/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ /* Based on code from xoreos https://github.com/DrMcCoy/xoreos/ * relicensed under GPLv2+ with permission from DrMcCoy and clone2727 */ #include "common/util.h" #include "common/stream.h" #include "common/textconsole.h" #include "common/error.h" #include "graphics/decoders/tga.h" namespace Graphics { TGADecoder::TGADecoder() { _colorMapSize = 0; _colorMapOrigin = 0; _colorMapLength = 0; _colorMapEntryLength = 0; _colorMap = NULL; } TGADecoder::~TGADecoder() { destroy(); } void TGADecoder::destroy() { _surface.free(); delete[] _colorMap; } bool TGADecoder::loadStream(Common::SeekableReadStream &tga) { destroy(); byte imageType, pixelDepth; bool success; success = readHeader(tga, imageType, pixelDepth); if (success) { switch (imageType) { case TYPE_BW: case TYPE_TRUECOLOR: success = readData(tga, imageType, pixelDepth); break; case TYPE_RLE_BW: case TYPE_RLE_TRUECOLOR: case TYPE_RLE_CMAP: success = readDataRLE(tga, imageType, pixelDepth); break; case TYPE_CMAP: success = readDataColorMapped(tga, imageType, pixelDepth); break; default: success = false; break; } } if (tga.err() || !success) { warning("Failed reading TGA-file"); return false; } return success; } bool TGADecoder::readHeader(Common::SeekableReadStream &tga, byte &imageType, byte &pixelDepth) { if (!tga.seek(0)) { warning("Failed reading TGA-file"); return false; } // TGAs have an optional "id" string in the header uint32 idLength = tga.readByte(); // Number of colors in the color map / palette int hasColorMap = tga.readByte(); // Image type. See header for numeric constants imageType = tga.readByte(); switch (imageType) { case TYPE_CMAP: case TYPE_TRUECOLOR: case TYPE_BW: case TYPE_RLE_CMAP: case TYPE_RLE_TRUECOLOR: case TYPE_RLE_BW: break; default: warning("Unsupported image type: %d", imageType); return false; } // Color map specifications if (hasColorMap == 0) { tga.skip(5); } else { _colorMapOrigin = tga.readUint16LE(); _colorMapLength = tga.readUint16LE(); _colorMapEntryLength = tga.readByte(); } // Origin-defintions tga.skip(2 + 2); // Image dimensions _surface.w = tga.readUint16LE(); _surface.h = tga.readUint16LE(); // Bits per pixel pixelDepth = tga.readByte(); _surface.format.bytesPerPixel = pixelDepth / 8; // Image descriptor byte imgDesc = tga.readByte(); int attributeBits = imgDesc & 0x0F; assert((imgDesc & 0x10) == 0); _originTop = (imgDesc & 0x20); // Interleaving is not handled at this point //int interleave = (imgDesc & 0xC); if (imageType == TYPE_CMAP || imageType == TYPE_RLE_CMAP) { if (pixelDepth == 8) { _format = PixelFormat::createFormatCLUT8(); } else { warning("Unsupported index-depth: %d", pixelDepth); return false; } } else if (imageType == TYPE_TRUECOLOR || imageType == TYPE_RLE_TRUECOLOR) { if (pixelDepth == 24) { _format = PixelFormat(3, 8, 8, 8, 0, 16, 8, 0, 0); } else if (pixelDepth == 32) { // HACK: According to the spec, attributeBits should determine the amount // of alpha-bits, however, as the game files that use this decoder seems // to ignore that fact, we force the amount to 8 for 32bpp files for now. _format = PixelFormat(4, 8, 8, 8, /* attributeBits */ 8, 16, 8, 0, 24); } else if (pixelDepth == 16 && imageType == TYPE_TRUECOLOR) { // 16bpp TGA is ARGB1555 _format = PixelFormat(2, 5, 5, 5, attributeBits, 10, 5, 0, 15); } else { warning("Unsupported pixel depth: %d, %d", imageType, pixelDepth); return false; } } else if (imageType == TYPE_BW || TYPE_RLE_BW) { if (pixelDepth == 8) { _format = PixelFormat(4, 8, 8, 8, 0, 16, 8, 0, 0); } else { warning("Unsupported pixel depth: %d, %d", imageType, pixelDepth); return false; } } else { warning("Unsupported image type: %d", imageType); return false; } // Skip the id string tga.skip(idLength); if (hasColorMap) { return readColorMap(tga, imageType, pixelDepth); } return true; } bool TGADecoder::readColorMap(Common::SeekableReadStream &tga, byte imageType, byte pixelDepth) { _colorMap = new byte[3 * _colorMapLength]; for (int i = 0; i < _colorMapLength * 3; i += 3) { byte r, g, b; if (_colorMapEntryLength == 32) { byte a; PixelFormat format(4, 8, 8, 8, 0, 16, 8, 0, 24); uint32 color = tga.readUint32LE(); format.colorToARGB(color, a, r, g, b); } else if (_colorMapEntryLength == 24) { r = tga.readByte(); g = tga.readByte(); b = tga.readByte(); } else if (_colorMapEntryLength == 16) { byte a; PixelFormat format(2, 5, 5, 5, 0, 10, 5, 0, 15); uint16 color = tga.readUint16LE(); format.colorToARGB(color, a, r, g, b); } else { warning("Unsupported image type: %d", imageType); r = g = b = 0; } #ifdef SCUMM_LITTLE_ENDIAN _colorMap[i] = r; _colorMap[i + 1] = g; _colorMap[i + 2] = b; #else _colorMap[i] = b; _colorMap[i + 1] = g; _colorMap[i + 2] = r; #endif } return true; } // Additional information found from http://paulbourke.net/dataformats/tga/ // With some details from the link referenced in the header. bool TGADecoder::readData(Common::SeekableReadStream &tga, byte imageType, byte pixelDepth) { // TrueColor if (imageType == TYPE_TRUECOLOR) { _surface.create(_surface.w, _surface.h, _format); if (pixelDepth == 16) { for (int i = 0; i < _surface.h; i++) { uint16 *dst; if (!