// 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:
//
#include "BMCONV.H"
BitmapLoader::BitmapLoader():
iNumBmpColors(0),
iBmpColors(NULL),
iBmpBits(NULL),
iAlphaBits(NULL)
{}
BitmapLoader::~BitmapLoader()
{
delete [] iBmpColors;
delete [] iBmpBits;
delete [] iAlphaBits;
}
int BitmapLoader::LoadBitmap(char* aFileName,int aBpp,TBitmapColor aColor,SEpocBitmapHeader*& aPbm)
{
char sig[2];
#if defined(__MSVCDOTNET__) || defined(__LINUX__) || defined(__TOOLS2__)
fstream file(aFileName, ios::in | ios::binary);
#else //!__MSVCDOTNET__
fstream file(aFileName, ios::in | ios::binary | ios::nocreate);
#endif //__MSVCDOTNET__
if (file.is_open()==0)
return Files;
file.read(sig,2);
file.close();
if (file.gcount()!=2)
return SourceFile ;
if (sig[0]!='B'||sig[1]!='M')
return SourceFile;
int ret = DoLoad(aFileName);
if (!ret && aColor==EColorBitmapAlpha)
{
int fileNameLen = strlen(aFileName);
char* alphaFileName = new char[fileNameLen + 7];// -alpha suffix is 6 chars, plus NUL termination
if (alphaFileName == NULL)
return NoMemory;
int dotPos = -1;
for (int i = 0; i < fileNameLen; ++i)
if (aFileName[i]=='.')
dotPos=i;
int prefixLen = (dotPos>=0?dotPos:fileNameLen);
memcpy(alphaFileName,aFileName,prefixLen);
const char* suffix = "-alpha";
memcpy(alphaFileName+prefixLen,suffix,6);
if (dotPos>=0)
memcpy(alphaFileName+prefixLen+6,aFileName+dotPos,fileNameLen-dotPos);
*(alphaFileName + fileNameLen + 6) = '\0';
ret = DoLoadAlpha(alphaFileName); // overlay alpha data from separate file
delete [] alphaFileName;
}
if (!ret)
ret = DoConvert(aBpp,aColor,aPbm);
return ret;
}
int BitmapLoader::DoLoad(char* aFileName)
{
#if defined(__MSVCDOTNET__) || defined(__TOOLS2__)
fstream file(aFileName, ios::in | ios::binary);
#else //!__MSVCDOTNET__
fstream file(aFileName, ios::in | ios::binary | ios::nocreate);
#endif //__MSVCDOTNET__
if (file.is_open()==0)
return Files;
TBitmapFileHeader bmpfile;
long size=sizeof(TBitmapFileHeader);
file.read((char *)&bmpfile,size);
if (file.gcount()!=size)
return SourceFile;
size=sizeof(TBitmapInfoHeader);
file.read((char *)&iBmpHeader,size);
if (file.gcount()!=size)
return SourceFile;
if (iBmpHeader.biCompression != 0)
return UnknownCompression;
size=bmpfile.bfSize-sizeof(TBitmapInfoHeader)-sizeof(TBitmapFileHeader);
long bitcount=iBmpHeader.biBitCount;
long colors=iBmpHeader.biClrUsed;
if (colors==0)
{
if (bitcount==24)
iNumBmpColors=0;
else if (bitcount==32)
iNumBmpColors=0;//See MSDN - BITMAPFILEHEADER and BITMAPINFOHEADER structures.
//If biCompression is 0 - we don't have TRgbQuad array!
else
iNumBmpColors=1<<bitcount;
}
else
iNumBmpColors=colors;
if (iNumBmpColors > 256)
return SourceFile;
if (iNumBmpColors>0)
{
iBmpColors = new TRgbQuad[iNumBmpColors];
if (iBmpColors == NULL)
return NoMemory;
memset(iBmpColors,0,iNumBmpColors*sizeof(TRgbQuad));
}
size-=iNumBmpColors*sizeof(TRgbQuad);
iBmpBits = new char[size];
if (iBmpBits == NULL)
return NoMemory;
memset(iBmpBits,0xff,size);
// DEF102183: Graphics tools fail to run after building with MS VC8.
