/* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % % % V V AAA L IIIII DDDD AAA TTTTT EEEEE % % V V A A L I D D A A T E % % V V AAAAA L I D D AAAAA T EEE % % V V A A L I D D A A T E % % V A A LLLLL IIIII DDDD A A T EEEEE % % % % % % ImageMagick Validation Suite % % % % Software Design % % Cristy % % March 2001 % % % % % % Copyright 1999-2016 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 % % % % 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. % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % */ /* Include declarations. */ #include #include #include #include #include #include #include "MagickWand/MagickWand.h" #include "MagickCore/colorspace-private.h" #include "MagickCore/gem.h" #include "MagickCore/resource_.h" #include "MagickCore/string-private.h" #include "validate.h" /* Define declarations. */ #define CIEEpsilon (216.0/24389.0) #define CIEK (24389.0/27.0) #define D65X 0.950456 #define D65Y 1.0 #define D65Z 1.088754 #define ReferenceEpsilon (QuantumRange*1.0e-2) /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e C o l o r s p a c e s % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateColorspaces() validates the ImageMagick colorspaces and returns the % number of validation tests that passed and failed. % % The format of the ValidateColorspaces method is: % % size_t ValidateColorspaces(ImageInfo *image_info,size_t *fail, % ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static void ConvertHSIToRGB(const double hue,const double saturation, const double intensity,double *red,double *green,double *blue) { double h; h=360.0*hue; h-=360.0*floor(h/360.0); if (h < 120.0) { *blue=intensity*(1.0-saturation); *red=intensity*(1.0+saturation*cos(h*(MagickPI/180.0))/cos((60.0-h)* (MagickPI/180.0))); *green=3.0*intensity-*red-*blue; } else if (h < 240.0) { h-=120.0; *red=intensity*(1.0-saturation); *green=intensity*(1.0+saturation*cos(h*(MagickPI/180.0))/cos((60.0-h)* (MagickPI/180.0))); *blue=3.0*intensity-*red-*green; } else { h-=240.0; *green=intensity*(1.0-saturation); *blue=intensity*(1.0+saturation*cos(h*(MagickPI/180.0))/cos((60.0-h)* (MagickPI/180.0))); *red=3.0*intensity-*green-*blue; } *red*=QuantumRange; *green*=QuantumRange; *blue*=QuantumRange; } static void ConvertRGBToHSI(const double red,const double green, const double blue,double *hue,double *saturation,double *intensity) { double alpha, beta; *intensity=(QuantumScale*red+QuantumScale*green+QuantumScale*blue)/3.0; if (*intensity <= 0.0) { *hue=0.0; *saturation=0.0; return; } *saturation=1.0-MagickMin(QuantumScale*red,MagickMin(QuantumScale*green, QuantumScale*blue))/(*intensity); alpha=0.5*(2.0*QuantumScale*red-QuantumScale*green-QuantumScale*blue); beta=0.8660254037844385*(QuantumScale*green-QuantumScale*blue); *hue=atan2(beta,alpha)*(180.0/MagickPI)/360.0; if (*hue < 0.0) *hue+=1.0; } static void ConvertHSVToRGB(const double hue,const double saturation, const double value,double *red,double *green,double *blue) { double c, h, min, x; h=hue*360.0; c=value*saturation; min=value-c; h-=360.0*floor(h/360.0); h/=60.0; x=c*(1.0-fabs(h-2.0*floor(h/2.0)-1.0)); switch ((int) floor(h)) { case 0: { *red=QuantumRange*(min+c); *green=QuantumRange*(min+x); *blue=QuantumRange*min; break; } case 1: { *red=QuantumRange*(min+x); *green=QuantumRange*(min+c); *blue=QuantumRange*min; break; } case 2: { *red=QuantumRange*min; *green=QuantumRange*(min+c); *blue=QuantumRange*(min+x); break; } case 3: { *red=QuantumRange*min; *green=QuantumRange*(min+x); *blue=QuantumRange*(min+c); break; } case 4: { *red=QuantumRange*(min+x); *green=QuantumRange*min; *blue=QuantumRange*(min+c); break; } case 5: { *red=QuantumRange*(min+c); *green=QuantumRange*min; *blue=QuantumRange*(min+x); break; } default: { *red=0.0; *green=0.0; *blue=0.0; } } } static inline void ConvertRGBToXYZ(const double red,const double green, const double blue,double *X,double *Y,double *Z) { double b, g, r; r=QuantumScale*DecodePixelGamma(red); g=QuantumScale*DecodePixelGamma(green); b=QuantumScale*DecodePixelGamma(blue); *X=0.41239558896741421610*r+0.35758343076371481710*g+0.18049264738170157350*b; *Y=0.21258623078559555160*r+0.71517030370341084990*g+0.07220049864333622685*b; *Z=0.01929721549174694484*r+0.11918386458084853180*g+0.95049712513157976600*b; } static inline void ConvertXYZToLab(const double X,const double Y,const double Z, double *L,double *a,double *b) { double x, y, z; 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 void ConvertRGBToLab(const double red,const double green, const double blue,double *L,double *a,double *b) { double X, Y, Z; ConvertRGBToXYZ(red,green,blue,&X,&Y,&Z); ConvertXYZToLab(X,Y,Z,L,a,b); } static inline void ConvertLabToXYZ(const double L,const double a,const double b, double *X,double *Y,double *Z) { double x, y, z; 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 ConvertXYZToRGB(const double x,const double y,const double z, double *red,double *green,double *blue) { double b, g, r; r=3.2406*x-1.5372*y-0.4986*z; g=(-0.9689*x+1.8758*y+0.0415*z); b=0.0557*x-0.2040*y+1.0570*z; *red=EncodePixelGamma(QuantumRange*r); *green=EncodePixelGamma(QuantumRange*g); *blue=EncodePixelGamma(QuantumRange*b); } static inline void ConvertLabToRGB(const double L,const double a, const double b,double *red,double *green,double *blue) { double X, Y, Z; ConvertLabToXYZ(L*100.0,255.0*(a-0.5),255.0*(b-0.5),&X,&Y,&Z); ConvertXYZToRGB(X,Y,Z,red,green,blue); } static void ConvertRGBToYPbPr(const double red,const double green, const double blue,double *Y,double *Pb,double *Pr) { *Y=QuantumScale*(0.298839*red+0.586811*green+0.114350*blue); *Pb=QuantumScale*((-0.1687367)*red-0.331264*green+0.5*blue)+0.5; *Pr=QuantumScale*(0.5*red-0.418688*green-0.081312*blue)+0.5; } static void ConvertRGBToYCbCr(const double red,const double green, const double blue,double *Y,double *Cb,double *Cr) { ConvertRGBToYPbPr(red,green,blue,Y,Cb,Cr); } static void ConvertYPbPrToRGB(const double Y,const double Pb,const double Pr, double *red,double *green,double *blue) { *red=QuantumRange*(0.99999999999914679361*Y-1.2188941887145875e-06*(Pb-0.5)+ 