Beispiel #1
0
        static void Main()
        {
            IrrlichtDevice device = IrrlichtDevice.CreateDevice(
                DriverType.Software, new Dimension2Di(640, 480), 16, false, false, false);

            device.SetWindowCaption("Hello World! - Irrlicht Engine Demo");

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

            gui.AddStaticText("Hello World! This is the Irrlicht Software renderer!",
                              new Recti(10, 10, 260, 22), true);

            AnimatedMesh          mesh = smgr.GetMesh("../../media/sydney.md2");
            AnimatedMeshSceneNode node = smgr.AddAnimatedMeshSceneNode(mesh);

            if (node != null)
            {
                node.SetMaterialFlag(MaterialFlag.Lighting, false);
                node.SetMD2Animation(AnimationTypeMD2.Stand);
                node.SetMaterialTexture(0, driver.GetTexture("../../media/sydney.bmp"));
            }

            smgr.AddCameraSceneNode(null, new Vector3Df(0, 30, -40), new Vector3Df(0, 5, 0));

            while (device.Run())
            {
                driver.BeginScene(ClearBufferFlag.All, new Color(100, 101, 140));

                smgr.DrawAll();
                gui.DrawAll();

                driver.EndScene();
            }

            device.Drop();
        }
Beispiel #2
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;
            }

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

            // load and display animated fairy mesh
            AnimatedMeshSceneNode fairy = smgr.AddAnimatedMeshSceneNode(smgr.GetMesh("../../media/faerie.md2"));

            if (fairy != null)
            {
                fairy.SetMaterialTexture(0, driver.GetTexture("../../media/faerie2.bmp")); // set diffuse texture
                fairy.SetMaterialFlag(MaterialFlag.Lighting, true);                        // enable dynamic lighting
                fairy.GetMaterial(0).Shininess = 20.0f;                                    // set size of specular highlights
                fairy.Position = new Vector3Df(-10, 0, -100);
                fairy.SetMD2Animation(AnimationTypeMD2.Stand);
            }

            // add white light
            smgr.AddLightSceneNode(null, new Vector3Df(-15, 5, -105), new Colorf(1, 1, 1));

            // set ambient light
            smgr.AmbientLight = new Colorf(0.25f, 0.25f, 0.25f);

            // add fps camera
            CameraSceneNode fpsCamera = smgr.AddCameraSceneNodeFPS();

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

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

            // create test cube
            SceneNode test = smgr.AddCubeSceneNode(60);

            // let the cube rotate and set some light settings
            SceneNodeAnimator anim = smgr.CreateRotationAnimator(new Vector3Df(0.3f, 0.3f, 0));

            test.Position = new Vector3Df(-100, 0, -100);
            test.SetMaterialFlag(MaterialFlag.Lighting, false);             // disable dynamic lighting
            test.AddAnimator(anim);
            anim.Drop();

            // create render target
            Texture         rt       = null;
            CameraSceneNode fixedCam = null;

            if (driver.QueryFeature(VideoDriverFeature.RenderToTarget))
            {
                rt = driver.AddRenderTargetTexture(new Dimension2Di(256), "RTT1");
                test.SetMaterialTexture(0, rt);                 // set material of cube to render target

                // add fixed camera
                fixedCam = smgr.AddCameraSceneNode(null, new Vector3Df(10, 10, -80), new Vector3Df(-10, 10, -100));
            }
            else
            {
                // create problem text
                GUIFont font = env.GetFont("../../media/fonthaettenschweiler.bmp");
                if (font != null)
                {
                    env.Skin.SetFont(font);
                }

                GUIStaticText text = env.AddStaticText(
                    "Your hardware or this renderer is not able to use the " +
                    "render to texture feature. RTT Disabled.",
                    new Recti(150, 20, 470, 60));

                text.OverrideColor = new Color(255, 255, 255, 100);
            }

            int lastFPS = -1;

