock lock( mConditionalWait );
+ ConditionalWait::ScopedLock lock(mConditionalWait);
- while( mLoadQueue.Empty() )
+ while(mLoadQueue.Empty())
{
- mConditionalWait.Wait( lock );
+ mConditionalWait.Wait(lock);
}
- Vector< LoadingTask* >::Iterator next = mLoadQueue.Begin();
- LoadingTask* nextTask = *next;
- mLoadQueue.Erase( next );
+ Vector<LoadingTask*>::Iterator next = mLoadQueue.Begin();
+ LoadingTask* nextTask = *next;
+ mLoadQueue.Erase(next);
return nextTask;
}
-void ImageLoadThread::AddCompletedTask( LoadingTask* task )
+void ImageLoadThread::AddCompletedTask(LoadingTask* task)
{
// Lock while adding task to the queue
- Mutex::ScopedLock lock( mMutex );
- mCompleteQueue.PushBack( task );
+ Mutex::ScopedLock lock(mMutex);
+ mCompleteQueue.PushBack(task);
// wake up the main thread
mTrigger->Trigger();