1.4019995886561440468*(Pr-0.5)); *green=QuantumRange*(0.99999975910502514331*Y-0.34413567816504303521*(Pb-0.5)- 0.71413649331646789076*(Pr-0.5)); *blue=QuantumRange*(1.00000124040004623180*Y+1.77200006607230409200*(Pb-0.5)+ 2.1453384174593273e-06*(Pr-0.5)); } static void ConvertYCbCrToRGB(const double Y,const double Cb, const double Cr,double *red,double *green,double *blue) { ConvertYPbPrToRGB(Y,Cb,Cr,red,green,blue); } static inline void ConvertLCHabToXYZ(const double luma,const double chroma, const double hue,double *X,double *Y,double *Z) { ConvertLabToXYZ(luma,chroma*cos(hue*MagickPI/180.0),chroma* sin(hue*MagickPI/180.0),X,Y,Z); } static void ConvertLCHabToRGB(const double luma,const double chroma, const double hue,double *red,double *green,double *blue) { double X, Y, Z; ConvertLCHabToXYZ(luma*100.0,255.0*(chroma-0.5),360.0*hue,&X,&Y,&Z); ConvertXYZToRGB(X,Y,Z,red,green,blue); } static void ConvertRGBToHSV(const double red,const double green, const double blue,double *hue,double *saturation,double *value) { double c, max, min; max=MagickMax(QuantumScale*red,MagickMax(QuantumScale*green, QuantumScale*blue)); min=MagickMin(QuantumScale*red,MagickMin(QuantumScale*green, QuantumScale*blue)); c=max-min; *value=max; if (c <= 0.0) { *hue=0.0; *saturation=0.0; return; } if (max == (QuantumScale*red)) { *hue=(QuantumScale*green-QuantumScale*blue)/c; if ((QuantumScale*green) < (QuantumScale*blue)) *hue+=6.0; } else if (max == (QuantumScale*green)) *hue=2.0+(QuantumScale*blue-QuantumScale*red)/c; else *hue=4.0+(QuantumScale*red-QuantumScale*green)/c; *hue*=60.0/360.0; *saturation=c/max; } static inline void ConvertXYZToLCHab(const double X,const double Y, const double Z,double *luma,double *chroma,double *hue) { double a, b; ConvertXYZToLab(X,Y,Z,luma,&a,&b); *chroma=hypot(255.0*(a-0.5),255.0*(b-0.5))/255.0+0.5; *hue=180.0*atan2(255.0*(b-0.5),255.0*(a-0.5))/MagickPI/360.0; if (*hue < 0.0) *hue+=1.0; } static void ConvertRGBToLCHab(const double red,const double green, const double blue,double *luma,double *chroma,double *hue) { double X, Y, Z; ConvertRGBToXYZ(red,green,blue,&X,&Y,&Z); ConvertXYZToLCHab(X,Y,Z,luma,chroma,hue); } static inline void ConvertLMSToXYZ(const double L,const double M,const double S, double *X,double *Y,double *Z) { *X=1.096123820835514*L-0.278869000218287*M+0.182745179382773*S; *Y=0.454369041975359*L+0.473533154307412*M+0.072097803717229*S; *Z=(-0.009627608738429)*L-0.005698031216113*M+1.015325639954543*S; } static inline void ConvertLMSToRGB(const double L,const double M, const double S,double *red,double *green,double *blue) { double X, Y, Z; ConvertLMSToXYZ(L,M,S,&X,&Y,&Z); ConvertXYZToRGB(X,Y,Z,red,green,blue); } static inline void ConvertXYZToLMS(const double x,const double y, const double z,double *L,double *M,double *S) { *L=0.7328*x+0.4296*y-0.1624*z; *M=(-0.7036*x+1.6975*y+0.0061*z); *S=0.0030*x+0.0136*y+0.9834*z; } static void ConvertRGBToLMS(const double red,const double green, const double blue,double *L,double *M,double *S) { double X, Y, Z; ConvertRGBToXYZ(red,green,blue,&X,&Y,&Z); ConvertXYZToLMS(X,Y,Z,L,M,S); } static inline void ConvertXYZToLuv(const double X,const double Y,const double Z, double *L,double *u,double *v) { double alpha; 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 void ConvertRGBToLuv(const double red,const double green, const double blue,double *L,double *u,double *v) { double X, Y, Z; ConvertRGBToXYZ(red,green,blue,&X,&Y,&Z); ConvertXYZToLuv(X,Y,Z,L,u,v); } static inline void ConvertLuvToXYZ(const double L,const double u,const double v, double *X,double *Y,double *Z) { 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))/((((52.0f*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*(((52.0f*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 ConvertLuvToRGB(const double L,const double u, const double v,double *red,double *green,double *blue) { double X, Y, Z; ConvertLuvToXYZ(100.0*L,354.0*u-134.0,262.0*v-140.0,&X,&Y,&Z); ConvertXYZToRGB(X,Y,Z,red,green,blue); } static void ConvertRGBToYDbDr(const double red,const double green, const double blue,double *Y,double *Db,double *Dr) { *Y=QuantumScale*(0.298839*red+0.586811*green+0.114350*blue); *Db=QuantumScale*(-0.450*red-0.883*green+1.333*blue)+0.5; *Dr=QuantumScale*(-1.333*red+1.116*green+0.217*blue)+0.5; } static void ConvertYDbDrToRGB(const double Y,const double Db,const double Dr, double *red,double *green,double *blue) { *red=QuantumRange*(Y+9.2303716147657e-05*(Db-0.5)-0.52591263066186533* (Dr-0.5)); *green=QuantumRange*(Y-0.12913289889050927*(Db-0.5)+0.26789932820759876* (Dr-0.5)); *blue=QuantumRange*(Y+0.66467905997895482*(Db-0.5)-7.9202543533108e-05* (Dr-0.5)); } static void ConvertRGBToYIQ(const double red,const double green, const double blue,double *Y,double *I,double *Q) { *Y=QuantumScale*(0.298839*red+0.586811*green+0.114350*blue); *I=QuantumScale*(0.595716*red-0.274453*green-0.321263*blue)+0.5; *Q=QuantumScale*(0.211456*red-0.522591*green+0.311135*blue)+0.5; } static void ConvertYIQToRGB(const double Y,const double I,const double Q, double *red,double *green,double *blue) { *red=QuantumRange*(Y+0.9562957197589482261*(I-0.5)+0.6210244164652610754* (Q-0.5)); *green=QuantumRange*(Y-0.2721220993185104464*(I-0.5)-0.6473805968256950427* (Q-0.5)); *blue=QuantumRange*(Y-1.1069890167364901945*(I-0.5)+1.7046149983646481374* (Q-0.5)); } static void ConvertRGBToYUV(const double red,const double green, const double blue,double *Y,double *U,double *V) { *Y=QuantumScale*(0.298839*red+0.586811*green+0.114350*blue); *U=QuantumScale*((-0.147)*red-0.289*green+0.436*blue)+0.5; *V=QuantumScale*(0.615*red-0.515*green-0.100*blue)+0.5; } static void ConvertYUVToRGB(const double Y,const double U,const double V, double *red,double *green,double *blue) { *red=QuantumRange*(Y-3.945707070708279e-05*(U-0.5)+1.1398279671717170825* (V-0.5)); *green=QuantumRange*(Y-0.3946101641414141437*(U-0.5)-0.5805003156565656797* (V-0.5)); *blue=QuantumRange*(Y+2.0319996843434342537*(U-0.5)-4.813762626262513e-04* (V-0.5)); } static MagickBooleanType ValidateHSIToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," HSIToRGB"); ConvertHSIToRGB(111.244375/360.0,0.295985,0.658734,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToHSI() { double h, i, s; (void) FormatLocaleFile(stdout," RGBToHSI"); ConvertRGBToHSI(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&h,&s,&i); if ((fabs(h-111.244374/360.0) >= ReferenceEpsilon) || (fabs(s-0.295985) >= ReferenceEpsilon) || (fabs(i-0.658734) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateHSLToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," HSLToRGB"); ConvertHSLToRGB(110.200859/360.0,0.882623,0.715163,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToHSL() { double h, l, s; (void) FormatLocaleFile(stdout," RGBToHSL"); ConvertRGBToHSL(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&h,&s,&l); if ((fabs(h-110.200859/360.0) >= ReferenceEpsilon) || (fabs(s-0.882623) >= ReferenceEpsilon) || (fabs(l-0.715163) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateHSVToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," HSVToRGB"); ConvertHSVToRGB(110.200859/360.0,0.520200,0.966567,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToHSV() { double h, s, v; (void) FormatLocaleFile(stdout," RGBToHSV"); ConvertRGBToHSV(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&h,&s,&v); if ((fabs(h-110.200859/360.0) >= ReferenceEpsilon) || (fabs(s-0.520200) >= ReferenceEpsilon) || (fabs(v-0.966567) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToJPEGYCbCr() { double Cb, Cr, Y; (void) FormatLocaleFile(stdout," RGBToJPEGYCbCr"); ConvertRGBToYCbCr(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&Y,&Cb,&Cr); if ((fabs(Y-0.783460) >= ReferenceEpsilon) || (fabs(Cb-0.319581) >= ReferenceEpsilon) || (fabs(Cr-0.330539) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateJPEGYCbCrToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," JPEGYCbCrToRGB"); ConvertYCbCrToRGB(0.783460,0.319581,0.330539,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateLabToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," LabToRGB"); ConvertLabToRGB(88.456154/100.0,-54.671483/255+0.5,51.662818/255.0+0.5, &r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToLab() { double a, b, L; (void) FormatLocaleFile(stdout," RGBToLab"); ConvertRGBToLab(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&L,&a,&b); if ((fabs(L-(88.456154/100.0)) >= ReferenceEpsilon) || (fabs(a-(-54.671483/255.0+0.5)) >= ReferenceEpsilon) || (fabs(b-(51.662818/255.0+0.5)) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateLchToRGB() { double b, g, r; (void) FormatLocaleFile(stdout," LchToRGB"); ConvertLCHabToRGB(88.456154/100.0,75.219797/255.0+0.5,136.620717/360.0, &r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToLch() { double c, h, L; (void) FormatLocaleFile(stdout," RGBToLch"); ConvertRGBToLCHab(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&L,&c,&h); if ((fabs(L-88.456154/100.0) >= ReferenceEpsilon) || (fabs(c-(75.219797/255.0+0.5)) >= ReferenceEpsilon) || (fabs(h-(136.620717/255.0+0.5)) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToLMS() { double L, M, S; (void) FormatLocaleFile(stdout," RGBToLMS"); ConvertRGBToLMS(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&L,&M,&S); if ((fabs(L-0.611749) >= ReferenceEpsilon) || (fabs(M-0.910088) >= ReferenceEpsilon) || (fabs(S-0.294880) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateLMSToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," LMSToRGB"); ConvertLMSToRGB(0.611749,0.910088,0.294880,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToLuv() { double l, u, v; (void) FormatLocaleFile(stdout," RGBToLuv"); ConvertRGBToLuv(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&l,&u,&v); if ((fabs(l-88.456154/262.0) >= ReferenceEpsilon) || (fabs(u-(-51.330414+134.0)/354.0) >= ReferenceEpsilon) || (fabs(v-(76.405526+140.0)/262.0) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateLuvToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," LuvToRGB"); ConvertLuvToRGB(88.456154/100.0,(-51.330414+134.0)/354.0, (76.405526+140.0)/262.0,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToXYZ() { double x, y, z; (void) FormatLocaleFile(stdout," RGBToXYZ"); ConvertRGBToXYZ(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&x,&y,&z); if ((fabs(x-0.470646) >= ReferenceEpsilon) || (fabs(y-0.730178) >= ReferenceEpsilon) || (fabs(z-0.288324) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateXYZToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," XYZToRGB"); ConvertXYZToRGB(0.470646,0.730178,0.288324,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateYDbDrToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," YDbDrToRGB"); ConvertYDbDrToRGB(0.783460,-0.480932+0.5,0.451670+0.5,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToYDbDr() { double Db, Dr, Y; (void) FormatLocaleFile(stdout," RGBToYDbDr"); ConvertRGBToYDbDr(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&Y,&Db,&Dr); if ((fabs(Y-0.783460) >= ReferenceEpsilon) || (fabs(Db-(-0.480932)) >= ReferenceEpsilon) || (fabs(Dr-0.451670) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToYIQ() { double i, q, y; (void) FormatLocaleFile(stdout," RGBToYIQ"); ConvertRGBToYIQ(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&y,&i,&q); if ((fabs(y-0.783460) >= ReferenceEpsilon) || (fabs(i-(-0.089078)) >= ReferenceEpsilon) || (fabs(q-(-0.245399)) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateYIQToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," YIQToRGB"); ConvertYIQToRGB(0.783460,-0.089078+0.5,-0.245399+0.5,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToYPbPr() { double Pb, Pr, y; (void) FormatLocaleFile(stdout," RGBToYPbPr"); ConvertRGBToYPbPr(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&y,&Pb,&Pr); if ((fabs(y-0.783460) >= ReferenceEpsilon) || (fabs(Pb-(-0.180419)) >= ReferenceEpsilon) || (fabs(Pr-(-0.169461)) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateYPbPrToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," YPbPrToRGB"); ConvertYPbPrToRGB(0.783460,-0.180419+0.5,-0.169461+0.5,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateRGBToYUV() { double