public static RAMMesh GetBarrelMesh(OBJToRAMMeshConverter c)
        {
            var fsMat = new FileStream(TestFiles.BarrelMtl, FileMode.Open);

            var importer = new ObjImporter();

            importer.AddMaterialFileStream("Barrel01.mtl", fsMat);

            importer.ImportObjFile(TestFiles.BarrelObj);

            var meshes = c.CreateMeshesFromObjects(importer);

            fsMat.Close();

            return(meshes[0]);
        }
        public void TestDeferredRendererCity()
        {
            var game = new DX11Game();

            game.InitDirectX();
            SlimDX.Configuration.EnableObjectTracking = false;

            var renderer = new DeferredRenderer(game);

            var c = new OBJToRAMMeshConverter(new RAMTextureFactory());


            var importer = new ObjImporter();

            importer.AddMaterialFileStream("Town001.mtl", new FileStream("../../bin/GameData/Core/Town/OBJ03/Town001.mtl", FileMode.Open));
            importer.ImportObjFile("../../bin/GameData/Core/Town/OBJ03/Town001.obj");

            var meshes = c.CreateMeshesFromObjects(importer);

            for (int index = 0; index < meshes.Count; index++)
            {
                var ramMesh = meshes[index];
                var el      = renderer.CreateMeshElement(ramMesh);
            }
            var directional = renderer.CreateDirectionalLight();

            directional.ShadowsEnabled = true;
            var point = renderer.CreatePointLight();

            point.LightRadius   *= 2;
            point.ShadowsEnabled = true;
            var spot = renderer.CreateSpotLight();

            spot.LightRadius   *= 2;
            spot.ShadowsEnabled = true;

            var visualizer = new QuadTreeVisualizer();

            var  otherCam = new SpectaterCamera(1, 10000);
            var  camState = false;
            int  state    = 0;
            bool rotate   = false;

            game.GameLoopEvent += delegate
            {
                if (game.Keyboard.IsKeyPressed(Key.D1))
                {
                    state = 0;
                }
                if (game.Keyboard.IsKeyPressed(Key.D2))
                {
                    state = 1;
                }
                if (game.Keyboard.IsKeyPressed(Key.D3))
                {
                    state = 2;
                }
                if (game.Keyboard.IsKeyPressed(Key.D4))
                {
                    state = 3;
                }

                if (game.Keyboard.IsKeyPressed(Key.C))
                {
                    camState = !camState;
                }

                if (game.Keyboard.IsKeyPressed(Key.NumberPad0))
                {
                    rotate = !rotate;
                }

                if (rotate)
                {
                    game.SpectaterCamera.AngleHorizontal += game.Elapsed * MathHelper.Pi * (1 / 8f);
                }

                switch (state)
                {
                case 0:
                    break;

                case 1:
                    directional.LightDirection = game.SpectaterCamera.CameraDirection;
                    break;

                case 2:
                    point.LightPosition = game.SpectaterCamera.CameraPosition;

                    break;

                case 3:
                    spot.LightPosition = game.SpectaterCamera.CameraPosition;
                    spot.SpotDirection = game.SpectaterCamera.CameraDirection;
                    break;
                }

                if (camState)
                {
                    game.Camera = game.SpectaterCamera;
                    renderer.DEBUG_SeperateCullCamera = null;
                }
                else
                {
                    game.Camera = otherCam;
                    renderer.DEBUG_SeperateCullCamera = game.SpectaterCamera;
                }
                game.SpectaterCamera.EnableUserInput = camState;
                otherCam.EnableUserInput             = !camState;
                otherCam.Update(game.Elapsed, game.Keyboard, game.Mouse);


                renderer.Draw();


                if (false)
                {
                    //renderer.DEBUG_FrustumCuller.CullCamera = game.Camera;
                    //renderer.DEBUG_FrustumCuller.UpdateVisibility();
                    //for (int i = 0; i < renderer.DebugMeshesRenderer.Elements.Count; i++)
                    //{
                    //    var el = renderer.DebugMeshesRenderer.Elements[i];

                    //    game.LineManager3D.AddBox(el.BoundingBox.dx(), new SlimDX.Color4(0, 1, 0));
                    //}

                    //visualizer.RenderNodeGroundBoundig(game, renderer.DEBUG_FrustumCuller.RootNode);
                    visualizer.RenderNodeGroundBoundig(game, renderer.DEBUG_FrustumCuller.RootNode,
                                                       delegate(FrustumCuller.CullNode quadTreeNode, out Color4 color4)
                    {
                        if (point.Views[2].IsNodeVisible(quadTreeNode))
                        {
                            color4 = new Color4(1, 0, 0);
                        }
                        else
                        {
                            color4 = new Color4(0, 1, 0);
                        }
                        return(true);
                    });
                }

                game.LineManager3D.AddViewFrustum(game.SpectaterCamera.ViewProjection, new SlimDX.Color4(1, 0, 0));
            };


