diff --git a/Modules/DICOMReader/src/mitkDICOMImageBlockDescriptor.cpp b/Modules/DICOMReader/src/mitkDICOMImageBlockDescriptor.cpp index fe8b120f60..936833d323 100644 --- a/Modules/DICOMReader/src/mitkDICOMImageBlockDescriptor.cpp +++ b/Modules/DICOMReader/src/mitkDICOMImageBlockDescriptor.cpp @@ -1,776 +1,781 @@ /*=================================================================== 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 "mitkDICOMImageBlockDescriptor.h" #include "mitkStringProperty.h" #include "mitkLevelWindowProperty.h" #include mitk::DICOMImageBlockDescriptor ::DICOMImageBlockDescriptor() :m_ReaderImplementationLevel(SOPClassUnknown) ,m_PropertyList(PropertyList::New()) ,m_TagCache(nullptr) ,m_PropertiesOutOfDate(true) { } mitk::DICOMImageBlockDescriptor ::~DICOMImageBlockDescriptor() { } mitk::DICOMImageBlockDescriptor ::DICOMImageBlockDescriptor(const DICOMImageBlockDescriptor& other) :m_ImageFrameList( other.m_ImageFrameList ) ,m_MitkImage( other.m_MitkImage ) ,m_SliceIsLoaded( other.m_SliceIsLoaded ) ,m_ReaderImplementationLevel( other.m_ReaderImplementationLevel ) ,m_TiltInformation( other.m_TiltInformation ) ,m_PropertyList( other.m_PropertyList->Clone() ) ,m_TagCache( other.m_TagCache ) ,m_PropertiesOutOfDate( other.m_PropertiesOutOfDate ) { if (m_MitkImage) { m_MitkImage = m_MitkImage->Clone(); } } mitk::DICOMImageBlockDescriptor& mitk::DICOMImageBlockDescriptor ::operator=(const DICOMImageBlockDescriptor& other) { if (this != &other) { m_ImageFrameList = other.m_ImageFrameList; m_MitkImage = other.m_MitkImage; m_SliceIsLoaded = other.m_SliceIsLoaded; m_ReaderImplementationLevel = other.m_ReaderImplementationLevel; m_TiltInformation = other.m_TiltInformation; if (other.m_PropertyList) { m_PropertyList = other.m_PropertyList->Clone(); } if (other.m_MitkImage) { m_MitkImage = other.m_MitkImage->Clone(); } m_TagCache = other.m_TagCache; m_PropertiesOutOfDate = other.m_PropertiesOutOfDate; } return *this; } mitk::DICOMTagList mitk::DICOMImageBlockDescriptor::GetTagsOfInterest() { DICOMTagList completeList; completeList.push_back( DICOMTag(0x0018,0x1164) ); // pixel spacing completeList.push_back( DICOMTag(0x0028,0x0030) ); // imager pixel spacing completeList.push_back( DICOMTag(0x0008,0x0018) ); // sop instance UID completeList.push_back( DICOMTag(0x0008,0x0016) ); // sop class UID completeList.push_back( DICOMTag(0x0020,0x0011) ); // series number completeList.push_back( DICOMTag(0x0008,0x1030) ); // study description completeList.push_back( DICOMTag(0x0008,0x103e) ); // series description completeList.push_back( DICOMTag(0x0008,0x0060) ); // modality completeList.push_back( DICOMTag(0x0018,0x0024) ); // sequence name completeList.push_back( DICOMTag(0x0020,0x0037) ); // image orientation completeList.push_back( DICOMTag(0x0020,0x1041) ); // slice location completeList.push_back( DICOMTag(0x0020,0x0012) ); // acquisition number completeList.push_back( DICOMTag(0x0020,0x0013) ); // instance number completeList.push_back( DICOMTag(0x0020,0x0032) ); // image position patient completeList.push_back( DICOMTag(0x0028,0x1050) ); // window center completeList.push_back( DICOMTag(0x0028,0x1051) ); // window width completeList.push_back( DICOMTag(0x0008,0x0008) ); // image type completeList.push_back( DICOMTag(0x0028,0x0004) ); // photometric interpretation return completeList; } void mitk::DICOMImageBlockDescriptor ::SetTiltInformation(const GantryTiltInformation& info) { m_TiltInformation = info; } const mitk::GantryTiltInformation mitk::DICOMImageBlockDescriptor ::GetTiltInformation() const { return m_TiltInformation; } void mitk::DICOMImageBlockDescriptor ::SetImageFrameList(const