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/*
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Copyright ( c ) 2008 - 2018 Jan W . Krieger ( < jan @ jkrieger . de > )
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This software is free software : you can redistribute it and / or modify
it under the terms of the GNU Lesser General Public License ( LGPL ) as published by
the Free Software Foundation , either version 2 of the License , or
( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU Lesser General Public License ( LGPL ) for more details .
You should have received a copy of the GNU Lesser General Public License ( LGPL )
along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# ifndef JKQTPIMAGETOOLS_H
# define JKQTPIMAGETOOLS_H
# include <QIcon>
# include <QDebug>
# include <QImage>
# include <QComboBox>
# include <QStringList>
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# include "jkqtplottertools/jkqtp_imexport.h"
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# include <cmath>
# include <cfloat>
# include <stdint.h>
# include <QColor>
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# include "jkqtplottertools/jkqtptools.h"
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# ifndef NO_JKQTPLOTTER
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# include "jkqtplottertools/jkqtptools.h"
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class JKQTPverticalIndependentAxis ; // forward
class JKQTPhorizontalIndependentAxis ; // forward
class JKQtBasePlotter ; // forward
# endif
/*! \brief available palettes for coloring an image
\ ingroup jkqtplotter_imagelots
*/
enum JKQTPMathImageColorPalette {
JKQTPMathImageGRAY = 0 , /*!< \image html GRAY.png */
JKQTPMathImageINVERTEDGRAY , /*!< \image html GRAY.png */
JKQTPMathImageRED , /*!< \image html RED.png */
JKQTPMathImageINVERTEDRED , /*!< \image html RED.png */
JKQTPMathImageGREEN , /*!< \image html GREEN.png */
JKQTPMathImageINVERTEDGREEN , /*!< \image html GREEN.png */
JKQTPMathImageBLUE , /*!< \image html BLUE.png */
JKQTPMathImageINVERTEDBLUE , /*!< \image html BLUE.png */
JKQTPMathImageCYAN , /*!< \image html CYAN.png */
JKQTPMathImageINVERTED_CYAN , /*!< \image html INVERTED_CYAN.png */
JKQTPMathImageYELLOW , /*!< \image html CYAN.png */
JKQTPMathImageINVERTED_YELLOW , /*!< \image html INVERTED_CYAN.png */
JKQTPMathImageMAGENTA , /*!< \image html CYAN.png */
JKQTPMathImageINVERTED_MAGENTA , /*!< \image html INVERTED_CYAN.png */
JKQTPMathImageMATLAB , /*!< \image html MATLAB.png */
JKQTPMathImageINVERTED_MATLAB , /*!< \image html INVERTED_MATLAB.png */
JKQTPMathImageRYGB , /*!< \image html RYGB.png */
JKQTPMathImageINVERTED_RYGB , /*!< \image html INVERTED_RYGB.png */
JKQTPMathImageHSV , /*!< \image html HSV.png */
JKQTPMathImageINVERTED_HSV , /*!< \image html INVERTED_HSV.png */
JKQTPMathImageRAINBOW , /*!< \image html RAINBOW.png */
JKQTPMathImageINVERTED_RAINBOW , /*!< \image html INVERTED_RAINBOW.png */
JKQTPMathImageHOT , /*!< \image html HOT.png */
JKQTPMathImageINVERTED_HOT , /*!< \image html INVERTED_HOT.png */
JKQTPMathImageOCEAN , /*!< \image html OCEAN.png */
JKQTPMathImageINVERTED_OCEAN , /*!< \image html INVERTED_OCEAN.png */
JKQTPMathImageTRAFFICLIGHT , /*!< \image html TRAFFICLIGHT.png */
JKQTPMathImageINVERTED_TRAFFICLIGHT , /*!< \image html INVERTED_TRAFFICLIGHT.png */
JKQTPMathImageBLUEMAGENTAYELLOW , /*!< \image html BLUEMAGENTAYELLOW.png */
