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I am trying to convert a Lab color into RGB. As an example for this conversion, Photoshop converts

L= 100, a = 0, b = 127 

into

R=255, G=252, B=0.

This color is bright yellow.

I have written the following conversion routine (C/Objective C). However, something is not right. The code will output

XYZ = 100.000000 100.000000 4.862713
RGB = 163.908401 90.755638 -13.093634

Here the mismatch between the the RGB-result and Photoshop's RGB seems to be quite large. The negative blue component is also a problem.

Any ideas on how to correct the below code would be greatly appreciated? Or, any other algorithms/formulas/pseudocode for converting Lab into RGB? Thank you.

The code:

/*
 *   See Wikipedia artice on Lab color space
 *
 *    http://en.wikipedia.org/wiki/Lab_color_space
 *
 */
CGFloat fInv (CGFloat t) {

   CGFloat T0 = (CGFloat) 6.0f/29.0f;

   if (t > T0) {
       return t*t*t;
   }

   return 3.0 * T0 * T0 * (t - 4.0f/29.0f);

}


int test() {

    //
    //  Bright yellow test 
    //
    CGFloat Ls = 100.0f;
    CGFloat as = 0.0f;
    CGFloat bs = 127.0f;

    //
    //  Reference white point (ad hoc)
    //
    CGFloat Xn = 100;
    CGFloat Yn = 100;    
    CGFloat Zn = 100;

    //
    //   Taken Wikipedia (see above)
    //
    CGFloat X =  Xn * fInv(1/116.0f * (Ls + 16.0f) + 1/500.0f * as);
    CGFloat Y =  Yn * fInv(1/116.0f * (Ls + 16.0f));
    CGFloat Z =  Zn * fInv(1/116.0f * (Ls + 16.0f) - 1/200.0f * bs);

    NSLog(@" XYZ = %f %f %f", X, Y, Z);

    // 
    // 
    //   XYZ to RGB transfomration using AppleRGB. Taken from 
    //
    //       http://brucelindbloom.com/index.html?Eqn_RGB_XYZ_Matrix.html
    //
    //
    CGFloat r =  2.9515373 * X  - 1.2894116 * Y - 0.4738445 * Z;
    CGFloat g = -1.0851093 * X  + 1.9908566 * Y + 0.0372026 * Z;
    CGFloat b =  0.0854934 * X  - 0.2694964 * Y + 1.0912975 * Z;

    NSLog(@" RGB = %f %f %f", r, g, b);

 }
share|improve this question
    
It is in fact very difficult to convert RGB to LAB satisfactory. I elaborated a bit more on it in this post if you're interested. –  Backlin Oct 19 '12 at 16:53

3 Answers 3

Try implementing formulas from this site. I just implemented RGB->Lab(through XYZ) and it works fine.

C++ code:

// using http://www.easyrgb.com/index.php?X=MATH&H=01#text1
void rgb2lab( float R, float G, float B, float & l_s, float &a_s, float &b_s )
{
    float var_R = R/255.0;
    float var_G = G/255.0;
    float var_B = B/255.0;


    if ( var_R > 0.04045 ) var_R = pow( (( var_R + 0.055 ) / 1.055 ), 2.4 );
    else                   var_R = var_R / 12.92;
    if ( var_G > 0.04045 ) var_G = pow( ( ( var_G + 0.055 ) / 1.055 ), 2.4);
    else                   var_G = var_G / 12.92;
    if ( var_B > 0.04045 ) var_B = pow( ( ( var_B + 0.055 ) / 1.055 ), 2.4);
    else                   var_B = var_B / 12.92;

    var_R = var_R * 100.;
    var_G = var_G * 100.;
    var_B = var_B * 100.;

    //Observer. = 2°, Illuminant = D65
    float X = var_R * 0.4124 + var_G * 0.3576 + var_B * 0.1805;
    float Y = var_R * 0.2126 + var_G * 0.7152 + var_B * 0.0722;
    float Z = var_R * 0.0193 + var_G * 0.1192 + var_B * 0.9505;


    float var_X = X / 95.047 ;         //ref_X =  95.047   Observer= 2°, Illuminant= D65
    float var_Y = Y / 100.000;          //ref_Y = 100.000
    float var_Z = Z / 108.883;          //ref_Z = 108.883

    if ( var_X > 0.008856 ) var_X = pow(var_X , ( 1./3. ) );
    else                    var_X = ( 7.787 * var_X ) + ( 16. / 116. );
    if ( var_Y > 0.008856 ) var_Y = pow(var_Y , ( 1./3. ));
    else                    var_Y = ( 7.787 * var_Y ) + ( 16. / 116. );
    if ( var_Z > 0.008856 ) var_Z = pow(var_Z , ( 1./3. ));
    else                    var_Z = ( 7.787 * var_Z ) + ( 16. / 116. );

    l_s = ( 116. * var_Y ) - 16.;
    a_s = 500. * ( var_X - var_Y );
    b_s = 200. * ( var_Y - var_Z );


