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source: vtkvis/branches/1.8/Glyphs.cpp @ 6183

Last change on this file since 6183 was 5836, checked in by ldelgass, 9 years ago
merge r5835 from vtkvis trunk (remove support for VTK 5)
Property svn:eol-style set to `native`
File size: 29.3 KB

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1	/* -- mode: c++; c-basic-offset: 4; indent-tabs-mode: nil -- */
2	/*
3	* Copyright (C) 2004-2012 HUBzero Foundation, LLC
4	*
5	* Author: Leif Delgass <ldelgass@purdue.edu>
6	*/
7
8	#include <cstring>
9	#include <cfloat>
10
11	#include <vtkDataSet.h>
12	#include <vtkPointData.h>
13	#include <vtkCellData.h>
14	#include <vtkCellDataToPointData.h>
15	#include <vtkProp.h>
16	#include <vtkActor.h>
17	#include <vtkProperty.h>
18	#include <vtkGlyph3D.h>
19	#include <vtkLineSource.h>
20	#include <vtkArrowSource.h>
21	#include <vtkConeSource.h>
22	#include <vtkCubeSource.h>
23	#include <vtkCylinderSource.h>
24	#include <vtkPlatonicSolidSource.h>
25	#include <vtkPointSource.h>
26	#include <vtkSphereSource.h>
27	#include <vtkTransform.h>
28	#include <vtkPolyDataMapper.h>
29	#include <vtkTransformPolyDataFilter.h>
30	#include <vtkPolyDataNormals.h>
31	#include <vtkDelaunay2D.h>
32	#include <vtkDelaunay3D.h>
33	#include <vtkPolyData.h>
34	#include <vtkUnstructuredGrid.h>
35
36	#include "Glyphs.h"
37	#include "Renderer.h"
38	#include "Math.h"
39	#include "Trace.h"
40
41	using namespace VtkVis;
42
43	Glyphs::Glyphs(GlyphShape shape) :
44	GraphicsObject(),
45	_glyphShape(shape),
46	_scalingMode(SCALE_BY_VECTOR_MAGNITUDE),
47	_dataScale(1.0),
48	_scaleFactor(1.0),
49	_normalizeScale(true),
50	_colorMap(NULL),
51	_colorMode(COLOR_BY_SCALAR)
52	{
53	_faceCulling = true;
54	_scalingFieldRange[0] = DBL_MAX;
55	_scalingFieldRange[1] = -DBL_MAX;
56	_colorFieldRange[0] = DBL_MAX;
57	_colorFieldRange[1] = -DBL_MAX;
58	}
59
60	Glyphs::~Glyphs()
61	{
62	#ifdef WANT_TRACE
63	if (_dataSet != NULL)
64	TRACE("Deleting Glyphs for %s", _dataSet->getName().c_str());
65	else
66	TRACE("Deleting Glyphs with NULL DataSet");
67	#endif
68	}
69
70	void Glyphs::setDataSet(DataSet *dataSet,
71	Renderer *renderer)
72	{
73	if (_dataSet != dataSet) {
74	_dataSet = dataSet;
75
76	_renderer = renderer;
77
78	if (renderer->getUseCumulativeRange()) {
79	renderer->getCumulativeDataRange(_dataRange,
80	_dataSet->getActiveScalarsName(),
81	1);
82	renderer->getCumulativeDataRange(_vectorMagnitudeRange,
83	_dataSet->getActiveVectorsName(),
84	3);
85	for (int i = 0; i < 3; i++) {
86	renderer->getCumulativeDataRange(_vectorComponentRange[i],
87	_dataSet->getActiveVectorsName(),
88	3, i);
89	}
90	} else {
91	_dataSet->getScalarRange(_dataRange);
92	_dataSet->getVectorRange(_vectorMagnitudeRange);
93	for (int i = 0; i < 3; i++) {
94	_dataSet->getVectorRange(_vectorComponentRange[i], i);
95	}
96	}
97
98	update();
99	}
100	}
101
102	/**
103	* \brief Set the shape of the glyphs
104	*/
105	void Glyphs::setGlyphShape(GlyphShape shape)
106	{
107	_glyphShape = shape;
108
109	// Note: using vtkTransformPolyDataFilter instead of the vtkGlyph3D's
110	// SourceTransform because of a bug: vtkGlyph3D doesn't transform normals
111	// by the SourceTransform, so the lighting would be wrong
112
113	bool needsNormals = false;
114	double featureAngle = 90.;
115
116	switch (_glyphShape) {
117	case LINE:
118	// Length of 1, centered at origin
