Searched refs:computeEigenvectors (Results 1 - 5 of 5) sorted by relevance
/external/eigen/Eigen/src/Eigenvalues/ |
H A D | SelfAdjointEigenSolver_MKL.h | 51 bool computeEigenvectors = (options&ComputeEigenvectors)==ComputeEigenvectors; \ 60 if(computeEigenvectors) m_eivec.setOnes(n,n); \ 63 m_eigenvectorsOk = computeEigenvectors; \ 70 jobz = computeEigenvectors ? 'V' : 'N'; \ 75 m_eigenvectorsOk = computeEigenvectors; \
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H A D | ComplexEigenSolver.h | 119 * \param[in] computeEigenvectors If true, both the eigenvectors and the 125 ComplexEigenSolver(const MatrixType& matrix, bool computeEigenvectors = true) 133 compute(matrix, computeEigenvectors); 144 * \p computeEigenvectors was set to true (the default). 190 * \param[in] computeEigenvectors If true, both the eigenvectors and the 197 * \p computeEigenvectors is true, then the eigenvectors are also computed 211 ComplexEigenSolver& compute(const MatrixType& matrix, bool computeEigenvectors = true); 246 void sortEigenvalues(bool computeEigenvectors); 252 ComplexEigenSolver<MatrixType>::compute(const MatrixType& matrix, bool computeEigenvectors) argument 259 m_schur.compute(matrix, computeEigenvectors); 314 sortEigenvalues(bool computeEigenvectors) argument [all...] |
H A D | SelfAdjointEigenSolver.h | 324 SelfAdjointEigenSolver(const MatrixType& matrix, bool computeEigenvectors) argument 330 compute(matrix, computeEigenvectors); 333 SelfAdjointEigenSolver(const MatrixType& matA, const MatrixType& matB, bool computeEigenvectors = true) 339 static_cast<GeneralizedSelfAdjointEigenSolver<MatrixType>*>(this)->compute(matA, matB, computeEigenvectors ? ComputeEigenvectors : EigenvaluesOnly); 342 void compute(const MatrixType& matrix, bool computeEigenvectors) argument 344 compute(matrix, computeEigenvectors ? ComputeEigenvectors : EigenvaluesOnly); 347 void compute(const MatrixType& matA, const MatrixType& matB, bool computeEigenvectors = true) 349 compute(matA, matB, computeEigenvectors ? ComputeEigenvectors : EigenvaluesOnly); 392 bool computeEigenvectors = (options&ComputeEigenvectors)==ComputeEigenvectors; local 399 if(computeEigenvectors) 550 bool computeEigenvectors = (options&ComputeEigenvectors)==ComputeEigenvectors; local 685 bool computeEigenvectors = (options&ComputeEigenvectors)==ComputeEigenvectors; local [all...] |
H A D | GeneralizedEigenSolver.h | 140 * \param[in] computeEigenvectors If true, both the eigenvectors and the 148 GeneralizedEigenSolver(const MatrixType& A, const MatrixType& B, bool computeEigenvectors = true) 158 compute(A, B, computeEigenvectors); 168 * \p computeEigenvectors was set to true (the default). 230 * \param[in] computeEigenvectors If true, both the eigenvectors and the 237 * \p computeEigenvectors is true, then the eigenvectors are also computed 249 GeneralizedEigenSolver& compute(const MatrixType& A, const MatrixType& B, bool computeEigenvectors = true); 291 GeneralizedEigenSolver<MatrixType>::compute(const MatrixType& A, const MatrixType& B, bool computeEigenvectors) argument 299 m_realQZ.compute(A, B, computeEigenvectors); 304 if (computeEigenvectors) [all...] |
H A D | EigenSolver.h | 134 * \param[in] computeEigenvectors If true, both the eigenvectors and the 146 EigenSolver(const MatrixType& matrix, bool computeEigenvectors = true) 155 compute(matrix, computeEigenvectors); 165 * \p computeEigenvectors was set to true (the default). 187 * \p computeEigenvectors was set to true (the default). 252 * \param[in] computeEigenvectors If true, both the eigenvectors and the 259 * \p computeEigenvectors is true, then the eigenvectors are also computed 268 * (where \f$ n \f$ is the size of the matrix) if \p computeEigenvectors 269 * is true, and \f$ 10n^3 \f$ if \p computeEigenvectors is false. 276 EigenSolver& compute(const MatrixType& matrix, bool computeEigenvectors 365 compute(const MatrixType& matrix, bool computeEigenvectors) argument [all...] |
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