VTK  9.1.0
vtkLagrangianBasicIntegrationModel.h
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1/*=========================================================================
2
3 Program: Visualization Toolkit
4 Module: vtkLagrangianBasicIntegrationModel.h
5
6 Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
7 All rights reserved.
8 See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
9
10 This software is distributed WITHOUT ANY WARRANTY; without even
11 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
12 PURPOSE. See the above copyright notice for more information.
13
14=========================================================================*/
51#ifndef vtkLagrangianBasicIntegrationModel_h
52#define vtkLagrangianBasicIntegrationModel_h
53
54#include "vtkFiltersFlowPathsModule.h" // For export macro
55#include "vtkFunctionSet.h"
56#include "vtkNew.h" // For arrays
57#include "vtkWeakPointer.h" // For weak pointer
58
59#include <map> // for array indexes
60#include <mutex> // for mutexes
61#include <queue> // for new particles
62
65class vtkCell;
66class vtkCellData;
67class vtkDataArray;
68class vtkDataObject;
69class vtkDataSet;
70class vtkDataSetsType;
71class vtkDoubleArray;
72class vtkFieldData;
73class vtkGenericCell;
75class vtkIntArray;
78class vtkLocatorsType;
81class vtkPointData;
82class vtkPolyData;
83class vtkStringArray;
84class vtkSurfaceType;
86
87class VTKFILTERSFLOWPATHS_EXPORT vtkLagrangianBasicIntegrationModel : public vtkFunctionSet
88{
89public:
91 void PrintSelf(ostream& os, vtkIndent indent) override;
92
93 typedef enum SurfaceType
94 {
95 SURFACE_TYPE_MODEL = 0,
96 SURFACE_TYPE_TERM = 1,
97 SURFACE_TYPE_BOUNCE = 2,
98 SURFACE_TYPE_BREAK = 3,
99 SURFACE_TYPE_PASS = 4
100 } SurfaceType;
101
102 typedef enum VariableStep
103 {
104 VARIABLE_STEP_PREV = -1,
105 VARIABLE_STEP_CURRENT = 0,
106 VARIABLE_STEP_NEXT = 1,
107 } VariableStep;
108
109 typedef std::pair<unsigned int, vtkLagrangianParticle*> PassThroughParticlesItem;
110 typedef std::queue<PassThroughParticlesItem> PassThroughParticlesType;
111
112 using Superclass::FunctionValues;
120 int FunctionValues(double* x, double* f, void* userData) override;
121
123
129 virtual void SetLocator(vtkAbstractCellLocator* locator);
130 vtkGetObjectMacro(Locator, vtkAbstractCellLocator);
132
134
137 vtkGetMacro(LocatorsBuilt, bool);
138 vtkSetMacro(LocatorsBuilt, bool);
140
145
147
156 virtual void AddDataSet(
157 vtkDataSet* dataset, bool surface = false, unsigned int surfaceFlatIndex = 0);
158 virtual void ClearDataSets(bool surface = false);
160
162
165 vtkSetMacro(UseInitialIntegrationTime, bool);
166 vtkGetMacro(UseInitialIntegrationTime, bool);
167 vtkBooleanMacro(UseInitialIntegrationTime, bool);
169
171
174 vtkGetMacro(Tolerance, double);
176
178
181 vtkGetMacro(LocatorTolerance, double);
183
202 std::queue<vtkLagrangianParticle*>& particles, unsigned int& interactedSurfaceFlatIndex,
203 PassThroughParticlesType& passThroughParticles);
204
211 int idx, int port, int connection, int fieldAssociation, const char* name);
212
222 virtual bool FindInLocators(double* x, vtkLagrangianParticle* particle, vtkDataSet*& dataset,
223 vtkIdType& cellId, vtkAbstractCellLocator*& loc, double*& weights);
224
226
230 virtual bool FindInLocators(
231 double* x, vtkLagrangianParticle* particle, vtkDataSet*& dataset, vtkIdType& cellId);
232 virtual bool FindInLocators(double* x, vtkLagrangianParticle* particle);
234
239 virtual void InitializeParticle(vtkLagrangianParticle* vtkNotUsed(particle)) {}
240
249 virtual bool CheckAdaptiveStepReintegration(vtkLagrangianParticle* vtkNotUsed(particle))
250 {
251 return true;
252 }
253
262 virtual bool CheckFreeFlightTermination(vtkLagrangianParticle* vtkNotUsed(particle))
