Eigen::DiagonalProduct Member List

This is the complete list of members for Eigen::DiagonalProduct, including all inherited members.

Abs()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Abs() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
add_AAt(const OTHERMATRIX &A)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
add_Ac(const OTHERMATRIX &m, const Scalar c)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
adjoint() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
adjointInPlace()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
adjustRange(Scalar valMin, Scalar valMax)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
applyHouseholderOnTheLeft(const EssentialPart &essential, const Scalar &tau, Scalar *workspace)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
applyHouseholderOnTheRight(const EssentialPart &essential, const Scalar &tau, Scalar *workspace)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
applyOnTheLeft(const EigenBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
applyOnTheLeft(Index p, Index q, const JacobiRotation< OtherScalar > &j)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
applyOnTheRight(const EigenBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
applyOnTheRight(Index p, Index q, const JacobiRotation< OtherScalar > &j)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
array()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
array() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
asDiagonal() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
asPermutation() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
assign(const Scalar v)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
assign(size_t N, const Scalar v)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Base typedef	Eigen::DiagonalProduct
begin()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
begin() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
binaryExpr(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other, const CustomBinaryOp &func=CustomBinaryOp()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
blueNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cast() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
chol(MATRIX &U) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
coeff(Index row, Index col) const	Eigen::DiagonalProduct	[inline]
colPivHouseholderQr() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cols() const	Eigen::DiagonalProduct	[inline]
computeInverseAndDetWithCheck(ResultType &inverse, typename ResultType::Scalar &determinant, bool &invertible, const RealScalar &absDeterminantThreshold=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
computeInverseWithCheck(ResultType &inverse, bool &invertible, const RealScalar &absDeterminantThreshold=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
conjugate() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
const_iterator typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
ConstDiagonalReturnType typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
ConstStartMinusOne typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cos() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cosh() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
countNonZero() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cross(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cross3(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
cwiseAbs() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseAbs2() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseEqual(const Scalar &s) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseEqual(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseInverse() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseMax(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseMin(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseNotEqual(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseQuotient(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
cwiseSqrt() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
det() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
determinant() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal(Index index)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonal(Index index) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
DiagonalProduct(const MatrixType &matrix, const DiagonalType &diagonal)	Eigen::DiagonalProduct	[inline]
DiagonalReturnType typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
diagonalSize() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
dot(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
EIGEN_CWISE_PRODUCT_RETURN_TYPE(Derived, OtherDerived) cwiseProduct(const EIGEN_CURRENT_STORAGE_BASE_CLASS< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
eigenValues(VECTOR &eVals) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
eigenvalues() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
eigenVectors(MATRIX1 &eVecs, MATRIX2 &eVals) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
eigenVectorsSymmetric(MATRIX1 &eVecs, MATRIX2 &eVals) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
eigenVectorsSymmetricVec(MATRIX1 &eVecs, VECTOR1 &eVals) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
eigenVectorsVec(MATRIX1 &eVecs, VECTOR1 &eVals) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
empty() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
end()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
end() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
eulerAngles(Index a0, Index a1, Index a2) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
Exp()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Exp() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
exp() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
extractCol(size_t nCol, VECTOR &v, size_t startingRow=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractCol(size_t nCol, std::vector< T > &v, size_t startingRow=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractMatrix(const size_t firstRow, const size_t firstCol, MATRIX &m) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractMatrix(const size_t firstRow, const size_t firstCol, const size_t nRows, const size_t nCols, MATRIX &m) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractRow(size_t nRow, Eigen::EigenBase< OtherDerived > &v, size_t startingCol=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractRow(size_t nRow, std::vector< T > &v, size_t startingCol=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractRowAsCol(size_t nRow, VECTOR &v, size_t startingCol=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractSubmatrix(const size_t row_first, const size_t row_last, const size_t col_first, const size_t col_last, MATRIX &out) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractSubmatrixSymmetrical(const std::vector< size_t > &indices, MATRIX &out) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
extractSubmatrixSymmetricalBlocks(const size_t block_size, const std::vector< size_t > &block_indices, MATRIX &out) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
eye()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
fill(const Scalar v)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
find_index_max_value(size_t &u, size_t &v, Scalar &valMax) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
forceAlignedAccess() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
forceAlignedAccess()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
forceAlignedAccessIf() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
forceAlignedAccessIf()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
fromMatlabStringFormat(const std::string &s, bool dumpErrorMsgToStdErr=true)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
fullPivHouseholderQr() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
