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vtkImplicitPlaneRepresentation.h
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1/*=========================================================================
2
3 Program: Visualization Toolkit
4 Module: vtkImplicitPlaneRepresentation.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=========================================================================*/
57#ifndef vtkImplicitPlaneRepresentation_h
58#define vtkImplicitPlaneRepresentation_h
59
60#include "vtkInteractionWidgetsModule.h" // For export macro
61#include "vtkWidgetRepresentation.h"
62
63class vtkActor;
64class vtkBox;
65class vtkCellPicker;
66class vtkConeSource;
67class vtkCutter;
68class vtkFeatureEdges;
69class vtkImageData;
70class vtkLineSource;
71class vtkLookupTable;
72class vtkOutlineFilter;
73class vtkPlane;
74class vtkPlaneSource;
75class vtkPolyData;
76class vtkPolyDataAlgorithm;
77class vtkPolyDataMapper;
78class vtkProperty;
79class vtkSphereSource;
80class vtkTransform;
81class vtkTubeFilter;
82
83class VTKINTERACTIONWIDGETS_EXPORT vtkImplicitPlaneRepresentation : public vtkWidgetRepresentation
84{
85public:
89 static vtkImplicitPlaneRepresentation* New();
90
92
95 vtkTypeMacro(vtkImplicitPlaneRepresentation, vtkWidgetRepresentation);
96 void PrintSelf(ostream& os, vtkIndent indent) override;
98
100
103 void SetOrigin(double x, double y, double z);
104 void SetOrigin(double x[3]);
105 double* GetOrigin() VTK_SIZEHINT(3);
106 void GetOrigin(double xyz[3]);
108
110
113 void SetNormal(double x, double y, double z);
114 void SetNormal(double n[3]);
115 void SetNormalToCamera();
116 double* GetNormal() VTK_SIZEHINT(3);
117 void GetNormal(double xyz[3]);
119
121
128 void SetNormalToXAxis(vtkTypeBool);
129 vtkGetMacro(NormalToXAxis, vtkTypeBool);
130 vtkBooleanMacro(NormalToXAxis, vtkTypeBool);
131 void SetNormalToYAxis(vtkTypeBool);
132 vtkGetMacro(NormalToYAxis, vtkTypeBool);
133 vtkBooleanMacro(NormalToYAxis, vtkTypeBool);
134 void SetNormalToZAxis(vtkTypeBool);
135 vtkGetMacro(NormalToZAxis, vtkTypeBool);
136 vtkBooleanMacro(NormalToZAxis, vtkTypeBool);
138
140
145 virtual void SetLockNormalToCamera(vtkTypeBool);
146 vtkGetMacro(LockNormalToCamera, vtkTypeBool);
147 vtkBooleanMacro(LockNormalToCamera, vtkTypeBool);
149
151
155 vtkSetMacro(Tubing, vtkTypeBool);
156 vtkGetMacro(Tubing, vtkTypeBool);
157 vtkBooleanMacro(Tubing, vtkTypeBool);
159
161
167 void SetDrawPlane(vtkTypeBool plane);
168 vtkGetMacro(DrawPlane, vtkTypeBool);
169 vtkBooleanMacro(DrawPlane, vtkTypeBool);
171
173
176 void SetDrawOutline(vtkTypeBool plane);
177 vtkGetMacro(DrawOutline, vtkTypeBool);
178 vtkBooleanMacro(DrawOutline, vtkTypeBool);
180
182
186 vtkSetMacro(OutlineTranslation, vtkTypeBool);
187 vtkGetMacro(OutlineTranslation, vtkTypeBool);
188 vtkBooleanMacro(OutlineTranslation, vtkTypeBool);
190
192
196 vtkSetMacro(OutsideBounds, vtkTypeBool);
197 vtkGetMacro(OutsideBounds, vtkTypeBool);
198 vtkBooleanMacro(OutsideBounds, vtkTypeBool);
200
202
205 void SetXTranslationAxisOn() { this->TranslationAxis = Axis::XAxis; }
206 void SetYTranslationAxisOn() { this->TranslationAxis = Axis::YAxis; }
207 void SetZTranslationAxisOn() { this->TranslationAxis = Axis::ZAxis; }
208 void SetTranslationAxisOff() { this->TranslationAxis = Axis::NONE; }