263 {
264 return false;
265 }
266
268
271 vtkSetMacro(NonPlanarQuadSupport, bool);
272 vtkGetMacro(NonPlanarQuadSupport, bool);
273 vtkBooleanMacro(NonPlanarQuadSupport, bool);
275
281
287
293
299
305
311
317
323
325
329 virtual int GetWeightsSize();
331
355 virtual bool ManualIntegration(vtkInitialValueProblemSolver* integrator, double* xcur,
356 double* xnext, double t, double& delT, double& delTActual, double minStep, double maxStep,
357 double maxError, double cellLength, double& error, int& integrationResult,
358 vtkLagrangianParticle* particle);
359
365 virtual void ParallelManualShift(vtkLagrangianParticle* vtkNotUsed(particle)) {}
366
372
378
384 virtual bool FinalizeOutputs(
385 vtkPolyData* vtkNotUsed(particlePathsOutput), vtkDataObject* vtkNotUsed(interractionOutput))
386 {
387 return true;
388 }
389
393 virtual void PreParticleInitalization() {}
394
398 virtual void PreIntegrate(std::queue<vtkLagrangianParticle*>& vtkNotUsed(particles)) {}
399
404 virtual vtkAbstractArray* GetSeedArray(int idx, vtkPointData* pointData);
405
413 vtkSetMacro(NumberOfTrackedUserData, int);
414 vtkGetMacro(NumberOfTrackedUserData, int);
415
422
429
435 virtual void InitializeParticleData(vtkFieldData* particleData, int maxTuples = 0);
436
443
450
457 virtual void InsertParticleData(
458 vtkLagrangianParticle* particle, vtkFieldData* data, int stepEnum);
459
466
473 virtual void ParticleAboutToBeDeleted(vtkLagrangianParticle* vtkNotUsed(particle)) {}
474
480 vtkLagrangianParticle* vtkNotUsed(particle), vtkPointData* vtkNotUsed(particleData))
481 {
482 }
483
484protected:
487
493 virtual int FunctionValues(vtkLagrangianParticle* particle, vtkDataSet* dataSet, vtkIdType cellId,
494 double* weights, double* x, double* f) = 0;
495
502 virtual vtkIdType FindInLocator(vtkDataSet* dataSet, vtkAbstractCellLocator* locator, double* x,
503 vtkGenericCell* cell, double* weights);
504
511
517 virtual bool BounceParticle(
518 vtkLagrangianParticle* particle, vtkDataSet* surface, vtkIdType cellId);
519
527 virtual bool BreakParticle(vtkLagrangianParticle* particle, vtkDataSet* surface, vtkIdType cellId,
528 std::queue<vtkLagrangianParticle*>& particles);
529
539 virtual bool InteractWithSurface(int surfaceType, vtkLagrangianParticle* particle,
540 vtkDataSet* surface, vtkIdType cellId, std::queue<vtkLagrangianParticle*>& particles);
541
548 virtual bool IntersectWithLine(vtkLagrangianParticle* particle, vtkCell* cell, double p1[3],
549 double p2[3], double tol, double& t, double x[3]);
550
556 vtkLagrangianParticle* particle, double interpolationFactor, bool forceInside = false);
557
564 vtkLagrangianParticle* particle, vtkDataSet* surface, vtkIdType cellId);
565
573
581 virtual bool GetFlowOrSurfaceData(vtkLagrangianParticle* particle, int idx,
582 vtkDataSet* flowDataSet, vtkIdType tupleId, double* weights, double* data);
583
592
599
609 const char* arrayName, vtkDataSet* dataset, int nComponent, double* defaultValues);
610
613 vtkLocatorsType* Locators;
614 vtkDataSetsType* DataSets;
615 int WeightsSize = 0;
616
617 struct ArrayVal
618 {
619 int val[3];
620 };
621 typedef std::pair<ArrayVal, std::string> ArrayMapVal;
622 std::map<int, ArrayMapVal> InputArrays;
623
625 {
626 int nComp;
627 int type;
628 std::vector<std::pair<int, std::string>> enumValues;
629 } SurfaceArrayDescription;
630 std::map<std::string, SurfaceArrayDescription> SurfaceArrayDescriptions;
631
632 vtkSurfaceType* Surfaces;
633 vtkLocatorsType* SurfaceLocators;
634
635 double Tolerance;
636 double LocatorTolerance = 0.001;
639 int NumberOfTrackedUserData = 0;
640
649
652
653private:
655 void operator=(const vtkLagrangianBasicIntegrationModel&) = delete;
656};
657
658#endif
Abstract superclass for all arrays.
