#ifndef __DNAMP2_MREA_HPP__ #define __DNAMP2_MREA_HPP__ #include "../DNACommon/DNACommon.hpp" #include "CMDLMaterials.hpp" #include "CSKR.hpp" namespace DataSpec { namespace DNAMP2 { struct MREA { class StreamReader : public athena::io::IStreamReader { protected: struct BlockInfo : BigDNA { DECL_DNA Value bufSize; Value decompSize; Value compSize; Value secCount; }; std::vector m_blockInfos; size_t m_compBufSz; std::unique_ptr m_compBuf; size_t m_decompBufSz; std::unique_ptr m_decompBuf; athena::io::IStreamReader& m_source; atUint64 m_blkBase; atUint32 m_blkCount; atUint32 m_totalDecompLen = 0; atUint32 m_pos = 0; atUint32 m_nextBlk = 0; atUint32 m_posInBlk = 0; atUint32 m_blkSz = 0; void nextBlock(); StreamReader(athena::io::IStreamReader& source) : m_compBufSz(0x4120), m_compBuf(new atUint8[0x4120]), m_decompBufSz(0x4120), m_decompBuf(new atUint8[0x4120]), m_source(source) {} /* Empty constructor for inheriting */ public: StreamReader(athena::io::IStreamReader& source, atUint32 blkCount); void seek(atInt64 diff, athena::SeekOrigin whence); atUint64 position() const {return m_pos;} atUint64 length() const {return m_totalDecompLen;} atUint64 readUBytesToBuf(void* buf, atUint64 len); void writeDecompInfos(athena::io::IStreamWriter& writer) const; }; struct Header : BigDNA { DECL_DNA Value magic; Value version; Value localToWorldMtx[3]; Value meshCount; Value sclyLayerCount; Value secCount; Value geomSecIdx; Value sclySecIdx; Value scgnSecIdx; Value collisionSecIdx; Value unkSecIdx; Value lightSecIdx; Value emptySecIdx; Value pathSecIdx; Value unk2SecIdx; Value unk3SecIdx; Value egmcSecIdx; Value compressedBlockCount; Seek<12, athena::Current> align1; Vector secSizes; }; struct MeshHeader : BigDNA { DECL_DNA struct VisorFlags : BigDNA { DECL_DNA Value flags; enum class ThermalLevel { Cool, Hot, Warm }; static const char* GetThermalLevelStr(ThermalLevel t) { switch (t) { case ThermalLevel::Cool: return "COOL"; case ThermalLevel::Hot: return "HOT"; case ThermalLevel::Warm: return "WARM"; default: break; } return nullptr; } bool disableEnviro() const {return flags >> 1 & 0x1;} void setDisableEnviro(bool v) {flags &= ~0x2; flags |= v << 1;} bool disableThermal() const {return flags >> 2 & 0x1;} void setDisableThermal(bool v) {flags &= ~0x4; flags |= v << 2;} bool disableXray() const {return flags >> 3 & 0x1;} void setDisableXray(bool v) {flags &= ~0x8; flags |= v << 3;} ThermalLevel thermalLevel() const {return ThermalLevel(flags >> 4 & 0x3);} void setThermalLevel(ThermalLevel v) {flags &= ~0x30; flags |= atUint32(v) << 4;} const char* thermalLevelStr() const {return GetThermalLevelStr(thermalLevel());} } visorFlags; Value xfMtx[3]; Value aabb[2]; }; static bool Extract(const SpecBase& dataSpec, PAKEntryReadStream& rs, const hecl::ProjectPath& outPath, PAKRouter& pakRouter, const DNAMP1::PAK::Entry& entry, bool, hecl::BlenderToken& btok, std::function); }; } } #endif