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

                    if (rt != null)
                    {
                        // draw scene into render target

                        // set render target texture
                        driver.SetRenderTarget(rt, ClearBufferFlag.All, new Color(0, 0, 255));

                        // make cube invisible and set fixed camera as active camera
                        test.Visible      = false;
                        smgr.ActiveCamera = fixedCam;

                        // draw whole scene into render buffer
                        smgr.DrawAll();

                        // set back old render target
                        // The buffer might have been distorted, so clear it
                        driver.SetRenderTarget(null, ClearBufferFlag.All, new Color(0));

                        // make the cube visible and set the user controlled camera as active one
                        test.Visible      = true;
                        smgr.ActiveCamera = fpsCamera;
                    }

                    // draw scene normally
                    smgr.DrawAll();
                    env.DrawAll();

                    driver.EndScene();

                    // display frames per second in window title
                    int fps = driver.FPS;
                    if (lastFPS != fps)
                    {
                        device.SetWindowCaption(String.Format(
                                                    "Render to Texture and Specular Highlights example - Irrlicht Engine [{0}] fps: {1}",
                                                    driver.Name, fps));

                        lastFPS = fps;
                    }
                }
            }

            device.Drop();
        }
        private static float _playerVerticalSpeed = 0.0f; // used to calculate vertical speed for gravity and jump
        static void Main(string[] args)
        {
            IrrlichtDevice device = IrrlichtDevice.CreateDevice(DriverType.OpenGL, new Dimension2Di(ResolutionX, ResolutionY), 24, false, false, false);

            device.OnEvent += Device_OnEvent;
            device.SetWindowCaption("Hello World! - Irrlicht Engine Demo");

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

            GUIEnvironment gui = device.GUIEnvironment;

            gui.AddStaticText("Hello World! This is the Irrlicht Software renderer!",
                              new Recti(10, 10, 260, 22), true);

            AnimatedMesh          mesh       = smgr.GetMesh("../../media/sydney.md2");
            AnimatedMeshSceneNode sydneyNode = smgr.AddAnimatedMeshSceneNode(mesh);

            var cubeSceneNode = smgr.AddCubeSceneNode(2.0f);

            cubeSceneNode.Scale    = new Vector3Df(6.0f, 2.0f, 100.0f);
            cubeSceneNode.Position = new Vector3Df(cubeSceneNode.Position.X, GroundAltitude + 0.5f, cubeSceneNode.Position.Z);

            if (sydneyNode != null)
            {
                sydneyNode.SetMaterialFlag(MaterialFlag.Lighting, true);
                sydneyNode.SetMD2Animation(AnimationTypeMD2.Stand);
                sydneyNode.SetMaterialTexture(0, driver.GetTexture("../../media/sydney.bmp"));
            }

            var lightSceneNode = smgr.AddLightSceneNode();
            var light          = lightSceneNode.LightData;

            light.DiffuseColor = new Colorf(0.8f, 1.0f, 1.0f);
            light.Type         = LightType.Directional;
            light.Position     = new Vector3Df(0.0f, 5.0f, 5.0f);


            var cam = smgr.AddCameraSceneNode(null, new Vector3Df(20, 30, -40), new Vector3Df(20, 5, 0));

            device.Timer.Start();

            uint then = device.Timer.RealTime;

            while (device.Run())
            {
                // As the game is simple we will handle our simple physics ourselves
                uint  now            = device.Timer.RealTime;
                uint  elapsed        = now - then;
                float elapsedTimeSec = (float)elapsed / 1000.0f;
                then = now;

                // we target 58.8 FPS
                if (elapsed < 17)
                {
                    device.Sleep(17 - (int)elapsed);
                }
                else
                {
                    // uh-oh, it took more than .125 sec to do render loop!
                    // what do we do now?
                }