            game.Run();
        }
        public void TestOBJToRAMMeshConverterPerObjectVisual()
        {
            var c = new OBJToRAMMeshConverter(new RAMTextureFactory());


            var importer = new ObjImporter();

            importer.AddMaterialFileStream("Town001.mtl", new FileStream(TestFiles.TownMtl, FileMode.Open));
            importer.ImportObjFile(TestFiles.TownObj);

            var meshes = c.CreateMeshesFromObjects(importer);

            var texturePool           = new TexturePool();
            var meshpartPool          = new MeshPartPool();
            var vertexDeclarationPool = new VertexDeclarationPool();

            var renderer = new SimpleMeshRenderer(texturePool, meshpartPool, vertexDeclarationPool);

            vertexDeclarationPool.SetVertexElements <TangentVertex>(TangentVertex.VertexElements);



            var spheres = new List <ClientPhysicsTestSphere>();
            var engine  = new PhysicsEngine();
            PhysicsDebugRendererXNA debugRenderer = null;

            var builder = new MeshPhysicsActorBuilder(new MeshPhysicsPool());

            TheWizards.Client.ClientPhysicsQuadTreeNode root;

            int numNodes = 20;

            root = new ClientPhysicsQuadTreeNode(
                new BoundingBox(
                    new Vector3(-numNodes * numNodes / 2f, -100, -numNodes * numNodes / 2f),
                    new Vector3(numNodes * numNodes / 2f, 100, numNodes * numNodes / 2f)));

            QuadTree.Split(root, 5);

            var physicsElementFactoryXNA = new MeshPhysicsFactoryXNA(engine, root);
            var physicsElementFactory    = physicsElementFactoryXNA.Factory;

            var physicsElements = new List <MeshStaticPhysicsElement>();

            for (int i = 0; i < 0 * 100 + 1 * meshes.Count; i++)
            {
                var mesh = meshes[i];
                var el   = renderer.AddMesh(mesh);
                el.WorldMatrix = Matrix.CreateTranslation(Vector3.Right * 0 * 2 + Vector3.UnitZ * 0 * 2);

                var pEl = physicsElementFactory.CreateStaticElement(mesh, Matrix.Identity);
                physicsElements.Add(pEl);
            }

            var game = new XNAGame();

            game.IsFixedTimeStep                    = false;
            game.DrawFps                            = true;
            game.SpectaterCamera.FarClip            = 5000;
            game.Graphics1.PreparingDeviceSettings += delegate(object sender, PreparingDeviceSettingsEventArgs e)
            {
                DisplayMode displayMode = GraphicsAdapter.DefaultAdapter.CurrentDisplayMode;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferFormat = displayMode.Format;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferWidth  = displayMode.Width;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferHeight = displayMode.Height;
                game.SpectaterCamera.AspectRatio = displayMode.Width / (float)displayMode.Height;
            };
            game.Graphics1.ToggleFullScreen();

            var sphereMesh = new SphereMesh(0.3f, 20, Color.Green);
            var visualizer = new QuadTreeVisualizerXNA();

            game.AddXNAObject(physicsElementFactoryXNA);

            game.AddXNAObject(texturePool);
            game.AddXNAObject(meshpartPool);
            game.AddXNAObject(vertexDeclarationPool);
            game.AddXNAObject(renderer);


            game.InitializeEvent += delegate
            {
                engine.Initialize();
                debugRenderer = new PhysicsDebugRendererXNA(game, engine.Scene);
                debugRenderer.Initialize(game);
                sphereMesh.Initialize(game);
            };

            bool showPhysics = true;

            game.DrawEvent += delegate
            {
                if (game.Keyboard.IsKeyPressed(Keys.P))
                {
                    showPhysics = !showPhysics;
                }
                if (showPhysics)
                {
                    debugRenderer.Render(game);
                }
                visualizer.RenderNodeGroundBoundig(game, root,
                                                   delegate(ClientPhysicsQuadTreeNode node, out Color col)
                {
                    col = Color.Green;

                    return(node.PhysicsObjects.Count == 0);
                });

                visualizer.RenderNodeGroundBoundig(game, root,
                                                   delegate(ClientPhysicsQuadTreeNode node, out Color col)
                {
                    col = Color.Orange;

                    return(node.PhysicsObjects.Count > 0);
                });

                for (int i = 0; i < physicsElements.Count; i++)
                {
                    var el = physicsElements[i];
                    //game.LineManager3D.AddBox(BoundingBox.CreateFromSphere( el.BoundingSphere), Color.Orange);
                }
                for (int i = 0; i < spheres.Count; i++)
                {
                    sphereMesh.WorldMatrix = Matrix.CreateTranslation(spheres[i].Center);
                    sphereMesh.Render(game);
                }
            };
            game.UpdateEvent += delegate
            {
                engine.Update(game.Elapsed);
                sphereMesh.Update(game);
                if (game.Keyboard.IsKeyPressed(Microsoft.Xna.Framework.Input.Keys.F))
                {
                    var iSphere = new ClientPhysicsTestSphere(engine.Scene,
                                                              game.SpectaterCamera.CameraPosition + game.SpectaterCamera.CameraDirection
                                                              , 0.3f);

