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windows-nt-4.0/private/ntos/w32/ntgdi/direct/blitlib/blt8a24p.cxx

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#include "precomp.hxx"
void Blt08Ato24P_NoBlend_NoTrans_Hcopy_SRCCOPY_Vcopy(
BYTE* pbSrcScanLine,
int iSrcScanStride,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel,
*ptEndDstPixel;
BYTE *pbEndDstScanLine;
UINT uiAlpha,
uiAlphaComp;
DWORD dwTemp;
// set up pointer to next dst scanline beyond last
pbEndDstScanLine = pbDstScanLine + iNumDstRows * iDstScanStride;
while (pbDstScanLine != pbEndDstScanLine) {
// set up pointers to the first pixels
// on src and dst scanlines, and next
// pixel after last on dst scanline
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
ptEndDstPixel = ptDstPixel + iNumDstCols;
// copy scanline one pixel at a time
while (ptDstPixel != ptEndDstPixel) {
dwTemp = (DWORD) rgcrColor[*pbSrcPixel++];
uiAlpha = (UINT)((*pbSrcPixel++) + 1);
uiAlphaComp = 256 - uiAlpha;
BlitLib_BLIT_BLEND24(dwTemp, ptDstPixel++,
uiAlpha, uiAlphaComp);
}
// advance to next scanline
pbSrcScanLine += iSrcScanStride;
pbDstScanLine += iDstScanStride;
}
}
void Blt08Ato24P_NoBlend_NoTrans_Hcopy_SRCCOPY_NoVcopy(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel,
*ptEndDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance;
UINT uiAlpha,
uiAlphaComp;
DWORD dwTemp;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
for (int i = 0; i < iNumDstRows; i++) {
// set up pointers to first pixels on src and dst
// scanlines, and next pixel after last on dst
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
ptEndDstPixel = ptDstPixel + iNumDstCols;
// copy scanline one pixel at a time
while (ptDstPixel != ptEndDstPixel) {
dwTemp = (DWORD) rgcrColor[*pbSrcPixel++];
uiAlpha = (UINT)((*pbSrcPixel++) + 1);
uiAlphaComp = 256 - uiAlpha;
BlitLib_BLIT_BLEND24(dwTemp, ptDstPixel++,
uiAlpha, uiAlphaComp);
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_NoBlend_NoTrans_NoHcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcCols,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
int iHorizMirror,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance,
iHorizError,
iHorizAdvanceError,
iSrcPixelAdvance;
UINT uiAlpha,
uiAlphaComp;
DWORD dwTemp;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
// compute advance and error terms for stepping
// horizontally through src bitmap
if (iNumSrcCols < iNumDstCols) {
iSrcPixelAdvance = 0;
iHorizAdvanceError = iNumSrcCols;
} else {
iSrcPixelAdvance = iNumSrcCols / iNumDstCols;
iHorizAdvanceError = iNumSrcCols % iNumDstCols;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to the beginning of src and dst scanlines,
// clear horizontal stepping error accumulator
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
iHorizError = 0;
for (int j = 0; j < iNumDstCols; j++) {
// copy a pixel
dwTemp = (DWORD) rgcrColor[*pbSrcPixel];
uiAlpha = (UINT)(*(pbSrcPixel + 1) + 1);
uiAlphaComp = 256 - uiAlpha;
BlitLib_BLIT_BLEND24(dwTemp, ptDstPixel, uiAlpha, uiAlphaComp);
// advance to next pixel
pbSrcPixel += (iSrcPixelAdvance * 2);
ptDstPixel += iHorizMirror;
// update and check horizontal stepping error,
// adjust src pixel pointer if necessary
iHorizError += iHorizAdvanceError;
if (iHorizError >= iNumDstCols) {
pbSrcPixel += 2;
iHorizError -= iNumDstCols;
}
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_NoBlend_Trans_Hcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
BYTE bTransparentIndex,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance;
UINT uiAlpha,
uiAlphaComp;
