- gdcmFile(gdcmHeader *header);
- gdcmFile(std::string & filename);
- gdcmFile(const char * filename);
- virtual ~gdcmFile(void);
-
- gdcmHeader *GetHeader(void);
-
- // 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(std::string filename) then the filename argument MUST be
- // different from the constructor's one (no overwriting allowed).
- // TODO Swig int SetFileName(std::string filename);
-
- void SetPixelDataSizeFromHeader(void);
- size_t GetImageDataSize();
- size_t GetImageDataSizeRaw();
-
- void * GetImageData();
- size_t GetImageDataIntoVector(void* destination, size_t MaxSize);
- void * GetImageDataRaw();
- size_t GetImageDataIntoVectorRaw(void* destination, size_t MaxSize);
-
- // Allocates ExpectedSize bytes of memory at this->Data and copies the
- // pointed data to it. Copying the image might look useless but
- // the caller might destroy it's image (without knowing it: think
- // of a complicated interface where display is done with a library
- // e.g. VTK) before calling the Write
-
- // voir gdcmHeader::SetImageDataSize ?!?
- bool SetImageData (void * Data, size_t ExpectedSize);
- // When the caller is aware we simply point to the data:
- // TODO int SetImageDataNoCopy (void * Data, size_t ExpectedSize);
-
- // Push to disk.
- // A NE PAS OUBLIER : que fait-on en cas de Transfert Syntax (dans l'entete)
- // incohérente avec l'ordre des octets en mémoire ?
- // TODO Swig int Write();
-
- // Write pixels of ONE image on hard drive
- // No test is made on processor "endianity"
- // The user must call his reader correctly
- bool WriteRawData (std::string fileName);
- bool WriteDcmImplVR(std::string fileName);
- bool WriteDcmImplVR(const char * fileName);
- bool WriteDcmExplVR(std::string fileName);
- bool WriteAcr (std::string fileName);
-
- // Body in file gdcmParse.cxx
- bool ParsePixelData(void);
-
+ File();
+ File( std::string const &filename );
+ ~File();
+
+ // Standard values and informations contained in the header
+ bool IsReadable();
+
+ // Some heuristic based accessors, end user intended
+ int GetImageNumber();
+ ModalityType GetModality();
+
+ int GetXSize();
+ int GetYSize();
+ int GetZSize();
+
+ float GetXSpacing();
+ float GetYSpacing();
+ float GetZSpacing();
+
+ float GetXOrigin();
+ float GetYOrigin();
+ float GetZOrigin();
+
+ void GetImageOrientationPatient( float iop[6] );
+
+ int GetBitsStored();
+ int GetBitsAllocated();
+ int GetHighBitPosition();
+ int GetSamplesPerPixel();
+ int GetPlanarConfiguration();
+ int GetPixelSize();
+ std::string GetPixelType();
+ bool IsSignedPixelData();
+ bool IsMonochrome();
+ bool IsMonochrome1();
+ bool IsPaletteColor();
+ bool IsYBRFull();
+
+ bool HasLUT();
+ int GetLUTNbits();
+
+ // For rescaling graylevel:
+ float GetRescaleIntercept();
+ float GetRescaleSlope();
+
+ int GetNumberOfScalarComponents();
+ int GetNumberOfScalarComponentsRaw();
+
+ /// Accessor to \ref File::GrPixel
+ uint16_t GetGrPixel() { return GrPixel; }
+ /// Accessor to \ref File::NumPixel
+ uint16_t GetNumPixel() { return NumPixel; }
+
+ size_t GetPixelOffset();
+ size_t GetPixelAreaLength();
+
+ /// returns the RLE info
+ RLEFramesInfo *GetRLEInfo() { return RLEInfo; }
+ /// Returns the JPEG Fragments info
+ JPEGFragmentsInfo *GetJPEGInfo() { return JPEGInfo; }
+
+// Anonymization process
+ void AddAnonymizeElement (uint16_t group, uint16_t elem,
+ std::string const &value);
+ /// Clears the list of elements to be anonymized
+ void ClearAnonymizeList() { AnonymizeList.clear(); }
+ void AnonymizeNoLoad();
+ /// Replace patient's own information by info from the Anonymization list
+ bool AnonymizeFile();
+
+ bool Write(std::string fileName, FileType filetype);
+