Revise some of the compositor performance improvements to improve correctness.
Implement pixel blending using a variation of Jim Blinn's no-division blending algorithm.
Move transparency type simplification further up the composition code.
Remove some unnecessary fields.
Output to YUV implementation needs revision as it is actually converting from YUV (copy of source conversion code).
// Copyright (c) 1997-2009 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:
// WINS platform
//
//
#include <hal.h>
#include "SCDRAW.H"
#include "ScreenInfo.h"
#include <graphics/gdi/gdiconsts.h>
/**
Creates an instance of CFbsDrawDevice class.
@param aScreenNo Screen number
@param aDispMode Display mode
@param aScreenInfo Screen parameters: video memory address and screen size
@return A pointer to the created CFbsDrawDevice object
@leave System-wide error code including KErrNoMemory
@internalComponent
*/
static CFbsDrawDevice* CreateInstanceL(TInt aScreenNo,
TDisplayMode aDispMode,
const TScreenInfo& aScreenInfo)
{
TUint depths = 0;
// As multiple screens are possible, the (optional) second parameter is necessary here
// to find the color depth specific to this screen.
EmulatorColorDepth(depths, aScreenNo);
ASSERT(depths);
CFbsDrawDevice* drawDevice = NULL;
switch(aDispMode)
{
case EGray2:
if (!(depths & KEmulGray2))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawOneBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawOneBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EGray4:
if (!(depths & KEmulGray4))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawTwoBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawTwoBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EGray16:
if (!(depths & KEmulGray16))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawFourBppScreenBitmapGray;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawFourBppScreenBitmapGray*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EGray256:
if (!(depths & KEmulGray256))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawEightBppScreenBitmapGray;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawEightBppScreenBitmapGray*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor16:
if (!(depths & KEmulColor16))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawFourBppScreenBitmapColor;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawFourBppScreenBitmapColor*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor256:
if (!(depths & KEmulColor256))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawEightBppScreenBitmapColor;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawEightBppScreenBitmapColor*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor4K:
if (!(depths & KEmulColor4K))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawTwelveBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawTwelveBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor64K:
if (!(depths & KEmulColor64K))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawSixteenBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawSixteenBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor16M:
if (!(depths & KEmulColor16M))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawTwentyFourBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawTwentyFourBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor16MU:
if (!(depths & KEmulColor16M))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawUTwentyFourBppScreenBitmap;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawUTwentyFourBppScreenBitmap*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor16MA:
if (!(depths & KEmulColor16M))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawThirtyTwoBppScreenBitmapAlpha;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawThirtyTwoBppScreenBitmapAlpha*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
case EColor16MAP:
if (!(depths & KEmulColor16M))
User::Leave(KErrNotSupported);
drawDevice = new(ELeave) CDrawThirtyTwoBppScreenBitmapAlphaPM;
CleanupStack::PushL(drawDevice);
User::LeaveIfError((static_cast<CDrawThirtyTwoBppScreenBitmapAlphaPM*> (drawDevice)) ->ConstructScreen(aScreenNo,
aScreenInfo.iAddress,
aScreenInfo.iSize));
break;
default:
User::Leave(KErrNotSupported);
}
CleanupStack::Pop(); // drawDevice
return drawDevice;
}
/**
@deprecated Use NewScreenDeviceL(TInt aScreenNo, TDisplayMode aDispMode)
*/
EXPORT_C CFbsDrawDevice* CFbsDrawDevice::NewScreenDeviceL(TScreenInfoV01 aInfo,
TDisplayMode aDispMode)
{
__ASSERT_ALWAYS(aInfo.iScreenAddressValid && aInfo.iScreenAddress, Panic(EScreenDriverPanicInvalidWindowHandle));
TScreenInfo screenInfo(aInfo.iScreenAddress, aInfo.iScreenSize);
return ::CreateInstanceL(KDefaultScreenNo, aDispMode, screenInfo);
}
/**
Creates a new screen device instance, which implements CFbsDrawDevice interface.
The method has to be implemented for each type of supported video hardware.
@param aScreenNo Screen number
@param aDispMode Requested display mode
@return A pointer to just created screen device, which implements CFbsDrawDevice interface
@leave KErrNoMemory Not enough memory
KErrNotSupported The requested screen device type is not supported
*/
EXPORT_C CFbsDrawDevice* CFbsDrawDevice::NewScreenDeviceL(TInt aScreenNo,
TDisplayMode aDispMode)
{
TInt address = 0, width = 0, height = 0;
User::LeaveIfError(HAL::Get(aScreenNo, HALData::EDisplayMemoryAddress, address));
User::LeaveIfError(HAL::Get(aScreenNo, HALData::EDisplayXPixels, width));
User::LeaveIfError(HAL::Get(aScreenNo, HALData::EDisplayYPixels, height));
__ASSERT_ALWAYS(width > 0 && height > 0 && address != 0, Panic(EScreenDriverPanicInvalidHalValue));
TScreenInfo screenInfo(reinterpret_cast <TAny*> (address), TSize(width, height));
return ::CreateInstanceL(aScreenNo, aDispMode, screenInfo);
}
/**
Depending on the current graphics hardware this
will return one of the 16M video modes defined in
TDisplayMode, or ENone if a 16M video mode is not supported.
@see TDisplayMode
@return a 16M display mode or ENone.
*/
EXPORT_C TDisplayMode CFbsDrawDevice::DisplayMode16M()
{
return EColor16MU;
}