119	_glyphSource = vtkSmartPointer<vtkLineSource>::New();
120	break;
121	case ARROW: {
122	// Height of 1, Tip radius .1, tip length .35, shaft radius .03
123	_glyphSource = vtkSmartPointer<vtkArrowSource>::New();
124	vtkSmartPointer<vtkArrowSource> arrow = vtkArrowSource::SafeDownCast(_glyphSource);
125	arrow->SetTipResolution(8);
126	arrow->SetShaftResolution(8);
127	needsNormals = true;
128	}
129	break;
130	case CONE: {
131	// base length of 1, height 1, centered at origin
132	_glyphSource = vtkSmartPointer<vtkConeSource>::New();
133	vtkSmartPointer<vtkConeSource> cone = vtkConeSource::SafeDownCast(_glyphSource);
134	cone->SetResolution(8);
135	needsNormals = true;
136	}
137	break;
138	case CUBE:
139	// Sides of length 1
140	_glyphSource = vtkSmartPointer<vtkCubeSource>::New();
141	break;
142	case CYLINDER: {
143	// base length of 1, height 1, centered at origin
144	vtkSmartPointer<vtkCylinderSource> csource = vtkSmartPointer<vtkCylinderSource>::New();
145	csource->SetResolution(8);
146	_glyphSource = vtkSmartPointer<vtkTransformPolyDataFilter>::New();
147	_glyphSource->SetInputConnection(csource->GetOutputPort());
148	vtkSmartPointer<vtkTransform> trans = vtkSmartPointer<vtkTransform>::New();
149	trans->RotateZ(-90.0);
150	vtkTransformPolyDataFilter::SafeDownCast(_glyphSource)->SetTransform(trans);
151	}
152	break;
153	case DODECAHEDRON:
154	// Radius of 1
155	_glyphSource = vtkSmartPointer<vtkPlatonicSolidSource>::New();
156	vtkPlatonicSolidSource::SafeDownCast(_glyphSource)->SetSolidTypeToDodecahedron();
157	needsNormals = true;
158	featureAngle = 30.;
159	break;
160	case ICOSAHEDRON:
161	// Radius of 1
162	_glyphSource = vtkSmartPointer<vtkPlatonicSolidSource>::New();
163	vtkPlatonicSolidSource::SafeDownCast(_glyphSource)->SetSolidTypeToIcosahedron();
164	needsNormals = true;
165	featureAngle = 30.;
166	break;
167	case OCTAHEDRON:
168	// Radius of 1
169	_glyphSource = vtkSmartPointer<vtkPlatonicSolidSource>::New();
170	vtkPlatonicSolidSource::SafeDownCast(_glyphSource)->SetSolidTypeToOctahedron();
171	needsNormals = true;
172	featureAngle = 30.;
173	break;
174	case POINT:
175	_glyphSource = vtkSmartPointer<vtkPointSource>::New();
176	vtkPointSource::SafeDownCast(_glyphSource)->SetNumberOfPoints(1);
177	vtkPointSource::SafeDownCast(_glyphSource)->SetCenter(0, 0, 0);
178	vtkPointSource::SafeDownCast(_glyphSource)->SetRadius(0);
179	vtkPointSource::SafeDownCast(_glyphSource)->SetDistributionToUniform();
180	break;
181	case SPHERE: {
182	// Default radius 0.5
183	_glyphSource = vtkSmartPointer<vtkSphereSource>::New();
184	vtkSmartPointer<vtkSphereSource> sphere = vtkSphereSource::SafeDownCast(_glyphSource);
185	sphere->SetThetaResolution(14);
186	sphere->SetPhiResolution(14);
187	}
188	break;
189	case TETRAHEDRON:
190	// Radius of 1
191	// FIXME: need to rotate inital orientation
192	_glyphSource = vtkSmartPointer<vtkPlatonicSolidSource>::New();
193	vtkPlatonicSolidSource::SafeDownCast(_glyphSource)->SetSolidTypeToTetrahedron();
194	needsNormals = true;
195	featureAngle = 30.;
196	break;
197	default:
198	ERROR("Unknown glyph shape: %d", _glyphShape);
199	return;
200	}
201
202	if (_glyphShape == ICOSAHEDRON \|\|
203	_glyphShape == TETRAHEDRON) {
204	// These shapes are created with front faces pointing inside
205	setCullFace(CULL_FRONT);
206	} else {
207	setCullFace(CULL_BACK);
208	}
209
210	if (needsNormals && _glyphMapper != NULL) {
