using System; using System.Collections.Generic; using System.Linq; namespace UnityEngine.Experimental.Rendering.HDPipeline { public class LightUtils { // Physical light unit helper // All light unit are in lumen (Luminous power) // Punctual light (point, spot) are convert to candela (cd = lumens / steradian) // Area light are convert to luminance (cd/(m^2*steradian)) with the following formulation: Luminous Power / (Area * PI * steradian) // Ref: Moving Frostbite to PBR // Also good ref: https://www.radiance-online.org/community/workshops/2004-fribourg/presentations/Wandachowicz_paper.pdf // convert intensity (lumen) to candela public static float ConvertPointLightIntensity(float intensity) { return intensity / (4.0f * Mathf.PI); } // angle is the full angle, not the half angle in radiant // convert intensity (lumen) to candela public static float ConvertSpotLightIntensity(float intensity, float angle, bool exact) { return exact ? intensity / (2.0f * (1.0f - Mathf.Cos(angle / 2.0f)) * Mathf.PI) : intensity / Mathf.PI; } // angleA and angleB are the full opening angle, not half angle // convert intensity (lumen) to candela public static float ConvertFrustrumLightIntensity(float intensity, float angleA, float angleB) { return intensity / (4.0f * Mathf.Asin(Mathf.Sin(angleA / 2.0f) * Mathf.Sin(angleB / 2.0f))); } // convert intensity (lumen) to nits public static float ConvertSphereLightIntensity(float intensity, float sphereRadius) { return intensity / ((4.0f * Mathf.PI * sphereRadius * sphereRadius) * Mathf.PI); } // convert intensity (lumen) to nits public static float ConvertDiscLightIntensity(float intensity, float discRadius) { return intensity / ((discRadius * discRadius * Mathf.PI) * Mathf.PI); } // convert intensity (lumen) to nits public static float ConvertRectLightIntensity(float intensity, float width, float height) { return intensity / ((width * height) * Mathf.PI); } // convert intensity (lumen) to nits public static float calculateLineLightArea(float intensity, float lineWidth) { // The area of a cylinder is this: // float lineRadius = 0.01f; // 1cm //return intensity / (2.0f * Mathf.PI * lineRadius * lineWidth * Mathf.PI); // But with our current line light algorithm we get an insane gap in intensity // following formula (fully empirical) give a better match to a rect light of 1cm of width. // It is basically point light intensity / line width. return intensity / (4.0f * Mathf.PI * lineWidth); } } }