/usr/include/dcmtk/dcmimgle/diimage.h is in libdcmtk-dev 3.6.1~20160216-4.
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*
* Copyright (C) 1996-2014, OFFIS e.V.
* All rights reserved. See COPYRIGHT file for details.
*
* This software and supporting documentation were developed by
*
* OFFIS e.V.
* R&D Division Health
* Escherweg 2
* D-26121 Oldenburg, Germany
*
*
* Module: dcmimgle
*
* Author: Joerg Riesmeier
*
* Purpose: DicomImage (Header)
*
*/
#ifndef DIIMAGE_H
#define DIIMAGE_H
#include "dcmtk/config/osconfig.h"
#include "dcmtk/dcmdata/dcitem.h"
#include "dcmtk/dcmdata/dcfcache.h"
#ifdef SUNCC
#include "dcmtk/dcmimgle/didocu.h"
#endif
#include "dcmtk/dcmimgle/diovlay.h"
#include "dcmtk/dcmimgle/diutils.h"
#define INCLUDE_CSTDIO
#include "dcmtk/ofstd/ofstdinc.h"
#include "dcmtk/ofstd/ofstream.h"
/*------------------------*
* forward declarations *
*------------------------*/
class DcmPixelData;
class DcmUnsignedShort;
#ifndef SUNCC
class DiDocument;
#endif
class DiPixel;
class DiMonoImage;
class DiInputPixel;
/*---------------------*
* class declaration *
*---------------------*/
/** Base class for images.
* NB: This is an internal class of module dcmimgle/dcmimage. Please do not
* use it directly. Instead use the main interface class DicomImage.
*/
class DCMTK_DCMIMGLE_EXPORT DiImage
{
public:
/** constructor
*
** @param docu pointer to the DICOM document
* @param status status of the image object
* @param spp samples per pixel
*/
DiImage(const DiDocument *docu,
const EI_Status status,
const int spp);
/** destructor
*/
virtual ~DiImage();
/** process next couple of frames
*
** @param fcount number of frames to be processed (0 = same number as before)
*
** @return status, true if successful, false otherwise
*/
virtual int processNextFrames(const unsigned long fcount);
/** get status of the image object
*
** @return status of the image object
*/
inline EI_Status getStatus() const
{
return ImageStatus;
}
/** get number of frames
*
** @return number of frames
*/
inline Uint32 getNumberOfFrames() const
{
return NumberOfFrames;
}
/** get index of first frame
*
** @return index of first frame
*/
inline Uint32 getFirstFrame() const
{
return FirstFrame;
}
/** get total number of frames
*
** @return total number of frames
*/
inline Uint32 getTotalNumberOfFrames() const
{
return TotalNumberOfFrames;
}
/** get representative frame
*
** @return representative frame
*/
inline Uint32 getRepresentativeFrame() const
{
return RepresentativeFrame;
}
/** get frame time
*
** @return frame time
*/
inline double getFrameTime() const
{
return FrameTime;
}
/** get number of rows
*
** @return number of rows
*/
inline Uint16 getRows() const
{
return Rows;
}
/** get number of columns
*
** @return number of columns
*/
inline Uint16 getColumns() const
{
return Columns;
}
/** get pixel's width
*
** @return pixel's width
*/
inline double getPixelWidth() const
{
return (PixelWidth > 0) ? PixelWidth : 1;
}
/** get pixel's height
*
** @return pixel's height
*/
inline double getPixelHeight() const
{
return (PixelHeight > 0) ? PixelHeight : 1;
}
/** get pixel's rows/column ratio
*
** @return pixel's rows/column ratio
*/
inline double getRowColumnRatio() const
{
return getPixelHeight() / getPixelWidth();
}
/** get pixel's column/rows ratio
*
** @return pixel's column/rows ratio
*/
inline double getColumnRowRatio() const
{
return getPixelWidth() / getPixelHeight();
}
/** set pixel's rows/column ratio
*
** @param ratio pixel's rows/column ratio
*
** @return status, true if successful, false otherwise
*/
int setRowColumnRatio(const double ratio);
/** set pixel's column/rows ratio
*
** @param ratio pixel's column/rows ratio
*
** @return status, true if successful, false otherwise
*/
int setColumnRowRatio(const double ratio);
/** get polarity.
* possible values are EPP_Normal and EPP_Reverse
*
** @return currently active polarity mode
*/
inline EP_Polarity getPolarity() const
{
return Polarity;
}
/** set polarity.