211	vtkSmartPointer<vtkPolyDataNormals> normalFilter = vtkSmartPointer<vtkPolyDataNormals>::New();
212	normalFilter->SetFeatureAngle(featureAngle);
213	normalFilter->SetInputConnection(_glyphSource->GetOutputPort());
214	_glyphMapper->SetSourceConnection(normalFilter->GetOutputPort());
215	} else if (_glyphMapper != NULL) {
216	_glyphMapper->SetSourceConnection(_glyphSource->GetOutputPort());
217	}
218	}
219
220	void Glyphs::setQuality(double quality)
221	{
222	if (quality > 10.0)
223	quality = 10.0;
224
225	switch (_glyphShape) {
226	case ARROW: {
227	vtkSmartPointer<vtkArrowSource> arrow = vtkArrowSource::SafeDownCast(_glyphSource);
228	int res = (int)(quality * 8.);
229	if (res < 3) res = 3;
230	arrow->SetTipResolution(res);
231	arrow->SetShaftResolution(res);
232	}
233	break;
234	case CONE: {
235	vtkSmartPointer<vtkConeSource> cone = vtkConeSource::SafeDownCast(_glyphSource);
236	int res = (int)(quality * 8.);
237	if (res < 3) res = 3;
238	cone->SetResolution(res);
239	}
240	break;
241	case CYLINDER: {
242	vtkSmartPointer<vtkCylinderSource> csource =
243	vtkCylinderSource::SafeDownCast(_glyphSource->GetInputAlgorithm(0, 0));
244	if (csource == NULL) {
245	ERROR("Can't get cylinder glyph source");
246	return;
247	}
248	int res = (int)(quality * 8.);
249	if (res < 3) res = 3;
250	csource->SetResolution(res);
251	}
252	break;
253	case SPHERE: {
254	vtkSmartPointer<vtkSphereSource> sphere = vtkSphereSource::SafeDownCast(_glyphSource);
255	int thetaRes = (int)(quality * 14.);
256	int phiRes = thetaRes;
257	if (thetaRes < 4) thetaRes = 4;
258	if (phiRes < 3) phiRes = 3;
259
260	sphere->SetThetaResolution(thetaRes);
261	sphere->SetPhiResolution(phiRes);
262	}
263	break;
264	default:
265	break;
266	}
267	if (_glyphMapper != NULL) {
268	_glyphMapper->Modified();
269	_glyphMapper->Update();
270	}
271	}
272
273	/**
274	* \brief Internal method to set up pipeline after a state change
275	*/
276	void Glyphs::update()
277	{
278	if (_dataSet == NULL) {
279	return;
280	}
281
282	vtkDataSet *ds = _dataSet->getVtkDataSet();
283
284	if (_glyphMapper == NULL) {
285	_glyphMapper = vtkSmartPointer<vtkGlyph3DMapper>::New();
286	_glyphMapper->SetResolveCoincidentTopologyToPolygonOffset();
287	// If there are color scalars, use them without lookup table (if scalar visibility is on)
288	_glyphMapper->SetColorModeToDefault();
289	_glyphMapper->ScalarVisibilityOn();
290	}
291
292	initProp();
293
294	setGlyphShape(_glyphShape);
295
296	vtkSmartPointer<vtkCellDataToPointData> cellToPtData;
297
298	if (ds->GetPointData() == NULL \|\|
299	ds->GetPointData()->GetScalars() == NULL) {
300	if (ds->GetCellData() != NULL &&
301	ds->GetCellData()->GetScalars() != NULL) {
302	TRACE("Generating point data scalars from cell data for: %s", _dataSet->getName().c_str());
303	cellToPtData =
304	vtkSmartPointer<vtkCellDataToPointData>::New();
305	cellToPtData->SetInputData(ds);
306	//cellToPtData->PassCellDataOn();
307	cellToPtData->Update();
308	ds = cellToPtData->GetOutput();
309	} else {
310	TRACE("No scalar data in dataset %s", _dataSet->getName().c_str());
311	}
312	}
313
314	_glyphMapper->SetInputData(ds);
315
316	if (ds->GetPointData()->GetVectors() != NULL) {
317	TRACE("Setting scale mode to vector magnitude");
318	setScalingMode(SCALE_BY_VECTOR_MAGNITUDE);
319	} else {
320	TRACE("Setting scale mode to scalar");
321	setScalingMode(SCALE_BY_SCALAR);
322	}
323
324	if (_dataSet->isCloud()) {