                _playerVerticalSpeed += elapsedTimeSec * -(VerticalGravity * 10.0f);

                var calculatedNewPos = sydneyNode.Position - new Vector3Df(0.0f, _playerVerticalSpeed * elapsedTimeSec, 0.0f);

                float offsetSydney = sydneyNode.BoundingBox.Extent.Y / 2.0f;
                _isGrounded = calculatedNewPos.Y <= (GroundAltitude + offsetSydney);
                if (_isGrounded)
                {
                    _playerVerticalSpeed = 0.0f;
                    calculatedNewPos.Y   = GroundAltitude + offsetSydney;
                }
                else
                {
                    calculatedNewPos.Y = calculatedNewPos.Y;
                }

                sydneyNode.Position = calculatedNewPos;

                driver.BeginScene(true, true, new Color(100, 101, 140));
                smgr.DrawAll();
                gui.DrawAll();

                driver.EndScene();
            }

            device.Drop();
        }
Beispiel #4
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;
            }

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

            device.FileSystem.AddFileArchive("../../media/map-20kdm2.pk3");

            AnimatedMesh  q3levelmesh = smgr.GetMesh("20kdm2.bsp");
            MeshSceneNode q3node      = null;

            // The Quake mesh is pickable, but doesn't get highlighted.
            if (q3levelmesh != null)
            {
                q3node = smgr.AddOctreeSceneNode(q3levelmesh.GetMesh(0), null, IDFlag_IsPickable);
            }

            TriangleSelector selector = null;

            if (q3node != null)
            {
                q3node.Position         = new Vector3Df(-1350, -130, -1400);
                selector                = smgr.CreateOctreeTriangleSelector(q3node.Mesh, q3node, 128);
                q3node.TriangleSelector = selector;
                // We're not done with this selector yet, so don't drop it.
            }

            // Set a jump speed of 3 units per second, which gives a fairly realistic jump
            // when used with the gravity of (0, -1000, 0) in the collision response animator.
            CameraSceneNode camera = smgr.AddCameraSceneNodeFPS(null, 100.0f, 0.3f, ID_IsNotPickable, null, true, 3.0f);

            camera.Position = new Vector3Df(50, 50, -60);
            camera.Target   = new Vector3Df(-70, 30, -60);

            if (selector != null)
            {
                SceneNodeAnimator anim = smgr.CreateCollisionResponseAnimator(
                    selector,
                    camera,
                    new Vector3Df(30, 50, 30),
                    new Vector3Df(0, -1000, 0),
                    new Vector3Df(0, 30, 0));

                selector.Drop();             // As soon as we're done with the selector, drop it.
                camera.AddAnimator(anim);
                anim.Drop();                 // And likewise, drop the animator when we're done referring to it.
            }

            // Now I create three animated characters which we can pick, a dynamic light for
            // lighting them, and a billboard for drawing where we found an intersection.

            // First, let's get rid of the mouse cursor. We'll use a billboard to show what we're looking at.
            device.CursorControl.Visible = false;

            // Add the billboard.
            BillboardSceneNode bill = smgr.AddBillboardSceneNode();

            bill.SetMaterialType(MaterialType.TransparentAddColor);
            bill.SetMaterialTexture(0, driver.GetTexture("../../media/particle.bmp"));
            bill.SetMaterialFlag(MaterialFlag.Lighting, false);
            bill.SetMaterialFlag(MaterialFlag.ZBuffer, false);
            bill.SetSize(20, 20, 20);
            bill.ID = ID_IsNotPickable;             // This ensures that we don't accidentally ray-pick it

            AnimatedMeshSceneNode node = null;

            // Add an MD2 node, which uses vertex-based animation.
            node          = smgr.AddAnimatedMeshSceneNode(smgr.GetMesh("../../media/faerie.md2"), null, IDFlag_IsPickable | IDFlag_IsHighlightable);
            node.Position = new Vector3Df(-90, -15, -140); // Put its feet on the floor.
            node.Scale    = new Vector3Df(1.6f);           // Make it appear realistically scaled
            node.SetMD2Animation(AnimationTypeMD2.Point);
            node.AnimationSpeed = 20.0f;
            node.GetMaterial(0).SetTexture(0, driver.GetTexture("../../media/faerie2.bmp"));
            node.GetMaterial(0).Lighting         = true;
            node.GetMaterial(0).NormalizeNormals = true;

