/usr/include/dcmtk/dcmimgle/didispfn.h is in libdcmtk-dev 3.6.1~20160216-4.
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*
* Copyright (C) 1998-2014, 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: DicomDisplayFunction (Header)
*
*/
#ifndef DIDISPFN_H
#define DIDISPFN_H
#include "dcmtk/config/osconfig.h"
#include "dcmtk/ofstd/oftypes.h"
#include "dcmtk/dcmimgle/didefine.h"
/*------------------------*
* forward declarations *
*------------------------*/
class DiDisplayLUT;
/*---------------------*
* macro definitions *
*---------------------*/
#define MAX_DISPLAY_FUNCTIONS 2
#define MAX_NUMBER_OF_TABLES 15
#define WIDTH_OF_PVALUES 16
/*---------------------*
* class declaration *
*---------------------*/
/** Class to handle hardcopy and softcopy device characteristics file
* and manage display LUTs (for calibration)
*/
class DCMTK_DCMIMGLE_EXPORT DiDisplayFunction
{
public:
/** output device type
*/
enum E_DeviceType
{
/// monitor (softcopy output device), values expected to be in luminance (cd/m^2)
EDT_Monitor,
/// camera (softcopy input device), values expected to be in luminance (cd/m^2)
EDT_Camera,
/// printer (hardcopy output device), values expected to be in optical density (OD)
EDT_Printer,
/// scanner (hardcopy input device), values expected to be in optical density (OD)
EDT_Scanner
};
/** constructor, read device characteristics file.
* Keywords: "max" for maximum DDL (digital driving level, required at first position)
* "amb" for ambient light and "lum" for illumination (both optional)
* "ord" for the order of the polynomial curve fitting algorithm used to interpolate
* the given base points (0 or absent = use cubic spline interpolation)
*
** @param filename name of the characteristics file (luminance/OD for each DDL)
* @param deviceType type of the output device (default: monitor)
* @param ord order of the polynomial curve fitting algorithm used to interpolate
* the given base points (-1 = use file setting, 0 = cubic spline)
*/
DiDisplayFunction(const char *filename,
const E_DeviceType deviceType = EDT_Monitor,
const signed int ord = -1);
/** constructor, use given array of luminance/OD values. UNTESTED
* Values must be sorted and complete (i.e. there must be an entry for each DDL).
* The given arrays are copied internally.
*
** @param val_tab pointer to array with luminance/OD values
* @param count number of array elements (should be equal to 'max + 1')
* @param max maximum DDL (digital driving level)
* @param deviceType type of the output device (default: monitor)
* @param ord order of the polynomial curve fitting algorithm used to interpolate
* the given base points (0 or negative = use cubic spline interpolation)
*/
DiDisplayFunction(const double *val_tab,
const unsigned long count,
const Uint16 max = 255,
const E_DeviceType deviceType = EDT_Monitor,
const signed int ord = 0);
/** constructor, use given array of DDL and luminance/OD values. UNTESTED
* Values will be automatically sorted and missing values will be interpolated.
* The given arrays are copied internally.
*
** @param ddl_tab pointer to array with DDL values (must be with the interval 0..max)
* @param val_tab pointer to array with luminance/OD values
* @param count number of array elements (2..65536)
* @param max maximum DDL (digital driving level)
* @param deviceType type of the output device (default: monitor)
* @param ord order of the polynomial curve fitting algorithm used to interpolate
* the given base points (0 or negative = use cubic spline interpolation)
*/
DiDisplayFunction(const Uint16 *ddl_tab,
const double *val_tab,
const unsigned long count,
const Uint16 max = 255,
const E_DeviceType deviceType = EDT_Monitor,
const signed int ord = 0);
/** constructor, compute luminance/OD values automatically within the specified range.
* Initial values for hardcopy: "lum" = 2000, "amb" = 10, for softcopy: "amb" = 0.
*
** @param val_min minimum luminance/OD value
* @param val_max maximum luminance/OD value
* @param count number of DDLs (digital driving level, 1..65536)
* @param deviceType type of the output device (default: monitor)
* @param ord order of the polynomial curve fitting algorithm used to interpolate
* the given base points (0 or negative = use cubic spline interpolation)
*/
DiDisplayFunction(const double val_min,
const double val_max,
const unsigned long count = 256,
const E_DeviceType deviceType = EDT_Monitor,
const signed int ord = 0);
/** destructor
*/
virtual ~DiDisplayFunction();
/** check whether DisplayFunction is valid
*
** @return status, true if valid, false otherwise
*/
inline int isValid() const
{
return Valid;
}
/** get output device type (monitor, camera, printer or scanner)
*
** @return output device type
*/
inline E_DeviceType getDeviceType() const
{
return DeviceType;
}
/** get maximum DDL value.