JKQTPMathImageINVERTED_BLUEMAGENTAYELLOW , /*!< \image html INVERTED_BLUEMAGENTAYELLOW.png */
JKQTPMathImageBLUEYELLOW , /*!< \image html BLUEYELLOW.png */
JKQTPMathImageINVERTED_BLUEYELLOW , /*!< \image html INVERTED_BLUEYELLOW.png */
JKQTPMathImageBLUEWHITERED ,
JKQTPMathImageREDWHITEBLUE ,
JKQTPMathImageBLACKBLUEREDYELLOW ,
JKQTPMathImageGREENREDVIOLET ,
JKQTPMathImageBLACKBLUEVIOLETYELLOWWHITE ,
JKQTPMathImageWHITEYELLOWVIOLETBLUEBLACK ,
JKQTPMathImageBR_GR ,
JKQTPMathImagePU_OR ,
JKQTPMathImageGN_BU ,
JKQTPMathImageBU_GN ,
JKQTPMathImageYL_GN_BU ,
JKQTPMathImageBR_GR_STEP ,
JKQTPMathImagePU_OR_STEP ,
JKQTPMathImageGN_BU_STEP ,
JKQTPMathImageBU_GN_STEP ,
JKQTPMathImageYL_GN_BU_STEP ,
JKQTPMathImageCYANWHITE ,
JKQTPMathImageINVERTED_CYANWHITE ,
JKQTPMathImageYELLOWWHITE ,
JKQTPMathImageINVERTED_YELLOWWHITE ,
JKQTPMathImageMAGENTAWHITE ,
JKQTPMathImageINVERTED_MAGENTAWHITE ,
JKQTPMathImageBlueGreenRed ,
JKQTPMathImageRedGreenBlue ,
JKQTPMathImagePREDEFINED_PALETTES_COUNT ,
JKQTPMathImageUSER_PALETTE = 65000 ,
JKQTPMathImageALPHA = JKQTPMathImageUSER_PALETTE - 2 ,
JKQTPMathImageINVERTED_ALPHA = JKQTPMathImageUSER_PALETTE - 1
} ;
/*! \brief class to plot an image from an 2-dimensional array of values
\ ingroup jkqtplotter_imagelots
*/
class LIB_EXPORT JKQTPMathImageColorPaletteComboBox : public QComboBox {
Q_OBJECT
public :
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JKQTPMathImageColorPaletteComboBox ( QWidget * parent = nullptr ) ;
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JKQTPMathImageColorPalette colorPalette ( ) const ;
JKQTPMathImageColorPalette currentColorPalette ( ) const ;
JKQTPMathImageColorPalette getColorPalette ( ) const ;
void setColorPalette ( JKQTPMathImageColorPalette palette ) ;
void setCurrentColorPalette ( JKQTPMathImageColorPalette palette ) ;
signals :
void currentPaletteChanged ( JKQTPMathImageColorPalette palette ) ;
protected slots :
void intIndexChanged ( int i ) ;
} ;
/*! \brief modes available for image pixels that are above/below the pixel value range
\ ingroup jkqtplotter_imagelots
*/
enum JKQTPMathImageColorRangeFailAction {
JKQTPMathImageLastPaletteColor = 0 , /*!< set to last color in the palette */
JKQTPMathImageGivenColor = 1 , /*!< set to the provided min/max color */
JKQTPMathImageTransparent = 2 /*!< set transparent */
} ;
/*! \brief modes available for RGB images
\ ingroup jkqtplotter_imagelots
*/
enum JKQTPRGBMathImageRGBMode {
JKQTPRGBMathImageModeRGBMode = 0 ,
JKQTPRGBMathImageModeHSVMode = 1 ,
JKQTPRGBMathImageModeHSLMode = 2 ,
JKQTPRGBMathImageModeCMYMode = 3
} ;
/*! \brief returns a vector containing all elements of the given array
\ ingroup jkqtplotter_imagelots
*/
template < class T >
inline QVector < T > JKQTPimagePlot_arrayToVector ( const T * input , long long N ) {
if ( ! input | | N < = 0 ) return QVector < double > ( ) ;
T dummy ;
QVector < T > out ( N , dummy ) ;
memcpy ( out . data ( ) , input , N * sizeof ( T ) ) ;
return out ;
}
/*! \brief returns a vector containing all elements of the given array as doubles
\ ingroup jkqtplotter_imagelots
*/
template < class T >
inline QVector < double > JKQTPimagePlot_arrayToDVector ( const T * input , int N ) {
if ( ! input | | N < = 0 ) return QVector < double > ( ) ;
QVector < double > out ( N , 0.0 ) ;
for ( int i = 0 ; i < N ; i + + ) {
out [ i ] = input [ i ] ;
}
return out ;
}
/*! \brief returns a vector containing all elements of the given boolean array as doubles (true=1, false=0)
\ ingroup jkqtplotter_imagelots
