Addition Member List

This is the complete list of members for Addition, including all inherited members.

AD_backward(int dim, VariableType *varType, int *component, Operator *seed, Operator **df, int &nNewIS, TreeProjection ***newIS)Additionvirtual
AD_backward(int number, double seed, double *df)Additionvirtual
AD_backward2(int number, double seed1, double seed2, double *df, double *ddf)Additionvirtual
AD_forward(int dim, VariableType *varType, int *component, Operator **seed, int &nNewIS, TreeProjection ***newIS)Additionvirtual
AD_forward(int number, double *seed, double *df)Additionvirtual
AD_forward(int number, double *x, double *seed, double *f, double *df)Additionvirtual
AD_forward2(int number, double *seed1, double *seed2, double *df, double *ddf)Additionvirtual
AD_symmetric(int dim, VariableType *varType, int *component, Operator *l, Operator **S, int dimS, Operator **dfS, Operator **ldf, Operator **H, int &nNewLIS, TreeProjection ***newLIS, int &nNewSIS, TreeProjection ***newSIS, int &nNewHIS, TreeProjection ***newHIS)Additionvirtual
Addition()Addition
Addition(Operator *_argument1, Operator *_argument2)Addition
Addition(const Addition &arg)Addition
ADsymCommon(Operator *a, TreeProjection &da, TreeProjection &dda, int dim, VariableType *varType, int *component, Operator *l, Operator **S, int dimS, Operator **dfS, Operator **ldf, Operator **H, int &nNewLIS, TreeProjection ***newLIS, int &nNewSIS, TreeProjection ***newSIS, int &nNewHIS, TreeProjection ***newHIS)Operatorprotected
ADsymCommon2(Operator *a, Operator *b, TreeProjection &dx, TreeProjection &dy, TreeProjection &dxx, TreeProjection &dxy, TreeProjection &dyy, int dim, VariableType *varType, int *component, Operator *l, Operator **S, int dimS, Operator **dfS, Operator **ldf, Operator **H, int &nNewLIS, TreeProjection ***newLIS, int &nNewSIS, TreeProjection ***newSIS, int &nNewHIS, TreeProjection ***newHIS)Operatorprotected
argument1BinaryOperatorprotected
argument1_resultBinaryOperatorprotected
argument2BinaryOperatorprotected
argument2_resultBinaryOperatorprotected
BinaryOperator()BinaryOperator
BinaryOperator(Operator *_argument1, Operator *_argument2)BinaryOperator
BinaryOperator(const BinaryOperator &arg)BinaryOperator
bufferSizeBinaryOperatorprotected
clearBuffer()BinaryOperatorvirtual
clone() const Additionvirtual
cloneTreeProjection() const SmoothOperatorvirtual
convert2TreeProjection(Operator *a) const Operatorprotectedvirtual
copy(const BinaryOperator &arg)BinaryOperatorprotected
curvatureBinaryOperatorprotected
dargument1BinaryOperatorprotected
dargument1_resultBinaryOperatorprotected
dargument2BinaryOperatorprotected
dargument2_resultBinaryOperatorprotected
deleteAll()BinaryOperatorprotected
differentiate(int index)Additionvirtual
enumerateVariables(SymbolicIndexList *indexList)BinaryOperatorvirtual
evaluate(int number, double *x, double *result)Additionvirtual
evaluate(EvaluationBase *x)Additionvirtual
getCurvature()Additionvirtual
getGlobalIndex() const SmoothOperatorvirtual
getMonotonicity()Additionvirtual
getName()Additionvirtual
getValue() const Additionvirtual
initDerivative()BinaryOperatorvirtual
initializedOperatorprotected
isDependingOn(VariableType var) const BinaryOperatorvirtual
isDependingOn(int dim, VariableType *varType, int *component, BooleanType *implicit_dep)BinaryOperatorvirtual
isLinearIn(int dim, VariableType *varType, int *component, BooleanType *implicit_dep)Additionvirtual
isOneOrZero() const BinaryOperatorvirtual
isPolynomialIn(int dim, VariableType *varType, int *component, BooleanType *implicit_dep)Additionvirtual
isRationalIn(int dim, VariableType *varType, int *component, BooleanType *implicit_dep)Additionvirtual
isSmooth() const SmoothOperatorvirtual
