/* This file is part of Mitsuba, a physically based rendering system. Copyright (c) 2007-2014 by Wenzel Jakob and others. Mitsuba is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License Version 3 as published by the Free Software Foundation. Mitsuba 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 this program. If not, see . */ #if !defined(__MATERIAL_DATA_H) #define __MATERIAL_DATA_H #include "../bsdfs/ior.h" MTS_NAMESPACE_BEGIN struct MaterialEntry { const char *name; Float sigmaS[3]; Float sigmaA[3]; Float g[3]; Float eta; }; static MaterialEntry materialData[] = { /* Fitted data from "A Practical Model for Subsurface scattering" (Jensen et al.). No anisotropy data available. */ { "Apple", { 2.29f, 2.39f, 1.97f }, { 0.0030f, 0.0034f, 0.046f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Chicken1", { 0.15f, 0.21f, 0.38f }, { 0.0015f, 0.077f, 0.19f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Chicken2", { 0.19f, 0.25f, 0.32f }, { 0.0018f, 0.088f, 0.20f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Cream", { 7.38f, 5.47f, 3.15f }, { 0.0002f, 0.0028f, 0.0163f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Ketchup", { 0.18f, 0.07f, 0.03f }, { 0.061f, 0.97f, 1.45f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Marble", { 2.19f, 2.62f, 3.00f }, { 0.0021f, 0.0041f, 0.0071f }, { 0.0f, 0.0f, 0.0f }, 1.5f }, { "Potato", { 0.68f, 0.70f, 0.55f }, { 0.0024f, 0.0090f, 0.12f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Skimmilk", { 0.70f, 1.22f, 1.90f }, { 0.0014f, 0.0025f, 0.0142f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Skin1", { 0.74f, 0.88f, 1.01f }, { 0.032f, 0.17f, 0.48f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Skin2", { 1.09f, 1.59f, 1.79f }, { 0.013f, 0.070f, 0.145f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Spectralon", { 11.6f, 20.4f, 14.9f }, { 0.00f, 0.00f, 0.00f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, { "Wholemilk", { 2.55f, 3.21f, 3.77f }, { 0.0011f, 0.0024f, 0.014f }, { 0.0f, 0.0f, 0.0f }, 1.3f }, /* From "Acquiring Scattering Properties of Participating Media by Dilution" by Narasimhan, Gupta, Donner, Ramamoorthi, Nayar, Jensen (SIGGRAPH 2006) */ { "Lowfat Milk", { 13.1157f, 15.4445f, 17.9572f }, { 0.00287f, 0.00575f, 0.01150f }, { 0.93200f, 0.90200f, 0.85900f }, 1.33f }, { "Reduced Milk", { 13.7335f, 15.6003f, 17.8007f }, { 0.00256f, 0.00511f, 0.01278f }, { 0.81900f, 0.79700f, 0.74600f }, 1.33f }, { "Regular Milk", { 18.2052f, 20.3826f, 22.3698f }, { 0.00153f, 0.00460f, 0.01993f }, { 0.75000f, 0.71400f, 0.68100f }, 1.33f }, { "Espresso", { 7.78262f, 8.13050f, 8.53875f }, { 4.79838f, 6.57512f, 8.84925f }, { 0.90700f, 0.89600f, 0.88000f }, 1.33f }, { "Mint Mocha Coffee", { 3.51133f, 4.14383f, 5.59667f }, { 3.77200f, 5.82283f, 7.82000f }, { 0.91000f, 0.90700f, 0.91400f }, 1.33f }, { "Lowfat Soy Milk", { 2.03838f, 2.32875f, 3.90281f }, { 0.00144f, 0.00719f, 0.03594f }, { 0.85000f, 0.85300f, 0.84200f }, 1.33f }, { "Regular Soy Milk", { 4.66325f, 5.20183f, 8.74575f }, { 0.00192f, 0.00958f, 0.06517f }, { 0.87300f, 0.85800f, 0.83200f }, 1.33f }, { "Lowfat Chocolate Milk", { 9.83710f, 11.4954f, 13.1629f }, { 0.01150f, 0.03680f, 0.15640f }, { 0.93400f, 0.92700f, 0.91600f }, 1.33f }, { "Regular Chocolate Milk", { 10.5685f, 13.1416f, 15.2202f }, { 0.01006f, 0.04313f, 0.14375f }, { 0.86200f, 0.83800f, 0.80600f }, 1.33f }, { "Coke", { 0.00254f, 0.00299f, 0.00000f }, { 0.10014f, 0.16503f, 0.24680f }, { 0.96500f, 0.97200f, 0.00000f }, 1.33f }, { "Pepsi", { 0.00083f, 0.00203f, 0.00000f }, { 0.09164f, 0.14158f, 0.20729f }, { 0.92600f, 0.97900f, 0.00000f }, 1.33f }, { "Sprite", { 0.00011f, 0.00014f, 0.00014f }, { 0.00189f, 0.00183f, 0.00200f }, { 0.94300f, 0.95300f, 0.95200f }, 1.33f }, { "Gatorade", { 0.03668f, 0.04488f, 0.05742f }, { 0.02479f, 0.01929f, 0.00888f }, { 0.93300f, 0.93300f, 0.93500f }, 1.33f }, { "Chardonnay", { 0.00021f, 0.00033f, 0.00048f }, { 0.01078f, 0.01186f, 0.02400f }, { 0.91400f, 0.95800f, 0.97500f }, 1.33f }, { "White Zinfandel", { 0.00022f, 0.00033f, 0.00046f }, { 0.01207f, 0.01618f, 0.01984f }, { 0.91900f, 0.94300f, 0.97200f }, 1.33f }, { "Merlot", { 0.00081f, 0.00000f, 0.00000f }, { 0.11632f, 0.25191f, 0.29434f }, { 0.97400f, 0.00000f, 0.00000f }, 1.33f }, { "Budweiser Beder", { 0.00029f, 0.00055f, 0.00059f }, { 0.01149f, 0.02491f, 0.05779f }, { 0.91700f, 0.95600f, 0.98200f }, 1.33f }, { "Coors Light Beer", { 0.00062f, 0.00127f, 0.00000f }, { 0.00616f, 0.01398f, 0.03498f }, { 0.91800f, 0.96600f, 0.00000f }, 1.33f }, { "Clorox", { 0.02731f, 0.03302f, 0.03695f }, { 0.00335f, 0.01489f, 0.02630f }, { 0.91200f, 0.90500f, 0.89200f }, 1.33f }, { "Apple Juice", { 0.00257f, 0.00311f, 0.00413f }, { 0.01296f, 0.02374f, 0.05218f }, { 0.94700f, 0.94900f, 0.94500f }, 1.33f }, { "Cranberry Juice", { 0.00196f, 0.00238f, 0.00301f }, { 0.03944f, 0.09422f, 0.12426f }, { 0.94700f, 0.95100f, 0.97400f }, 1.33f }, { "Grape Juice", { 0.00138f, 0.00000f, 0.00000f }, { 0.10404f, 0.23958f, 0.29325f }, { 0.96100f, 0.00000f, 0.00000f }, 1.33f }, { "Ruby Grapefruit Juice", { 0.15496f, 0.15391f, 0.15995f }, { 0.08587f, 0.18314f, 0.25262f }, { 0.92900f, 0.92900f, 0.93100f }, 1.33f }, { "White Grapefruit Juice", { 0.50499f, 0.52742f, 0.75282f }, { 0.01380f, 0.01883f, 0.05678f }, { 0.54800f, 0.54500f, 0.56500f }, 1.33f }, { "Shampoo", { 0.00797f, 0.00874f, 0.01127f }, { 0.01411f, 0.04569f, 0.06172f }, { 0.91000f, 0.90500f, 0.92000f }, 1.33f }, { "Strawberry Shampoo", { 0.00215f, 0.00245f, 0.00253f }, { 0.01449f, 0.05796f, 0.07582f }, { 0.92700f, 0.93500f, 0.99400f }, 1.33f }, { "Head & Shoulders Shampoo", { 0.26747f, 0.27696f, 0.29574f }, { 0.08462f, 0.15688f, 0.20365f }, { 0.91100f, 0.89600f, 0.88400f }, 1.33f }, { "Lemon Tea Powder", { 0.74489f, 0.83823f, 1.00158f }, { 2.42881f, 4.57573f, 7.21270f }, { 0.94600f, 0.94600f, 0.94900f }, 1.33f }, { "Orange Juice Powder", { 0.00193f, 0.00213f, 0.00226f }, { 0.00145f, 0.00344f, 0.00786f }, { 0.91900f, 0.91800f, 0.92200f }, 1.33f }, { "Pink Lemonade Powder", { 0.00123f, 0.00133f, 0.00131f }, { 0.00116f, 0.00237f, 0.00320f }, { 0.90200f, 0.90200f, 0.90400f }, 1.33f }, { "Cappuccino Powder", { 12.2094f, 16.4659f, 29.2727f }, { 35.8441f, 49.5470f, 61.0844f }, { 0.84900f, 0.84300f, 0.92600f }, 1.33f }, { "Salt Powder", { 0.13805f, 0.15677f, 0.17865f }, { 0.28415f, 0.32570f, 0.34148f }, { 0.80200f, 0.79300f, 0.82100f }, 1.33f }, { "Sugar Powder", { 0.00282f, 0.00315f, 0.00393f }, { 0.01264f, 0.03105f, 0.05012f }, { 0.92100f, 0.91900f, 0.93100f }, 1.33f }, { "Suisse Mocha Powder", { 30.0848f, 33.4452f, 38.7191f }, { 17.5020f, 27.0044f, 35.4334f }, { 0.90700f, 0.89400f, 0.88800f }, 1.33f }, { "Pacific Ocean Surface Water", { 0.00180f, 0.00183f, 0.00228f }, { 0.03184f, 