Example #1
0
        private void initScene()
        {
            SceneManager smgr = device.SceneManager;

            AnimatedMesh m = smgr.AddHillPlaneMesh("plane", new Dimension2Df(16), new Dimension2Di(16), null, 8);

            sceneNodePainter       = smgr.AddAnimatedMeshSceneNode(m);
            sceneNodePainter.Scale = new Vector3Df(0.4f);
            sceneNodePainter.SetMaterialTexture(0, texture);
            sceneNodePainter.SetMaterialFlag(MaterialFlag.Lighting, false);
            SceneNodeAnimator a = smgr.CreateRotationAnimator(new Vector3Df(0, 0.1f, 0));

            sceneNodePainter.AddAnimator(a);
            a.Drop();

            sceneNodeRTT = smgr.AddWaterSurfaceSceneNode(m.GetMesh(0), 2, 100, 20);
            sceneNodeRTT.SetMaterialFlag(MaterialFlag.Lighting, false);
            sceneNodeRTT.SetMaterialType(MaterialType.Solid);
            sceneNodeRTT.Scale    = new Vector3Df(0.2f);
            sceneNodeRTT.Position = new Vector3Df(60, 10, 40);
            sceneNodeRTT.Rotation = new Vector3Df(-30, 20, 0);

            textureRTT = smgr.VideoDriver.AddRenderTargetTexture(new Dimension2Di(512));
            sceneNodeRTT.SetMaterialTexture(0, textureRTT);

            smgr.AddCameraSceneNode(null, new Vector3Df(0, 40, -60), new Vector3Df(0, -15, 0));
        }
Example #2
0
        public WaterSceneNode(SceneNode parent, SceneManager mgr, Dimension2Df tileSize,
                              Dimension2D tileCount, Dimension2D precision, int id) :
            base(parent, mgr, id)
        {
            _scene = mgr;
            _driver = mgr.VideoDriver;

            AnimatedMesh wmesh = _scene.AddHillPlaneMesh("watermesh" + _current,
                tileSize,
                tileCount, 0,
                new Dimension2Df(0, 0),
                new Dimension2Df(1, 1));
            _current++;

            int dmat;
            if (_driver.DriverType == DriverType.OpenGL)
                dmat = _driver.GPUProgrammingServices.AddHighLevelShaderMaterial(
                 WATER_VERTEX_GLSL, "main", VertexShaderType._1_1, WATER_FRAGMENT_GLSL,
                 "main", PixelShaderType._1_1, OnShaderSet, MaterialType.TransparentAlphaChannel, 0);
            else
                dmat = _driver.GPUProgrammingServices.AddHighLevelShaderMaterial(
                 WATER_HLSL, "vertexMain", VertexShaderType._2_0, WATER_HLSL,
                 "pixelMain", PixelShaderType._2_0, OnShaderSet, MaterialType.TransparentAlphaChannel, 2);

            if (_driver.DriverType == DriverType.OpenGL)
                ClampShader = _driver.GPUProgrammingServices.AddHighLevelShaderMaterial(
                 CLAMP_VERTEX_GLSL, "main", VertexShaderType._1_1, CLAMP_FRAGMENT_GLSL,
                 "main", PixelShaderType._1_1, OnShaderSet, MaterialType.TransparentAlphaChannel, 1);
            else
                ClampShader = _driver.GPUProgrammingServices.AddHighLevelShaderMaterial(
                 CLAMP_HLSL, "vertexMain", VertexShaderType._2_0, CLAMP_HLSL,
                 "pixelMain", PixelShaderType._2_0, OnShaderSet, MaterialType.TransparentAlphaChannel, 3);

            _waternode = _scene.AddMeshSceneNode(wmesh.GetMesh(0), this, -1);
            _waternode.SetMaterialType(dmat);
            _waternode.SetMaterialFlag(MaterialFlag.BackFaceCulling, false);
            _waternode.SetMaterialFlag(MaterialFlag.Lighting, false);
            _waternode.SetMaterialFlag(MaterialFlag.FogEnable, false);

            _rt = _driver.CreateRenderTargetTexture(precision);
            _waternode.SetMaterialTexture(0, _rt);

            CameraSceneNode oldcam = _scene.ActiveCamera;
            _fixedcam = _scene.AddCameraSceneNode(null);
            if (oldcam != null)
                _scene.ActiveCamera = oldcam;
        }
Example #3
0
        static void Main()
        {
            DriverType?driverType = AskForDriver();

            if (!driverType.HasValue)
            {
                return;
            }

            IrrlichtDevice device = IrrlichtDevice.CreateDevice(driverType.Value, new Dimension2Di(640, 480));

            if (device == null)
            {
                return;
            }

            device.OnEvent += new IrrlichtDevice.EventHandler(device_OnEvent);

            VideoDriver  driver = device.VideoDriver;
            SceneManager scene  = device.SceneManager;

            scene.GUIEnvironment.AddStaticText("Press Space to hide occluder.", new Recti(10, 10, 200, 50));

            // Create the node to be occluded. We create a sphere node with high poly count.

