calculate(Result &result, std::vector< Result > *gradient) | MEAL::ChainRule< MEAL::Complex2 > | protected |
ChainRule() | MEAL::ChainRule< MEAL::Complex2 > | |
ChainRule(const ChainRule &rule) | MEAL::ChainRule< MEAL::Complex2 > | |
constraints | MEAL::ChainRule< MEAL::Complex2 > | protected |
find_constraint(unsigned iparam) | MEAL::ChainRule< MEAL::Complex2 > | protected |
get_name() const | Calibration::SingleAxisPolynomial | |
ChainRule< MEAL::Complex2 >::get_name() const | MEAL::ChainRule< MEAL::Complex2 > | |
model | MEAL::ChainRule< MEAL::Complex2 > | protected |
npoly | Calibration::SingleAxisPolynomial | static |
operator=(const SingleAxisPolynomial &) | Calibration::SingleAxisPolynomial | |
ChainRule< MEAL::Complex2 >::operator=(const ChainRule &rule) | MEAL::ChainRule< MEAL::Complex2 > | |
polynomial | Calibration::SingleAxisPolynomial | protected |
random(double max_result, double max_abscissa) | Calibration::SingleAxisPolynomial | |
set_abscissa(double value) | Calibration::SingleAxisPolynomial | |
set_argument(unsigned dimension, MEAL::Argument *axis) | Calibration::SingleAxisPolynomial | |
set_constraint(unsigned iparam, Scalar *scalar) | MEAL::ChainRule< MEAL::Complex2 > | |
set_infit(unsigned coef, bool fit) | Calibration::SingleAxisPolynomial | |
set_model(T *model) | MEAL::ChainRule< MEAL::Complex2 > | |
SingleAxisPolynomial(unsigned ncoef=0) | Calibration::SingleAxisPolynomial | |
SingleAxisPolynomial(const SingleAxisPolynomial &) | Calibration::SingleAxisPolynomial | |
xform | Calibration::SingleAxisPolynomial | protected |
~SingleAxisPolynomial() | Calibration::SingleAxisPolynomial | |