#include "CSequenceHelper.hpp" #include "CAnimSysContext.hpp" #include "CBoolPOINode.hpp" #include "CInt32POINode.hpp" #include "CParticlePOINode.hpp" #include "CSoundPOINode.hpp" #include "IMetaAnim.hpp" #include "CTreeUtils.hpp" namespace urde { CSequenceFundamentals::CSequenceFundamentals(const CSteadyStateAnimInfo& ssInfo, const std::vector& boolNodes, const std::vector& int32Nodes, const std::vector& particleNodes, const std::vector& soundNodes) : x0_ssInfo(ssInfo) , x18_boolNodes(boolNodes) , x28_int32Nodes(int32Nodes) , x38_particleNodes(particleNodes) , x48_soundNodes(soundNodes) {} CSequenceHelper::CSequenceHelper(const std::shared_ptr& a, const std::shared_ptr& b, const CAnimSysContext& animCtx) : x0_animCtx(animCtx) { x10_treeNodes.reserve(2); x10_treeNodes.push_back(a); x10_treeNodes.push_back(b); } CSequenceHelper::CSequenceHelper(const std::vector>& nodes, const CAnimSysContext& animCtx) : x0_animCtx(animCtx) { x10_treeNodes.reserve(nodes.size()); for (const std::shared_ptr& meta : nodes) x10_treeNodes.push_back(meta->GetAnimationTree(animCtx, CMetaAnimTreeBuildOrders::NoSpecialOrders())); } CSequenceFundamentals CSequenceHelper::ComputeSequenceFundamentals() { CCharAnimTime duration; zeus::CVector3f offset; std::vector boolNodes; std::vector int32Nodes; std::vector particleNodes; std::vector soundNodes; if (x10_treeNodes.size() > 0) { std::shared_ptr node = CAnimTreeNode::Cast(x10_treeNodes[0]->Clone()); for (size_t i = 0; i < x10_treeNodes.size(); ++i) { CBoolPOINode boolNodeArr[64]; u32 numBools = node->GetBoolPOIList(CCharAnimTime::Infinity(), boolNodeArr, 64, 0, 0); boolNodes.reserve(boolNodes.size() + numBools); for (u32 j = 0; j < numBools; ++j) { CBoolPOINode& n = boolNodeArr[j]; n.SetTime(n.GetTime() + duration); boolNodes.push_back(n); } CInt32POINode int32NodeArr[64]; u32 numInt32s = node->GetInt32POIList(CCharAnimTime::Infinity(), int32NodeArr, 64, 0, 0); int32Nodes.reserve(int32Nodes.size() + numInt32s); for (u32 j = 0; j < numInt32s; ++j) { CInt32POINode& n = int32NodeArr[j]; n.SetTime(n.GetTime() + duration); int32Nodes.push_back(n); } CParticlePOINode particleNodeArr[64]; u32 numParticles = node->GetParticlePOIList(CCharAnimTime::Infinity(), particleNodeArr, 64, 0, 0); particleNodes.reserve(particleNodes.size() + numParticles); for (u32 j = 0; j < numParticles; ++j) { CParticlePOINode& n = particleNodeArr[j]; n.SetTime(n.GetTime() + duration); particleNodes.push_back(n); } CSoundPOINode soundNodeArr[64]; u32 numSounds = node->GetSoundPOIList(CCharAnimTime::Infinity(), soundNodeArr, 64, 0, 0); soundNodes.reserve(soundNodes.size() + numSounds); for (u32 j = 0; j < numSounds; ++j) { CSoundPOINode& n = soundNodeArr[j]; n.SetTime(n.GetTime() + duration); soundNodes.push_back(n); } duration += node->VGetTimeRemaining(); CCharAnimTime remTime = node->VGetTimeRemaining(); while (!remTime.EqualsZero() && !remTime.EpsilonZero()) { SAdvancementResults res = node->VAdvanceView(remTime); auto simp = node->Simplified(); if (simp) node = CAnimTreeNode::Cast(std::move(*simp)); // CCharAnimTime prevRemTime = remTime; remTime = res.x0_remTime; /* This was originally accumulating uninitialized register values (stack variable misuse?) */ offset += res.x8_deltas.x0_posDelta; } if (i < x10_treeNodes.size() - 1) { node = CTreeUtils::GetTransitionTree(node, CAnimTreeNode::Cast(x10_treeNodes[i + 1]->Clone()), x0_animCtx); } } } return {{false, duration, offset}, boolNodes, int32Nodes, particleNodes, soundNodes}; } } // namespace urde