U, V, Y; (void) FormatLocaleFile(stdout," RGBToYUV"); ConvertRGBToYUV(0.545877*QuantumRange,0.966567*QuantumRange, 0.463759*QuantumRange,&Y,&U,&V); if ((fabs(Y-0.783460) >= ReferenceEpsilon) || (fabs(U-(-0.157383)) >= ReferenceEpsilon) || (fabs(V-(-0.208443)) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static MagickBooleanType ValidateYUVToRGB() { double r, g, b; (void) FormatLocaleFile(stdout," YUVToRGB"); ConvertYUVToRGB(0.783460,-0.157383+0.5,-0.208443+0.5,&r,&g,&b); if ((fabs(r-0.545877*QuantumRange) >= ReferenceEpsilon) || (fabs(g-0.966567*QuantumRange) >= ReferenceEpsilon) || (fabs(b-0.463759*QuantumRange) >= ReferenceEpsilon)) return(MagickFalse); return(MagickTrue); } static size_t ValidateColorspaces(ImageInfo *image_info,size_t *fail, ExceptionInfo *exception) { MagickBooleanType status; size_t test; /* Reference: https://code.google.com/p/chroma. Illuminant = D65 Observer = 2° (1931) XYZ 0.470645, 0.730177, 0.288323 sRGB 0.545877, 0.966567, 0.463759 CAT02 LMS 0.611749, 0.910088, 0.294880 Y'DbDr 0.783460, -0.480932, 0.451670 Y'IQ 0.783460, -0.089078, -0.245399 Y'PbPr 0.783460, -0.180419, -0.169461 Y'UV 0.783460, -0.157383, -0.208443 JPEG-Y'CbCr 0.783460, 0.319581, 0.330539 L*u*v* 88.456154, -51.330414, 76.405526 L*a*b* 88.456154, -54.671483, 51.662818 L*C*H* 88.456154, 75.219797, 136.620717 HSV 110.200859, 0.520200, 0.966567 HSL 110.200859, 0.882623, 0.715163 HSI 111.244375, 0.295985, 0.658734 Y'CbCr 187.577791, 87.586330, 90.040886 */ (void) FormatLocaleFile(stdout,"validate colorspaces:\n"); for (test=0; test < 26; test++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: ",(double) test); switch (test) { case 0: status=ValidateHSIToRGB(); break; case 1: status=ValidateRGBToHSI(); break; case 2: status=ValidateHSLToRGB(); break; case 3: status=ValidateRGBToHSL(); break; case 4: status=ValidateHSVToRGB(); break; case 5: status=ValidateRGBToHSV(); break; case 6: status=ValidateJPEGYCbCrToRGB(); break; case 7: status=ValidateRGBToJPEGYCbCr(); break; case 8: status=ValidateLabToRGB(); break; case 9: status=ValidateRGBToLab(); break; case 10: status=ValidateLchToRGB(); break; case 11: status=ValidateRGBToLch(); break; case 12: status=ValidateLMSToRGB(); break; case 13: status=ValidateRGBToLMS(); break; case 14: status=ValidateLuvToRGB(); break; case 15: status=ValidateRGBToLuv(); break; case 16: status=ValidateXYZToRGB(); break; case 17: status=ValidateRGBToXYZ(); break; case 18: status=ValidateYDbDrToRGB(); break; case 19: status=ValidateRGBToYDbDr(); break; case 20: status=ValidateYIQToRGB(); break; case 21: status=ValidateRGBToYIQ(); break; case 22: status=ValidateYPbPrToRGB(); break; case 23: status=ValidateRGBToYPbPr(); break; case 24: status=ValidateYUVToRGB(); break; case 25: status=ValidateRGBToYUV(); break; default: status=MagickFalse; } if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e C o m p a r e C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateCompareCommand() validates the ImageMagick compare command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateCompareCommand method is: % % size_t ValidateCompareCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateCompareCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate compare command line program:\n"); for (i=0; compare_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) (test++), compare_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s %s %s", compare_options[i],reference_filename,reference_filename,output_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=CompareImagesCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e C o m p o s i t e C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateCompositeCommand() validates the ImageMagick composite command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateCompositeCommand method is: % % size_t ValidateCompositeCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateCompositeCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate composite command line program:\n"); for (i=0; composite_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) (test++), composite_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s %s %s", reference_filename,composite_options[i],reference_filename, output_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=CompositeImageCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e C o n v e r t C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateConvertCommand() validates the ImageMagick convert command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateConvertCommand method is: % % size_t ValidateConvertCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateConvertCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate convert command line program:\n"); for (i=0; convert_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) test++, convert_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s %s %s", reference_filename,convert_options[i],reference_filename,output_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=ConvertImageCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e I d e n t i f y C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateIdentifyCommand() validates the ImageMagick identify command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateIdentifyCommand method is: % % size_t ValidateIdentifyCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateIdentifyCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; (void) output_filename; test=0; (void) FormatLocaleFile(stdout,"validate identify command line program:\n"); for (i=0; identify_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) test++, identify_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s", identify_options[i],reference_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=IdentifyImageCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e I m a g e F o r m a t s I n M e m o r y % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateImageFormatsInMemory() validates the ImageMagick image formats in % memory and returns the