fullPivLu() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
get_unsafe(const size_t row, const size_t col) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
get_unsafe(const size_t row, const size_t col)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
get_unsafe_row(size_t row)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
get_unsafe_row(size_t row) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
getColCount() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
getRowCount() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
hnormalized() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
HNormalizedReturnType typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
homogeneous() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
HomogeneousReturnType typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
HomogeneousReturnTypeDirection enum value	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
householderQr() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
hypotNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
Identity()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
Identity(Index rows, Index cols)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
imag() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
imag()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
inMatlabFormat(const size_t decimal_digits=6) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
insertCol(size_t nCol, const MAT &aCol)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
insertCol(size_t nCol, const std::vector< R > &aCol)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
insertMatrix(size_t r, size_t c, const MAT &m)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
insertMatrixTranspose(size_t r, size_t c, const MAT &m)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
insertRow(size_t nRow, const MAT &aRow)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
insertRow(size_t nRow, const std::vector< R > &aRow)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
inv() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
inv(MATRIX &outMat) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
inv_fast(MATRIX &outMat) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
inverse() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isDiagonal() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
isDiagonal(RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isIdentity(RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isLowerTriangular(RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isOrthogonal(const MatrixBase< OtherDerived > &other, RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isSingular(const Scalar absThreshold=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
isSquare() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
isUnitary(RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
isUpperTriangular(RealScalar prec=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
iterator typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
jacobiSvd(unsigned int computationOptions=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
laplacian(Eigen::MatrixBase< OtherDerived > &ret) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
largestEigenvector(OUTVECT &x, Scalar resolution=Scalar(0.01), size_t maxIterations=6, int *out_Iterations=NULL, float *out_estimatedResolution=NULL) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
lazyProduct(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
ldlt() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
leftDivideSquare(const MAT2 &A, MAT3 &RES) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
llt() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
loadFromTextFile(const std::string &file)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
loadFromTextFile(std::istream &_input_text_stream)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
Log()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Log() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
log() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
lpNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
lu() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
m_diagonal	Eigen::DiagonalProduct	[protected]
m_matrix	Eigen::DiagonalProduct	[protected]
makeHouseholder(EssentialPart &essential, Scalar &tau, RealScalar &beta) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
makeHouseholderInPlace(Scalar &tau, RealScalar &beta)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
matrix()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
matrix() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
MatrixBase()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline, protected]
matrixFunction(StemFunction f) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
maximum() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
maximum(size_t *maxIndex) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
maximumDiagonal() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
mean() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
meanAndStd(VEC &outMeanVector, VEC &outStdVector, const bool unbiased_variance=true) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
meanAndStdAll(double &outMean, double &outStd, const bool unbiased_variance=true) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
minimum() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
minimum(size_t *minIndex) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
minimum_maximum(Scalar &out_min, Scalar &out_max) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
minimum_maximum(Scalar &out_min, Scalar &out_max, size_t *minIndex, size_t *maxIndex) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply(const MATRIX1 &A, const MATRIX2 &B)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_A_skew3(const MAT_A &A, const SKEW_3VECTOR &v)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AAt(const MAT_A &A)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AAt_scalar(const MAT_A &A, typename MAT_A::value_type f)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AB(const MATRIX1 &A, const MATRIX2 &B)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_Ab(const OTHERVECTOR1 &vIn, OTHERVECTOR2 &vOut, bool accumToOutput=false) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_ABC(const MAT_A &A, const MAT_B &B, const MAT_C &C)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_ABCt(const MAT_A &A, const MAT_B &B, const MAT_C &C)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_ABt(const MAT_A &A, const MAT_B &B)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AtA(const MAT_A &A)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AtA_scalar(const MAT_A &A, typename MAT_A::value_type f)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_Atb(const OTHERVECTOR1 &vIn, OTHERVECTOR2 &vOut, bool accumToOutput=false) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AtB(const MATRIX1 &A, const MATRIX2 &B)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_AtBC(const MAT_A &A, const MAT_B &B, const MAT_C &C)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_HCHt(const MAT_C &C, MAT_R &R, bool accumResultInOutput=false) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_HCHt_scalar(const MAT_C &C) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_HtCH(const MAT_C &C, MAT_R &R, bool accumResultInOutput=false) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_HtCH_scalar(const MAT_C &C) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_result_is_symmetric(const MAT_A &A, const MAT_B &B)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_skew3_A(const SKEW_3VECTOR &v, const MAT_A &A)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiply_subMatrix(const MAT_A &A, MAT_OUT &outResult, const size_t A_cols_offset, const size_t A_rows_offset, const size_t A_col_count) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiplyColumnByScalar(size_t c, Scalar s)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
