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android / platform / external / ImageMagick / refs/heads/main / . / MagickCore / gem-private.h
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/*
Copyright 1999-2021 ImageMagick Studio LLC, a non-profit organization
dedicated to making software imaging solutions freely available.
You may not use this file except in compliance with the License. You may
obtain a copy of the License at
https://imagemagick.org/script/license.php
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
MagickCore private graphic gems methods.
*/
#ifndef MAGICKCORE_GEM_PRIVATE_H
#define MAGICKCORE_GEM_PRIVATE_H
#include "MagickCore/pixel-accessor.h"
#include "MagickCore/visual-effects.h"
#if defined(__cplusplus) || defined(c_plusplus)
extern "C" {
#endif
#define IlluminantX 0.95047
#define IlluminantY 1.0
#define IlluminantZ 1.08883
#define CIEEpsilon (216.0/24389.0)
#define CIEK (24389.0/27.0)
static const PrimaryInfo
illuminant_tristimulus[] =
{
{ 1.09850, 1.00000, 0.35585 }, /* A */
{ 0.99072, 1.00000, 0.85223 }, /* B */
{ 0.98074, 1.00000, 1.18232 }, /* C */
{ 0.96422, 1.00000, 0.82521 }, /* D50 */
{ 0.95682, 1.00000, 0.92149 }, /* D55 */
{ 0.95047, 1.00000, 1.08883 }, /* D65 */
{ 0.94972, 1.00000, 1.22638 }, /* D75 */
{ 1.00000, 1.00000, 1.00000 }, /* E */
{ 0.99186, 1.00000, 0.67393 }, /* F2 */
{ 0.95041, 1.00000, 1.08747 }, /* F7 */
{ 1.00962, 1.00000, 0.64350 } /* F11 */
};
extern MagickPrivate double
GenerateDifferentialNoise(RandomInfo *,const Quantum,const NoiseType,
const double);
extern MagickPrivate size_t
GetOptimalKernelWidth(const double,const double),
GetOptimalKernelWidth1D(const double,const double),
GetOptimalKernelWidth2D(const double,const double);
extern MagickPrivate void
ConvertHCLToRGB(const double,const double,const double,double *,double *,
double *),
ConvertHCLpToRGB(const double,const double,const double,double *,double *,
double *),
ConvertHSBToRGB(const double,const double,const double,double *,double *,
double *),
ConvertHSIToRGB(const double,const double,const double,double *,double *,
double *),
ConvertHSVToRGB(const double,const double,const double,double *,double *,
double *),
ConvertHWBToRGB(const double,const double,const double,double *,double *,
double *),
ConvertLCHabToRGB(const double,const double,const double,const IlluminantType,
double *,double *,double *),
ConvertLCHuvToRGB(const double,const double,const double,const IlluminantType,
double *,double *,double *),
ConvertRGBToHCL(const double,const double,const double,double *,double *,
double *),
ConvertRGBToHCLp(const double,const double,const double,double *,double *,
double *),
ConvertRGBToHSB(const double,const double,const double,double *,double *,
double *),
ConvertRGBToHSI(const double,const double,const double,double *,double *,
double *),
ConvertRGBToHSV(const double,const double,const double,double *,double *,
double *),
ConvertRGBToHWB(const double,const double,const double,double *,double *,
double *),
ConvertRGBToLab(const double,const double,const double,const IlluminantType,
double *,double *,double *),
ConvertRGBToLCHab(const double,const double,const double,const IlluminantType,
double *,double *,double *),
ConvertRGBToLCHuv(const double,const double,const double,const IlluminantType,
double *,double *,double *);
static inline void ConvertAdobe98ToXYZ(const double red,const double green,
const double blue,double *X,double *Y,double *Z)
{
double
b,
g,
r;
/*
Convert Adobe '98 to XYZ colorspace.
*/
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
r=QuantumScale*DecodePixelGamma(red);
g=QuantumScale*DecodePixelGamma(green);
b=QuantumScale*DecodePixelGamma(blue);
*X=0.57666904291013050*r+0.18555823790654630*g+0.18822864623499470*b;
*Y=0.29734497525053605*r+0.62736356625546610*g+0.07529145849399788*b;
*Z=0.02703136138641234*r+0.07068885253582723*g+0.99133753683763880*b;
}
static inline void ConvertDisplayP3ToXYZ(const double red,const double green,
const double blue,double *X,double *Y,double *Z)
{
double
b,
g,
r;
/*
Convert Display P3 to XYZ colorspace.