DICOMImageFrameList& framelist) { m_ImageFrameList = framelist; m_SliceIsLoaded.resize(framelist.size()); m_SliceIsLoaded.assign(framelist.size(), false); m_PropertiesOutOfDate = true; } const mitk::DICOMImageFrameList& mitk::DICOMImageBlockDescriptor ::GetImageFrameList() const { return m_ImageFrameList; } void mitk::DICOMImageBlockDescriptor ::SetMitkImage(Image::Pointer image) { if (m_MitkImage != image) { if (m_TagCache.IsNull()) { MITK_ERROR << "Unable to describe MITK image with properties without a tag-cache object!"; m_MitkImage = nullptr; return; } if (m_ImageFrameList.empty()) { MITK_ERROR << "Unable to describe MITK image with properties without a frame list!"; m_MitkImage = nullptr; return; } // Should verify that the image matches m_ImageFrameList and m_TagCache // however, this is hard to do without re-analyzing all // TODO we should at least make sure that the number of frames is identical (plus rows/columns, orientation) // without gantry tilt correction, we can also check image origin m_MitkImage = this->DescribeImageWithProperties( this->FixupSpacing(image) ); } } mitk::Image::Pointer mitk::DICOMImageBlockDescriptor ::GetMitkImage() const { return m_MitkImage; } mitk::Image::Pointer mitk::DICOMImageBlockDescriptor ::FixupSpacing(Image* mitkImage) { if (mitkImage) { Vector3D imageSpacing = mitkImage->GetGeometry()->GetSpacing(); ScalarType desiredSpacingX = imageSpacing[0]; ScalarType desiredSpacingY = imageSpacing[1]; this->GetDesiredMITKImagePixelSpacing( desiredSpacingX, desiredSpacingY ); // prefer pixel spacing over imager pixel spacing + if ( desiredSpacingX <=0 || desiredSpacingY <=0 ) + { + return mitkImage; + } + MITK_DEBUG << "Loaded image with spacing " << imageSpacing[0] << ", " << imageSpacing[1]; MITK_DEBUG << "Found correct spacing info " << desiredSpacingX << ", " << desiredSpacingY; imageSpacing[0] = desiredSpacingX; imageSpacing[1] = desiredSpacingY; mitkImage->GetGeometry()->SetSpacing( imageSpacing ); } return mitkImage; } void mitk::DICOMImageBlockDescriptor ::SetSliceIsLoaded(unsigned int index, bool isLoaded) { if (index < m_SliceIsLoaded.size()) { m_SliceIsLoaded[index] = isLoaded; } else { std::stringstream ss; ss << "Index " << index << " out of range (" << m_SliceIsLoaded.size() << " indices reserved)"; throw std::invalid_argument( ss.str() ); } } bool mitk::DICOMImageBlockDescriptor ::IsSliceLoaded(unsigned int index) const { if (index < m_SliceIsLoaded.size()) { return m_SliceIsLoaded[index]; } else { std::stringstream ss; ss << "Index " << index << " out of range (" << m_SliceIsLoaded.size() << " indices reserved)"; throw std::invalid_argument( ss.str() ); } } bool mitk::DICOMImageBlockDescriptor ::AllSlicesAreLoaded() const { bool allLoaded = true; for (auto iter = m_SliceIsLoaded.begin(); iter != m_SliceIsLoaded.end(); ++iter) { allLoaded &= *iter; } return allLoaded; } /* PS defined IPS defined PS==IPS 0 0 --> UNKNOWN spacing, loader will invent 0 1 --> spacing as at detector surface 1 0 --> spacing as in patient 1 1 0 --> detector surface spacing CORRECTED for geometrical magnifications: spacing as in patient 1 1 1 --> detector surface spacing NOT corrected for geometrical magnifications: spacing as at detector */ mitk::PixelSpacingInterpretation mitk::DICOMImageBlockDescriptor ::GetPixelSpacingInterpretation() const { if ( m_ImageFrameList.empty() || m_TagCache.IsNull() ) { MITK_ERROR << "Invalid call to GetPixelSpacingInterpretation. Need to have initialized tag-cache!"; return SpacingUnknown; } std::string pixelSpacing = this->GetPixelSpacing(); std::string imagerPixelSpacing = this->GetImagerPixelSpacing(); if (pixelSpacing.empty()) { if (imagerPixelSpacing.empty()) { return