210
212
215 bool IsTranslationConstrained() { return this->TranslationAxis != Axis::NONE; }
217
219
225 vtkSetVector6Macro(WidgetBounds, double);
226 vtkGetVector6Macro(WidgetBounds, double);
228
230
237 vtkSetMacro(ConstrainToWidgetBounds, vtkTypeBool);
238 vtkGetMacro(ConstrainToWidgetBounds, vtkTypeBool);
239 vtkBooleanMacro(ConstrainToWidgetBounds, vtkTypeBool);
241
243
246 vtkSetMacro(ScaleEnabled, vtkTypeBool);
247 vtkGetMacro(ScaleEnabled, vtkTypeBool);
248 vtkBooleanMacro(ScaleEnabled, vtkTypeBool);
250
255 void GetPolyData(vtkPolyData* pd);
256
261 vtkPolyDataAlgorithm* GetPolyDataAlgorithm();
262
270 void GetPlane(vtkPlane* plane);
271
277 void SetPlane(vtkPlane* plane);
278
283 void UpdatePlacement(void);
284
286
289 vtkGetObjectMacro(NormalProperty, vtkProperty);
290 vtkGetObjectMacro(SelectedNormalProperty, vtkProperty);
292
294
298 vtkGetObjectMacro(PlaneProperty, vtkProperty);
299 vtkGetObjectMacro(SelectedPlaneProperty, vtkProperty);
301
303
306 vtkGetObjectMacro(OutlineProperty, vtkProperty);
307 vtkGetObjectMacro(SelectedOutlineProperty, vtkProperty);
309
311
315 vtkGetObjectMacro(EdgesProperty, vtkProperty);
318
321 void SetEdgeColor(vtkLookupTable*);
322 void SetEdgeColor(double, double, double);
323 void SetEdgeColor(double c[3]);
325
327
332 vtkSetClampMacro(BumpDistance, double, 0.000001, 1);
333 vtkGetMacro(BumpDistance, double);
335
344 void BumpPlane(int dir, double factor);
345
352 void PushPlane(double distance);
353
355
358 int ComputeInteractionState(int X, int Y, int modify = 0) override;
359 void PlaceWidget(double bounds[6]) override;
360 void BuildRepresentation() override;
361 void StartWidgetInteraction(double eventPos[2]) override;
362 void WidgetInteraction(double newEventPos[2]) override;
363 void EndWidgetInteraction(double newEventPos[2]) override;
364 void StartComplexInteraction(vtkRenderWindowInteractor* iren, vtkAbstractWidget* widget,
365 unsigned long event, void* calldata) override;
366 void ComplexInteraction(vtkRenderWindowInteractor* iren, vtkAbstractWidget* widget,
367 unsigned long event, void* calldata) override;
368 int ComputeComplexInteractionState(vtkRenderWindowInteractor* iren, vtkAbstractWidget* widget,
369 unsigned long event, void* calldata, int modify = 0) override;
370 void EndComplexInteraction(vtkRenderWindowInteractor* iren, vtkAbstractWidget* widget,
371 unsigned long event, void* calldata) override;
373
375
378 double* GetBounds() VTK_SIZEHINT(6) override;
379 void GetActors(vtkPropCollection* pc) override;
380 void ReleaseGraphicsResources(vtkWindow*) override;
381 int RenderOpaqueGeometry(vtkViewport*) override;
382 int RenderTranslucentPolygonalGeometry(vtkViewport*) override;
383 vtkTypeBool HasTranslucentPolygonalGeometry() override;
385
386 // Manage the state of the widget
387 enum _InteractionState
388 {
389 Outside = 0,
390 Moving,
391 MovingOutline,
392 MovingOrigin,
393 Rotating,
394 Pushing,
395 Scaling
396 };
397
399
408 vtkSetClampMacro(InteractionState, int, Outside, Scaling);
410
412
416 virtual void SetRepresentationState(int);
417 vtkGetMacro(RepresentationState, int);
419
420 // Get the underlying implicit plane object used by this rep
421 // that can be used as a cropping plane in vtkMapper.