            // Now create a triangle selector for it.  The selector will know that it
            // is associated with an animated node, and will update itself as necessary.
            selector = smgr.CreateTriangleSelector(node);
            node.TriangleSelector = selector;
            selector.Drop();             // We're done with this selector, so drop it now.

            // And this B3D file uses skinned skeletal animation.
            node                = smgr.AddAnimatedMeshSceneNode(smgr.GetMesh("../../media/ninja.b3d"), null, IDFlag_IsPickable | IDFlag_IsHighlightable);
            node.Scale          = new Vector3Df(10);
            node.Position       = new Vector3Df(-75, -66, -80);
            node.Rotation       = new Vector3Df(0, 90, 0);
            node.AnimationSpeed = 8.0f;
            node.GetMaterial(0).NormalizeNormals = true;
            // Just do the same as we did above.
            selector = smgr.CreateTriangleSelector(node);
            node.TriangleSelector = selector;
            selector.Drop();

            // This X files uses skeletal animation, but without skinning.
            node                  = smgr.AddAnimatedMeshSceneNode(smgr.GetMesh("../../media/dwarf.x"), null, IDFlag_IsPickable | IDFlag_IsHighlightable);
            node.Position         = new Vector3Df(-70, -66, -30); // Put its feet on the floor.
            node.Rotation         = new Vector3Df(0, -90, 0);     // And turn it towards the camera.
            node.AnimationSpeed   = 20.0f;
            selector              = smgr.CreateTriangleSelector(node);
            node.TriangleSelector = selector;
            selector.Drop();

            // And this mdl file uses skinned skeletal animation.
            node          = smgr.AddAnimatedMeshSceneNode(smgr.GetMesh("../../media/yodan.mdl"), null, IDFlag_IsPickable | IDFlag_IsHighlightable);
            node.Position = new Vector3Df(-90, -25, 20);
            node.Scale    = new Vector3Df(0.8f);
            node.GetMaterial(0).Lighting = true;
            node.AnimationSpeed          = 20.0f;

            // Just do the same as we did above.
            selector = smgr.CreateTriangleSelector(node);
            node.TriangleSelector = selector;
            selector.Drop();

            // Add a light, so that the unselected nodes aren't completely dark.
            LightSceneNode light = smgr.AddLightSceneNode(null, new Vector3Df(-60, 100, 400), new Colorf(1.0f, 1.0f, 1.0f), 600.0f);

            light.ID = ID_IsNotPickable;             // Make it an invalid target for selection.

            // Remember which scene node is highlighted
            SceneNode             highlightedSceneNode = null;
            SceneCollisionManager collMan = smgr.SceneCollisionManager;
            int lastFPS = -1;

            // draw the selection triangle only as wireframe
            Material material = new Material();

            material.Lighting  = false;
            material.Wireframe = true;

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

                    // Unlight any currently highlighted scene node
                    if (highlightedSceneNode != null)
                    {
                        highlightedSceneNode.SetMaterialFlag(MaterialFlag.Lighting, true);
                        highlightedSceneNode = null;
                    }

                    // All intersections in this example are done with a ray cast out from the camera to
                    // a distance of 1000.  You can easily modify this to check (e.g.) a bullet
                    // trajectory or a sword's position, or create a ray from a mouse click position using
                    // collMan.GetRayFromScreenCoordinates()
                    Line3Df ray = new Line3Df();
                    ray.Start = camera.Position;
                    ray.End   = ray.Start + (camera.Target - ray.Start).Normalize() * 1000.0f;