}

//http://www.easyrgb.com/index.php?X=MATH&H=01#text1
void lab2rgb( float l_s, float a_s, float b_s, float& R, float& G, float& B )
{
    float var_Y = ( l_s + 16. ) / 116.;
    float var_X = a_s / 500. + var_Y;
    float var_Z = var_Y - b_s / 200.;

    if ( pow(var_Y,3) > 0.008856 ) var_Y = pow(var_Y,3);
    else                      var_Y = ( var_Y - 16. / 116. ) / 7.787;
    if ( pow(var_X,3) > 0.008856 ) var_X = pow(var_X,3);
    else                      var_X = ( var_X - 16. / 116. ) / 7.787;
    if ( pow(var_Z,3) > 0.008856 ) var_Z = pow(var_Z,3);
    else                      var_Z = ( var_Z - 16. / 116. ) / 7.787;

    float X = 95.047 * var_X ;    //ref_X =  95.047     Observer= 2°, Illuminant= D65
    float Y = 100.000 * var_Y  ;   //ref_Y = 100.000
    float Z = 108.883 * var_Z ;    //ref_Z = 108.883


    var_X = X / 100. ;       //X from 0 to  95.047      (Observer = 2°, Illuminant = D65)
    var_Y = Y / 100. ;       //Y from 0 to 100.000
    var_Z = Z / 100. ;      //Z from 0 to 108.883

    float var_R = var_X *  3.2406 + var_Y * -1.5372 + var_Z * -0.4986;
    float var_G = var_X * -0.9689 + var_Y *  1.8758 + var_Z *  0.0415;
    float var_B = var_X *  0.0557 + var_Y * -0.2040 + var_Z *  1.0570;

    if ( var_R > 0.0031308 ) var_R = 1.055 * pow(var_R , ( 1 / 2.4 ))  - 0.055;
    else                     var_R = 12.92 * var_R;
    if ( var_G > 0.0031308 ) var_G = 1.055 * pow(var_G , ( 1 / 2.4 ) )  - 0.055;
    else                     var_G = 12.92 * var_G;
    if ( var_B > 0.0031308 ) var_B = 1.055 * pow( var_B , ( 1 / 2.4 ) ) - 0.055;
    else                     var_B = 12.92 * var_B;

    R = var_R * 255.;
    G = var_G * 255.;
    B = var_B * 255.;

}
share|improve this answer

Each i-device is slightly different colour-wise, but I believe Apple recommends sRGB as the device colour space for all devices. Certainly for iPad 3/4, the display matches sRGB. (See this colour analysis)

What this means is, if you're after accurate colours, you should use an sRGB ICC profile to help you convert your Lab colour values. You can use the open source software Little CMS to do this conversion for you.

share|improve this answer

Try

void LAB2RGB(int L, int a, int b, unsigned char & R, unsigned char & G, unsigned char & B)
{
    float X, Y, Z, fX, fY, fZ;
    int RR, GG, BB;

    fY = pow((L + 16.0) / 116.0, 3.0);
    if (fY < 0.008856)
        fY = L / 903.3;
    Y = fY;

    if (fY > 0.008856)
        fY = powf(fY, 1.0/3.0);
    else
        fY = 7.787 * fY + 16.0/116.0;

    fX = a / 500.0 + fY;      
    if (fX > 0.206893)
        X = powf(fX, 3.0);
    else
        X = (fX - 16.0/116.0) / 7.787;

    fZ = fY - b /200.0;      
    if (fZ > 0.206893)
        Z = powf(fZ, 3.0);
    else
        Z = (fZ - 16.0/116.0) / 7.787;

    X *= (0.950456 * 255);
    Y *=             255;
    Z *= (1.088754 * 255);

    RR =  (int)(3.240479*X - 1.537150*Y - 0.498535*Z + 0.5);
    GG = (int)(-0.969256*X + 1.875992*Y + 0.041556*Z + 0.5);
    BB =  (int)(0.055648*X - 0.204043*Y + 1.057311*Z + 0.5);

    R = (unsigned char)(RR < 0 ? 0 : RR > 255 ? 255 : RR);
    G = (unsigned char)(GG < 0 ? 0 : GG > 255 ? 255 : GG);
    B = (unsigned char)(BB < 0 ? 0 : BB > 255 ? 255 : BB);

    //printf("Lab=(%f,%f,%f) ==> RGB(%f,%f,%f)\n",L,a,b,*R,*G,*B);
}
share|improve this answer
3  
Where's the reference white in that code? –  Tilman Hausherr Mar 25 '14 at 12:25
    
@herohuyongtao “where do all the magic numbers come from”? –  flying sheep Jan 5 at 16:28
    
@TilmanHausherr Please refer to ai.stanford.edu/~ruzon/software/rgblab.html. –  herohuyongtao Jan 6 at 5:09
    
@flyingsheep Please refer to ai.stanford.edu/~ruzon/software/rgblab.html. –  herohuyongtao Jan 6 at 5:09
    
@herohuyongtao thanks! unfortunately that code has pretty bad documentation like “Alter fY slightly for further calculations”. this page has the math! –  flying sheep Jan 6 at 15:09

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