1 /*# ---------------------------------------------------------------------
3 # Copyright (c) CREATIS (Centre de Recherche en Acquisition et Traitement de l'Image
5 # Authors : Eduardo Davila, Frederic Cervenansky, Claire Mouton
6 # Previous Authors : Laurent Guigues, Jean-Pierre Roux
7 # CreaTools website : www.creatis.insa-lyon.fr/site/fr/creatools_accueil
9 # This software is governed by the CeCILL-B license under French law and
10 # abiding by the rules of distribution of free software. You can use,
11 # modify and/ or redistribute the software under the terms of the CeCILL-B
12 # license as circulated by CEA, CNRS and INRIA at the following URL
13 # http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html
14 # or in the file LICENSE.txt.
16 # As a counterpart to the access to the source code and rights to copy,
17 # modify and redistribute granted by the license, users are provided only
18 # with a limited warranty and the software's author, the holder of the
19 # economic rights, and the successive licensors have only limited
22 # The fact that you are presently reading this means that you have had
23 # knowledge of the CeCILL-B license and that you accept its terms.
24 # ------------------------------------------------------------------------ */
27 #include "vtkMPR3DDataViewer.h"
30 vtkMPR3DDataViewer::vtkMPR3DDataViewer()
32 _visiblePosition[0]=false;
33 _visiblePosition[1]=false;
34 _visiblePosition[2]=false;
36 _vtkmprbasedata = NULL;
38 _saggitalColors = NULL;
42 _coronalColors = NULL;
48 //-------------------------------------------------------------------
49 vtkMPR3DDataViewer::~vtkMPR3DDataViewer()
51 if(_outlineData) {_outlineData-> Delete();}
52 if(_mapOutline) {_mapOutline-> Delete();}
53 if(_outline) {_outline-> Delete();}
55 // if (_bwLut) _bwLut->Delete();
56 // if (_hueLut) _hueLut->Delete();
57 // if (_satLut) _satLut->Delete();
58 if (_ctfun) _ctfun->Delete();
59 if (_saggitalColors) _saggitalColors ->Delete();
60 if (_saggital) _saggital->Delete();
61 if (_axialColors) _axialColors->Delete();
62 if (_axial) _axial->Delete();
63 if (_coronalColors) _coronalColors->Delete();
64 if (_coronal) _coronal->Delete();
67 //-------------------------------------------------------------------
68 vtkActor* vtkMPR3DDataViewer::GetOutlineActor()
72 //-------------------------------------------------------------------
73 vtkImageActor* vtkMPR3DDataViewer::GetImageActor(int id)
75 vtkImageActor *tmpVtkActor=NULL;
78 tmpVtkActor = GetvtkActor_saggital();
82 tmpVtkActor = GetvtkActor_coronal();
86 tmpVtkActor = GetvtkActor_axial();
91 //-------------------------------------------------------------------
92 void vtkMPR3DDataViewer::Refresh()
94 int x = (int)(_vtkmprbasedata->GetX());
95 int y = (int)(_vtkmprbasedata->GetY());
96 int z = (int)(_vtkmprbasedata->GetZ());
101 //-------------------------------------------------------------------
102 void vtkMPR3DDataViewer::SetVtkMPRBaseData(vtkMPRBaseData *vtkmprbasedata)
104 _vtkmprbasedata=vtkmprbasedata;
106 //-------------------------------------------------------------------
107 vtkMPRBaseData* vtkMPR3DDataViewer::GetVtkMPRBaseData()
109 return _vtkmprbasedata;
111 //-------------------------------------------------------------------
113 vtkColorTransferFunction *vtkMPR3DDataViewer::GetvtkColorTransferFunction()
117 //-------------------------------------------------------------------
119 std::vector<double>* vtkMPR3DDataViewer::GetctFunVectorPoint()
121 return &_ctFunVectorPoint;
123 //-------------------------------------------------------------------
124 std::vector<double>* vtkMPR3DDataViewer::GetctFunVectorRed()
126 return &_ctFunVectorRed;
129 //-------------------------------------------------------------------
130 std::vector<double>* vtkMPR3DDataViewer::GetctFunVectorGreen()
132 return &_ctFunVectorGreen;
135 //-------------------------------------------------------------------
136 std::vector<double>* vtkMPR3DDataViewer::GetctFunVectorBlue()
138 return &_ctFunVectorBlue;
141 //-------------------------------------------------------------------
142 void vtkMPR3DDataViewer::SetImage()
144 //EED 2017-01-01 Migration VTK7
145 #if VTK_MAJOR_VERSION <= 5
146 _saggitalColors ->SetInput( _vtkmprbasedata->GetImageData() );
147 _axialColors ->SetInput( _vtkmprbasedata->GetImageData() );
148 _coronalColors ->SetInput( _vtkmprbasedata->GetImageData() );
149 _outlineData ->SetInput((vtkDataSet *) _vtkmprbasedata->GetImageData() );
151 _saggitalColors ->SetInputData( _vtkmprbasedata->GetImageData() );
152 _axialColors ->SetInputData( _vtkmprbasedata->GetImageData() );
153 _coronalColors ->SetInputData( _vtkmprbasedata->GetImageData() );
154 _outlineData ->SetInputData((vtkDataSet *) _vtkmprbasedata->GetImageData() );
158 //-------------------------------------------------------------------
159 void vtkMPR3DDataViewer::Configure()
162 // Start by creatin a black/white lookup table.