SpacingUnknown; } else { return SpacingAtDetector; } } else // Pixel Spacing defined { if (imagerPixelSpacing.empty()) { return SpacingInPatient; } else if (pixelSpacing != imagerPixelSpacing) { return SpacingInPatient; } else { return SpacingAtDetector; } } } std::string mitk::DICOMImageBlockDescriptor ::GetPixelSpacing() const { if ( m_ImageFrameList.empty() || m_TagCache.IsNull() ) { MITK_ERROR << "Invalid call to GetPixelSpacing. Need to have initialized tag-cache!"; return std::string(""); } static const DICOMTag tagPixelSpacing(0x0028,0x0030); return m_TagCache->GetTagValue( m_ImageFrameList.front(), tagPixelSpacing ); } std::string mitk::DICOMImageBlockDescriptor ::GetImagerPixelSpacing() const { if ( m_ImageFrameList.empty() || m_TagCache.IsNull() ) { MITK_ERROR << "Invalid call to GetImagerPixelSpacing. Need to have initialized tag-cache!"; return std::string(""); } static const DICOMTag tagImagerPixelSpacing(0x0018,0x1164); return m_TagCache->GetTagValue( m_ImageFrameList.front(), tagImagerPixelSpacing ); } void mitk::DICOMImageBlockDescriptor ::GetDesiredMITKImagePixelSpacing( ScalarType& spacingX, ScalarType& spacingY) const { std::string pixelSpacing = this->GetPixelSpacing(); // preference for "in patient" pixel spacing if ( !DICOMStringToSpacing( pixelSpacing, spacingX, spacingY ) ) { std::string imagerPixelSpacing = this->GetImagerPixelSpacing(); // fallback to "on detector" spacing if ( !DICOMStringToSpacing( imagerPixelSpacing, spacingX, spacingY ) ) { // last resort: invent something spacingX = spacingY = 1.0; } } } void mitk::DICOMImageBlockDescriptor ::SetProperty(const std::string& key, BaseProperty* value) { m_PropertyList->SetProperty(key, value); } mitk::BaseProperty* mitk::DICOMImageBlockDescriptor ::GetProperty(const std::string& key) const { this->UpdateImageDescribingProperties(); return m_PropertyList->GetProperty(key); } std::string mitk::DICOMImageBlockDescriptor ::GetPropertyAsString(const std::string& key) const { this->UpdateImageDescribingProperties(); mitk::BaseProperty::Pointer property = m_PropertyList->GetProperty(key); if (property.IsNotNull()) { return property->GetValueAsString(); } else { return std::string(""); } } void mitk::DICOMImageBlockDescriptor ::SetFlag(const std::string& key, bool value) { m_PropertyList->ReplaceProperty(key, BoolProperty::New(value)); } bool mitk::DICOMImageBlockDescriptor ::GetFlag(const std::string& key, bool defaultValue) const { this->UpdateImageDescribingProperties(); BoolProperty::ConstPointer boolProp = dynamic_cast( this->GetProperty(key) ); if (boolProp.IsNotNull()) { return boolProp->GetValue(); } else { return defaultValue; } } void mitk::DICOMImageBlockDescriptor ::SetIntProperty(const std::string& key, int value) { m_PropertyList->ReplaceProperty(key, IntProperty::New(value)); } int mitk::DICOMImageBlockDescriptor ::GetIntProperty(const std::string& key, int defaultValue) const { this->UpdateImageDescribingProperties(); IntProperty::ConstPointer intProp = dynamic_cast( this->GetProperty(key) ); if (intProp.IsNotNull()) { return intProp->GetValue(); } else { return defaultValue; } } double mitk::DICOMImageBlockDescriptor ::stringtodouble(const std::string& str) const { double d; std::string trimmedstring(str); try { trimmedstring = trimmedstring.erase(trimmedstring.find_last_not_of(" \n\r\t")+1); } catch(...) { // no last not of } std::string firstcomponent(trimmedstring); try { firstcomponent = trimmedstring.erase(trimmedstring.find_first_of("\\")); } catch(...) { // no last not of } std::istringstream converter(firstcomponent); if ( !firstcomponent.empty() && (converter >> d) && converter.eof() ) { return d; } else { throw