diff --git a/Modules/DiffusionImaging/FiberTracking/Testing/mitkLocalFiberPlausibilityTest.cpp b/Modules/DiffusionImaging/FiberTracking/Testing/mitkLocalFiberPlausibilityTest.cpp index 2869dd74ca..854f5dd18b 100755 --- a/Modules/DiffusionImaging/FiberTracking/Testing/mitkLocalFiberPlausibilityTest.cpp +++ b/Modules/DiffusionImaging/FiberTracking/Testing/mitkLocalFiberPlausibilityTest.cpp @@ -1,173 +1,173 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _USE_MATH_DEFINES #include using namespace std; int mitkLocalFiberPlausibilityTest(int argc, char* argv[]) { MITK_TEST_BEGIN("mitkLocalFiberPlausibilityTest"); MITK_TEST_CONDITION_REQUIRED(argc==8,"check for input data") string fibFile = argv[1]; vector< string > referenceImages; referenceImages.push_back(argv[2]); referenceImages.push_back(argv[3]); string LDFP_ERROR_IMAGE = argv[4]; string LDFP_NUM_DIRECTIONS = argv[5]; string LDFP_VECTOR_FIELD = argv[6]; string LDFP_ERROR_IMAGE_IGNORE = argv[7]; float angularThreshold = 25; try { typedef itk::Image ItkUcharImgType; typedef itk::Image< itk::Vector< float, 3>, 3 > ItkDirectionImage3DType; typedef itk::VectorContainer< unsigned int, ItkDirectionImage3DType::Pointer > ItkDirectionImageContainerType; typedef itk::EvaluateDirectionImagesFilter< float > EvaluationFilterType; // load fiber bundle mitk::FiberBundleX::Pointer inputTractogram = dynamic_cast(mitk::IOUtil::LoadDataNode(fibFile)->GetData()); // load reference directions ItkDirectionImageContainerType::Pointer referenceImageContainer = ItkDirectionImageContainerType::New(); for (unsigned int i=0; i(mitk::IOUtil::LoadDataNode(referenceImages.at(i))->GetData()); typedef mitk::ImageToItk< ItkDirectionImage3DType > CasterType; CasterType::Pointer caster = CasterType::New(); caster->SetInput(img); caster->Update(); ItkDirectionImage3DType::Pointer itkImg = caster->GetOutput(); referenceImageContainer->InsertElement(referenceImageContainer->Size(),itkImg); } catch(...){ MITK_INFO << "could not load: " << referenceImages.at(i); } } ItkUcharImgType::Pointer itkMaskImage = ItkUcharImgType::New(); ItkDirectionImage3DType::Pointer dirImg = referenceImageContainer->GetElement(0); itkMaskImage->SetSpacing( dirImg->GetSpacing() ); itkMaskImage->SetOrigin( dirImg->GetOrigin() ); itkMaskImage->SetDirection( dirImg->GetDirection() ); itkMaskImage->SetLargestPossibleRegion( dirImg->GetLargestPossibleRegion() ); itkMaskImage->SetBufferedRegion( dirImg->GetLargestPossibleRegion() ); itkMaskImage->SetRequestedRegion( dirImg->GetLargestPossibleRegion() ); itkMaskImage->Allocate(); itkMaskImage->FillBuffer(1); // extract directions from fiber bundle itk::TractsToVectorImageFilter::Pointer fOdfFilter = itk::TractsToVectorImageFilter::New(); fOdfFilter->SetFiberBundle(inputTractogram); fOdfFilter->SetMaskImage(itkMaskImage); fOdfFilter->SetAngularThreshold(cos(angularThreshold*M_PI/180)); fOdfFilter->SetNormalizeVectors(true); fOdfFilter->SetUseWorkingCopy(false); fOdfFilter->SetNumberOfThreads(1); fOdfFilter->Update(); ItkDirectionImageContainerType::Pointer directionImageContainer = fOdfFilter->GetDirectionImageContainer(); // Get directions and num directions image ItkUcharImgType::Pointer numDirImage = fOdfFilter->GetNumDirectionsImage(); mitk::Image::Pointer mitkNumDirImage = mitk::Image::New(); mitkNumDirImage->InitializeByItk( numDirImage.GetPointer() ); mitkNumDirImage->SetVolume( numDirImage->GetBufferPointer() ); mitk::FiberBundleX::Pointer testDirections = fOdfFilter->GetOutputFiberBundle(); // evaluate directions with missing directions EvaluationFilterType::Pointer evaluationFilter = EvaluationFilterType::New(); evaluationFilter->SetImageSet(directionImageContainer); evaluationFilter->SetReferenceImageSet(referenceImageContainer); evaluationFilter->SetMaskImage(itkMaskImage); evaluationFilter->SetIgnoreMissingDirections(false); evaluationFilter->Update(); EvaluationFilterType::OutputImageType::Pointer angularErrorImage = evaluationFilter->GetOutput(0); mitk::Image::Pointer mitkAngularErrorImage = mitk::Image::New(); mitkAngularErrorImage->InitializeByItk( angularErrorImage.GetPointer() ); mitkAngularErrorImage->SetVolume( angularErrorImage->GetBufferPointer() ); // evaluate directions without missing directions evaluationFilter->SetIgnoreMissingDirections(true); evaluationFilter->Update(); EvaluationFilterType::OutputImageType::Pointer angularErrorImageIgnore = evaluationFilter->GetOutput(0); mitk::Image::Pointer mitkAngularErrorImageIgnore = mitk::Image::New(); mitkAngularErrorImageIgnore->InitializeByItk( angularErrorImageIgnore.GetPointer() ); mitkAngularErrorImageIgnore->SetVolume( angularErrorImageIgnore->GetBufferPointer() ); mitk::Image::Pointer gtAngularErrorImageIgnore = dynamic_cast(mitk::IOUtil::LoadDataNode(LDFP_ERROR_IMAGE_IGNORE)->GetData()); mitk::Image::Pointer gtAngularErrorImage = dynamic_cast(mitk::IOUtil::LoadDataNode(LDFP_ERROR_IMAGE)->GetData()); mitk::Image::Pointer gtNumTestDirImage = dynamic_cast(mitk::IOUtil::LoadDataNode(LDFP_NUM_DIRECTIONS)->GetData()); mitk::FiberBundleX::Pointer gtTestDirections = dynamic_cast(mitk::IOUtil::LoadDataNode(LDFP_VECTOR_FIELD)->GetData()); if (!testDirections->Equals(gtTestDirections)) { MITK_INFO << "SAVING FILES TO " << mitk::IOUtil::GetTempPath(); std::string out1 = mitk::IOUtil::GetTempPath().append("test.fib"); std::string out2 = mitk::IOUtil::GetTempPath().append("reference.fib"); mitk::FiberBundleXWriter::Pointer fibWriter = mitk::FiberBundleXWriter::New(); fibWriter->SetFileName(out1.c_str()); fibWriter->DoWrite(testDirections.GetPointer()); fibWriter->SetFileName(out2.c_str()); fibWriter->DoWrite(gtTestDirections.GetPointer()); } MITK_TEST_CONDITION_REQUIRED(mitk::Equal(gtAngularErrorImageIgnore, mitkAngularErrorImageIgnore, 0.01, true), "Check if error images are equal (ignored missing directions)."); MITK_TEST_CONDITION_REQUIRED(mitk::Equal(gtAngularErrorImage, mitkAngularErrorImage, 0.01, true), "Check if error images are equal."); - MITK_TEST_CONDITION_REQUIRED(testDirections->Equals(gtTestDirections), "Check if vector fields are equal."); + MITK_TEST_CONDITION_REQUIRED(testDirections->Equals(gtTestDirections, 0.5), "Check if vector fields are equal."); MITK_TEST_CONDITION_REQUIRED(mitk::Equal(gtNumTestDirImage, mitkNumDirImage, 0.0001, true), "Check if num direction images are equal."); } catch (itk::ExceptionObject e) { MITK_INFO << e; return EXIT_FAILURE; } catch (std::exception e) { MITK_INFO << e.what(); return EXIT_FAILURE; } catch (...) { MITK_INFO << "ERROR!?!"; return EXIT_FAILURE; } MITK_TEST_END(); }