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cxLandmarkTranslationRegistration.cpp
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1 /*=========================================================================
2 This file is part of CustusX, an Image Guided Therapy Application.
3 
4 Copyright (c) 2008-2014, SINTEF Department of Medical Technology
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33 
34 /*=========================================================================
35 
36  Program: Insight Segmentation & Registration Toolkit
37  Module: $RCSfile: IterativeClosestPoint1.cxx,v $
38  Language: C++
39  Date: $Date: 2009-12-04 03:25:22 $
40  Version: $Revision: 1.7 $
41 
42  Copyright (c) Insight Software Consortium. All rights reserved.
43  See ITKCopyright.txt or http://www.itk.org/HTML/Copyright.htm for details.
44 
45  This software is distributed WITHOUT ANY WARRANTY; without even
46  the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
47  PURPOSE. See the above copyright notices for more information.
48 
49  =========================================================================*/
50 #ifdef _MSC_VER
51 #pragma warning ( disable : 4786 )
52 #endif
53 
54 // Software Guide : BeginLatex
55 //
56 // This example illustrates how to perform Iterative Closest Point (ICP)
57 // registration in ITK. The main class featured in this section is the
58 // \doxygen{EuclideanDistancePointMetric}.
59 //
60 // Software Guide : EndLatex
61 
62 // Software Guide : BeginCodeSnippet
63 #include "itkTranslationTransform.h"
64 #include "itkEuclideanDistancePointMetric.h"
65 #include "itkLevenbergMarquardtOptimizer.h"
66 #include "itkPointSet.h"
67 #include "itkPointSetToPointSetRegistrationMethod.h"
68 // Software Guide : EndCodeSnippet
69 
70 #include <iostream>
71 #include <fstream>
72 
73 class CommandIterationUpdate: public itk::Command
74 {
75 public:
77  typedef itk::Command Superclass;
78  typedef itk::SmartPointer<Self> Pointer;
79  itkNewMacro( Self );
80 
81 protected:
83 
84 public:
85  typedef itk::LevenbergMarquardtOptimizer OptimizerType;
87 
88  void Execute(itk::Object *caller, const itk::EventObject & event)
89  {
90  Execute((const itk::Object *) caller, event);
91  }
92 
93  void Execute(const itk::Object * object, const itk::EventObject & event)
94  {
95  OptimizerPointer optimizer = dynamic_cast<OptimizerPointer>(object);
96 
97  if (!itk::IterationEvent().CheckEvent(&event))
98  {
99  return;
100  }
101 
102  std::cout << "iteration Value = " << optimizer->GetCachedValue() << std::endl;
103  std::cout << "iteration Position = " << optimizer->GetCachedCurrentPosition();
104  std::cout << std::endl << std::endl;
105 
106  }
107 
108 };
109 
111 {
112 public:
113  static const unsigned int Dimension = 3;
114 
115  typedef itk::PointSet<float, Dimension> PointSetType;
116 
117 // PointSetType::Pointer fixedPointSet = PointSetType::New();
118 // PointSetType::Pointer movingPointSet = PointSetType::New();
119 
120  typedef PointSetType::PointType PointType;
121  typedef PointSetType::PointsContainer PointsContainer;
122 
123  //-----------------------------------------------------------
124  // Set up the Metric
125  //-----------------------------------------------------------
126  typedef itk::EuclideanDistancePointMetric<PointSetType, PointSetType> MetricType;
127 
128  typedef MetricType::TransformType TransformBaseType;
129  typedef TransformBaseType::ParametersType ParametersType;
130  typedef TransformBaseType::JacobianType JacobianType;
131 
132  //-----------------------------------------------------------
133  // Set up a Transform
134  //-----------------------------------------------------------
135 
136  typedef itk::TranslationTransform<double, Dimension> TransformType;
137 
138  // Optimizer Type
139  typedef itk::LevenbergMarquardtOptimizer OptimizerType;
140 
141  // Registration Method
142  typedef itk::PointSetToPointSetRegistrationMethod<PointSetType, PointSetType> RegistrationType;
143 
144  // methods:
146 
147  bool registerPoints(std::vector<cx::Vector3D> ref, std::vector<cx::Vector3D> target);
148  bool registerPoints(PointSetType::Pointer fixedPointSet, PointSetType::Pointer movingPointSet);
149  PointSetType::Pointer toItk(std::vector<cx::Vector3D> input);
150  int test();
151 
152 };
153 
154 LandmarkTranslation::PointSetType::Pointer LandmarkTranslation::toItk(std::vector<cx::Vector3D> input)
155 {
156  PointSetType::Pointer pointSet = PointSetType::New();
157  PointsContainer::Pointer pointContainer = PointsContainer::New();
158  PointType point;
159 
160  for (unsigned i = 0; i < input.size(); ++i)
161  {
162  point[0] = input[i][0];
163  point[1] = input[i][1];
164  point[2] = input[i][2];
165  pointContainer->InsertElement(i, point);
166  }
167  pointSet->SetPoints(pointContainer);
168  return pointSet;
169 }
170 
171 bool LandmarkTranslation::registerPoints(std::vector<cx::Vector3D> ref, std::vector<cx::Vector3D> target)
172 {
173  return registerPoints(toItk(ref), toItk(target));
174 }
175 
176 bool LandmarkTranslation::registerPoints(PointSetType::Pointer fixedPointSet, PointSetType::Pointer movingPointSet)
177 {
178 
179 //-----------------------------------------------------------
180 // Set up the Metric
181 //-----------------------------------------------------------
182  MetricType::Pointer metric = MetricType::New();
183 
184 //-----------------------------------------------------------
185 // Set up a Transform
186 //-----------------------------------------------------------
187 
188  TransformType::Pointer transform = TransformType::New();
189 
190  // Optimizer Type
191  OptimizerType::Pointer optimizer = OptimizerType::New();
192  optimizer->SetUseCostFunctionGradient(false);
193 
194  // Registration Method
195  RegistrationType::Pointer registration = RegistrationType::New();
196 
197  // Scale the translation components of the Transform in the Optimizer
198  OptimizerType::ScalesType scales(transform->GetNumberOfParameters());
199  std::cout << "transform->GetNumberOfParameters() " << transform->GetNumberOfParameters() << std::endl;
200  scales.Fill(0.01);
201 
202  unsigned long numberOfIterations = 100;
203  double gradientTolerance = 1e-5; // convergence criterion
204  double valueTolerance = 1e-5; // convergence criterion
205  double epsilonFunction = 1e-6; // convergence criterion
206 
207  optimizer->SetScales(scales);
208  optimizer->SetNumberOfIterations(numberOfIterations);
209  optimizer->SetValueTolerance(valueTolerance);
210  optimizer->SetGradientTolerance(gradientTolerance);
211  optimizer->SetEpsilonFunction(epsilonFunction);
212 
213  // Start from an Identity transform (in a normal case, the user
214  // can probably provide a better guess than the identity...
