/usr/include/dcmtk/dcmimage/diqtctab.h is in libdcmtk-dev 3.6.1~20160216-4.
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*
* Copyright (C) 2002-2014, 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: dcmimage
*
* Author: Marco Eichelberg
*
* Purpose: class DcmQuantColorTable
*
*/
#ifndef DIQTCTAB_H
#define DIQTCTAB_H
#include "dcmtk/config/osconfig.h"
#include "dcmtk/ofstd/oftypes.h" /* for OFBool */
#include "dcmtk/ofstd/ofcond.h" /* for OFCondition */
#include "dcmtk/dcmimage/diqtpix.h" /* for DcmQuantPixel */
#include "dcmtk/dcmimage/diqthash.h" /* for DcmQuantHistogramItem */
#include "dcmtk/ofstd/ofstring.h" /* for class OFString */
class DicomImage;
class DcmItem;
/** this class implements a color table that can either be
* a look-up table or an image color histogram.
*/
class DCMTK_DCMIMAGE_EXPORT DcmQuantColorTable
{
public:
/// constructor
DcmQuantColorTable();
/// destructor
~DcmQuantColorTable();
/// resets the object to default-constructed state
void clear();
/** returns the number of colors in the color table
* @return number of colors in color table
*/
inline unsigned long getColors() const
{
return numColors;
}
/** creates a description string suitable for use as
* Derivation Description.
* @param str description string returned in this parameter
*/
void setDescriptionString(OFString& str) const;
/** creates a color table containing a histogram of the given
* image. Pixel sample values are downsampled if necessary
* to make sure the histogram fits into the given size limit.
* @param image color image for which a histogram is computed
* @param maxcolors maximum number of colors allowed in histogram.
* If necessary, pixel sample values are down-sampled to enforce
* this maximum.
* @return EC_Normal if successful, an error code otherwise.
*/
OFCondition computeHistogram(DicomImage& image, unsigned long maxcolors);
/** after a call to computeHistogram(), this method
* returns the maximum pixel value to which all color samples
* were down-sampled during computation of the histogram.
*/
inline unsigned long getMaxVal() const
{
return maxval;
}
/** returns the color at index idx.
* @param idx index, must be < getColors()
* @return const reference to color
*/
inline const DcmQuantPixel& getPixel(unsigned long idx) const
{
#ifdef DEBUG
assert(array && idx < numColors);
#endif
return *(array[idx]);
}
/** returns the red color component at index idx
* @param idx index, must be < getColors()
* @return red color component
*/
inline DcmQuantComponent getRed(unsigned long idx) const
{
#ifdef DEBUG
assert(array && idx < numColors);
#endif
return array[idx]->getRed();
}
/** returns the green color component at index idx
* @param idx index, must be < getColors()
* @return green color component
*/
inline DcmQuantComponent getGreen(unsigned long idx) const
{
#ifdef DEBUG
assert(array && idx < numColors);
#endif
return array[idx]->getGreen();
}
/** returns the blue color component at index idx
* @param idx index, must be < getColors()
* @return blue color component
*/
inline DcmQuantComponent getBlue(unsigned long idx) const
{
#ifdef DEBUG
assert(array && idx < numColors);
#endif
return array[idx]->getBlue();
}
/** computes a color LUT for the given image histogram.
* This median-cut colormap generator is based
* on Paul Heckbert's paper "Color Image Quantization for Frame Buffer
* Display", SIGGRAPH '82 Proceedings, page 297.
* @param histogram image color histogram
* @param sum number of pixels in image (colums * rows * frames)
* @param theMaxval maximum value to which pixels were
* downsampled for histogram computation
* @param numberOfColors desired number of colors in color LUT
* @param largeType algorithm used for determining the largest dimension
* in the Median Cut algorithm
* @param repType algorithm for choosing a representative color for each
* box in the Median Cut algorithm
* @return EC_Normal if successful, an error code otherwise.
*/
OFCondition medianCut(
DcmQuantColorTable& histogram,
unsigned long sum,
unsigned long theMaxval,
unsigned long numberOfColors,
DcmLargestDimensionType largeType,
DcmRepresentativeColorType repType);
/** determines for a given color the closest match in the color LUT.
* @param px color to look up in LUT
* @return index of closest match in LUT, -1 if look-up table empty
*/
inline int computeIndex(const DcmQuantPixel& px) const
{
int result = -1;
register int r2, g2, b2;
register long newdist;
register int r1 = OFstatic_cast(int, px.getRed());
register int g1 = OFstatic_cast(int, px.getGreen());
register int b1 = OFstatic_cast(int, px.getBlue());
register long dist = 2000000000;
for (unsigned long i = 0; i < numColors; ++i)
{
r2 = r1 - OFstatic_cast(int, array[i]->getRed());
g2 = g1 - OFstatic_cast(int, array[i]->getGreen());
b2 = b1 - OFstatic_cast(int, array[i]->getBlue());
newdist = r2*r2 + g2*g2 + b2*b2;
if (newdist < dist)
{
result = OFstatic_cast(int, i);
dist = newdist;
if (dist < array[i]->getValue()) i=numColors; // break out of for loop
}
}
return result;
}
/** writes the current color table into a DICOM object, encoded as
* Red/Green/Blue Palette Color Lookup Table and Data.
* @param target DICOM dataset to write to
* @param writeAsOW if true, LUT data is encoded as OW, otherwise LUT data
* is encoded as US. A LUT with 64k entries is always encoded as OW since
* a US data element with 64k entries cannot be written in explicit VR.
* @param write16BitEntries if true, LUT data is encoded with 16 bits per entry
* @return EC_Normal if successful, an error code otherwise.
*/
OFCondition write(
DcmItem& target,
OFBool writeAsOW,
OFBool write16BitEntries);
private:
/** after a call to medianCut(), this method computes for each entry in
* the color map the minimum of the euclidean distances to any other
* of the entries. Any color which has an euclidean distance of less
* than half of this distance is necessarily mapped to this entry.
* This data is used by computeIndex()
*/
void computeClusters();
/// private undefined copy constructor
DcmQuantColorTable(const DcmQuantColorTable& src);
/// private undefined copy assignment operator
DcmQuantColorTable& operator=(const DcmQuantColorTable& src);
/// color table data
DcmQuantHistogramItemPointer *array;
/// number of entries in color table
unsigned long numColors;
/** maximum pixel value to which all color samples
* were down-sampled during computation of the histogram.
*/
unsigned long maxval;
};
#endif
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