# Can't convert from HSL to RGB

I have a problem with converting a color from HSL to RGB. I've written the following function:

struct RGB {
float r, g, b;
};
RGB hslToRgb( float hue, float saturation, float lightness ) {

RGB rgb1, rgbResult;

float chroma = ( 1.0 - (float) abs( 2.0 * lightness - 1.0 ) ) * saturation;
float h1 = hue / 60.0;
float x = chroma * ( 1.0 - (float) abs( (float) ( (int) h1 % 2 ) - 1.0 ) );

if ( ( 0 <= h1 ) && ( h1 < 1 ) ) {

rgb1.r = chroma;
rgb1.g = x;
rgb1.b = 0.0;

} else if ( ( 1 <= h1 ) && ( h1 < 2 ) ) {

rgb1.r = x;
rgb1.g = chroma;
rgb1.b = 0.0;

} else if ( ( 2 <= h1 ) && ( h1 < 3 ) ) {

rgb1.r = 0.0;
rgb1.g = chroma;
rgb1.b = x;

} else if ( ( 3 <= h1 ) && ( h1 < 4 ) ) {

rgb1.r = 0.0;
rgb1.g = x;
rgb1.b = chroma;

} else if ( ( 4 <= h1 ) && ( h1 < 5 ) ) {

rgb1.r = x;
rgb1.g = 0.0;
rgb1.b = chroma;

} else if ( ( 5 <= h1 ) && ( h1 < 6 ) ) {

rgb1.r = chroma;
rgb1.g = 0;
rgb1.b = x;

} else {

rgb1.r = 0.0;
rgb1.g = 0.0;
rgb1.b = 0.0;

}

float m = lightness - 0.5 * chroma;

rgbResult.r = rgb1.r + m;
rgbResult.g = rgb1.g + m;
rgbResult.b = rgb1.b + m;

return rgbResult;

}


here it is its test:

float cHue = 0.0;
while ( cHue < 360 ) {
RGB rgb1 = hslToRgb( (int) cHue, 1.0, 0.5 ); // max on saturation and a middle value for lightness
printf( "r = %f, g = %f, b = %f\n", rgb1.r, rgb1.g, rgb1.b );
cHue += 1.0;
}


but I get only 1.0 and 0.0 when I need to get all range between this "integers".

r = 1.000000, g = 0.000000, b = 1.000000
r = 1.000000, g = 0.000000, b = 1.000000
r = 1.000000, g = 0.000000, b = 1.000000
r = 1.000000, g = 0.000000, b = 0.000000
r = 1.000000, g = 0.000000, b = 0.000000
r = 1.000000, g = 0.000000, b = 0.000000


Can anyone help me with this code? Formulas from: http://en.wikipedia.org/wiki/HSL_and_HSV

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The ( 1 <= h1 ) tests are redundant and unnecessary since you're using an else if. – Shmiddty Nov 15 '12 at 22:37
@Shmiddty, why...? For example, if we have h1 == 3.4, it runs the fourth block of "if"-code. Doesn't it? – JavaRunner Nov 15 '12 at 22:42
You could simplify it like this: if (h1 < 1) {...} else if (h1 < 2){...} etc since the first test will fail if h1 >= 1, which is the same as 1 <= h1. The test is redundant. – Shmiddty Nov 15 '12 at 22:45

Use floating point modulo fmodf as:

float x = chroma * ( 1.0 - (float) abs( fmodf(h1, 2.0) - 1.0 ));

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Wow. Excellent solution! It works great. I didn't know about this function :) Thanks! – JavaRunner Nov 15 '12 at 22:50
You can also use fabsf instead of abs to avoid casting to/from double – Michael Sh Nov 15 '12 at 22:55

Stop using C-style casts (like (int) and (float)) in C++ code. Use fabs when you need a floating point absolute function. Break complex formulas down into many steps, you don't gain any efficiency by doing it all on one line.

Do 1 calculation per line. Store the result in a variable of the type you think you need, with a descriptive name. See if you can avoid ever using an int unless you are supposed to explicitly round.

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thanks for the advice! – JavaRunner Nov 15 '12 at 22:50
instead of fabs, you should really use std::abs, which is properly overloaded for every type, albeit in different headers: the floating point overloads are in <cmath>, the integer version is in <cstdlib> and the complex and valarray templates are in their respective class headers. – rubenvb Mar 4 '13 at 15:51

Your chroma value seems off. You have it as

float chroma = ( 1.0 - (float) abs( 2.0 * lightness - 1.0 ) ) * saturation;


but I think it should be

float chroma = saturation * lightness;


since Wikipedia says,

From HSV

Given a color with hue H ∈ [0°, 360°), saturation SHSV ∈ [0, 1], and value V ∈ [0, 1],
we first find chroma:

C = V \times S_{HSV}

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it's for HSV, but I deal with HSL :) – JavaRunner Nov 15 '12 at 22:57

float x = chroma * ( 1.0 - (float) abs( (float) ( (int) h1 % 2 ) - 1.0 ) );

Your casting of (int) for the modulus causes it to remove all the decimals of the float. Thereby making this a binary function.