| /* |
| Copyright 1999-2015 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. |
| obtain a copy of the License at |
| |
| http://www.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" |
| |
| #if defined(__cplusplus) || defined(c_plusplus) |
| extern "C" { |
| #endif |
| |
| #define D65X 0.950456 |
| #define D65Y 1.0 |
| #define D65Z 1.088754 |
| #define CIEEpsilon (216.0/24389.0) |
| #define CIEK (24389.0/27.0) |
| |
| 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,double *,double *, |
| double *), |
| ConvertLCHuvToRGB(const double,const double,const double,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 *), |
| ConvertRGBToLCHab(const double,const double,const double,double *,double *, |
| double *), |
| ConvertRGBToLCHuv(const double,const double,const double,double *,double *, |
| double *); |
| |
| static inline void ConvertLabToXYZ(const double L,const double a,const double b, |
| 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 ((y*y*y) > 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=D65X*x; |
| *Y=D65Y*y; |
| *Z=D65Z*z; |
| } |
| |
| static inline void ConvertLuvToXYZ(const double L,const double u,const double v, |
| double *X,double *Y,double *Z) |
| { |
| 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; |
| *X=((*Y*((39.0*L/(v+13.0*L*(9.0*D65Y/(D65X+15.0*D65Y+3.0*D65Z))))-5.0))+ |
| 5.0*(*Y))/((((52.0*L/(u+13.0*L*(4.0*D65X/(D65X+15.0*D65Y+3.0*D65Z))))-1.0)/ |
| 3.0)-(-1.0/3.0)); |
| *Z=(*X*(((52.0*L/(u+13.0*L*(4.0*D65X/(D65X+15.0*D65Y+3.0*D65Z))))-1.0)/3.0))- |
| 5.0*(*Y); |
| } |
| |
| 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 ConvertXYZToLab(const double X,const double Y,const double Z, |
| double *L,double *a,double *b) |
| { |
| double |
| x, |
| y, |
| z; |
| |
| assert(L != (double *) NULL); |
| assert(a != (double *) NULL); |
| assert(b != (double *) NULL); |
| if ((X/D65X) > CIEEpsilon) |
| x=pow(X/D65X,1.0/3.0); |
| else |
| x=(CIEK*X/D65X+16.0)/116.0; |
| if ((Y/D65Y) > CIEEpsilon) |
| y=pow(Y/D65Y,1.0/3.0); |
| else |
| y=(CIEK*Y/D65Y+16.0)/116.0; |
| if ((Z/D65Z) > CIEEpsilon) |
| z=pow(Z/D65Z,1.0/3.0); |
| else |
| z=(CIEK*Z/D65Z+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, |
| double *L,double *u,double *v) |
| { |
| double |
| alpha; |
| |
| assert(L != (double *) NULL); |
| assert(u != (double *) NULL); |
| assert(v != (double *) NULL); |
| if ((Y/D65Y) > CIEEpsilon) |
| *L=(double) (116.0*pow(Y/D65Y,1.0/3.0)-16.0); |
| else |
| *L=CIEK*(Y/D65Y); |
| alpha=PerceptibleReciprocal(X+15.0*Y+3.0*Z); |
| *u=13.0*(*L)*((4.0*alpha*X)-(4.0*D65X/(D65X+15.0*D65Y+3.0*D65Z))); |
| *v=13.0*(*L)*((9.0*alpha*Y)-(9.0*D65Y/(D65X+15.0*D65Y+3.0*D65Z))); |
| *L/=100.0; |
| *u=(*u+134.0)/354.0; |
| *v=(*v+140.0)/262.0; |
| } |
| |
| 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 |