| /external/eigen/doc/snippets/ |
| H A D | ComplexSchur_compute.cpp | 4 cout << "The matrix T in the decomposition of A is:" << endl << schur.matrixT() << endl;
6 cout << "The matrix T in the decomposition of A^(-1) is:" << endl << schur.matrixT() << endl;
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| H A D | RealSchur_compute.cpp | 4 cout << "The matrix T in the decomposition of A is:" << endl << schur.matrixT() << endl;
6 cout << "The matrix T in the decomposition of A^(-1) is:" << endl << schur.matrixT() << endl;
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| H A D | Tridiagonalization_compute.cpp | 6 cout << tri.matrixT() << endl;
9 cout << tri.matrixT() << endl;
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| H A D | ComplexSchur_matrixT.cpp | 4 cout << "The triangular matrix T is:" << endl << schurOfA.matrixT() << endl;
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| H A D | RealSchur_RealSchur_MatrixType.cpp | 6 cout << "The quasi-triangular matrix T is:" << endl << schur.matrixT() << endl << endl;
9 MatrixXd T = schur.matrixT();
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| H A D | Tridiagonalization_packedMatrix.cpp | 8 << endl << triOfA.matrixT() << endl;
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| H A D | RealQZ_compute.cpp | 8 cout << "S:\n" << qz.matrixS() << "\n" << "T:\n" << qz.matrixT() << "\n";
14 << ", |B-QTZ|: " << (B-qz.matrixQ()*qz.matrixT()*qz.matrixZ()).norm()
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| H A D | Tridiagonalization_Tridiagonalization_MatrixType.cpp | 7 MatrixXd T = triOfA.matrixT();
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| H A D | Tridiagonalization_diagonal.cpp | 6 MatrixXd T = triOfA.matrixT();
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| /external/eigen/test/ |
| H A D | schur_complex.cpp | 25 ComplexMatrixType T = schurOfA.matrixT();
36 VERIFY_RAISES_ASSERT(csUninitialized.matrixT());
47 VERIFY_IS_EQUAL(cs1.matrixT(), cs2.matrixT());
54 VERIFY_IS_EQUAL(cs3.matrixT(), cs1.matrixT());
64 VERIFY_IS_EQUAL(cs3.matrixT(), Atriangular.template cast<ComplexScalar>());
70 VERIFY_IS_EQUAL(cs1.matrixT(), csOnlyT.matrixT());
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| H A D | schur_real.cpp | 48 MatrixType T = schurOfA.matrixT();
55 VERIFY_RAISES_ASSERT(rsUninitialized.matrixT());
66 VERIFY_IS_EQUAL(rs1.matrixT(), rs2.matrixT());
73 VERIFY_IS_EQUAL(rs3.matrixT(), rs1.matrixT());
85 VERIFY_IS_EQUAL(rs3.matrixT(), Atriangular);
91 VERIFY_IS_EQUAL(rs1.matrixT(), rsOnlyT.matrixT());
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| H A D | real_qz.cpp | 35 if (abs(qz.matrixT()(i,j))!=Scalar(0.0))
44 VERIFY_IS_APPROX(qz.matrixQ()*qz.matrixT()*qz.matrixZ(), B);
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| H A D | eigensolver_selfadjoint.cpp | 115 VERIFY_IS_APPROX(MatrixType(symmC.template selfadjointView<Lower>()), tridiag.matrixQ() * tridiag.matrixT().eval() * MatrixType(tridiag.matrixQ()).adjoint());
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| /external/eigen/test/eigen2/ |
| H A D | eigen2_qr.cpp | 35 VERIFY_IS_APPROX(b, tridiag.matrixQ() * tridiag.matrixT() * tridiag.matrixQ().adjoint());
40 VERIFY_IS_APPROX(tridiag.matrixT(), hess.matrixH());
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| /external/eigen/Eigen/src/Eigenvalues/ |
| H A D | ComplexEigenSolver.h | 263 m_eivalues = m_schur.matrixT().diagonal();
289 m_matX.coeffRef(i,k) = -m_schur.matrixT().coeff(i,k);
291 m_matX.coeffRef(i,k) -= (m_schur.matrixT().row(i).segment(i+1,k-i-1) * m_matX.col(k).segment(i+1,k-i-1)).value();
292 ComplexScalar z = m_schur.matrixT().coeff(i,i) - m_schur.matrixT().coeff(k,k);
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| H A D | GeneralizedEigenSolver.h | 316 m_betas.coeffRef(i) = m_realQZ.matrixT().coeff(i,i);
326 m_betas.coeffRef(i) = m_realQZ.matrixT().coeff(i,i);
327 m_betas.coeffRef(i+1) = m_realQZ.matrixT().coeff(i,i);
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| H A D | ComplexSchur.h | 44 * decomposition is computed, you can use the matrixU() and matrixT()
110 * \sa matrixT() and matrixU() for examples.
156 * \code schur.matrixT().triangularView<Upper>() \endcode
161 const ComplexMatrixType& matrixT() const function in class:Eigen::ComplexSchur
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| H A D | Tridiagonalization.h | 53 * matrixQ() and matrixT() functions to retrieve the matrices Q and T in the
236 * matrixT(), class HouseholderSequence
263 MatrixTReturnType matrixT() const function in class:Eigen::Tridiagonalization
280 * \sa matrixT(), subDiagonal()
292 * \sa diagonal() for an example, matrixT()
522 * \brief Expression type for return value of Tridiagonalization::matrixT()
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| H A D | EigenSolver.h | 376 m_matT = m_realSchur.matrixT();
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| H A D | RealSchur.h | 43 * matrixT() functions to retrieve the matrices U and T in the decomposition.
143 const MatrixType& matrixT() const function in class:Eigen::RealSchur
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| H A D | RealQZ.h | 43 * matrixT(), matrixQ() and matrixZ() functions to retrieve the matrices
148 const MatrixType& matrixT() const { function in class:Eigen::RealQZ
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| /external/eigen/unsupported/Eigen/src/IterativeSolvers/ |
| H A D | DGMRES.h | 404 return schurofH.matrixT().diagonal();
411 const DenseMatrix& T = schurofH.matrixT();
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| /external/eigen/unsupported/Eigen/src/MatrixFunctions/ |
| H A D | MatrixSquareRoot.h | 354 const MatrixType& T = schurOfA.matrixT();
387 const MatrixType& T = schurOfA.matrixT();
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| H A D | MatrixFunction.h | 220 m_T = schurOfA.matrixT();
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| H A D | MatrixPower.h | 381 m_T = schurOfA.matrixT();
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