an abstract base class for locators which find cells
represent and manipulate cell attribute data
Definition: vtkCellData.h:142
abstract class to specify cell behavior
Definition: vtkCell.h:147
abstract superclass for arrays of numeric data
Definition: vtkDataArray.h:159
general representation of visualization data
abstract class to specify dataset behavior
Definition: vtkDataSet.h:166
dynamic, self-adjusting array of double
represent and manipulate fields of data
Definition: vtkFieldData.h:164
Abstract interface for sets of functions.
provides thread-safe access to cells
a simple class to control print indentation
Definition: vtkIndent.h:113
Integrate a set of ordinary differential equations (initial value problem) in time.
dynamic, self-adjusting array of int
Definition: vtkIntArray.h:149
vtkFunctionSet abstract implementation to be used in the vtkLagrangianParticleTracker integrator.
virtual void InsertInteractionData(vtkLagrangianParticle *particle, vtkFieldData *data)
Method used by the LPT to insert data from the partice into the provided vtkFieldData.
virtual void InitializeParticle(vtkLagrangianParticle *vtkNotUsed(particle))
Initialize a particle by setting user variables and perform any user model specific operation.
virtual void SetInputArrayToProcess(int idx, int port, int connection, int fieldAssociation, const char *name)
Set a input array to process at a specific index, identified by a port, connection,...
virtual bool FinalizeOutputs(vtkPolyData *vtkNotUsed(particlePathsOutput), vtkDataObject *vtkNotUsed(interractionOutput))
Enable model post process on output Return true if successful, false otherwise Empty and Always retur...
virtual int GetFlowOrSurfaceDataFieldAssociation(int idx)
Recover a field association for a specified array index if it has been set using SetInputArrayToProce...
virtual vtkStringArray * GetSurfaceArrayEnumValues()
Get the surface arrays expected values and associated enums Used Only be the vtkLagrangianSurfaceHelp...
virtual vtkStringArray * GetSurfaceArrayNames()
Get the surface arrays expected name Used Only be the vtkLagrangianSurfaceHelper in ParaView plugins.
std::queue< PassThroughParticlesItem > PassThroughParticlesType
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
virtual void InitializeParticleData(vtkFieldData *particleData, int maxTuples=0)
Method used by the LPT to initialize data insertion in the provided vtkFieldData.
virtual bool TerminateParticle(vtkLagrangianParticle *particle)
Terminate a particle, by positioning flags.
virtual bool FindInLocators(double *x, vtkLagrangianParticle *particle, vtkDataSet *&dataset, vtkIdType &cellId)
Convienience methods to call FindInLocators with less arguments THESE METHODS ARE NOT THREAD-SAFE.
virtual void InterpolateNextParticleVariables(vtkLagrangianParticle *particle, double interpolationFactor, bool forceInside=false)
compute all particle variables using interpolation factor This method is thread-safe.
virtual void PreIntegrate(std::queue< vtkLagrangianParticle * > &vtkNotUsed(particles))
Enable model to modify particle before integration.
virtual void AddDataSet(vtkDataSet *dataset, bool surface=false, unsigned int surfaceFlatIndex=0)
Add a dataset to locate cells in This create a specific locator for the provided dataset using the Lo...
virtual void InitializePathData(vtkFieldData *data)
Method used by the LPT to initialize data insertion in the provided vtkFieldData.
