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    Searched defs:m_matT (Results 1 - 3 of 3) sorted by null

/external/eigen/Eigen/src/Eigenvalues/
ComplexSchur.h	95 : m_matT(size,size), 113 : m_matT(matrix.rows(),matrix.cols()), 164 return m_matT; 246 ComplexMatrixType m_matT, m_matU; 260 /** If m_matT(i+1,i) is neglegible in floating point arithmetic 261 * compared to m_matT(i,i) and m_matT(j,j), then set it to zero and 266 RealScalar d = numext::norm1(m_matT.coeff(i,i)) + numext::norm1(m_matT.coeff(i+1,i+1)); 267 RealScalar sd = numext::norm1(m_matT.coeff(i+1,i))     [all...]
EigenSolver.h	113 EigenSolver() : m_eivec(), m_eivalues(), m_isInitialized(false), m_realSchur(), m_matT(), m_tmp() {} 127 m_matT(size, size), 152 m_matT(matrix.rows(), matrix.cols()), 306 MatrixType m_matT; 376 m_matT = m_realSchur.matrixT(); 385 if (i == matrix.cols() - 1 || m_matT.coeff(i+1, i) == Scalar(0)) 387 m_eivalues.coeffRef(i) = m_matT.coeff(i, i); 392 Scalar p = Scalar(0.5) * (m_matT.coeff(i, i) - m_matT.coeff(i+1, i+1)); 393 Scalar z = sqrt(abs(p * p + m_matT.coeff(i+1, i) * m_matT.coeff(i, i+1)))     [all...]
RealSchur.h	84 : m_matT(size, size), 104 : m_matT(matrix.rows(),matrix.cols()), 146 return m_matT; 225 MatrixType m_matT; 265 m_matT = matrixH; 272 m_workspaceVector.resize(m_matT.cols()); 275 // The matrix m_matT is divided in three parts. 276 // Rows 0,...,il-1 are decoupled from the rest because m_matT(il,il-1) is zero. 279 Index iu = m_matT.cols() - 1; 294 m_matT.coeffRef(iu,iu) = m_matT.coeff(iu,iu) + exshift     [all...]

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