*
** @param polarity polarity (normal or reverse)
*
** @return true if successful (1 = polarity has changed,
* 2 = polarity has not changed)
* false otherwise
*/
int setPolarity(const EP_Polarity polarity);
/** get number of bits per sample.
* If the optional parameter is specified the value will be checked and in any case
* a valid value will be returned.
*
** @param bits value to be returned (if less than 1 or greater than the maximum (32)
* the default value will be used which is equal to the bits per sample
* value stored in the DICOM dataset)
*
** @return status, true if successful, false otherwise
*/
virtual int getBits(const int bits = 0) const
{
return ((bits < 1) || (bits > MAX_BITS)) ? BitsPerSample : bits;
}
/** get color model of internal pixel representation.
* Possible values are: EPI_Monochrome1, EPI_Monochrome2, EPI_RGB and EPI_YBR_Full
*
** @return color model of internal pixel representation
*/
virtual EP_Interpretation getInternalColorModel() const = 0;
/** get access to intermediate pixel data representation (abstract)
*
** @return pointer to intermediate pixel data
*/
virtual const DiPixel *getInterData() const = 0;
/** get number of bytes required for the rendered output of a single frame
*
* @param bits number of bits for the output pixel data (depth)
*
** @return number of bytes if successful, 0 otherwise
*/
virtual unsigned long getOutputDataSize(const int bits = 0) const = 0;
/** get pixel data with specified format (abstract).
* (memory is handled internally)
*
** @param frame number of frame to be rendered
* @param bits number of bits for the output pixel data (depth)
* @param planar flag, whether the output data (for multi-planar images) should be planar or not
*
** @return untyped pointer to the pixel data if successful, NULL otherwise
*/
virtual const void *getOutputData(const unsigned long frame,
const int bits,
const int planar) = 0;
/** get pixel data with specified format (abstract).
* (memory is handled externally)
*
** @param buffer untyped pointer to the externally allocated memory buffer
* @param size size of the memory buffer in bytes (will be checked)
* @param frame number of frame to be rendered
* @param bits number of bits for the output pixel data (depth)
* @param planar flag, whether the output data (for multi-planar images) should be planar or not
*
** @return status, true if successful, false otherwise
*/
virtual int getOutputData(void *buffer,
const unsigned long size,
const unsigned long frame,
const int bits,
const int planar) = 0;
/** get pixel data of specified plane (abstract).
* (memory is handled internally)
*
** @param plane number of plane which should be rendered (starting from 0)
*
** @return untyped pointer to the pixel data if successful, NULL otherwise
*/
virtual const void *getOutputPlane(const int plane) const = 0;
/** delete internally handled output memory buffer (abstract)
*/
virtual void deleteOutputData() = 0;
/** get pointer to the object managing the overlay planes
*
** (#)param idx index of overlay group (here: not used, since only applicable for monochrome images)
*
** @return pointer to the overlay managing object, here: NULL
*/
virtual DiOverlay *getOverlayPtr(const unsigned int /*idx*/)
{
return NULL;
}
/** get pointer to monochrome image object
*
** @return pointer to monochrome image object (here: always NULL)
*/
virtual DiMonoImage *getMonoImagePtr()
{
return NULL;
}
/** create copy of current image object (abstract)
*
** @param fstart first frame to be processed (not fully implemented!)
* @param fcount number of frames (not fully implemented!)
*
** @return pointer to new DiImage object (NULL if an error occurred)
*/
virtual DiImage *createImage(const unsigned long fstart,
const unsigned long fcount) const = 0;
/** create scaled copy of specified (clipping) area of the current image object (abstract).
*
** @param left_pos x coordinate of top left corner of area to be scaled
* (referring to image origin, negative values create a border around the image)
* @param top_pos y coordinate of top left corner of area to be scaled
* @param clip_width width of area to be scaled
* @param clip_height height of area to be scaled
* @param scale_width width of scaled image (in pixels)
* @param scale_height height of scaled image (in pixels)
* @param interpolate specifies whether scaling algorithm should use interpolation (if necessary).
* default: no interpolation (0), preferred interpolation algorithm (if applicable):
* 1 = pbmplus algorithm, 2 = c't algorithm, 3 = bilinear magnification,
* 4 = bicubic magnification
* @param aspect specifies whether pixel aspect ratio should be taken into consideration
* (if true, width OR height should be 0, i.e. this component will be calculated
* automatically)
* @param pvalue P-value used for the border outside the image (0..65535)
*
** @return pointer to new DiImage object (NULL if an error occurred)
*/
virtual DiImage *createScale(const signed long left_pos,
const signed long top_pos,
const unsigned long clip_width,
const unsigned long clip_height,
const unsigned long scale_width,
const unsigned long scale_height,
const int interpolate,
const int aspect,
const Uint16 pvalue) const = 0;
/** flip current image horizontally and/or vertically (abstract)
*
** @param horz flip horizontally if true
* @param vert flip vertically if true
*
** @return true if successful, false otherwise
*/
virtual int flip(const int horz,
const int vert) = 0;
/** create a flipped copy of the current image (abstract).
