// gdcmHeader.cxx //----------------------------------------------------------------------------- #include "gdcmHeader.h" #include "gdcmGlobal.h" #include "gdcmUtil.h" #include "gdcmDebug.h" #include "gdcmTS.h" #include "gdcmValEntry.h" #include //----------------------------------------------------------------------------- // Constructor / Destructor /** * \brief Constructor * @param InFilename name of the file whose header we want to analyze * @param exception_on_error whether we want to throw an exception or not * @param enable_sequences = true to allow the header * to be parsed *inside* the SeQuences, when they have an actual length * @param ignore_shadow = true if user wants to skip shadow groups * during parsing, to save memory space */ gdcmHeader::gdcmHeader(const char *InFilename, bool exception_on_error, bool enable_sequences, bool ignore_shadow): gdcmDocument(InFilename,exception_on_error,enable_sequences,ignore_shadow) { /* typedef struct { guint32 totalSQlength; guint32 alreadyParsedlength; } pileElem; */ // for some ACR-NEMA images GrPixel, NumPixel is *not* 7fe0,0010 // We may encounter the 'RETired' (0x0028, 0x0200) tag // (Image Location") . This Element contains the number of // the group that contains the pixel data (hence the "Pixel Data" // is found by indirection through the "Image Location"). // Inside the group pointed by "Image Location" the searched element // is conventionally the element 0x0010 (when the norm is respected). // When the "Image Location" is absent we default to group 0x7fe0. // This IS the right place for the code std::string ImageLocation = GetEntryByNumber(0x0028, 0x0200); if ( ImageLocation == GDCM_UNFOUND ) { // Image Location GrPixel = 0x7fe0; // default value } else { GrPixel = (guint16) atoi( ImageLocation.c_str() ); } if (GrPixel == 0xe07f) // sometimes Image Location value doesn't follow GrPixel = 0x7fe0; // the supposed processor endianity. // see gdcmData/cr172241.dcm if (GrPixel != 0x7fe0) // This is a kludge for old dirty Philips imager. NumPixel = 0x1010; else NumPixel = 0x0010; } /** * \brief Constructor * @param exception_on_error whether we want to throw an exception or not */ gdcmHeader::gdcmHeader(bool exception_on_error) : gdcmDocument(exception_on_error) { } /** * \ingroup gdcmHeader * \brief Canonical destructor. */ gdcmHeader::~gdcmHeader (void) { } //----------------------------------------------------------------------------- // Print //----------------------------------------------------------------------------- // Public /** * \ingroup gdcmHeader * \brief This predicate, based on hopefully reasonable heuristics, * decides whether or not the current gdcmParser was properly parsed * and contains the mandatory information for being considered as * a well formed and usable Dicom/Acr File. * @return true when gdcmParser is the one of a reasonable Dicom/Acr file, * false otherwise. */ bool gdcmHeader::IsReadable(void) { if(!gdcmDocument::IsReadable()) { return(false); } std::string res = GetEntryByNumber(0x0028, 0x0005); if ( res != GDCM_UNFOUND && atoi(res.c_str()) > 4 ) return false; // Image Dimensions if ( !GetDocEntryByNumber(0x0028, 0x0100) ) return false; // "Bits Allocated" if ( !GetDocEntryByNumber(0x0028, 0x0101) ) return false; // "Bits Stored" if ( !GetDocEntryByNumber(0x0028, 0x0102) ) return false; // "High Bit" if ( !GetDocEntryByNumber(0x0028, 0x0103) ) return false; // "Pixel Representation" i.e. 