#include "CAnimSourceReader.hpp" #include "CBoolPOINode.hpp" #include "CInt32POINode.hpp" #include "CParticlePOINode.hpp" #include "CSoundPOINode.hpp" namespace urde { CAnimSourceInfo::CAnimSourceInfo(const TSubAnimTypeToken& token) : x4_token(token) {} bool CAnimSourceInfo::HasPOIData() const { return x4_token->x58_evntData; } const std::vector& CAnimSourceInfo::GetBoolPOIStream() const { return x4_token->GetBoolPOIStream(); } const std::vector& CAnimSourceInfo::GetInt32POIStream() const { return x4_token->GetInt32POIStream(); } const std::vector& CAnimSourceInfo::GetParticlePOIStream() const { return x4_token->GetParticlePOIStream(); } const std::vector& CAnimSourceInfo::GetSoundPOIStream() const { return x4_token->GetSoundPOIStream(); } CCharAnimTime CAnimSourceInfo::GetAnimationDuration() const { return x4_token->GetDuration(); } std::map CAnimSourceReaderBase::GetUniqueParticlePOIs() const { const std::vector& particleNodes = x4_sourceInfo->GetParticlePOIStream(); std::map ret; for (const CParticlePOINode& node : particleNodes) ret[node.GetName()] = node.GetParticleData().GetParentedMode(); return ret; } std::map CAnimSourceReaderBase::GetUniqueInt32POIs() const { const std::vector& int32Nodes = x4_sourceInfo->GetInt32POIStream(); std::map ret; for (const CInt32POINode& node : int32Nodes) ret[node.GetName()] = node.GetValue(); return ret; } std::map CAnimSourceReaderBase::GetUniqueBoolPOIs() const { const std::vector& boolNodes = x4_sourceInfo->GetBoolPOIStream(); std::map ret; for (const CBoolPOINode& node : boolNodes) ret[node.GetName()] = node.GetValue(); return ret; } void CAnimSourceReaderBase::PostConstruct(const CCharAnimTime& time) { x14_passedBoolCount = 0; x18_passedIntCount = 0; x1c_passedParticleCount = 0; x20_passedSoundCount = 0; if (x4_sourceInfo->HasPOIData()) { std::map boolPOIs = GetUniqueBoolPOIs(); std::map int32POIs = GetUniqueInt32POIs(); std::map particlePOIs = GetUniqueParticlePOIs(); x24_boolStates.reserve(boolPOIs.size()); for (const auto& poi : boolPOIs) x24_boolStates.push_back(poi); x34_int32States.reserve(int32POIs.size()); for (const auto& poi : int32POIs) x34_int32States.push_back(poi); x44_particleStates.reserve(particlePOIs.size()); for (const auto& poi : particlePOIs) x44_particleStates.push_back(poi); } CCharAnimTime tmpTime = time; if (tmpTime.GreaterThanZero()) { while (tmpTime.GreaterThanZero()) { SAdvancementResults res = VAdvanceView(tmpTime); tmpTime = res.x0_remTime; } } else if (x4_sourceInfo->HasPOIData()) { UpdatePOIStates(); if (!time.GreaterThanZero()) { x14_passedBoolCount = 0; x18_passedIntCount = 0; x1c_passedParticleCount = 0; x20_passedSoundCount = 0; } } } void CAnimSourceReaderBase::UpdatePOIStates() { const std::vector& boolNodes = x4_sourceInfo->GetBoolPOIStream(); const std::vector& int32Nodes = x4_sourceInfo->GetInt32POIStream(); const std::vector& particleNodes = x4_sourceInfo->GetParticlePOIStream(); const std::vector& soundNodes = x4_sourceInfo->GetSoundPOIStream(); for (const CBoolPOINode& node : boolNodes) { if (node.GetTime() > xc_curTime) break; if (node.GetIndex() != -1) x24_boolStates[node.GetIndex()].second = node.GetValue(); ++x14_passedBoolCount; } for (const CInt32POINode& node : int32Nodes) { if (node.GetTime() > xc_curTime) break; if (node.GetIndex() != -1) x34_int32States[node.GetIndex()].second = node.GetValue(); ++x18_passedIntCount; } for (const CParticlePOINode& node : particleNodes) { if (node.GetTime() > xc_curTime) break; if (node.GetIndex() != -1) x44_particleStates[node.GetIndex()].second = node.GetParticleData().GetParentedMode(); ++x1c_passedParticleCount; } for (const CSoundPOINode& node : soundNodes) { if (node.GetTime() > xc_curTime) break; ++x20_passedSoundCount; } } u32 