// ------------------------------------------------------------------------ std::string InitialTransformExtractor::GetReferenceImageFilename() { FilenamesType targetFilenames; for(unsigned int i = 0; i < m_Filenames.size(); i++) { const char * fname = m_Filenames[i].c_str(); if(m_Mapping.count(fname) == 0) continue; // extract the image information std::string descriptionStr = m_Mapping[fname][seriesDescription]; std::string instanceNumberStr = m_Mapping[fname][instanceNumber]; QString description = QString::fromStdString(descriptionStr); unsigned int instanceNumber = QString::fromStdString(instanceNumberStr).toInt(); // check that the description is a short axis one and is instance 1 if(instanceNumber == 1 && description.contains("sa", Qt::CaseInsensitive)) { targetFilenames.push_back(m_Filenames[i]); } } // find the slice with the smallest slice position double smallest = 1000000.0; int smallestIndex; for(unsigned int i = 0; i < targetFilenames.size(); i++) { const char * fname = targetFilenames[i].c_str(); std::string slicePosition = m_Mapping[fname][sliceLocation]; double pos = QString::fromStdString(slicePosition).toDouble(); if(pos < smallest) { smallest = pos; smallestIndex = i; } } return targetFilenames[smallestIndex]; }
int main(int argc, char ** argv) { // load the line data typedef utils::Directory::FilenamesType FilenamesType; FilenamesType filenames = utils::Directory::GetFiles(argv[1], ".json"); for(unsigned int i = 0; i < filenames.size(); i++) { std::string filename = filenames[i]; std::cout << filename << std::endl; QString inFilename = QString::fromStdString(filename); inFilename = inFilename.replace(QString::fromStdString(argv[1]),""); inFilename = inFilename.replace("/",""); inFilename = inFilename.replace(".json",""); //std::cout << inFilename.toStdString() << std::endl; vt::JsonReader::Pointer reader = vt::JsonReader::New(); reader->SetFilename(filename); typedef vt::JsonReader::LineSet LineSet; LineSet data = reader->Read(); std::string partName = inFilename.toStdString(); LineSet::iterator lineIt = data.begin(); while(lineIt != data.end()) { QString type = QString::fromStdString(lineIt->first); type = type.replace(":","-"); QString output = QString::fromStdString(argv[2]); QDir outputDir(output); QString outputPath = outputDir.absoluteFilePath(type); //std::cout << outputPath.toStdString() << std::endl; if(!outputDir.exists(outputPath)) outputDir.mkdir(outputPath); QString fileName = QDir(outputPath).absoluteFilePath(QString::fromStdString(partName)); vt::JsonConverter::Pointer converter = vt::JsonConverter::New(); converter->SetInput(lineIt->second); converter->Convert(); vt::ValveSequenceWriter<3>::Pointer writer = vt::ValveSequenceWriter<3>::New(); writer->SetInput(converter->GetOutput()); writer->SetFileName(fileName.toStdString()); writer->Write(); std::cout << fileName.toStdString() << " " << converter->GetOutput()->GetNumberOfLines() << std::endl; ++lineIt; } } return 0; }
void MainWindow::getFilenamesFromBrowser(FilenamesType filenames) { ///////////////////////////////////////////////////// // Try and load the images that have been selected ///////////////////////////////////////////////////// mitk::DataNode::Pointer ds = mitk::DataNode::New(); ds = mitk::DicomSeriesReader::LoadDicomSeries(filenames,true, true); ///////////////////////////////////////////////////// // Get some information about the images to display ///////////////////////////////////////////////////// mitk::Image::Pointer image = dynamic_cast<mitk::Image*>(ds->GetData()); // now we check to see if it is a time series int numTimeSteps = ds->GetData()->GetTimeSteps(); if(numTimeSteps > 1) { // now the trouble starts.... mitk::Image::Pointer sortedImage = mitk::Image::New(); mitk::Vector3D vec = image->GetGeometry(0)->GetFloatSpacing(); sortedImage->Initialize(image); vec[2] = 8.0; sortedImage->GetGeometry(0)->SetSpacing(vec); sortedImage->GetGeometry(0)->Modified(); sortedImage->Modified(); // now we are loading the images one by one and putting them in for(unsigned int i = 0; i < filenames.size(); i++) { mitk::ItkImageFileReader::Pointer reader = mitk::ItkImageFileReader::New(); reader->SetFileName(filenames[i]); reader->Update(); reader->GetOutput()->GetGeometry(0)->SetSpacing(vec); reader->GetOutput()->GetGeometry(0)->Modified(); sortedImage->SetVolume(reader->GetOutput()->GetData(), i); } ds->SetData(sortedImage); ds->Modified(); } this->m_DataStorage->Add(ds); // build the name of the image sequence std::string nameProperty; ds->GetStringProperty("dicom.series.SeriesDescription", nameProperty); std::string seriesNumProperty; ds->GetStringProperty("dicom.series.SeriesNumber", seriesNumProperty); ds->SetName(nameProperty + " " + seriesNumProperty); // disconnet the browser slot disconnect(browser, SIGNAL(okButtonSignal(FilenamesType)), this, SLOT(getFilenamesFromBrowser(FilenamesType))); }
int main(int, char ** argv) { std::string inputFolder = argv[1]; std::string outputFolder = argv[2]; std::string lookupFilename = argv[3]; // load the lookup file and read the image filenames LookupMap lookup; FilenamesType imageFilenames; readFilenames(inputFolder, imageFilenames); loadLookupFile(lookupFilename, lookup); // looop through the list of images for(unsigned int i = 0; i < imageFilenames.size(); i++) { std::string fname = imageFilenames[i]; QFileInfo finfo(QString::fromStdString(fname)); std::string basename = finfo.completeBaseName().toStdString() + ".nrrd"; FilenamesType dicomFilenames = lookup[basename]; // slice up the input image to recreate the output typedef utils::ImageVolume ImageType; ImageType::Pointer input = utils::ImageVolumeIO::Read(fname); const unsigned int slices = input->GetLargestPossibleRegion().GetSize()[2]; for(unsigned int slice = 0; slice < slices; slice++) { typedef itk::RegionOfInterestImageFilter<ImageType, ImageType> ROIFilter; ROIFilter::Pointer roiFilter = ROIFilter::New(); roiFilter->SetInput(input); ImageType::RegionType roi = input->GetLargestPossibleRegion(); ImageType::IndexType roiIndex = roi.GetIndex(); ImageType::SizeType roiSize = roi.GetSize(); roiIndex[2] = slice; roiSize[2] = 1; roi.SetSize(roiSize); roi.SetIndex(roiIndex); roiFilter->SetRegionOfInterest(roi); roiFilter->Update(); ImageType::Pointer imSlice = roiFilter->GetOutput(); // load the dicom file std::string dicomFilename = dicomFilenames[slice]; DcmFileFormat fileFormat; fileFormat.loadFile(dicomFilename.c_str()); unsigned int numberOfPixels = imSlice->GetLargestPossibleRegion().GetNumberOfPixels(); unsigned short * buffer = new unsigned short[numberOfPixels]; fileFormat.getDataset()->putAndInsertUint16Array(DCM_PixelData, buffer, imSlice->GetLargestPossibleRegion().GetNumberOfPixels()); // reset the pixel values itk::ImageRegionConstIterator<ImageType> it(imSlice, imSlice->GetLargestPossibleRegion()); unsigned int count = 0; while(!it.IsAtEnd()) { buffer[count] = it.Get(); ++it; ++count; } fileFormat.getDataset()->putAndInsertUint16Array(DCM_PixelData, buffer, imSlice->GetLargestPossibleRegion().GetNumberOfPixels()); // create the output filename std::stringstream ss; ss << outputFolder << "/dicom_" << i << "_" << slice << ".dcm"; fileFormat.saveFile(ss.str().c_str()); } } return 0; }