                    // This call is all you need to perform ray/triangle collision on every scene node
                    // that has a triangle selector, including the Quake level mesh.  It finds the nearest
                    // collision point/triangle, and returns the scene node containing that point.
                    // Irrlicht provides other types of selection, including ray/triangle selector,
                    // ray/box and ellipse/triangle selector, plus associated helpers.
                    // See the methods of ISceneCollisionManager
                    SceneNode selectedSceneNode =
                        collMan.GetSceneNodeAndCollisionPointFromRay(
                            ray,
                            out Vector3Df intersection,             // This will be the position of the collision
                            out Triangle3Df hitTriangle,            // This will be the triangle hit in the collision
                            IDFlag_IsPickable);                     // This ensures that only nodes that we have set up to be pickable are considered

                    // If the ray hit anything, move the billboard to the collision position
                    // and draw the triangle that was hit.
                    if (selectedSceneNode != null)
                    {
                        bill.Position = intersection;

                        // We need to reset the transform before doing our own rendering.
                        driver.SetTransform(TransformationState.World, Matrix.Identity);
                        driver.SetMaterial(material);
                        driver.Draw3DTriangle(hitTriangle, new Color(255, 0, 0));

                        // We can check the flags for the scene node that was hit to see if it should be
                        // highlighted. The animated nodes can be highlighted, but not the Quake level mesh
                        if ((selectedSceneNode.ID & IDFlag_IsHighlightable) == IDFlag_IsHighlightable)
                        {
                            highlightedSceneNode = selectedSceneNode;

                            // Highlighting in this case means turning lighting OFF for this node,
                            // which means that it will be drawn with full brightness.
                            highlightedSceneNode.SetMaterialFlag(MaterialFlag.Lighting, false);
                        }
                    }

                    // We're all done drawing, so end the scene.
                    driver.EndScene();

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

                        lastFPS = fps;
                    }
                }
            }

            device.Drop();
        }
Beispiel #5
0
        static void Main(string[] args)
        {
            DriverType driverType;

            if (!AskUserForDriver(out driverType))
            {
                return;
            }

            IrrlichtDevice device = IrrlichtDevice.CreateDevice(driverType, new Dimension2Di(ResX, ResY), 32, fullScreen);

            if (device == null)
            {
                return;
            }

            device.OnEvent += new IrrlichtDevice.EventHandler(device_OnEvent);
            VideoDriver  driver = device.VideoDriver;
            SceneManager smgr   = device.SceneManager;

            // load model
            AnimatedMesh model = smgr.GetMesh("../../media/sydney.md2");

            if (model == null)
            {
                return;
            }

            AnimatedMeshSceneNode model_node = smgr.AddAnimatedMeshSceneNode(model);

            // load texture
            if (model_node != null)
            {
                Texture texture = driver.GetTexture("../../media/sydney.bmp");
                model_node.SetMaterialTexture(0, texture);
                model_node.SetMD2Animation(AnimationTypeMD2.Run);
                model_node.SetMaterialFlag(MaterialFlag.Lighting, false);
            }

            // load map
            device.FileSystem.AddFileArchive("../../media/map-20kdm2.pk3");
            AnimatedMesh map = smgr.GetMesh("20kdm2.bsp");

            if (map != null)
            {
                SceneNode map_node = smgr.AddOctreeSceneNode(map.GetMesh(0));
                map_node.Position = new Vector3Df(-850, -220, -850);
            }

