# Unexpected result in color conversion from LAB to RGB

My goal is to create high-resolution images of color charts in LAB. I'm a beginner in programming and I use Processing because that's the best I know to do it. However, it works only in RGB or HSB so I have to convert LAB to RGB in order to display it.

I used the formulas found on the web (LAB to XYZ and XYZ to RGB) I included them in my code, then I use a "for" loop to determine the color for each pixel.

I saw a few topics on color conversion, but I'm kind of stuck as I don't know where my problem is coming from ....

So here it is: for a fixed value of L = 100, everything is working perfectly, I'm getting this image as expected : https://drive.google.com/file/d/0ByjuuWpChE01X3otSFRQNFUyVjA/edit?usp=sharing

But when I try to make another image for a fixed value of a = 0, I get a horizontal line in the bottom, as if there was a problem with lower values of L ... here it is : https://drive.google.com/file/d/0ByjuuWpChE01RzJWUVZnR2U3VW8/edit?usp=sharing

Here is my code, I hope it will be clear, ask me if you need anything, and thank you very much for your help.

``````// parameters for the code execution
void setup() {
noLoop();
size(10,10,P2D);

nuancier = createGraphics(taille,taille);

}

// final image file and size
PGraphics nuancier ;
int taille = 1000 ;

// Arrays for color values
float[] colorLAB = new float[3];
float[] colorXYZ = new float[3];
float[] colorRGB = new float[3];

// colors
float X;
float Y;
float Z;
float L;
float a;
float b;
float R;
float G;
float B;

// pixels
int x ;
int y ;

// function to convert Lab to XYZ
float[] LABtoXYZ() {

L = colorLAB[0];
a = colorLAB[1];
b = colorLAB[2];

float ntY = ( L + 16 ) / 116 ;
float ntX = a / 500 + ntY ;
float ntZ = ntY - b / 200 ;
if ( (pow(ntY,3)) > 0.008856 ) {
ntY = (pow(ntY,3)) ;
} else { ntY = ( ntY - 16 / 116 ) / 7.787 ; }
if ( (pow(ntX,3)) > 0.008856 ) {
ntX = (pow(ntX,3)) ;
} else { ntX = ( ntX - 16 / 116 ) / 7.787 ; }
if ( (pow(ntZ,3)) > 0.008856 ) {
ntZ = (pow(ntZ,3)) ;
} else { ntZ = ( ntZ - 16 / 116 ) / 7.787 ; }
X = 95.047 * ntX ;     //ref_X =  95.047      Observateur= 2°, Illuminant= D65
Y = 100 * ntY ;     //ref_Y = 100.000
Z = 108.883 * ntZ ;     //ref_Z = 108.883

colorXYZ[0] = X ;
colorXYZ[1] = Y ;
colorXYZ[2] = Z ;
return colorXYZ ;

}

// function to convert  XYZ to RGB
float[] XYZtoRGB() {

X = colorXYZ[0];
Y = colorXYZ[1];
Z = colorXYZ[2];

float ntX = X / 100 ;         //X compris entre 0 et  95.047      ( Observateur = 2°, Illuminant = D65 )
float ntY = Y / 100 ;         //Y compris entre 0 et 100.000
float ntZ = Z / 100 ;         //Z compris entre 0 et 108.883

float ntR = ntX *  3.2406 + ntY * (-1.5372) + ntZ * (-0.4986) ;
float ntG = ntX * (-0.9689) + ntY *  1.8758 + ntZ *  0.0415 ;
float ntB = ntX *  0.0557 + ntY * (-0.2040) + ntZ *  1.0570 ;

if ( ntR > 0.0031308 ) {
ntR = 1.055 * ( pow(ntR,( 1 / 2.4 )) ) - 0.055 ;
} else { ntR = 12.92 * ntR ; }
if ( ntG > 0.0031308 ) {
ntG = 1.055 * ( pow(ntG,( 1 / 2.4 )) ) - 0.055 ;
} else { ntG = 12.92 * ntG ; }
if ( ntB > 0.0031308 ) {
ntB = 1.055 * ( pow(ntB,( 1 / 2.4 )) ) - 0.055 ;
} else { ntB = 12.92 * ntB ; }

R = ntR * 255 ;
G = ntG * 255 ;
B = ntB * 255 ;

colorRGB[0] = R ;
colorRGB[1] = G ;
colorRGB[2] = B ;
return colorRGB ;

}

// I know that with RGB, not every visible color is possible
//so I just made this quick function, to bound RGB values between 0 and 255

float[] arrondirRGB () {
for (int i=0;i<3;i++) {
if (colorRGB[i]>255) {
colorRGB[i]=255 ;
}
if (colorRGB[i]<0) {
colorRGB[i]=0 ;
}
}
return colorRGB;
}

// operating section
void draw () {

nuancier.beginDraw();
nuancier.noSmooth();
nuancier.colorMode(RGB, 255);
nuancier.endDraw();

for (x=0;x<taille;x++) {
for (y=0;y<taille;y++) {

colorLAB[0] = (((taille-y)*100)/taille) ; // --------------------------------------------------------------- valeur 100  // formule ((x*100)/taille)
colorLAB[1] = 0 ; // ----------------------------------------------------------- valeur 0    // formule ((x*256)/taille)-127
colorLAB[2] = (((x)*256)/taille)-127 ; // -------------------------------------------------- valeur 0    // (((taille-y)*256)/taille)-127

println(colorLAB[0]);

LABtoXYZ () ;
XYZtoRGB () ;
arrondirRGB () ;

nuancier.beginDraw();
nuancier.stroke (colorRGB[0],colorRGB[1],colorRGB[2]);
nuancier.point (x,y);
nuancier.endDraw();

}
}

nuancier.save("nuancier.tiff");
println("done !");
}
``````