virtual vtkLagrangianThreadedData * InitializeThreadedData()
Let the model allocate and initialize a threaded data.
virtual void SetTracker(vtkLagrangianParticleTracker *Tracker)
Set the parent tracker.
virtual bool CheckSurfacePerforation(vtkLagrangianParticle *particle, vtkDataSet *surface, vtkIdType cellId)
Given a particle, check if it perforate a surface cell ie : interact with next step after interacting...
virtual bool ManualIntegration(vtkInitialValueProblemSolver *integrator, double *xcur, double *xnext, double t, double &delT, double &delTActual, double minStep, double maxStep, double maxError, double cellLength, double &error, int &integrationResult, vtkLagrangianParticle *particle)
Let the model define it's own way to integrate Signature is very close to the integrator method signa...
virtual void SetLocator(vtkAbstractCellLocator *locator)
Set/Get the locator used to locate cells in the datasets.
virtual void InsertPathData(vtkLagrangianParticle *particle, vtkFieldData *data)
Method used by the LPT to insert data from the partice into the provided vtkFieldData.
virtual bool IntersectWithLine(vtkLagrangianParticle *particle, vtkCell *cell, double p1[3], double p2[3], double tol, double &t, double x[3])
Call vtkCell::IntersectWithLine This method is to be reimplemented in inherited classes willing to im...
std::pair< unsigned int, vtkLagrangianParticle * > PassThroughParticlesItem
virtual void InitializeInteractionData(vtkFieldData *data)
Method used by the LPT to initialize data insertion in the provided vtkFieldData.
virtual bool BounceParticle(vtkLagrangianParticle *particle, vtkDataSet *surface, vtkIdType cellId)
Bounce a particle, using the normal of the cell it bounces on.
virtual void ParticleAboutToBeDeleted(vtkLagrangianParticle *vtkNotUsed(particle))
Method to be reimplemented if needed in inherited classes.
virtual void FinalizeThreadedData(vtkLagrangianThreadedData *&data)
Let the model finalize and deallocate a user data at thread level This method is called serially for ...
int FunctionValues(double *x, double *f, void *userData) override
Evaluate integration model velocity f at position x.
virtual vtkIntArray * GetSurfaceArrayTypes()
Get the surface arrays expected type Used Only be the vtkLagrangianSurfaceHelper in ParaView plugins.
virtual bool CheckFreeFlightTermination(vtkLagrangianParticle *vtkNotUsed(particle))
Method to be reimplemented if needed in inherited classes.
virtual int GetFlowOrSurfaceDataNumberOfComponents(int idx, vtkDataSet *dataSet)
Recover the number of components for a specified array index if it has been set using SetInputArrayTo...
virtual bool CheckAdaptiveStepReintegration(vtkLagrangianParticle *vtkNotUsed(particle))
Method to be reimplemented if needed in inherited classes.
virtual void ClearDataSets(bool surface=false)
Add a dataset to locate cells in This create a specific locator for the provided dataset using the Lo...
virtual void InsertSurfaceInteractionData(vtkLagrangianParticle *vtkNotUsed(particle), vtkPointData *vtkNotUsed(particleData))
Method to be reimplemented if needed in inherited classes.
virtual vtkIntArray * GetSeedArrayComps()
Get the seed arrays expected number of components Used Only be the vtkLagrangianSeedHelper in ParaVie...
std::map< std::string, SurfaceArrayDescription > SurfaceArrayDescriptions
virtual vtkStringArray * GetSeedArrayNames()
Get the seed arrays expected name Used Only be the vtkLagrangianSeedHelper in ParaView plugins.
virtual void ComputeSurfaceDefaultValues(const char *arrayName, vtkDataSet *dataset, int nComponent, double *defaultValues)
Method used by ParaView surface helper to get default values for each leaf of each dataset of surface...
virtual bool FindInLocators(double *x, vtkLagrangianParticle *particle, vtkDataSet *&dataset, vtkIdType &cellId, vtkAbstractCellLocator *&loc, double *&weights)
Look for a dataset in this integration model containing the point x.
