// gdcmlib Intro: // * gdcmlib is a library dedicated to reading and writing dicom files. // * LGPL for the license // * lightweigth as opposed to CTN or DCMTK wich come bundled which try // to implement the full DICOM standard (networking...). gdcmlib concentrates // on reading and // * Formats: this lib should be able to read ACR-NEMA v1 and v2, Dicom v3 (as // stated in part10). [cf dcmtk/dcmdata/docs/datadict.txt] // * Targeted plateforms: Un*xes and Win32/VC++6.0 // // // TODO // The declarations commented out and starting with "TODO Swig" needed // to be temporarily removed for swig to proceed correctly (in fact // problems appears at loading of _gdcm.[so/dll]). So, simply uncomment // the declaration once you provided the definition of the method... #include #include // For size_t #include #include // The requirement for the hash table (or map) that we shall use: // 1/ First, next, last (iterators) // 2/ should be sortable (i.e. sorted by TagKey). This condition // shall be droped since the Win32/VC++ implementation doesn't look // a sorted one. Pffff.... // 3/ Make sure we can setup some default size value, which should be // around 4500 entries which is the average dictionary size (said JPR) #include // Tag based hash tables. // We shall use as keys the strings (as the C++ type) obtained by // concatenating the group value and the element value (both of type // unsigned 16 bit integers in Dicom) expressed in hexadecimal. // Example: consider the tag given as (group, element) = (0x0010, 0x0010). // Then the corresponding TagKey shall be the string 0010|0010 (where // the | (pipe symbol) acts as a separator). Refer to // gdcmDictEntry::TranslateToKey for this conversion function. typedef string TagKey; class gdcmDictEntry { private: guint16 group; // e.g. 0x0010 guint16 element; // e.g. 0x0010 string vr; // Value Representation i.e. some clue about the nature // of the data represented e.g. "FD" short for // "Floating Point Double" // CLEAN ME: find the official dicom name for this field ! string fourth; // Fourth field containing some semantics. string name; // e.g. "Patient_Name" TagKey key; // This is redundant zith (group, element) but we add // on efficiency purposes. // DCMTK has many fields for handling a DictEntry (see below). What are the // relevant ones for gdcmlib ? // struct DBI_SimpleEntry { // Uint16 group; // Uint16 element; // Uint16 upperGroup; // Uint16 upperElement; // DcmEVR evr; // const char* tagName; // int vmMin; // int vmMax; // const char* standardVersion; // DcmDictRangeRestriction groupRestriction; // DcmDictRangeRestriction elementRestriction; // }; public: //CLEANME gdcmDictEntry(); gdcmDictEntry(guint16 group, guint16 element, string vr, string fourth, string vr); static TagKey TranslateToKey(guint16 group, guint16 element); guint16 GetGroup(void) { return group;}; guint16 GetElement(void){return element;}; string GetVR(void) {return vr; }; void SetVR(string in){vr = in; }; string GetFourth(void) {return fourth;}; string GetName(void) {return name;}; string GetKey(void) {return key;}; }; typedef map TagHT; // A single DICOM dictionary i.e. a container for a collection of dictionary // entries. There should be a single public dictionary (THE dictionary of // the actual DICOM v3) but as many shadow dictionaries as imagers // combined with all software versions... class gdcmDict { string name; string filename; TagHT entries; public: gdcmDict(const char* FileName); // Read Dict from disk // TODO Swig int AppendEntry(gdcmDictEntry* NewEntry); gdcmDictEntry * GetTag(guint32 group, guint32 element); void Print(ostream&); }; // Container for managing a set of loaded dictionaries. Sharing dictionaries // should avoid : // * reloading an allready loaded dictionary. // * having many in memory representations of the same dictionary. typedef string DictKey; typedef map DictSetHT; class gdcmDictSet { private: string DictPath; // Directory path to dictionaries DictSetHT dicts; int AppendDict(gdcmDict* NewDict); int LoadDictFromFile(string filename, DictKey); void SetDictPath(void); public: gdcmDictSet(void); // loads THE DICOM v3 dictionary // TODO Swig int LoadDictFromFile(string filename); ///// QUESTION: the following function might not be thread safe !? Maybe ///// we need some mutex here, to avoid concurent creation of ///// the same dictionary !?!?! // TODO Swig int LoadDictFromName(string filename); // TODO Swig int LoadAllDictFromDirectory(string