コード例 #1
0
ファイル: api.cpp プロジェクト: tdapper/pbrt-v3
std::shared_ptr<Medium> MakeMedium(const std::string &name,
                                   const ParamSet &paramSet,
                                   const Transform &medium2world) {
    Float sig_a_rgb[3] = {.0011f, .0024f, .014f},
          sig_s_rgb[3] = {2.55f, 3.21f, 3.77f};
    Spectrum sig_a = Spectrum::FromRGB(sig_a_rgb),
             sig_s = Spectrum::FromRGB(sig_s_rgb);
    std::string preset = paramSet.FindOneString("preset", "");
    bool found = GetMediumScatteringProperties(preset, &sig_a, &sig_s);
    if (preset != "" && !found)
        Warning("Material preset \"%s\" not found.  Using defaults.",
                preset.c_str());
    Float scale = paramSet.FindOneFloat("scale", 1.f);
    Float g = paramSet.FindOneFloat("g", 0.0f);
    sig_a = paramSet.FindOneSpectrum("sigma_a", sig_a) * scale;
    sig_s = paramSet.FindOneSpectrum("sigma_s", sig_s) * scale;
    Medium *m = NULL;
    if (name == "homogeneous") {
        m = new HomogeneousMedium(sig_a, sig_s, g);
    } else if (name == "heterogeneous") {
        int nitems;
        const Float *data = paramSet.FindFloat("density", &nitems);
        if (!data) {
            Error("No \"density\" values provided for heterogeneous medium?");
            return NULL;
        }
        int nx = paramSet.FindOneInt("nx", 1);
        int ny = paramSet.FindOneInt("ny", 1);
        int nz = paramSet.FindOneInt("nz", 1);
        Point3f p0 = paramSet.FindOnePoint3f("p0", Point3f(0.f, 0.f, 0.f));
        Point3f p1 = paramSet.FindOnePoint3f("p1", Point3f(1.f, 1.f, 1.f));
        if (nitems != nx * ny * nz) {
            Error(
                "GridDensityMedium has %d density values; expected nx*ny*nz = "
                "%d",
                nitems, nx * ny * nz);
            return NULL;
        }
        Transform data2Medium = Translate(Vector3f(p0)) *
                                Scale(p1.x - p0.x, p1.y - p0.y, p1.z - p0.z);
        m = new GridDensityMedium(sig_a, sig_s, g, nx, ny, nz,
                                  medium2world * data2Medium, data);
    } else
        Warning("Medium \"%s\" unknown.", name.c_str());
    paramSet.ReportUnused();
    return std::shared_ptr<Medium>(m);
}
コード例 #2
0
ファイル: diffuse.cpp プロジェクト: Graphics3D/pbrt-v3
std::shared_ptr<AreaLight> CreateDiffuseAreaLight(
    const Transform &light2world, const Medium *medium,
    const ParamSet &paramSet, const std::shared_ptr<Shape> &shape) {
    Spectrum L = paramSet.FindOneSpectrum("L", Spectrum(1.0));
    Spectrum sc = paramSet.FindOneSpectrum("scale", Spectrum(1.0));
    int nSamples = paramSet.FindOneInt("nsamples", 1);
    if (PbrtOptions.quickRender) nSamples = std::max(1, nSamples / 4);
    return std::make_shared<DiffuseAreaLight>(light2world, medium, L * sc,
                                              nSamples, shape);
}
コード例 #3
0
ファイル: infinite.cpp プロジェクト: udyankhurana/pbrt-v3
std::shared_ptr<InfiniteAreaLight> CreateInfiniteLight(
    const Transform &light2world, const ParamSet &paramSet) {
    Spectrum L = paramSet.FindOneSpectrum("L", Spectrum(1.0));
    Spectrum sc = paramSet.FindOneSpectrum("scale", Spectrum(1.0));
    std::string texmap = paramSet.FindOneFilename("mapname", "");
    int nSamples = paramSet.FindOneInt("nsamples", 1);
    if (PbrtOptions.quickRender) nSamples = std::max(1, nSamples / 4);
    return std::make_shared<InfiniteAreaLight>(light2world, L * sc, nSamples,
                                               texmap);
}
コード例 #4
0
ファイル: bvh.cpp プロジェクト: nuxping/pbrt-v3
std::shared_ptr<BVHAccel> CreateBVHAccelerator(
    const std::vector<std::shared_ptr<Primitive>> &prims, const ParamSet &ps) {
    std::string splitMethodName = ps.FindOneString("splitmethod", "sah");
    BVHAccel::SplitMethod splitMethod;
    if (splitMethodName == "sah")
        splitMethod = BVHAccel::SplitMethod::SAH;
    else if (splitMethodName == "hlbvh")
        splitMethod = BVHAccel::SplitMethod::HLBVH;
    else if (splitMethodName == "middle")
        splitMethod = BVHAccel::SplitMethod::Middle;
    else if (splitMethodName == "equal")
        splitMethod = BVHAccel::SplitMethod::EqualCounts;
    else {
        Warning("BVH split method \"%s\" unknown.  Using \"sah\".",
                splitMethodName.c_str());
        splitMethod = BVHAccel::SplitMethod::SAH;
    }