163 _bwLut = vtkLookupTable::New();
164 _bwLut->SetTableRange (0, 2000);
165 _bwLut->SetSaturationRange (0, 0);
166 _bwLut->SetHueRange (0, 0);
167 _bwLut->SetValueRange (0, 1);
169 // Now create a lookup table that consists of the full hue circle
171 _hueLut = vtkLookupTable::New();
172 _hueLut->SetTableRange (0, 2000);
173 _hueLut->SetHueRange (0, 1);
174 _hueLut->SetSaturationRange (1, 1);
175 _hueLut->SetValueRange (1, 1);
177 // Finally, create a lookup table with a single hue but having a range
178 // in the saturation of the hue.
179 _satLut = vtkLookupTable::New();
180 _satLut->SetTableRange (0, 2000);
181 _satLut->SetHueRange (.6, .6);
182 _satLut->SetSaturationRange (0, 1);
183 _satLut->SetValueRange (1, 1);
188 if(_vtkmprbasedata->GetImageData())
190 //EED 2017-01-01 Migration VTK7
191 #if VTK_MAJOR_VERSION <= 5
192 _vtkmprbasedata->GetImageData()->Update();
196 _vtkmprbasedata->GetImageData()->Modified();
197 _vtkmprbasedata->GetImageData()->GetScalarRange(range);
198 delta = range[1]-range[0];
201 printf("EED vtkMPR3DDataViewer::Configure Warning! image Range [0,0] -> changed to [0,1000] \n" );
205 _ctFunVectorPoint.clear();
206 _ctFunVectorPoint.push_back( range[0] + delta*0/8 );
207 _ctFunVectorPoint.push_back( range[0] + delta*1/8 );
208 _ctFunVectorPoint.push_back( range[0] + delta*2/8 );
209 _ctFunVectorPoint.push_back( range[0] + delta*3/8 );
210 _ctFunVectorPoint.push_back( range[0] + delta*4/8 );
211 _ctFunVectorPoint.push_back( range[0] + delta*5/8 );
212 _ctFunVectorPoint.push_back( range[0] + delta*6/8 );
213 _ctFunVectorPoint.push_back( range[0] + delta*7/8 );
214 _ctFunVectorPoint.push_back( range[0] + delta*8/8 );
216 _ctFunVectorRed.clear();
217 _ctFunVectorRed.push_back(0.0);
218 _ctFunVectorRed.push_back(0.0);
219 _ctFunVectorRed.push_back(0.0);
220 _ctFunVectorRed.push_back(0.0);
221 _ctFunVectorRed.push_back(0.5);
222 _ctFunVectorRed.push_back(1.0);
223 _ctFunVectorRed.push_back(1.0);
224 _ctFunVectorRed.push_back(1.0);
225 _ctFunVectorRed.push_back(0.5);
227 _ctFunVectorGreen.clear();
228 _ctFunVectorGreen.push_back(0.0);
229 _ctFunVectorGreen.push_back(0.0);
230 _ctFunVectorGreen.push_back(0.5);
231 _ctFunVectorGreen.push_back(1.0);
232 _ctFunVectorGreen.push_back(1.0);
233 _ctFunVectorGreen.push_back(1.0);
234 _ctFunVectorGreen.push_back(0.5);
235 _ctFunVectorGreen.push_back(0.0);
236 _ctFunVectorGreen.push_back(0.0);
238 _ctFunVectorBlue.clear();
239 _ctFunVectorBlue.push_back(0.5);
240 _ctFunVectorBlue.push_back(1.0);
241 _ctFunVectorBlue.push_back(1.0);
242 _ctFunVectorBlue.push_back(1.0);
243 _ctFunVectorBlue.push_back(0.5);
244 _ctFunVectorBlue.push_back(0.0);
245 _ctFunVectorBlue.push_back(0.0);
246 _ctFunVectorBlue.push_back(0.0);