CAnimSourceReaderBase::VGetBoolPOIList(const CCharAnimTime& time, CBoolPOINode* listOut, u32 capacity, u32 iterator, u32 unk) const { if (x4_sourceInfo->HasPOIData()) { const std::vector& boolNodes = x4_sourceInfo->GetBoolPOIStream(); return _getPOIList(time, listOut, capacity, iterator, unk, boolNodes, xc_curTime, *x4_sourceInfo, x14_passedBoolCount); } return 0; } u32 CAnimSourceReaderBase::VGetInt32POIList(const CCharAnimTime& time, CInt32POINode* listOut, u32 capacity, u32 iterator, u32 unk) const { if (x4_sourceInfo->HasPOIData()) { const std::vector& int32Nodes = x4_sourceInfo->GetInt32POIStream(); return _getPOIList(time, listOut, capacity, iterator, unk, int32Nodes, xc_curTime, *x4_sourceInfo, x18_passedIntCount); } return 0; } u32 CAnimSourceReaderBase::VGetParticlePOIList(const CCharAnimTime& time, CParticlePOINode* listOut, u32 capacity, u32 iterator, u32 unk) const { if (x4_sourceInfo->HasPOIData()) { const std::vector& particleNodes = x4_sourceInfo->GetParticlePOIStream(); return _getPOIList(time, listOut, capacity, iterator, unk, particleNodes, xc_curTime, *x4_sourceInfo, x1c_passedParticleCount); } return 0; } u32 CAnimSourceReaderBase::VGetSoundPOIList(const CCharAnimTime& time, CSoundPOINode* listOut, u32 capacity, u32 iterator, u32 unk) const { if (x4_sourceInfo->HasPOIData()) { const std::vector& soundNodes = x4_sourceInfo->GetSoundPOIStream(); return _getPOIList(time, listOut, capacity, iterator, unk, soundNodes, xc_curTime, *x4_sourceInfo, x20_passedSoundCount); } return 0; } bool CAnimSourceReaderBase::VGetBoolPOIState(const char* name) const { for (const auto& node : x24_boolStates) if (!node.first.compare(name)) return node.second; return false; } s32 CAnimSourceReaderBase::VGetInt32POIState(const char* name) const { for (const auto& node : x34_int32States) if (!node.first.compare(name)) return node.second; return 0; } CParticleData::EParentedMode CAnimSourceReaderBase::VGetParticlePOIState(const char* name) const { for (const auto& node : x44_particleStates) if (!node.first.compare(name)) return node.second; return CParticleData::EParentedMode::Initial; } CAnimSourceReaderBase::CAnimSourceReaderBase(std::unique_ptr&& sourceInfo, const CCharAnimTime& time) : x4_sourceInfo(std::move(sourceInfo)), xc_curTime(time) {} CAnimSourceReaderBase::CAnimSourceReaderBase(std::unique_ptr&& sourceInfo, const CAnimSourceReaderBase& other) : x4_sourceInfo(std::move(sourceInfo)), xc_curTime(other.xc_curTime), x14_passedBoolCount(other.x14_passedBoolCount), x18_passedIntCount(other.x18_passedIntCount), x1c_passedParticleCount(other.x1c_passedParticleCount), x20_passedSoundCount(other.x20_passedSoundCount), x24_boolStates(other.x24_boolStates), x34_int32States(other.x34_int32States), x44_particleStates(other.x44_particleStates) {} SAdvancementResults CAnimSourceReader::VGetAdvancementResults(const CCharAnimTime& dt, const CCharAnimTime& startOff) const { SAdvancementResults ret; CCharAnimTime accum = xc_curTime + startOff; if (xc_curTime + startOff >= x54_source->GetDuration()) { ret.x0_remTime = dt; return ret; } else if (dt.EqualsZero()) { return ret; } else { CCharAnimTime prevTime = accum; accum += dt; CCharAnimTime remTime; if (accum > x54_source->GetDuration()) { remTime = accum - x54_source->GetDuration(); accum = x54_source->GetDuration(); } zeus::CQuaternion ra = x54_source->GetRotation(3, prevTime).inverse(); zeus::CQuaternion rb = x54_source->GetRotation(3, accum); ret.x0_remTime = remTime; ret.x8_deltas.xc_rotDelta = rb * ra; if (x54_source->HasOffset(3)) { zeus::CVector3f ta = x54_source->GetOffset(3, prevTime); zeus::CVector3f tb = x54_source->GetOffset(3, accum); ret.x8_deltas.x0_posDelta = zeus::CMatrix3f(rb) * (tb - ta); } return ret; } } void