422 vtkPlane* GetUnderlyingPlane() { return this->Plane; }
423
425
429 virtual void SetCropPlaneToBoundingBox(bool);
430 vtkGetMacro(CropPlaneToBoundingBox, bool);
431 vtkBooleanMacro(CropPlaneToBoundingBox, bool);
433
435
439 vtkGetMacro(SnapToAxes, bool);
440 vtkSetMacro(SnapToAxes, bool);
442
444
450 vtkGetMacro(AlwaysSnapToNearestAxis, bool);
451 virtual void SetAlwaysSnapToNearestAxis(bool snap)
452 {
453 this->AlwaysSnapToNearestAxis = snap;
454 this->SetNormal(this->GetNormal());
455 }
457
458protected:
459 vtkImplicitPlaneRepresentation();
460 ~vtkImplicitPlaneRepresentation() override;
461
462 int RepresentationState;
463
464 // Keep track of event positions
465 double LastEventPosition[3];
466 double LastEventOrientation[4];
467 double StartEventOrientation[4];
468
469 // Controlling ivars
470 vtkTypeBool NormalToXAxis;
471 vtkTypeBool NormalToYAxis;
472 vtkTypeBool NormalToZAxis;
473
474 double SnappedEventOrientation[4];
475 bool SnappedOrientation;
476 bool SnapToAxes;
477
478 bool AlwaysSnapToNearestAxis;
479
480 // Locking normal to camera
481 vtkTypeBool LockNormalToCamera;
482
483 // Controlling the push operation
484 double BumpDistance;
485
486 // The actual plane which is being manipulated
487 vtkPlane* Plane;
488
489 int TranslationAxis;
490
491 // The bounding box is represented by a single voxel image data
492 vtkImageData* Box;
493 vtkOutlineFilter* Outline;
494 vtkPolyDataMapper* OutlineMapper;
495 vtkActor* OutlineActor;
496 void HighlightOutline(int highlight);
497 vtkTypeBool OutlineTranslation; // whether the outline can be moved
498 vtkTypeBool ScaleEnabled; // whether the widget can be scaled
499 vtkTypeBool OutsideBounds; // whether the widget can be moved outside input's bounds
500 double WidgetBounds[6];
501 vtkTypeBool ConstrainToWidgetBounds;
502
503 // The cut plane is produced with a vtkCutter
504 vtkCutter* Cutter;
505 vtkPlaneSource* PlaneSource; // used when plane cropping disabled
506 vtkPolyDataMapper* CutMapper;
507 vtkActor* CutActor;
508 vtkTypeBool DrawPlane;
509 vtkTypeBool DrawOutline;
510 void HighlightPlane(int highlight);
511
512 // Optional tubes are represented by extracting boundary edges and tubing
513 vtkFeatureEdges* Edges;
514 vtkTubeFilter* EdgesTuber;
515 vtkPolyDataMapper* EdgesMapper;
516 vtkActor* EdgesActor;
517 vtkTypeBool Tubing; // control whether tubing is on
518
519 // The + normal cone
520 vtkConeSource* ConeSource;
521 vtkPolyDataMapper* ConeMapper;
522 vtkActor* ConeActor;
523 void HighlightNormal(int highlight);
524
525 // The normal line
526 vtkLineSource* LineSource;
527 vtkPolyDataMapper* LineMapper;
528 vtkActor* LineActor;
529
530 // The - normal cone
531 vtkConeSource* ConeSource2;
532 vtkPolyDataMapper* ConeMapper2;
533 vtkActor* ConeActor2;
534
535 // The origin positioning handle
536 vtkSphereSource* Sphere;
537 vtkPolyDataMapper* SphereMapper;
538 vtkActor* SphereActor;
539
540 // Do the picking
541 vtkCellPicker* Picker;
542
543 // Register internal Pickers within PickingManager
544 void RegisterPickers() override;
545
546 // Transform the normal (used for rotation)
547 vtkTransform* Transform;
548
549 // Methods to manipulate the plane
550 void Rotate(double X, double Y, double* p1, double* p2, double* vpn);
551 void Rotate3D(double* p1, double* p2);
552 void TranslatePlane(double* p1, double* p2);
553 void TranslateOutline(double* p1, double* p2);
554 void TranslateOrigin(double* p1, double* p2);
555 void UpdatePose(double* p1, double* d1, double* p2, double* d2);
556 void Push(double* p1, double* p2);
557 void Scale(double* p1, double* p2, double X, double Y);
558 void SizeHandles();
559
560 // Properties used to control the appearance of selected objects and
561 // the manipulator in general.
