#include "clitkAutoCropFilter.h"
#include "clitkResampleImageWithOptionsFilter.h"
#include "clitkBooleanOperatorLabelImageFilter.h"
+#include "clitkCropLikeImageFilter.h"
// itk
#include <deque>
CombineWithOrFlagOff();
VerboseStepFlagOff();
WriteStepFlagOff();
+ FuzzyMapOnlyFlagOff();
+ FastFlagOff();
+ SetRadius(2.0);
+ SetK1(vcl_acos(-1.0)/2);
}
//--------------------------------------------------------------------
AddOrientationTypeString(std::string t)
{
m_OrientationTypeString.push_back(t);
- switch (t[0]) {
- case 'L' : AddOrientationType(AtLeftTo); break;
- case 'R' : AddOrientationType(AtRightTo);break;
- case 'A' : AddOrientationType(AntTo);break;
- case 'P' : AddOrientationType(PostTo);break;
- case 'S' : AddOrientationType(SupTo);break;
- case 'I' : AddOrientationType(InfTo);break;
- case 'N':
- if (t == "NotLeftTo") { AddOrientationType(AtLeftTo); InverseOrientationFlagOn(); break; }
- if (t == "NotRightTo") { AddOrientationType(AtRightTo); InverseOrientationFlagOn(); break; }
- if (t == "NotAntTo") { AddOrientationType(AntTo); InverseOrientationFlagOn(); break; }
- if (t == "NotPostTo") { AddOrientationType(PostTo); InverseOrientationFlagOn(); break; }
- if (t == "NotSupTo") { AddOrientationType(SupTo); InverseOrientationFlagOn(); break; }
- if (t == "NotInfTo") { AddOrientationType(InfTo); InverseOrientationFlagOn(); break; }
- default: clitkExceptionMacro("Error, you must provide L,R or A,P or S,I (or NotLeftTo, NotRightTo etc)");
- }
+
+ if (t == "LeftTo") { AddOrientationType(LeftTo); return; }
+ if (t == "RightTo") { AddOrientationType(RightTo); return; }
+ if (t == "AntTo") { AddOrientationType(AntTo); return; }
+ if (t == "PostTo") { AddOrientationType(PostTo); return; }
+ if (t == "SupTo") { AddOrientationType(SupTo); return; }
+ if (t == "InfTo") { AddOrientationType(InfTo); return; }
+
+ if (t == "NotLeftTo") { AddOrientationType(LeftTo); InverseOrientationFlagOn(); return; }
+ if (t == "NotRightTo") { AddOrientationType(RightTo); InverseOrientationFlagOn(); return; }
+ if (t == "NotAntTo") { AddOrientationType(AntTo); InverseOrientationFlagOn(); return; }
+ if (t == "NotPostTo") { AddOrientationType(PostTo); InverseOrientationFlagOn(); return; }
+ if (t == "NotSupTo") { AddOrientationType(SupTo); InverseOrientationFlagOn(); return; }
+ if (t == "NotInfTo") { AddOrientationType(InfTo); InverseOrientationFlagOn(); return; }
+
+ if (t == "Angle") return;
+
+ clitkExceptionMacro("Error, you must provide LeftTo,RightTo or AntTo,PostTo or SupTo,InfTo (or NotLeftTo, NotRightTo etc) but you give " << t);
}
//--------------------------------------------------------------------
template <class ImageType>
void
clitk::AddRelativePositionConstraintToLabelImageFilter<ImageType>::
-AddAngles(double a, double b)
+AddAnglesInRad(double a, double b)
{
- AddOrientationTypeString("Angle");
+ m_OrientationTypeString.push_back("Angle");
+ m_OrientationType.push_back(Angle);
m_Angle1.push_back(a);
m_Angle2.push_back(b);
}
//--------------------------------------------------------------------
+//--------------------------------------------------------------------
+template <class ImageType>
+void
+clitk::AddRelativePositionConstraintToLabelImageFilter<ImageType>::
+AddAnglesInDeg(double a, double b)
+{
+ AddAnglesInRad(clitk::deg2rad(a), clitk::deg2rad(b));
+}
+//--------------------------------------------------------------------
+
+
//--------------------------------------------------------------------
template <class ImageType>
void
{
m_OrientationType.push_back(orientation);
switch (orientation) {
- case AtRightTo:
+ case RightTo:
m_Angle1.push_back(clitk::deg2rad(0));
m_Angle2.push_back(clitk::deg2rad(0));
break;
- case AtLeftTo:
+ case LeftTo:
m_Angle1.push_back(clitk::deg2rad(180));
m_Angle2.push_back(clitk::deg2rad(0));
break;
//--------------------------------------------------------------------
+//--------------------------------------------------------------------
+template <class ImageType>
+void
+clitk::AddRelativePositionConstraintToLabelImageFilter<ImageType>::
+PrintOptions()
+{
+ DD((int)this->GetBackgroundValue());
+ DD((int)this->GetObjectBackgroundValue());
+ DDV(this->GetOrientationTypeString(), (uint)this->GetNumberOfAngles());
+ DD(this->GetIntermediateSpacingFlag());
+ DD(this->GetIntermediateSpacing());
+ DD(this->GetFuzzyThreshold());
+ DD(this->GetAutoCropFlag());
+ DD(this->GetInverseOrientationFlag());
+ DD(this->GetRemoveObjectFlag());
+ DD(this->GetCombineWithOrFlag());
+}
+//--------------------------------------------------------------------