*/
inline QVector < double > JKQTPimagePlot_BarrayToDVector ( const bool * input , int N ) {
if ( ! input | | N < = 0 ) return QVector < double > ( ) ;
QVector < double > out ( N , 0.0 ) ;
for ( int i = 0 ; i < N ; i + + ) {
if ( input [ i ] ) out [ i ] = 1.0 ;
}
return out ;
}
/*! \brief fin the minimum pixel value in the given image \a dbl with width \a width and height \a height
\ ingroup jkqtplotter_imagelots
*/
template < class T >
inline double JKQTPimagePlot_getImageMin ( T * dbl , int width , int height )
{
if ( ! dbl | | width < = 0 | | height < = 0 )
return 0 ;
double min = 0 ;
double max = 0 ;
bool first = true ;
for ( int i = 1 ; i < width * height ; + + i )
{
register T v = dbl [ i ] ;
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if ( ! ( std : : isnan ( static_cast < long double > ( v ) ) | | std : : isinf ( static_cast < long double > ( v ) ) ) ) {
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if ( first ) {
min = max = v ;
first = false ;
} else {
if ( v < min )
min = v ;
else if ( v > max )
max = v ;
}
}
}
return min ;
} ;
/*! \brief fin the maximum pixel value in the given image \a dbl with width \a width and height \a height
\ ingroup jkqtplotter_imagelots
*/
template < class T >
inline double JKQTPimagePlot_getImageMax ( T * dbl , int width , int height )
{
if ( ! dbl | | width < = 0 | | height < = 0 )
return 0 ;
double min = 0 ;
double max = 0 ;
bool first = true ;
for ( int i = 1 ; i < width * height ; + + i )
{
register T v = dbl [ i ] ;
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if ( ! ( std : : isnan ( static_cast < long double > ( v ) ) | | std : : isinf ( static_cast < long double > ( v ) ) ) ) {
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if ( first ) {
min = max = v ;
first = false ;
} else {
if ( v < min )
min = v ;
else if ( v > max )
max = v ;
}
}
}
return max ;
} ;
/*! \brief convert a 2D image (as 1D array) into a QImage and puts the image values into one color channel (set by \a channel).The other color channels are not changed! So a repeated call to this function for the SAME QImage will
result in a step - by - step buildup of an image .
\ ingroup jkqtplotter_imagelots
\ note All calls ( except channel > = 3 , i . e . alpha ) set alpha to 255. Only the call
with channel = = 3 ( alpha ) sets alpha to the desired value . Calls with channel = = 4 ( saturation ) , channel = = 5 ( value )
leave alpha as it is .
*/
template < class T >
inline void JKQTPimagePlot_array2RGBimage ( T * dbl_in , int width , int height , QImage & img , int channel , T minColor , T maxColor , JKQTPRGBMathImageRGBMode rgbMode = JKQTPRGBMathImageModeRGBMode , bool logScale = false , double logBase = 10.0 )
{
if ( ! dbl_in | | width < = 0 | | height < = 0 )
return ;
double min = * dbl_in ;
double max = * dbl_in ;
bool first = true ;
if ( minColor = = maxColor ) {
for ( int i = 1 ; i < width * height ; + + i )
{
register T v = dbl_in [ i ] ;
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if ( std : : isfinite ( static_cast < long double > ( v ) ) ) {
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if ( first ) {
min = max = v ;
first = false ;
} else {
if ( v < min )
min = v ;
else if ( v > max )
max = v ;
}
}
}
} else {
min = minColor ;
max = maxColor ;
}
T * dbl = dbl_in ;
if ( logScale ) {
double logB = log10 ( logBase ) ;
dbl = ( T * ) malloc ( width * height * sizeof ( T ) ) ;
//memcpy(dbl, dbl_in, width*height*sizeof(T));
