Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// e32test\multimedia\t_camera_display.cpp
//
//
#include <e32test.h>
#include <e32svr.h>
#include <u32hal.h>
#include <videodriver.h>
#include "t_camera_display.h"
_LIT(KFrameSizeConfTitle,"Current frame size :");
_LIT(KFrameSize, " %d x %d");
#define CLIP(a) if (a < 0) a = 0; else if (a > 255) a = 255;
/**
Constructor
*/
TCamDisplayHandler::TCamDisplayHandler()
{}
/**
Initialise the display handler.
@return KErrNone if write was successful, otherwise one of the other system wide error codes.
*/
TInt TCamDisplayHandler::Init()
{
TScreenInfoV01 screenInfo;
TPckg<TScreenInfoV01> screenInfoBuf(screenInfo);
UserSvr::ScreenInfo(screenInfoBuf);
iVideoAddress = (TUint8*) screenInfo.iScreenAddress;
iScreenWidth = screenInfo.iScreenSize.iWidth;
iScreenHeight = screenInfo.iScreenSize.iHeight;
TPckgBuf<TVideoInfoV01> videoInfoBuf;
UserSvr::HalFunction(EHalGroupDisplay, EDisplayHalCurrentModeInfo, &videoInfoBuf, NULL);
iBitsPerPixel = videoInfoBuf().iBitsPerPixel;
return(KErrNone);
}
TInt TCamDisplayHandler::Min(TInt aA, TInt aB)
{
return (aA < aB) ? aA : aB;
}
TInt TCamDisplayHandler::SetConfig(const SDevCamFrameSize& aSize,const SDevCamPixelFormat& aPixelFormat)
{
if (aPixelFormat.iPixelFormat==EUidPixelFormatYUV_422Interleaved || aPixelFormat.iPixelFormat==EUidPixelFormatRGB_565)
iPixelFormat=aPixelFormat;
else
return(KErrArgument);
iWidth = aSize.iWidth;
iHeight = aSize.iHeight;
return(KErrNone);
}
/**
Post process a received image.
@return KErrNone if write was successful, otherwise one of the other system wide error codes.
*/
TInt TCamDisplayHandler::Process(TUint8* aImageBaseAddress)
{
switch (iPixelFormat.iPixelFormat)
{
case EUidPixelFormatYUV_422Interleaved:
return(ProcessYUV422(aImageBaseAddress));
case EUidPixelFormatRGB_565:
return(ProcessRGB565(aImageBaseAddress));
default:
return(KErrNotSupported);
}
}
/**
Post process a received RGB565 image.
@return KErrNone if write was successful, otherwise one of the other system wide error codes.
*/
TInt TCamDisplayHandler::ProcessRGB565(TUint8* aImageBaseAddress)
{
TUint16* source = (TUint16*) aImageBaseAddress;
TUint16 pixel;
TInt sourceModulo, destModulo, width, height;
TInt r = KErrNone;
// Determine whether the screen or the picture to display is the widest, and calculate modulos
// and clipping sizes appropriately
if (iWidth < iScreenWidth)
{
width = iWidth;
sourceModulo = 0;
destModulo = (iScreenWidth - iWidth);
}
else
{
width = iScreenWidth;
sourceModulo = (iWidth - iScreenWidth);
destModulo = 0;
}
// Determine whether the screen or the picture to display is the highest
height = (iHeight < iScreenHeight) ? iHeight : iScreenHeight;
if (iBitsPerPixel == 16)
{
TUint16* dest = (TUint16*) iVideoAddress;
// Loop around and copy the data directly onto the screen
for (TInt line = 0; line < height; ++line)
{
for (TInt x = 0; x < width; ++x)
{
*dest++ = *source++;
}
source += sourceModulo;
dest += destModulo;
}
}
else if (iBitsPerPixel == 32)
{
TUint8* dest = iVideoAddress;
destModulo *= 4;
// Loop around and convert whatever part of the picture will fit onto the screen into BGRA,
// writing it directly onto the screen
for (TInt line = 0; line < height; ++line)
{
for (TInt x = 0; x < width; ++x)
{
pixel = *source++;
*dest++= (TUint8) ((pixel & 0x001f) << 3);
*dest++= (TUint8) ((pixel & 0x07e0) >> 3);
*dest++= (TUint8) ((pixel & 0xf800) >> 8);
*dest++ = 0xff;
}
source += sourceModulo;
dest += destModulo;
}
}
else
{
r = KErrNotSupported;
}
return r;
}
/**
Post process a received YUV422 image.