if(iBmpColors != NULL)
{
file.read((char *)iBmpColors,iNumBmpColors*sizeof(TRgbQuad));
if (file.gcount()!=(int)(iNumBmpColors*sizeof(TRgbQuad)))
return SourceFile;
}
file.read(iBmpBits,size);
file.close();
if (file.gcount()!=size)
return SourceFile;
return NoError;
}
int BitmapLoader::DoLoadAlpha(char* aAlphaFileName)
{
#if defined(__MSVCDOTNET__) || defined(__TOOLS2__)
fstream file(aAlphaFileName, ios::in | ios::binary);
#else //!__MSVCDOTNET__
fstream file(aAlphaFileName, ios::in | ios::binary | ios::nocreate);
#endif //__MSVCDOTNET__
if (file.is_open()==0)
return AlphaFiles;
TBitmapFileHeader alphaBmpfile;
long size=sizeof(TBitmapFileHeader);
file.read((char *)&alphaBmpfile,size);
if (file.gcount()!=size)
return SourceFile;
size=sizeof(TBitmapInfoHeader);
TBitmapInfoHeader alphaBmpInfo;
file.read((char *)&alphaBmpInfo,size);
if (file.gcount()!=size)
return SourceFile;
if (alphaBmpInfo.biCompression != 0)
return UnknownCompression;
if (alphaBmpInfo.biWidth != iBmpHeader.biWidth || alphaBmpInfo.biHeight != iBmpHeader.biHeight)
return AlphaDimensions;
if (alphaBmpInfo.biBitCount != 8)
return AlphaBpp;
size=alphaBmpfile.bfSize-sizeof(TBitmapInfoHeader)-sizeof(TBitmapFileHeader);
long numBmpColors=alphaBmpInfo.biClrUsed;
if (numBmpColors == 0)
numBmpColors = 256;
if (numBmpColors != 256)
return SourceFile;
size-=numBmpColors*sizeof(TRgbQuad);
iAlphaBits = new char[size];
if (iAlphaBits == NULL)
{
return NoMemory;
}
memset(iAlphaBits,0xff,size);
char* bmpColors = new char[numBmpColors*sizeof(TRgbQuad)];
file.read((char *)bmpColors,numBmpColors*sizeof(TRgbQuad));
delete [] bmpColors; // we aren't interested in the palette data for the 8bpp grayscale alpha bmp
if (file.gcount()!=(int)(numBmpColors*sizeof(TRgbQuad)))
return SourceFile;
file.read(iAlphaBits,size);
file.close();
if (file.gcount()!=size)
return SourceFile;
return NoError;
}
TRgb BitmapLoader::GetBmpPixel(long aXCoord,long aYCoord)
{
TRgb darkgray(128,128,128);
TRgb darkgrayex(127,127,127);
TRgb lightgray(192,192,192);
TRgb lightgrayex(187,187,187);
unsigned char col;
TRgb color;
switch(iBmpHeader.biBitCount)
{
case 1:
col=iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*(((iBmpHeader.biWidth+31)>>5)<<2)+(aXCoord>>3)];
col&=(0x80>>(aXCoord%8));
if (iBmpColors)
{
TRgbQuad rgbq;
if (col)
rgbq = iBmpColors[1];
else
rgbq = iBmpColors[0];
color = TRgb(rgbq.iRed,rgbq.iGreen,rgbq.iBlue);
}
else
{
if (col)
color = TRgb(0x00ffffff);
else
color = TRgb(0);
}
break;
case 4:
col=iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*(((iBmpHeader.biWidth+7)>>3)<<2)+(aXCoord>>1)];
if (aXCoord%2==0)
col=(unsigned char)(col>>4);
col&=0x0f;
if (iBmpColors)
{
TRgbQuad rgbq = iBmpColors[col];
color = TRgb(rgbq.iRed,rgbq.iGreen,rgbq.iBlue);
}
else
{
col *= 17;
color = TRgb(col,col,col);
}
break;
case 8:
col=iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*((iBmpHeader.biWidth+3)&~3)+aXCoord];
if (iBmpColors)
{
TRgbQuad rgbq = iBmpColors[col];
color = TRgb(rgbq.iRed,rgbq.iGreen,rgbq.iBlue);
}
else
color = TRgb(col,col,col);
break;
case 16:
{
unsigned short int* wordptr = (unsigned short int*)&iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*(((iBmpHeader.biWidth+1)&~1)<<1)+(aXCoord<<1)];
color = TRgb((*wordptr&0x7c)>>10,(*wordptr&0x3e)>>5,(*wordptr&0x1f));
}
break;
case 24:
{
TRgbTriple rgbcol = *((TRgbTriple *)&(iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*((3*iBmpHeader.biWidth+3)&~3)+aXCoord+(aXCoord<<1)]));
color = TRgb(rgbcol.rgbtRed,rgbcol.rgbtGreen,rgbcol.rgbtBlue);
}
break;
case 32:
{
unsigned long int* dwordptr = (unsigned long int*)&iBmpBits[(iBmpHeader.biHeight-aYCoord-1)*((iBmpHeader.biWidth)<<2)+(aXCoord<<2)];
color = TRgb((*dwordptr&0xff0000)>>16,(*dwordptr&0xff00)>>8,*dwordptr&0xff);
}
break;
default:
break;
}
if (color == darkgray)
color = darkgrayex;
else if (color == lightgray)