325	PrincipalPlane plane;
326	double offset;
327	if (_dataSet->is2D(&plane, &offset)) {
328	// 2D cloud
329	vtkSmartPointer<vtkDelaunay2D> mesher = vtkSmartPointer<vtkDelaunay2D>::New();
330	if (plane == PLANE_ZY) {
331	vtkSmartPointer<vtkTransform> trans = vtkSmartPointer<vtkTransform>::New();
332	trans->RotateWXYZ(90, 0, 1, 0);
333	if (offset != 0.0) {
334	trans->Translate(-offset, 0, 0);
335	}
336	mesher->SetTransform(trans);
337	} else if (plane == PLANE_XZ) {
338	vtkSmartPointer<vtkTransform> trans = vtkSmartPointer<vtkTransform>::New();
339	trans->RotateWXYZ(-90, 1, 0, 0);
340	if (offset != 0.0) {
341	trans->Translate(0, -offset, 0);
342	}
343	mesher->SetTransform(trans);
344	} else if (offset != 0.0) {
345	// XY with Z offset
346	vtkSmartPointer<vtkTransform> trans = vtkSmartPointer<vtkTransform>::New();
347	trans->Translate(0, 0, -offset);
348	mesher->SetTransform(trans);
349	}
350	mesher->SetInputData(ds);
351	mesher->Update();
352	vtkPolyData *pd = mesher->GetOutput();
353	if (pd->GetNumberOfPolys() == 0) {
354	// Meshing failed, fall back to scale based on bounds
355	double bounds[6];
356	_dataSet->getBounds(bounds);
357	double xlen = bounds[1] - bounds[0];
358	double ylen = bounds[3] - bounds[2];
359	double zlen = bounds[5] - bounds[4];
360	double max = max3(xlen, ylen, zlen);
361	_dataScale = max / 64.0;
362	} else {
363	double cellSizeRange[2];
364	double avgSize;
365	DataSet::getCellSizeRange(pd, cellSizeRange, &avgSize);
366	_dataScale = avgSize * 2.0;
367	}
368	} else {
369	// 3D cloud
370	vtkSmartPointer<vtkDelaunay3D> mesher = vtkSmartPointer<vtkDelaunay3D>::New();
371	mesher->SetInputData(ds);
372	mesher->Update();
373	vtkUnstructuredGrid *ugrid = mesher->GetOutput();
374	if (ugrid->GetNumberOfCells() == 0) {
375	// Meshing failed, fall back to scale based on bounds
376	double bounds[6];
377	_dataSet->getBounds(bounds);
378	double xlen = bounds[1] - bounds[0];
379	double ylen = bounds[3] - bounds[2];
380	double zlen = bounds[5] - bounds[4];
381	double max = max3(xlen, ylen, zlen);
382	_dataScale = max / 64.0;
383	} else {
384	double cellSizeRange[2];
385	double avgSize;
386	DataSet::getCellSizeRange(ugrid, cellSizeRange, &avgSize);
387	_dataScale = avgSize * 2.0;
388	}
389	}
390	} else {
391	double cellSizeRange[2];
392	double avgSize;
393	_dataSet->getCellSizeRange(cellSizeRange, &avgSize);
394	_dataScale = avgSize * 2.0;
395	}
396
397	TRACE("Data scale factor: %g", _dataScale);
398
399	// Normalize sizes to [0,1] * ScaleFactor
400	_glyphMapper->SetClamping(_normalizeScale ? 1 : 0);
401	if (_normalizeScale) {
402	_glyphMapper->SetScaleFactor(_scaleFactor * _dataScale);
403	TRACE("Setting scale factor: %g", _scaleFactor * _dataScale);
404	} else {
405	_glyphMapper->SetScaleFactor(_scaleFactor);
406	TRACE("Setting scale factor: %g", _scaleFactor);
407	}
408	_glyphMapper->ScalingOn();
409
410	if (_lut == NULL) {
411	setColorMap(ColorMap::getDefault());
412	}
413
414	if (ds->GetPointData()->GetScalars() == NULL) {
415	TRACE("Setting color mode to vector magnitude");
416	setColorMode(COLOR_BY_VECTOR_MAGNITUDE);
417	} else {
418	TRACE("Setting color mode to scalar");
419	setColorMode(COLOR_BY_SCALAR);
420	}
421
422	getActor()->SetMapper(_glyphMapper);
423	_glyphMapper->Update();
424	}
425
426	/**
427	* \brief Control if field data range is normalized to [0,1] before
428	* applying scale factor
429	*/