'Sign' return true; } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a JPEGBaseLineProcess1 one. * @return True when JPEGBaseLineProcess1found. False in all other cases. */ bool gdcmHeader::IsJPEGBaseLineProcess1TransferSyntax(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); std::string Transfer = ((gdcmValEntry *)Element)->GetValue(); if ( Transfer == "1.2.840.10008.1.2.4.50" ) return true; return false; } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a JPEGExtendedProcess2-4 one. * @return True when JPEGExtendedProcess2-4 found. False in all other cases. */ bool gdcmHeader::IsJPEGExtendedProcess2_4TransferSyntax(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); return ( ((gdcmValEntry *)Element)->GetValue() == "1.2.840.10008.1.2.4.51" ); } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a JPEGExtendeProcess3-5 one. * @return True when JPEGExtendedProcess3-5 found. False in all other cases. */ bool gdcmHeader::IsJPEGExtendedProcess3_5TransferSyntax(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); std::string Transfer = ((gdcmValEntry *)Element)->GetValue(); if ( Transfer == "1.2.840.10008.1.2.4.52" ) return true; return false; } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a JPEGSpectralSelectionProcess6-8 one. * @return True when JPEGSpectralSelectionProcess6-8 found. False in all * other cases. */ bool gdcmHeader::IsJPEGSpectralSelectionProcess6_8TransferSyntax(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); std::string Transfer = ((gdcmValEntry *)Element)->GetValue(); if ( Transfer == "1.2.840.10008.1.2.4.53" ) return true; return false; } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a RLE Lossless one. * @return True when RLE Lossless found. False in all * other cases. */ bool gdcmHeader::IsRLELossLessTransferSyntax(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); std::string Transfer = ((gdcmValEntry *)Element)->GetValue(); if ( Transfer == "1.2.840.10008.1.2.5" ) { return true; } return false; } /** * \ingroup gdcmHeader * \brief Determines if Transfer Syntax was already encountered * and if it corresponds to a JPEG Lossless one. * @return True when RLE Lossless found. False in all * other cases. */ bool gdcmHeader::IsJPEGLossless(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); // faire qq chose d'intelligent a la place de ça if ( !Element ) return false; LoadDocEntrySafe(Element); const char * Transfert = ((gdcmValEntry *)Element)->GetValue().c_str(); if ( memcmp(Transfert+strlen(Transfert)-2 ,"70",2)==0) return true; if ( memcmp(Transfert+strlen(Transfert)-2 ,"55",2)==0) return true; if (((gdcmValEntry *)Element)->GetValue() == "1.2.840.10008.1.2.4.57") return true; return false; } /** * \ingroup gdcmHeader * \brief Determines if the Transfer Syntax was already encountered * and if it corresponds to a JPEG2000 one * @return True when JPEG2000 (Lossly or LossLess) found. False in all * other cases. */ bool gdcmHeader::IsJPEG2000(void) { gdcmDocEntry* Element = GetDocEntryByNumber(0x0002, 0x0010); if ( !Element ) return false; LoadDocEntrySafe(Element); std::string Transfer = ((gdcmValEntry *)Element)->GetValue(); if ( (Transfer == "1.2.840.10008.1.2.4.90") || (Transfer == "1.2.840.10008.1.2.4.91") ) return true; return false; } /** * \ingroup gdcmHeader * \brief Predicate for dicom version 3 file. * @return True when the file is a dicom version 3. */ bool gdcmHeader::IsDicomV3(void) { // Checking if Transfert Syntax exists is enough // Anyway, it's to late check if the 'Preamble' was found ... // And ... would it be a rich idea to check ? // (some 'no Preamble' DICOM images exist !) return (GetDocEntryByNumber(0x0002, 