/* * dib2sprt.c * Copyright (C) 2000-2003 A.J. van Os; Released under GPL * * Description: * Functions to translate dib pictures into sprites */ #include #include #include "DeskLib:Error.h" #include "DeskLib:Sprite.h" #include "antiword.h" #if 0 /* defined(DEBUG) */ static int iPicCounter = 0; #endif /* DEBUG */ /* * iGetByteWidth - compute the number of bytes needed for a row of pixels */ static int iGetByteWidth(const imagedata_type *pImg) { switch (pImg->uiBitsPerComponent) { case 1: return (pImg->iWidth + 31) / 32 * sizeof(int); case 4: return (pImg->iWidth + 7) / 8 * sizeof(int); case 8: case 24: return (pImg->iWidth + 3) / 4 * sizeof(int); default: DBG_DEC(pImg->uiBitsPerComponent); return 0; } } /* end of iGetByteWidth */ /* * pCreateBlankSprite - Create a blank sprite. * * Create a blank sprite and add a palette if needed * * returns a pointer to the sprite when successful, otherwise NULL */ static sprite_areainfo * pCreateBlankSprite(const imagedata_type *pImg, size_t *pSize) { sprite_areainfo *pArea; UCHAR *pucTmp; size_t tSize; screen_modeval uMode; int iIndex, iPaletteEntries; TRACE_MSG("pCreateBlankSprite"); fail(pImg == NULL); fail(pSize == NULL); switch (pImg->uiBitsPerComponent) { case 1: uMode.screen_mode = 18; iPaletteEntries = 2; break; case 4: uMode.screen_mode = 20; iPaletteEntries = 16; break; case 8: case 24: uMode.screen_mode = 21; iPaletteEntries = 0; break; default: DBG_DEC(pImg->uiBitsPerComponent); return NULL; } fail(iPaletteEntries < 0 || iPaletteEntries > 16); /* Get memory for the sprite */ tSize = sizeof(sprite_areainfo) + Sprite_MemorySize(pImg->iWidth, pImg->iHeight, uMode, iPaletteEntries > 0 ? sprite_HASPAL : sprite_HASNOMASKPAL); DBG_DEC(tSize); pArea = xmalloc(tSize); /* Initialise sprite area */ pArea->areasize = tSize; pArea->numsprites = 0; pArea->firstoffset = sizeof(sprite_areainfo); pArea->freeoffset = sizeof(sprite_areainfo); /* Create a blank sprite */ Error_CheckFatal(Sprite_Create(pArea, "wordimage", iPaletteEntries > 0 ? 1 : 0, pImg->iWidth, pImg->iHeight, uMode)); /* Add the palette */ pucTmp = (UCHAR *)pArea + pArea->firstoffset + sizeof(sprite_header); for (iIndex = 0; iIndex < iPaletteEntries; iIndex++) { /* First color */ *pucTmp++ = 0; *pucTmp++ = pImg->aucPalette[iIndex][0]; *pucTmp++ = pImg->aucPalette[iIndex][1]; *pucTmp++ = pImg->aucPalette[iIndex][2]; /* Second color */ *pucTmp++ = 0; *pucTmp++ = pImg->aucPalette[iIndex][0]; *pucTmp++ = pImg->aucPalette[iIndex][1]; *pucTmp++ = pImg->aucPalette[iIndex][2]; } *pSize = tSize; return pArea; } /* end of pCreateBlankSprite */ /* * iReduceColor - reduce from 24 bit to 8 bit color * * Reduce 24 bit true colors to RISC OS default 256 color palette * * returns the resulting color */ static int iReduceColor(int iRed, int iGreen, int iBlue) { int iResult; iResult = (iBlue & 0x80) ? 0x80 : 0; iResult |= (iGreen & 0x80) ? 0x40 : 0; iResult |= (iGreen & 0x40) ? 0x20 : 0; iResult |= (iRed & 0x80) ? 0x10 : 0; iResult |= (iBlue & 0x40) ? 0x08 : 0; iResult |= (iRed & 0x40) ? 0x04 : 0; iResult |= ((iRed | iGreen | iBlue) & 0x20) ? 0x02 : 0; iResult |= ((iRed | iGreen | iBlue) & 0x10) ? 