            MeshSceneNode node = scene.AddSphereSceneNode(10, 64);

            if (node != null)
            {
                node.Position = new Vector3Df(0, 0, 60);
                node.SetMaterialTexture(0, driver.GetTexture("../../media/wall.bmp"));
                node.SetMaterialFlag(MaterialFlag.Lighting, false);
            }

            // Now we create another node, the occluder. It's a simple plane.

            SceneNode plane = scene.AddMeshSceneNode(
                scene.AddHillPlaneMesh("plane", new Dimension2Df(10), new Dimension2Di(2)), // mesh
                null,                                                                       // parent
                -1,                                                                         // id
                new Vector3Df(0, 0, 20),                                                    // position
                new Vector3Df(270, 0, 0));                                                  // rotation

            if (plane != null)
            {
                plane.SetMaterialTexture(0, driver.GetTexture("../../media/t351sml.jpg"));
                plane.SetMaterialFlag(MaterialFlag.Lighting, false);
                plane.SetMaterialFlag(MaterialFlag.BackFaceCulling, true);
            }

            // Here we create the occlusion query. Because we don't have a plain mesh scene node
            // (SceneNodeType.Mesh or SceneNodeType.AnimatedMesh), we pass the base geometry as well. Instead,
            // we could also pass a simpler mesh or the bounding box. But we will use a time
            // based method, where the occlusion query renders to the frame buffer and in case
            // of success (occlusion), the mesh is not drawn for several frames.

            driver.AddOcclusionQuery(node, node.Mesh);

            // We have done everything, just a camera and draw it. We also write the
            // current frames per second and the name of the driver to the caption of the
            // window to examine the render speedup.
            // We also store the time for measuring the time since the last occlusion query ran
            // and store whether the node should be visible in the next frames.

            scene.AddCameraSceneNode();
            uint timeNow     = device.Timer.Time;
            bool nodeVisible = true;

            while (device.Run())
            {
                plane.Visible = !IsKeyDown(KeyCode.Space);

                driver.BeginScene(ClearBufferFlag.All, new Color(113, 113, 133));

                // First, we draw the scene, possibly without the occluded element. This is necessary
                // because we need the occluder to be drawn first. You can also use several scene
                // managers to collect a number of possible occluders in a separately rendered scene.

                node.Visible = nodeVisible;
                scene.DrawAll();
                scene.GUIEnvironment.DrawAll();

                // Once in a while, here every 100 ms, we check the visibility. We run the queries,
                // update the pixel value, and query the result. Since we already rendered the node
                // we render the query invisible. The update is made blocking, as we need the result
                // immediately. If you don't need the result immediately, e.g. because oyu have other
                // things to render, you can call the update non-blocking. This gives the GPU more
                // time to pass back the results without flushing the render pipeline.
                // If the update was called non-blocking, the result from getOcclusionQueryResult is
                // either the previous value, or 0xffffffff if no value has been generated at all, yet.
                // The result is taken immediately as visibility flag for the node.

                if (device.Timer.Time - timeNow > 100)
                {
                    driver.RunAllOcclusionQueries(false);
                    driver.UpdateAllOcclusionQueries();
                    nodeVisible = driver.GetOcclusionQueryResult(node) > 0;
                    timeNow     = device.Timer.Time;
                }

                driver.EndScene();

                device.SetWindowCaption(String.Format(
                                            "Occlusion Query Example - Irrlicht Engine [{0}] fps: {1} (primitives: {2})",
                                            driver.Name, driver.FPS, driver.PrimitiveCountDrawn));
            }

            device.Drop();
        }
Example #4
0
        static void Main()
        {
            bool shadows = AskForRealtimeShadows();

            DriverType?driverType = AskForDriver();

            if (!driverType.HasValue)
            {
                return;
            }

            IrrlichtDevice device = IrrlichtDevice.CreateDevice(driverType.Value, new Dimension2Di(640, 480), 16, false, shadows);

            if (device == null)
            {
                return;
            }

            VideoDriver  driver = device.VideoDriver;
            SceneManager smgr   = device.SceneManager;

            AnimatedMesh mesh = smgr.GetMesh("../../media/room.3ds");

            smgr.MeshManipulator.MakePlanarTextureMapping(mesh.GetMesh(0), 0.004f);

            SceneNode node = smgr.AddAnimatedMeshSceneNode(mesh);

            node.SetMaterialTexture(0, driver.GetTexture("../../media/wall.jpg"));
            node.GetMaterial(0).SpecularColor = new Color(0);

            mesh = smgr.AddHillPlaneMesh("myHill",
                                         new Dimension2Df(20, 20),
                                         new Dimension2Di(40, 40), null, 0,
                                         new Dimension2Df(0),
                                         new Dimension2Df(10, 10));

            node          = smgr.AddWaterSurfaceSceneNode(mesh.GetMesh(0), 3.0f, 300.0f, 30.0f);
            node.Position = new Vector3Df(0, 7, 0);

            node.SetMaterialTexture(0, driver.GetTexture("../../media/stones.jpg"));
            node.SetMaterialTexture(1, driver.GetTexture("../../media/water.jpg"));

            node.SetMaterialType(MaterialType.Reflection2Layer);