multiplyRowByScalar(size_t r, Scalar s)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
noalias()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
norm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
norm_inf() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
normalize(Scalar valMin, Scalar valMax)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
normalize()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
normalized() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
ones(const size_t row, const size_t col)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
ones()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator!=(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator*(const Scalar &scalar) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator*(const RealScalar &scalar) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator*(const std::complex< Scalar > &scalar) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator*(const Scalar &scalar, const StorageBaseType &matrix)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[friend]
operator*(const std::complex< Scalar > &scalar, const StorageBaseType &matrix)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[friend]
operator*(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator*(const DiagonalBase< DiagonalDerived > &diagonal) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator*(const UniformScaling< Scalar > &s) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator*=(const EigenBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator+=(const MatrixBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator+=(const ArrayBase< OtherDerived > &)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline, protected]
operator-() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator-=(const MatrixBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator-=(const ArrayBase< OtherDerived > &)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline, protected]
operator/(const Scalar &scalar) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator=(const MatrixBase &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >::operator=(const DenseBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >::operator=(const EigenBase< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >::operator=(const ReturnByValue< OtherDerived > &other)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
operator==(const MatrixBase< OtherDerived > &other) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operator^=(const unsigned int pow)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
operatorNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
packet(Index row, Index col) const	Eigen::DiagonalProduct	[inline]
packet_impl(Index row, Index col, Index id, internal::true_type) const	Eigen::DiagonalProduct	[inline, protected]
packet_impl(Index row, Index col, Index id, internal::false_type) const	Eigen::DiagonalProduct	[inline, protected]
partialPivLu() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
PlainObject typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
push_back(Scalar val)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
rank(double threshold=0) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
real() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
real()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
removeColumns(const std::vector< size_t > &idxsToRemove)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
removeRows(const std::vector< size_t > &idxsToRemove)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
rightDivideSquare(const MAT2 &B, MAT3 &RES) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
rows() const	Eigen::DiagonalProduct	[inline]
saveToTextFile(const std::string &file, mrpt::math::TMatrixTextFileFormat fileFormat=mrpt::math::MATRIX_FORMAT_ENG, bool appendMRPTHeader=false, const std::string &userHeader=std::string()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
scalarPow(const Scalar s)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
selfadjointView()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
selfadjointView() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
set_unsafe(const size_t row, const size_t col, const Scalar val)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
setIdentity()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
setIdentity(Index rows, Index cols)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
setSize(size_t row, size_t col)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
sin() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
sinh() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
SizeMinusOne enum value	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
sparseView(const Scalar &m_reference=Scalar(0), typename NumTraits< Scalar >::Real m_epsilon=NumTraits< Scalar >::dummy_precision()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
sqrt() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
Sqrt()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Sqrt() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Square()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Square() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
squaredNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
squareNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
stableNorm() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
static_size enum value	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
StemFunction typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
substract_AAt(const OTHERMATRIX &A)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
substract_Ac(const OTHERMATRIX &m, const Scalar c)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
substract_An(const OTHERMATRIX &m, const size_t n)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
substract_At(const OTHERMATRIX &m)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
sumAll() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
swapCols(size_t i1, size_t i2)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
swapRows(size_t i1, size_t i2)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
t() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
trace() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
triangularView()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
triangularView() const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
unaryExpr(const CustomUnaryOp &func=CustomUnaryOp()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
unaryViewExpr(const CustomViewOp &func=CustomViewOp()) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
unit(const size_t nRows, const Scalar diag_vals)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
unit()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
Unit(Index size, Index i)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
Unit(Index i)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
unitOrthogonal(void) const	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
UnitW()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
UnitX()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
UnitY()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
UnitZ()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[static]
unsafeRemoveColumns(const std::vector< size_t > &idxs)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
unsafeRemoveRows(const std::vector< size_t > &idxs)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
value_type typedef	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
zeros()	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]
zeros(const size_t row, const size_t col)	Eigen::MatrixBase< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >	[inline]