430	void Glyphs::setNormalizeScale(bool normalize)
431	{
432	if (_normalizeScale != normalize) {
433	_normalizeScale = normalize;
434	if (_glyphMapper != NULL) {
435	_glyphMapper->SetClamping(_normalizeScale ? 1 : 0);
436	if (_normalizeScale) {
437	_glyphMapper->SetScaleFactor(_scaleFactor * _dataScale);
438	TRACE("Setting scale factor: %g", _scaleFactor * _dataScale);
439	} else {
440	_glyphMapper->SetScaleFactor(_scaleFactor);
441	TRACE("Setting scale factor: %g", _scaleFactor);
442	}
443	}
444	}
445	}
446
447	/**
448	* \brief Turn on/off orienting glyphs from a vector field
449	*/
450	void Glyphs::setOrientMode(bool mode, const char *name)
451	{
452	if (_glyphMapper != NULL) {
453	_glyphMapper->SetOrient(mode ? 1 : 0);
454	if (name != NULL && strlen(name) > 0) {
455	_glyphMapper->SetOrientationArray(name);
456	} else {
457	_glyphMapper->SetOrientationArray(vtkDataSetAttributes::VECTORS);
458	}
459	}
460	}
461
462	/**
463	* \brief Control how glyphs are scaled
464	*/
465	void Glyphs::setScalingMode(ScalingMode mode, const char *name, double range[2])
466	{
467	_scalingMode = mode;
468
469	if (_dataSet == NULL \|\| _glyphMapper == NULL)
470	return;
471
472	if (name != NULL && strlen(name) > 0) {
473	if (!_dataSet->hasField(name, DataSet::POINT_DATA)) {
474	ERROR("Field not found: %s", name);
475	return;
476	}
477	_scalingFieldName = name;
478	} else
479	_scalingFieldName.clear();
480	if (range == NULL) {
481	_scalingFieldRange[0] = DBL_MAX;
482	_scalingFieldRange[1] = -DBL_MAX;
483	} else {
484	memcpy(_scalingFieldRange, range, sizeof(double)*2);
485	}
486
487	if (name != NULL && strlen(name) > 0) {
488	_glyphMapper->SetScaleArray(name);
489	} else {
490	if (mode == SCALE_BY_SCALAR) {
491	_glyphMapper->SetScaleArray(vtkDataSetAttributes::SCALARS);
492	} else {
493	_glyphMapper->SetScaleArray(vtkDataSetAttributes::VECTORS);
494	}
495	}
496
497	if (range != NULL) {
498	TRACE("Setting size range to: %g,%g", range[0], range[1]);
499	_glyphMapper->SetRange(range);
500	} else if (name != NULL && strlen(name) > 0) {
501	double r[2];
502	DataSet::DataAttributeType type = DataSet::POINT_DATA;
503	int comp = -1;
504
505	if (_renderer->getUseCumulativeRange()) {
506	int numComponents;
507	if (!_dataSet->getFieldInfo(name, type, &numComponents)) {
508	ERROR("Field not found: %s, type: %d", name, type);
509	return;
510	} else if (mode == SCALE_BY_VECTOR_COMPONENTS && numComponents < 3) {
511	ERROR("Field %s needs 3 components but has only %d components",
512	name, numComponents);
513	return;
514	}
515	if (mode == SCALE_BY_VECTOR_COMPONENTS) {
516	double tmpR[2];
517	_renderer->getCumulativeDataRange(tmpR, name, type, numComponents, 0);
518	r[0] = tmpR[0];
519	r[1] = tmpR[1];
520	_renderer->getCumulativeDataRange(tmpR, name, type, numComponents, 1);
521	r[0] = min2(r[0], tmpR[0]);
522	r[1] = max2(r[1], tmpR[1]);
523	_renderer->getCumulativeDataRange(tmpR, name, type, numComponents, 2);
524	r[0] = min2(r[0], tmpR[0]);
525	r[1] = max2(r[1], tmpR[1]);
526	} else {
527	_renderer->getCumulativeDataRange(r, name, type, numComponents, comp);
528	}
529	} else {
530	if (mode == SCALE_BY_VECTOR_COMPONENTS) {
531	double tmpR[2];
532	_dataSet->getDataRange(tmpR, name, type, 0);
533	r[0] = tmpR[0];
534	r[1] = tmpR[1];
535	_dataSet->getDataRange(tmpR, name, type, 1);
536	r[0] = min2(r[0], tmpR[0]);
537	r[1] = max2(r[1], tmpR[1]);
538	_dataSet->getDataRange(tmpR, name, type, 2);
