CAPD::DynSys Library  6.0.0
capd::poincare::PoincareMap< SolverT, SectionT > Member List

This is the complete list of members for capd::poincare::PoincareMap< SolverT, SectionT >, including all inherited members.

AffineCoordinateChange typedefcapd::poincare::PoincareMap< SolverT, SectionT >
BasicPoincareMap(Solver &solver, SectionType &section, CrossingDirection direction=Both, const RealType &errorTolerance=pow(TypeTraits< RealType >::epsilon(), RealType(14.)/RealType(15.)))capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BoundType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
C0Set typedefcapd::poincare::PoincareMap< SolverT, SectionT >
C1Set typedefcapd::poincare::PoincareMap< SolverT, SectionT >
C2Set typedefcapd::poincare::PoincareMap< SolverT, SectionT >
checkTransversability(const T &theSet, const VectorType &bounds)capd::poincare::PoincareMap< SolverT, SectionT >protected
CnSet typedefcapd::poincare::PoincareMap< SolverT, SectionT >
computeDP(const VectorType &Px, const MatrixType &derivativeOfFlow, VectorType &dT, ScalarType returnTime=TypeTraits< ScalarType >::zero())capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
computeDP(const VectorType &Px, const MatrixType &derivativeOfFlow, ScalarType returnTime=TypeTraits< ScalarType >::zero())capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
computeDP(const VectorType &Px, const MatrixType &derivativeOfFlow, const HessianType &hessianOfFlow, MatrixType &DP, HessianType &D2P, VectorType &dT, MatrixType &d2T, ScalarType returnTime=TypeTraits< ScalarType >::zero())capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
computeDP(const VectorType &Px, const MatrixType &derivativeOfFlow, const HessianType &hessianOfFlow, MatrixType &DP, HessianType &D2P, ScalarType returnTime=TypeTraits< ScalarType >::zero())capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
computeDP(const JetT &DPhi)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
computePoincareMap(T &originalSet, int n)capd::poincare::PoincareMap< SolverT, SectionT >protected
CrossingDirection typedefcapd::poincare::PoincareMap< SolverT, SectionT >
crossSection(T &theSet, T &nextSet)capd::poincare::PoincareMap< SolverT, SectionT >protected
crossSectionInOneStep(T &theSet, T &nextSet, ScalarType &oneStepReturnTime, VectorType &bound)capd::poincare::PoincareMap< SolverT, SectionT >protected
CurveType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
findRelativeCrossingTime(ScalarType timeJustBeforeSection, const CurveType &curve)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
getCloserToSection(T &theSet, T &nextSet)capd::poincare::PoincareMap< SolverT, SectionT >protected
getDynamicalSystem() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getDynamicalSystem()capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getOrder() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getSection() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getSectionDerivativesEnclosure() constcapd::poincare::PoincareMap< SolverT, SectionT >inline
getSign(const T &theSet, VectorType &position, bool updatePosition, const VectorType &bounds)capd::poincare::PoincareMap< SolverT, SectionT >protected
getSign(const T &theSet, VectorType &position, bool updatePosition)capd::poincare::PoincareMap< SolverT, SectionT >protected
getSign(const T &theSet)capd::poincare::PoincareMap< SolverT, SectionT >protected
getSolver() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getSolver()capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getStep() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getVectorField()capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
getVectorField() constcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
HessianType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
integrateUntilSectionCrossing(T &theSet, T &nextSet, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >protected
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::integrateUntilSectionCrossing(T &x, int n=1, ScalarType *lastStep=0)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
JetType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
m_blowUpMaxNormcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
m_crossingDirectioncapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
m_lastTimeStepcapd::poincare::PoincareMap< SolverT, SectionT >protected
m_maxReturnTimecapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
m_sectioncapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
m_sectionFactorcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
m_signBeforeSectioncapd::poincare::PoincareMap< SolverT, SectionT >protected
m_solvercapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >protected
MatrixType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
maxCorrectionAttemptscapd::poincare::PoincareMap< SolverT, SectionT >
minCrossingTimeStepcapd::poincare::PoincareMap< SolverT, SectionT >
onOffStepControl(bool sc)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
operator()(T &theSet, const VectorType &x0, const MatrixType &A, ScalarType &out_returnTime, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, ScalarType &out_returnTime, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, MatrixType &dF, ScalarType &out_returnTime, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, MatrixType &dF, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, MatrixType &dF, HessianType &hessian, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, MatrixType &dF, HessianType &hessian, ScalarType &out_returnTime, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, typename T::JetType &result, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
operator()(T &theSet, typename T::JetType &result, ScalarType &out_returnTime, int n=1)capd::poincare::PoincareMap< SolverT, SectionT >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(const VectorType &v)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(VectorType v, ScalarType &in_out_time)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(const VectorType &v, VectorType &afterSection)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(VectorType v, VectorType &afterSection, ScalarType &in_out_time)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(const VectorType &v, MatrixType &dF)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(VectorType v, MatrixType &dF, ScalarType &in_out_time)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(const VectorType &v, MatrixType &dF, HessianType &h)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(VectorType v, MatrixType &dF, HessianType &h, ScalarType &in_out_time)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(JetType &x)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >::operator()(JetType &x, ScalarType &in_out_time)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
PoincareMap(Solver &solver, SectionType &section, CrossingDirection direction=Both, const BoundType &errorTolerance=0.1)capd::poincare::PoincareMap< SolverT, SectionT >
RealType typedefcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
ScalarType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
sectionCoordinateSystemcapd::poincare::PoincareMap< SolverT, SectionT >protected
sectionDerivativesEnclosurecapd::poincare::PoincareMap< SolverT, SectionT >protected
SectionDerivativesEnclosureType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
SectionType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
setBlowUpMaxNorm(double blowUpMaxNorm)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setCrossingDirection(CrossingDirection cs)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setFactor(double newFactor)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setMaxReturnTime(double maxReturnTime)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setOrder(size_type newOrder)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setSection(const SectionType &newSection)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
setStep(const ScalarType &newStep)capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
size_type typedefcapd::poincare::PoincareMap< SolverT, SectionT >
SolutionCurve typedefcapd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >
Solver typedefcapd::poincare::PoincareMap< SolverT, SectionT >
timeStepCorrectionFactorcapd::poincare::PoincareMap< SolverT, SectionT >
turnOffStepControl()capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
turnOnStepControl()capd::poincare::BasicPoincareMap< SolverT, AbstractSection< typename SolverT::MatrixType > >inline
VectorFieldType typedefcapd::poincare::PoincareMap< SolverT, SectionT >
VectorType typedefcapd::poincare::PoincareMap< SolverT, SectionT >