#include #include #include #include #include "BlockDecoder.h" #include "ZlibDecompressor.h" static inline uint16_t readU16(const unsigned char *data) { return data[0] << 8 | data[1]; } static int readBlockContent(const unsigned char *mapData, u8 contentWidth, unsigned int datapos) { if (contentWidth == 2) { size_t index = datapos << 1; return (mapData[index] << 8) | mapData[index + 1]; } else { u8 param = mapData[datapos]; if (param <= 0x7f) return param; else return (int(param) << 4) | (int(mapData[datapos + 0x2000]) >> 4); } } BlockDecoder::BlockDecoder() { reset(); } void BlockDecoder::reset() { m_blockAirId = -1; m_blockIgnoreId = -1; m_nameMap.clear(); m_version = 0; m_contentWidth = 0; m_mapData = ustring(); } void BlockDecoder::decode(const ustring &datastr) { const unsigned char *data = datastr.c_str(); size_t length = datastr.length(); // TODO: bounds checks uint8_t version = data[0]; //uint8_t flags = data[1]; if (version < 22) { std::ostringstream oss; oss << "Unsupported map version " << (int)version; throw std::runtime_error(oss.str()); } m_version = version; size_t dataOffset = 0; if (version >= 27) dataOffset = 4; else dataOffset = 2; uint8_t contentWidth = data[dataOffset]; dataOffset++; uint8_t paramsWidth = data[dataOffset]; dataOffset++; if (contentWidth != 1 && contentWidth != 2) throw std::runtime_error("unsupported map version (contentWidth)"); if (paramsWidth != 2) throw std::runtime_error("unsupported map version (paramsWidth)"); m_contentWidth = contentWidth; ZlibDecompressor decompressor(data, length); decompressor.setSeekPos(dataOffset); m_mapData = decompressor.decompress(); decompressor.decompress(); // unused metadata dataOffset = decompressor.seekPos(); // Skip unused data if (version == 23) dataOffset += 1; if (version == 24) { uint8_t ver = data[dataOffset++]; if (ver == 1) { uint16_t num = readU16(data + dataOffset); dataOffset += 2; dataOffset += 10 * num; } } // Skip unused static objects dataOffset++; // Skip static object version int staticObjectCount = readU16(data + dataOffset); dataOffset += 2; for (int i = 0; i < staticObjectCount; ++i) { dataOffset += 13; uint16_t dataSize = readU16(data + dataOffset); dataOffset += dataSize + 2; } dataOffset += 4; // Skip timestamp // Read mapping { dataOffset++; // mapping version uint16_t numMappings = readU16(data + dataOffset); dataOffset += 2; for (int i = 0; i < numMappings; ++i) { uint16_t nodeId = readU16(data + dataOffset); dataOffset += 2; uint16_t nameLen = readU16(data + dataOffset); dataOffset += 2; std::string name(reinterpret_cast(data) + dataOffset, nameLen); if (name == "air") m_blockAirId = nodeId; else if (name == "ignore") m_blockIgnoreId = nodeId; else m_nameMap[nodeId] = name; dataOffset += nameLen; } } // Node timers if (version >= 25) { dataOffset++; uint16_t numTimers = readU16(data + dataOffset); dataOffset += 2; dataOffset += numTimers * 10; } } bool BlockDecoder::isEmpty() const { // only contains ignore and air nodes? return m_nameMap.empty(); } std::string BlockDecoder::getNode(u8 x, u8 y, u8 z) const { unsigned int position = x + (y << 4) + (z << 8); int content = readBlockContent(m_mapData.c_str(), m_contentWidth, position); if (content == m_blockAirId || content == m_blockIgnoreId) return ""; NameMap::const_iterator it = m_nameMap.find(content); if (it == m_nameMap.end()) { std::cerr << "Skipping node with invalid ID." << std::endl; return ""; } return it->second; }