#include "SpAlg.h" #include cSpAlg::tSpVec cSpAlg::ConvertCoordM(const tSpVec& m0, const tVector& origin0, const tVector& origin1) { return ConvertCoordM(m0, origin0, origin1, tMatrix::Identity()); } cSpAlg::tSpVec cSpAlg::ConvertCoordM(const tSpVec& m0, const tVector& origin0, const tMatrix& R0, const tVector& origin1, const tMatrix& R1) { tMatrix R = R1 * R0.transpose(); return ConvertCoordM(m0, origin0, origin1, R); } cSpAlg::tSpVec cSpAlg::ConvertCoordM(const tSpVec& m0, const tVector& origin0, const tVector& origin1, const tMatrix& R) { tSpTrans X = BuildTrans(R, origin1 - origin0); return ApplyTransM(X, m0); } cSpAlg::tSpVec cSpAlg::ConvertCoordF(const tSpVec& f0, const tVector& origin0, const tVector& origin1) { return ConvertCoordF(f0, origin0, origin1, tMatrix::Identity()); } cSpAlg::tSpVec cSpAlg::ConvertCoordF(const tSpVec& f0, const tVector& origin0, const tMatrix& R0, const tVector& origin1, const tMatrix& R1) { tMatrix R = R1 * R0.transpose(); return ConvertCoordF(f0, origin0, origin1, R); } cSpAlg::tSpVec cSpAlg::ConvertCoordF(const tSpVec& f0, const tVector& origin0, const tVector& origin1, const tMatrix& R) { tSpTrans X = BuildTrans(R, origin1 - origin0); return ApplyTransF(X, f0); } cSpAlg::tSpVec cSpAlg::CrossM(const tSpVec& sv, const tSpVec& m) { tVector sv_o = GetOmega(sv); tVector sv_v = GetV(sv); tVector m_o = GetOmega(m); tVector m_v = GetV(m); tVector o = sv_o.cross3(m_o); tVector v = sv_v.cross3(m_o) + sv_o.cross3(m_v); return BuildSV(o, v); } Eigen::MatrixXd cSpAlg::CrossMs(const tSpVec& sv, const Eigen::MatrixXd& ms) { assert(ms.rows() == gSpVecSize); Eigen::MatrixXd result(gSpVecSize, ms.cols()); for (int i = 0; i < ms.cols(); ++i) { const tSpVec& curr_m = ms.col(i); result.col(i) = CrossM(sv, curr_m); } return result; } cSpAlg::tSpVec cSpAlg::CrossF(const tSpVec& sv, const tSpVec& f) { tVector sv_o = GetOmega(sv); tVector sv_v = GetV(sv); tVector f_o = GetOmega(f); tVector f_v = GetV(f); tVector o = sv_o.cross3(f_o) + sv_v.cross3(f_v); tVector v = sv_o.cross3(f_v); return BuildSV(o, v); } Eigen::MatrixXd cSpAlg::CrossFs(const tSpVec& sv, const Eigen::MatrixXd& fs) { assert(fs.rows() == gSpVecSize); Eigen::MatrixXd result(gSpVecSize, fs.cols()); for (int i = 0; i < fs.cols(); ++i) { const tSpVec& curr_f = fs.col(i); result.col(i) = CrossF(sv, curr_f); } return result; } cSpAlg::tSpVec cSpAlg::BuildSV(const tVector& v) { return BuildSV(tVector::Zero(), v); } cSpAlg::tSpVec cSpAlg::BuildSV(const tVector& o, const tVector& v) { tSpVec sv; SetOmega(o, sv); SetV(v, sv); return sv; } tVector cSpAlg::GetOmega(const tSpVec& sv) { tVector o = tVector::Zero(); o.block(0, 0, 3, 1) = sv.block(0, 