virtual vtkLagrangianParticle * ComputeSurfaceInteraction(vtkLagrangianParticle *particle, std::queue< vtkLagrangianParticle * > &particles, unsigned int &interactedSurfaceFlatIndex, PassThroughParticlesType &passThroughParticles)
Interact the current particle with a surfaces Return a particle to record as interaction point if not...
std::pair< ArrayVal, std::string > ArrayMapVal
virtual bool FindInLocators(double *x, vtkLagrangianParticle *particle)
Convienience methods to call FindInLocators with less arguments THESE METHODS ARE NOT THREAD-SAFE.
virtual void PreParticleInitalization()
Allow for model setup prior to Particle Initalization.
virtual vtkAbstractArray * GetSeedArray(int idx, vtkPointData *pointData)
Get a seed array, as set in setInputArrayToProcess from the provided seed point data.
virtual vtkAbstractArray * GetSeedArray(int idx, vtkLagrangianParticle *particle)
Get a seed array, as set in setInputArrayToProcess from the provided particle seed data Access then t...
virtual void ParallelManualShift(vtkLagrangianParticle *vtkNotUsed(particle))
Method called by parallel algorithm after receiving a particle from stream if PManualShift flag has b...
virtual bool InteractWithSurface(int surfaceType, vtkLagrangianParticle *particle, vtkDataSet *surface, vtkIdType cellId, std::queue< vtkLagrangianParticle * > &particles)
Call vtkLagrangianBasicIntegrationModel::Terminate This method is to be reimplemented in inherited cl...
virtual void InsertParticleSeedData(vtkLagrangianParticle *particle, vtkFieldData *data)
Method used by the LPT to insert data from the partice into the provided vtkFieldData.
virtual vtkIntArray * GetSurfaceArrayComps()
Get the seed array expected number of components Used Only be the vtkLagrangianSurfaceHelper in ParaV...
virtual int FunctionValues(vtkLagrangianParticle *particle, vtkDataSet *dataSet, vtkIdType cellId, double *weights, double *x, double *f)=0
Actually compute the integration model velocity field pure abstract, to be implemented in inherited c...
virtual vtkIntArray * GetSeedArrayTypes()
Get the seed arrays expected type Used Only be the vtkLagrangianSeedHelper in ParaView plugins.
virtual vtkDoubleArray * GetSurfaceArrayDefaultValues()
Get the surface arrays default values for each leaf Used Only be the vtkLagrangianSurfaceHelper in Pa...
vtkWeakPointer< vtkLagrangianParticleTracker > Tracker
virtual vtkIdType FindInLocator(vtkDataSet *dataSet, vtkAbstractCellLocator *locator, double *x, vtkGenericCell *cell, double *weights)
Look in the given dataset and associated locator to see if it contains the point x,...
virtual int GetWeightsSize()
Get the maximum weights size necessary for calling FindInLocators with weights.
virtual void InsertParticleData(vtkLagrangianParticle *particle, vtkFieldData *data, int stepEnum)
Method used by the LPT to insert data from the partice into the provided vtkFieldData.
virtual bool BreakParticle(vtkLagrangianParticle *particle, vtkDataSet *surface, vtkIdType cellId, std::queue< vtkLagrangianParticle * > &particles)
Breakup a particle at intersection point, by terminating it and creating two new particle using the i...
virtual bool GetFlowOrSurfaceData(vtkLagrangianParticle *particle, int idx, vtkDataSet *flowDataSet, vtkIdType tupleId, double *weights, double *data)
Directly get a double value from flow or surface data as defined in SetInputArrayToProcess.
Filter to inject and track particles in a flow.
Basis class for Lagrangian particles.
Composite dataset that organizes datasets into blocks.
composite dataset to encapsulates pieces of dataset.
represent and manipulate point attribute data
Definition: vtkPointData.h:142
concrete dataset represents vertices, lines, polygons, and triangle strips
Definition: vtkPolyData.h:195
a vtkAbstractArray subclass for strings
@ port
Definition: vtkX3D.h:453
@ name
Definition: vtkX3D.h:225
@ data
Definition: vtkX3D.h:321
struct to hold a user data
int vtkIdType
Definition: vtkType.h:332