/* Copyright (C) Teemu Suutari */ #include "SMPLDecompressor.hpp" #include "InputStream.hpp" #include "OutputStream.hpp" #include "HuffmanDecoder.hpp" #include "common/Common.hpp" namespace ancient::internal { bool SMPLDecompressor::detectHeaderXPK(uint32_t hdr) noexcept { return hdr==FourCC("SMPL"); } std::shared_ptr SMPLDecompressor::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); } SMPLDecompressor::SMPLDecompressor(uint32_t hdr,uint32_t recursionLevel,const Buffer &packedData,std::shared_ptr &state,bool verify) : XPKDecompressor(recursionLevel), _packedData(packedData) { if (!detectHeaderXPK(hdr) || packedData.size()<2) throw Decompressor::InvalidFormatError(); if (packedData.readBE16(0)!=1) throw Decompressor::InvalidFormatError(); } SMPLDecompressor::~SMPLDecompressor() { // nothing needed } const std::string &SMPLDecompressor::getSubName() const noexcept { static std::string name="XPK-SMPL: Huffman compressor with delta encoding"; return name; } void SMPLDecompressor::decompressImpl(Buffer &rawData,const Buffer &previousData,bool verify) { ForwardInputStream inputStream(_packedData,2,_packedData.size()); MSBBitReader bitReader(inputStream); auto readBits=[&](uint32_t count)->uint32_t { return bitReader.readBits8(count); }; auto readBit=[&]()->uint32_t { return bitReader.readBits8(1); }; ForwardOutputStream outputStream(rawData,0,rawData.size()); HuffmanDecoder decoder; for (uint32_t i=0;i<256;i++) { uint32_t codeLength=readBits(4); if (!codeLength) continue; if (codeLength==15) codeLength=readBits(4)+15; uint32_t code=readBits(codeLength); decoder.insert(HuffmanCode{codeLength,code,i}); } uint8_t accum=0; while (!outputStream.eof()) { uint32_t code=decoder.decode(readBit); accum+=code; outputStream.writeByte(accum); } } }