*/
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
r=QuantumScale*DecodePixelGamma(red);
g=QuantumScale*DecodePixelGamma(green);
b=QuantumScale*DecodePixelGamma(blue);
*X=0.4865709486482162*r+0.26566769316909306*g+0.1982172852343625*b;
*Y=0.2289745640697488*r+0.69173852183650640*g+0.0792869140937450*b;
*Z=0.0000000000000000*r+0.04511338185890264*g+1.0439443689009760*b;
}
static inline void ConvertLabToXYZ(const double L,const double a,const double b,
const IlluminantType illuminant,double *X,double *Y,double *Z)
{
double
x,
y,
z;
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
y=(L+16.0)/116.0;
x=y+a/500.0;
z=y-b/200.0;
if ((x*x*x) > CIEEpsilon)
x=(x*x*x);
else
x=(116.0*x-16.0)/CIEK;
if (L > (CIEK*CIEEpsilon))
y=(y*y*y);
else
y=L/CIEK;
if ((z*z*z) > CIEEpsilon)
z=(z*z*z);
else
z=(116.0*z-16.0)/CIEK;
*X=illuminant_tristimulus[illuminant].x*x;
*Y=illuminant_tristimulus[illuminant].y*y;
*Z=illuminant_tristimulus[illuminant].z*z;
}
static inline void ConvertLuvToXYZ(const double L,const double u,const double v,
const IlluminantType illuminant,double *X,double *Y,double *Z)
{
double
gamma;
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
if (L > (CIEK*CIEEpsilon))
*Y=(double) pow((L+16.0)/116.0,3.0);
else
*Y=L/CIEK;
gamma=PerceptibleReciprocal((((52.0*L*PerceptibleReciprocal(u+13.0*L*
(4.0*illuminant_tristimulus[illuminant].x/
(illuminant_tristimulus[illuminant].x+15.0*
illuminant_tristimulus[illuminant].y+3.0*
illuminant_tristimulus[illuminant].z))))-1.0)/3.0)-(-1.0/3.0));
*X=gamma*((*Y*((39.0*L*PerceptibleReciprocal(v+13.0*L*(9.0*
illuminant_tristimulus[illuminant].y/
(illuminant_tristimulus[illuminant].x+15.0*
illuminant_tristimulus[illuminant].y+3.0*
illuminant_tristimulus[illuminant].z))))-5.0))+5.0*(*Y));
*Z=(*X*(((52.0*L*PerceptibleReciprocal(u+13.0*L*(4.0*
illuminant_tristimulus[illuminant].x/
(illuminant_tristimulus[illuminant].x+15.0*
illuminant_tristimulus[illuminant].y+3.0*
illuminant_tristimulus[illuminant].z))))-1.0)/3.0))-5.0*(*Y);
}
static inline void ConvertProPhotoToXYZ(const double red,const double green,
const double blue,double *X,double *Y,double *Z)
{
double
b,
g,
r;
/*
Convert ProPhoto to XYZ colorspace.
*/
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
r=QuantumScale*DecodePixelGamma(red);
g=QuantumScale*DecodePixelGamma(green);
b=QuantumScale*DecodePixelGamma(blue);
*X=0.7977604896723027*r+0.13518583717574031*g+0.03134934958152480000*b;
*Y=0.2880711282292934*r+0.71184321781010140*g+0.00008565396060525902*b;
*Z=0.0000000000000000*r+0.00000000000000000*g+0.82510460251046010000*b;
}
static inline void ConvertRGBToXYZ(const double red,const double green,
const double blue,double *X,double *Y,double *Z)
{
double
b,
g,
r;
/*
Convert RGB to XYZ colorspace.