0x0010) != NULL); } /** * \ingroup gdcmHeader * \brief Retrieve the number of columns of image. * @return The encountered size when found, 0 by default. * 0 means the file is NOT USABLE. The caller will have to check */ int gdcmHeader::GetXSize(void) { std::string StrSize; StrSize = GetEntryByNumber(0x0028,0x0011); if (StrSize == GDCM_UNFOUND) return 0; return atoi(StrSize.c_str()); } /** * \ingroup gdcmHeader * \brief Retrieve the number of lines of image. * \warning The defaulted value is 1 as opposed to gdcmHeader::GetXSize() * @return The encountered size when found, 1 by default * (The ACR-MEMA file contains a Signal, not an Image). */ int gdcmHeader::GetYSize(void) { std::string StrSize = GetEntryByNumber(0x0028,0x0010); if (StrSize != GDCM_UNFOUND) return atoi(StrSize.c_str()); if ( IsDicomV3() ) return 0; else // The Rows (0028,0010) entry was optional for ACR/NEMA. It might // hence be a signal (1d image). So we default to 1: return 1; } /** * \ingroup gdcmHeader * \brief Retrieve the number of planes of volume or the number * of frames of a multiframe. * \warning When present we consider the "Number of Frames" as the third * dimension. When absent we consider the third dimension as * being the ACR-NEMA "Planes" tag content. * @return The encountered size when found, 1 by default (single image). */ int gdcmHeader::GetZSize(void) { // Both DicomV3 and ACR/Nema consider the "Number of Frames" // as the third dimension. std::string StrSize = GetEntryByNumber(0x0028,0x0008); if (StrSize != GDCM_UNFOUND) return atoi(StrSize.c_str()); // We then consider the "Planes" entry as the third dimension StrSize = GetEntryByNumber(0x0028,0x0012); if (StrSize != GDCM_UNFOUND) return atoi(StrSize.c_str()); return 1; } /** * \ingroup gdcmHeader * \brief Retrieve the number of Bits Stored (actually used) * (as opposite to number of Bits Allocated) * @return The encountered number of Bits Stored, 0 by default. * 0 means the file is NOT USABLE. The caller has to check it ! */ int gdcmHeader::GetBitsStored(void) { std::string StrSize = GetEntryByNumber(0x0028,0x0101); if (StrSize == GDCM_UNFOUND) return 0; // It's supposed to be mandatory // the caller will have to check return atoi(StrSize.c_str()); } /** * \ingroup gdcmHeader * \brief Retrieve the number of Bits Allocated * (8, 12 -compacted ACR-NEMA files, 16, ...) * @return The encountered number of Bits Allocated, 0 by default. * 0 means the file is NOT USABLE. The caller has to check it ! */ int gdcmHeader::GetBitsAllocated(void) { std::string StrSize = GetEntryByNumber(0x0028,0x0100); if (StrSize == GDCM_UNFOUND) return 0; // It's supposed to be mandatory // the caller will have to check return atoi(StrSize.c_str()); } /** * \ingroup gdcmHeader * \brief Retrieve the number of Samples Per Pixel * (1 : gray level, 3 : RGB -1 or 3 Planes-) * @return The encountered number of Samples Per Pixel, 1 by default. * (Gray level Pixels) */ int gdcmHeader::GetSamplesPerPixel(void) { std::string StrSize = GetEntryByNumber(0x0028,0x0002); if (StrSize == GDCM_UNFOUND) return 1; // Well, it's supposed to be mandatory ... // but sometimes it's missing : *we* assume Gray pixels return atoi(StrSize.c_str()); } /** * \ingroup gdcmHeader * \brief Retrieve the Planar Configuration for RGB images * (0 : RGB Pixels , 1 : R Plane + G Plane + B Plane) * @return The encountered Planar Configuration, 0 by default. */ int gdcmHeader::GetPlanarConfiguration(void) { std::string StrSize = GetEntryByNumber(0x0028,0x0006); if (StrSize == GDCM_UNFOUND) return 0; return