DirectoryName); // TODO Swig string* GetAllDictNames(); int LoadDicomV3Dict(void); void Print(ostream&); gdcmDict* GetDict(DictKey DictName); gdcmDict* GetDefaultPublicDict(void); }; // The dicom header of a Dicom file contains a set of such ELement VALUES // (when successfuly parsed against a given Dicom dictionary) class ElValue { private: gdcmDictEntry *entry; guint32 LgrElem; // Might prove of some interest (see _ID_DCM_ELEM) // int Swap; public: string value; // used to be char * valeurElem size_t Offset; // Offset from the begining of file for direct user access ElValue(gdcmDictEntry*); void SetVR(string); string GetVR(void); void SetLength(guint32 l){LgrElem = l; }; void SetValue(string val){ value = val; }; void SetOffset(size_t of){ Offset = of; }; string GetValue(void) { return value; }; guint32 GetLength(void) { return LgrElem; }; size_t GetOffset(void) { return Offset; }; guint16 GetGroup(void) { return entry->GetGroup(); }; guint16 GetElement(void) { return entry->GetElement(); }; string GetKey(void) { return entry->GetKey(); }; string GetName(void) { return entry->GetName();}; }; typedef map TagElValueHT; typedef map TagElValueNameHT; // Container for a set of succefully parsed ElValues. class ElValSet { // We need both accesses with a TagKey and the Dicentry.Name TagElValueHT tagHt; TagElValueNameHT NameHt; public: void Add(ElValue*); void Print(ostream &); void PrintByName(ostream &); ElValue* GetElement(guint32 group, guint32 element); string GetElValue(guint32 group, guint32 element); string GetElValue(string); TagElValueHT & GetTagHt(void); }; // The various entries of the explicit value representation (VR) shall // be managed within a dictionary. typedef string VRKey; typedef string VRAtr; typedef map VRHT; // Value Representation Hash Table // The typical usage of objects of this class is to classify a set of // dicom files according to header information e.g. to create a file hierachy // reflecting the Patient/Study/Serie informations, or extracting a given // SerieId. Accesing the content (image[s] or volume[s]) is beyond the // functionality of this class (see dmcFile below). // Notes: // * the gdcmHeader::Set*Tag* family members cannot be defined as protected // (Swig limitations for as Has_a dependency between gdcmFile and gdcmHeader) class gdcmHeader { //FIXME sw should be qn EndianType !!! //enum EndianType { //LittleEndian, //BadLittleEndian, //BigEndian, //BadBigEndian}; private: // All instances share the same value representation dictionary static VRHT *dicom_vr; static gdcmDictSet* Dicts; // Global dictionary container gdcmDict* RefPubDict; // Public Dictionary gdcmDict* RefShaDict; // Shadow Dictionary (optional) ElValSet PubElVals; // Element Values parsed with Public Dictionary ElValSet ShaElVals; // Element Values parsed with Shadow Dictionary // In order to inspect/navigate through the file string filename; FILE * fp; // The tag Image Location ((0028,0200) containing the adress of // the pixels) is not allways present. When we store this information // FIXME // outside of the elements: guint16 grPixel; guint16 numPixel; int sw; guint16 ReadInt16(void); guint32 ReadInt32(void); guint16 SwapShort(guint16); guint32 SwapLong(guint32); void Initialise(void); void CheckSwap(void); void FindLength(ElValue *); void FindVR(ElValue *); void LoadElementValue(ElValue *); void SkipElementValue(ElValue *); void InitVRDict(void); bool IsAnInteger(guint16, guint16, string, guint32); ElValue * ReadNextElement(void); gdcmDictEntry * IsInDicts(guint32, guint32); size_t GetPixelOffset(void); protected: enum FileType { Unknown = 0, TrueDicom, ExplicitVR, ImplicitVR, ACR, ACR_LIBIDO}; FileType filetype; ///// QUESTION: Maybe Print is a better name than write !? int write(ostream&); ///// QUESTION: Maybe anonymize should be a friend function !?!? ///// See below for an example of how anonymize might be implemented. int anonymize(ostream&); public: void LoadElements(void); virtual void ParseHeader(void); gdcmHeader(const char* filename); virtual ~gdcmHeader(); // TODO Swig int SetPubDict(string filename); // When some proprietary shadow groups are disclosed, whe can set // up an additional specific dictionary to access extra information. // TODO Swig int SetShaDict(string filename); // Retrieve all potentially available tag [tag = (group, element)] names // from the standard (or public) dictionary (hence static). Typical usage: // enable the user of a GUI based interface to select