    int maxPrimsInNode = ps.FindOneInt("maxnodeprims", 4);
    return std::make_shared<BVHAccel>(prims, maxPrimsInNode, splitMethod);
}
コード例 #5
0
ファイル: nurbs.cpp プロジェクト: yangjiaqian/pbrt-v3
std::vector<std::shared_ptr<Shape>> CreateNURBS(const Transform *o2w,
                                                const Transform *w2o,
                                                bool reverseOrientation,
                                                const ParamSet &params) {
    int nu = params.FindOneInt("nu", -1);
    if (nu == -1) {
        Error("Must provide number of control points \"nu\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }

    int uorder = params.FindOneInt("uorder", -1);
    if (uorder == -1) {
        Error("Must provide u order \"uorder\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }
    int nuknots, nvknots;
    const Float *uknots = params.FindFloat("uknots", &nuknots);
    if (uknots == nullptr) {
        Error("Must provide u knot vector \"uknots\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }

    if (nuknots != nu + uorder) {
        Error(
            "Number of knots in u knot vector %d doesn't match sum of "
            "number of u control points %d and u order %d.",
            nuknots, nu, uorder);
        return std::vector<std::shared_ptr<Shape>>();
    }

    Float u0 = params.FindOneFloat("u0", uknots[uorder - 1]);
    Float u1 = params.FindOneFloat("u1", uknots[nu]);

    int nv = params.FindOneInt("nv", -1);
    if (nv == -1) {
        Error("Must provide number of control points \"nv\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }

    int vorder = params.FindOneInt("vorder", -1);
    if (vorder == -1) {
        Error("Must provide v order \"vorder\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }

    const Float *vknots = params.FindFloat("vknots", &nvknots);
    if (vknots == nullptr) {
        Error("Must provide v knot vector \"vknots\" with NURBS shape.");
        return std::vector<std::shared_ptr<Shape>>();
    }

    if (nvknots != nv + vorder) {
        Error(
            "Number of knots in v knot vector %d doesn't match sum of "
            "number of v control points %d and v order %d.",
            nvknots, nv, vorder);
        return std::vector<std::shared_ptr<Shape>>();
    }

    Float v0 = params.FindOneFloat("v0", vknots[vorder - 1]);
    Float v1 = params.FindOneFloat("v1", vknots[nv]);

    bool isHomogeneous = false;
    int npts;
    const Float *P = (const Float *)params.FindPoint3f("P", &npts);
    if (!P) {
        P = params.FindFloat("Pw", &npts);
        if (!P) {
            Error(
                "Must provide control points via \"P\" or \"Pw\" parameter to "
                "NURBS shape.");
            return std::vector<std::shared_ptr<Shape>>();
        }
        if ((npts % 4) != 0) {
            Error(
                "Number of \"Pw\" control points provided to NURBS shape must "
                "be "
                "multiple of four");
            return std::vector<std::shared_ptr<Shape>>();
        }
        npts /= 4;
        isHomogeneous = true;
    }
    if (npts != nu * nv) {
        Error("NURBS shape was expecting %dx%d=%d control points, was given %d",
              nu, nv, nu * nv, npts);
        return std::vector<std::shared_ptr<Shape>>();
    }