539	r[0] = min2(r[0], tmpR[0]);
540	r[1] = max2(r[1], tmpR[1]);
541	} else {
542	_dataSet->getDataRange(r, name, type, comp);
543	}
544	}
545	TRACE("Setting size range to: %g,%g", r[0], r[1]);
546	_glyphMapper->SetRange(r);
547	} else {
548	switch (mode) {
549	case SCALE_BY_SCALAR:
550	TRACE("Setting size range to: %g,%g", _dataRange[0], _dataRange[1]);
551	_glyphMapper->SetRange(_dataRange);
552	break;
553	case SCALE_BY_VECTOR_MAGNITUDE:
554	TRACE("Setting size range to: %g,%g", _vectorMagnitudeRange[0], _vectorMagnitudeRange[1]);
555	_glyphMapper->SetRange(_vectorMagnitudeRange);
556	break;
557	case SCALE_BY_VECTOR_COMPONENTS: {
558	double sizeRange[2];
559	sizeRange[0] = _vectorComponentRange[0][0];
560	sizeRange[1] = _vectorComponentRange[0][1];
561	sizeRange[0] = min2(sizeRange[0], _vectorComponentRange[1][0]);
562	sizeRange[1] = max2(sizeRange[1], _vectorComponentRange[1][1]);
563	sizeRange[0] = min2(sizeRange[0], _vectorComponentRange[2][0]);
564	sizeRange[1] = max2(sizeRange[1], _vectorComponentRange[2][1]);
565	TRACE("Setting size range to: %g,%g", sizeRange[0], sizeRange[1]);
566	_glyphMapper->SetRange(sizeRange);
567	}
568	break;
569	case SCALING_OFF:
570	default:
571	;
572	}
573	}
574
575	switch (mode) {
576	case SCALE_BY_SCALAR:
577	case SCALE_BY_VECTOR_MAGNITUDE:
578	_glyphMapper->SetScaleModeToScaleByMagnitude();
579	break;
580	case SCALE_BY_VECTOR_COMPONENTS:
581	_glyphMapper->SetScaleModeToScaleByVectorComponents();
582	break;
583	case SCALING_OFF:
584	default:
585	_glyphMapper->SetScaleModeToNoDataScaling();
586	}
587	}
588
589	void Glyphs::setScalingMode(ScalingMode mode)
590	{
591	setScalingMode(mode, NULL, NULL);
592	}
593
594	void Glyphs::setColorMode(ColorMode mode,
595	const char *name, double range[2])
596	{
597	_colorMode = mode;
598	if (name == NULL)
599	_colorFieldName.clear();
600	else
601	_colorFieldName = name;
602	if (range == NULL) {
603	_colorFieldRange[0] = DBL_MAX;
604	_colorFieldRange[1] = -DBL_MAX;
605	} else {
606	memcpy(_colorFieldRange, range, sizeof(double)*2);
607	}
608
609	if (_dataSet == NULL \|\| _glyphMapper == NULL)
610	return;
611
612	if (name != NULL && strlen(name) > 0) {
613	_glyphMapper->SetScalarModeToUsePointFieldData();
614	_glyphMapper->SelectColorArray(name);
615	} else {
616	_glyphMapper->SetScalarModeToDefault();
617	}
618
619	if (_lut != NULL) {
620	if (range != NULL) {
621	_lut->SetRange(range);
622	} else if (name != NULL && strlen(name) > 0) {
623	double r[2];
624	int comp = -1;
625	if (mode == COLOR_BY_VECTOR_X)
626	comp = 0;
627	else if (mode == COLOR_BY_VECTOR_Y)
628	comp = 1;
629	else if (mode == COLOR_BY_VECTOR_Z)
630	comp = 2;
631
632	DataSet::DataAttributeType type = DataSet::POINT_DATA;
633
634	if (_renderer->getUseCumulativeRange()) {
635	int numComponents;
636	if (!_dataSet->getFieldInfo(name, &type, &numComponents)) {
637	ERROR("Field not found: %s, type: %d", name, type);
638	return;
639	} else if (numComponents < comp+1) {
640	ERROR("Request for component %d in field with %d components",
641	comp, numComponents);
642	return;
643	}
644	_renderer->getCumulativeDataRange(r, name, type, numComponents, comp);
645	} else {
646	_dataSet->getDataRange(r, name, type, comp);
647	}
648	TRACE("Setting lut range to: %g,%g", r[0], r[1]);
649	_lut->SetRange(r);
650	}
651	}
652
653	switch (mode) {
654	case COLOR_BY_SCALAR:
655	_glyphMapper->ScalarVisibilityOn();
656	break;