            // create light

            node = smgr.AddLightSceneNode(null, new Vector3Df(0), new Colorf(1.0f, 0.6f, 0.7f, 1.0f), 800);
            SceneNodeAnimator anim = smgr.CreateFlyCircleAnimator(new Vector3Df(0, 150, 0), 250);

            node.AddAnimator(anim);
            anim.Drop();

            // attach billboard to light

            node = smgr.AddBillboardSceneNode(node, new Dimension2Df(50, 50));
            node.SetMaterialFlag(MaterialFlag.Lighting, false);
            node.SetMaterialType(MaterialType.TransparentAddColor);
            node.SetMaterialTexture(0, driver.GetTexture("../../media/particlewhite.bmp"));

            // create a particle system

            ParticleSystemSceneNode ps = smgr.AddParticleSystemSceneNode(false);

            if (ps != null)
            {
                ParticleEmitter em = ps.CreateBoxEmitter(
                    new AABBox(-7, 0, -7, 7, 1, 7),   // emitter size
                    new Vector3Df(0.0f, 0.06f, 0.0f), // initial direction
                    80, 100,                          // emit rate
                    new Color(255, 255, 255, 0),      // darkest color
                    new Color(255, 255, 255, 0),      // brightest color
                    800, 2000, 0,                     // min and max age, angle
                    new Dimension2Df(10.0f),          // min size
                    new Dimension2Df(20.0f));         // max size

                ps.Emitter = em;                      // this grabs the emitter
                em.Drop();                            // so we can drop it here without deleting it

                ParticleAffector paf = ps.CreateFadeOutParticleAffector();

                ps.AddAffector(paf);                 // same goes for the affector
                paf.Drop();

                ps.Position = new Vector3Df(-70, 60, 40);
                ps.Scale    = new Vector3Df(2);
                ps.SetMaterialFlag(MaterialFlag.Lighting, false);
                ps.SetMaterialFlag(MaterialFlag.ZWrite, false);
                ps.SetMaterialTexture(0, driver.GetTexture("../../media/fire.bmp"));
                ps.SetMaterialType(MaterialType.TransparentAddColor);
            }

            VolumeLightSceneNode n = smgr.AddVolumeLightSceneNode(null, -1,
                                                                  32,                          // Subdivisions on U axis
                                                                  32,                          // Subdivisions on V axis
                                                                  new Color(255, 255, 255, 0), // foot color
                                                                  new Color(0, 0, 0, 0));      // tail color

            if (n != null)
            {
                n.Scale    = new Vector3Df(56);
                n.Position = new Vector3Df(-120, 50, 40);

                // load textures for animation
                List <Texture> textures = new List <Texture>();
                for (int i = 7; i > 0; i--)
                {
                    string s = string.Format("../../media/portal{0}.bmp", i);
                    textures.Add(driver.GetTexture(s));
                }

                // create texture animator
                SceneNodeAnimator glow = smgr.CreateTextureAnimator(textures, 0.150f);

                // add the animator
                n.AddAnimator(glow);

                // drop the animator because it was created with a create() function
                glow.Drop();
            }

            // add animated character

            mesh = smgr.GetMesh("../../media/dwarf.x");
            AnimatedMeshSceneNode anode = smgr.AddAnimatedMeshSceneNode(mesh);

            anode.Position       = new Vector3Df(-50, 20, -60);
            anode.AnimationSpeed = 15;

            // add shadow
            anode.AddShadowVolumeSceneNode();
            smgr.ShadowColor = new Color(0, 0, 0, 150);

            // make the model a little bit bigger and normalize its normals
            // because of the scaling, for correct lighting
            anode.Scale = new Vector3Df(2);
            anode.SetMaterialFlag(MaterialFlag.NormalizeNormals, true);

            CameraSceneNode camera = smgr.AddCameraSceneNodeFPS();

            camera.Position = new Vector3Df(-50, 50, -150);

            // disable mouse cursor
            device.CursorControl.Visible = false;

            int lastFPS = -1;

            while (device.Run())
            {
                if (device.WindowActive)
                {
                    driver.BeginScene(ClearBufferFlag.All, new Color(0));
                    smgr.DrawAll();
                    driver.EndScene();

                    int fps = driver.FPS;
                    if (lastFPS != fps)
                    {
                        device.SetWindowCaption(String.Format(
                                                    "SpecialFX example - Irrlicht Engine [{0}] fps: {1}",
                                                    driver.Name, fps));

                        lastFPS = fps;
                    }
                }
            }

            device.Drop();
        }