0x01 : 0; return iResult; } /* end of iReduceColor */ /* * vDecode1bpp - decode an uncompressed 1 bit per pixel image */ static void vDecode1bpp(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iByteWidth, iOffset, iTmp, iEighthWidth, iPadding; UCHAR ucTmp; DBG_MSG("vDecode1bpp"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); fail(pImg->iColorsUsed < 1 || pImg->iColorsUsed > 2); iByteWidth = iGetByteWidth(pImg); iEighthWidth = (pImg->iWidth + 7) / 8; iPadding = ROUND4(iEighthWidth) - iEighthWidth; for (iY = pImg->iHeight - 1; iY >= 0; iY--) { for (iX = 0; iX < iEighthWidth; iX++) { iTmp = iNextByte(pFile); if (iTmp == EOF) { return; } /* Reverse the bit order */ ucTmp = (iTmp & BIT(0)) ? (UCHAR)BIT(7) : 0; ucTmp |= (iTmp & BIT(1)) ? (UCHAR)BIT(6) : 0; ucTmp |= (iTmp & BIT(2)) ? (UCHAR)BIT(5) : 0; ucTmp |= (iTmp & BIT(3)) ? (UCHAR)BIT(4) : 0; ucTmp |= (iTmp & BIT(4)) ? (UCHAR)BIT(3) : 0; ucTmp |= (iTmp & BIT(5)) ? (UCHAR)BIT(2) : 0; ucTmp |= (iTmp & BIT(6)) ? (UCHAR)BIT(1) : 0; ucTmp |= (iTmp & BIT(7)) ? (UCHAR)BIT(0) : 0; iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = ucTmp; } (void)tSkipBytes(pFile, iPadding); } } /* end of vDecode1bpp */ /* * vDecode4bpp - decode an uncompressed 4 bits per pixel image */ static void vDecode4bpp(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iByteWidth, iOffset, iTmp, iHalfWidth, iPadding; UCHAR ucTmp; DBG_MSG("vDecode4bpp"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); fail(pImg->iColorsUsed < 1 || pImg->iColorsUsed > 16); iByteWidth = iGetByteWidth(pImg); iHalfWidth = (pImg->iWidth + 1) / 2; iPadding = ROUND4(iHalfWidth) - iHalfWidth; for (iY = pImg->iHeight - 1; iY >= 0; iY--) { for (iX = 0; iX < iHalfWidth; iX++) { iTmp = iNextByte(pFile); if (iTmp == EOF) { return; } /* Reverse the nibble order */ ucTmp = (iTmp & 0xf0) >> 4; ucTmp |= (iTmp & 0x0f) << 4; iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = ucTmp; } (void)tSkipBytes(pFile, iPadding); } } /* end of vDecode4bpp */ /* * vDecode8bpp - decode an uncompressed 8 bits per pixel image */ static void vDecode8bpp(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iByteWidth, iOffset, iIndex, iPadding; DBG_MSG("vDecode8bpp"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); fail(pImg->iColorsUsed < 1 || pImg->iColorsUsed > 256); iByteWidth = iGetByteWidth(pImg); iPadding = ROUND4(pImg->iWidth) - pImg->iWidth; for (iY = pImg->iHeight - 1; iY >= 0; iY--) { for (iX = 0; iX < pImg->iWidth; iX++) { iIndex = iNextByte(pFile); if (iIndex == EOF) { return; } iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = iReduceColor( pImg->aucPalette[iIndex][0], pImg->aucPalette[iIndex][1], pImg->aucPalette[iIndex][2]); } (void)tSkipBytes(pFile, iPadding); } } /* end of vDecode8bpp */ /* * vDecode24bpp - decode an uncompressed 24 bits per pixel image */ static void vDecode24bpp(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iTripleWidth, iByteWidth, iOffset, iPadding; int iRed, iGreen, iBlue; DBG_MSG("vDecode24bpp"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); iByteWidth = iGetByteWidth(pImg); iTripleWidth = pImg->iWidth * 3; iPadding = ROUND4(iTripleWidth) - iTripleWidth; for (iY = pImg->iHeight - 1; iY >= 0; iY--) { for (iX = 0; iX < pImg->iWidth; iX++) { iBlue = iNextByte(pFile); if (iBlue == EOF) { return; } iGreen = iNextByte(pFile); if (iGreen == EOF) { return; } iRed = iNextByte(pFile); if (iRed == EOF) { return; } iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = iReduceColor(iRed, iGreen, iBlue); } (void)tSkipBytes(pFile, iPadding); } } /* end of vDecode24bpp */ /* * vDecodeRle4 - decode a RLE compressed 4 bits per pixel image */ static void vDecodeRle4(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iByteWidth, iOffset, iTmp, iHalfWidth; int iRun, iRunLength, iHalfRun; BOOL bEOL; UCHAR ucTmp; DBG_MSG("vDecodeRle4"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); fail(pImg->iColorsUsed < 1 || pImg->iColorsUsed > 16); DBG_DEC(pImg->iWidth); DBG_DEC(pImg->iHeight); iByteWidth = iGetByteWidth(pImg); iHalfWidth = (pImg->iWidth + 1) / 2; for (iY = pImg->iHeight - 1; iY >= 0; iY--) { bEOL = FALSE; iX = 0; while (!bEOL) { iRunLength = iNextByte(pFile); if (iRunLength == EOF) { return; } if (iRunLength != 0) { /* * Encoded packet: * RunLength pixels, all the "same" value */ iTmp = iNextByte(pFile); if (iTmp == EOF) { return; } /* Reverse the nibble order */ ucTmp = (iTmp & 0xf0) >> 4; ucTmp |= (iTmp & 0x0f) << 4; iHalfRun = (iRunLength + 1) / 2; for (iRun = 0; iRun < iHalfRun; iRun++) { if (iX < iHalfWidth) { iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = ucTmp; } iX++; } continue; } /* Literal or escape */ iRunLength = iNextByte(pFile); if (iRunLength == EOF) { return; } if (iRunLength == 0) { /* End of line escape */ bEOL = TRUE; } else if (iRunLength == 1) { /* End of file escape */ return; } else if (iRunLength == 2) { /* Delta escape */ DBG_MSG("RLE4: encountered delta escape"); return; } else { /* Literal packet */ iHalfRun = (iRunLength + 1) / 2; for (iRun = 0; iRun < iHalfRun; iRun++) { iTmp = iNextByte(pFile); if (iTmp == EOF) { return; } /* Reverse the nibble order */ ucTmp = (iTmp & 0xf0) >> 4; ucTmp |= (iTmp & 0x0f) << 4; if (iX < iHalfWidth) { iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = ucTmp; } iX++; } /* Padding if the number of bytes is odd */ if (odd(iHalfRun)) { (void)tSkipBytes(pFile, 1); } } } DBG_DEC_C(iX != iHalfWidth, iX); } } /* end of vDecodeRle4 */ /* * vDecodeRle8 - decode a RLE compressed 8 bits per pixel image */ static void vDecodeRle8(FILE *pFile, UCHAR *pucData, const imagedata_type *pImg) { int iX, iY, iRun, iRunLength, iOffset, iIndex, iByteWidth; BOOL bEOL; DBG_MSG("vDecodeRle8"); fail(pFile == NULL); fail(pucData == NULL); fail(pImg == NULL); fail(pImg->iColorsUsed < 1 || pImg->iColorsUsed > 256); DBG_DEC(pImg->iWidth); DBG_DEC(pImg->iHeight); iByteWidth = iGetByteWidth(pImg); for (iY = pImg->iHeight - 1; iY >= 0; iY--) { bEOL = FALSE; iX = 0; while (!bEOL) { iRunLength = iNextByte(pFile); if (iRunLength == EOF) { return; } if (iRunLength != 0) { /* * Encoded packet: * RunLength pixels, all the same value */ iIndex = iNextByte(pFile); if (iIndex == EOF) { return; } for (iRun = 0; iRun < iRunLength; iRun++) { if (iX < pImg->iWidth) { iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = iReduceColor( pImg->aucPalette[iIndex][0], pImg->aucPalette[iIndex][1], pImg->aucPalette[iIndex][2]); } iX++; } continue; } /* Literal or escape */ iRunLength = iNextByte(pFile); if (iRunLength == EOF) { return; } if (iRunLength == 0) { /* End of line escape */ bEOL = TRUE; } else if (iRunLength == 1) { /* End of file escape */ return; } else if (iRunLength == 2) { /* Delta escape */ DBG_MSG("RLE8: encountered delta