示例#1
0
TEST_F(BBoxTest, VolumeWorks) {
	BBox b (Point (0, 0, 0), Point (2, 2, 2));

	float area = b.Volume();

	EXPECT_FLOAT_EQ (8.f, area);
}
示例#2
0
TEST_F(BBoxTest, VolumeDegenerateBBoxWorks) {
	BBox b (Point (0, 0, 0), Point (0, 0, 0));

	float area = b.Volume();

	EXPECT_FLOAT_EQ (0.f, area);
}
示例#3
0
void SurfacePointsRenderer::Render(const Scene &scene) {
    // Declare shared variables for Poisson point generation
    BBox octBounds = scene.WorldBound();
    octBounds.Expand(.001f * powf(octBounds.Volume(), 1.f/3.f));
    Octree<SurfacePoint> pointOctree(octBounds);

    // Create scene bounding sphere to catch rays that leave the scene
    Point sceneCenter;
    float sceneRadius;
    scene.WorldBound().BoundingSphere(&sceneCenter, &sceneRadius);
    Transform ObjectToWorld(Translate(sceneCenter - Point(0,0,0)));
    Transform WorldToObject(Inverse(ObjectToWorld));
    Reference<Shape> sph = new Sphere(&ObjectToWorld, &WorldToObject,
        true, sceneRadius, -sceneRadius, sceneRadius, 360.f);
    //Reference<Material> nullMaterial = Reference<Material>(NULL);
    Material nullMaterial;
    GeometricPrimitive sphere(sph, nullMaterial, NULL);
    int maxFails = 2000, repeatedFails = 0, maxRepeatedFails = 0;
    if (PbrtOptions.quickRender) maxFails = max(10, maxFails / 10);
    int totalPathsTraced = 0, totalRaysTraced = 0, numPointsAdded = 0;
    ProgressReporter prog(maxFails, "Depositing samples");
    // Launch tasks to trace rays to find Poisson points
    PBRT_SUBSURFACE_STARTED_RAYS_FOR_POINTS();
    vector<Task *> tasks;
    RWMutex *mutex = RWMutex::Create();
    int nTasks = NumSystemCores();
    for (int i = 0; i < nTasks; ++i)
        tasks.push_back(new SurfacePointTask(scene, pCamera, time, i,
            minDist, maxFails, *mutex, repeatedFails, maxRepeatedFails,
            totalPathsTraced, totalRaysTraced, numPointsAdded, sphere, pointOctree,
            points, prog));
    EnqueueTasks(tasks);
    WaitForAllTasks();
    for (uint32_t i = 0; i < tasks.size(); ++i)
        delete tasks[i];
    RWMutex::Destroy(mutex);
    prog.Done();
    PBRT_SUBSURFACE_FINISHED_RAYS_FOR_POINTS(totalRaysTraced, numPointsAdded);
    if (filename != "") {
        // Write surface points to file
        FILE *f = fopen(filename.c_str(), "w");
        if (!f) {
            Error("Unable to open output file \"%s\" (%s)", filename.c_str(),
                  strerror(errno));
            return;
        }

        fprintf(f, "# points generated by SurfacePointsRenderer\n");
        fprintf(f, "# position (x,y,z), normal (x,y,z), area, rayEpsilon\n");
        for (u_int i = 0; i < points.size(); ++i) {
            const SurfacePoint &sp = points[i];
            fprintf(f, "%g %g %g %g %g %g %g %g\n", sp.p.x, sp.p.y, sp.p.z,
                sp.n.x, sp.n.y, sp.n.z, sp.area, sp.rayEpsilon);
        }
        fclose(f);
    }
}