for ( int i = 0 ; i < width * height ; i + + ) {
dbl [ i ] = log10 ( dbl_in [ i ] ) / logB ;
}
min = log10 ( min ) / logB ;
max = log10 ( max ) / logB ;
}
double delta = max - min ;
if ( min ! = max ) {
if ( rgbMode = = JKQTPRGBMathImageModeRGBMode ) {
//qDebug()<<"RGBMode";
if ( channel = = 0 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = trunc ( double ( dbl [ j * width + i ] - min ) * 255.0 / delta ) ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"r: "<<v<<qGreen(l)<<qBlue(l)<<qAlpha(255);
line [ i ] = qRgb ( v , qGreen ( l ) , qBlue ( l ) ) ;
}
}
} else if ( channel = = 1 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"g: "<<qRed(l)<<v<<qBlue(l)<<qAlpha(255);
line [ i ] = qRgb ( qRed ( l ) , v , qBlue ( l ) ) ;
}
}
} else if ( channel = = 2 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"b: "<<qRed(l)<<qGreen(l)<<v<<qAlpha(255);
line [ i ] = qRgb ( qRed ( l ) , qGreen ( l ) , v ) ;
}
}
}
} else if ( rgbMode = = JKQTPRGBMathImageModeCMYMode ) {
//qDebug()<<"RGBMode";
if ( channel = = 0 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = trunc ( double ( dbl [ j * width + i ] - min ) * 255.0 / delta ) ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"r: "<<v<<qGreen(l)<<qBlue(l)<<qAlpha(255);
line [ i ] = QColor : : fromCmyk ( v , QColor ( l ) . magenta ( ) , QColor ( l ) . yellow ( ) , QColor ( l ) . black ( ) ) . rgba ( ) ;
}
}
} else if ( channel = = 1 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"g: "<<qRed(l)<<v<<qBlue(l)<<qAlpha(255);
line [ i ] = QColor : : fromCmyk ( QColor ( l ) . cyan ( ) , v , QColor ( l ) . yellow ( ) , QColor ( l ) . black ( ) ) . rgba ( ) ;
}
}
} else if ( channel = = 2 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
//if (j==5) qDebug()<<"b: "<<qRed(l)<<qGreen(l)<<v<<qAlpha(255);
line [ i ] = QColor : : fromCmyk ( QColor ( l ) . cyan ( ) , QColor ( l ) . magenta ( ) , v , QColor ( l ) . black ( ) ) . rgba ( ) ;
}
}
}
} else if ( rgbMode = = JKQTPRGBMathImageModeHSVMode ) {
if ( channel = = 0 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = trunc ( double ( dbl [ j * width + i ] - min ) * 220.0 / delta ) ;
v = ( v < 0 ) ? 0 : ( ( v > 360 ) ? 360 : v ) ;
QColor l = QColor : : fromRgb ( line [ i ] ) ;
//if (i<10 && j==5) qDebug()<<"hi: "<<l.name()<<dbl[j*width+i]<<min<<max;
l . setHsv ( v , l . saturation ( ) , l . value ( ) ) ;
//if (i<10 && j==5) qDebug()<<"ho: "<<l.name();
line [ i ] = l . rgb ( ) ;
}
}
} else if ( channel = = 1 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor l = QColor : : fromRgb ( line [ i ] ) ;
//if (i<10 && j==5) qDebug()<<"si: "<<l.name()<<dbl[j*width+i]<<min<<max;
l . setHsv ( l . hue ( ) , v , l . value ( ) ) ;
//if (i<10 && j==5) qDebug()<<"so: "<<l.name();
line [ i ] = l . rgb ( ) ;
}
}
} else if ( channel = = 2 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor l = QColor : : fromRgb ( line [ i ] ) ;
//if (i<10 && j==5) qDebug()<<"vi: "<<l.name()<<dbl[j*width+i]<<min<<max;
l . setHsv ( l . hue ( ) , l . saturation ( ) , v ) ;
//if (i<10 && j==5) qDebug()<<"vo: "<<l.name();
line [ i ] = l . rgb ( ) ;
}
}
}
} else if ( rgbMode = = JKQTPRGBMathImageModeHSLMode ) {
if ( channel = = 0 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = trunc ( double ( dbl [ j * width + i ] - min ) * 255.0 / delta ) ;
v = ( v < 0 ) ? 0 : ( ( v > 360 ) ? 360 : v ) ;
QColor l = line [ i ] ;
l . setHsl ( v , l . saturation ( ) , l . lightness ( ) ) ;
line [ i ] = l . rgb ( ) ;
}
}