escape"); return; } else { /* Literal packet */ for (iRun = 0; iRun < iRunLength; iRun++) { iIndex = iNextByte(pFile); if (iIndex == EOF) { return; } if (iX < pImg->iWidth) { iOffset = iY * iByteWidth + iX; *(pucData + iOffset) = iReduceColor( pImg->aucPalette[iIndex][0], pImg->aucPalette[iIndex][1], pImg->aucPalette[iIndex][2]); } iX++; } /* Padding if the number of bytes is odd */ if (odd(iRunLength)) { (void)tSkipBytes(pFile, 1); } } } DBG_DEC_C(iX != pImg->iWidth, iX); } } /* end of vDecodeRle8 */ #if 0 /* defined(DEBUG) */ static void vCopy2File(UCHAR *pucSprite, size_t tSpriteSize) { FILE *pOutFile; int iIndex; char szFilename[30]; sprintf(szFilename, ".sprt%04d", ++iPicCounter); pOutFile = fopen(szFilename, "wb"); if (pOutFile == NULL) { return; } DBG_MSG(szFilename); for (iIndex = 4; iIndex < (int)tSpriteSize; iIndex++) { if (putc(pucSprite[iIndex], pOutFile) == EOF) { break; } } (void)fclose(pOutFile); vSetFiletype(szFilename, FILETYPE_SPRITE); } /* end of vCopy2File */ #endif /* DEBUG */ /* * vDecodeDIB - decode a dib picture */ static void vDecodeDIB(diagram_type *pDiag, FILE *pFile, const imagedata_type *pImg) { sprite_areainfo *pSprite; UCHAR *pucPalette, *pucData; size_t tSpriteSize; int iHeaderSize; /* Skip the bitmap info header */ iHeaderSize = (int)ulNextLong(pFile); (void)tSkipBytes(pFile, iHeaderSize - 4); /* Skip the colortable */ if (pImg->uiBitsPerComponent <= 8) { (void)tSkipBytes(pFile, pImg->iColorsUsed * ((iHeaderSize > 12) ? 4 : 3)); } /* Create an blank sprite */ pSprite = pCreateBlankSprite(pImg, &tSpriteSize); pucPalette = (UCHAR *)pSprite + pSprite->firstoffset + sizeof(sprite_header); /* Add the pixel information */ switch (pImg->uiBitsPerComponent) { case 1: fail(pImg->eCompression != compression_none); pucData = pucPalette + 2 * 8; vDecode1bpp(pFile, pucData, pImg); break; case 4: fail(pImg->eCompression != compression_none && pImg->eCompression != compression_rle4); pucData = pucPalette + 16 * 8; if (pImg->eCompression == compression_rle4) { vDecodeRle4(pFile, pucData, pImg); } else { vDecode4bpp(pFile, pucData, pImg); } break; case 8: fail(pImg->eCompression != compression_none && pImg->eCompression != compression_rle8); pucData = pucPalette + 0 * 8; if (pImg->eCompression == compression_rle8) { vDecodeRle8(pFile, pucData, pImg); } else { vDecode8bpp(pFile, pucData, pImg); } break; case 24: fail(pImg->eCompression != compression_none); pucData = pucPalette + 0 * 8; vDecode24bpp(pFile, pucData, pImg); break; default: DBG_DEC(pImg->uiBitsPerComponent); break; } #if 0 /* defined(DEBUG) */ vCopy2File((UCHAR *)pSprite, tSpriteSize); #endif /* DEBUG */ /* Add the sprite to the Draw file */ vImage2Diagram(pDiag, pImg, (UCHAR *)pSprite + pSprite->firstoffset, tSpriteSize - pSprite->firstoffset); /* Clean up before you leave */ pSprite = xfree(pSprite); } /* end of vDecodeDIB */ /* * bTranslateDIB - translate a DIB picture * * This function translates a picture from dib to sprite * * return TRUE when sucessful, otherwise FALSE */ BOOL bTranslateDIB(diagram_type *pDiag, FILE *pFile, ULONG ulFileOffset, const imagedata_type *pImg) { /* Seek to start position of DIB data */ if (!bSetDataOffset(pFile, ulFileOffset)) { return FALSE; } vDecodeDIB(pDiag, pFile, pImg); return TRUE; } /* end of bTranslateDIB */