atoi(StrSize.c_str()); } /** * \ingroup gdcmHeader * \brief Return the size (in bytes) of a single pixel of data. * @return The size in bytes of a single pixel of data; 0 by default * 0 means the file is NOT USABLE; the caller will have to check */ int gdcmHeader::GetPixelSize(void) { std::string PixelType = GetPixelType(); if (PixelType == "8U" || PixelType == "8S") return 1; if (PixelType == "16U" || PixelType == "16S") return 2; if (PixelType == "32U" || PixelType == "32S") return 4; if (PixelType == "FD") return 8; dbg.Verbose(0, "gdcmHeader::GetPixelSize: Unknown pixel type"); return 0; } /** * \ingroup gdcmHeader * \brief Build the Pixel Type of the image. * Possible values are: * - 8U unsigned 8 bit, * - 8S signed 8 bit, * - 16U unsigned 16 bit, * - 16S signed 16 bit, * - 32U unsigned 32 bit, * - 32S signed 32 bit, * - FD floating double 64 bits (Not kosher DICOM, but so usefull!) * \warning 12 bit images appear as 16 bit. * 24 bit images appear as 8 bit * @return 0S if nothing found. NOT USABLE file. The caller has to check */ std::string gdcmHeader::GetPixelType(void) { std::string BitsAlloc = GetEntryByNumber(0x0028, 0x0100); // Bits Allocated if (BitsAlloc == GDCM_UNFOUND) { dbg.Verbose(0, "gdcmHeader::GetPixelType: unfound Bits Allocated"); BitsAlloc = std::string("16"); } if (BitsAlloc == "64") // ) return ("FD"); if (BitsAlloc == "12") // It will be unpacked BitsAlloc = std::string("16"); else if (BitsAlloc == "24") // (in order no to be messed up BitsAlloc = std::string("8"); // by old RGB images) std::string Signed = GetEntryByNumber(0x0028, 0x0103); // "Pixel Representation" if (Signed == GDCM_UNFOUND) { dbg.Verbose(0, "gdcmHeader::GetPixelType: unfound Pixel Representation"); BitsAlloc = std::string("0"); } if (Signed == "0") Signed = std::string("U"); else Signed = std::string("S"); return( BitsAlloc + Signed); } /** * \ingroup gdcmHeader * \brief Recover the offset (from the beginning of the file) * of *image* pixels (not *icone image* pixels, if any !) * @return Pixel Offset */ size_t gdcmHeader::GetPixelOffset(void) { gdcmDocEntry* PixelElement = GetDocEntryByNumber(GrPixel,NumPixel); if (PixelElement) { return PixelElement->GetOffset(); } else { #ifdef GDCM_DEBUG std::cout << "Big trouble : Pixel Element (" << std::hex << GrPixel<<","<< NumPixel<< ") NOT found" << std::endl; #endif //GDCM_DEBUG return 0; } } // TODO : unify those two (previous one and next one) /** * \ingroup gdcmHeader * \brief Recover the pixel area length (in Bytes) * @return Pixel Element Length, as stored in the header * (NOT the memory space necessary to hold the Pixels * -in case of embeded compressed image-) * 0 : NOT USABLE file. The caller has to check. */ size_t gdcmHeader::GetPixelAreaLength(void) { gdcmDocEntry* PixelElement = GetDocEntryByNumber(GrPixel,NumPixel); if (PixelElement) { return PixelElement->GetLength(); } else { #ifdef GDCM_DEBUG std::cout << "Big trouble : Pixel Element (" << std::hex << GrPixel<<","<< NumPixel<< ") NOT found" << std::endl; #endif //GDCM_DEBUG return 0; } } /** * \ingroup gdcmHeader * \brief tells us if LUT are used * \warning Right now, 'Segmented xxx Palette Color Lookup Table Data' * are NOT considered as LUT, since nobody knows * how to deal with them * Please warn me if you know sbdy that *does* know ... jprx * @return true if LUT Descriptors and LUT Tables were found */ bool gdcmHeader::HasLUT(void) { // Check the presence of the LUT Descriptors, and LUT Tables // LutDescriptorRed if ( !GetDocEntryByNumber(0x0028,0x1101) ) return