/*========================================================================= Program: vv http://www.creatis.insa-lyon.fr/rio/vv Authors belong to: - University of LYON http://www.universite-lyon.fr/ - Léon Bérard cancer center http://www.centreleonberard.fr - CREATIS CNRS laboratory http://www.creatis.insa-lyon.fr This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the copyright notices for more information. It is distributed under dual licence - BSD See included LICENSE.txt file - CeCILL-B http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html ===========================================================================**/ // clitk includes #include "clitkDicom2Image_ggo.h" #include "clitkCommon.h" #include "clitkImageCommon.h" #include "vvImageReader.h" #include "vvImageWriter.h" #include #include #if GDCM_MAJOR_VERSION == 2 #include #include #include #endif #include //==================================================================== int main(int argc, char * argv[]) { // init command line GGO(clitkDicom2Image, args_info); std::vector input_files; ///if std_input is given, read the input files from stdin if (args_info.std_input_given) { while (true) { std::string tmp; std::cin >> tmp; if(std::cin.good()) input_files.push_back(tmp); else break; } args_info.inputs_num=input_files.size(); } else for (unsigned int i=0; i series_numbers; std::map< int, std::vector > theorigin; std::map< int, std::vector > sliceLocations; std::map< int, std::vector > seriesFiles; for(unsigned int i=0; i series_number_att; series_number_att.SetFromDataSet(hreader.GetFile().GetDataSet()); series_number = series_number_att.GetValue(); } series_numbers.insert(series_number); theorigin[series_number] = gdcm::ImageHelper::GetOriginValue(hreader.GetFile()); std::cout << "theorigin[series_number][0] " << theorigin[series_number][0] << std::endl; std::cout << "theorigin[series_number][1] " << theorigin[series_number][1] << std::endl; std::cout << "theorigin[series_number][2] " << theorigin[series_number][2] << std::endl; sliceLocations[series_number].push_back(theorigin[series_number][2]); seriesFiles[series_number].push_back(input_files[i]); gdcm::Attribute<0x28, 0x100> pixel_size; pixel_size.SetFromDataSet(ds); if (pixel_size.GetValue() != 16) { std::cerr << "Pixel type 2 bytes ! " << std::endl; std::cerr << "In file " << input_files[i] << std::endl; exit(0); } #else if (args_info.verbose_flag) std::cout << "Not using GDCM-2.x" << std::endl; gdcm::File *header = new gdcm::File(); header->SetFileName(input_files[i]); header->SetMaxSizeLoadEntry(16384); // required ? header->Load(); if (args_info.extract_series_flag) { series_number = atoi(header->GetEntryValue(0x20,0x11).c_str()); } series_numbers.insert(series_number); theorigin[series_number].resize(3); theorigin[series_number][0] = header->GetXOrigin(); theorigin[series_number][1] = header->GetYOrigin(); theorigin[series_number][2] = header->GetZOrigin(); sliceLocations[series_number].push_back(theorigin[series_number][2]); seriesFiles[series_number].push_back(input_files[i]); if (header->GetPixelSize() != 2) { std::cerr << "Pixel type 2 bytes ! " << std::endl; std::cerr << "In file " << input_files[i] << std::endl; exit(0); } #endif } //=========================================== // Sort slices locations ... std::set::iterator sn = series_numbers.begin(); while ( sn != series_numbers.end() ) { std::vector locs = sliceLocations[*sn]; std::vector origin = theorigin[*sn]; std::vector files = seriesFiles[*sn]; std::vector sliceIndex; clitk::GetSortedIndex(locs, sliceIndex); if (args_info.verboseSliceLocation_flag) { std::cout << locs[sliceIndex[0]] << " -> " << sliceIndex[0] << " / " << 0 << " => " << "0 mm " << files[sliceIndex[0]] << std::endl; for(unsigned int i=1; i " << sliceIndex[i] << " / " << i << " => " << locs[sliceIndex[i]] - locs[sliceIndex[i-1]] << "mm " << files[sliceIndex[i]] << std::endl; } } //=========================================== // Analyze slices locations ... double currentDist; double dist=0; double tolerance = args_info.tolerance_arg; double previous = locs[sliceIndex[0]]; for(unsigned int i=1; i tolerance) { std::cout << "ERROR : " << std::endl << "Current slice pos is = " << locs[sliceIndex[i]] << std::endl << "Previous slice pos is = " << previous << std::endl << "Current file is = " << files[sliceIndex[i]] << std::endl << "Current index is = " << i << std::endl << "Current sortindex is = " << sliceIndex[i] << std::endl << "Current slice diff = " << dist << std::endl << "Current error = " << fabs(dist-currentDist) << std::endl; exit(1); } } else dist = currentDist; previous = locs[sliceIndex[i]]; } //=========================================== // Create ordered vector of filenames std::vector sorted_files; sorted_files.resize(sliceIndex.size()); for(unsigned int i=0; iSetInputFilenames(sorted_files); reader->Update(vvImageReader::DICOM); if (reader->GetLastError().size() != 0) { std::cerr << reader->GetLastError() << std::endl; return 1; } vvImage::Pointer image = reader->GetOutput(); vtkImageData* vtk_image = image->GetFirstVTKImageData(); vtkImageChangeInformation* modifier = vtkImageChangeInformation::New(); if (args_info.focal_origin_given) { std::vector spacing = image->GetSpacing(); std::vector size = image->GetSize(); origin[0] = -spacing[0]*size[0]/2.0; origin[1] = -spacing[1]*size[1]/2.0; modifier->SetInput(vtk_image); modifier->SetOutputOrigin(origin[0], origin[1], locs[sliceIndex[0]]); modifier->Update(); vvImage::Pointer focal_image = vvImage::New(); focal_image->AddVtkImage(modifier->GetOutput()); image = focal_image; } std::string outfile; if (series_numbers.size() == 1) outfile = args_info.output_arg; else { std::ostringstream name; name << *sn << "_" << args_info.output_arg; outfile = name.str(); } vvImageWriter::Pointer writer = vvImageWriter::New(); writer->SetInput(image); writer->SetOutputFileName(outfile); writer->Update(); modifier->Delete(); sn++; } return 0; }