@return KErrNone if write was successful, otherwise one of the other system wide error codes.
*/
TInt TCamDisplayHandler::ProcessYUV422(TUint8* aImageBaseAddress)
{
TUint16* dest16 = (TUint16*) iVideoAddress;
TUint32* dest32 = (TUint32*) iVideoAddress;
TUint8* source = aImageBaseAddress;
TInt y, u, v, r, g, b, sourceModulo, destModulo, width, height;
TInt retVal = KErrNone;
// Determine whether the screen or the picture to display is the widest, and calculate modulos
// and clipping sizes appropriately
if (iWidth < iScreenWidth)
{
width = (iWidth / 2);
sourceModulo = 0;
destModulo = (iScreenWidth - iWidth);
}
else
{
width = (iScreenWidth / 2);
sourceModulo = ((iWidth - iScreenWidth) * 2);
destModulo = 0;
}
// Determine whether the screen or the picture to display is the highest
height = (iHeight < iScreenHeight) ? iHeight : iScreenHeight;
// Only 16 and 32 bits per pixel are supported. It is also assumed that 16 bit will be RGB565 and
// 32 bit will be BGRA. You will need to add support for new formats if required
if ((iBitsPerPixel == 16) || (iBitsPerPixel == 32))
{
// Loop around and convert whatever part of the picture will fit onto the screen into RGB565 or BGRA,
// writing it directly onto the screen
for (TInt line = 0; line < height; ++line)
{
for (TInt x = 0; x < width; ++x)
{
u = (source[0] - 128);
v = (source[2] - 128);
y = (source[3] - 16);
r = ((298 * y + 409 * u) / 256);
g = ((298 * y - 100 * v - 208 * u) / 256);
b = ((298 * y + 516 * v) / 256);
CLIP(r);
CLIP(g);
CLIP(b);
if (iBitsPerPixel == 16)
{
*dest16++ = (TUint16) (((b & 0xf8) << 8) | ((g & 0xfc) << 3) | ((r & 0xf8) >> 3));
}
else
{
*dest32++ = (0xff000000 | (r << 16) | (g << 8) | b);
}
y = (source[1] - 16);
r = ((298 * y + 409 * u) / 256);
g = ((298 * y - 100 * v - 208 * u) / 256);
b = ((298 * y + 516 * v) / 256);
CLIP(r);
CLIP(g);
CLIP(b);
if (iBitsPerPixel == 16)
{
*dest16++ = (TUint16) (((b & 0xf8) << 8) | ((g & 0xfc) << 3) | ((r & 0xf8) >> 3));
}
else
{
*dest32++ = (0xff000000 | (r << 16) | (g << 8) | b);
}
source += 4;
}
source += sourceModulo;
dest16 += destModulo;
dest32 += destModulo;
}
}
else
{
retVal = KErrNotSupported;
}
return retVal;
}
/**
Appends a string representing a pixel format UID onto a descriptor.
@param aBuffer Reference to the descriptor into which to append the string. It is up to the
caller to ensure that this is large enough.
@param aPixelFormat UID of the pixel format to be converted into a string.