false; // LutDescriptorGreen if ( !GetDocEntryByNumber(0x0028,0x1102) ) return false; // LutDescriptorBlue if ( !GetDocEntryByNumber(0x0028,0x1103) ) return false; // Red Palette Color Lookup Table Data if ( !GetDocEntryByNumber(0x0028,0x1201) ) return false; // Green Palette Color Lookup Table Data if ( !GetDocEntryByNumber(0x0028,0x1202) ) return false; // Blue Palette Color Lookup Table Data if ( !GetDocEntryByNumber(0x0028,0x1203) ) return false; // FIXME : (0x0028,0x3006) : LUT Data (CTX dependent) // NOT taken into account, but we don't know how to use it ... return true; } /** * \ingroup gdcmHeader * \brief gets the info from 0028,1101 : Lookup Table Desc-Red * else 0 * @return Lookup Table number of Bits , 0 by default * when (0028,0004),Photometric Interpretation = [PALETTE COLOR ] * @ return bit number of each LUT item */ int gdcmHeader::GetLUTNbits(void) { std::vector tokens; //int LutLength; //int LutDepth; int LutNbits; //Just hope Lookup Table Desc-Red = Lookup Table Desc-Red = Lookup Table Desc-Blue // Consistency already checked in GetLUTLength std::string LutDescription = GetEntryByNumber(0x0028,0x1101); if (LutDescription == GDCM_UNFOUND) return 0; tokens.erase(tokens.begin(),tokens.end()); // clean any previous value Tokenize (LutDescription, tokens, "\\"); //LutLength=atoi(tokens[0].c_str()); //LutDepth=atoi(tokens[1].c_str()); LutNbits=atoi(tokens[2].c_str()); tokens.clear(); return LutNbits; } /** * \ingroup gdcmHeader * \brief builts Red/Green/Blue/Alpha LUT from Header * when (0028,0004),Photometric Interpretation = [PALETTE COLOR ] * and (0028,1101),(0028,1102),(0028,1102) * - xxx Palette Color Lookup Table Descriptor - are found * and (0028,1201),(0028,1202),(0028,1202) * - xxx Palette Color Lookup Table Data - are found * \warning does NOT deal with : * 0028 1100 Gray Lookup Table Descriptor (Retired) * 0028 1221 Segmented Red Palette Color Lookup Table Data * 0028 1222 Segmented Green Palette Color Lookup Table Data * 0028 1223 Segmented Blue Palette Color Lookup Table Data * no known Dicom reader deals with them :-( * @return a RGBA Lookup Table */ unsigned char * gdcmHeader::GetLUTRGBA(void) { // Not so easy : see // http://www.barre.nom.fr/medical/dicom2/limitations.html#Color%20Lookup%20Tables // if Photometric Interpretation # PALETTE COLOR, no LUT to be done if (GetEntryByNumber(0x0028,0x0004) != "PALETTE COLOR ") { return NULL; } int lengthR, debR, nbitsR; int lengthG, debG, nbitsG; int lengthB, debB, nbitsB; // Get info from Lut Descriptors // (the 3 LUT descriptors may be different) std::string LutDescriptionR = GetEntryByNumber(0x0028,0x1101); if (LutDescriptionR == GDCM_UNFOUND) return NULL; std::string LutDescriptionG = GetEntryByNumber(0x0028,0x1102); if (LutDescriptionG == GDCM_UNFOUND) return NULL; std::string LutDescriptionB = GetEntryByNumber(0x0028,0x1103); if (LutDescriptionB == GDCM_UNFOUND) return NULL; std::vector tokens; tokens.erase(tokens.begin(),tokens.end()); // clean any previous value Tokenize (LutDescriptionR, tokens, "\\"); lengthR=atoi(tokens[0].c_str()); // Red LUT length in Bytes debR =atoi(tokens[1].c_str()); // subscript of the first Lut Value nbitsR =atoi(tokens[2].c_str()); // Lut item size (in Bits) tokens.clear(); tokens.erase(tokens.begin(),tokens.end()); // clean any previous value Tokenize (LutDescriptionG, tokens, "\\"); lengthG=atoi(tokens[0].c_str()); // Green LUT length in Bytes debG =atoi(tokens[1].c_str()); // subscript of the first Lut Value nbitsG =atoi(tokens[2].c_str()); // Lut item size (in