#include "Runtime/Character/CAnimTreeTweenBase.hpp" #include "Runtime/Character/CSegIdList.hpp" #include "Runtime/Character/CSegStatementSet.hpp" namespace urde { s32 CAnimTreeTweenBase::sAdvancementDepth = 0; CAnimTreeTweenBase::CAnimTreeTweenBase(bool b1, const std::weak_ptr& a, const std::weak_ptr& b, int flags, std::string_view name) : CAnimTreeDoubleChild(a, b, name), x1c_flags(flags), x20_24_b1{b1} {} void CAnimTreeTweenBase::VGetWeightedReaders( rstl::reserved_vector>, 16>& out, float w) const { float weight = GetBlendingWeight(); x14_a->VGetWeightedReaders(out, (1.f - weight) * w); x18_b->VGetWeightedReaders(out, weight * w); } void CAnimTreeTweenBase::VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut) const { float w = GetBlendingWeight(); static int sStack = 0; ++sStack; if (w >= 1.f) { x18_b->VGetSegStatementSet(list, setOut); } else if (sStack > 3) { auto& n = w > 0.5f ? x18_b : x14_a; auto ptr = n->GetBestUnblendedChild(); if (!ptr) ptr = n; ptr->VGetSegStatementSet(list, setOut); } else { CSegStatementSet setA, setB; x14_a->VGetSegStatementSet(list, setA); x18_b->VGetSegStatementSet(list, setB); for (CSegId id : list.GetList()) { if (w < 0.0001f) { setOut[id].x0_rotation = setA[id].x0_rotation; if (setA[id].x1c_hasOffset) { setOut[id].x10_offset = setA[id].x10_offset; setOut[id].x1c_hasOffset = true; } } else { setOut[id].x0_rotation = zeus::CQuaternion::slerpShort(setA[id].x0_rotation, setB[id].x0_rotation, w); if (setA[id].x1c_hasOffset && setB[id].x1c_hasOffset) { setOut[id].x10_offset = zeus::CVector3f::lerp(setA[id].x10_offset, setB[id].x10_offset, w); setOut[id].x1c_hasOffset = true; } } } } --sStack; } void CAnimTreeTweenBase::VGetSegStatementSet(const CSegIdList& list, CSegStatementSet& setOut, const CCharAnimTime& time) const { float w = GetBlendingWeight(); static int sStack = 0; ++sStack; if (w >= 1.f) { x18_b->VGetSegStatementSet(list, setOut, time); } else if (sStack > 3) { auto& n = w > 0.5f ? x18_b : x14_a; n->GetBestUnblendedChild()->VGetSegStatementSet(list, setOut, time); } else { CSegStatementSet setA, setB; x14_a->VGetSegStatementSet(list, setA, time); x18_b->VGetSegStatementSet(list, setB, time); for (CSegId id : list.GetList()) { setOut[id].x0_rotation = zeus::CQuaternion::slerpShort(setA[id].x0_rotation, setB[id].x0_rotation, w); if (setA[id].x1c_hasOffset && setB[id].x1c_hasOffset) { setOut[id].x10_offset = zeus::CVector3f::lerp(setA[id].x10_offset, setB[id].x10_offset, w); setOut[id].x1c_hasOffset = true; } } } --sStack; } bool CAnimTreeTweenBase::VHasOffset(const CSegId& seg) const { return (x14_a->VHasOffset(seg) && x18_b->VHasOffset(seg)); } zeus::CVector3f CAnimTreeTweenBase::VGetOffset(const CSegId& seg) const { const float weight = GetBlendingWeight(); if (weight >= 1.0f) return x18_b->VGetOffset(seg); const zeus::CVector3f oA = x14_a->VGetOffset(seg); const zeus::CVector3f oB = x18_b->VGetOffset(seg); return zeus::CVector3f::lerp(oA, oB, weight); } zeus::CQuaternion CAnimTreeTweenBase::VGetRotation(const CSegId& seg) const { const float weight = GetBlendingWeight(); if (weight >= 1.0f) return x18_b->VGetRotation(seg); const zeus::CQuaternion qA = x14_a->VGetRotation(seg); const zeus::CQuaternion qB = x18_b->VGetRotation(seg); return zeus::CQuaternion::slerp(qA, qB, weight); } std::optional> CAnimTreeTweenBase::VSimplified() { if (x20_25_cullSelector == 0) { auto simpA = x14_a->Simplified(); auto simpB = x18_b->Simplified(); if (!simpA && !simpB) return {}; auto clone = Clone(); if (simpA) static_cast(*clone).x14_a = CAnimTreeNode::Cast(std::move(*simpA)); if (simpB) static_cast(*clone).x18_b = CAnimTreeNode::Cast(std::move(*simpB)); return {std::move(clone)}; } else { auto tmp = (x20_25_cullSelector == 1) ? x18_b : x14_a; auto tmpUnblended = tmp->GetBestUnblendedChild(); if (!tmpUnblended) return {tmp->Clone()}; else return {tmpUnblended->Clone()}; } } } // namespace urde