|
| OneDimension () |
|
| OneDimension (LPolynomialM *parent, int row) |
|
virtual T | f (DT x) const override |
|
virtual DT | limitHi () const override |
|
virtual DT | limitLo () const override |
|
virtual void | setLimits (DT lo, DT hi) override |
|
virtual ALFunction< DT, T > * | clone () override |
|
virtual ALFunction< DT, T > * | create_derivative () override |
|
virtual void | bound (const DT &xmin, const DT &xmax, T &ymin, T &ymax) override |
|
virtual void | setLimits (DT lo, DT hi)=0 |
|
virtual T | f (DT x) const=0 |
|
virtual void | f (DT *xvec, T *yvec, unsigned int count) const |
|
virtual void | bound (const DT &xmin, const DT &xmax, T &ymin, T &ymax)=0 |
|
void | bound (T &ymin, T &ymax) |
|
virtual | ~ALFunction () |
|
| ALFunction () |
|
const T | operator() (DT x) const |
|
bool | isInDomain (DT x) |
|
T | f_bounded (DT x) |
|
void | invalidateCachedBounds () |
|
◆ OneDimension() [1/2]
template<typename T , int N, int M>
◆ OneDimension() [2/2]
template<typename T , int N, int M>
◆ bound()
template<typename T , int N, int M>
◆ clone()
template<typename T , int N, int M>
◆ create_derivative()
template<typename T , int N, int M>
◆ f()
template<typename T , int N, int M>
◆ limitHi()
template<typename T , int N, int M>
◆ limitLo()
template<typename T , int N, int M>
◆ setLimits()
template<typename T , int N, int M>
◆ m_parent
template<typename T , int N, int M>
◆ m_row
template<typename T , int N, int M>
The documentation for this class was generated from the following file:
- /home/fascar/temp/adore/libadore/libadore/adore/mad/include/adore/mad/lpolynomial.h