2 # ---------------------------------------------------------------------
4 # Copyright (c) CREATIS (Centre de Recherche en Acquisition et Traitement de l'Image
6 # Authors : Eduardo Davila, Frederic Cervenansky, Claire Mouton
7 # Previous Authors : Laurent Guigues, Jean-Pierre Roux
8 # CreaTools website : www.creatis.insa-lyon.fr/site/fr/creatools_accueil
10 # This software is governed by the CeCILL-B license under French law and
11 # abiding by the rules of distribution of free software. You can use,
12 # modify and/ or redistribute the software under the terms of the CeCILL-B
13 # license as circulated by CEA, CNRS and INRIA at the following URL
14 # http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html
15 # or in the file LICENSE.txt.
17 # As a counterpart to the access to the source code and rights to copy,
18 # modify and redistribute granted by the license, users are provided only
19 # with a limited warranty and the software's author, the holder of the
20 # economic rights, and the successive licensors have only limited
23 # The fact that you are presently reading this means that you have had
24 # knowledge of the CeCILL-B license and that you accept its terms.
25 # ------------------------------------------------------------------------ */
28 #include "bbvtkUnaryOperations.h"
29 #include "bbvtkPackage.h"
34 BBTK_ADD_BLACK_BOX_TO_PACKAGE(vtk,UnaryOperations)
35 BBTK_BLACK_BOX_IMPLEMENTATION(UnaryOperations,bbtk::AtomicBlackBox);
36 void UnaryOperations::Process()
39 // THE MAIN PROCESSING METHOD BODY
40 // Here we simply set the input 'In' value to the output 'Out'
41 // And print out the output value
42 // INPUT/OUTPUT ACCESSORS ARE OF THE FORM :
43 // void bbSet{Input|Output}NAME(const TYPE&)
44 // const TYPE& bbGet{Input|Output}NAME() const
46 // * NAME is the name of the input/output
47 // (the one provided in the attribute 'name' of the tag 'input')
48 // * TYPE is the C++ type of the input/output
49 // (the one provided in the attribute 'type' of the tag 'input')
51 if (bbGetInputIn1() == NULL)
53 std::cout << "Set In1 at least" << std::endl;
57 ope->SetInput1((vtkDataObject*)bbGetInputIn1());
60 ope->SetConstantK( bbGetInputInConstant() );
61 // ope->SetConstantC(bbGetInputInConstant());
63 switch (bbGetInputOperation())
66 ope->SetOperationToAddConstant();
70 ope->SetConstantK( -1.0 * bbGetInputInConstant() );
71 ope->SetOperationToAddConstant();
74 ope->SetOperationToMultiplyByK();
75 printf("EED UnaryOperations::Process() 2 \n");
79 ope->SetConstantK( 1.0/bbGetInputInConstant() );
80 ope->SetOperationToMultiplyByK();
81 printf("EED UnaryOperations::Process() 3 \n");
84 ope->SetOperationToInvert();
88 ope->SetOperationToSin();
92 ope->SetOperationToCos();
97 ope->SetOperationToExp();
101 ope->SetOperationToLog();
104 ope->SetOperationToAbsoluteValue();
108 /* EED 21Juin 2011 Borrame
110 substractWithMinimum();
111 bbSetOutputOut(constante);
116 bbSetOutputOut(constante);
122 std::cout << "Invalid Operation" << std::endl;
128 vtkImageData* salida = ope->GetOutput();
130 bbSetOutputOut(salida);
131 bbSignalOutputModification();
135 /* Borrame Eduardo - Juan Pablo
136 void UnaryOperations::crearPredeterminado()
139 vtkImageData* inicial = bbGetInputIn1();
142 if (constante == NULL)
144 inicial->GetExtent(ext);
145 constante = vtkImageData::New();
146 constante->SetExtent(ext);
147 constante->SetScalarType(inicial->GetScalarType());
148 constante->AllocateScalars();
152 for (int i=ext[0]; i<=ext[1]; i++)
154 for (int j=ext[2]; j<=ext[3]; j++)
156 for (int k=ext[4]; k<=ext[5]; k++)
158 unsigned short* value = (unsigned short*)constante->GetScalarPointer(i,j,k);
159 *value = bbGetInputInConstant();
167 void UnaryOperations::substractWithMinimum()
171 vtkImageData* inicial = bbGetInputIn1();
174 if (constante == NULL)
176 inicial->GetExtent(ext);
177 inicial->GetSpacing(spc);
178 constante = vtkImageData::New();
179 constante->SetExtent(ext);
180 constante->SetSpacing(spc);
181 constante->SetOrigin(inicial->GetOrigin());
182 constante->SetScalarType(inicial->GetScalarType());
183 constante->AllocateScalars();
187 for (int i=ext[0]; i<=ext[1]; i++)
189 for (int j=ext[2]; j<=ext[3]; j++)
191 for (int k=ext[4]; k<=ext[5]; k++)
193 double temp1 = lector.getPixelValue(i,j,k,inicial);
194 double temp = temp1 - bbGetInputInConstant();
197 lector.setPixelValue(i,j,k,constante,temp);
204 void UnaryOperations::bbUserSetDefaultValues()
207 // SET HERE THE DEFAULT INPUT/OUTPUT VALUES OF YOUR BOX
208 // Here we initialize the input 'In' to 0
210 bbSetOutputOut(NULL);
211 bbSetInputInConstant(0);
212 bbSetInputOperation(0);
213 ope = vtkImageMathematics::New();
216 void UnaryOperations::bbUserInitializeProcessing()
219 // THE INITIALIZATION METHOD BODY :
221 // but this is where you should allocate the internal/output pointers
226 void UnaryOperations::bbUserFinalizeProcessing()
229 // THE FINALIZATION METHOD BODY :
231 // but this is where you should desallocate the internal/output pointers
236 // EO namespace bbvtk