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Kitware.VTK.vtkRungeKutta45 Class Reference

vtkRungeKutta45 - Integrate an initial value problem using 5th order Runge-Kutta method with adaptive stepsize control. More...

Inheritance diagram for Kitware.VTK.vtkRungeKutta45:
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Collaboration diagram for Kitware.VTK.vtkRungeKutta45:
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List of all members.

Public Member Functions

 vtkRungeKutta45 (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkRungeKutta45 ()
 Construct a vtkRungeKutta45 with no initial FunctionSet.
override int ComputeNextStep (IntPtr xprev, IntPtr xnext, double t, ref double delT, double maxError, ref double error)
 Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.
override int ComputeNextStep (IntPtr xprev, IntPtr dxprev, IntPtr xnext, double t, ref double delT, double maxError, ref double error)
 Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.
override int ComputeNextStep (IntPtr xprev, IntPtr xnext, double t, ref double delT, ref double delTActual, double minStep, double maxStep, double maxError, ref double error)
 Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.
override int ComputeNextStep (IntPtr xprev, IntPtr dxprev, IntPtr xnext, double t, ref double delT, ref double delTActual, double minStep, double maxStep, double maxError, ref double error)
 Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.
override int IsA (string type)
 Undocumented Block.
new vtkRungeKutta45 NewInstance ()
 Undocumented Block.

Static Public Member Functions

static new vtkRungeKutta45 New ()
 Construct a vtkRungeKutta45 with no initial FunctionSet.
static new int IsTypeOf (string type)
 Undocumented Block.
static new vtkRungeKutta45 SafeDownCast (vtkObjectBase o)
 Undocumented Block.

Public Attributes

new const string MRFullTypeName = "Kitware.VTK.vtkRungeKutta45"
 Automatically generated type registration mechanics.

Static Public Attributes

static new readonly string MRClassNameKey = "15vtkRungeKutta45"
 Automatically generated type registration mechanics.

Protected Member Functions

override void Dispose (bool disposing)
 Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Private Member Functions

static internal IntPtr vtkRungeKutta45_New (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal int vtkRungeKutta45_ComputeNextStep_01 (HandleRef pThis, IntPtr xprev, IntPtr xnext, double t, ref double delT, double maxError, ref double error)
static internal int vtkRungeKutta45_ComputeNextStep_02 (HandleRef pThis, IntPtr xprev, IntPtr dxprev, IntPtr xnext, double t, ref double delT, double maxError, ref double error)
static internal int vtkRungeKutta45_ComputeNextStep_03 (HandleRef pThis, IntPtr xprev, IntPtr xnext, double t, ref double delT, ref double delTActual, double minStep, double maxStep, double maxError, ref double error)
static internal int vtkRungeKutta45_ComputeNextStep_04 (HandleRef pThis, IntPtr xprev, IntPtr dxprev, IntPtr xnext, double t, ref double delT, ref double delTActual, double minStep, double maxStep, double maxError, ref double error)
static internal int vtkRungeKutta45_IsA_05 (HandleRef pThis, string type)
static internal int vtkRungeKutta45_IsTypeOf_06 (string type)
static internal IntPtr vtkRungeKutta45_NewInstance_08 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkRungeKutta45_SafeDownCast_09 (HandleRef o, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)

Static Private Member Functions

static vtkRungeKutta45 ()
 Automatically generated type registration mechanics.

Detailed Description

vtkRungeKutta45 - Integrate an initial value problem using 5th order Runge-Kutta method with adaptive stepsize control.


Constructor & Destructor Documentation

static Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45 ( ) [static, private]

Automatically generated type registration mechanics.

Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45 ( IntPtr  rawCppThis,
bool  callDisposalMethod,
bool  strong 
)

Automatically generated constructor - called from generated code. DO NOT call directly.

Construct a vtkRungeKutta45 with no initial FunctionSet.