Bits) tokens.clear(); tokens.erase(tokens.begin(),tokens.end()); // clean any previous value Tokenize (LutDescriptionB, tokens, "\\"); lengthB=atoi(tokens[0].c_str()); // Blue LUT length in Bytes debB =atoi(tokens[1].c_str()); // subscript of the first Lut Value nbitsB =atoi(tokens[2].c_str()); // Lut item size (in Bits) tokens.clear(); // Load LUTs into memory, (as they were stored on disk) unsigned char *lutR = (unsigned char *) GetEntryVoidAreaByNumber(0x0028,0x1201); unsigned char *lutG = (unsigned char *) GetEntryVoidAreaByNumber(0x0028,0x1202); unsigned char *lutB = (unsigned char *) GetEntryVoidAreaByNumber(0x0028,0x1203); if (!lutR || !lutG || !lutB ) { return NULL; } // forge the 4 * 8 Bits Red/Green/Blue/Alpha LUT unsigned char *LUTRGBA = new unsigned char[1024]; // 256 * 4 (R, G, B, Alpha) if (!LUTRGBA) { return NULL; } memset(LUTRGBA, 0, 1024); // Bits Allocated int nb; std::string str_nb = GetEntryByNumber(0x0028,0x0100); if (str_nb == GDCM_UNFOUND ) { nb = 16; } else { nb = atoi(str_nb.c_str() ); } int mult; if (nbitsR==16 && nb==8) // when LUT item size is different than pixel size mult=2; // high byte must be = low byte else // See PS 3.3-2003 C.11.1.1.2 p 619 mult=1; // if we get a black image, let's just remove the '+1' // from 'i*mult+1' and check again // if it works, we shall have to check the 3 Palettes // to see which byte is ==0 (first one, or second one) // and fix the code // We give up the checking to avoid some (useless ?)overhead // (optimistic asumption) unsigned char *a; int i; a = LUTRGBA+0; for(i=0;iGetValue(TransfertSyntax); //delete ts; // Seg Fault when deleted ?! return tsName; } /** * \ingroup gdcmHeader * \brief Sets the Pixel Area size in the Header * --> not-for-rats function * @param ImageDataSize new Pixel Area Size * warning : nothing else is checked */ void gdcmHeader::SetImageDataSize(size_t ImageDataSize) { std::string content1; char car[20]; // Assumes DocEntry (GrPixel, NumPixel) is unique ... //\todo deal with multiplicity (see gdcmData/icone.dcm) sprintf(car,"%d",ImageDataSize); gdcmDocEntry *a = GetDocEntryByNumber(GrPixel, NumPixel); a->SetLength(ImageDataSize); ImageDataSize+=8; sprintf(car,"%d",ImageDataSize); content1=car; SetEntryByNumber(content1, GrPixel, NumPixel); } /** * \ingroup gdcmHeader * \brief compares 2 Headers, according to DICOMDIR rules * --> not-for-rats function * \warning does NOT work with ACR-NEMA files * \todo find a trick to solve the pb (use RET fields ?) * @param header * @return true if 'smaller' */ bool gdcmHeader::operator<(gdcmHeader &header){ std::string s1,s2; // Patient Name s1=this->GetEntryByNumber(0x0010,0x0010); s2=header.GetEntryByNumber(0x0010,0x0010); if(s1 < s2) return(true); else if(s1 > s2) return(false); else { // Patient ID s1=this->GetEntryByNumber(0x0010,0x0020); s2=header.GetEntryByNumber(0x0010,0x0020); if (s1 < s2) return(true); else if (s1 > s2) return(1); else { // Study Instance UID s1=this->GetEntryByNumber(0x0020,0x000d); s2=header.GetEntryByNumber(0x0020,0x000d); if (s1 < s2) return(true); else if(s1 > s2) return(false); else { // Serie Instance UID s1=this->GetEntryByNumber(0x0020,0x000e); s2=header.GetEntryByNumber(0x0020,0x000e); if (s1 < s2) return(true); else if(s1 > s2) return(false); } } } return(false); } // Replaced by gdcmDocument::WriteEntry /* bool gdcmHeader::WriteEntry(gdcmDocEntry *tag, FILE *_fp,FileType type) { cout << " gdcmHeader::WriteEntry : entree " << endl; guint32 length = tag->GetLength(); // The value of a tag MUST (see the DICOM norm) be an odd number of // bytes. When this