isSymbolic() const BinaryOperatorvirtual
isTrivial() const Operatorvirtual
isVariable(VariableType &varType, int &component) const BinaryOperatorvirtual
loadIndices(SymbolicIndexList *indexList)BinaryOperatorvirtual
monotonicityBinaryOperatorprotected
myAdd(Operator *a, Operator *b)Operatorvirtual
myLogarithm(Operator *a)Operatorvirtual
myPower(Operator *a, Operator *b)Operatorvirtual
myPowerInt(Operator *a, int b)Operatorvirtual
myProd(Operator *a, Operator *b)Operatorvirtual
mySubtract(Operator *a, Operator *b)Operatorvirtual
nCountSmoothOperator
Operator()Operator
operator*(const double &arg) const SmoothOperator
operator*(const DVector &arg) const SmoothOperator
operator*(const DMatrix &arg) const SmoothOperator
operator*(const Operator &arg) const SmoothOperator
operator*(const Expression &arg) const SmoothOperator
operator*=(const double &arg)SmoothOperator
operator*=(const DVector &arg)SmoothOperator
operator*=(const DMatrix &arg)SmoothOperator
operator*=(const Expression &arg)SmoothOperator
operator+(const double &arg) const SmoothOperator
operator+(const DVector &arg) const SmoothOperator
operator+(const DMatrix &arg) const SmoothOperator
operator+(const Operator &arg) const SmoothOperator
operator+(const Expression &arg) const SmoothOperator
operator+=(const double &arg)SmoothOperator
operator+=(const DVector &arg)SmoothOperator
operator+=(const DMatrix &arg)SmoothOperator
operator+=(const Expression &arg)SmoothOperator
operator-(const double &arg) const SmoothOperator
operator-(const DVector &arg) const SmoothOperator
operator-(const DMatrix &arg) const SmoothOperator
operator-(const Operator &arg) const SmoothOperator
operator-(const Expression &arg) const SmoothOperator
operator-() const SmoothOperator
operator-=(const double &arg)SmoothOperator
operator-=(const DVector &arg)SmoothOperator
operator-=(const DMatrix &arg)SmoothOperator
operator-=(const Expression &arg)SmoothOperator
operator/(const double &arg) const SmoothOperator
operator/(const Operator &arg) const SmoothOperator
operator/(const Expression &arg) const SmoothOperator
operator/=(const double &arg)SmoothOperator
operator/=(const Expression &arg)SmoothOperator
operator<=(const double &ub) const SmoothOperator
operator<=(const DVector &ub) const SmoothOperator
operator<=(const VariablesGrid &ub) const SmoothOperator
operator=(const Addition &arg)Addition
BinaryOperator::operator=(const BinaryOperator &arg)BinaryOperator
SmoothOperator::operator=(const double &arg)SmoothOperatorvirtual
SmoothOperator::operator=(const DVector &arg)SmoothOperatorvirtual
SmoothOperator::operator=(const DMatrix &arg)SmoothOperatorvirtual
SmoothOperator::operator=(const Expression &arg)SmoothOperatorvirtual
SmoothOperator::operator=(const Operator &arg)SmoothOperatorvirtual
operator==(const double &b) const SmoothOperator
operator==(const DVector &b) const SmoothOperator
operator==(const VariablesGrid &b) const SmoothOperator
operator>=(const double &lb) const SmoothOperator
operator>=(const DVector &lb) const SmoothOperator
operator>=(const VariablesGrid &lb) const SmoothOperator
passArgument() const SmoothOperatorvirtual
print(std::ostream &stream) const Additionvirtual
setCurvature(CurvatureType curvature_)BinaryOperatorvirtual
setMonotonicity(MonotonicityType monotonicity_)BinaryOperatorvirtual
setVariableExportName(const VariableType &_type, const std::vector< std::string > &_name)BinaryOperatorvirtual
SmoothOperator()SmoothOperator
substitute(int index, const Operator *sub)Additionvirtual
~Addition()Addition
~BinaryOperator()BinaryOperatorvirtual
~Operator()Operatorvirtual
~SmoothOperator()SmoothOperatorvirtual


acado
Author(s): Milan Vukov, Rien Quirynen
autogenerated on Mon Jun 10 2019 12:35:22