#pragma once #include "zeus/CVector3f.hpp" #include "zeus/CMatrix3f.hpp" #include "zeus/CQuaternion.hpp" #include "hecl/hecl.hpp" #include namespace DataSpec::DNAANIM { /** One-shot process to invert CINF armature into connected rig, * inverting rotations/translations of ANIM data to match */ template class RigInverter { public: struct Bone { const typename CINFType::Bone& m_origBone; zeus::CQuaternion m_inverter; zeus::CQuaternion m_restorer; zeus::CVector3f m_tail; zeus::CVector3f m_parentDelta; Bone(const CINFType& cinf, const typename CINFType::Bone& origBone); }; private: const CINFType& m_cinf; std::vector m_bones; public: RigInverter(const CINFType& cinf); RigInverter(const CINFType& cinf, const std::unordered_map& matrices); const CINFType& getCINF() const { return m_cinf; } const std::vector& getBones() const { return m_bones; } zeus::CQuaternion invertRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const; zeus::CVector3f invertPosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const; zeus::CQuaternion restoreRotation(atUint32 boneId, const zeus::CQuaternion& origRot) const; zeus::CVector3f restorePosition(atUint32 boneId, const zeus::CVector3f& origPos, bool subDelta) const; }; } // namespace DataSpec::DNAANIM