            // create 3 fixed and one user-controlled cameras
            camera[0]          = smgr.AddCameraSceneNode(null, new Vector3Df(50, 0, 0), new Vector3Df(0)); // font
            camera[1]          = smgr.AddCameraSceneNode(null, new Vector3Df(0, 50, 0), new Vector3Df(0)); // top
            camera[2]          = smgr.AddCameraSceneNode(null, new Vector3Df(0, 0, 50), new Vector3Df(0)); // left
            camera[3]          = smgr.AddCameraSceneNodeFPS();                                             // user-controlled
            camera[3].Position = new Vector3Df(-50, 0, -50);

            device.CursorControl.Visible = false;

            int lastFPS = -1;

            while (device.Run())
            {
                // set the viewpoint to the whole screen and begin scene
                driver.ViewPort = new Recti(0, 0, ResX, ResY);
                driver.BeginScene(true, true, new Color(100, 100, 100));

                if (splitScreen)
                {
                    smgr.ActiveCamera = camera[0];
                    driver.ViewPort   = new Recti(0, 0, ResX / 2, ResY / 2);                   // top left
                    smgr.DrawAll();

                    smgr.ActiveCamera = camera[1];
                    driver.ViewPort   = new Recti(ResX / 2, 0, ResX, ResY / 2);                   // top right
                    smgr.DrawAll();

                    smgr.ActiveCamera = camera[2];
                    driver.ViewPort   = new Recti(0, ResY / 2, ResX / 2, ResY);                   // bottom left
                    smgr.DrawAll();

                    driver.ViewPort = new Recti(ResX / 2, ResY / 2, ResX, ResY);                     // bottom right
                }

                smgr.ActiveCamera = camera[3];
                smgr.DrawAll();

                driver.EndScene();

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

                    lastFPS = fps;
                }
            }

            device.Drop();
        }
Beispiel #6
0
        static void Main()
        {
            // setup Irrlicht

            device = IrrlichtDevice.CreateDevice(DriverType.OpenGL, new Dimension2Di(1024, 768), 32, false, true);
            if (device == null)
            {
                return;
            }

            device.SetWindowCaption("Stencil Shadows - Irrlicht Engine");
            device.OnEvent += new IrrlichtDevice.EventHandler(device_OnEvent);

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

            GUIFont statsFont = device.GUIEnvironment.GetFont("../../media/fontlucida.png");

            cameraNode          = scene.AddCameraSceneNodeFPS();
            cameraNode.FarValue = 20000;

            device.CursorControl.Visible = false;

            // setup shadows

            shadows = new Shadows(new Color(0xa0000000), 4000);

            // load quake level

            device.FileSystem.AddFileArchive("../../media/map-20kdm2.pk3");

            Mesh          m = scene.GetMesh("20kdm2.bsp").GetMesh(0);
            MeshSceneNode n = scene.AddOctreeSceneNode(m, null, -1, 1024);

            n.Position     = new Vector3Df(-1300, -144, -1249);
            quakeLevelNode = n;

            // add faerie

            faerieNode = scene.AddAnimatedMeshSceneNode(
                scene.GetMesh("../../media/faerie.md2"),
                null, -1,
                new Vector3Df(100, -40, 80),
                new Vector3Df(0, 30, 0),
                new Vector3Df(1.6f));

            faerieNode.SetMD2Animation(AnimationTypeMD2.Wave);
            faerieNode.AnimationSpeed = 20;
            faerieNode.GetMaterial(0).SetTexture(0, driver.GetTexture("../../media/faerie2.bmp"));
            faerieNode.GetMaterial(0).Lighting         = false;
            faerieNode.GetMaterial(0).NormalizeNormals = true;

            shadows.AddObject(faerieNode);

            // add light

            lightMovementHelperNode = scene.AddEmptySceneNode();

            n = scene.AddSphereSceneNode(2, 6, lightMovementHelperNode, -1, new Vector3Df(15, -10, 15));
            n.SetMaterialFlag(MaterialFlag.Lighting, false);

            lightNode = n;
            shadows.AddLight(lightNode);

            // add flashlight

            m = scene.GetMesh("../../media/flashlight.obj");
            n = scene.AddMeshSceneNode(m, lightNode, -1, new Vector3Df(0), new Vector3Df(0), new Vector3Df(5));
            n.SetMaterialFlag(MaterialFlag.Lighting, false);

            flashlightNode         = n;
            flashlightNode.Visible = false;

