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cxImageAlgorithms.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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7 Redistribution and use in source and binary forms, with or without
8 modification, are permitted provided that the following conditions are met:
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31 =========================================================================*/
32 
33 #include "cxImageAlgorithms.h"
34 
35 #include <vtkImageData.h>
36 #include <vtkImageReslice.h>
37 #include <vtkMatrix4x4.h>
38 
39 #include <vtkImageResample.h>
40 #include <vtkImageClip.h>
41 
42 #include "cxImage.h"
43 #include "cxPatientModelService.h"
44 #include "cxUtilHelpers.h"
45 #include "cxImageTF3D.h"
46 #include "cxImageLUT2D.h"
48 
49 #include "cxTime.h"
50 #include "cxVolumeHelpers.h"
51 
52 
53 namespace cx
54 {
55 
60 {
61  //TODO: fix error:
62  // There is an error in the transfer functions of the returned image from this function
63 
64  // provide a resampled volume for algorithms requiring that (such as PickerRep)
65  vtkMatrix4x4Ptr orientatorMatrix = vtkMatrix4x4Ptr::New();
66  vtkImageReslicePtr orientator = vtkImageReslicePtr::New();
67  orientator->SetInputData(image->getBaseVtkImageData());
68  orientator->SetInterpolationModeToLinear();
69  orientator->SetOutputDimensionality(3);
70  orientator->SetResliceAxes(qMd.inv().getVtkMatrix());
71  orientator->AutoCropOutputOn();
72  orientator->Update();
73  vtkImageDataPtr rawResult = orientator->GetOutput();
74 
75 // rawResult->Update();
76 
77  QString uid = image->getUid() + "_or%1";
78  QString name = image->getName()+" or%1";
79 // ImagePtr oriented = dataManager->createDerivedImage(rawResult, uid, name, image);
80 
81  ImagePtr oriented = createDerivedImage(dataManager,
82  uid, name,
83  rawResult, image);
84 
85  oriented->get_rMd_History()->setRegistration(image->get_rMd() * qMd.inv());
86  oriented->mergevtkSettingsIntosscTransform();
87 
88  return oriented;
89 }
90 
94 ImagePtr resampleImage(PatientModelServicePtr dataManager, ImagePtr image, const Vector3D spacing, QString uid, QString name)
95 {
96  vtkImageResamplePtr resampler = vtkImageResamplePtr::New();
97  resampler->SetInputData(image->getBaseVtkImageData());
98  resampler->SetAxisOutputSpacing(0, spacing[0]);
99  resampler->SetAxisOutputSpacing(1, spacing[1]);
100  resampler->SetAxisOutputSpacing(2, spacing[2]);
101  resampler->Update();
102  vtkImageDataPtr rawResult = resampler->GetOutput();
103 
104  if (uid.isEmpty())
105  {
106  uid = image->getUid() + "_res%1";
107  name = image->getName()+" res%1";
108  }
109 
110  ImagePtr retval = createDerivedImage(dataManager,
111  uid, name,
112  rawResult, image);
113  return retval;
114 }
115 
120 {
121  Vector3D spacing(image->getBaseVtkImageData()->GetSpacing());
122  return resampleImage(dataManager, image, spacing, image->getUid()+"_copy%1", image->getName()+" copy%1");
123 }
124 
129 {
130  vtkImageClipPtr clip = vtkImageClipPtr::New();
131  clip->SetInputData(input);
132  clip->SetOutputWholeExtent(cropbox.begin());
133  clip->ClipDataOn();
134  clip->Update();
135  vtkImageDataPtr rawResult = clip->GetOutput();
136 
137 // rawResult->Update();
138 // rawResult->UpdateInformation();
139  rawResult->ComputeBounds();
140  return rawResult;
141 }
142 
147 {
148  DoubleBoundingBox3D bb = image->getCroppingBox();
149  double* sp = image->getBaseVtkImageData()->GetSpacing();
150  IntBoundingBox3D cropbox(
151  static_cast<int>(bb[0]/sp[0]+0.5), static_cast<int>(bb[1]/sp[0]+0.5),
152  static_cast<int>(bb[2]/sp[1]+0.5), static_cast<int>(bb[3]/sp[1]+0.5),
153  static_cast<int>(bb[4]/sp[2]+0.5), static_cast<int>(bb[5]/sp[2]+0.5));
154  vtkImageDataPtr rawResult = cropImage(image->getBaseVtkImageData(), cropbox);
155 
156  QString uid = image->getUid() + "_crop%1";
157  QString name = image->getName()+" crop%1";
158  ImagePtr result = createDerivedImage(dataManager,
159  uid, name,
160  rawResult, image);
161  result->mergevtkSettingsIntosscTransform();
162 
163  return result;
164 }
165 
168 QDateTime extractTimestamp(QString text)
169 {
170  // retrieve timestamp as
171  QRegExp tsReg("[0-9]{8}T[0-9]{6}");
172  if (tsReg.indexIn(text)>0)
173  {
174  QDateTime datetime = QDateTime::fromString(tsReg.cap(0), timestampSecondsFormat());
175  return datetime;
176  }
177  return QDateTime();
178 }
179 
180 
181 
182 
183 } // namespace cx
vtkSmartPointer< class vtkMatrix4x4 > vtkMatrix4x4Ptr
Definition: cxMathBase.h:58
ImagePtr resampleImage(PatientModelServicePtr dataManager, ImagePtr image, Transform3D qMd)
Transform3D Transform3D
Transform3D is a representation of an affine 3D transform.
vtkImageDataPtr cropImage(vtkImageDataPtr input, IntBoundingBox3D cropbox)
boost::shared_ptr< class Image > ImagePtr
Definition: cxDicomWidget.h:48
QString timestampSecondsFormat()
Definition: cxTime.cpp:39
ImagePtr duplicateImage(PatientModelServicePtr dataManager, ImagePtr image)
ImagePtr createDerivedImage(PatientModelServicePtr dataManager, QString uid, QString name, vtkImageDataPtr raw, ImagePtr parent)
vtkSmartPointer< class vtkImageReslice > vtkImageReslicePtr
boost::shared_ptr< class PatientModelService > PatientModelServicePtr
Representation of an integer bounding box in 3D. The data are stored as {xmin,xmax,ymin,ymax,zmin,zmax}, in order to simplify communication with vtk.
Representation of a floating-point bounding box in 3D. The data are stored as {xmin,xmax,ymin,ymax,zmin,zmax}, in order to simplify communication with vtk.
vtkSmartPointer< class vtkImageResample > vtkImageResamplePtr
vtkSmartPointer< class vtkImageClip > vtkImageClipPtr
Eigen::Vector3d Vector3D
Vector3D is a representation of a point or vector in 3D.
Definition: cxVector3D.h:63
QDateTime extractTimestamp(QString text)
vtkSmartPointer< class vtkImageData > vtkImageDataPtr