562 vtkProperty* NormalProperty;
563 vtkProperty* SelectedNormalProperty;
564 vtkProperty* PlaneProperty;
565 vtkProperty* SelectedPlaneProperty;
566 vtkProperty* OutlineProperty;
567 vtkProperty* SelectedOutlineProperty;
568 vtkProperty* EdgesProperty;
569 virtual void CreateDefaultProperties();
570
571 void GeneratePlane();
572
573 bool CropPlaneToBoundingBox;
574
575 // Support GetBounds() method
576 vtkBox* BoundingBox;
577
578private:
579 vtkImplicitPlaneRepresentation(const vtkImplicitPlaneRepresentation&) = delete;
580 void operator=(const vtkImplicitPlaneRepresentation&) = delete;
581};
582
583#endif
vtkAbstractWidget
define the API for widget / widget representation
Definition: vtkAbstractWidget.h:63
vtkActor
represents an object (geometry & properties) in a rendered scene
Definition: vtkActor.h:155
vtkBox
implicit function for a bounding box
Definition: vtkBox.h:138
vtkCellPicker
ray-cast cell picker for all kinds of Prop3Ds
Definition: vtkCellPicker.h:96
vtkConeSource
generate polygonal cone
Definition: vtkConeSource.h:148
vtkCutter
Cut vtkDataSet with user-specified implicit function.
Definition: vtkCutter.h:163
vtkFeatureEdges
extract interior, boundary, non-manifold, and/or sharp edges from polygonal data
Definition: vtkFeatureEdges.h:137
vtkImageData
topologically and geometrically regular array of data
Definition: vtkImageData.h:157
vtkImplicitPlaneRepresentation
a class defining the representation for a vtkImplicitPlaneWidget2
Definition: vtkImplicitPlaneRepresentation.h:84
vtkImplicitPlaneRepresentation::Rotate
void Rotate(double X, double Y, double *p1, double *p2, double *vpn)
vtkImplicitPlaneRepresentation::SetZTranslationAxisOn
void SetZTranslationAxisOn()
Toggles constraint translation axis on/off.
Definition: vtkImplicitPlaneRepresentation.h:207
vtkImplicitPlaneRepresentation::EndWidgetInteraction
void EndWidgetInteraction(double newEventPos[2]) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::SetEdgeColor
void SetEdgeColor(vtkLookupTable *)
Set color to the edge.
vtkImplicitPlaneRepresentation::SetCropPlaneToBoundingBox
virtual void SetCropPlaneToBoundingBox(bool)
Control if the plane should be drawn cropped by the bounding box or without cropping.
vtkImplicitPlaneRepresentation::PlaceWidget
void PlaceWidget(double bounds[6]) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::GetPolyData
void GetPolyData(vtkPolyData *pd)
Grab the polydata that defines the plane.