CAnimSourceReader::VSetPhase(float phase) { xc_curTime = phase * x54_source->GetDuration(); if (x54_source->GetPOIData()) { UpdatePOIStates(); if (!xc_curTime.GreaterThanZero()) { x14_passedBoolCount = 0; x18_passedIntCount = 0; x1c_passedParticleCount = 0; x20_passedSoundCount = 0; } } } SAdvancementResults CAnimSourceReader::VReverseView(const CCharAnimTime& dt) { SAdvancementResults ret; if (xc_curTime.EqualsZero()) { ret.x0_remTime = dt; return ret; } else if (dt.EqualsZero()) { return ret; } else { CCharAnimTime prevTime = xc_curTime; xc_curTime -= dt; CCharAnimTime remTime; if (xc_curTime < CCharAnimTime()) { remTime = CCharAnimTime() - xc_curTime; xc_curTime = CCharAnimTime(); } if (x54_source->GetPOIData()) UpdatePOIStates(); zeus::CQuaternion ra = x54_source->GetRotation(3, prevTime).inverse(); zeus::CQuaternion rb = x54_source->GetRotation(3, xc_curTime); ret.x0_remTime = remTime; ret.x8_deltas.xc_rotDelta = rb * ra; if (x54_source->HasOffset(3)) { zeus::CVector3f ta = x54_source->GetOffset(3, prevTime); zeus::CVector3f tb = x54_source->GetOffset(3, xc_curTime); ret.x8_deltas.x0_posDelta = zeus::CMatrix3f(rb) * (tb - ta); } return ret; } } std::shared_ptr CAnimSourceReader::VClone() const { return std::make_shared(*this); } void CAnimSourceReader::VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut) const { x54_source->GetSegStatementSet(list, setOut, xc_curTime); } void CAnimSourceReader::VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut, const CCharAnimTime& time) const { x54_source->GetSegStatementSet(list, setOut, time); } SAdvancementResults CAnimSourceReader::VAdvanceView(const CCharAnimTime& dt) { SAdvancementResults ret; if (xc_curTime >= x54_source->GetDuration()) { ret.x0_remTime = dt; return ret; } else if (dt.EqualsZero()) { return ret; } else { CCharAnimTime prevTime = xc_curTime; xc_curTime += dt; CCharAnimTime remTime; if (xc_curTime > x54_source->GetDuration()) { remTime = xc_curTime - x54_source->GetDuration(); xc_curTime = x54_source->GetDuration(); } if (x54_source->GetPOIData()) UpdatePOIStates(); zeus::CQuaternion ra = x54_source->GetRotation(3, prevTime).inverse(); zeus::CQuaternion rb = x54_source->GetRotation(3, xc_curTime); ret.x0_remTime = remTime; ret.x8_deltas.xc_rotDelta = rb * ra; if (x54_source->HasOffset(3)) { zeus::CVector3f ta = x54_source->GetOffset(3, prevTime); zeus::CVector3f tb = x54_source->GetOffset(3, xc_curTime); ret.x8_deltas.x0_posDelta = zeus::CMatrix3f(rb) * (tb - ta); } return ret; } } CCharAnimTime CAnimSourceReader::VGetTimeRemaining() const { return x54_source->GetDuration() - xc_curTime; } CSteadyStateAnimInfo CAnimSourceReader::VGetSteadyStateAnimInfo() const { return x64_steadyStateInfo; } bool CAnimSourceReader::VHasOffset(const CSegId& seg) const { return x54_source->HasOffset(seg); } zeus::CVector3f CAnimSourceReader::VGetOffset(const CSegId& seg) const { return x54_source->GetOffset(seg, xc_curTime); } zeus::CVector3f CAnimSourceReader::VGetOffset(const CSegId& seg, const CCharAnimTime& time) const { return x54_source->GetOffset(seg, time); } zeus::CQuaternion CAnimSourceReader::VGetRotation(const CSegId& seg) const { return x54_source->GetRotation(seg, xc_curTime); } CAnimSourceReader::CAnimSourceReader(const TSubAnimTypeToken& source, const CCharAnimTime& time) : CAnimSourceReaderBase(std::make_unique(source), CCharAnimTime()), x54_source(source), x64_steadyStateInfo(false, source->GetDuration(), source->GetOffset(source->GetRootBoneId(), time)) { PostConstruct(time); } CAnimSourceReader::CAnimSourceReader(const CAnimSourceReader& other) : CAnimSourceReaderBase(std::make_unique(other.x54_source), other), x54_source(other.x54_source), x64_steadyStateInfo(other.x64_steadyStateInfo) {} }