0.03132f, 0.03015f }, { 0.90200f, 0.82500f, 0.91400f }, 1.33f }, { NULL, { 0.0f, 0.0f, 0.0f }, { 0.0f, 0.0f, 0.0f }, { 0.0f, 0.0f, 0.0f }, 0.0f } }; static void lookupMaterial(const Properties &props, Spectrum &sigmaS, Spectrum &sigmaA, Spectrum &g, Float *eta = NULL) { bool hasSigmaAS = props.hasProperty("sigmaS") || props.hasProperty("sigmaA"), hasSigmaTAlbedo = props.hasProperty("sigmaT") || props.hasProperty("albedo"), hasIOR = props.hasProperty("intIOR") || props.hasProperty("extIOR"), manual = hasSigmaAS || hasSigmaTAlbedo, hasPreset = props.hasProperty("material"); if (manual && hasPreset) SLog(EError, "Please specify either a preset material or " "scattering coefficients (you provided both!)"); if (props.hasProperty("densityMultiplier") || props.hasProperty("sizeMultiplier")) SLog(EError, "The 'densityMultiplier' parameter has been deprecated and is now called 'scale'."); if (hasSigmaAS && hasSigmaTAlbedo) SLog(EError, "You can either specify sigmaS & sigmaA *or* " "sigmaT & albedo, but no other combinations!"); std::string material = boost::to_lower_copy(props.getString("material", "Skin1")); /* Start with a preset */ bool found = false; MaterialEntry *matEntry = materialData; while (matEntry->name) { if (material == boost::to_lower_copy(std::string(matEntry->name))) { sigmaS.fromLinearRGB( matEntry->sigmaS[0], matEntry->sigmaS[1], matEntry->sigmaS[2]); sigmaA.fromLinearRGB( matEntry->sigmaA[0], matEntry->sigmaA[1], matEntry->sigmaA[2]); g.fromLinearRGB( matEntry->g[0], matEntry->g[1], matEntry->g[2]); sigmaS *= 100; sigmaA *= 100; if (eta) *eta = matEntry->eta; found = true; break; } ++matEntry; } if (!found) { std::ostringstream oss; oss << "Unable to find a material preset for \"" << material << "\"! Valid choices are:"; /* Unable to find the material preset by name -- print an error message that lists all possible options */ for (matEntry = materialData; matEntry->name != NULL; ++matEntry) { oss << matEntry->name; if ((matEntry+1)->name) oss << ", "; } SLog(EError, "%s", oss.str().c_str()); } if (hasSigmaAS) { sigmaS = props.getSpectrum("sigmaS", sigmaS); sigmaA = props.getSpectrum("sigmaA", sigmaA); } else if (hasSigmaTAlbedo) { Spectrum albedo, sigmaT; sigmaT = props.getSpectrum("sigmaT", sigmaA + sigmaS); albedo = props.getSpectrum("albedo", sigmaS / (sigmaS + sigmaA)); sigmaS = albedo * sigmaT; sigmaA = sigmaT - sigmaS; } if (props.hasProperty("g")) { if (props.getType("g") == Properties::ESpectrum) g = props.getSpectrum("g"); else g = Spectrum(props.getFloat("g")); } if (g.min() <= -1 || g.max() >= 1) SLog(EError, "The anisotropy parameter 'g' must be in the range (-1, 1)!"); if (eta && hasIOR) { /* Specifies the internal index of refraction at the interface */ Float intIOR = lookupIOR(props, "intIOR", "bk7"); /* Specifies the external index of refraction at the interface */ Float extIOR = lookupIOR(props, "extIOR", "air"); if (intIOR < 0 || extIOR < 0) SLog(EError, "The interior and exterior indices of " "refraction must be positive!"); *eta = intIOR / extIOR; } Float scale = props.getFloat("scale", 1.0f); sigmaS *= scale; sigmaA *= scale; std::ostringstream oss; oss << "Medium parameters: sigmaS=" << sigmaS.toString() << ", sigmaA=" << sigmaA.toString() << ", g=" << g.average(); SLog(EDebug, "%s", oss.str().c_str()); } MTS_NAMESPACE_END #endif /* __MATERIAL_DATA_H */