#include "CPoseAsTransforms.hpp" #include "CCharLayoutInfo.hpp" namespace urde { CPoseAsTransforms::CPoseAsTransforms(u8 boneCount) : x1_count(boneCount), xd0_transformArr(new Transform[boneCount]) {} bool CPoseAsTransforms::ContainsDataFor(const CSegId& id) const { const std::pair& link = x8_links[id]; return link.first != 0xff || link.second != 0xff; } void CPoseAsTransforms::Clear() { for (u32 i = 0; i < 100; ++i) x8_links[i] = std::make_pair(CSegId(), CSegId()); xd4_lastInserted = 0; x0_nextId = 0; } void CPoseAsTransforms::AccumulateScaledTransform(const CSegId& id, zeus::CMatrix3f& rotation, float scale) const { rotation.addScaledMatrix(GetRotation(id), scale); } const zeus::CTransform& CPoseAsTransforms::GetTransform(const CSegId& id) const { const std::pair& link = x8_links[id]; assert(link.second != 0xff); return xd0_transformArr[link.second].m_originToAccum; } const zeus::CTransform& CPoseAsTransforms::GetRestToAccumTransform(const CSegId& id) const { const std::pair& link = x8_links[id]; assert(link.second != 0xff); return xd0_transformArr[link.second].m_restPoseToAccum; } const zeus::CVector3f& CPoseAsTransforms::GetOffset(const CSegId& id) const { const std::pair& link = x8_links[id]; assert(link.second != 0xff); return xd0_transformArr[link.second].m_originToAccum.origin; } const zeus::CMatrix3f& CPoseAsTransforms::GetRotation(const CSegId& id) const { const std::pair& link = x8_links[id]; assert(link.second != 0xff); return xd0_transformArr[link.second].m_originToAccum.basis; } void CPoseAsTransforms::Insert(const CSegId& id, const zeus::CMatrix3f& rotation, const zeus::CVector3f& offset, const zeus::CVector3f& restOffset) { Transform& xfOut = xd0_transformArr[x0_nextId]; xfOut.m_originToAccum = zeus::CTransform(rotation, offset); xfOut.m_restPoseToAccum = xfOut.m_originToAccum * zeus::CTransform::Translate(-restOffset); std::pair& link = x8_links[id]; link.first = xd4_lastInserted; link.second = x0_nextId; xd4_lastInserted = id; ++x0_nextId; } } // namespace urde