Added GLES 1.x spinning cube-rendering code to eglbringuptest
The coordinate, color and index data are uploaded to server-side
buffers by the CGLES1Cube::KhrSetup function. CGLES1Cube::KhrPaint
just sets the view matrix and issues a draw command.
Which demo to display can be selected by passing its name on the
command line, e.g.
eglbringuptest vgline
eglbringuptest gles1cube
If no name is provided, the application defaults to vgline.
// Copyright (c) 2003-2009 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:
// This module implemente the class use for a 8 bpp color screen.
// Include files
//
//
/**
@file
*/
/********************************************************************/
#include <bitdraw.h>
#include "scdraw.h"
#include <hal.h>
/********************************************************************/
/* Implementation of CDrawEightBppScreenBitmapColor class */
/********************************************************************/
void CDrawEightBppScreenBitmapColor::SetSize(const TSize& aSize)
{
CDrawBitmap::SetSize(aSize);
__ASSERT_DEBUG(iSize == aSize, User::Invariant());
iLongWidth = CDrawBitmap::iScanLineWords * 4;
}
void CDrawEightBppScreenBitmapColor::SetDisplayMode(CFbsDrawDevice* aDrawDevice)
{
CopyOldSettings(aDrawDevice) ;
InitScreen() ;
}
TInt CDrawEightBppScreenBitmapColor::HorzTwipsPerThousandPixels() const
{
if (iSize.iWidth == 0)
return 0 ;
TMachineInfoV1Buf miBuf ;
UserHal::MachineInfo(miBuf) ;
return miBuf().iPhysicalScreenSize.iWidth * 1000 / iSize.iWidth ;
}
TInt CDrawEightBppScreenBitmapColor::VertTwipsPerThousandPixels() const
{
if (iSize.iHeight == 0)
return 0 ;
TMachineInfoV1Buf miBuf ;
UserHal::MachineInfo(miBuf) ;
return miBuf().iPhysicalScreenSize.iHeight * 1000 / iSize.iHeight ;
}
/**
Initialises the palette
*/
TInt CDrawEightBppScreenBitmapColor::InitScreen()
{
__ASSERT_ALWAYS(iPaletteAddress!=NULL, Panic(EScreenDriverPanicNullPointer)) ;
/* Fill the palette to support 8 Bpp color */
TUint16* palettePtr = iPaletteAddress ;
for (TInt count = 0; count < KEightBppPaletteEntries; count++)
*palettePtr++ = TRgb::Color256(count)._Color4K() | KEightBppPixelBitSize ;
return KErrNone ;
}
/**
Constructs the CDrawEightBppScreenBitmapColor object.
@param aScreenNo Screen number. It will be used in HAL::Get() calls.
@param aBitmapAddress The screen memory address.
@param aSize Screen size
@return System-wide error codes, KErrNone if the construction was successfull.
*/
TInt CDrawEightBppScreenBitmapColor::ConstructScreenL(TInt aScreenNo, TAny* aBitmapAddress, TSize aSize)
{
iScreenNo = aScreenNo;
TInt displayMode;
TInt ret = HAL::Get(aScreenNo, HALData::EDisplayMode, displayMode);
if (ret != KErrNone)
return ret;
TInt linepitchInBytes = displayMode;
ret = HAL::Get(aScreenNo,HALData::EDisplayOffsetBetweenLines,linepitchInBytes);
if (ret != KErrNone)
return ret;
CDrawBitmap::iScanLineWords = linepitchInBytes / 4;
ret = CDrawEightBppBitmapColor::Construct(aSize);
if (ret != KErrNone)
return ret ;
/* Set the pointer on the first palette entry */
iPaletteAddress = (TUint16*)aBitmapAddress ;
TInt offsetToFirstPixel = displayMode;
ret = HAL::Get(aScreenNo,HALData::EDisplayOffsetToFirstPixel, offsetToFirstPixel);
if (ret != KErrNone)
return ret;
iBits = (TUint32*)((TUint32)aBitmapAddress + offsetToFirstPixel);
return KErrNone ;
}
void CDrawEightBppScreenBitmapColor::OrientationsAvailable(TBool aOrientation[4])
{
aOrientation[EOrientationNormal] = ETrue ;
aOrientation[EOrientationRotated90] = ETrue ;
aOrientation[EOrientationRotated180] = ETrue ;
aOrientation[EOrientationRotated270] = ETrue ;
}
TBool CDrawEightBppScreenBitmapColor::SetOrientation(TOrientation aOrientation)
{
iOrientation = aOrientation ;
return ETrue ;
}
TInt CDrawEightBppScreenBitmapColor::SetCustomPalette(const CPalette* aPalette)
{
TInt ret = CDrawEightBppBitmapColor::SetCustomPalette(aPalette) ;
if (ret == KErrNone)
{
TInt index = 0 ;
TUint16* palettePtr = iPaletteAddress ;
const TUint16* const palettePtrLimit = iPaletteAddress + KEightBppPaletteEntries ;
*palettePtr++ = IndexToColor(index++)._Color4K() | KEightBppPixelBitSize ;
while (palettePtr < palettePtrLimit)
*palettePtr++ = IndexToColor(index++)._Color4K() ;
}
return ret ;
}