*
** @param horz flip horizontally if true
* @param vert flip vertically if true
*
** @return pointer to new DiImage object (NULL if an error occurred)
*/
virtual DiImage *createFlip(const int horz,
const int vert) const = 0;
/** rotate current image (by steps of 90 degrees)
*
** @param degree angle by which the image shall be rotated
*
** @return true if successful, false otherwise
*/
virtual int rotate(const int degree);
/** create a rotated copy of the current image (abstract).
*
** @param degree angle by which the image shall be rotated
*
** @return pointer to new DiImage object (NULL if an error occurred)
*/
virtual DiImage *createRotate(const int degree) const = 0;
/** create monochrome copy of the current image (abstract).
*
** @param red coefficient by which the red component is weighted
* @param green coefficient by which the green component is weighted
* @param blue coefficient by which the blue component is weighted
*
** @return pointer to new DiImage object (NULL if an error occurred)
*/
virtual DiImage *createMono(const double red,
const double green,
const double blue) const = 0;
/** create true color (24/32 bit) or palette (8 bit) bitmap for MS Windows (abstract).
*
** @param data untyped pointer memory buffer (set to NULL if not allocated externally)
* @param size size of the memory buffer in bytes (if 0 'data' is set to NULL)
* @param frame index of frame to be converted (starting from 0)
* @param bits number of bits per pixel used for the output bitmap (8, 24 or 32)
* @param upsideDown specifies the order of lines in the images (0 = top-down, bottom-up otherwise)
* @param padding align each line to a 32-bit address if true (default)
*
** @return number of bytes allocated by the bitmap, or 0 if an error occurred
*/
virtual unsigned long createDIB(void *&data,
const unsigned long size,
const unsigned long frame,
const int bits,
const int upsideDown,
const int padding = 1) = 0;
/** create true color (32 bit) bitmap for Java AWT (abstract).
*
** @param data resulting pointer to bitmap data (set to NULL if an error occurred)
* @param frame index of frame to be converted
* @param bits number of bits per pixel used for the output bitmap (8 or 32)
*
** @return number of bytes allocated by the bitmap, or 0 if an error occurred
*/
virtual unsigned long createAWTBitmap(void *&data,
const unsigned long frame,
const int bits) = 0;
/** render pixel data of given frame and write image related attributes to DICOM dataset.
*
** @param dataset reference to DICOM dataset where the image attributes are stored
* @param frame index of frame used for output
* @param bits number of bits used for output of pixel data
* @param planar flag, whether the output data (for multi-planar images) should be planar or not
*
** @return true if successful, false otherwise
*/
int writeFrameToDataset(DcmItem &dataset,
const unsigned long frame = 0,
const int bits = 0,
const int planar = 0);
/** write current image and related attributes to DICOM dataset.
*
** @param dataset reference to DICOM dataset where the image attributes are stored
* @param mode determine value of BitsStored from 'used' or 'possible' pixel values
* @param planar flag, whether the output data (for multi-planar images) should be planar or not
*
** @return true if successful, false otherwise
*/
virtual int writeImageToDataset(DcmItem &dataset,
const int mode = 0,
const int planar = 2) = 0;
/** write pixel data to PPM file (abstract).
* pixel data is written in ASCII format.
*
** @param stream open C++ output stream
* @param frame index of frame used for output
* @param bits number of bits used for output of pixel data
*
** @return true if successful, false otherwise
*/
virtual int writePPM(STD_NAMESPACE ostream& stream,
const unsigned long frame,
const int bits) = 0;
/** write pixel data to PPM file (abstract).
* pixel data is written in ASCII format.