*/
void AppendPixelFormat(TDes& aBuffer, TUidPixelFormat aPixelFormat)
{
if (aPixelFormat == EUidPixelFormatRGB_565)
aBuffer.Append(KPixelFormatRGB_565);
else if (aPixelFormat == EUidPixelFormatYUV_422Interleaved)
aBuffer.Append(KPixelFormatYUV_422Interleaved);
else if (aPixelFormat == EUidPixelFormatSpeedTaggedJPEG)
aBuffer.Append(KPixelFormatSpeedTaggedJPEG);
else if (aPixelFormat == EUidPixelFormatJPEG)
aBuffer.Append(KPixelFormatJPEG);
else
aBuffer.Append(KPixelFormatUnknown);
}
void PrintCamModes(TCameraCapsV02* aCaps,RTest& aTest)
{
TBuf<80> buf;
// Display the supported capture modes
buf.Zero();
buf.Append(KCaptureModeCapsTitle);
if (aCaps->iNumImagePixelFormats)
buf.Append(KCaptureModeImage);
if (aCaps->iNumVideoPixelFormats)
buf.Append(KCaptureModeVideo);
if (aCaps->iNumViewFinderPixelFormats)
buf.Append(KCaptureModeViewFinder);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
// Display the supported video pixel formats
TUint i;
SDevCamPixelFormat* pixelFormat;
if (aCaps->iNumImagePixelFormats)
{
buf.Zero();
buf.Append(KPixelFormatCapsTitle);
buf.Append(KCaptureModeImage);
pixelFormat = (SDevCamPixelFormat*) (aCaps + 1);
for (i = 0; i < aCaps->iNumImagePixelFormats; i++)
{
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
pixelFormat++;
}
buf.Append(_L("\r\n"));
aTest.Printf(buf);
}
if (aCaps->iNumVideoPixelFormats)
{
buf.Zero();
buf.Append(KPixelFormatCapsTitle);
buf.Append(KCaptureModeVideo);
pixelFormat = (SDevCamPixelFormat*) (aCaps + 1);
for (i = aCaps->iNumImagePixelFormats; i < (aCaps->iNumImagePixelFormats + aCaps->iNumVideoPixelFormats); i++)
{
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
pixelFormat++;
}
buf.Append(_L("\r\n"));
aTest.Printf(buf);
}
if (aCaps->iNumViewFinderPixelFormats)
{
buf.Zero();
buf.Append(KPixelFormatCapsTitle);
buf.Append(KCaptureModeViewFinder);
pixelFormat = (SDevCamPixelFormat*) (aCaps + 1);
i = aCaps->iNumImagePixelFormats + aCaps->iNumImagePixelFormats + 1;
for (i = aCaps->iNumImagePixelFormats + aCaps->iNumVideoPixelFormats; i < (aCaps->iNumImagePixelFormats + aCaps->iNumVideoPixelFormats + aCaps->iNumViewFinderPixelFormats); i++)
{
AppendPixelFormat(buf, pixelFormat->iPixelFormat);
pixelFormat++;
}
buf.Append(_L("\r\n"));
aTest.Printf(buf);
}
}
void PrintCamConf(TCameraConfigV02& aConf,RTest& aTest)
{
TBuf<80> buf;
// Display the current frame size
buf.Zero();
buf.Append(KFrameSizeConfTitle);
buf.AppendFormat(KFrameSize, aConf.iFrameSize.iWidth, aConf.iFrameSize.iHeight);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
// Display the current pixel format
buf.Zero();
buf.Append(KPixelFormatConfTitle);
AppendPixelFormat(buf, aConf.iPixelFormat.iPixelFormat);
buf.Append(_L("\r\n"));
aTest.Printf(buf);
// Display the current frame rate
buf.Zero();
buf.Format(_L("Current frame rate : %d fps\r\n"),aConf.iFrameRate);
aTest.Printf(buf);
}
void PrintBufferConf(TMmSharedChunkBufConfig& aBufConf,RTest& aTest)
{
TBuf<80> buf(0);
SBufSpecList* tempSpec = aBufConf.iSpec;
// Display the buffer configuration
buf.Format(_L("Buffer Config : NumBufs:%d Size:%xH\r\n"),aBufConf.iNumBuffers,aBufConf.iBufferSizeInBytes);
aTest.Printf(buf);
if (aBufConf.iFlags & KScFlagBufOffsetListInUse)
{
buf.Format(_L(" Offsets[%08xH,%08xH,%08xH,%08xH]\r\n"),tempSpec[0].iBufferOffset,tempSpec[1].iBufferOffset,tempSpec[2].iBufferOffset,tempSpec[3].iBufferOffset);
aTest.Printf(buf);
buf.Format(_L(" Offsets[%08xH,%08xH,%08xH,%08xH]\r\n"),tempSpec[4].iBufferOffset,tempSpec[5].iBufferOffset,tempSpec[6].iBufferOffset,tempSpec[7].iBufferOffset);
aTest.Printf(buf);
}
}