void ReadImage(medAbstractData* medData,itk::DCMTKImageIO::Pointer io,const QStringList& paths) { typename itk::ImageFileReader<itk::Image<TYPE,DIM> >::Pointer Reader = itk::ImageFileReader<itk::Image<TYPE,DIM> >::New(); Reader->SetImageIO(io); Reader->SetFileName(paths[0].toAscii().constData()); medData->setData(Reader->GetOutput()); Reader->Update(); }
//! a helper function for image loading template <class T> typename T::Pointer load_image(const char *file) { typename itk::ImageFileReader<T>::Pointer reader = itk::ImageFileReader<T>::New(); reader->SetFileName(file); reader->Update(); return reader->GetOutput(); }
// a helper function for minc reading template <class T> typename T::Pointer load_minc(const char *file) { typedef itk::MincImageIO ImageIOType; ImageIOType::Pointer minc2ImageIO = ImageIOType::New(); typename itk::ImageFileReader<T>::Pointer reader = itk::ImageFileReader<T>::New(); reader->SetFileName(file); reader->SetImageIO( minc2ImageIO ); reader->Update(); return reader->GetOutput(); }
bool itkDataImageReaderBase::read_image(const QString& path,const char* type) { medAbstractData* medData = dynamic_cast<medAbstractData*>(this->data()); if (medData && medData->identifier()!=type) return false; typedef itk::Image<T,DIM> Image; typename itk::ImageFileReader<Image>::Pointer TReader = itk::ImageFileReader<Image>::New(); TReader->SetImageIO(this->io); TReader->SetFileName(path.toAscii().constData()); TReader->SetUseStreaming(true); typename Image::Pointer im = TReader->GetOutput(); medData->setData(im); // Recover the pixel meaning from the intent_name. const itk::MetaDataDictionary dict = im->GetMetaDataDictionary(); std::string PixMeaning; if (itk::ExposeMetaData(dict,"intent_name",PixMeaning)) medData->addMetaData(medAbstractImageData::PixelMeaningMetaData,QString(PixMeaning.c_str())); TReader->Update(); return true; }
void readwarpfile(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) { typedef int PixelType; typedef itk::Image< PixelType, Dimension > ImageType; // mexPrintf("the dimentsion is ", Dimension); // typedef PixelType; typedef itk::Vector<PixelType, Dimension> VectorPixelType; typedef itk::Image<VectorPixelType, Dimension> DeformationFieldType; typedef itk::WarpImageFilter <ImageType, ImageType, DeformationFieldType> WarperType; mexPrintf("input number is: %d", nrhs); mexPrintf("output parameternumber is: %d", nlhs); // mexPrintf("the dimentsion is :%d", Dimension); //boost::timer timer; typename DeformationFieldType::SizeType size; typename DeformationFieldType::IndexType start; unsigned int numPix(1u); char * inputDfFilename; mwSize matlabdims[Dimension]; // here, we should read image parameter for (unsigned int d=0; d<Dimension; d++) { matlabdims[d]= mxGetDimensions(prhs[1])[d]; size[d] = matlabdims[d]; start[d] = 0; numPix *= size[d]; // inptrs[d] = static_cast<const MatlabPixelType *>(mxGetData(prhs[d])); } inputDfFilename = mxArrayToString(prhs[0]); mexPrintf("output file name is %s", inputDfFilename); typename itk::ImageFileReader<DeformationFieldType>::Pointer df_reader = itk::ImageFileReader<DeformationFieldType>::New(); df_reader->SetFileName(inputDfFilename); df_reader->Update(); // Allocate images and deformation field typename ImageType::Pointer image = ImageType::New(); typename DeformationFieldType::Pointer field = DeformationFieldType::New(); // typename DeformationFieldType::Pointer field = 0; typename DeformationFieldType::SpacingType spacing; spacing.Fill( 1.0 ); typename DeformationFieldType::PointType origin; origin.Fill( 0.0 ); typename DeformationFieldType::RegionType region; field = df_reader->GetOutput(); region = field->GetLargestPossibleRegion(); // initialize output point const mxClassID classID = mxGetClassID(prhs[1]); MatlabPixelType * fieldoutptrs[Dimension]; for (unsigned int d=0; d<Dimension; d++) { plhs[d] = mxCreateNumericArray( Dimension, matlabdims, classID, mxREAL); fieldoutptrs[d] = static_cast<MatlabPixelType *>(mxGetData(plhs[d])); } // read field VectorPixelType * fieldptr = field->GetBufferPointer(); const VectorPixelType * const buff_end = fieldptr + numPix; while ( fieldptr != buff_end ) { for (unsigned int d=0; d<Dimension; d++) { *(fieldoutptrs[d])++ = (*fieldptr)[d]; } ++fieldptr; } }