    // Compute NURBS dicing rates
    int diceu = 30, dicev = 30;
    std::unique_ptr<Float[]> ueval(new Float[diceu]);
    std::unique_ptr<Float[]> veval(new Float[dicev]);
    std::unique_ptr<Point3f[]> evalPs(new Point3f[diceu * dicev]);
    std::unique_ptr<Normal3f[]> evalNs(new Normal3f[diceu * dicev]);
    int i;
    for (i = 0; i < diceu; ++i)
        ueval[i] = Lerp((float)i / (float)(diceu - 1), u0, u1);
    for (i = 0; i < dicev; ++i)
        veval[i] = Lerp((float)i / (float)(dicev - 1), v0, v1);

    // Evaluate NURBS over grid of points
    memset(evalPs.get(), 0, diceu * dicev * sizeof(Point3f));
    memset(evalNs.get(), 0, diceu * dicev * sizeof(Point3f));
    std::unique_ptr<Point2f[]> uvs(new Point2f[diceu * dicev]);

    // Turn NURBS into triangles
    std::unique_ptr<Homogeneous3[]> Pw(new Homogeneous3[nu * nv]);
    if (isHomogeneous) {
        for (int i = 0; i < nu * nv; ++i) {
            Pw[i].x = P[4 * i];
            Pw[i].y = P[4 * i + 1];
            Pw[i].z = P[4 * i + 2];
            Pw[i].w = P[4 * i + 3];
        }
    } else {
        for (int i = 0; i < nu * nv; ++i) {
            Pw[i].x = P[3 * i];
            Pw[i].y = P[3 * i + 1];
            Pw[i].z = P[3 * i + 2];
            Pw[i].w = 1.;
        }
    }

    for (int v = 0; v < dicev; ++v) {
        for (int u = 0; u < diceu; ++u) {
            uvs[(v * diceu + u)].x = ueval[u];
            uvs[(v * diceu + u)].y = veval[v];

            Vector3f dpdu, dpdv;
            Point3f pt = NURBSEvaluateSurface(uorder, uknots, nu, ueval[u],
                                              vorder, vknots, nv, veval[v],
                                              Pw.get(), &dpdu, &dpdv);
            evalPs[v * diceu + u].x = pt.x;
            evalPs[v * diceu + u].y = pt.y;
            evalPs[v * diceu + u].z = pt.z;
            evalNs[v * diceu + u] = Normal3f(Normalize(Cross(dpdu, dpdv)));
        }
    }

    // Generate points-polygons mesh
    int nTris = 2 * (diceu - 1) * (dicev - 1);
    std::unique_ptr<int[]> vertices(new int[3 * nTris]);
    int *vertp = vertices.get();
    // Compute the vertex offset numbers for the triangles
    for (int v = 0; v < dicev - 1; ++v) {
        for (int u = 0; u < diceu - 1; ++u) {
#define VN(u, v) ((v)*diceu + (u))
            *vertp++ = VN(u, v);
            *vertp++ = VN(u + 1, v);
            *vertp++ = VN(u + 1, v + 1);

            *vertp++ = VN(u, v);
            *vertp++ = VN(u + 1, v + 1);
            *vertp++ = VN(u, v + 1);
#undef VN
        }
    }
    int nVerts = diceu * dicev;

    return CreateTriangleMesh(o2w, w2o, reverseOrientation, nTris,
                              vertices.get(), nVerts, evalPs.get(), nullptr,
                              evalNs.get(), uvs.get(), nullptr);
}
コード例 #6
0
ファイル: distanceestimator.cpp プロジェクト: csimstu/pbrt-v2
DistanceEstimatorParams::DistanceEstimatorParams(const ParamSet &params) {
  maxIters = params.FindOneInt("maxiters", 1000);
  hitEpsilon = params.FindOneFloat("hitepsilon", 1e-5f);
  rayEpsilonMultiplier = params.FindOneFloat("rayepsilonmultiplier", 100.f);
  normalEpsilon = params.FindOneFloat("normalepsilon", 1e-6f);
}