metaforce/DataSpec/DNAMP1/ANIM.hpp

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#pragma once
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#include "DNAMP1.hpp"
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#include "DataSpec/DNACommon/ANIM.hpp"
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#include "DataSpec/DNACommon/RigInverter.hpp"
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#include "CINF.hpp"
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#include "EVNT.hpp"
#include "DataSpec/DNACommon/ANCS.hpp"
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namespace DataSpec::DNAMP1 {
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struct ANIM : BigDNA {
AT_DECL_EXPLICIT_DNA
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static UniqueID32 GetEVNTId(athena::io::IStreamReader& r);
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struct IANIM : BigDNAV {
Delete expl;
atUint32 m_version;
IANIM(atUint32 version) : m_version(version) {}
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std::vector<std::pair<atUint32, bool>> bones;
std::vector<atUint32> frames;
std::vector<DNAANIM::Channel> channels;
std::vector<std::vector<DNAANIM::Value>> chanKeys;
float mainInterval = 0.0;
UniqueID32Zero evnt;
bool looping = false;
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void sendANIMToBlender(hecl::blender::PyOutStream&, const DNAANIM::RigInverter<CINF>& rig) const;
};
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struct ANIM0 : IANIM {
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AT_DECL_EXPLICIT_DNAV
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ANIM0() : IANIM(0) {}
struct Header : BigDNA {
AT_DECL_DNA
Value<float> duration;
Value<atUint32> unk0;
Value<float> interval;
Value<atUint32> unk1;
Value<atUint32> keyCount;
Value<atUint32> unk2;
Value<atUint32> boneSlotCount;
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};
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};
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struct ANIM2 : IANIM {
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AT_DECL_EXPLICIT_DNAV
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ANIM2(bool pc) : IANIM(pc ? 3 : 2) {}
struct Header : BigDNA {
AT_DECL_DNA
Value<atUint32> scratchSize;
UniqueID32Zero evnt;
Value<atUint32> unk0 = 1;
Value<float> duration;
Value<float> interval;
Value<atUint32> rootBoneId = 3;
Value<atUint32> looping = 0;
Value<atUint32> rotDiv;
Value<float> translationMult;
Value<atUint32> boneChannelCount;
Value<atUint32> unk3;
Value<atUint32> keyBitmapBitCount;
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};
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struct ChannelDesc : BigDNA {
Delete expl;
Value<atUint32> id = 0;
Value<atUint16> keyCount1 = 0;
Value<atInt16> initRX = 0;
Value<atUint8> qRX = 0;
Value<atInt16> initRY = 0;
Value<atUint8> qRY = 0;
Value<atInt16> initRZ = 0;
Value<atUint8> qRZ = 0;
Value<atUint16> keyCount2 = 0;
Value<atInt16> initTX = 0;
Value<atUint8> qTX = 0;
Value<atInt16> initTY = 0;
Value<atUint8> qTY = 0;
Value<atInt16> initTZ = 0;
Value<atUint8> qTZ = 0;
void read(athena::io::IStreamReader& reader) {
id = reader.readUint32Big();
keyCount1 = reader.readUint16Big();
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();
}
}
void write(athena::io::IStreamWriter& writer) const {
writer.writeUint32Big(id);
writer.writeUint16Big(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);
}
}
void binarySize(size_t& __isz) const {
__isz += 17;
if (keyCount2)
__isz += 9;
}
};
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struct ChannelDescPC : BigDNA {
Delete expl;
Value<atUint32> id = 0;
Value<atUint32> keyCount1 = 0;
Value<atUint32> QinitRX = 0;
Value<atUint32> QinitRY = 0;
Value<atUint32> QinitRZ = 0;
Value<atUint32> keyCount2 = 0;
Value<atUint32> QinitTX = 0;
Value<atUint32> QinitTY = 0;
Value<atUint32> QinitTZ = 0;
void read(athena::io::IStreamReader& reader) {
id = reader.readUint32Big();
keyCount1 = reader.readUint32Big();
QinitRX = reader.readUint32Big();
QinitRY = reader.readUint32Big();
QinitRZ = reader.readUint32Big();
keyCount2 = reader.readUint32Big();
if (keyCount2) {
QinitTX = reader.readUint32Big();
QinitTY = reader.readUint32Big();
QinitTZ = reader.readUint32Big();
}
}
void write(athena::io::IStreamWriter& writer) const {
writer.writeUint32Big(id);
writer.writeUint32Big(keyCount1);
writer.writeUint32Big(QinitRX);
writer.writeUint32Big(QinitRY);
writer.writeUint32Big(QinitRZ);
writer.writeUint32Big(keyCount2);
if (keyCount2) {
writer.writeUint32Big(QinitTX);
writer.writeUint32Big(QinitTY);
writer.writeUint32Big(QinitTZ);
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}
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}
void binarySize(size_t& __isz) const {
__isz += 24;
if (keyCount2)
__isz += 12;
}
};
};
std::unique_ptr<IANIM> m_anim;
void sendANIMToBlender(hecl::blender::PyOutStream& os, const DNAANIM::RigInverter<CINF>& rig, bool) const {
m_anim->sendANIMToBlender(os, rig);
}
bool isLooping() const {
if (!m_anim)
return false;
return m_anim->looping;
}
void extractEVNT(const DNAANCS::AnimationResInfo<UniqueID32>& animInfo, const hecl::ProjectPath& outPath,
PAKRouter<PAKBridge>& pakRouter, bool force) const {
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if (m_anim->evnt.isValid()) {
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hecl::ProjectPath evntYamlPath = outPath.getWithExtension(
fmt::format(FMT_STRING(".{}_{}.evnt.yaml"), animInfo.name, m_anim->evnt).c_str(), true);
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hecl::ProjectPath::Type evntYamlType = evntYamlPath.getPathType();
if (force || evntYamlType == hecl::ProjectPath::Type::None) {
EVNT evnt;
if (pakRouter.lookupAndReadDNA(m_anim->evnt, evnt, true)) {
athena::io::FileWriter writer(evntYamlPath.getAbsolutePath());
athena::io::ToYAMLStream(evnt, writer);
}
}
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}
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}
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using BlenderAction = hecl::blender::Action;
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ANIM() = default;
ANIM(const BlenderAction& act, const std::unordered_map<std::string, atInt32>& idMap,
const DNAANIM::RigInverter<CINF>& rig, bool pc);
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};
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} // namespace DataSpec::DNAMP1