is not the case, pad with an additional byte: if(length%2==1) { // tag->SetValue(tag->GetValue()+"\0"); // to go on compiling tag->SetLength(tag->GetReadLength()+1); } WriteEntryTagVRLength(tag, _fp, type); // Pixels are never loaded in the element ! // we stop writting when Pixel are processed // FIX : we loose trailing elements (RAB, right now) guint16 el = tag->GetElement(); guint16 group = tag->GetGroup(); WriteEntryValue(tag, _fp, type); return true; } */ //----------------------------------------------------------------------------- // Protected /** * \ingroup gdcmHeader * \brief anonymize a Header (removes Patient's personal info) * (read the code to see which ones ...) */ bool gdcmHeader::anonymizeHeader() { gdcmDocEntry *patientNameHE = GetDocEntryByNumber (0x0010, 0x0010); // gdcmDocEntry *patientIDHE = GetDocEntryByNumber (0x0010, 0x0020); ReplaceIfExistByNumber (" ",0x0010, 0x2154); // Telephone ReplaceIfExistByNumber (" ",0x0010, 0x1040); // Adress ReplaceIfExistByNumber (" ",0x0010, 0x0020); // Patient ID if (patientNameHE) { std::string StudyInstanceUID = GetEntryByNumber (0x0020, 0x000d); if (StudyInstanceUID !=GDCM_UNFOUND) ReplaceOrCreateByNumber(StudyInstanceUID, 0x0010, 0x0010); else ReplaceOrCreateByNumber(std::string("anonymised"), 0x0010, 0x0010); } // Just for fun :-( // (if any) remove or replace all the stuff that contains a Date //0008 0012 DA ID Instance Creation Date //0008 0020 DA ID Study Date //0008 0021 DA ID Series Date //0008 0022 DA ID Acquisition Date //0008 0023 DA ID Content Date //0008 0024 DA ID Overlay Date //0008 0025 DA ID Curve Date //0008 002a DT ID Acquisition Datetime //0018 9074 DT ACQ Frame Acquisition Datetime //0018 9151 DT ACQ Frame Reference Datetime //0018 a002 DT ACQ Contribution Date Time //0020 3403 SH REL Modified Image Date (RET) //0032 0032 DA SDY Study Verified Date //0032 0034 DA SDY Study Read Date //0032 1000 DA SDY Scheduled Study Start Date //0032 1010 DA SDY Scheduled Study Stop Date //0032 1040 DA SDY Study Arrival Date //0032 1050 DA SDY Study Completion Date //0038 001a DA VIS Scheduled Admission Date //0038 001c DA VIS Scheduled Discharge Date //0038 0020 DA VIS Admitting Date //0038 0030 DA VIS Discharge Date //0040 0002 DA PRC Scheduled Procedure Step Start Date //0040 0004 DA PRC Scheduled Procedure Step End Date //0040 0244 DA PRC Performed Procedure Step Start Date //0040 0250 DA PRC Performed Procedure Step End Date //0040 2004 DA PRC Issue Date of Imaging Service Request //0040 4005 DT PRC Scheduled Procedure Step Start Date and Time //0040 4011 DT PRC Expected Completion Date and Time //0040 a030 DT PRC Verification Date Time //0040 a032 DT PRC Observation Date Time //0040 a120 DT PRC DateTime //0040 a121 DA PRC Date //0040 a13a DT PRC Referenced Datetime //0070 0082 DA ??? Presentation Creation Date //0100 0420 DT ??? SOP Autorization Date and Time //0400 0105 DT ??? Digital Signature DateTime //2100 0040 DA PJ Creation Date //3006 0008 DA SSET Structure Set Date //3008 0024 DA ??? Treatment Control Point Date //3008 0054 DA ??? First Treatment Date //3008 0056 DA ??? Most Recent Treatment Date //3008 0162 DA ??? Safe Position Exit Date //3008 0166 DA ??? Safe Position Return Date //3008 0250 DA ??? Treatment Date //300a 0006 DA RT RT Plan Date //300a 022c DA RT Air Kerma Rate Reference Date //300e 0004 DA RT Review Date return true; } //----------------------------------------------------------------------------- // Private //-----------------------------------------------------------------------------