vtkImplicitPlaneRepresentation::SetEdgeColor
void SetEdgeColor(double c[3])
Set color to the edge.
vtkImplicitPlaneRepresentation::Scale
void Scale(double *p1, double *p2, double X, double Y)
vtkImplicitPlaneRepresentation::CreateDefaultProperties
virtual void CreateDefaultProperties()
vtkImplicitPlaneRepresentation::GetPolyDataAlgorithm
vtkPolyDataAlgorithm * GetPolyDataAlgorithm()
Satisfies superclass API.
vtkImplicitPlaneRepresentation::HighlightPlane
void HighlightPlane(int highlight)
vtkImplicitPlaneRepresentation::ComputeInteractionState
int ComputeInteractionState(int X, int Y, int modify=0) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::SetOrigin
void SetOrigin(double x[3])
Get the origin of the plane.
vtkImplicitPlaneRepresentation::HighlightNormal
void HighlightNormal(int highlight)
vtkImplicitPlaneRepresentation::UpdatePlacement
void UpdatePlacement(void)
Satisfies the superclass API.
vtkImplicitPlaneRepresentation::BuildRepresentation
void BuildRepresentation() override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::GetPlane
void GetPlane(vtkPlane *plane)
Get the implicit function for the plane by copying the origin and normal of the cut plane into the pr...
vtkImplicitPlaneRepresentation::StartComplexInteraction
void StartComplexInteraction(vtkRenderWindowInteractor *iren, vtkAbstractWidget *widget, unsigned long event, void *calldata) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::Push
void Push(double *p1, double *p2)
vtkImplicitPlaneRepresentation::New
static vtkImplicitPlaneRepresentation * New()
Instantiate the class.
vtkImplicitPlaneRepresentation::SetAlwaysSnapToNearestAxis
virtual void SetAlwaysSnapToNearestAxis(bool snap)
Forces the plane's normal to be aligned with x, y or z axis.
Definition: vtkImplicitPlaneRepresentation.h:451
vtkImplicitPlaneRepresentation::ComputeComplexInteractionState
int ComputeComplexInteractionState(vtkRenderWindowInteractor *iren, vtkAbstractWidget *widget, unsigned long event, void *calldata, int modify=0) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::EndComplexInteraction
void EndComplexInteraction(vtkRenderWindowInteractor *iren, vtkAbstractWidget *widget, unsigned long event, void *calldata) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::WidgetInteraction
void WidgetInteraction(double newEventPos[2]) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::PrintSelf
void PrintSelf(ostream &os, vtkIndent indent) override
Standard methods for the class.
vtkImplicitPlaneRepresentation::ComplexInteraction
void ComplexInteraction(vtkRenderWindowInteractor *iren, vtkAbstractWidget *widget, unsigned long event, void *calldata) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::PushPlane
void PushPlane(double distance)
Push the plane the distance specified along the normal.
vtkImplicitPlaneRepresentation::SetOrigin
void SetOrigin(double x, double y, double z)
Get the origin of the plane.
vtkImplicitPlaneRepresentation::StartWidgetInteraction
void StartWidgetInteraction(double eventPos[2]) override
Methods to interface with the vtkImplicitPlaneWidget2.
vtkImplicitPlaneRepresentation::BumpPlane
void BumpPlane(int dir, double factor)
Translate the plane in the direction of the normal by the specified BumpDistance.
vtkImplicitPlaneRepresentation::TranslateOrigin
void TranslateOrigin(double *p1, double *p2)
vtkImplicitPlaneRepresentation::GetBounds
double * GetBounds() override
Methods supporting the rendering process.
vtkImplicitPlaneRepresentation::SetEdgeColor
void SetEdgeColor(double, double, double)
Set color to the edge.
vtkImplicitPlaneRepresentation::SetTranslationAxisOff
void SetTranslationAxisOff()
Toggles constraint translation axis on/off.