            // render

            uint shdFrameTime = 0;
            uint shdFrames    = 0;
            uint shdFps       = 0;

            while (device.Run())
            {
                if (useShadowsRebuilding &&
                    shadows.BuildShadowVolume())
                {
                    shdFrames++;
                }

                uint t = device.Timer.Time;
                if (t - shdFrameTime > 1000)
                {
                    shdFrameTime = t;
                    shdFps       = shdFrames;
                    shdFrames    = 0;
                }

                if (useLightBinding)
                {
                    lightMovementHelperNode.Position = cameraNode.AbsolutePosition.GetInterpolated(lightMovementHelperNode.Position, 0.1);
                    lightMovementHelperNode.Rotation = cameraNode.AbsoluteTransformation.Rotation;
                }

                driver.BeginScene(ClearBufferFlag.All, new Color(0xff112244));

                scene.DrawAll();

                if (useShadowsRendering)
                {
                    shadows.DrawShadowVolume(driver);
                }

                // display stats

                driver.Draw2DRectangle(new Recti(10, 10, 150, 220), new Color(0x7f000000));

                Vector2Di v = new Vector2Di(20, 20);
                statsFont.Draw("Rendering", v, Color.SolidYellow);
                v.Y += 16;
                statsFont.Draw(driver.FPS + " fps", v, Color.SolidWhite);
                v.Y += 16;
                statsFont.Draw("[S]hadows " + (useShadowsRendering ? "ON" : "OFF"), v, Color.SolidGreen);
                v.Y += 16;
                statsFont.Draw("[L]ight binding " + (useLightBinding ? "ON" : "OFF"), v, Color.SolidGreen);
                v.Y += 16;
                statsFont.Draw("[F]lashlight " + (useFlashlight ? "ON" : "OFF"), v, Color.SolidGreen);
                v.Y += 32;
                statsFont.Draw("Shadows", v, Color.SolidYellow);
                v.Y += 16;
                statsFont.Draw(shdFps + " fps", v, Color.SolidWhite);
                v.Y += 16;
                statsFont.Draw(shadows.VerticesBuilt + " vertices", v, Color.SolidWhite);
                v.Y += 16;
                statsFont.Draw("[R]ebuilding " + (useShadowsRebuilding ? "ON" : "OFF"), v, Color.SolidGreen);
                v.Y += 16;
                statsFont.Draw("[Q]uake level " + (useShadowsQuakeLevel ? "ON" : "OFF"), v, Color.SolidGreen);

                driver.EndScene();
            }

            shadows.Drop();
            device.Drop();
        }
Beispiel #7
0
		static void Main(string[] args)
		{
			// setup Irrlicht

			device = IrrlichtDevice.CreateDevice(DriverType.Direct3D9, new Dimension2Di(1024, 768), 32, false, true);
			if (device == null)
				return;

			device.SetWindowCaption("Stencil Shadows - Irrlicht Engine");
			device.OnEvent += new IrrlichtDevice.EventHandler(device_OnEvent);

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

			GUIFont statsFont = device.GUIEnvironment.GetFont("../../media/fontlucida.png");
			Material statsMaterial = Material.IdentityNoLighting;

			cameraNode = scene.AddCameraSceneNodeFPS();
			cameraNode.FarValue = 20000;

			device.CursorControl.Visible = false;

			// setup shadows

			shadows = new Shadows(new Color(0xa0000000), 4000);

			// load quake level

			device.FileSystem.AddFileArchive("../../media/map-20kdm2.pk3");

			Mesh m = scene.GetMesh("20kdm2.bsp").GetMesh(0);
			MeshSceneNode n = scene.AddOctreeSceneNode(m, null, -1, 1024);
			n.Position = new Vector3Df(-1300, -144, -1249);
			quakeLevelNode = n;