number of validation tests that passed and failed. % % The format of the ValidateImageFormatsInMemory method is: % % size_t ValidateImageFormatsInMemory(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ /* Enable this to count remaining $TMPDIR/magick-* files. Note that the count includes any files left over from other runs. */ #undef MagickCountTempFiles static size_t ValidateImageFormatsInMemory(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char #ifdef MagickCountTempFiles path[MagickPathExtent], SystemCommand[MagickPathExtent], #endif size[MagickPathExtent]; const MagickInfo *magick_info; double distortion, fuzz; Image *difference_image, *ping_image, *reconstruct_image, *reference_image; MagickBooleanType status; register ssize_t i, j; size_t length, test; unsigned char *blob; test=0; (void) FormatLocaleFile(stdout,"validate image formats in memory:\n"); #ifdef MagickCountTempFiles (void)GetPathTemplate(path); /* Remove file template except for the leading "/path/to/magick-" */ path[strlen(path)-17]='\0'; (void) FormatLocaleFile(stdout," tmp path is '%s*'\n",path); #endif for (i=0; reference_formats[i].magick != (char *) NULL; i++) { magick_info=GetMagickInfo(reference_formats[i].magick,exception); if ((magick_info == (const MagickInfo *) NULL) || (magick_info->decoder == (DecodeImageHandler *) NULL) || (magick_info->encoder == (EncodeImageHandler *) NULL)) continue; for (j=0; reference_types[j].type != UndefinedType; j++) { /* Generate reference image. */ CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s/%s/%s/%.20g-bits", (double) (test++),reference_formats[i].magick,CommandOptionToMnemonic( MagickCompressOptions,reference_formats[i].compression), CommandOptionToMnemonic(MagickTypeOptions,reference_types[j].type), (double) reference_types[j].depth); (void) CopyMagickString(image_info->filename,reference_filename, MagickPathExtent); reference_image=ReadImage(image_info,exception); if (reference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Write reference image. */ (void) FormatLocaleString(size,MagickPathExtent,"%.20gx%.20g", (double) reference_image->columns,(double) reference_image->rows); (void) CloneString(&image_info->size,size); image_info->depth=reference_types[j].depth; (void) FormatLocaleString(reference_image->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); status=SetImageType(reference_image,reference_types[j].type,exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } status=SetImageDepth(reference_image,reference_types[j].depth,exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } reference_image->compression=reference_formats[i].compression; status=WriteImage(image_info,reference_image,exception); reference_image=DestroyImage(reference_image); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Ping reference image. */ (void) FormatLocaleString(image_info->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); ping_image=PingImage(image_info,exception); if (ping_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } ping_image=DestroyImage(ping_image); /* Read reference image. */ reference_image=ReadImage(image_info,exception); if (reference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Write reference image. */ (void) FormatLocaleString(reference_image->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); (void) CopyMagickString(image_info->magick,reference_formats[i].magick, MagickPathExtent); reference_image->depth=reference_types[j].depth; reference_image->compression=reference_formats[i].compression; length=8192; blob=ImageToBlob(image_info,reference_image,&length,exception); if (blob == (unsigned char *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } /* Ping reference blob. */ ping_image=PingBlob(image_info,blob,length,exception); if (ping_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; blob=(unsigned char *) RelinquishMagickMemory(blob); continue; } ping_image=DestroyImage(ping_image); /* Read reconstruct image. */ (void) FormatLocaleString(image_info->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); reconstruct_image=BlobToImage(image_info,blob,length,exception); blob=(unsigned char *) RelinquishMagickMemory(blob); if (reconstruct_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } /* Compare reference to reconstruct image. */ fuzz=0.003; /* grayscale */ if (reference_formats[i].fuzz != 0.0) fuzz=reference_formats[i].fuzz; difference_image=CompareImages(reference_image,reconstruct_image, RootMeanSquaredErrorMetric,&distortion,exception); reconstruct_image=DestroyImage(reconstruct_image); reference_image=DestroyImage(reference_image); if (difference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } difference_image=DestroyImage(difference_image); if ((QuantumScale*distortion) > fuzz) { (void) FormatLocaleFile(stdout,"... fail (with distortion %g).\n", QuantumScale*distortion); (*fail)++; continue; } #ifdef MagickCountTempFiles (void) FormatLocaleFile(stdout,"... pass, "); (void) fflush(stdout); SystemCommand[0]='\0'; (void) strncat(SystemCommand,"echo `ls ",9); (void) strncat(SystemCommand,path,MagickPathExtent-31); (void) strncat(SystemCommand,"* | wc -w` tmp files.",20); (void) system(SystemCommand); (void) fflush(stdout); #else (void) FormatLocaleFile(stdout,"... pass\n"); #endif } } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e I m a g e F o r m a t s O n D i s k % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateImageFormatsOnDisk() validates the ImageMagick image formats on disk % and returns the number of validation tests that passed and failed. % % The format of the ValidateImageFormatsOnDisk method is: % % size_t ValidateImageFormatsOnDisk(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateImageFormatsOnDisk(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char size[MagickPathExtent]; const MagickInfo *magick_info; double distortion, fuzz; Image *difference_image, *reference_image, *reconstruct_image; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate image formats on disk:\n"); for (i=0; reference_formats[i].magick != (char *) NULL; i++) { magick_info=GetMagickInfo(reference_formats[i].magick,exception); if ((magick_info == (const MagickInfo *) NULL) || (magick_info->decoder == (DecodeImageHandler *) NULL) || (magick_info->encoder == (EncodeImageHandler *) NULL)) continue; for (j=0; reference_types[j].type != UndefinedType; j++) { /* Generate reference image. */ CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s/%s/%s/%.20g-bits", (double) (test++),reference_formats[i].magick,CommandOptionToMnemonic( MagickCompressOptions,reference_formats[i].compression), CommandOptionToMnemonic(MagickTypeOptions,reference_types[j].type), (double) reference_types[j].depth); (void) CopyMagickString(image_info->filename,reference_filename, MagickPathExtent); reference_image=ReadImage(image_info,exception); if (reference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Write reference image. */ (void) FormatLocaleString(size,MagickPathExtent,"%.20gx%.20g", (double) reference_image->columns,(double) reference_image->rows); (void) CloneString(&image_info->size,size); image_info->depth=reference_types[j].depth; (void) FormatLocaleString(reference_image->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); status=SetImageType(reference_image,reference_types[j].type,exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } status=SetImageDepth(reference_image,reference_types[j].depth,exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } reference_image->compression=reference_formats[i].compression; status=WriteImage(image_info,reference_image,exception); reference_image=DestroyImage(reference_image); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Read reference image. */ (void) FormatLocaleString(image_info->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); reference_image=ReadImage(image_info,exception); if (reference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } /* Write reference image. */ (void) FormatLocaleString(reference_image->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); reference_image->depth=reference_types[j].depth; reference_image->compression=reference_formats[i].compression; status=WriteImage(image_info,reference_image,exception); if (status == MagickFalse ||exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } /* Read reconstruct image. */ (void) FormatLocaleString(image_info->filename,MagickPathExtent,"%s:%s", reference_formats[i].magick,output_filename); reconstruct_image=ReadImage(image_info,exception); if (reconstruct_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } /* Compare reference to reconstruct image. */ fuzz=0.003; /* grayscale */ if (reference_formats[i].fuzz != 0.0) fuzz=reference_formats[i].fuzz; difference_image=CompareImages(reference_image,reconstruct_image, RootMeanSquaredErrorMetric,&distortion,exception); reconstruct_image=DestroyImage(reconstruct_image); reference_image=DestroyImage(reference_image); if (difference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } difference_image=DestroyImage(difference_image); if ((QuantumScale*distortion) > fuzz) { (void) FormatLocaleFile(stdout,"... fail (with distortion %g).\n", QuantumScale*distortion); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e I m p o r t E x p o r t P i x e l s % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateImportExportPixels() validates the pixel import and export methods. % It returns the number of validation tests that passed and failed. % % The format of the ValidateImportExportPixels method is: % % size_t ValidateImportExportPixels(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateImportExportPixels(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { double distortion; Image *difference_image, *reference_image, *reconstruct_image; MagickBooleanType status; register ssize_t i, j; size_t length; unsigned char *pixels; size_t test; (void) output_filename; test=0; (void) FormatLocaleFile(stdout, "validate the import and export of image pixels:\n"); for (i=0; reference_map[i] != (char *) NULL; i++) { for (j=0; reference_storage[j].type != UndefinedPixel; j++) { /* Generate reference image. */ CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s/%s",(double) (test++), reference_map[i],CommandOptionToMnemonic(MagickStorageOptions, reference_storage[j].type)); (void) CopyMagickString(image_info->filename,reference_filename, MagickPathExtent); reference_image=ReadImage(image_info,exception); if (reference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } if (LocaleNCompare(reference_map[i],"cmy",3) == 0) (void) SetImageColorspace(reference_image,CMYKColorspace,exception); length=strlen(reference_map[i])*reference_image->columns* reference_image->rows*reference_storage[j].quantum; pixels=(unsigned char *) AcquireQuantumMemory(length,sizeof(*pixels)); if (pixels == (unsigned char *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } (void) ResetMagickMemory(pixels,0,length*sizeof(*pixels)); status=ExportImagePixels(reference_image,0,0,reference_image->columns, reference_image->rows,reference_map[i],reference_storage[j].type,pixels, exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; pixels=(unsigned char *) RelinquishMagickMemory(pixels); reference_image=DestroyImage(reference_image); continue; } (void) SetImageBackgroundColor(reference_image,exception); status=ImportImagePixels(reference_image,0,0,reference_image->columns, reference_image->rows,reference_map[i],reference_storage[j].type, pixels,exception); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; pixels=(unsigned char *) RelinquishMagickMemory(pixels); reference_image=DestroyImage(reference_image); continue; } /* Read reconstruct image. */ reconstruct_image=AcquireImage(image_info,exception); (void) SetImageExtent(reconstruct_image,reference_image->columns, reference_image->rows,exception); (void) SetImageColorspace(reconstruct_image,reference_image->colorspace, exception); (void) SetImageBackgroundColor(reconstruct_image,exception); status=ImportImagePixels(reconstruct_image,0,0,reconstruct_image->columns, reconstruct_image->rows,reference_map[i],reference_storage[j].type, pixels,exception); pixels=(unsigned char *) RelinquishMagickMemory(pixels); if (status == MagickFalse || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; reference_image=DestroyImage(reference_image); continue; } /* Compare reference to reconstruct image. */ difference_image=CompareImages(reference_image,reconstruct_image, RootMeanSquaredErrorMetric,&distortion,exception); reconstruct_image=DestroyImage(reconstruct_image); reference_image=DestroyImage(reference_image); if (difference_image == (Image *) NULL || exception->severity >= ErrorException) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); CatchException(exception); (*fail)++; continue; } difference_image=DestroyImage(difference_image); if ((QuantumScale*distortion) > 0.0) { (void) FormatLocaleFile(stdout,"... fail (with distortion %g).