} else if ( channel = = 1 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor l = line [ i ] ;
l . setHsl ( l . hue ( ) , v , l . lightness ( ) ) ;
line [ i ] = l . rgb ( ) ;
}
}
} else if ( channel = = 2 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor l = line [ i ] ;
l . setHsl ( l . hue ( ) , l . saturation ( ) , v ) ;
line [ i ] = l . rgb ( ) ;
}
}
}
}
if ( channel = = 3 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
const register QRgb l = line [ i ] ;
line [ i ] = qRgba ( qRed ( l ) , qGreen ( l ) , qBlue ( l ) , v ) ;
}
}
} else if ( channel = = 4 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor c = QColor : : fromRgba ( line [ i ] ) ;
c . setHsv ( c . hue ( ) , v , c . value ( ) , c . alpha ( ) ) ;
line [ i ] = c . rgba ( ) ;
}
}
} else if ( channel = = 5 ) {
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
int v = ( dbl [ j * width + i ] - min ) * 255 / delta ;
v = ( v < 0 ) ? 0 : ( ( v > 255 ) ? 255 : v ) ;
QColor c = QColor : : fromRgba ( line [ i ] ) ;
c . setHsv ( c . hue ( ) , c . saturation ( ) , v , c . alpha ( ) ) ;
line [ i ] = c . rgba ( ) ;
}
}
}
}
if ( logScale ) free ( dbl ) ;
}
template < typename T >
inline QList < T > JKQTPimagePlot_makeQList ( const T & defaultVal , int N = 1 ) {
QList < T > l ;
for ( int i = 0 ; i < N ; i + + ) l < < defaultVal ;
return l ;
}
/*! \brief size of the lookup tables used by JKQTFPimagePlot_array2image()
\ ingroup jkqtplotter_imagelots
*/
# define JKQTPimagePlot_LUTSIZE 256
void LIB_EXPORT JKQTPimagePlot_buildDefinedPaletteLinInterpolate ( int * lut , QList < QPair < double , QRgb > > items , int lut_size = JKQTPimagePlot_LUTSIZE ) ;
void LIB_EXPORT JKQTPimagePlot_buildDefinedPaletteLinInterpolate ( int * lut , int N , . . . ) ;
void LIB_EXPORT JKQTPimagePlot_buildDefinedPalette ( int * lut , QList < QPair < double , QRgb > > items ) ;
void LIB_EXPORT JKQTPimagePlot_buildDefinedPalette ( int * lut , int N , . . . ) ;
QStringList LIB_EXPORT JKQTPimagePlot_getPredefinedPalettes ( ) ;
int * LIB_EXPORT JKQTPimagePlot_getCreateLUT ( QList < int * > & lutstore , JKQTPMathImageColorPalette palette ) ;
void LIB_EXPORT JKQTPimagePlot_freeLUTs ( QList < int * > & lutstore ) ;
extern LIB_EXPORT QList < int * > global_jkqtpimagetools_lutstore ;
/*! \brief convert a 2D image (as 1D array) into a QImage with given palette (see JKQTFPColorPalette)
\ ingroup jkqtplotter_imagelots
This method uses lookup tables which are saved as static variables to convert the 2 D array into
an image . The luts are only created once , and stored then , so mor CPU time is saved . The precompiler define
JKQTPimagePlot_LUTSIZE sets the size of the LUTs . Note that if you don ' t use a specific color palette ,
the according LUT won ' t be calculated and stored !
\ param dbl pointer to a 1 D array of template type \ c T representing the image to plot . This array has to be of size \ a width * \ a height
\ param width width of the array in \ a dbl
\ param height height of the array in \ a dbl
\ param [ out ] im the QImage object to draw to ( should be initialized as \ c QImage : : Format_ARGB32 )
\ param palette the color palette to use for the display
\ param minColor lower boundary of color range in \ a dbl pixels , if \ a minColor = = \ a maxColor then this function will extract the image min and image max .
\ param maxColor upper boundary of color range in \ a dbl pixels , if \ a minColor = = \ a maxColor then this function will extract the image min and image max .