*/
assert(X != (double *) NULL);
assert(Y != (double *) NULL);
assert(Z != (double *) NULL);
r=QuantumScale*DecodePixelGamma(red);
g=QuantumScale*DecodePixelGamma(green);
b=QuantumScale*DecodePixelGamma(blue);
*X=0.4124564*r+0.3575761*g+0.1804375*b;
*Y=0.2126729*r+0.7151522*g+0.0721750*b;
*Z=0.0193339*r+0.1191920*g+0.9503041*b;
}
static inline void ConvertXYZToAdobe98(const double X,const double Y,
const double Z,double *red,double *green,double *blue)
{
double
b,
g,
r;
assert(red != (double *) NULL);
assert(green != (double *) NULL);
assert(blue != (double *) NULL);
r=2.041587903810746500*X-0.56500697427885960*Y-0.34473135077832956*Z;
g=(-0.969243636280879500)*X+1.87596750150772020*Y+0.04155505740717557*Z;
b=0.013444280632031142*X-0.11836239223101838*Y+1.01517499439120540*Z;
*red=EncodePixelGamma(QuantumRange*r);
*green=EncodePixelGamma(QuantumRange*g);
*blue=EncodePixelGamma(QuantumRange*b);
}
static inline void ConvertXYZToDisplayP3(const double X,const double Y,
const double Z,double *red,double *green,double *blue)
{
double
b,
g,
r;
assert(red != (double *) NULL);
assert(green != (double *) NULL);
assert(blue != (double *) NULL);
r=2.49349691194142500*X-0.93138361791912390*Y-0.402710784450716840*Z;
g=(-0.82948896956157470)*X+1.76266406031834630*Y+0.023624685841943577*Z;
b=0.03584583024378447*X-0.07617238926804182*Y+0.956884524007687200*Z;
*red=EncodePixelGamma(QuantumRange*r);
*green=EncodePixelGamma(QuantumRange*g);
*blue=EncodePixelGamma(QuantumRange*b);
}
static inline void ConvertXYZToLab(const double X,const double Y,const double Z,
const IlluminantType illuminant,double *L,double *a,double *b)
{
double
x,
y,
z;
assert(L != (double *) NULL);
assert(a != (double *) NULL);
assert(b != (double *) NULL);
if ((X/illuminant_tristimulus[illuminant].x) > CIEEpsilon)
x=pow(X/illuminant_tristimulus[illuminant].x,1.0/3.0);
else
x=(CIEK*X/illuminant_tristimulus[illuminant].x+16.0)/116.0;
if ((Y/illuminant_tristimulus[illuminant].y) > CIEEpsilon)
y=pow(Y/illuminant_tristimulus[illuminant].y,1.0/3.0);
else
y=(CIEK*Y/illuminant_tristimulus[illuminant].y+16.0)/116.0;
if ((Z/illuminant_tristimulus[illuminant].z) > CIEEpsilon)
z=pow(Z/illuminant_tristimulus[illuminant].z,1.0/3.0);
else
z=(CIEK*Z/illuminant_tristimulus[illuminant].z+16.0)/116.0;
*L=((116.0*y)-16.0)/100.0;
*a=(500.0*(x-y))/255.0+0.5;
*b=(200.0*(y-z))/255.0+0.5;
}
static inline void ConvertXYZToLuv(const double X,const double Y,const double Z,
const IlluminantType illuminant,double *L,double *u,double *v)
{
double
alpha;
assert(L != (double *) NULL);
assert(u != (double *) NULL);
assert(v != (double *) NULL);
if ((Y/illuminant_tristimulus[illuminant].y) > CIEEpsilon)
*L=(double) (116.0*pow(Y/illuminant_tristimulus[illuminant].y,
1.0/3.0)-16.0);
else
*L=CIEK*(Y/illuminant_tristimulus[illuminant].y);
alpha=PerceptibleReciprocal(X+15.0*Y+3.0*Z);
*u=13.0*(*L)*((4.0*alpha*X)-(4.0*illuminant_tristimulus[illuminant].x/
(illuminant_tristimulus[illuminant].x+15.0*
illuminant_tristimulus[illuminant].y+3.0*
illuminant_tristimulus[illuminant].z)));
*v=13.0*(*L)*((9.0*alpha*Y)-(9.0*illuminant_tristimulus[illuminant].y/
(illuminant_tristimulus[illuminant].x+15.0*
illuminant_tristimulus[illuminant].y+3.0*
illuminant_tristimulus[illuminant].z)));
*L/=100.0;
*u=(*u+134.0)/354.0;
*v=(*v+140.0)/262.0;
}
static inline void ConvertXYZToProPhoto(const double X,const double Y,
const double Z,double *red,double *green,double *blue)
{
double
b,
g,
r;
assert(red != (double *) NULL);
assert(green != (double *) NULL);
assert(blue != (double *) NULL);
r=1.3457989731028281*X-0.25558010007997534*Y-0.05110628506753401*Z;
g=(-0.5446224939028347)*X+1.50823274131327810*Y+0.02053603239147973*Z;
b=0.0000000000000000*X+0.0000000000000000*Y+1.21196754563894540*Z;
*red=EncodePixelGamma(QuantumRange*r);
*green=EncodePixelGamma(QuantumRange*g);
*blue=EncodePixelGamma(QuantumRange*b);
}
static inline void ConvertXYZToRGB(const double X,const double Y,const double Z,
double *red,double *green,double *blue)
{
double
b,
g,
r;
assert(red != (double *) NULL);
assert(green != (double *) NULL);
assert(blue != (double *) NULL);
r=3.2404542*X-1.5371385*Y-0.4985314*Z;
g=(-0.9692660)*X+1.8760108*Y+0.0415560*Z;
b=0.0556434*X-0.2040259*Y+1.0572252*Z;
*red=EncodePixelGamma(QuantumRange*r);
*green=EncodePixelGamma(QuantumRange*g);
*blue=EncodePixelGamma(QuantumRange*b);
}
#if defined(__cplusplus) || defined(c_plusplus)
}
#endif
#endif