* The minimum DDL value is always 0.
*
** @return maximum DDL value
*/
inline Uint16 getMaxDDLValue() const
{
return MaxDDLValue;
}
/** get minimum luminance/OD value from the characteristic curve.
* In case of a usually monotonous characteristic curve the value is
* equivalent to the first/last entry of the array.
*
** @return minimum luminance/OD value, 0 in case of error
*/
inline double getMinValue() const
{
return MinValue;
}
/** get maximum luminance/OD value from the characteristic curve.
* In case of a usually monotonous characteristic curve the value is
* equivalent to the last/first entry of the array.
*
** @return maximum luminance/OD value, 0 in case of error
*/
inline double getMaxValue() const
{
return MaxValue;
}
/** get the luminance/OD value for a given DDL.
* Looks up a luminance/OD value in the device's characteristic curve.
* Please note that neither ambient light/illumination nor min/max
* density are used.
*
** @param ddl DDL (digital driving level) to be looked up
*
** @return luminance/OD value if successful, -1 otherwise
*/
double getValueforDDL(const Uint16 ddl) const;
/** get the DDL for a given luminance/OD value.
* Determines the DDL from the device's characteristic curve which is
* mapped to the closest possible luminance/OD value.
* Please note that neither ambient light/illumination nor min/max
* density are used.
*
** @param value luminance/OD value to be looked up
*
** @return DDL (digital driving level) if successful, 0 otherwise
*/
Uint16 getDDLforValue(const double value) const;
/** create look-up table with specified number of entries
*
** @param bits depth of input values
* @param count number of LUT entries (default: 0 = computed automatically)
*
** @return pointer to created LUT if successful, NULL otherwise
*/
const DiDisplayLUT *getLookupTable(const int bits,
unsigned long count = 0);
/** delete specified LUT
*
** @param bits depth of input values of the LUT to be deleted
*
** @return status, true if valid, false otherwise
*/
int deleteLookupTable(const int bits);
/** write curve data to a text file (abstract method)
*
** @param filename name of the text file to which the data should be written
* @param mode write CC and PSC to file if OFTrue
*
** @return status, true if successful, false otherwise
*/
virtual int writeCurveData(const char *filename,
const OFBool mode = OFTrue) = 0;
/** get (reflected) ambient light value.
* measured in cd/m^2.
*
** @return current ambient light value
*/
inline double getAmbientLightValue() const
{
return AmbientLight;
}
/** set (reflected) ambient light value.
* measured in cd/m^2. applicable to softcopy and hardcopy devices.
* typical values: 0.5-5 for softcopy devices, 10 for transmissive hardcopy
* printer and 0 for reflective hardcopy printers.
*
** @param value ambient light value to be set (>= 0)
*
** @return status, true if successful, false otherwise
*/
virtual int setAmbientLightValue(const double value);
/** get illumination value.
* measured in cd/m^2.
*
** @return current illumination value
*/
inline double getIlluminationValue() const
{
return Illumination;
}
/** set illumination value.
* measured in cd/m^2. applicable to hardcopy devices only.
* typical values: 2000 for transmissive hardcopy printer and 150 for
* reflective hardcopy printers.
*
** @param value illumination value to be set (>= 0)
*
** @return status, true if successful, false otherwise
*/
virtual int setIlluminationValue(const double value);
/** get minimum optical density value "Dmin".
* measured in optical density (OD).
*
** @return current Dmin value or -1 if not set
*/
inline double getMinDensityValue() const
{
return MinDensity;
}
/** set minimum optical density value "Dmin".
* measured in optical density (OD). applicable to printers only.
* typical value: 0.2
*
** @param value Dmin value to be set (or < 0 to unset)
*
** @return status, true if successful (1 = Dmin set, 2 = Dmin unset), false otherwise
*/
virtual int setMinDensityValue(const double value);
/** get maximum optical density value "Dmax".
* measured in optical density (OD).
*
** @return current Dmax value or -1 if not set
*/
inline double getMaxDensityValue() const
{
return MaxDensity;
}
/** set maximum optical density value "Dmax".
* measured in optical density (OD). applicable to printers only.