\n", QuantumScale*distortion); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e M o n t a g e C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateMontageCommand() validates the ImageMagick montage command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateMontageCommand method is: % % size_t ValidateMontageCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateMontageCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate montage command line program:\n"); for (i=0; montage_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) (test++), montage_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s %s %s", reference_filename,montage_options[i],reference_filename, output_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=MontageImageCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % V a l i d a t e S t r e a m C o m m a n d % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % ValidateStreamCommand() validates the ImageMagick stream command line % program and returns the number of validation tests that passed and failed. % % The format of the ValidateStreamCommand method is: % % size_t ValidateStreamCommand(ImageInfo *image_info, % const char *reference_filename,const char *output_filename, % size_t *fail,ExceptionInfo *exception) % % A description of each parameter follows: % % o image_info: the image info. % % o reference_filename: the reference image filename. % % o output_filename: the output image filename. % % o fail: return the number of validation tests that pass. % % o exception: return any errors or warnings in this structure. % */ static size_t ValidateStreamCommand(ImageInfo *image_info, const char *reference_filename,const char *output_filename,size_t *fail, ExceptionInfo *exception) { char **arguments, command[MagickPathExtent]; int number_arguments; MagickBooleanType status; register ssize_t i, j; size_t test; test=0; (void) FormatLocaleFile(stdout,"validate stream command line program:\n"); for (i=0; stream_options[i] != (char *) NULL; i++) { CatchException(exception); (void) FormatLocaleFile(stdout," test %.20g: %s",(double) (test++), stream_options[i]); (void) FormatLocaleString(command,MagickPathExtent,"%s %s %s", stream_options[i],reference_filename,output_filename); arguments=StringToArgv(command,&number_arguments); if (arguments == (char **) NULL) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } status=StreamImageCommand(image_info,number_arguments,arguments, (char **) NULL,exception); for (j=0; j < (ssize_t) number_arguments; j++) arguments[j]=DestroyString(arguments[j]); arguments=(char **) RelinquishMagickMemory(arguments); if (status == MagickFalse) { (void) FormatLocaleFile(stdout,"... fail @ %s/%s/%lu.\n", GetMagickModule()); (*fail)++; continue; } (void) FormatLocaleFile(stdout,"... pass.\n"); } (void) FormatLocaleFile(stdout, " summary: %.20g subtests; %.20g passed; %.20g failed.\n",(double) test, (double) (test-(*fail)),(double) *fail); return(test); } /* %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % % % % % % M a i n % % % % % % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % */ static MagickBooleanType ValidateUsage(void) { const char **p; static const char *miscellaneous[]= { "-debug events display copious debugging information", "-help print program options", "-log format format of debugging information", "-validate type validation type", "-version print version information", (char *) NULL }, *settings[]= { "-regard-warnings pay attention to warning messages", "-verbose print detailed information about the image", (char *) NULL }; (void) printf("Version: %s\n",GetMagickVersion((size_t *) NULL)); (void) printf("Copyright: %s\n\n",GetMagickCopyright()); (void) printf("Features: %s\n",GetMagickFeatures()); (void) printf("Usage: %s [options ...] reference-file\n",GetClientName()); (void) printf("\nValidate Settings:\n"); for (p=settings; *p != (char *) NULL; p++) (void) printf(" %s\n",*p); (void) printf("\nMiscellaneous Options:\n"); for (p=miscellaneous; *p != (char *) NULL; p++) (void) printf(" %s\n",*p); return(MagickTrue); } int main(int argc,char **argv) { #define DestroyValidate() \ { \ image_info=DestroyImageInfo(image_info); \ exception=DestroyExceptionInfo(exception); \ } #define ThrowValidateException(asperity,tag,option) \ { \ (void) ThrowMagickException(exception,GetMagickModule(),asperity,tag,"`%s'", \ option); \ CatchException(exception); \ DestroyValidate(); \ return(MagickFalse); \ } char output_filename[MagickPathExtent], reference_filename[MagickPathExtent], *option; double elapsed_time, user_time; ExceptionInfo *exception; Image *reference_image; ImageInfo *image_info; MagickBooleanType regard_warnings, status; MagickSizeType memory_resource, map_resource; register ssize_t i; TimerInfo *timer; size_t fail, iterations, tests; ValidateType type; /* Validate the ImageMagick image processing suite. */ MagickCoreGenesis(*argv,MagickTrue); (void) setlocale(LC_ALL,""); (void) setlocale(LC_NUMERIC,"C"); iterations=1; status=MagickFalse; type=AllValidate; regard_warnings=MagickFalse; (void) regard_warnings; exception=AcquireExceptionInfo(); image_info=AcquireImageInfo(); (void) CopyMagickString(image_info->filename,ReferenceFilename,MagickPathExtent); for (i=1; i < (ssize_t) argc; i++) { option=argv[i]; if (IsCommandOption(option) == MagickFalse) { (void) CopyMagickString(image_info->filename,option,MagickPathExtent); continue; } switch (*(option+1)) { case 'b': { if (LocaleCompare("bench",option+1) == 0) { iterations=StringToUnsignedLong(argv[++i]); break; } ThrowValidateException(OptionError,"UnrecognizedOption",option) } case 'd': { if (LocaleCompare("debug",option+1) == 0) { (void) SetLogEventMask(argv[++i]); break; } ThrowValidateException(OptionError,"UnrecognizedOption",option) } case 'h': { if (LocaleCompare("help",option+1) == 0) { (void) ValidateUsage(); return(0); } ThrowValidateException(OptionError,"UnrecognizedOption",option) } case 'l': { if (LocaleCompare("log",option+1) == 0) { if (*option != '+') (void) SetLogFormat(argv[i+1]); break; } ThrowValidateException(OptionError,"UnrecognizedOption",option) } case 'r': { if (LocaleCompare("regard-warnings",option+1) == 0) { regard_warnings=MagickTrue; break; } ThrowValidateException(OptionError,"UnrecognizedOption",option) } case 'v': { if (LocaleCompare("validate",option+1) == 0) { ssize_t validate; if (*option == '+') break; i++; if (i >= (ssize_t) argc) ThrowValidateException(OptionError,"MissingArgument",option); validate=ParseCommandOption(MagickValidateOptions,MagickFalse, argv[i]); if (validate < 0) ThrowValidateException(OptionError,"UnrecognizedValidateType", argv[i]); type=(ValidateType) validate; break; } if ((LocaleCompare("version",option+1) == 0) || (LocaleCompare("-version",option+1) == 0)) { (void) FormatLocaleFile(stdout,"Version: %s\n", GetMagickVersion((size_t *) NULL)); (void) FormatLocaleFile(stdout,"Copyright: %s\n\n", GetMagickCopyright()); (void) FormatLocaleFile(stdout,"Features: %s\n\n", GetMagickFeatures()); return(0); } ThrowValidateException(OptionError,"UnrecognizedOption",option) } default: ThrowValidateException(OptionError,"UnrecognizedOption",option) } } timer=(TimerInfo *) NULL; if (iterations > 1) timer=AcquireTimerInfo(); reference_image=ReadImage(image_info,exception); tests=0; fail=0; if (reference_image == (Image *) NULL) fail++; else { if (LocaleCompare(image_info->filename,ReferenceFilename) == 0) (void) CopyMagickString(reference_image->magick,ReferenceImageFormat, MagickPathExtent); (void) AcquireUniqueFilename(reference_filename); (void) AcquireUniqueFilename(output_filename); (void) CopyMagickString(reference_image->filename,reference_filename, MagickPathExtent); status=WriteImage(image_info,reference_image,exception); reference_image=DestroyImage(reference_image); if (status == MagickFalse) fail++; else { (void) FormatLocaleFile(stdout,"Version: %s\n", GetMagickVersion((size_t *) NULL)); (void) FormatLocaleFile(stdout,"Copyright: %s\n\n", GetMagickCopyright()); (void) FormatLocaleFile(stdout, "ImageMagick Validation Suite (%s)\n\n",CommandOptionToMnemonic( MagickValidateOptions,(ssize_t) type)); if ((type & ColorspaceValidate) != 0) tests+=ValidateColorspaces(image_info,&fail,exception); if ((type & CompareValidate) != 0) tests+=ValidateCompareCommand(image_info,reference_filename, output_filename,&fail,exception); if ((type & CompositeValidate) != 0) tests+=ValidateCompositeCommand(image_info,reference_filename, output_filename,&fail,exception); if ((type & ConvertValidate) != 0) tests+=ValidateConvertCommand(image_info,reference_filename, output_filename,&fail,exception); if ((type & FormatsDiskValidate) != 0) { memory_resource=SetMagickResourceLimit(MemoryResource,0); map_resource=SetMagickResourceLimit(MapResource,0); (void) FormatLocaleFile(stdout,"[pixel-cache: disk] "); tests+=ValidateImageFormatsInMemory(image_info,reference_filename, output_filename,&fail,exception); (void) FormatLocaleFile(stdout,"[pixel-cache: disk] "); tests+=ValidateImageFormatsOnDisk(image_info,reference_filename, output_filename,&fail,exception); (void) SetMagickResourceLimit(MemoryResource,memory_resource); (void) SetMagickResourceLimit(MapResource,map_resource); } if ((type & FormatsMapValidate) != 0) { memory_resource=SetMagickResourceLimit(MemoryResource,0); (void) FormatLocaleFile(stdout,"[pixel-cache: memory-mapped] "); tests+=ValidateImageFormatsInMemory(image_info,reference_filename, output_filename,&fail,exception); (void) FormatLocaleFile(stdout,"[pixel-cache: memory-mapped] "); tests+=ValidateImageFormatsOnDisk(image_info,reference_filename, output_filename,&fail,exception); (void) SetMagickResourceLimit(MemoryResource,memory_resource); } if ((type & FormatsMemoryValidate) != 0) { (void) FormatLocaleFile(stdout,"[pixel-cache: memory] "); tests+=ValidateImageFormatsInMemory(image_info,reference_filename, output_filename,&fail,exception); (void) FormatLocaleFile(stdout,"[pixel-cache: memory] "); tests+=ValidateImageFormatsOnDisk(image_info,reference_filename, output_filename,&fail,exception); } if ((type & IdentifyValidate) != 0) tests+=ValidateIdentifyCommand(image_info,reference_filename, output_filename,&fail,exception); if ((type & ImportExportValidate) != 0) tests+=ValidateImportExportPixels(image_info,reference_filename, output_filename,&fail,exception); if ((type & MontageValidate) != 0) tests+=ValidateMontageCommand(image_info,reference_filename, output_filename,&fail,exception); if ((type & StreamValidate) != 0) tests+=ValidateStreamCommand(image_info,reference_filename, output_filename,&fail,exception); (void) FormatLocaleFile(stdout, "validation suite: %.20g tests; %.20g passed; %.20g failed.\n", (double) tests,(double) (tests-fail),(double) fail); } (void) RelinquishUniqueFileResource(output_filename); (void) RelinquishUniqueFileResource(reference_filename); } if (exception->severity != UndefinedException) CatchException(exception); if (iterations > 1) { elapsed_time=GetElapsedTime(timer); user_time=GetUserTime(timer); (void) FormatLocaleFile(stderr, "Performance: %.20gi %gips %0.3fu %ld:%02ld.%03ld\n",(double) iterations,1.0*iterations/elapsed_time,user_time,(long) (elapsed_time/60.0),(long) ceil(fmod(elapsed_time,60.0)), (long) (1000.0*(elapsed_time-floor(elapsed_time)))); timer=DestroyTimerInfo(timer); } DestroyValidate(); MagickCoreTerminus(); return(fail == 0 ? 0 : 1); }