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cxtestSyntheticReconstructInput.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
5 All rights reserved.
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11  this list of conditions and the following disclaimer.
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32 
34 #include "cxDummyTool.h"
37 #include "cxTypeConversions.h"
38 
39 namespace cxtest
40 {
41 
43 {
44  mBounds = cx::Vector3D(99,99,99);
45 
46  mProbeMovementDefinition.mRangeNormalizedTranslation = cx::Vector3D::UnitX();
47 // mProbeMovementDefinition.mRangeAngle = M_PI/8;
48 // mProbeMovementDefinition.mSteps = 100;
49  mProbeMovementDefinition.mRangeAngle = 0;
50  mProbeMovementDefinition.mSteps = 200;
51 
52  mProbe = cx::DummyToolTestUtilities::createProbeDefinitionLinear(100, 100, Eigen::Array2i(200,200));
53 }
54 
56 {
57  mProbeMovementDefinition.mRangeNormalizedTranslation = cx::Vector3D::UnitX() * range;
58 }
60 {
61  mProbeMovementDefinition.mRangeAngle = range;
62 }
64 {
65  mProbeMovementDefinition.mSteps = steps;
66 }
68 {
69  mProbe = probe;
70 }
71 
73 {
74  // factors controlling sample rate:
75  // - output volume spacing
76  // - probe plane in-plane spacing
77  // - probe planes spacing (between the planes)
78  //
79  // set all these rates to the input spacing:
80 
81  mBounds = cx::Vector3D::Ones() * size;
82 // this->defineOutputVolume(size, spacing);
83  mProbe = cx::DummyToolTestUtilities::createProbeDefinitionLinear(size, size, Eigen::Array2i(1,1)*(size/spacing+1));
84  mProbeMovementDefinition.mRangeNormalizedTranslation = cx::Vector3D::UnitX();
85  mProbeMovementDefinition.mRangeAngle = 0;
86  mProbeMovementDefinition.mSteps = size/spacing+1;
87 }
88 
90 {
91  QString indent("");
92  mPhantom->printInfo();
93  std::cout << indent << "Probe:\n" << streamXml2String(mProbe) << std::endl;
94  std::cout << indent << "ProbeMovement RangeNormalizedTranslation: " << mProbeMovementDefinition.mRangeNormalizedTranslation << std::endl;
95  std::cout << indent << "ProbeMovement RangeAngle: " << mProbeMovementDefinition.mRangeAngle << std::endl;
96  std::cout << indent << "ProbeMovement Steps: " << mProbeMovementDefinition.mSteps<< std::endl;
97 }
98 
100 {
101  mPhantom.reset(new cx::cxSimpleSyntheticVolume(mBounds));
102 }
103 
105 {
106  mPhantom.reset(new cxtest::SphereSyntheticVolume(mBounds));
107 }
108 
110 {
111 
112 }
113 
114 std::vector<cx::Transform3D> SyntheticReconstructInput::generateFrames_rMt_tilted()
115 {
116  cx::Vector3D p0(mBounds[0]/2, mBounds[1]/2, 0); //probe starting point. pointing along z
117  cx::Vector3D range_translation = mBounds[0] * mProbeMovementDefinition.mRangeNormalizedTranslation;
118  double range_angle = mProbeMovementDefinition.mRangeAngle;
119  int steps = mProbeMovementDefinition.mSteps;
120 
121  // generate transforms from tool to reference.
122  return this->generateFrames(p0,
123  range_translation,
124  range_angle,
125  Eigen::Vector3d::UnitY(),
126  steps);
127 }
128 
133 std::vector<cx::Transform3D> SyntheticReconstructInput::generateFrames(cx::Vector3D p0,
134  cx::Vector3D range_translation,
135  double range_angle,
136  cx::Vector3D rotation_axis,
137  int steps)
138 {
139  // generate transforms from tool to reference.
140  std::vector<cx::Transform3D> planes;
141  for(int i = 0; i < steps; ++i)
142  {
143  double R = steps-1;
144  double t = (i-R/2)/R; // range [-0.5 .. 0.5]
145  cx::Transform3D transform = cx::Transform3D::Identity();
146  transform.translation() = p0 + range_translation*t;
147  transform.rotate(Eigen::AngleAxisd(t*range_angle, rotation_axis));
148  planes.push_back(transform);
149  }
150  return planes;
151 }
152 
154 {
155  cx::Vector3D p0(mBounds[0]/2, mBounds[1]/2, 0); //probe starting point. pointing along z
156  cx::Vector3D range_translation = mBounds[0] * mProbeMovementDefinition.mRangeNormalizedTranslation;
157  double range_angle = mProbeMovementDefinition.mRangeAngle;
158  int steps_full = 3*mProbeMovementDefinition.mSteps;
159 
160  // generate oversampled list of positions, for use both in tracking and imaging.
161  std::vector<cx::Transform3D> rMt_full;
162  rMt_full = this->generateFrames(p0,
163  range_translation,
164  range_angle,
165  Eigen::Vector3d::UnitY(),
166  steps_full);
167 
169 
170  // sample out tracking positions from the full list
171  for (unsigned i=0; i<steps_full; i+=2)
172  {
173  cx::TimedPosition pos;
174  pos.mTime = i;
175  pos.mPos = rMt_full[i]; // TODO: skrell av rMpr
176  result.mPositions.push_back(pos);
177  }
178 
179  // sample out image frames from the full list
180  std::vector<vtkImageDataPtr> frames;
181  for (unsigned i=0; i<steps_full; i+=3)
182  {
183  cx::TimedPosition pos;
184  pos.mTime = i;
185  result.mFrames.push_back(pos);
186 
187  frames.push_back(mPhantom->sampleUsData(rMt_full[i], mProbe));
188  }
189  result.mUsRaw = cx::USFrameData::create("virtual", frames);
190 
191  // fill rest of info
192  result.rMpr = cx::Transform3D::Identity(); // if <>Identity, remember to also change mPositions
193  result.mProbeUid = "testProbe";
194  result.mProbeDefinition.setData(mProbe);
195 
196  return result;
197 }
198 
200 {
201  std::vector<cx::Transform3D> planes = this->generateFrames_rMt_tilted();
202 // std::cout << "Starting sampling\n";
204  retval = mPhantom->sampleUsData(planes, mProbe, dMr);
205 // std::cout << "Done sampling\n";
206  return retval;
207 }
208 
209 
210 } // namespace cxtest
211 
One position with timestamp.
Transform3D Transform3D
Transform3D is a representation of an affine 3D transform.
cx::USReconstructInputData generateSynthetic_USReconstructInputData()
std::vector< TimedPosition > mFrames
void setOverallBoundsAndSpacing(double size, double spacing)
cx::ProcessedUSInputDataPtr generateSynthetic_ProcessedUSInputData(cx::Transform3D dMr)
Transform3D rMpr
patient registration
std::vector< TimedPosition > mPositions
Eigen::Vector3d Vector3D
Vector3D is a representation of a point or vector in 3D.
Definition: cxVector3D.h:63
Definition of characteristics for an Ultrasound Probe Sector.
QString streamXml2String(T &val)
boost::shared_ptr< class ProcessedUSInputData > ProcessedUSInputDataPtr
USFrameDataPtr mUsRaw
All imported US data frames with pointers to each frame.
static USFrameDataPtr create(ImagePtr inputFrameData)
float4 transform(float16 matrix, float4 voxel)
static ProbeDefinition createProbeDefinitionLinear(double depth=40, double width=50, Eigen::Array2i frameSize=Eigen::Array2i(80, 40))
Definition: cxDummyTool.cpp:67
void setData(ProbeDefinition data)