color = lightgrayex;
return color;
}
unsigned char BitmapLoader::GetAlphaPixel(long aXCoord,long aYCoord)
{
return iAlphaBits[(iBmpHeader.biHeight-aYCoord-1)*((iBmpHeader.biWidth+3)&~3)+aXCoord];
}
int BitmapLoader::DoConvert(int aBpp,TBitmapColor aColor,SEpocBitmapHeader*& aPbm)
{
bool useAlpha = (aColor==EColorBitmapAlpha || aColor==EColorBitmapAlphaPM);
long desttwipswidth = 0;
long desttwipsheight = 0;
long bytewidth = BitmapUtils::ByteWidth(iBmpHeader.biWidth,aBpp);
long destlength = iBmpHeader.biHeight * bytewidth;
if (iBmpHeader.biXPelsPerMeter>0)
desttwipswidth = iBmpHeader.biWidth*1440000/254/iBmpHeader.biXPelsPerMeter;
if (iBmpHeader.biYPelsPerMeter>0)
desttwipsheight = iBmpHeader.biHeight*1440000/254/iBmpHeader.biYPelsPerMeter;
aPbm = (SEpocBitmapHeader*)new char[sizeof(SEpocBitmapHeader) + destlength];
if (aPbm == NULL)
return NoMemory;
memset(aPbm,0,sizeof(SEpocBitmapHeader));
// aBitmap->iByteWidth = bytewidth;
// aBitmap->iDataOffset = sizeof(Bitmap);
aPbm->iBitmapSize = sizeof(SEpocBitmapHeader) + destlength;
aPbm->iStructSize = sizeof(SEpocBitmapHeader);
aPbm->iWidthInPixels = iBmpHeader.biWidth;
aPbm->iHeightInPixels = iBmpHeader.biHeight;
aPbm->iWidthInTwips = desttwipswidth;
aPbm->iHeightInTwips = desttwipsheight;
aPbm->iBitsPerPixel = aBpp;
aPbm->iColor = aColor;
aPbm->iPaletteEntries = 0;
aPbm->iCompression = ENoBitmapCompression;
char* pbmBits = ((char*)aPbm) + sizeof(SEpocBitmapHeader);
memset(pbmBits,0xff,destlength);
long col = 0;
char* pixadd = 0;
switch(aBpp)
{
case 1:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
col=color.Gray2();
pixadd=&(pbmBits[ycrd*bytewidth+(xcrd>>3)]);
(*pixadd)&=~(1<<((xcrd&7)));
(*pixadd)|=(unsigned char)(col<<(xcrd&7));
}
}
break;
case 2:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
col=color.Gray4();
pixadd=&(pbmBits[ycrd*bytewidth+(xcrd>>2)]);
(*pixadd)&=~(0x3<<(2*(xcrd%4)));
(*pixadd)|=(unsigned char)(col<<(2*(xcrd%4)));
}
}
break;
case 4:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
if (aColor == EMonochromeBitmap)
col = color.Gray16();
else
col = color.Color16();
pixadd=&(pbmBits[ycrd*bytewidth+(xcrd>>1)]);
if (xcrd%2!=0)
*pixadd=(unsigned char)((unsigned char)((col<<4)|(*pixadd&0x0f)));
else
*pixadd=(unsigned char)((unsigned char)(col|(*pixadd&0xf0)));
}
}
break;
case 8:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
if (aColor == EMonochromeBitmap)
col = color.Gray256();
else
col = color.Color256();
pixadd=&(pbmBits[ycrd*((iBmpHeader.biWidth+3)&~3)+xcrd]);
*pixadd=(unsigned char)col;
}
}
break;
case 12:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
col=color.Color4K();
pixadd=&(pbmBits[ycrd*bytewidth+(xcrd<<1)]);
unsigned short* wordadd=(unsigned short*)pixadd;
*wordadd=(unsigned short)col;
}
}
break;
case 16:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb color=GetBmpPixel(xcrd,ycrd);
col=color.Color64K();
pixadd=&(pbmBits[ycrd*bytewidth+(xcrd<<1)]);
unsigned short* wordadd=(unsigned short*)pixadd;
*wordadd=(unsigned short)col;
}
}
break;
case 24:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
{
unsigned char* bytePtr = (unsigned char*)&pbmBits[ycrd*bytewidth];
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb col = GetBmpPixel(xcrd,ycrd);
*bytePtr++ = (unsigned char) col.iBlue;
*bytePtr++ = (unsigned char) col.iGreen;
*bytePtr++ = (unsigned char) col.iRed;
}
}
}
break;
case 32:
{
for(long ycrd=0;ycrd<iBmpHeader.biHeight;ycrd++)
{
unsigned char* bytePtr = (unsigned char*)&pbmBits[ycrd*bytewidth];
for(long xcrd=0;xcrd<iBmpHeader.biWidth;xcrd++)
{
TRgb col = GetBmpPixel(xcrd,ycrd);
unsigned char alpha = useAlpha?GetAlphaPixel(xcrd,ycrd):(unsigned char)0;
*bytePtr++ = (unsigned char) col.iBlue;
*bytePtr++ = (unsigned char) col.iGreen;
*bytePtr++ = (unsigned char) col.iRed;
*bytePtr++ = alpha;
}
}
}
break;
};
return NoError;
}