Program: gdcm
Module: $RCSfile: gdcmFileHelper.h,v $
Language: C++
- Date: $Date: 2007/07/04 10:40:56 $
- Version: $Revision: 1.48 $
+ Date: $Date: 2007/09/17 12:16:01 $
+ Version: $Revision: 1.55 $
Copyright (c) CREATIS (Centre de Recherche et d'Applications en Traitement de
l'Image). All rights reserved. See Doc/License.txt or
=========================================================================*/
-#ifndef GDCMFILEHELPER_H
-#define GDCMFILEHELPER_H
+#ifndef _GDCMFILEHELPER_H_
+#define _GDCMFILEHELPER_H_
#include "gdcmDebug.h"
#include "gdcmRefCounter.h"
static FileHelper *New() {return new FileHelper();}
/// \brief Constructs a FileHelper with a RefCounter from a fileHelper
static FileHelper *New(File *header) {return new FileHelper(header);}
-
+
void Print(std::ostream &os = std::cout, std::string const &indent = "");
- /// Accessor to \ref File
+ /// Accessor to File
File *GetFile() { return FileInternal; }
-
+ /// \brief Tells gdcm wether we want to keep ACR-NEMA-like overlays or not.
+ void SetKeepOverlays(bool k) { KeepOverlays =k; }
+ bool GetKeepOverlays( ) { return KeepOverlays; }
+
void SetLoadMode(int loadMode);
void SetFileName(std::string const &fileName);
bool Load();
DataEntry *InsertEntryString(std::string const &content,
uint16_t group, uint16_t elem, const VRKey &vr);
DataEntry *InsertEntryBinArea(uint8_t *binArea, int lgth,
- uint16_t group, uint16_t elem, const VRKey &vr);
+ uint16_t group, uint16_t elem, const VRKey &vr);
SeqEntry *InsertSeqEntry(uint16_t group, uint16_t elem);
// File helpers
uint8_t *GetImageData();
uint8_t *GetImageDataRaw();
-// GDCM_LEGACY(size_t GetImageDataIntoVector(void *destination,size_t maxSize))
+// GDCM_LEGACY(size_t GetImageDataIntoVector(void *destination,size_t maxSize))
void SetImageData(uint8_t *data, size_t expectedSize);
/// (as opposed to 'Grey pixels + Palettes color')
void SetWriteModeToRGB() { SetWriteMode(WMODE_RGB); }
/// \brief Sets the Write Mode ( )
- void SetWriteMode(FileMode mode) {
- WriteMode = mode;
- // Deal with Samples per Pixel
- //if (mode == WMODE_RGB) FileInternal->InsertEntryString("3",0x0028,0x0002);
- }
+ void SetWriteMode(FileMode mode) { WriteMode = mode; }
/// \brief Gets the Write Mode ( )
FileMode GetWriteMode() { return WriteMode; }
void SetWriteTypeToAcr() { SetWriteType(ACR); }
/// \brief Tells the writer we want to write as LibIDO
void SetWriteTypeToAcrLibido() { SetWriteType(ACR_LIBIDO); }
- /// \brief Tells the writer we want to write as JPEG
+ /// \brief Tells the writer we want to write as JPEG
void SetWriteTypeToJPEG() { SetWriteType(JPEG); }
/// \brief Tells the writer we want to write as JPEG2000
- void SetWriteTypeToJPEG2000() { SetWriteType(JPEG2000); }
+ void SetWriteTypeToJPEG2000() { SetWriteType(JPEG2000); }
/// \brief Tells the writer which format we want to write
/// (ImplicitVR, ExplicitVR, ACR, ACR_LIBIDO)
void SetWriteType(FileType format) { WriteType = format; }
/// \brief Gets the format we talled the write we wanted to write
/// (ImplicitVR, ExplicitVR, ACR, ACR_LIBIDO)
FileType GetWriteType() { return WriteType; }
- /// \brief 1 : white=0, black=high value
+ /// \brief 1 : white=0, black=high value
void SetPhotometricInterpretationToMonochrome1() {
- PhotometricInterpretation = 1;}
- /// \brief 2 : black=0, white=high value (default)
+ PhotometricInterpretation = 1;}
+ /// \brief 2 : black=0, white=high value (default)
void SetPhotometricInterpretationToMonochrome2() {
- PhotometricInterpretation = 2;}
-
+ PhotometricInterpretation = 2;}
+ /// \brief 1 : white=0, black=high value
int GetPhotometricInterpretation() {
- return PhotometricInterpretation; }
-
+ return PhotometricInterpretation; }
+
// Write pixels of ONE image on hard drive
// No test is made on processor "endianness"
// The user must call his reader correctly
FileHelper( File *header );
~FileHelper();
+ /// \todo move all those 'protected' methods to 'private'
+ /// since FileHelper is not derived in anything!
bool CheckWriteIntegrity();
void SetWriteToRaw();
void SetWriteFileTypeToACR();
void SetWriteFileTypeToJPEG();
- void SetWriteFileTypeToJPEG2000();
+ void SetWriteFileTypeToJPEG2000();
void SetWriteFileTypeToExplicitVR();
void SetWriteFileTypeToImplicitVR();
void RestoreWriteFileType();
void RestoreWriteOfLibido();
DataEntry *CopyDataEntry(uint16_t group, uint16_t elem,
- const VRKey &vr = GDCM_VRUNKNOWN);
+ const VRKey &vr = GDCM_VRUNKNOWN);
void CheckMandatoryElements();
void CheckMandatoryEntry(uint16_t group, uint16_t elem, std::string value,
- const VRKey &vr = GDCM_VRUNKNOWN);
+ const VRKey &vr = GDCM_VRUNKNOWN);
void SetMandatoryEntry(uint16_t group, uint16_t elem, std::string value,
- const VRKey &vr = GDCM_VRUNKNOWN);
+ const VRKey &vr = GDCM_VRUNKNOWN);
void CopyMandatoryEntry(uint16_t group, uint16_t elem, std::string value,
- const VRKey &vr = GDCM_VRUNKNOWN);
+ const VRKey &vr = GDCM_VRUNKNOWN);
void RestoreWriteMandatory();
private:
bool Parsed;
// Utility pixel converter
+
/// \brief Pointer to the PixelReadConverter
PixelReadConvert *PixelReadConverter;
+
/// \brief Pointer to the PixelWriteConverter
PixelWriteConvert *PixelWriteConverter;
/// \brief (ImplicitVR, ExplicitVR, ACR, ACR_LIBIDO)
FileType WriteType;
-
+
/// \brief Pointer to a user supplied function to allow modification
/// of pixel order (e.g. : Mirror, UpsideDown, 90°Rotation, ...)
/// use as : void userSuppliedFunction(uint8_t *im, gdcm::File *f)
/// - he anonymized and image (*no* modif on the pixels)
ImageContentType ContentType;
- /// \brief 1 : white=0, black=high value
- /// 2 : black=0, white=high value (default)
+ /// \brief 1 : white=0, black=high value
+ /// 2 : black=0, white=high value (default)
int PhotometricInterpretation;
+
+ /// \brief wether we want to keep ACR-NEMA-like overlays or not.
+ bool KeepOverlays;
};
} // end namespace gdcm
git://git.creatis.insa-lyon.fr / gdcm.git / blobdiff