/* * Copyright (C) 2021 Christopher J. Howard * * This file is part of Antkeeper source code. * * Antkeeper source code is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Antkeeper source code is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Antkeeper source code. If not, see . */ #ifndef ANTKEEPER_COLOR_XYZ_HPP #define ANTKEEPER_COLOR_XYZ_HPP #include "math/math.hpp" namespace color { /** * CIE XYZ color space. * * @see https://en.wikipedia.org/wiki/CIE_1931_color_space */ namespace xyz { /** * Returns the luminance of a CIE XYZ color. * * @param x CIE XYZ color. * @return return Luminance of @p x. */ template constexpr inline T luminance(const math::vector3& x) { return x[1]; } /** * Transforms a CIE XYZ color into the CIE xyY color space. * * @param x CIE XYZ color. * @return CIE xyY color. */ template constexpr math::vector3 to_xyy(const math::vector3& x) { const T sum = x[0] + x[1] + x[2]; return math::vector3{x[0] / sum, x[1] / sum, x[1]} } /** * CIE 1931 standard observer color matching function for the X tristimulus value. * * @param lambda Wavelength of light, in nanometers. * @return Matching X tristimulus value. * * @see match(T) */ template T match_x(T lambda) { const T t0 = (lambda - T(442.0)) * ((lambda < T(442.0)) ? T(0.0624) : T(0.0374)); const T t1 = (lambda - T(599.8)) * ((lambda < T(599.8)) ? T(0.0264) : T(0.0323)); const T t2 = (lambda - T(501.1)) * ((lambda < T(501.1)) ? T(0.0490) : T(0.0382)); const T x0 = T( 0.362) * std::exp(T(-0.5) * t0 * t0); const T x1 = T( 1.056) * std::exp(T(-0.5) * t1 * t1); const T x2 = T(-0.065) * std::exp(T(-0.5) * t2 * t2); return x0 + x1 + x2; } /** * CIE 1931 standard observer color matching function for the Y tristimulus value. * * @param lambda Wavelength of light, in nanometers. * @return Matching Y tristimulus value. * * @see match(T) */ template T match_y(T lambda) { const T t0 = (lambda - T(568.8)) * ((lambda < T(568.8)) ? T(0.0213) : T(0.0247)); const T t1 = (lambda - T(530.9)) * ((lambda < T(530.9)) ? T(0.0613) : T(0.0322)); const T y0 = T(0.821) * std::exp(T(-0.5) * t0 * t0); const T y1 = T(0.286) * std::exp(T(-0.5) * t1 * t1); return y0 + y1; } /** * CIE 1931 standard observer color matching function for the Z tristimulus value. * * @param lambda Wavelength of light, in nanometers. * @return Matching Z tristimulus value. * * @see match(T) */ template T match_z(T lambda) { const T t0 = (lambda - T(437.0)) * ((lambda < T(437.0)) ? T(0.0845) : T(0.0278)); const T t1 = (lambda - T(459.0)) * ((lambda < T(459.0)) ? T(0.0385) : T(0.0725)); const T z0 = T(1.217) * std::exp(T(-0.5) * t0 * t0); const T z1 = T(0.681) * std::exp(T(-0.5) * t1 * t1); return z0 + z1; } /** * Fitted piecewise gaussian approximation to the CIE 1931 standard observer color matching function. * * @param lambda Wavelength of light, in nanometers. * @return Matching CIE XYZ color. * * @see match_x(T) * @see match_y(T) * @see match_z(T) * * @see Wyman, C., Sloan, P.J., & Shirley, P. (2013). Simple Analytic Approximations to the CIE XYZ Color Matching Functions. */ template math::vector3 match(T lambda) { return math::vector3 { match_x(lambda), match_y(lambda), match_z(lambda) }; } } // namespace xyz } // namespace color #endif // ANTKEEPER_COLOR_XYZ_HPP