| add(adoreMatrix< T, 0, 1 > b, int rowi, int rowj) override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| ALFunction() | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| bound(const DT &xmin, const DT &xmax, CT &ymin, CT &ymax) override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| adore::mad::AScalarToN::bound(adoreMatrix< T, N, 1 > &ymin, adoreMatrix< T, N, 1 > &ymax) | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| cached_bounds_valid | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | private |
| cached_ymax | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | private |
| cached_ymin | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | private |
| clone() override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| create_derivative() override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| CT typedef | adore::mad::LPolynomialM< T, N, M > | |
| dimension(int i) override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| DT typedef | adore::mad::LPolynomialM< T, N, M > | |
| f(DT x) const override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| adore::mad::AScalarToN::f(T *xvec, adoreMatrix< T, N, 1 > *yvec, unsigned int count) const | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inlinevirtual |
| f_bounded(T x) | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| fi(T x, int row) const override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| invalidateCachedBounds() | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| isInDomain(T x) | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| limitHi() const override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| limitLo() const override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| LPolynomialM(const adoreMatrix< T, N, M+1 > &data, T xmin, T xmax) | adore::mad::LPolynomialM< T, N, M > | inline |
| m_data | adore::mad::LPolynomialM< T, N, M > | private |
| m_xmax | adore::mad::LPolynomialM< T, N, M > | private |
| m_xmin | adore::mad::LPolynomialM< T, N, M > | private |
| multiply(adoreMatrix< T, 0, 0 > A, int rowi, int rowj) override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| operator()(T x) const | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inline |
| operator*=(adoreMatrix< T, N, N > A) | adore::mad::AScalarToN< T, N > | inlinevirtual |
| operator+=(adoreMatrix< T, N, 1 > b) | adore::mad::AScalarToN< T, N > | inlinevirtual |
| operator-=(adoreMatrix< T, N, 1 > b) | adore::mad::AScalarToN< T, N > | inlinevirtual |
| setLimits(DT lo, DT hi) override | adore::mad::LPolynomialM< T, N, M > | inlinevirtual |
| single_dimensions | adore::mad::LPolynomialM< T, N, M > | private |
| SUBFUN typedef | adore::mad::LPolynomialM< T, N, M > | |
| toArray(DT *xvec, T *yvec, unsigned int count) | adore::mad::AScalarToN< T, N > | inline |
| toArray(DT *xvec, T *yvec, unsigned int count, unsigned int row) | adore::mad::AScalarToN< T, N > | inline |
| ~ALFunction() | adore::mad::ALFunction< T, adoreMatrix< T, N, 1 > > | inlinevirtual |
1.9.1