\ param paletteMinFail specifies what shell happen , when a value in \ a dbl is below \ a minColor
\ param paletteMaxFail specifies what shell happen , when a value in \ a dbl is above \ a maxColor
\ param minFailColor color to use for pixels that are below \ a minColor for some settings of \ a paletteMinFail
\ param maxFailColor color to use for pixels that are below \ a maxColor for some settings of \ a paletteMaxFail
\ param nanColor color to use for pixels that are not - a - number
\ param infColor color to use for pixels that are infinity
*/
template < class T >
inline void JKQTPimagePlot_array2image ( T * dbl_in , int width , int height , QImage & img , JKQTPMathImageColorPalette palette , T minColor , T maxColor , JKQTPMathImageColorRangeFailAction paletteMinFail = JKQTPMathImageLastPaletteColor , JKQTPMathImageColorRangeFailAction paletteMaxFail = JKQTPMathImageLastPaletteColor , QColor minFailColor = QColor ( " black " ) , QColor maxFailColor = QColor ( " black " ) , QColor nanColor = QColor ( " black " ) , QColor infColor = QColor ( " black " ) , bool logScale = false , double logBase = 10.0 , int * lutUser = 0 , int lutUserSize = 0 )
{
if ( ! dbl_in | | width < = 0 | | height < = 0 )
return ;
double min = * dbl_in ;
double max = * dbl_in ;
if ( minColor = = maxColor ) {
bool first = true ;
for ( int i = 1 ; i < width * height ; + + i )
{
register T v = dbl_in [ i ] ;
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if ( ! ( std : : isnan ( static_cast < long double > ( v ) ) | | std : : isinf ( static_cast < long double > ( v ) ) ) ) {
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if ( first ) {
min = max = v ;
first = false ;
} else {
if ( v < min )
min = v ;
else if ( v > max )
max = v ;
}
}
}
} else {
min = minColor ;
max = maxColor ;
}
T * dbl = dbl_in ;
if ( logScale ) {
double logB = log10 ( logBase ) ;
dbl = ( T * ) malloc ( width * height * sizeof ( T ) ) ;
//memcpy(dbl, dbl_in, width*height*sizeof(T));
for ( int i = 0 ; i < width * height ; i + + ) {
dbl [ i ] = log10 ( dbl_in [ i ] ) / logB ;
}
min = log10 ( min ) / logB ;
max = log10 ( max ) / logB ;
}
double delta = max - min ;
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int * lut_used = nullptr ;
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int lutSize = JKQTPimagePlot_LUTSIZE ;
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if ( global_jkqtpimagetools_lutstore . size ( ) < = 0 ) global_jkqtpimagetools_lutstore = JKQTPimagePlot_makeQList < int * > ( nullptr , JKQTPimagePlot_getPredefinedPalettes ( ) . size ( ) + 2 ) ;
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img = QImage ( width , height , QImage : : Format_ARGB32 ) ;
if ( min = = max )
img . fill ( 0 ) ;
else
{
if ( palette = = JKQTPMathImageUSER_PALETTE ) {
lut_used = lutUser ;
lutSize = lutUserSize ;
//qDebug()<<"user palette "<<lutUser<<lutUserSize;
} else {
lut_used = JKQTPimagePlot_getCreateLUT ( global_jkqtpimagetools_lutstore , palette ) ;
}
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if ( lut_used ! = nullptr & & lutSize > 0 ) {
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// LUT found: collor the image accordingly
for ( register int j = 0 ; j < height ; + + j ) {
QRgb * line = ( QRgb * ) ( img . scanLine ( height - 1 - j ) ) ;
for ( register int i = 0 ; i < width ; + + i ) {
register double val = dbl [ j * width + i ] ;
if ( std : : isnan ( val ) ) {
line [ i ] = nanColor . rgba ( ) ;
} else if ( std : : isinf ( val ) ) {
line [ i ] = infColor . rgba ( ) ;
} else {
register int v = ( val - min ) / delta * lutSize ;
register int vv = ( v < 0 ) ? 0 : ( ( v > lutSize ) ? ( lutSize ) : v ) ;
line [ i ] = lut_used [ vv ] ;
if ( ( v < 0 ) & & ( paletteMinFail = = JKQTPMathImageGivenColor ) ) {
line [ i ] = minFailColor . rgba ( ) ;
} else if ( ( v > lutSize ) & & ( paletteMaxFail = = JKQTPMathImageGivenColor ) ) {
line [ i ] = maxFailColor . rgba ( ) ;
} else if ( ( v < 0 ) & & ( paletteMinFail = = JKQTPMathImageTransparent ) ) {
line [ i ] = QColor ( Qt : : transparent ) . rgba ( ) ;
} else if ( ( v > lutSize ) & & ( paletteMaxFail = = JKQTPMathImageTransparent ) ) {
line [ i ] = QColor ( Qt : : transparent ) . rgba ( ) ;
}
}
}
}
} else {
// no LUT found: paint a black image!