* typical value: 3.0
*
** @param value Dmax value to be set (or < 0 to unset)
*
** @return status, true if successful (1 = Dmax set, 2 = Dmax unset), false otherwise
*/
virtual int setMaxDensityValue(const double value);
/** get minimum luminance value "Lmin".
* measured in cd/m^2. value is computed from "Dmax".
*
** @return current Lmin value or -1 if Dmax not set
*/
double getMinLuminanceValue() const;
/** get maximum luminance value "Lmax".
* measured in cd/m^2. value is computed from "Dmin".
*
** @return current Lmax value or -1 if Dmin not set
*/
double getMaxLuminanceValue() const;
/** get order of the polynomial curve fitting algorithm.
* used to interpolate the given base points.
*
** @return polynomial order (0 = use cubic spline interpolation, -1 = not specified)
*/
inline signed int getPolynomialOrder() const
{
return Order;
}
/** convert the given OD value to luminance.
* This function uses the currently set ambient light and illumination values.
*
** @param value optical density value to be converted (>= 0)
* @param useAmb use ambient light value if OFTrue
*
** @return luminance value if successful, -1 otherwise
*/
double convertODtoLum(const double value,
const OFBool useAmb = OFTrue) const;
/** convert the given OD value to luminance.
* This function uses the specified ambient light and illumination values.
*
** @param value optical density value to be converted (>= 0)
* @param ambient ambient light value used for the conversion (>= 0)
* @param illum illumination value used for the conversion (>= 0)
*
** @return luminance value if successful, -1 otherwise
*/
static double convertODtoLum(const double value,
const double ambient,
const double illum);
protected:
/** create display LUT with specified number of entries (abstract method)
*
** @param count number of LUT entries
*
** @return pointer to created LUT if successful, NULL otherwise
*/
virtual DiDisplayLUT *getDisplayLUT(unsigned long count) = 0;
/** read the given device characteristics file
*
** @param filename name of the characteristics file
*
** @return status, true if successful, false otherwise
*/
int readConfigFile(const char *filename);
/** create a sorted (by DDL) table from the given DDL and luminance/OD tables
*
** @param ddl_tab pointer to array with DDL values
* @param val_tab pointer to array with luminance/OD values
*
** @return status, true if successful, false otherwise
*/
int createSortedTable(const Uint16 *ddl_tab,
const double *val_tab);
/** create a table with luminance values from the given OD table.
* Uses the currently set ambient light and illumination value. The resulting luminance
* table has to be deleted by the caller.
*
** @param od_tab pointer to array with optical density values
* @param count number of entries in the array
* @param useAmb use ambient light value if OFTrue
*
** @return pointer to luminance table if successful, NULL otherwise
*/
double *convertODtoLumTable(const double *od_tab,
const unsigned long count,
const OFBool useAmb);
/** interpolate device characteristic curve by means of a cubic spline interpolation
*/
int interpolateValues();
/** calculate minimum and maximum luminance/OD values
*
** @return status, true if successful, false otherwise
*/
int calculateMinMax();
/** check whether Dmin and Dmax are properly specified.
* report a warning message if "Dmin >= Dmax".
*
** @return status, true if successful, false otherwise
*/
int checkMinMaxDensity() const;
/// status flag, indicating whether display function is valid
int Valid;
/// output device type (monitor, camera, printer or scanner)
const E_DeviceType DeviceType;
/// number of DDL and luminance/OD values
unsigned long ValueCount;
/// maximum DDL value (usually 255)
Uint16 MaxDDLValue;
/// order of the polynomial curve fitting algorithm
signed int Order;
/// (reflected) ambient light value
double AmbientLight;
/// illumination value
double Illumination;
/// minimum optical density (-1 if unset)
double MinDensity;
/// maximum optical density (-1 if unset)
double MaxDensity;
/// pointer to array of DDL values
Uint16 *DDLValue;
/// pointer to array of corresponding luminance/OD values
double *LODValue;
/// minimum luminance/OD value
double MinValue;
/// maximum luminance/OD value
double MaxValue;
/// constant defining minimum value for number of bits for LUT input (here: 8)
static const int MinBits;
/// constant defining maximum value for number of bits for LUT input (here: 16)
static const int MaxBits;
/// array with pointer to the different lookup tables (here: 8-16 bits)
DiDisplayLUT *LookupTable[MAX_NUMBER_OF_TABLES];
private:
// --- declarations to avoid compiler warnings
DiDisplayFunction(const DiDisplayFunction &);
DiDisplayFunction &operator=(const DiDisplayFunction &);
};
#endif
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