DWORD dwTemp;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to beginning of src and dest scanlines
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
for (int j = 0; j < iNumDstCols; j++) {
// only copy pixel if it's not transparent
if (*pbSrcPixel != bTransparentIndex) {
dwTemp = (DWORD) rgcrColor[*pbSrcPixel];
uiAlpha = (UINT)(*(pbSrcPixel + 1) + 1);
uiAlphaComp = 256 - uiAlpha;
BlitLib_BLIT_BLEND24(dwTemp, ptDstPixel,
uiAlpha, uiAlphaComp);
}
pbSrcPixel += 2;
ptDstPixel++;
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_NoBlend_Trans_NoHcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcCols,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
int iHorizMirror,
BYTE bTransparentIndex,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance,
iHorizError,
iHorizAdvanceError,
iSrcPixelAdvance;
UINT uiAlpha,
uiAlphaComp;
DWORD dwTemp;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
// compute advance and error terms for stepping
// horizontally through src bitmap
if (iNumSrcCols < iNumDstCols) {
iSrcPixelAdvance = 0;
iHorizAdvanceError = iNumSrcCols;
} else {
iSrcPixelAdvance = iNumSrcCols / iNumDstCols;
iHorizAdvanceError = iNumSrcCols % iNumDstCols;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to the beginning of src and dst scanlines,
// clear horizontal stepping error accumulator
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
iHorizError = 0;
for (int j = 0; j < iNumDstCols; j++) {
// only copy pixel if it's not transparent
if (*pbSrcPixel != bTransparentIndex) {
dwTemp = (DWORD) rgcrColor[*pbSrcPixel];
uiAlpha = (UINT)(*(pbSrcPixel + 1) + 1);
uiAlphaComp = 256 - uiAlpha;
BlitLib_BLIT_BLEND24(dwTemp, ptDstPixel,
uiAlpha, uiAlphaComp);
}
// advance to next pixel
pbSrcPixel += (iSrcPixelAdvance * 2);
ptDstPixel += iHorizMirror;
// update and check horizontal stepping error,
// adjust src pixel pointer if necessary
iHorizError += iHorizAdvanceError;
if (iHorizError >= iNumDstCols) {
pbSrcPixel += 2;
iHorizError -= iNumDstCols;
}
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_Blend_NoTrans_Hcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
ALPHAREF arAlpha,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel,
*ptEndDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance;
UINT uiAlpha = (UINT)ALPHAFROMDWORD(arAlpha),
uiAlphaComp = 256 - uiAlpha;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
for (int i = 0; i < iNumDstRows; i++) {
// set up pointers to first pixels on src and dst
// scanlines, and next pixel after last on dst
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
ptEndDstPixel = ptDstPixel + iNumDstCols;
// copy scanline one pixel at a time
while (ptDstPixel != ptEndDstPixel) {
BlitLib_BLIT_BLEND24(rgcrColor[*pbSrcPixel++], ptDstPixel++,
uiAlpha, uiAlphaComp);
pbSrcPixel++;
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_Blend_NoTrans_NoHcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcCols,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
int iHorizMirror,
ALPHAREF arAlpha,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance,
iHorizError,
iHorizAdvanceError,
iSrcPixelAdvance;
UINT uiAlpha = (UINT)ALPHAFROMDWORD(arAlpha),
uiAlphaComp = 256 - uiAlpha;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
// compute advance and error terms for stepping
// horizontally through src bitmap
if (iNumSrcCols < iNumDstCols) {
iSrcPixelAdvance = 0;
iHorizAdvanceError = iNumSrcCols;
} else {
iSrcPixelAdvance = iNumSrcCols / iNumDstCols;
iHorizAdvanceError = iNumSrcCols % iNumDstCols;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to the beginning of src and dst scanlines,