Member Function Documentation

override int Kitware.VTK.vtkRungeKutta45.ComputeNextStep ( IntPtr  xprev,
IntPtr  xnext,
double  t,
ref double  delT,
double  maxError,
ref double  error 
) [virtual]

Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

override int Kitware.VTK.vtkRungeKutta45.ComputeNextStep ( IntPtr  xprev,
IntPtr  dxprev,
IntPtr  xnext,
double  t,
ref double  delT,
double  maxError,
ref double  error 
) [virtual]

Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

override int Kitware.VTK.vtkRungeKutta45.ComputeNextStep ( IntPtr  xprev,
IntPtr  xnext,
double  t,
ref double  delT,
ref double  delTActual,
double  minStep,
double  maxStep,
double  maxError,
ref double  error 
) [virtual]

Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

override int Kitware.VTK.vtkRungeKutta45.ComputeNextStep ( IntPtr  xprev,
IntPtr  dxprev,
IntPtr  xnext,
double  t,
ref double  delT,
ref double  delTActual,
double  minStep,
double  maxStep,
double  maxError,
ref double  error 
) [virtual]

Given initial values, xprev , initial time, t and a requested time interval, delT calculate values of x at t+delTActual (xnext). Possibly delTActual != delT. This may occur because this solver supports adaptive stepsize control. It tries to change to stepsize such that the (estimated) error of the integration is less than maxError. The solver will not set the stepsize smaller than minStep or larger than maxStep (note that maxStep and minStep should both be positive, whereas delT can be negative). Also note that delT is an in/out argument. vtkRungeKutta45 will modify delT to reflect the best (estimated) size for the next integration step. An estimated value for the error is returned (by reference) in error. This is the norm of the error vector if there are more than one function to be integrated. This method returns an error code representing the nature of the failure: OutOfDomain = 1, NotInitialized = 2, UnexpectedValue = 3.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

override void Kitware.VTK.vtkRungeKutta45.Dispose ( bool  disposing) [protected]

Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

override int Kitware.VTK.vtkRungeKutta45.IsA ( string  type) [virtual]

Undocumented Block.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

static new int Kitware.VTK.vtkRungeKutta45.IsTypeOf ( string  type) [static]

Undocumented Block.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

Construct a vtkRungeKutta45 with no initial FunctionSet.

Reimplemented from Kitware.VTK.vtkObject.

Undocumented Block.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

Undocumented Block.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

Here is the call graph for this function:

static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_ComputeNextStep_01 ( HandleRef  pThis,
IntPtr  xprev,
IntPtr  xnext,
double  t,
ref double  delT,
double  maxError,
ref double  error 
) [private]
static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_ComputeNextStep_02 ( HandleRef  pThis,
IntPtr  xprev,
IntPtr  dxprev,
IntPtr  xnext,
double  t,
ref double  delT,
double  maxError,
ref double  error 
) [private]
static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_ComputeNextStep_03 ( HandleRef  pThis,
IntPtr  xprev,
IntPtr  xnext,
double  t,
ref double  delT,
ref double  delTActual,
double  minStep,
double  maxStep,
double  maxError,
ref double  error 
) [private]
static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_ComputeNextStep_04 ( HandleRef  pThis,
IntPtr  xprev,
IntPtr  dxprev,
IntPtr  xnext,
double  t,
ref double  delT,
ref double  delTActual,
double  minStep,
double  maxStep,
double  maxError,
ref double  error 
) [private]
static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_IsA_05 ( HandleRef  pThis,
string  type 
) [private]
static internal int Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_IsTypeOf_06 ( string  type) [private]
static internal IntPtr Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_New ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_NewInstance_08 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkRungeKutta45.vtkRungeKutta45_SafeDownCast_09 ( HandleRef  o,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]

Member Data Documentation

new readonly string Kitware.VTK.vtkRungeKutta45.MRClassNameKey = "15vtkRungeKutta45" [static]

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.

new const string Kitware.VTK.vtkRungeKutta45.MRFullTypeName = "Kitware.VTK.vtkRungeKutta45"

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkInitialValueProblemSolver.


The documentation for this class was generated from the following file: