Bug 3539. Update localisation mappings for gsprofilesrv.
/*
* Copyright (c) 2005-2007 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
// INCLUDE FILES
#include "gsasyncimagehandling.h"
#include <aknappui.h>
#include <AknUtils.h>
#include <applayout.cdl.h>
#include <aknlayoutscalable_apps.cdl.h>
#include <startupdomaincrkeys.h>
#include "mgsasyncimagehandlingobserver.h"
#include "GsLogger.h"
#include <CPhCltImageHandler.h>
#include <CPhCltImageParams.h>
#include <CPhCltBaseImageParams.h>
//_LIT( KGSWelcomeNoteImgPath, "c:\\private\\100058ec\\welcomeimage.mbm");
const TInt KGSVTStillImageWidth = 176;
const TInt KGSVTStillImageHeight = 144;
// ================= MEMBER FUNCTIONS =======================
// ---------------------------------------------------------------------------
// CGSAsyncImageHandling::CGSAsyncImageHandling
// C++ constructor.
//
// ---------------------------------------------------------------------------
//
CGSAsyncImageHandling::CGSAsyncImageHandling( RFs& aFs,
MGSAsyncImageHandlingObserver* aObserver,
const TDesC& aDestinationPath )
: CActive( EPriorityNormal ),
iObserver( aObserver ),
iFs( aFs ),
iDestinationPath( aDestinationPath )
{
CActiveScheduler::Add( this );
}
// ---------------------------------------------------------------------------
// CGSAsyncImageHandling::NewL()
// C++ constructor.
//
// ---------------------------------------------------------------------------
//
EXPORT_C CGSAsyncImageHandling* CGSAsyncImageHandling::NewL( RFs& aFs,
MGSAsyncImageHandlingObserver* aObserver,
const TDesC& aDestinationPath )
{
CGSAsyncImageHandling* self =
new( ELeave ) CGSAsyncImageHandling( aFs, aObserver,
aDestinationPath );
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop();
return self;
}
// -----------------------------------------------------------------------------
// CGSAsyncImageHandling::ConstructL
// Symbian 2nd phase constructor can leave.
//
// -----------------------------------------------------------------------------
//
void CGSAsyncImageHandling::ConstructL()
{
iStartupRepository = CRepository::NewL( KCRUidStartupConf );
iBitmapScaler = CBitmapScaler::NewL();
}
// ---------------------------------------------------------------------------
// CGSAsyncImageHandling::~CGSAsyncImageHandling
// destructor.
//
// ---------------------------------------------------------------------------
//
CGSAsyncImageHandling::~CGSAsyncImageHandling()
{
Cancel();
if ( iStartupRepository )
{
delete iStartupRepository;
}
if( iDecoder )
{
delete iDecoder;
}
if ( iBitmapScaler )
{
delete iBitmapScaler;
}
if ( iBitmap )
{
delete iBitmap;
}
}
// ---------------------------------------------------------------------------
// CGSAsyncImageHandling::ProcessImageL
//
// Processing the image asynchronously
// ---------------------------------------------------------------------------
//
void CGSAsyncImageHandling::ProcessImageL( const TDesC& aFileName,
TInt aScreenWidth,
TInt aScreenHeight,
TGSBgImageType aBgImageType )
{
__GSLOGSTRING1( "[CGSAsyncImageHandling] process image %S", &aFileName );
TInt frameNumber = 0; //for JPEG & bmp images
iBgImageType = aBgImageType;
// make sure there is no memory leaks because of iBitmap and iDimmedBmp
if (iBitmap)
{
delete iBitmap;
iBitmap = NULL;
}
iBitmap = new(ELeave) CFbsBitmap;
// Loading image from file into CFbsBitmap
CImageDecoder::GetMimeTypeFileL( iFs, aFileName, iMimeString );
iDecoder = CImageDecoder::FileNewL( iFs, aFileName,
CImageDecoder::EOptionNone );
TFrameInfo frameInfo = iDecoder->FrameInfo();
TSize imgSize = frameInfo.iOverallSizeInPixels;