+
+
//--------------------------------------------------------------------
template <class ImageType>
void
clitkExceptionMacro("Add at least one orientation type");
}
+ if (GetVerboseOptionFlag()) {
+ for(int i=0; i<GetNumberOfAngles(); i++) {
+ std::cout << "Orientation \t:" << GetOrientationTypeString(i) << std::endl;
+ }
+ std::cout << "Interm Spacing \t:" << GetIntermediateSpacingFlag() << " " << GetIntermediateSpacing() << "mm" << std::endl;
+ std::cout << "Fuzzy threshold\t:" << GetFuzzyThreshold() << std::endl;
+ std::cout << "AutoCrop \t:" << GetAutoCropFlag() << std::endl;
+ std::cout << "InverseOrient \t:" << GetInverseOrientationFlag() << std::endl;
+ std::cout << "RemoveObject \t:" << GetRemoveObjectFlag() << std::endl;
+ std::cout << "CombineWithOr \t:" << GetCombineWithOrFlag() << std::endl;
+ }
+
// Get input pointer
input = dynamic_cast<ImageType*>(itk::ProcessObject::GetInput(0));
object = dynamic_cast<ImageType*>(itk::ProcessObject::GetInput(1));
//--------------------------------------------------------------------
// Step 1 : resample
if (m_IntermediateSpacingFlag) {
- StartNewStep("Resample object to intermediate spacing");
+ StartNewStep("Resample object to intermediate spacing (" + toString(m_IntermediateSpacing) + ")");
typedef clitk::ResampleImageWithOptionsFilter<ImageType> ResampleFilterType;
typename ResampleFilterType::Pointer resampleFilter = ResampleFilterType::New();
resampleFilter->SetInput(working_image);
resampleFilter->SetDefaultPixelValue(0);
resampleFilter->SetOutputIsoSpacing(m_IntermediateSpacing);
resampleFilter->SetGaussianFilteringEnabled(false);
- // resampleFilter->SetVerboseOptions(true);
+ //resampleFilter->SetVerboseOptions(true);
resampleFilter->Update();
working_image = resampleFilter->GetOutput();
StopCurrentStep<ImageType>(working_image);
typedef itk::RelativePositionPropImageFilter<ImageType, FloatImageType> RelPosFilterType;
typename RelPosFilterType::Pointer relPosFilter;
- typename FloatImageType::Pointer m_FuzzyMap;
for(int i=0; i<GetNumberOfAngles(); i++) {
// Compute fuzzy map
relPosFilter = RelPosFilterType::New();
+ relPosFilter->SetFast(GetFastFlag());
+ relPosFilter->SetRadius(GetRadius());
relPosFilter->SetInput(working_image);
relPosFilter->SetAlpha1(m_Angle1[i]); // xy plane
relPosFilter->SetAlpha2(m_Angle2[i]);
- relPosFilter->SetK1(M_PI/2.0); // Opening parameter, default = pi/2
- relPosFilter->SetFast(true);
- relPosFilter->SetRadius(1); // seems sufficient in this case
+ relPosFilter->SetK1(GetK1());// M_PI/2.0); // Opening parameter, default = pi/2
// relPosFilter->SetVerboseProgress(true);
+
relPosFilter->Update();
relPos = relPosFilter->GetOutput();
relPos = m_FuzzyMap;
StopCurrentStep<FloatImageType>(relPos);
+ if (GetFuzzyMapOnlyFlag()) {
+ // If the spacing is used, recompute fuzzy map with the input size/spacing
+ if (m_IntermediateSpacingFlag) {
+ StartNewStep("Resample FuzzyMap to come back to the same sampling than input");
+ typedef clitk::ResampleImageWithOptionsFilter<FloatImageType> ResampleFilterType;
+ typename ResampleFilterType::Pointer resampleFilter = ResampleFilterType::New();
+ resampleFilter->SetDefaultPixelValue(0.0); //Default fuzzymap value FIXME
+ resampleFilter->SetInput(relPos);
+ resampleFilter->SetOutputSpacing(input->GetSpacing());
+ resampleFilter->SetGaussianFilteringEnabled(false);
+ resampleFilter->Update();
+ relPos = m_FuzzyMap = resampleFilter->GetOutput();
+ StopCurrentStep<FloatImageType>(relPos);
+
+ // Need to put exactly the same size
+ if (relPos->GetLargestPossibleRegion() != input->GetLargestPossibleRegion()) {
+ StartNewStep("Pad to get the same size than input");
+ typename FloatImageType::Pointer temp = FloatImageType::New();
+ temp->CopyInformation(input);
+ temp->SetRegions(input->GetLargestPossibleRegion()); // Do not forget !!
+ temp->Allocate();
+ temp->FillBuffer(0.0); // Default fuzzymap value FIXME
+ typename PasteFloatFilterType::Pointer padFilter2 = PasteFloatFilterType::New();
+ padFilter2->SetSourceImage(relPos);
+ padFilter2->SetDestinationImage(temp);
+ padFilter2->SetDestinationIndex(input->GetLargestPossibleRegion().GetIndex());
+ padFilter2->SetSourceRegion(relPos->GetLargestPossibleRegion());
+ padFilter2->Update();
+ relPos = padFilter2->GetOutput();
+ StopCurrentStep<FloatImageType>(relPos);
+ m_FuzzyMap = relPos;
+ }
+ }
+ else {
+ StopCurrentStep<FloatImageType>(relPos);
+ }
+ return;
+ }
//--------------------------------------------------------------------
//--------------------------------------------------------------------