			// add faerie

			faerieNode = scene.AddAnimatedMeshSceneNode(
				scene.GetMesh("../../media/faerie.md2"),
				null, -1,
				new Vector3Df(100, -40, 80),
				new Vector3Df(0, 30, 0),
				new Vector3Df(1.6f));

			faerieNode.SetMD2Animation(AnimationTypeMD2.Wave);
			faerieNode.AnimationSpeed = 20;
			faerieNode.GetMaterial(0).SetTexture(0, driver.GetTexture("../../media/faerie2.bmp"));
			faerieNode.GetMaterial(0).Lighting = false;
			faerieNode.GetMaterial(0).NormalizeNormals = true;

			shadows.AddObject(faerieNode);

			// add light

			lightMovementHelperNode = scene.AddEmptySceneNode();

			n = scene.AddSphereSceneNode(2, 6, lightMovementHelperNode, -1, new Vector3Df(15, -10, 15));
			n.SetMaterialFlag(MaterialFlag.Lighting, false);

			lightNode = n;
			shadows.AddLight(lightNode);

			// add flashlight

			m = scene.GetMesh("../../media/flashlight.obj");
			n = scene.AddMeshSceneNode(m, lightNode, -1, new Vector3Df(0), new Vector3Df(0), new Vector3Df(5));
			n.SetMaterialFlag(MaterialFlag.Lighting, false);

			flashlightNode = n;
			flashlightNode.Visible = false;

			// render

			uint shdFrameTime = 0;
			uint shdFrames = 0;
			uint shdFps = 0;

			while (device.Run())
			{
				if (useShadowsRebuilding &&
					shadows.BuildShadowVolume())
					shdFrames++;

				uint t = device.Timer.Time;
				if (t - shdFrameTime > 1000)
				{
					shdFrameTime = t;
					shdFps = shdFrames;
					shdFrames = 0;
				}

				if (useLightBinding)
				{
					lightMovementHelperNode.Position = cameraNode.AbsolutePosition.GetInterpolated(lightMovementHelperNode.Position, 0.1);
					lightMovementHelperNode.Rotation = cameraNode.AbsoluteTransformation.Rotation;
				}

				driver.BeginScene(true, true, new Color(0xff112244));

				scene.DrawAll();

				if (useShadowsRendering)
					shadows.DrawShadowVolume(driver);

				// display stats

				device.VideoDriver.SetMaterial(statsMaterial);

				driver.Draw2DRectangle(new Recti(10, 10, 150, 220), new Color(0x7f000000));

				Vector2Di v = new Vector2Di(20, 20);
				statsFont.Draw("Rendering", v, Color.OpaqueYellow);
				v.Y += 16;
				statsFont.Draw(driver.FPS + " fps", v, Color.OpaqueWhite);
				v.Y += 16;
				statsFont.Draw("[S]hadows " + (useShadowsRendering ? "ON" : "OFF"), v, Color.OpaqueGreen);
				v.Y += 16;
				statsFont.Draw("[L]ight binding " + (useLightBinding ? "ON" : "OFF"), v, Color.OpaqueGreen);
				v.Y += 16;
				statsFont.Draw("[F]lashlight " + (useFlashlight ? "ON" : "OFF"), v, Color.OpaqueGreen);
				v.Y += 32;
				statsFont.Draw("Shadows", v, Color.OpaqueYellow);
				v.Y += 16;
				statsFont.Draw(shdFps + " fps", v, Color.OpaqueWhite);
				v.Y += 16;
				statsFont.Draw(shadows.VerticesBuilt + " vertices", v, Color.OpaqueWhite);
				v.Y += 16;
				statsFont.Draw("[R]ebuilding " + (useShadowsRebuilding ? "ON" : "OFF"), v, Color.OpaqueGreen);
				v.Y += 16;
				statsFont.Draw("[Q]uake level " + (useShadowsQuakeLevel ? "ON" : "OFF"), v, Color.OpaqueGreen);

				driver.EndScene();
			}

			shadows.Drop();
			device.Drop();
		}