215  transform->SetIdentity();
216 
217  registration->SetInitialTransformParameters(transform->GetParameters());
218 
219  //------------------------------------------------------
220  // Connect all the components required for Registration
221  //------------------------------------------------------
222  registration->SetMetric(metric);
223  registration->SetOptimizer(optimizer);
224  registration->SetTransform(transform);
225  registration->SetFixedPointSet(fixedPointSet);
226  registration->SetMovingPointSet(movingPointSet);
227 
228 // // Connect an observer
229 // CommandIterationUpdate::Pointer observer = CommandIterationUpdate::New();
230 // optimizer->AddObserver( itk::IterationEvent(), observer );
231 
232  try
233  {
234 // registration->StartRegistration();
235  registration->Update();
236  } catch (itk::ExceptionObject & e)
237  {
238  std::cout << e << std::endl;
239  return false;
240  }
241 
242  mResult = cx::Transform3D::Identity();
243  for (unsigned i = 0; i < transform->GetNumberOfParameters(); ++i)
244  mResult(i, 3) = transform->GetParameters()[i];
245 
246  //std::cout << "Solution = " << transform->GetParameters() << "\n" << mResult << std::endl;
247  //std::cout << "Solution = " << registration->GetLastTransformParameters() << std::endl;
248 
249  return true;
250 
251 }
252 
253 namespace cx
254 {
255 
264  std::vector<Vector3D> target, bool* ok)
265 {
266  if (ref.size() != target.size() || ref.empty())
267  {
268  std::cout << "Different sizes in ref and target: aborting registration." << std::endl;
269  *ok = false;
270  return Transform3D::Identity();
271  }
272 
273  // ad-hoc solution for one and two points: itk doesn't handle this for some reason.
274  if (ref.size() == 1)
275  {
276  Vector3D t = ref[0] - target[0];
277  *ok = true;
278  return createTransformTranslate(t);
279  }
280  if (ref.size() == 2)
281  {
282  Vector3D rr = (ref[0] + ref[1]) / 2.0;
283  Vector3D tt = (target[0] + target[1]) / 2.0;
284  Vector3D t = rr - tt;
285  *ok = true;
286  return createTransformTranslate(t);
287  }
288 
289  LandmarkTranslation registrator;
290  *ok = registrator.registerPoints(ref, target);
291  return registrator.mResult;
292 }
293 
294 } // namespace cx
itk::PointSet< float, Dimension > PointSetType
Transform3D Transform3D
Transform3D is a representation of an affine 3D transform.
void Execute(itk::Object *caller, const itk::EventObject &event)
void Execute(const itk::Object *object, const itk::EventObject &event)
Transform3D registerPoints(std::vector< Vector3D > ref, std::vector< Vector3D > target, bool *ok)
itk::TranslationTransform< double, Dimension > TransformType
Transform3D createTransformTranslate(const Vector3D &translation)
MetricType::TransformType TransformBaseType
PointSetType::Pointer toItk(std::vector< cx::Vector3D > input)
Eigen::Vector3d Vector3D
Vector3D is a representation of a point or vector in 3D.
Definition: cxVector3D.h:63
TransformBaseType::ParametersType ParametersType
itk::PointSetToPointSetRegistrationMethod< PointSetType, PointSetType > RegistrationType
itk::LevenbergMarquardtOptimizer OptimizerType
PointSetType::PointsContainer PointsContainer
TransformBaseType::JacobianType JacobianType
cx::Transform3D mResult
transform of movingPointSet
bool registerPoints(std::vector< cx::Vector3D > ref, std::vector< cx::Vector3D > target)
itk::EuclideanDistancePointMetric< PointSetType, PointSetType > MetricType
float4 transform(float16 matrix, float4 voxel)
itk::LevenbergMarquardtOptimizer OptimizerType