img . fill ( 0 ) ;
}
}
if ( logScale ) free ( dbl ) ;
} ;
template < class T >
inline void JKQTPimagePlot_array2image ( T * dbl_in , int width , int height , QImage & img , int * lutUser , int lutUserSize , T minColor , T maxColor , JKQTPMathImageColorRangeFailAction paletteMinFail = JKQTPMathImageLastPaletteColor , JKQTPMathImageColorRangeFailAction paletteMaxFail = JKQTPMathImageLastPaletteColor , QColor minFailColor = QColor ( " black " ) , QColor maxFailColor = QColor ( " black " ) , QColor nanColor = QColor ( " black " ) , QColor infColor = QColor ( " black " ) , bool logScale = false , double logBase = 10.0 )
{
JKQTPimagePlot_array2image ( dbl_in , width , height , img , JKQTPMathImageUSER_PALETTE , minColor , maxColor , paletteMinFail , paletteMaxFail , minFailColor , maxFailColor , nanColor , infColor , logScale , logBase , lutUser , lutUserSize ) ;
}
QImage LIB_EXPORT JKQTPMathImageGetPaletteImage ( int i , int width ) ;
QImage LIB_EXPORT JKQTPMathImageGetPaletteImage ( int i , int width , int height ) ;
QImage LIB_EXPORT JKQTPMathImageGetPaletteImage ( JKQTPMathImageColorPalette palette , int width ) ;
QImage LIB_EXPORT JKQTPMathImageGetPaletteImage ( JKQTPMathImageColorPalette palette , int width , int height ) ;
QImage LIB_EXPORT JKQTPMathImageGetPaletteImage ( int * lut , int lut_size , int width ) ;
QImage LIB_EXPORT JKQTPMathImageGetAlphaPaletteImage ( int * lut , int lut_size , int width , int height ) ;
QIcon LIB_EXPORT JKQTPMathImageGetPaletteIcon ( int i ) ;
QIcon LIB_EXPORT JKQTPMathImageGetPaletteIcon ( JKQTPMathImageColorPalette palette ) ;
# ifndef NO_JKQTPLOTTER
/*! \brief if a class is derived from this class, it may use color bars
\ ingroup jkqtplotter_imagelots
*/
class LIB_EXPORT JKQTPColorPaletteTools {
public :
JKQTPColorPaletteTools ( JKQtBasePlotter * parent ) ;
virtual ~ JKQTPColorPaletteTools ( ) ;
/*! \brief get list with all available palettes */
static QStringList getPalettes ( ) ;
/*! \brief get list with all available palettes */
static int getPalettesCount ( ) ;
/*! \brief get QIcon representing the given palette */
static QIcon getPaletteIcon ( int i ) ;
/*! \brief get QIcon representing the given palette */
static QIcon getPaletteIcon ( JKQTPMathImageColorPalette palette ) ;
/*! \brief get QIcon representing the given palette */
static QImage getPaletteImage ( int i , int width ) ;
/*! \brief get QIcon representing the given palette */
static QImage getPaletteImage ( JKQTPMathImageColorPalette palette , int width ) ;
/*! \brief get QIcon representing the given palette */
static QIcon getPaletteKeyIcon ( int i ) ;
/*! \brief get QIcon representing the given palette */
static QIcon getPaletteKeyIcon ( JKQTPMathImageColorPalette palette ) ;
/*! \brief get QIcon representing the given palette */
static QImage getPaletteKeyImage ( int i , int width , int height ) ;
/*! \brief get QIcon representing the given palette */
static QImage getPaletteKeyImage ( JKQTPMathImageColorPalette palette , int width , int height ) ;
void set_palette ( int pal ) ;
/*! \brief if the graph plots outside the actual plot field of view (e.g. color bars, scale bars, ...)
\ note If you want to draw outside , then you ' ll also have to implement drawOutside ( )
*/
void cbGetOutsideSize ( JKQTPEnhancedPainter & painter , int & leftSpace , int & rightSpace , int & topSpace , int & bottomSpace ) ;
/*! \brief plots outside the actual plot field of view (e.g. color bars, scale bars, ...)