*
** @param stream open C output stream
* @param frame index of frame used for output
* @param bits number of bits used for output of pixel data
*
** @return true if successful, false otherwise
*/
virtual int writePPM(FILE *stream,
const unsigned long frame,
const int bits) = 0;
/** write pixel data to raw PPM file (abstract)
*
** @param stream open C output stream
* @param frame index of frame used for output
* @param bits number of bits used for output of pixel data
*
** @return true if successful, false otherwise
*/
virtual int writeRawPPM(FILE *stream,
const unsigned long frame,
const int bits) = 0;
/** write pixel data to BMP file
*
** @param stream open C output stream
* @param frame index of frame used for output (default: first frame = 0)
* @param bits number of bits used for output of pixel data (8, 24 or 32)
*
** @return true if successful, false otherwise
*/
virtual int writeBMP(FILE *stream,
const unsigned long frame,
const int bits);
protected:
/** constructor
*
** @param docu pointer to the DICOM document
* @param status status of the image object
*/
DiImage(const DiDocument *docu,
const EI_Status status);
/** constructor, copy
*
** @param image pointer to reference image
* @param fstart first frame to be processed
* @param fcount number of frames
*/
DiImage(const DiImage *image,
const unsigned long fstart,
const unsigned long fcount);
/** constructor, scale/clip
*
** @param image pointer to reference image
* @param width number of columns of the new image
* @param height number of rows of the new image
* @param aspect flag indicating whether pixel aspect ratio should be used or not
*/
DiImage(const DiImage *image,
const Uint16 width,
const Uint16 height,
const int aspect = 0);
/** constructor, rotate
*
** @param image pointer to reference image
* @param degree angle by which the image shall be rotated
*/
DiImage(const DiImage *image,
const int degree = 0);
/** constructor, createMonoOutput
*
** @param image pointer to reference image
* @param frame number of frame stored in the new image object
* @param stored number of bits stored
* @param alloc number of bits allocated
*/
DiImage(const DiImage *image,
const unsigned long frame,
const int stored,
const int alloc);
/** delete internally handled object for the input pixel data conversion
*/
void deleteInputData();
/** check and possibly correct values for pixel spacing, aspect ratio etc.
*/
void checkPixelExtension();
/** create input pixel data representation from DICOM dataset structures
*/
void convertPixelData();
/** update Image Pixel Module attributes in the given dataset.
* Removes smallest/largest pixel value and updates pixel aspect ratio as well
* as pixel spacing (if required).
* Used in writeXXXToDataset() routines.
*
** @param dataset reference to DICOM image dataset
*/
virtual void updateImagePixelModuleAttributes(DcmItem &dataset);
/** detach pixel data.
* removes storage area used for the pixel data from memory
*/
int detachPixelData();
/// copy of status variable declared in class 'DicomImage'
EI_Status ImageStatus;
/// points to special object, which encapsulates the dcmdata module
const DiDocument *Document;
/// first frame to be processed
Uint32 FirstFrame;
/// number of frames in case of multi-frame images (otherwise '1')
Uint32 NumberOfFrames;
/// total number of frames stored in the dataset
Uint32 TotalNumberOfFrames;
/// number of representative frame, type 3 attribute (default '0')
Uint32 RepresentativeFrame;
/// nominal time between individual frames (0 if absent)
double FrameTime;
/// number of rows (in pixel)
Uint16 Rows;
/// number of columns (in pixel)
Uint16 Columns;
/// width of each pixel according to 'PixelSpacing/AspectRatio'
double PixelWidth;
/// height of each pixel according to 'PixelSpacing/AspectRatio'
double PixelHeight;
/// number of bits allocated for each pixel
Uint16 BitsAllocated;
/// number of bits stored for each pixel (see 'BitsPerSample')
Uint16 BitsStored;
/// position of highest stored bit
Uint16 HighBit;
/// actual number of bits per sample (depth)
int BitsPerSample;
/// number of samples per pixel (1, 3 or 4)
int SamplesPerPixel;
/// polarity (normal or reverse)
EP_Polarity Polarity;
/// is 'true' if pixel data is signed
int hasSignedRepresentation;
/// is 'true' if attribute 'PixelSpacing' is present
int hasPixelSpacing;
/// is 'true' if attribute 'ImagerPixelSpacing' is present
int hasImagerPixelSpacing;
/// is 'true' if attribute 'hasNominalScannedPixelSpacing' is present
int hasNominalScannedPixelSpacing;
/// is 'true' if attribute 'PixelAspectRatio' is present
int hasPixelAspectRatio;
/// is 'false' if derived from original image data (e.g. scaled)
int isOriginal;
/// points to intermediate pixel representation (template object)
DiInputPixel *InputData;
/// file cache object used for partial read
DcmFileCache FileCache;
/// current pixel item fragment (for encapsulated pixel data)
Uint32 CurrentFragment;
// --- declarations to avoid compiler warnings
DiImage(const DiImage &);
DiImage &operator=(const DiImage &);
};
#endif
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