his favorite fields // for sorting or selection. // TODO Swig string* GetPubTagNames(); // Get the element values themselves: string GetPubElValByName(string TagName); string GetPubElValByNumber(guint16 group, guint16 element); // Get the element value representation: (VR) might be needed by caller // to convert the string typed content to caller's native type (think // of C/C++ vs Python). // TODO Swig string GetPubElValRepByName(string TagName); // TODO Swig string GetPubElValRepByNumber(guint16 group, guint16 element); TagElValueHT & GetPubElVal(void) { return PubElVals.GetTagHt(); }; void PrintPubElVal(ostream & os = std::cout); void PrintPubDict(ostream &); // Same thing with the shadow : // TODO Swig string* GetShaTagNames(); // TODO Swig string GetShaElValByName(string TagName); // TODO Swig string GetShaElValByNumber(guint16 group, guint16 element); // TODO Swig string GetShaElValRepByName(string TagName); // TODO Swig string GetShaElValRepByNumber(guint16 group, guint16 element); // Wrappers of the above (both public and shadow) to avoid bugging the // caller with knowing if ElVal is from the public or shadow dictionary. // TODO Swig string GetElValByName(string TagName); // TODO Swig string GetElValByNumber(guint16 group, guint16 element); // TODO Swig string GetElValRepByName(string TagName); // TODO Swig string GetElValRepByNumber(guint16 group, guint16 element); // TODO Swig int SetPubElValByName(string content, string TagName); // TODO Swig int SetPubElValByNumber(string content, guint16 group, guint16 element); // TODO Swig int SetShaElValByName(string content, string ShadowTagName); // TODO Swig int SetShaElValByNumber(string content, guint16 group, guint16 element); // TODO Swig int GetSwapCode(); }; // In addition to Dicom header exploration, this class is designed // for accessing the image/volume content. One can also use it to // write Dicom files. ////// QUESTION: this looks still like an open question wether the ////// relationship between a gdcmFile and gdcmHeader is of ////// type IS_A or HAS_A ! class gdcmFile: gdcmHeader { private: void* Data; int Parsed; // weather allready parsed string OrigFileName; // To avoid file overwrite public: // Constructor dedicated to writing a new DICOMV3 part10 compliant // file (see SetFileName, SetDcmTag and Write) // TODO Swig gdcmFile(); // Opens (in read only and when possible) an existing file and checks // for DICOM compliance. Returns NULL on failure. // Note: the in-memory representation of all available tags found in // the DICOM header is post-poned to first header information access. // This avoid a double parsing of public part of the header when // one sets an a posteriori shadow dictionary (efficiency can be // seen a a side effect). gdcmFile(string & filename); // For promotion (performs a deepcopy of pointed header object) // TODO Swig gdcmFile(gdcmHeader* header); // TODO Swig ~gdcmFile(); // On writing purposes. When instance was created through // gdcmFile(string filename) then the filename argument MUST be different // from the constructor's one (no overwriting aloud). // TODO Swig int SetFileName(string filename); // Allocates necessary memory, copies the data (image[s]/volume[s]) to // newly allocated zone and return a pointer to it: // TODO Swig void * GetImageData(); // Returns size (in bytes) of required memory to contain data // represented in this file. // TODO Swig size_t GetImageDataSize(); // Copies (at most MaxSize bytes) of data to caller's memory space. // Returns an error code on failure (if MaxSize is not big enough) // TODO Swig int PutImageDataHere(void* destination, size_t MaxSize ); // Allocates ExpectedSize bytes of memory at this->Data and copies the // pointed data to it. // TODO Swig int SetImageData(void * Data, size_t ExpectedSize); // Push to disk. // TODO Swig int Write(); }; //class gdcmSerie : gdcmFile; //class gdcmMultiFrame : gdcmFile; // //Examples: // * gdcmFile WriteDicom; // WriteDicom.SetFileName("MyDicomFile.dcm"); // string * AllTags = gdcmHeader.GetDcmTagNames(); // WriteDicom.SetDcmTag(AllTags[5], "253"); // WriteDicom.SetDcmTag("Patient Name", "bozo"); // WriteDicom.SetDcmTag("Patient Name", "bozo"); // WriteDicom.SetImageData(Image); // WriteDicom.Write(); // // // Anonymize(ostream& output) { // a = gdcmFile("toto1"); // a.SetPubValueByName("Patient Name", ""); // a.SetPubValueByName("Date", ""); // a.SetPubValueByName("Study Date", ""); // a.write(output); // }