/* * libeg/load_icns.c * Loading function for .icns Apple icon images * * Copyright (c) 2006 Christoph Pfisterer * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * * Neither the name of Christoph Pfisterer nor the names of the * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ //#if !defined(LODEPNG) #include "libegint.h" #ifndef DEBUG_ALL #define DEBUG_IMG 0 #else #define DEBUG_IMG DEBUG_ALL #endif #if DEBUG_IMG == 0 #define DBG(...) #else #define DBG(...) DebugLog(DEBUG_IMG, __VA_ARGS__) #endif // // Decompress .icns RLE data // VOID egDecompressIcnsRLE(IN OUT UINT8 **CompData, IN OUT UINTN *CompLen, IN UINT8 *PixelData, IN UINTN PixelCount) { UINT8 *cp; UINT8 *cp_end; UINT8 *pp; UINTN pp_left; UINTN len, i; UINT8 value; // setup variables cp = *CompData; cp_end = cp + *CompLen; pp = PixelData; pp_left = PixelCount; // decode while (cp + 1 < cp_end && pp_left > 0) { len = *cp++; if (len & 0x80) { // compressed data: repeat next byte len -= 125; if (len > pp_left) break; value = *cp++; for (i = 0; i < len; i++) { *pp = value; pp += 4; } } else { // uncompressed data: copy bytes len++; if (len > pp_left || cp + len > cp_end) break; for (i = 0; i < len; i++) { *pp = *cp++; pp += 4; } } pp_left -= len; } if (pp_left > 0) { DBG(" egDecompressIcnsRLE: still need %d bytes of pixel data\n", pp_left); } // record what's left of the compressed data stream *CompData = cp; *CompLen = (UINTN)(cp_end - cp); } // // Load Apple .icns icons // EG_IMAGE * egDecodeICNS(IN UINT8 *FileData, IN UINTN FileDataLength, IN UINTN IconSize, IN BOOLEAN WantAlpha) { EG_IMAGE *NewImage; UINT8 *Ptr, *BufferEnd, *DataPtr, *MaskPtr; UINT32 BlockLen, DataLen, MaskLen; UINTN FetchPixelSize, PixelCount, i; UINT8 *CompData; UINTN CompLen; UINT8 *SrcPtr; EG_PIXEL *DestPtr; if (FileDataLength < 8 || FileData == NULL || FileData[0] != 'i' || FileData[1] != 'c' || FileData[2] != 'n' || FileData[3] != 's') { // not an icns file... DBG("not icns\n"); return NULL; } FetchPixelSize = IconSize; for (;;) { DataPtr = NULL; DataLen = 0; MaskPtr = NULL; MaskLen = 0; Ptr = FileData + 8; BufferEnd = FileData + FileDataLength; // iterate over tagged blocks in the file while (Ptr + 8 <= BufferEnd) { BlockLen = ((UINT32)Ptr[4] << 24) + ((UINT32)Ptr[5] << 16) + ((UINT32)Ptr[6] << 8) + (UINT32)Ptr[7]; if (Ptr + BlockLen > BufferEnd) // block continues beyond end of file break; // extract the appropriate blocks for each pixel size if (FetchPixelSize == 128) { if (Ptr[0] == 'i' && Ptr[1] == 't' && Ptr[2] == '3' && Ptr[3] == '2') { if (Ptr[8] == 0 && Ptr[9] == 0 && Ptr[10] == 0 && Ptr[11] == 0) { DataPtr = Ptr + 12; DataLen = BlockLen - 12; } } else if (Ptr[0] == 't' && Ptr[1] == '8' && Ptr[2] == 'm' && Ptr[3] == 'k') { MaskPtr = Ptr + 8; MaskLen = BlockLen - 8; } } else if (FetchPixelSize == 48) { if (Ptr[0] == 'i' && Ptr[1] == 'h' && Ptr[2] == '3' && Ptr[3] == '2') { DataPtr = Ptr + 8; DataLen = BlockLen - 8; } else if (Ptr[0] == 'h' && Ptr[1] == '8' && Ptr[2] == 'm' && Ptr[3] == 'k') { MaskPtr = Ptr + 8; MaskLen = BlockLen - 8; } } else if (FetchPixelSize == 32) { if (Ptr[0] == 'i' && Ptr[1] == 'l' && Ptr[2] == '3' && Ptr[3] == '2') { DataPtr = Ptr + 8; DataLen = BlockLen - 8; } else if (Ptr[0] == 'l' && Ptr[1] == '8' && Ptr[2] == 'm' && Ptr[3] == 'k') { MaskPtr = Ptr + 8; MaskLen = BlockLen - 8; } } else if (FetchPixelSize == 16) { if (Ptr[0] == 'i' && Ptr[1] == 's' && Ptr[2] == '3' && Ptr[3] == '2') { DataPtr = Ptr + 8; DataLen = BlockLen - 8; } else if (Ptr[0] == 's' && Ptr[1] == '8' && Ptr[2] == 'm' && Ptr[3] == 'k') { MaskPtr = Ptr + 8; MaskLen = BlockLen - 8; } } Ptr += BlockLen; } //TODO - take different larger size if not found // FUTURE: try to load a different size and scale it later if (DataPtr == NULL && FetchPixelSize == 128) { FetchPixelSize = 32; continue; } break; } if (DataPtr == NULL) { DBG("not found such IconSize\n"); return NULL; // no image found } // allocate image structure and buffer NewImage = egCreateImage(FetchPixelSize, FetchPixelSize, WantAlpha); if (NewImage == NULL) return NULL; PixelCount = FetchPixelSize * FetchPixelSize; if (DataLen < PixelCount * 3) { // pixel data is compressed, RGB planar CompData = DataPtr; CompLen = DataLen; egDecompressIcnsRLE(&CompData, &CompLen, &NewImage->PixelData->r, PixelCount); egDecompressIcnsRLE(&CompData, &CompLen, &NewImage->PixelData->g, PixelCount); egDecompressIcnsRLE(&CompData, &CompLen, &NewImage->PixelData->b, PixelCount); // possible assertion: CompLen == 0 if (CompLen > 0) { DBG(" egLoadICNSIcon: %d bytes of compressed data left\n", CompLen); } } else { // pixel data is uncompressed, RGB interleaved SrcPtr = DataPtr; DestPtr = NewImage->PixelData; for (i = 0; i < PixelCount; i++, DestPtr++) { DestPtr->r = *SrcPtr++; DestPtr->g = *SrcPtr++; DestPtr->b = *SrcPtr++; } } // Jief : not sure where they should define TODO ! extern VOID egInsertPlane(IN UINT8 *SrcDataPtr, IN UINT8 *DestPlanePtr, IN UINTN PixelCount); extern VOID egSetPlane(IN UINT8 *DestPlanePtr, IN UINT8 Value, IN UINT64 PixelCount); // add/set alpha plane if (MaskPtr != NULL && MaskLen >= PixelCount && WantAlpha) egInsertPlane(MaskPtr, &NewImage->PixelData->a, PixelCount); else egSetPlane(&NewImage->PixelData->a, WantAlpha ? 255 : 0, PixelCount); // FUTURE: scale to originally requested size if we had to load another size return NewImage; } //#endif /* EOF */