TDisplayMode displayMode = GetDisplayMode( frameInfo );
TSize screenSize( aScreenWidth, aScreenHeight );
TSize loadSize( CalculateLoadSize( frameInfo, screenSize ) );
iScaleSize = loadSize;
iBitmap->Reset();
User::LeaveIfError( iBitmap->Create( imgSize, displayMode ) );
iDecoder->Convert( &iStatus, *iBitmap, frameNumber );
if ( aBgImageType == EGSWelcomeNoteImage )
{
iState = EGSWelcomeConversion;
}
else if ( aBgImageType == EGSVtStillImage )
{
iState = EGSVTConversion;
}
SetActive();
}
// ---------------------------------------------------------------------------
// CGSAsyncImageHandling::GetDisplayMode
//
// Dithers the image to attain the required dithering according to the display
// mode settings
// ---------------------------------------------------------------------------
//
TDisplayMode CGSAsyncImageHandling::GetDisplayMode( const TFrameInfo& aFrameInfo )
{
if( aFrameInfo.iFlags & TFrameInfo::ECanDither )
{
if( aFrameInfo.iFrameDisplayMode < EColor64K )
{
return aFrameInfo.iFrameDisplayMode;
}
else
{
return EColor64K;
}
}
else
{
return aFrameInfo.iFrameDisplayMode;
}
}
// -----------------------------------------------------------------------------
// CGSAsyncImageHandling::RunL
//
//
// ---------------------------------------------------------------------------
//
void CGSAsyncImageHandling::RunL()
{
if( iStatus.Int() == KErrNone )
{
switch( iState )
{
case EGSWelcomeConversion:
iBitmapScaler->Scale(&iStatus, *iBitmap, iScaleSize, ETrue );
iState = EGSWelcomeScaling;
SetActive();
break;
case EGSWelcomeScaling:
{
TInt err = iBitmap->Save( iDestinationPath );
iStartupRepository->Set( KStartupWelcomeNoteImage,
iDestinationPath );
//raising completion event
iObserver->ImageHandlingCompleteL( iStatus.Int() );
Cancel();
}
break;
case EGSVTConversion:
iBitmapScaler->Scale(&iStatus, *iBitmap, iScaleSize, ETrue );
iState = EGSVTScaling;
SetActive();
break;
case EGSVTScaling:
SaveVTStillImageL();
iObserver->ImageHandlingCompleteL( iStatus.Int() );
Cancel();
break;
default:
break;
}
}
else
{
iObserver->ImageHandlingCompleteL( iStatus.Int() );
Cancel();
}
}
// -----------------------------------------------------------------------------
// CGSAsyncImageHandling::DoCancel
//
//
// ---------------------------------------------------------------------------
//
void CGSAsyncImageHandling::DoCancel()
{
if ( iDecoder )
{
iDecoder->Cancel();
}
if ( iBitmapScaler )
{
iBitmapScaler->Cancel();
}
delete iDecoder;
iDecoder = NULL;
}
// -----------------------------------------------------------------------------
// CGSAsyncImageHandling::RunError
//
//
// ---------------------------------------------------------------------------
//
TInt CGSAsyncImageHandling::RunError( TInt aError )
{
TRAP_IGNORE( iObserver->ImageHandlingCompleteL( aError ) );
DoCancel();
return aError;
}
// ----------------------------------------------------------------------------
// TSize CGSAsyncImageHandling::CalculateLoadSize
//
// Calculates the load size
// ----------------------------------------------------------------------------
//
TSize CGSAsyncImageHandling::CalculateLoadSize( TFrameInfo& aFrameInfo,
const TSize aScreenSize )
{
TReal perfectAspect = ( TReal )(
( TReal )aScreenSize.iWidth/
( TReal )aScreenSize.iHeight );
TReal aspect = ( TReal )(
( TReal )aFrameInfo.iFrameCoordsInPixels.Width()/
( TReal )aFrameInfo.iFrameCoordsInPixels.Height() );
TSize size( aScreenSize.iWidth, aScreenSize.iHeight );
TSize cropsize( aScreenSize.iWidth, aScreenSize.iHeight );
TAknWindowLineLayout layout = AknLayout::wallpaper_pane();
