| applyOperator() | polynomial::RecursionRelationTwo | |
| differentiateS() | polynomial::RecursionRelationTwo | inline |
| differentiateX() | polynomial::RecursionRelationTwo | inline |
| evaluatePolynomial(const double &x, const double &s, const std::size_t &xDerivative, const std::size_t &sDerivative, const std::vector< double > &dSvalues) const | polynomial::RecursionRelationTwo | inline |
| getdSfactors(const std::size_t &xDerivative, const std::size_t &sDerivative, const std::size_t &p) const | polynomial::RecursionRelationTwo | inline |
| getMaxSDerivatives() const | polynomial::RecursionRelationTwo | inline |
| getMaxXDerivatives() const | polynomial::RecursionRelationTwo | inline |
| highestXorder_m | polynomial::RecursionRelationTwo | private |
| isPolynomialZero(const std::size_t &x, const std::size_t &s, const std::size_t &term) const | polynomial::RecursionRelationTwo | inline |
| numberOfTerms(const std::size_t &xDerivative, const std::size_t &sDerivative) const | polynomial::RecursionRelationTwo | inline |
| operator=(const RecursionRelationTwo &recursion) | polynomial::RecursionRelationTwo | |
| operator_m | polynomial::RecursionRelationTwo | private |
| power_m | polynomial::RecursionRelationTwo | private |
| printOperator() const | polynomial::RecursionRelationTwo | |
| RecursionRelationTwo() | polynomial::RecursionRelationTwo | |
| RecursionRelationTwo(const std::size_t &power, const std::size_t &highestXorder) | polynomial::RecursionRelationTwo | |
| RecursionRelationTwo(const RecursionRelationTwo &doperator) | polynomial::RecursionRelationTwo | |
| resizeS(const std::size_t &sDerivatives) | polynomial::RecursionRelationTwo | inline |
| resizeX(const std::size_t &xDerivatives) | polynomial::RecursionRelationTwo | inline |
| sortTerms() | polynomial::RecursionRelationTwo | inline |
| truncate(std::size_t highestXorder) | polynomial::RecursionRelationTwo | inline |
| ~RecursionRelationTwo() | polynomial::RecursionRelationTwo | |
