Convert standardized tri-stimulus XYZ into perceptual uniform CIE L*u*v*. More...

#include <vigra/colorconversions.hxx>

Public Types
typedef TinyVector< T, 3 >	argument_type
typedef NumericTraits< T >::RealPromote	component_type
typedef TinyVector< component_type, 3 >	result_type
typedef TinyVector< component_type, 3 >	value_type

Detailed Description

template<class T>
class vigra::XYZ2LuvFunctor< T >

Convert standardized tri-stimulus XYZ into perceptual uniform CIE L*u*v*.

#include <vigra/colorconversions.hxx>
Namespace: vigra

The functor realizes the transformation

$\‍[ \begin{array}{rcl} L^{*} & = & 116 \left( \frac{Y}{Y_n} \right)^\frac{1}{3}-16 \quad \mbox{if} \quad 0.008856 < \frac{Y}{Y_n}\\ & & \\ L^{*} & = & 903.3\enspace \frac{Y}{Y_n} \quad \mbox{otherwise} \\ & & \\ u' & = & \frac{4 X}{X+15 Y + 3 Z}, \quad v' = \frac{9 Y}{X+15 Y + 3 Z}\\ & & \\ u^{*} & = & 13 L^{*} (u' - u_n'), \quad v^{*} = 13 L^{*} (v' - v_n') \end{array} \‍]$

where is the reference white point of standard illuminant D65, and are the quantities calculated for this point. $L^{*}$ represents the lightness ("brightness") of the color, and $u^{*}, v^{*}$ code the chromaticity. (Instead of the rationals $\frac{216}{24389}$ and $\frac{24389}{27}$ , the original standard gives the rounded values 0.008856 and 903.3. As Bruce Lindbloom points out, the rounded values give raise to a discontinuity which is removed by the accurate rationals. This bug will be fixed in future versions of the CIE Luv standard.)