if( aFrameInfo.iFrameCoordsInPixels.Width() > aScreenSize.iWidth ||
aFrameInfo.iFrameCoordsInPixels.Height() > aScreenSize.iHeight )
{
//calculating dynamically range for image aspect ratio close to screen
TReal maxAspect = ((TReal)aScreenSize.iWidth/(TReal)aScreenSize.iHeight) + 0.12;
TReal minAspect = ((TReal)aScreenSize.iWidth/(TReal)aScreenSize.iHeight) - 0.12;
if (aspect >= minAspect && aspect <= maxAspect )
{
if( aspect < perfectAspect )
{
size.iWidth = aScreenSize.iWidth;
size.iHeight = (TInt)((TReal)aScreenSize.iWidth/
(TReal)aFrameInfo.iFrameCoordsInPixels.Width()*
(TReal)aFrameInfo.iFrameCoordsInPixels.Height());
}
else
{
size.iWidth = (TInt)((TReal)aScreenSize.iHeight/
(TReal)aFrameInfo.iFrameCoordsInPixels.Height()*
(TReal)aFrameInfo.iFrameCoordsInPixels.Width());
size.iHeight = aScreenSize.iHeight;
}
if (size.iWidth > aScreenSize.iWidth)
{
cropsize.iWidth = aScreenSize.iWidth;
}
else
{
cropsize.iWidth = size.iWidth;
}
if (size.iHeight > aScreenSize.iHeight)
{
cropsize.iHeight = aScreenSize.iHeight;
}
else
{
cropsize.iHeight = size.iHeight;
}
}
else
{
// Scale and maintain aspect ratio
if( aspect < perfectAspect )
{
if (aFrameInfo.iFrameCoordsInPixels.Height() > aScreenSize.iHeight)
{
size.iWidth = (TInt)((TReal)aScreenSize.iHeight/
(TReal)aFrameInfo.iFrameCoordsInPixels.Height()*
(TReal)aFrameInfo.iFrameCoordsInPixels.Width());
size.iHeight = aScreenSize.iHeight;
}
}
else
{
if (aFrameInfo.iFrameCoordsInPixels.Width() > aScreenSize.iWidth)
{
size.iWidth = aScreenSize.iWidth;
size.iHeight = (TInt)((TReal)aScreenSize.iWidth/
(TReal)aFrameInfo.iFrameCoordsInPixels.Width()*
(TReal)aFrameInfo.iFrameCoordsInPixels.Height());
}
}
}
}
return size;
}
// -----------------------------------------------------------------------------
// CGSAsyncImageHandling::SaveVTStillImageL
//
//
// ---------------------------------------------------------------------------
//
void CGSAsyncImageHandling::SaveVTStillImageL()
{
//creating new and merging
const TSize KStillImageSize( KGSVTStillImageWidth, KGSVTStillImageHeight );
CFbsBitmap* newBitmap = new ( ELeave ) CFbsBitmap;
CleanupStack::PushL( newBitmap );
User::LeaveIfError(
newBitmap->Create( KStillImageSize, iBitmap->DisplayMode() ) );
CFbsBitmapDevice* device = CFbsBitmapDevice::NewL( newBitmap );
CleanupStack::PushL( device );
CFbsBitGc* context = NULL;
User::LeaveIfError( device->CreateContext( context ) );
User::LeaveIfNull( context );
context->SetPenStyle( CGraphicsContext::ENullPen );
context->SetBrushColor( TRgb( 0, 0, 0 ) ); // black color
context->SetBrushStyle( CGraphicsContext::ESolidBrush );
context->Clear();
const TSize scaledImageSize( iBitmap->SizeInPixels() );
TInt xPos = ( KStillImageSize.iWidth - scaledImageSize.iWidth ) / 2;
TInt yPos = ( KStillImageSize.iHeight - scaledImageSize.iHeight ) / 2;
context->BitBlt( TPoint( xPos, yPos ), iBitmap );
delete context;
CleanupStack::PopAndDestroy( device );
//saving bitmap
CPhCltImageHandler* phCltImageHandler = CPhCltImageHandler::NewL();
CleanupStack::PushL( phCltImageHandler );
// Acquires ownership of *imageParams
// Bad naming for create-function CPhCltBaseImageParamsL().
CPhCltImageParams* imageParams = phCltImageHandler->
CPhCltBaseImageParamsL( EPhCltTypeVTStill );
CleanupStack::PushL( imageParams );
TInt ret = newBitmap->Handle();
imageParams->AddImageL( ret );
phCltImageHandler->SaveImages( *imageParams );
CleanupStack::PopAndDestroy( imageParams );
CleanupStack::PopAndDestroy( phCltImageHandler );
delete iBitmap;
iBitmap = NULL;
CleanupStack::PopAndDestroy( newBitmap );
}
// End of File