#include "precomp.hxx" void Blt08to24P_NoBlend_NoTrans_Hcopy_SRCCOPY_Vcopy( BYTE* pbSrcScanLine, int iSrcScanStride, BYTE* pbDstScanLine, int iDstScanStride, int iNumDstCols, int iNumDstRows, COLORREF* rgcrColor) { BYTE *pbSrcPixel, *pbEndDstScanLine; RGBTRIPLE *pBigDstPixel, *pBigDstEndPixel; // 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; pBigDstPixel = (RGBTRIPLE *) pbDstScanLine; pBigDstEndPixel = ((RGBTRIPLE *)pBigDstPixel) + iNumDstCols; // copy scanline one pixel at a time while (pBigDstPixel != pBigDstEndPixel) { *pBigDstPixel++ = *((RGBTRIPLE *)(&rgcrColor[*pbSrcPixel++])); } // advance to next scanline pbSrcScanLine += iSrcScanStride; pbDstScanLine += iDstScanStride; } } void Blt08to24P_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; // 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) { *ptDstPixel++ = *((RGBTRIPLE *)&rgcrColor[*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 Blt08to24P_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; // 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 *ptDstPixel = *((RGBTRIPLE *)&rgcrColor[*pbSrcPixel]); // advance to next pixel pbSrcPixel += iSrcPixelAdvance; ptDstPixel += iHorizMirror; // update and check horizontal stepping error, // adjust src pixel pointer if necessary iHorizError += iHorizAdvanceError; if (iHorizError >= iNumDstCols) { pbSrcPixel++; 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 Blt08to24P_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; // 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) { *ptDstPixel = *((RGBTRIPLE *)&rgcrColor[*pbSrcPixel]); } pbSrcPixel++; 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 Blt08to24P_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; // 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) { *ptDstPixel = *((RGBTRIPLE *)&rgcrColor[*pbSrcPixel]); } // advance to next pixel pbSrcPixel += iSrcPixelAdvance; ptDstPixel += iHorizMirror; // update and check horizontal stepping error, // adjust src pixel pointer if necessary iHorizError += iHorizAdvanceError; if (iHorizError >= iNumDstCols) { pbSrcPixel++; 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 Blt08to24P_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); } // 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 Blt08to24P_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; ptDstPixel += iHorizMirror; // update and check horizontal stepping error, // adjust src pixel pointer if necessary iHorizError += iHorizAdvanceError; if (iHorizError >= iNumDstCols) { pbSrcPixel++; 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 Blt08to24P_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++; 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 Blt08to24P_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; ptDstPixel += iHorizMirror; // update and check horizontal stepping error, // adjust src pixel pointer if necessary iHorizError += iHorizAdvanceError; if (iHorizError >= iNumDstCols) { pbSrcPixel++; 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; } } }