#ifndef _DNAMP2_ANIM_HPP_ #define _DNAMP2_ANIM_HPP_ #include "DNAMP2.hpp" #include "../DNACommon/ANIM.hpp" #include "../DNACommon/RigInverter.hpp" #include "CINF.hpp" namespace DataSpec::DNAMP2 { struct ANIM : BigDNA { AT_DECL_EXPLICIT_DNA struct IANIM : BigDNAV { Delete expl; atUint32 m_version; IANIM(atUint32 version) : m_version(version) {} std::vector>> bones; std::vector frames; std::vector channels; std::vector> chanKeys; float mainInterval = 0.0; bool looping = false; void sendANIMToBlender(hecl::blender::PyOutStream&, const DNAANIM::RigInverter& rig) const; }; struct ANIM0 : IANIM { AT_DECL_EXPLICIT_DNA AT_DECL_DNAV ANIM0() : IANIM(0) {} struct Header : BigDNA { AT_DECL_DNA Value duration; Value unk0; Value interval; Value unk1; Value keyCount; Value unk2; Value boneSlotCount; }; }; struct ANIM2 : IANIM { AT_DECL_EXPLICIT_DNA AT_DECL_DNAV ANIM2() : IANIM(2) {} struct Header : BigDNA { AT_DECL_DNA Value scratchSize; Value unk1; Value duration; Value interval; Value rootBoneId = 3; Value looping = 0; Value rotDiv; Value translationMult; Value scaleMult; Value boneChannelCount; Value unk3 = 1; Value keyBitmapBitCount; }; struct ChannelDesc : BigDNA { Delete expl; Value id = 0; Value keyCount1 = 0; Value initRX = 0; Value qRX = 0; Value initRY = 0; Value qRY = 0; Value initRZ = 0; Value qRZ = 0; Value keyCount2 = 0; Value initTX = 0; Value qTX = 0; Value initTY = 0; Value qTY = 0; Value initTZ = 0; Value qTZ = 0; Value keyCount3 = 0; Value initSX = 0; Value qSX = 0; Value initSY = 0; Value qSY = 0; Value initSZ = 0; Value qSZ = 0; void read(athena::io::IStreamReader& reader) { id = reader.readUByte(); keyCount1 = reader.readUint16Big(); if (keyCount1) { initRX = reader.readInt16Big(); qRX = reader.readUByte(); initRY = reader.readInt16Big(); qRY = reader.readUByte(); initRZ = reader.readInt16Big(); qRZ = reader.readUByte(); } keyCount2 = reader.readUint16Big(); if (keyCount2) { initTX = reader.readInt16Big(); qTX = reader.readUByte(); initTY = reader.readInt16Big(); qTY = reader.readUByte(); initTZ = reader.readInt16Big(); qTZ = reader.readUByte(); } keyCount3 = reader.readUint16Big(); if (keyCount3) { initSX = reader.readInt16Big(); qSX = reader.readUByte(); initSY = reader.readInt16Big(); qSY = reader.readUByte(); initSZ = reader.readInt16Big(); qSZ = reader.readUByte(); } } void write(athena::io::IStreamWriter& writer) const { writer.writeUByte(id); writer.writeUint16Big(keyCount1); if (keyCount1) { writer.writeInt16Big(initRX); writer.writeUByte(qRX); writer.writeInt16Big(initRY); writer.writeUByte(qRY); writer.writeInt16Big(initRZ); writer.writeUByte(qRZ); } writer.writeUint16Big(keyCount2); if (keyCount2) { writer.writeInt16Big(initTX); writer.writeUByte(qTX); writer.writeInt16Big(initTY); writer.writeUByte(qTY); writer.writeInt16Big(initTZ); writer.writeUByte(qTZ); } writer.writeUint16Big(keyCount3); if (keyCount3) { writer.writeInt16Big(initSX); writer.writeUByte(qSX); writer.writeInt16Big(initSY); writer.writeUByte(qSY); writer.writeInt16Big(initSZ); writer.writeUByte(qSZ); } } size_t binarySize(size_t __isz) const { __isz += 7; if (keyCount1) __isz += 9; if (keyCount2) __isz += 9; if (keyCount3) __isz += 9; return __isz; } }; }; std::unique_ptr m_anim; void sendANIMToBlender(hecl::blender::PyOutStream& os, const DNAANIM::RigInverter& rig, bool) const { m_anim->sendANIMToBlender(os, rig); } }; } #endif // _DNAMP2_ANIM_HPP_