/* Copyright (C) Teemu Suutari */ #include "RDCNDecompressor.hpp" #include "InputStream.hpp" #include "OutputStream.hpp" #include "common/Common.hpp" namespace ancient::internal { bool RDCNDecompressor::detectHeaderXPK(uint32_t hdr) noexcept { return hdr==FourCC("RDCN"); } std::shared_ptr RDCNDecompressor::create(uint32_t hdr,uint32_t recursionLevel,const Buffer &packedData,std::shared_ptr &state,bool verify) { return std::make_shared(hdr,recursionLevel,packedData,state,verify); } RDCNDecompressor::RDCNDecompressor(uint32_t hdr,uint32_t recursionLevel,const Buffer &packedData,std::shared_ptr &state,bool verify) : XPKDecompressor(recursionLevel), _packedData(packedData) { if (!detectHeaderXPK(hdr)) throw Decompressor::InvalidFormatError(); } RDCNDecompressor::~RDCNDecompressor() { // nothing needed } const std::string &RDCNDecompressor::getSubName() const noexcept { static std::string name="XPK-RDCN: Ross data compression"; return name; } void RDCNDecompressor::decompressImpl(Buffer &rawData,const Buffer &previousData,bool verify) { ForwardInputStream inputStream(_packedData,0,_packedData.size()); MSBBitReader bitReader(inputStream); auto readBit=[&]()->uint32_t { return bitReader.readBitsBE16(1); }; auto readByte=[&]()->uint8_t { return inputStream.readByte(); }; ForwardOutputStream outputStream(rawData,0,rawData.size()); while (!outputStream.eof()) { if (!readBit()) { outputStream.writeByte(readByte()); } else { uint8_t tmp=readByte(); uint32_t count=tmp&0xf; uint32_t code=tmp>>4; uint32_t distance=0; uint8_t repeatChar=0; bool doRLE=false; switch (code) { case 0: repeatChar=readByte(); count+=3; doRLE=true; break; case 1: count=(count|(uint32_t(readByte())<<4))+19; repeatChar=readByte(); doRLE=true; break; case 2: distance=(count|(uint32_t(readByte())<<4))+3; count=uint32_t(readByte())+16; break; default: /* 3 to 15 */ distance=(count|(uint32_t(readByte())<<4))+3; count=code; break; } if (doRLE) { for (uint32_t i=0;i