static int replaceData( gdcm::Tag const &t, gdcm::DataSet &ds, const gdcm::DictEntry &entry, char const *str, gdcm::VL::Type const size ) { gdcm::DataElement de ( t ); de.SetVR( ds.FindDataElement(t) ? ds.GetDataElement(t).GetVR() : entry.GetVR() ); de.SetByteValue( str, size ); ds.Replace( de ); return 1; }
static int basicProtection ( gdcm::Tag const &tag, const gdcm::Type type, gdcm::DataSet &ds ) { gdcm::DataElement de = ds.GetDataElement( tag ); if ( canEmpty(tag, type) ) { de.Empty(); ds.Replace( de ); return 1; } gdcm::UIDGenerator uid; if ( isVRUI(tag) ) { const gdcm::ByteValue *bv; const char *oldUID = ( !de.IsEmpty() && (bv = de.GetByteValue()) ) ? bv->GetPointer() : ""; // anonymize UID XXX const char *newUID = "DUMMY-UID"; //uid.Generate(); de.SetByteValue( newUID, (uint32_t)strlen(newUID) ); } else { const char *dummy = "DUMMY"; //dummy = ( dummy = gdcm::DummyValueGenerator::Generate( "" ) ) ""; // anonymize non-UID XXX de.SetByteValue( dummy, (uint32_t)strlen(dummy) ); } ds.Replace( de ); return 1; }
static ::gdcmIO::container::DicomCodedAttribute readCodeSequence(const ::gdcm::DataSet & dataset) { ::gdcmIO::container::DicomCodedAttribute codedAttributes; if ( !dataset.FindDataElement(::gdcm::Tag(GROUP,ELEMENT))) { // Return empty coded attributes return codedAttributes; } ::gdcm::SmartPointer< ::gdcm::SequenceOfItems > sequence = dataset.GetDataElement(::gdcm::Tag(GROUP,ELEMENT)).GetValueAsSQ(); if (sequence->GetNumberOfItems() == 0) // One Item shall be permitted { // Return empty coded attributes return codedAttributes; } const ::gdcm::DataSet& itemDataset = sequence->GetItem(1).GetNestedDataSet(); // Code value - Type 1 codedAttributes.setCodeValue(DicomData::getTrimmedTagValue<0x0008,0x0100>(itemDataset)); // Coding Scheme Designator - Type 1 codedAttributes.setCodingSchemeDesignator(DicomData::getTrimmedTagValue<0x0008,0x0102>(itemDataset)); // Coding Scheme Version - Type 1C codedAttributes.setCodingSchemeVersion(DicomData::getTrimmedTagValue<0x0008,0x0103>(itemDataset)); // Code Meaning - Type 1 codedAttributes.setCodeMeaning(DicomData::getTrimmedTagValue<0x0008,0x0104>(itemDataset)); return codedAttributes; }
static int lreplace( gdcm::Tag const &t, const char *value, gdcm::VL const & vl, gdcm::DataSet &ds ) { if ( t.GetGroup() < 0x0008 ) return 0; if ( t.IsPrivate() && vl == 0 && ds.FindDataElement( t ) ) { gdcm::DataElement de ( ds.GetDataElement( t ) ); if ( de.GetVR() != gdcm::VR::INVALID ) { if ( de.GetVR() == gdcm::VR::SQ && *value == 0 ) { return emptyData( t, ds ); } // Only allowed operation for a Private Tag else { return 0; } //Trying to replace value of a Private Tag } de.SetByteValue( "", 0 ); ds.Insert( de ); return 1; } else { const gdcm::DictEntry &entry = dicts.GetDictEntry( t ); if ( entry.GetVR() == gdcm::VR::INVALID || entry.GetVR() == gdcm::VR::UN ) { return 0; } if ( entry.GetVR() == gdcm::VR::SQ && vl == 0 && value && *value == 0 ) { return emptyData( t, ds ); } else if ( entry.GetVR() && gdcm::VR::VRBINARY && vl == 0 ) { return replaceData( t, ds, entry, "", 0 ); } else { // ASCII if ( value ) { std::string padded( value, vl); if ( vl.IsOdd() && (entry.GetVR() != gdcm::VR::UI) ) { padded += " "; } return replaceData( t, ds, entry, padded.c_str(), (gdcm::VL::Type)padded.size() ); } } } return 0; }