247 _ctFunVectorBlue.push_back(0.0);
251 _ctfun = vtkColorTransferFunction::New();
253 _ctfun->RemoveAllPoints();
255 int i,size=_ctFunVectorPoint.size();
258 _ctfun->AddRGBPoint( _ctFunVectorPoint[i] , _ctFunVectorRed[i],_ctFunVectorGreen[i],_ctFunVectorBlue[i]);
262 _ctfun->AddRGBPoint( 100 ,0 ,0,0);
263 _ctfun->AddRGBPoint( 200 ,1 ,0,0);
264 _ctfun->AddRGBPoint( 300 ,0 ,1,0);
265 _ctfun->AddRGBPoint( 400 ,0 ,0,1);
267 // void *p=this; // JPRx
269 // Create the first of the three planes. The filter vtkImageMapToColors
270 // maps the data through the corresponding lookup table created above. The
271 // vtkImageActor is a type of vtkProp and conveniently displays an image on
272 // a single quadrilateral plane. It does this using texture mapping and as
273 // a result is quite fast. (Note: the input image has to be unsigned char
274 // values, which the vtkImageMapToColors produces.) Note also that by
275 // specifying the DisplayExtent, the pipeline requests data of this extent
276 // and the vtkImageMapToColors only processes a slice of data.
278 if(_saggitalColors==NULL)
280 _saggitalColors = vtkImageMapToColors::New();
282 _saggitalColors->RemoveAllInputs();
284 // _saggitalColors->SetLookupTable(_bwLut);
285 _saggitalColors->SetLookupTable(_ctfun);
286 //EED 2017-01-01 Migration VTK7
287 #if VTK_MAJOR_VERSION <= 5
288 _saggitalColors->SetInput( _vtkmprbasedata->GetImageData() );
290 _saggitalColors->SetInputData( _vtkmprbasedata->GetImageData() );
291 _saggitalColors->Update();
297 _saggital = vtkImageActor::New();
298 //EED 2017-01-01 Migration VTK7
299 #if VTK_MAJOR_VERSION <= 5
300 _saggital->SetInput(_saggitalColors->GetOutput());
302 _saggital->SetInputData(_saggitalColors->GetOutput());
305 //_saggitalColors->Update();
307 // Create the second (axial) plane of the three planes. We use the
308 // same approach as before except that the extent differs.
310 if(_axialColors==NULL)
312 _axialColors = vtkImageMapToColors::New();
314 _axialColors->RemoveAllInputs();
315 // _axialColors->SetLookupTable(_hueLut);
316 _axialColors->SetLookupTable(_ctfun);
319 //EED 2017-01-01 Migration VTK7
320 #if VTK_MAJOR_VERSION <= 5
321 _axialColors->SetInput( _vtkmprbasedata->GetImageData() );
323 _axialColors->SetInputData( _vtkmprbasedata->GetImageData() );
324 _axialColors->Update();
329 _axial = vtkImageActor::New();
331 //EED 2017-01-01 Migration VTK7
332 #if VTK_MAJOR_VERSION <= 5
333 _axial->SetInput(_axialColors->GetOutput());
335 _axial->SetInputData(_axialColors->GetOutput());
340 //_axialColors->Update();
341 // Create the third (coronal) plane of the three planes. We use
342 // the same approach as before except that the extent differs.