// clear horizontal stepping error accumulator
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
iHorizError = 0;
for (int j = 0; j < iNumDstCols; j++) {
// copy a pixel
BlitLib_BLIT_BLEND24(rgcrColor[*pbSrcPixel], ptDstPixel,
uiAlpha, uiAlphaComp);
// advance to next pixel
pbSrcPixel += (iSrcPixelAdvance * 2); // this one's 16bpp
ptDstPixel += iHorizMirror;
// update and check horizontal stepping error,
// adjust src pixel pointer if necessary
iHorizError += iHorizAdvanceError;
if (iHorizError >= iNumDstCols) {
pbSrcPixel += 2; // this one's 16bpp
iHorizError -= iNumDstCols;
}
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_Blend_Trans_Hcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
BYTE bTransparentIndex,
ALPHAREF arAlpha,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance;
UINT uiAlpha = (UINT)ALPHAFROMDWORD(arAlpha),
uiAlphaComp = 256 - uiAlpha;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to beginning of src and dest scanlines
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
for (int j = 0; j < iNumDstCols; j++) {
// only copy pixel if it's not transparent
if (*pbSrcPixel != bTransparentIndex) {
BlitLib_BLIT_BLEND24(rgcrColor[*pbSrcPixel], ptDstPixel,
uiAlpha, uiAlphaComp);
}
pbSrcPixel += 2; // this one's 16bpp
ptDstPixel++;
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}
void Blt08Ato24P_Blend_Trans_NoHcopy_SRCCOPY(
BYTE* pbSrcScanLine,
int iSrcScanStride,
int iNumSrcCols,
int iNumSrcRows,
BYTE* pbDstScanLine,
int iDstScanStride,
int iNumDstCols,
int iNumDstRows,
int iHorizMirror,
BYTE bTransparentIndex,
ALPHAREF arAlpha,
COLORREF* rgcrColor)
{
BYTE *pbSrcPixel;
RGBTRIPLE *ptDstPixel;
int iVertError = 0,
iVertAdvanceError,
iSrcScanAdvance,
iHorizError,
iHorizAdvanceError,
iSrcPixelAdvance;
UINT uiAlpha = (UINT)ALPHAFROMDWORD(arAlpha),
uiAlphaComp = 256 - uiAlpha;
// compute advance and error terms for stepping
// vertically through the src bitmap
if (iNumSrcRows < iNumDstRows) {
iSrcScanAdvance = 0;
iVertAdvanceError = iNumSrcRows;
} else {
iSrcScanAdvance = iSrcScanStride * (iNumSrcRows / iNumDstRows);
iVertAdvanceError = iNumSrcRows % iNumDstRows;
}
// compute advance and error terms for stepping
// horizontally through src bitmap
if (iNumSrcCols < iNumDstCols) {
iSrcPixelAdvance = 0;
iHorizAdvanceError = iNumSrcCols;
} else {
iSrcPixelAdvance = iNumSrcCols / iNumDstCols;
iHorizAdvanceError = iNumSrcCols % iNumDstCols;
}
for (int i = 0; i < iNumDstRows; i++) {
// set pointers to the beginning of src and dst scanlines,
// clear horizontal stepping error accumulator
pbSrcPixel = pbSrcScanLine;
ptDstPixel = (RGBTRIPLE *)pbDstScanLine;
iHorizError = 0;
for (int j = 0; j < iNumDstCols; j++) {
// only copy pixel if it's not transparent
if (*pbSrcPixel != bTransparentIndex) {
BlitLib_BLIT_BLEND24(rgcrColor[*pbSrcPixel], ptDstPixel,
uiAlpha, uiAlphaComp);
}
// advance to next pixel
pbSrcPixel += (iSrcPixelAdvance * 2); // this one's 16bpp
ptDstPixel += iHorizMirror;
// update and check horizontal stepping error,
// adjust src pixel pointer if necessary
iHorizError += iHorizAdvanceError;
if (iHorizError >= iNumDstCols) {
pbSrcPixel += 2; // this one's 16bpp
iHorizError -= iNumDstCols;
}
}
// advance to next scanline
pbSrcScanLine += iSrcScanAdvance;
pbDstScanLine += iDstScanStride;
// update and check vertical stepping error,
// adjust src scanline pointer if necessary
iVertError += iVertAdvanceError;
if (iVertError >= iNumDstRows) {
pbSrcScanLine += iSrcScanStride;
iVertError -= iNumDstRows;
}
}
}