657	case COLOR_BY_VECTOR_MAGNITUDE:
658	_glyphMapper->ScalarVisibilityOn();
659	if (_lut != NULL) {
660	_lut->SetVectorModeToMagnitude();
661	}
662	break;
663	case COLOR_BY_VECTOR_X:
664	_glyphMapper->ScalarVisibilityOn();
665	if (_lut != NULL) {
666	_lut->SetVectorModeToComponent();
667	_lut->SetVectorComponent(0);
668	}
669	break;
670	case COLOR_BY_VECTOR_Y:
671	_glyphMapper->ScalarVisibilityOn();
672	if (_lut != NULL) {
673	_lut->SetVectorModeToComponent();
674	_lut->SetVectorComponent(1);
675	}
676	break;
677	case COLOR_BY_VECTOR_Z:
678	_glyphMapper->ScalarVisibilityOn();
679	if (_lut != NULL) {
680	_lut->SetVectorModeToComponent();
681	_lut->SetVectorComponent(2);
682	}
683	break;
684	case COLOR_CONSTANT:
685	default:
686	_glyphMapper->ScalarVisibilityOff();
687	break;
688	}
689	}
690
691	void Glyphs::setColorMode(ColorMode mode)
692	{
693	_colorMode = mode;
694	if (_dataSet == NULL)
695	return;
696
697	switch (mode) {
698	case COLOR_BY_SCALAR:
699	setColorMode(mode,
700	_dataSet->getActiveScalarsName());
701	break;
702	case COLOR_BY_VECTOR_MAGNITUDE:
703	setColorMode(mode,
704	_dataSet->getActiveVectorsName());
705	break;
706	case COLOR_BY_VECTOR_X:
707	setColorMode(mode,
708	_dataSet->getActiveVectorsName());
709	break;
710	case COLOR_BY_VECTOR_Y:
711	setColorMode(mode,
712	_dataSet->getActiveVectorsName());
713	break;
714	case COLOR_BY_VECTOR_Z:
715	setColorMode(mode,
716	_dataSet->getActiveVectorsName());
717	break;
718	case COLOR_CONSTANT:
719	default:
720	setColorMode(mode, NULL, NULL);
721	break;
722	}
723	}
724
725	/**
726	* \brief Turn on/off orienting glyphs from a vector field
727	*/
728	void Glyphs::setOrient(bool state)
729	{
730	if (_glyphMapper != NULL) {
731	_glyphMapper->SetOrient(state ? 1 : 0);
732	}
733	}
734
735	/**
736	* \brief Controls relative scaling of glyphs
737	*/
738	void Glyphs::setScaleFactor(double scale)
739	{
740	_scaleFactor = scale;
741	if (_glyphMapper != NULL) {
742	if (_normalizeScale) {
743	_glyphMapper->SetScaleFactor(_scaleFactor * _dataScale);
744	TRACE("Setting scale factor: %g", _scaleFactor * _dataScale);
745	} else {
746	_glyphMapper->SetScaleFactor(_scaleFactor);
747	TRACE("Setting scale factor: %g", _scaleFactor);
748	}
749	}
750	}
751
752	void Glyphs::updateRanges(Renderer *renderer)
753	{
754	if (_dataSet == NULL) {
755	ERROR("called before setDataSet");
756	return;
757	}
758
759	if (renderer->getUseCumulativeRange()) {
760	renderer->getCumulativeDataRange(_dataRange,
761	_dataSet->getActiveScalarsName(),
762	1);
763	renderer->getCumulativeDataRange(_vectorMagnitudeRange,
764	_dataSet->getActiveVectorsName(),
765	3);
766	for (int i = 0; i < 3; i++) {
767	renderer->getCumulativeDataRange(_vectorComponentRange[i],
768	_dataSet->getActiveVectorsName(),
769	3, i);
770	}
771	} else {
772	_dataSet->getScalarRange(_dataRange);
773	_dataSet->getVectorRange(_vectorMagnitudeRange);
774	for (int i = 0; i < 3; i++) {
775	_dataSet->getVectorRange(_vectorComponentRange[i], i);
776	}
777	}
778
779	// Need to update color map ranges and/or active vector field
780	double *rangePtr = _colorFieldRange;
781	if (_colorFieldRange[0] > _colorFieldRange[1]) {
782	rangePtr = NULL;
783	}
784	setColorMode(_colorMode, _colorFieldName.c_str(), rangePtr);
785
786	rangePtr = _scalingFieldRange;
787	if (_scalingFieldRange[0] > _scalingFieldRange[1]) {
788	rangePtr = NULL;
789	}