_originTop) { dst = (uint16 *)_surface.getBasePtr(0, _surface.h - i - 1); } else { dst = (uint16 *)_surface.getBasePtr(0, i); } for (int j = 0; j < _surface.w; j++) { *dst++ = tga.readUint16LE(); } } } else if (pixelDepth == 32) { for (int i = 0; i < _surface.h; i++) { uint32 *dst; if (!_originTop) { dst = (uint32 *)_surface.getBasePtr(0, _surface.h - i - 1); } else { dst = (uint32 *)_surface.getBasePtr(0, i); } for (int j = 0; j < _surface.w; j++) { *dst++ = tga.readUint32LE(); } } } else if (pixelDepth == 24) { for (int i = 0; i < _surface.h; i++) { byte *dst; if (!_originTop) { dst = (byte *)_surface.getBasePtr(0, _surface.h - i - 1); } else { dst = (byte *)_surface.getBasePtr(0, i); } for (int j = 0; j < _surface.w; j++) { byte r = tga.readByte(); byte g = tga.readByte(); byte b = tga.readByte(); #ifdef SCUMM_LITTLE_ENDIAN *dst++ = r; *dst++ = g; *dst++ = b; #else *dst++ = b; *dst++ = g; *dst++ = r; #endif } } } // Black/White } else if (imageType == TYPE_BW) { _surface.create(_surface.w, _surface.h, _format); byte *data = (byte *)_surface.getPixels(); uint32 count = _surface.w * _surface.h; while (count-- > 0) { byte g = tga.readByte(); *data++ = g; *data++ = g; *data++ = g; *data++ = g; } } return true; } bool TGADecoder::readDataColorMapped(Common::SeekableReadStream &tga, byte imageType, byte indexDepth) { // Color-mapped if (imageType == TYPE_CMAP) { _surface.create(_surface.w, _surface.h, _format); if (indexDepth == 8) { for (int i = 0; i < _surface.h; i++) { byte *dst; if (!_originTop) { dst = (byte *)_surface.getBasePtr(0, _surface.h - i - 1); } else { dst = (byte *)_surface.getBasePtr(0, i); } for (int j = 0; j < _surface.w; j++) { byte index = tga.readByte(); *dst++ = index; } } } else if (indexDepth == 16) { warning("16 bit indexes not supported"); return false; } } else { return false; } return true; } bool TGADecoder::readDataRLE(Common::SeekableReadStream &tga, byte imageType, byte pixelDepth) { // RLE-TrueColor / RLE-Black/White if (imageType == TYPE_RLE_TRUECOLOR || imageType == TYPE_RLE_BW || imageType == TYPE_RLE_CMAP) { _surface.create(_surface.w, _surface.h, _format); uint32 count = _surface.w * _surface.h; byte *data = (byte *)_surface.getPixels(); while (count > 0) { uint32 header = tga.readByte(); byte type = (header & 0x80) >> 7; uint32 rleCount = (header & 0x7F) + 1; // RLE-packet if (type == 1) { if (pixelDepth == 32 && imageType == TYPE_RLE_TRUECOLOR) { uint32 color = tga.readUint32LE(); while (rleCount-- > 0) { *((uint32 *)data) = color; data += 4; count--; } } else if (pixelDepth == 24 && imageType == TYPE_RLE_TRUECOLOR) { byte r = tga.readByte(); byte g = tga.readByte(); byte b = tga.readByte(); while (rleCount-- > 0) { #ifdef SCUMM_LITTLE_ENDIAN *data++ = r; *data++ = g; *data++ = b; #else *data++ = b; *data++ = g; *data++ = r; #endif count--; } } else if (pixelDepth == 8 && imageType == TYPE_RLE_BW) { byte color = tga.readByte(); while (rleCount-- > 0) { *data++ = color; *data++ = color; *data++ = color; *data++ = color; count--; } } else if (pixelDepth == 8 && imageType == TYPE_RLE_CMAP) { byte index = tga.readByte(); while (rleCount-- > 0) { *data++ = index; count--; } } else { warning("Unhandled pixel-depth for image-type 10"); return false; } // Raw-packet } else if (type == 0) { if (pixelDepth == 32 && imageType == TYPE_RLE_TRUECOLOR) { while (rleCount-- > 0) { uint32 color = tga.readUint32LE(); *((uint32 *)data) = color; data += 4; count--; } } else if (pixelDepth == 24 && imageType == TYPE_RLE_TRUECOLOR) { while (rleCount-- > 0) { byte r = tga.readByte(); byte g = tga.readByte(); byte b = tga.readByte(); #ifdef SCUMM_LITTLE_ENDIAN *data++ = r; *data++ = g; *data++ = b; #else *data++ = b; *data++ = g; *data++ = r; #endif count--; } } else if (pixelDepth == 8 && imageType == TYPE_RLE_BW) { while (rleCount-- > 0) { byte color = tga.readByte(); *data++ = color; *data++ = color; *data++ = color; *data++ = color; count--; } } else if (pixelDepth == 8 && imageType == TYPE_RLE_CMAP) { while (rleCount-- > 0) { byte index = tga.readByte(); *data++ = index; count--; } } else { warning("Unhandled pixel-depth for image-type 10"); return false; } } else { warning("Unknown header for RLE-packet %d", type); return false; } } } else { return false; } return true; } } // End of namespace Graphics