0, 3, 1); return o; } void cSpAlg::SetOmega(const tVector& o, tSpVec& out_sv) { out_sv.block(0, 0, 3, 1) = o.block(0, 0, 3, 1); } tVector cSpAlg::GetV(const tSpVec& sv) { tVector v = tVector::Zero(); v.block(0, 0, 3, 1) = sv.block(3, 0, 3, 1); return v; } void cSpAlg::SetV(const tVector& v, tSpVec& out_sv) { out_sv.block(3, 0, 3, 1) = v.block(0, 0, 3, 1); } cSpAlg::tSpTrans cSpAlg::BuildTrans() { return BuildTrans(tMatrix::Identity(), tVector::Zero()); } cSpAlg::tSpTrans cSpAlg::BuildTrans(const tMatrix& E, const tVector& r) { tSpTrans X; SetRad(r, X); SetRot(E, X); return X; } cSpAlg::tSpTrans cSpAlg::BuildTrans(const tVector& r) { return BuildTrans(tMatrix::Identity(), r); } cSpAlg::tSpTrans cSpAlg::MatToTrans(const tMatrix& mat) { tMatrix E = mat; tVector r = mat.col(3); r[3] = 0; r = -E.transpose() * r; return BuildTrans(E, r); } tMatrix cSpAlg::TransToMat(const tSpTrans& X) { tMatrix E = GetRot(X); tVector r = GetRad(X); tMatrix m = E; m.col(3) = -E * r; m(3, 3) = 1; return m; } cSpAlg::tSpMat cSpAlg::BuildSpatialMatM(const tSpTrans& X) { tSpMat m = tSpMat::Zero(); tMatrix E = GetRot(X); tVector r = GetRad(X); tMatrix Er = E * cMathUtil::CrossMat(r); m.block(0, 0, 3, 3) = E.block(0, 0, 3, 3); m.block(3, 3, 3, 3) = E.block(0, 0, 3, 3); m.block(3, 0, 3, 3) = -Er.block(0, 0, 3, 3); return m; } cSpAlg::tSpMat cSpAlg::BuildSpatialMatF(const tSpTrans& X) { tSpMat m = tSpMat::Zero(); tMatrix E = GetRot(X); tVector r = GetRad(X); tMatrix Er = E * cMathUtil::CrossMat(r); m.block(0, 0, 3, 3) = E.block(0, 0, 3, 3); m.block(3, 3, 3, 3) = E.block(0, 0, 3, 3); m.block(0, 3, 3, 3) = -Er.block(0, 0, 3, 3); return m; } cSpAlg::tSpTrans cSpAlg::InvTrans(const tSpTrans& X) { tMatrix E = GetRot(X); tVector r = GetRad(X); tSpTrans inv_X = BuildTrans(E.transpose(), -E * r); return inv_X; } tMatrix cSpAlg::GetRot(const tSpTrans& X) { tMatrix E = tMatrix::Zero(); E.block(0, 0, 3, 3) = X.block(0, 0, 3, 3); return E; } void cSpAlg::SetRot(const tMatrix& E, tSpTrans& out_X) { out_X.block(0, 0, 3, 3) = E.block(0, 0, 3, 3); } tVector cSpAlg::GetRad(const tSpTrans& X) { tVector r = tVector::Zero(); r.block(0, 0, 3, 1) = X.block(0, 3, 3, 1); return r; } void cSpAlg::SetRad(const tVector& r, tSpTrans& out_X) { out_X.block(0, 3, 3, 1) = r.block(0, 0, 3, 1); } cSpAlg::tSpVec cSpAlg::ApplyTransM(const tSpTrans& X, const tSpVec& sv) { tMatrix E = GetRot(X); tVector r = GetRad(X); tVector o0 = GetOmega(sv); tVector v0 = GetV(sv); tVector o1 = E * o0; tVector v1 = E * (v0 - r.cross3(o0)); tSpVec new_vec = BuildSV(o1, v1); return new_vec; } cSpAlg::tSpVec cSpAlg::ApplyTransF(const tSpTrans& X, const tSpVec& sv) { tMatrix E = GetRot(X); tVector r = GetRad(X); tVector o0 = GetOmega(sv); tVector v0 = GetV(sv); tVector o1 = E * (o0 - r.cross3(v0)); tVector v1 = E * v0; tSpVec new_vec = BuildSV(o1, v1); return new_vec; } Eigen::MatrixXd cSpAlg::ApplyTransM(const tSpTrans& X, const Eigen::MatrixXd& sm) { assert(sm.rows() == gSpVecSize); Eigen::MatrixXd result(gSpVecSize, sm.cols()); for (int i = 0; i < sm.cols(); ++i) { const tSpVec& curr_sv = sm.col(i); result.col(i) = ApplyTransM(X, curr_sv); } return result; } Eigen::MatrixXd cSpAlg::ApplyTransF(const tSpTrans& X, const Eigen::MatrixXd& sm) { assert(sm.rows() == gSpVecSize); Eigen::MatrixXd result(gSpVecSize, sm.cols()); for (int i = 0; i < sm.cols(); ++i) { const tSpVec& curr_sv = sm.col(i); result.col(i) = ApplyTransF(X, curr_sv); } return result; } cSpAlg::tSpVec cSpAlg::ApplyInvTransM(const tSpTrans& X, const tSpVec& sv) { tMatrix E = GetRot(X); tVector r = GetRad(X); tVector o0 = GetOmega(sv); tVector v0 = GetV(sv); tVector o1 = E.transpose() * o0; tVector v1 = E.transpose() * v0 + r.cross3(E.transpose() * o0); tSpVec new_vec = BuildSV(o1, v1); return new_vec; } cSpAlg::tSpVec cSpAlg::ApplyInvTransF(const tSpTrans& X, const tSpVec& sv) { tMatrix E = GetRot(X); tVector r = GetRad(X); tVector o0 = GetOmega(sv); tVector v0 = GetV(sv); tVector o1 = E.transpose() * o0 + r.cross3(E.transpose() * v0); tVector v1 = E.transpose() * v0; tSpVec new_vec = BuildSV(o1, v1); return new_vec; } Eigen::MatrixXd cSpAlg::ApplyInvTransM(const tSpTrans& X, const Eigen::MatrixXd& sm) { assert(sm.rows() == gSpVecSize); Eigen::MatrixXd result(sm.rows(), sm.cols()); for (int i = 0; i < sm.cols(); ++i) { const tSpVec& curr_sv = sm.col(i); result.col(i) = ApplyInvTransM(X, curr_sv); } return result; } Eigen::MatrixXd cSpAlg::ApplyInvTransF(const tSpTrans& X, const Eigen::MatrixXd& sm) { assert(sm.rows() == gSpVecSize); Eigen::MatrixXd result(sm.rows(), sm.cols()); for (int i = 0; i < sm.cols(); ++i) { const tSpVec& curr_sv = sm.col(i); result.col(i) = ApplyInvTransF(X, curr_sv); } return result; } cSpAlg::tSpTrans cSpAlg::CompTrans(const tSpTrans& X0, const tSpTrans& X1) { tMatrix E0 = GetRot(X0); tMatrix E1 = GetRot(X1); tVector r0 = GetRad(X0); tVector r1 = GetRad(X1); tSpTrans X = BuildTrans(E0 * E1, r1 + E1.transpose() * r0); return X; } cSpAlg::tSpTrans cSpAlg::GetTrans(const Eigen::MatrixXd& trans_arr, int j) { assert(trans_arr.rows() >= gSVTransRows); assert((trans_arr.rows() % gSVTransRows) == 0); assert(trans_arr.cols() == gSVTransCols); int row_idx = j * gSVTransRows; assert(row_idx <= trans_arr.rows() - gSVTransRows); tSpTrans X = trans_arr.block(row_idx, 0, gSVTransRows, gSVTransCols); return X; }