790	setScalingMode(_scalingMode, _scalingFieldName.c_str(), rangePtr);
791	}
792
793	/**
794	* \brief Called when the color map has been edited
795	*/
796	void Glyphs::updateColorMap()
797	{
798	setColorMap(_colorMap);
799	}
800
801	/**
802	* \brief Associate a colormap lookup table with the DataSet
803	*/
804	void Glyphs::setColorMap(ColorMap *cmap)
805	{
806	if (cmap == NULL)
807	return;
808
809	_colorMap = cmap;
810
811	if (_lut == NULL) {
812	_lut = vtkSmartPointer<vtkLookupTable>::New();
813	if (_glyphMapper != NULL) {
814	_glyphMapper->UseLookupTableScalarRangeOn();
815	_glyphMapper->SetLookupTable(_lut);
816	}
817	_lut->DeepCopy(cmap->getLookupTable());
818	switch (_colorMode) {
819	case COLOR_CONSTANT:
820	case COLOR_BY_SCALAR:
821	_lut->SetRange(_dataRange);
822	break;
823	case COLOR_BY_VECTOR_MAGNITUDE:
824	_lut->SetRange(_vectorMagnitudeRange);
825	break;
826	case COLOR_BY_VECTOR_X:
827	_lut->SetRange(_vectorComponentRange[0]);
828	break;
829	case COLOR_BY_VECTOR_Y:
830	_lut->SetRange(_vectorComponentRange[1]);
831	break;
832	case COLOR_BY_VECTOR_Z:
833	_lut->SetRange(_vectorComponentRange[2]);
834	break;
835	default:
836	break;
837	}
838	} else {
839	double range[2];
840	_lut->GetTableRange(range);
841	_lut->DeepCopy(cmap->getLookupTable());
842	_lut->SetRange(range);
843	_lut->Modified();
844	}
845
846	switch (_colorMode) {
847	case COLOR_BY_VECTOR_MAGNITUDE:
848	_lut->SetVectorModeToMagnitude();
849	break;
850	case COLOR_BY_VECTOR_X:
851	_lut->SetVectorModeToComponent();
852	_lut->SetVectorComponent(0);
853	break;
854	case COLOR_BY_VECTOR_Y:
855	_lut->SetVectorModeToComponent();
856	_lut->SetVectorComponent(1);
857	break;
858	case COLOR_BY_VECTOR_Z:
859	_lut->SetVectorModeToComponent();
860	_lut->SetVectorComponent(2);
861	break;
862	default:
863	break;
864	}
865	}
866
867	/**
868	* \brief Limit the number of glyphs displayed
869	*
870	* The choice of glyphs to display can be based on sampling every
871	* n-th point (ratio) or by random sample
872	*
873	* \param max Maximum number of glyphs to display, negative means display all
874	* \param random Flag to enable/disable random sampling
875	* \param offset If random is false, this controls the first sample point
876	* \param ratio If random is false, this ratio controls every n-th point sampling
877	*/
878	void Glyphs::setMaximumNumberOfGlyphs(int max, bool random, int offset, int ratio)
879	{
880	if (_dataSet == NULL \|\| _glyphMapper == NULL)
881	return;
882
883	if (max < 0) {
884	if (_maskPoints != NULL) {
885	_glyphMapper->SetInputData(_dataSet->getVtkDataSet());
886	_maskPoints = NULL;
887	}
888	} else {
889	if (_maskPoints == NULL) {
890	_maskPoints = vtkSmartPointer<vtkMaskPoints>::New();
891	}
892	_maskPoints->SetInputData(_dataSet->getVtkDataSet());
893	_maskPoints->SetMaximumNumberOfPoints(max);
894	_maskPoints->SetOffset(offset);
895	_maskPoints->SetOnRatio(ratio);
896	_maskPoints->SetRandomMode((random ? 1 : 0));
897	_maskPoints->GenerateVerticesOff();
898	_glyphMapper->SetInputConnection(_maskPoints->GetOutputPort());
899	}
900	}
901
902	/**
903	* \brief Set a group of world coordinate planes to clip rendering
904	*
905	* Passing NULL for planes will remove all cliping planes
906	*/
907	void Glyphs::setClippingPlanes(vtkPlaneCollection *planes)
908	{
909	if (_glyphMapper != NULL) {
910	_glyphMapper->SetClippingPlanes(planes);
911	}
912	}

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