Definition: vtkImplicitPlaneRepresentation.h:208
vtkImplicitPlaneRepresentation::SetRepresentationState
virtual void SetRepresentationState(int)
Sets the visual appearance of the representation based on the state it is in.
vtkImplicitPlaneRepresentation::TranslatePlane
void TranslatePlane(double *p1, double *p2)
vtkImplicitPlaneRepresentation::UpdatePose
void UpdatePose(double *p1, double *d1, double *p2, double *d2)
vtkImplicitPlaneRepresentation::RegisterPickers
void RegisterPickers() override
Register internal Pickers in the Picking Manager.
vtkImplicitPlaneRepresentation::TranslateOutline
void TranslateOutline(double *p1, double *p2)
vtkImplicitPlaneRepresentation::IsTranslationConstrained
bool IsTranslationConstrained()
Returns true if ContrainedAxis.
Definition: vtkImplicitPlaneRepresentation.h:215
vtkImplicitPlaneRepresentation::GetOrigin
double * GetOrigin()
Get the origin of the plane.
vtkImplicitPlaneRepresentation::HighlightOutline
void HighlightOutline(int highlight)
vtkImplicitPlaneRepresentation::SetYTranslationAxisOn
void SetYTranslationAxisOn()
Toggles constraint translation axis on/off.
Definition: vtkImplicitPlaneRepresentation.h:206
vtkImplicitPlaneRepresentation::SetPlane
void SetPlane(vtkPlane *plane)
Alternative way to define the cutting plane.
vtkImplicitPlaneRepresentation::~vtkImplicitPlaneRepresentation
~vtkImplicitPlaneRepresentation() override
vtkImplicitPlaneRepresentation::Rotate3D
void Rotate3D(double *p1, double *p2)
vtkIndent
a simple class to control print indentation
Definition: vtkIndent.h:113
vtkLineSource
create a line defined by two end points
Definition: vtkLineSource.h:170
vtkLookupTable
map scalar values into colors via a lookup table
Definition: vtkLookupTable.h:178
vtkOutlineFilter
create wireframe outline for an arbitrary data set or composite dataset
Definition: vtkOutlineFilter.h:151
vtkPlaneSource
create an array of quadrilaterals located in a plane
Definition: vtkPlaneSource.h:164
vtkPlane
perform various plane computations
Definition: vtkPlane.h:143
vtkPolyDataAlgorithm
Superclass for algorithms that produce only polydata as output.
Definition: vtkPolyDataAlgorithm.h:151
vtkPolyDataMapper
map vtkPolyData to graphics primitives
Definition: vtkPolyDataMapper.h:146
vtkPolyData
concrete dataset represents vertices, lines, polygons, and triangle strips
Definition: vtkPolyData.h:195
vtkPropCollection
an ordered list of Props
Definition: vtkPropCollection.h:85
vtkProperty
represent surface properties of a geometric object
Definition: vtkProperty.h:171
vtkRenderWindowInteractor
platform-independent render window interaction including picking and frame rate control.
Definition: vtkRenderWindowInteractor.h:183
vtkSphereSource
create a polygonal sphere centered at the origin
Definition: vtkSphereSource.h:149
vtkTransform
describes linear transformations via a 4x4 matrix
Definition: vtkTransform.h:164
vtkTubeFilter
filter that generates tubes around lines
Definition: vtkTubeFilter.h:189
vtkViewport
abstract specification for Viewports
Definition: vtkViewport.h:47
vtkWidgetRepresentation
abstract class defines interface between the widget and widget representation classes
Definition: vtkWidgetRepresentation.h:60
vtkWindow
window superclass for vtkRenderWindow
Definition: vtkWindow.h:36
vtkX3D::dir
@ dir
Definition: vtkX3D.h:330
vtkTypeBool
int vtkTypeBool
Definition: vtkABI.h:69
VTK_SIZEHINT
#define VTK_SIZEHINT(...)
Definition: vtkWrappingHints.h:48
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