343 if(_coronalColors==NULL)
345 _coronalColors = vtkImageMapToColors::New();
347 _coronalColors->RemoveAllInputs();
348 // _coronalColors->SetLookupTable(_satLut);
349 _coronalColors->SetLookupTable(_ctfun);
352 //EED 2017-01-01 Migration VTK7
353 #if VTK_MAJOR_VERSION <= 5
354 _coronalColors->SetInput( _vtkmprbasedata->GetImageData() );
356 _coronalColors->SetInputData( _vtkmprbasedata->GetImageData() );
357 _coronalColors->Update();
363 _coronal = vtkImageActor::New();
365 //EED 2017-01-01 Migration VTK7
366 #if VTK_MAJOR_VERSION <= 5
367 _coronal->SetInput(_coronalColors->GetOutput());
369 _coronal->SetInputData(_coronalColors->GetOutput());
374 // An outline provides context around the data.
376 if(_outlineData==NULL)
378 _outlineData = vtkOutlineFilter::New();
380 _outlineData->RemoveAllInputs();
381 if(_vtkmprbasedata->GetImageData())
383 //EED 2017-01-01 Migration VTK7
384 #if VTK_MAJOR_VERSION <= 5
385 _outlineData->SetInput((vtkDataSet *) _vtkmprbasedata->GetImageData() );
387 _outlineData->SetInputData((vtkDataSet *) _vtkmprbasedata->GetImageData() );
388 _outlineData->Update();
392 if(_mapOutline==NULL)
394 _mapOutline = vtkPolyDataMapper::New();
396 //EED 2017-01-01 Migration VTK7
397 #if VTK_MAJOR_VERSION <= 5
398 _mapOutline->SetInput(_outlineData->GetOutput());
400 _mapOutline->SetInputData(_outlineData->GetOutput());
404 _mapOutline->Update();
405 //_mapOutline->RemoveAllInputs();
409 _outline = vtkActor::New();
410 _outline->SetMapper(_mapOutline);
411 _outline->GetProperty()->SetColor(0,0,0);
415 //_vtkmprbasedata->GetImageData()->GetExtent(ext);
418 //-------------------------------------------------------------------
419 vtkImageActor * vtkMPR3DDataViewer::GetvtkActor_saggital()
423 //-------------------------------------------------------------------
424 vtkImageActor * vtkMPR3DDataViewer::GetvtkActor_coronal()
428 //-------------------------------------------------------------------
429 vtkImageActor * vtkMPR3DDataViewer::GetvtkActor_axial()
434 //------------------------------------------------------------------------
435 void vtkMPR3DDataViewer::SetPositionX(int pos)
437 int x1,x2,y1,y2,z1,z2;
438 _vtkmprbasedata->GetDimensionExtention(&x1,&x2,&y1,&y2,&z1,&z2);
441 _saggital->SetDisplayExtent( pos , pos , y1 ,y2 , z1 , z2 );
443 _saggital->SetInterpolate( GetVtkMPRBaseData()->GetInterpolate() );
447 //------------------------------------------------------------------------
448 void vtkMPR3DDataViewer::SetPositionY(int pos)
450 int x1,x2,y1,y2,z1,z2;
451 _vtkmprbasedata->GetDimensionExtention(&x1,&x2,&y1,&y2,&z1,&z2);
454 _coronal->SetDisplayExtent(x1,x2, pos,pos, z1,z2);
456 _coronal->SetInterpolate( GetVtkMPRBaseData()->GetInterpolate() );
459 //------------------------------------------------------------------------
460 void vtkMPR3DDataViewer::SetPositionZ(int pos)
462 int x1,x2,y1,y2,z1,z2;
463 _vtkmprbasedata->GetDimensionExtention(&x1,&x2,&y1,&y2,&z1,&z2);
466 _axial->SetDisplayExtent(x1,x2, y1,y2, pos,pos);
468 _axial->SetInterpolate( GetVtkMPRBaseData()->GetInterpolate() );
471 //-------------------------------------------------------------------
472 void vtkMPR3DDataViewer::SetVisiblePosition(int idPosition, bool visible)
474 _visiblePosition[idPosition]=visible;
476 //-------------------------------------------------------------------
477 bool vtkMPR3DDataViewer::GetVisiblePosition(int idPosition)
479 return _visiblePosition[idPosition];
482 void vtkMPR3DDataViewer::setColorTransferFunction(vtkColorTransferFunction* colortable)
486 _saggitalColors->SetLookupTable(colortable);
487 _coronalColors->SetLookupTable(colortable);
488 _axialColors->SetLookupTable(colortable);