\ note If you want to draw outside , then you ' ll also have to implement getOutsideSize ( ) , so enough space is reserved
The four value supplied tell the method where to draw ( inside one of the rectangles ) .
*/
void cbDrawOutside ( JKQTPEnhancedPainter & painter , QRect leftSpace , QRect rightSpace , QRect topSpace , QRect bottomSpace ) ;
void cbSetParent ( JKQtBasePlotter * parent ) ;
/** \brief determine min/max data value of the image */
virtual void cbGetDataMinMax ( double & imin , double & imax ) = 0 ;
virtual double getInternalDataMin ( ) const ;
virtual double getInternalDataMax ( ) const ;
protected :
JKQtBasePlotter * cbParent ;
/** \brief top color bar visible */
bool colorBarTopVisible ;
/** \brief right color bar visible */
bool colorBarRightVisible ;
/** \brief name of the image displayed above color bar (may contain LaTeX markup!) */
QString imageName ;
/** \brief font name when displaying imageName */
QString imageNameFontName ;
/** \brief font size in points when displaying imageName */
double imageNameFontSize ;
/** \brief palette for plotting an image */
JKQTPMathImageColorPalette palette ;
/** \brief indicate whether to display a color bar */
bool showColorBar ;
/** \brief width of the color bar */
int colorBarWidth ;
/** \brief height of the color bar, as multiple of plotHeight */
double colorBarRelativeHeight ;
/** \brief indicates whether to estimate min/max of the image automatically */
bool autoImageRange ;
/** \brief image value range minimum */
double imageMin ;
/** \brief image value range maximum */
double imageMax ;
/** \brief offset between outside space border and color bar */
int colorBarOffset ;
/** \brief which action to take if a color is below \a imageMin and \a autoImageRange \c ==false */
JKQTPMathImageColorRangeFailAction rangeMinFailAction ;
/** \brief which action to take if a color is above \a imageMax and \a autoImageRange \c ==false */
JKQTPMathImageColorRangeFailAction rangeMaxFailAction ;
/** \brief color to use for some settings of \a rangeMinFailAction */
QColor rangeMinFailColor ;
/** \brief color to use for some settings of \a rangeMaxFailAction */
QColor rangeMaxFailColor ;
/** \brief color to use for a not-a-number value */
QColor nanColor ;
/** \brief color to use for an infinity value */
QColor infColor ;
/** \brief object used for color bar axes
*
* \ note this axis has some kind of a special role . It is used to format color bar axes
*/
JKQTPverticalIndependentAxis * colorBarRightAxis ;
JKQTPhorizontalIndependentAxis * colorBarTopAxis ;
public :
JKQTPGET_SET_MACRO ( JKQTPMathImageColorPalette , palette )
JKQTPGET_SET_MACRO ( JKQTPMathImageColorRangeFailAction , rangeMinFailAction )
JKQTPGET_SET_MACRO ( JKQTPMathImageColorRangeFailAction , rangeMaxFailAction )
JKQTPGET_SET_MACRO ( QColor , rangeMinFailColor )
JKQTPGET_SET_MACRO ( QColor , rangeMaxFailColor )
JKQTPGET_SET_MACRO ( QColor , nanColor )
JKQTPGET_SET_MACRO ( QColor , infColor )
JKQTPGET_SET_MACRO ( bool , showColorBar )
JKQTPGET_SET_MACRO ( int , colorBarWidth )
JKQTPGET_SET_MACRO ( int , colorBarOffset )
JKQTPGET_SET_MACRO ( double , colorBarRelativeHeight )
JKQTPGET_SET_MACRO ( double , imageMin )
JKQTPGET_SET_MACRO ( double , imageMax )
JKQTPGET_SET_MACRO ( bool , autoImageRange )
JKQTPGET_SET_MACRO ( QString , imageName )
JKQTPGET_SET_MACRO ( QString , imageNameFontName )
JKQTPGET_SET_MACRO ( double , imageNameFontSize )
JKQTPGET_MACRO ( JKQTPverticalIndependentAxis * , colorBarRightAxis )
JKQTPGET_MACRO ( JKQTPhorizontalIndependentAxis * , colorBarTopAxis )
JKQTPGET_SET_MACRO ( bool , colorBarTopVisible )
JKQTPGET_SET_MACRO ( bool , colorBarRightVisible )
} ;
# endif
# endif // JKQTPIMAGETOOLS_H