std::invalid_argument("Argument is not a convertable number"); } } mitk::Image::Pointer mitk::DICOMImageBlockDescriptor ::DescribeImageWithProperties(Image* mitkImage) { // TODO: this is a collection of properties that have been provided by the // legacy DicomSeriesReader. // We should at some point clean up this collection and name them in a more // consistent way! if (!mitkImage) return mitkImage; // first part: add some tags that describe individual slices // these propeties are defined at analysis time (see UpdateImageDescribingProperties()) std::string propertyKeySliceLocation = "dicom.image.0020.1041"; std::string propertyKeyInstanceNumber = "dicom.image.0020.0013"; std::string propertyKeySOPInstanceUID = "dicom.image.0008.0018"; mitkImage->SetProperty( propertyKeySliceLocation.c_str(), this->GetProperty("sliceLocationForSlices") ); mitkImage->SetProperty( propertyKeyInstanceNumber.c_str(), this->GetProperty("instanceNumberForSlices") ); mitkImage->SetProperty( propertyKeySOPInstanceUID.c_str(), this->GetProperty("SOPInstanceUIDForSlices") ); mitkImage->SetProperty( "files", this->GetProperty("filenamesForSlices") ); // second part: add properties that describe the whole image block mitkImage->SetProperty("dicomseriesreader.SOPClassUID", StringProperty::New( this->GetSOPClassUID() ) ); mitkImage->SetProperty("dicomseriesreader.SOPClass", StringProperty::New( this->GetSOPClassUIDAsName() )); mitkImage->SetProperty("dicomseriesreader.PixelSpacingInterpretationString", StringProperty::New( PixelSpacingInterpretationToString( this->GetPixelSpacingInterpretation() )) ); mitkImage->SetProperty("dicomseriesreader.PixelSpacingInterpretation", GenericProperty::New( this->GetPixelSpacingInterpretation() )); mitkImage->SetProperty("dicomseriesreader.ReaderImplementationLevelString", StringProperty::New( ReaderImplementationLevelToString( m_ReaderImplementationLevel ) )); mitkImage->SetProperty("dicomseriesreader.ReaderImplementationLevel", GenericProperty::New( m_ReaderImplementationLevel )); mitkImage->SetProperty("dicomseriesreader.GantyTiltCorrected", BoolProperty::New( this->GetTiltInformation().IsRegularGantryTilt() )); mitkImage->SetProperty("dicomseriesreader.3D+t", BoolProperty::New( this->GetFlag("3D+t",false) )); // level window std::string windowCenter = this->GetPropertyAsString("windowCenter"); std::string windowWidth = this->GetPropertyAsString("windowWidth"); try { double level = stringtodouble( windowCenter ); double window = stringtodouble( windowWidth ); mitkImage->SetProperty("levelwindow", LevelWindowProperty::New(LevelWindow(level,window)) ); } catch (...) { // nothing, no levelwindow to be predicted... } std::string modality = this->GetPropertyAsString( "modality" ); mitkImage->SetProperty("modality", StringProperty::New( modality )); mitkImage->SetProperty("dicom.pixel.PhotometricInterpretation", this->GetProperty("photometricInterpretation") ); mitkImage->SetProperty("dicom.image.imagetype", this->GetProperty("imagetype") ); mitkImage->SetProperty("dicom.study.StudyDescription", this->GetProperty("studyDescription") ); mitkImage->SetProperty("dicom.series.SeriesDescription", this->GetProperty("seriesDescription") ); mitkImage->SetProperty("dicom.pixel.Rows", this->GetProperty("rows") ); mitkImage->SetProperty("dicom.pixel.Columns", this->GetProperty("columns") ); // third part: get something from ImageIO. BUT this needs to be created elsewhere. or not at all! return mitkImage; } void mitk::DICOMImageBlockDescriptor ::SetReaderImplementationLevel(const ReaderImplementationLevel& level) { m_ReaderImplementationLevel = level; } mitk::ReaderImplementationLevel mitk::DICOMImageBlockDescriptor ::GetReaderImplementationLevel() const { return m_ReaderImplementationLevel; } std::string mitk::DICOMImageBlockDescriptor ::GetSOPClassUID() const { if ( !m_ImageFrameList.empty() && m_TagCache.IsNotNull() ) { static const DICOMTag tagSOPClassUID(0x0008,0x0016); return m_TagCache->GetTagValue( m_ImageFrameList.front(), tagSOPClassUID ); } else { MITK_ERROR << "Invalid call to DICOMImageBlockDescriptor::GetSOPClassUID(). Need to have initialized tag-cache!"; return std::string(""); } } std::string mitk::DICOMImageBlockDescriptor ::GetSOPClassUIDAsName() const { if ( !m_ImageFrameList.empty() && m_TagCache.IsNotNull() ) { gdcm::UIDs uidKnowledge; uidKnowledge.SetFromUID( this->GetSOPClassUID().c_str() ); const char* name = uidKnowledge.GetName(); if (name) { return std::string(name); } else { return std::string(""); } } else { MITK_ERROR << "Invalid call to DICOMImageBlockDescriptor::GetSOPClassUIDAsName(). Need to have initialized tag-cache!"; return std::string(""); } } void mitk::DICOMImageBlockDescriptor ::SetTagCache(DICOMTagCache* privateCache) { // this must only be used during loading and never afterwards m_TagCache = privateCache; } #define printPropertyRange(label, property_name) \ { \ std::string first = this->GetPropertyAsString( #property_name "First"); \ std::string last = this->GetPropertyAsString( #property_name "Last"); \ if (!first.empty() || !last.empty()) \ { \ if (first == last) \ { \ os << " " label ": '" << first << "'" << std::endl; \ } \ else \ { \ os << " " label ": '" << first << "' - '" << last << "'" << std::endl; \ } \ } \ } #define printProperty(label, property_name) \ { \ std::string first = this->GetPropertyAsString( #property_name ); \ if (!first.empty()) \ { \ os << " " label ": '" << first << "'" << std::endl; \ } \ } #define printBool(label, commands) \ { \ os << " " label ": '" << (commands?"yes":"no") << "'" << std::endl; \ } void mitk::DICOMImageBlockDescriptor ::Print(std::ostream& os, bool filenameDetails) const { os << " Number of Frames: '" << m_ImageFrameList.size() << "'" << std::endl; os << " SOP class: '" << this->GetSOPClassUIDAsName() << "'" << std::endl; printProperty("Series Number", seriesNumber); printProperty("Study Description", studyDescription); printProperty("Series Description", seriesDescription); printProperty("Modality", modality); printProperty("Sequence Name", sequenceName); printPropertyRange("Slice Location", sliceLocation); printPropertyRange("Acquisition Number", acquisitionNumber); printPropertyRange("Instance Number", instanceNumber); printPropertyRange("Image Position", imagePositionPatient); printProperty("Image Orientation", orientation); os << " Pixel spacing interpretation: '" << PixelSpacingInterpretationToString(this->GetPixelSpacingInterpretation()) << "'" << std::endl; printBool("Gantry Tilt", this->GetTiltInformation().IsRegularGantryTilt()) //printBool("3D+t", this->GetFlag("3D+t",false)) //os << " MITK image loaded: '" << (this->GetMitkImage().IsNotNull() ? "yes" : "no") << "'" << std::endl; if (filenameDetails) { os << " Files in this image block:" << std::endl; for (auto frameIter = m_ImageFrameList.begin(); frameIter != m_ImageFrameList.end(); ++frameIter) { os << " " << (*frameIter)->Filename; if ((*frameIter)->FrameNo > 0) { os << ", " << (*frameIter)->FrameNo; } os << std::endl; } } } #define storeTagValueToProperty(tag_name, tag_g, tag_e) \ { \ const DICOMTag t(tag_g, tag_e); \ std::string tagValue = m_TagCache->GetTagValue( firstFrame, t ); \ const_cast(this)->SetProperty(#tag_name, StringProperty::New( tagValue ) ); \ } #define storeTagValueRangeToProperty(tag_name, tag_g, tag_e) \ { \ const DICOMTag t(tag_g, tag_e); \ std::string tagValueFirst = m_TagCache->GetTagValue( firstFrame, t ); \ std::string tagValueLast = m_TagCache->GetTagValue( lastFrame, t ); \ const_cast(this)->SetProperty(#tag_name "First", StringProperty::New( tagValueFirst ) ); \ const_cast(this)->SetProperty(#tag_name "Last", StringProperty::New( tagValueLast ) ); \ } void mitk::DICOMImageBlockDescriptor ::UpdateImageDescribingProperties() const { if (!m_PropertiesOutOfDate) return; if (!m_ImageFrameList.empty()) { if (m_TagCache.IsNull()) { MITK_ERROR << "Invalid call to DICOMImageBlockDescriptor::UpdateImageDescribingProperties(). Need to have initialized tag-cache!"; return; } DICOMImageFrameInfo::Pointer firstFrame = m_ImageFrameList.front(); DICOMImageFrameInfo::Pointer lastFrame = m_ImageFrameList.back(); // see macros above storeTagValueToProperty(seriesNumber,0x0020,0x0011) storeTagValueToProperty(studyDescription,0x0008,0x1030) storeTagValueToProperty(seriesDescription,0x0008,0x103e) storeTagValueToProperty(modality,0x0008,0x0060) storeTagValueToProperty(sequenceName,0x0018,0x0024) storeTagValueToProperty(orientation,0x0020,0x0037) storeTagValueToProperty(rows,0x0028,0x0010) storeTagValueToProperty(columns,0x0028,0x0011) storeTagValueRangeToProperty(sliceLocation,0x0020,0x1041) storeTagValueRangeToProperty(acquisitionNumber,0x0020,0x0012) storeTagValueRangeToProperty(instanceNumber,0x0020,0x0013) storeTagValueRangeToProperty(imagePositionPatient,0x0020,0x0032) storeTagValueToProperty(windowCenter,0x0028,0x1050) storeTagValueToProperty(windowWidth,0x0028,0x1051) storeTagValueToProperty(imageType,0x0008,0x0008) storeTagValueToProperty(photometricInterpretation,0x0028,0x0004) // some per-image attributes // frames are just numbered starting from 0. timestep 1 (the second time-step) has frames starting at (number-of-frames-per-timestep) std::string propertyKeySliceLocation = "dicom.image.0020.1041"; std::string propertyKeyInstanceNumber = "dicom.image.0020.0013"; std::string propertyKeySOPInstanceNumber = "dicom.image.0008.0018"; StringLookupTable sliceLocationForSlices; StringLookupTable instanceNumberForSlices; StringLookupTable SOPInstanceUIDForSlices; StringLookupTable filenamesForSlices; const DICOMTag tagSliceLocation(0x0020,0x1041); const DICOMTag tagInstanceNumber(0x0020,0x0013); const DICOMTag tagSOPInstanceNumber(0x0008,0x0018); unsigned int slice(0); for (auto frameIter = m_ImageFrameList.begin(); frameIter != m_ImageFrameList.end(); ++slice, ++frameIter) { std::string sliceLocation = m_TagCache->GetTagValue( *frameIter, tagSliceLocation ); sliceLocationForSlices.SetTableValue(slice, sliceLocation); std::string instanceNumber = m_TagCache->GetTagValue( *frameIter, tagInstanceNumber ); instanceNumberForSlices.SetTableValue(slice, instanceNumber); std::string sopInstanceUID = m_TagCache->GetTagValue( *frameIter, tagSOPInstanceNumber ); SOPInstanceUIDForSlices.SetTableValue(slice, sopInstanceUID); std::string filename = (*frameIter)->Filename; filenamesForSlices.SetTableValue(slice, filename); MITK_DEBUG << "Tag info for slice " << slice << ": SL '" << sliceLocation << "' IN '" << instanceNumber << "' SOP instance UID '" << sopInstanceUID << "'"; } // add property or properties with proper names const_cast(this)->SetProperty( "sliceLocationForSlices", StringLookupTableProperty::New( sliceLocationForSlices ) ); const_cast(this)->SetProperty( "instanceNumberForSlices", StringLookupTableProperty::New( instanceNumberForSlices ) ); const_cast(this)->SetProperty( "SOPInstanceUIDForSlices", StringLookupTableProperty::New( SOPInstanceUIDForSlices ) ); const_cast(this)->SetProperty( "filenamesForSlices", StringLookupTableProperty::New( filenamesForSlices ) ); m_PropertiesOutOfDate = false; } }