                    iSphere.InitDynamic();
                    iSphere.Actor.LinearVelocity = game.SpectaterCamera.CameraDirection * 10;

                    spheres.Add(iSphere);
                }



                for (int i = 0; i < spheres.Count; i++)
                {
                    spheres[i].Update(root, game);
                }
            };

            game.Run();
        }
        public void TestOBJToRAMMeshConverterPerObjectVisualCool()
        {
            var textureFactory = new RAMTextureFactory();
            var c = new OBJToRAMMeshConverter(textureFactory);


            var importer = new ObjImporter();

            importer.AddMaterialFileStream("Town001.mtl", new FileStream("../GameData/Town/OBJ03/Town001.mtl", FileMode.Open));
            importer.ImportObjFile("../GameData/Town/OBJ03/Town001.obj");

            var meshes = c.CreateMeshesFromObjects(importer);

            var texturePool           = new TexturePool();
            var meshpartPool          = new MeshPartPool();
            var vertexDeclarationPool = new VertexDeclarationPool();

            var renderer = new SimpleMeshRenderer(texturePool, meshpartPool, vertexDeclarationPool);

            vertexDeclarationPool.SetVertexElements <TangentVertex>(TangentVertex.VertexElements);



            var spheres = new List <ClientPhysicsTestSphere>();
            var engine  = new PhysicsEngine();
            PhysicsDebugRendererXNA debugRenderer = null;

            var root = CreatePhysicsQuadtree(20, 5);

            var physicsElementFactoryXNA = new MeshPhysicsFactoryXNA(engine, root);
            var physicsElementFactory    = physicsElementFactoryXNA.Factory;

            var physicsElements = new List <MeshStaticPhysicsElement>();

            for (int i = 0; i < 0 * 100 + 1 * meshes.Count; i++)
            {
                var mesh = meshes[i];
                var el   = renderer.AddMesh(mesh);
                el.WorldMatrix = Matrix.CreateTranslation(Vector3.Right * 0 * 2 + Vector3.UnitZ * 0 * 2);

                var pEl = physicsElementFactory.CreateStaticElement(mesh, Matrix.Identity);
                physicsElements.Add(pEl);
            }
            var gameMeshes = new List <OBJParserTest.TestGameMesh>();

            var game = new XNAGame();

            game.IsFixedTimeStep                    = false;
            game.DrawFps                            = true;
            game.SpectaterCamera.FarClip            = 5000;
            game.Graphics1.PreparingDeviceSettings += delegate(object sender, PreparingDeviceSettingsEventArgs e)
            {
                DisplayMode displayMode = GraphicsAdapter.DefaultAdapter.CurrentDisplayMode;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferFormat = displayMode.Format;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferWidth  = displayMode.Width;
                e.GraphicsDeviceInformation.PresentationParameters.BackBufferHeight = displayMode.Height;
                game.SpectaterCamera.AspectRatio = displayMode.Width / (float)displayMode.Height;
            };
            game.Graphics1.ToggleFullScreen();

            var barrelMesh = OBJParserTest.GetBarrelMesh(c);
            var crateMesh  = OBJParserTest.GetCrateMesh(c);

            var sphereMesh = new SphereMesh(0.3f, 20, Color.Green);
            var visualizer = new QuadTreeVisualizerXNA();

            game.AddXNAObject(physicsElementFactoryXNA);

            game.AddXNAObject(texturePool);
            game.AddXNAObject(meshpartPool);
            game.AddXNAObject(vertexDeclarationPool);
            game.AddXNAObject(renderer);


            game.InitializeEvent += delegate
            {
                engine.Initialize();
                debugRenderer = new PhysicsDebugRendererXNA(game, engine.Scene);
                debugRenderer.Initialize(game);
                sphereMesh.Initialize(game);

                for (int i = 0; i < meshes.Count; i++)
                {
                    var mesh = meshes[i];
                    var data = mesh.GetCollisionData();

                    /*if (data.TriangleMesh != null)
                     *  physicsElementFactory.MeshPhysicsPool.PreloadTriangleMesh(engine.Scene, data.TriangleMesh);*/
                }
            };

            bool showPhysics = true;

            game.DrawEvent += delegate
            {
                if (game.Keyboard.IsKeyPressed(Keys.P))
                {
                    showPhysics = !showPhysics;
                }
                if (showPhysics)
                {
                    debugRenderer.Render(game);
                }

                /*visualizer.RenderNodeGroundBoundig(game, root,
                 *  delegate(ClientPhysicsQuadTreeNode node, out Color col)
                 *  {
                 *      col = Color.Green;
                 *
                 *      return node.PhysicsObjects.Count == 0;
                 *  });
                 *
                 * visualizer.RenderNodeGroundBoundig(game, root,
                 * delegate(ClientPhysicsQuadTreeNode node, out Color col)
                 * {
                 *     col = Color.Orange;
                 *
                 *     return node.PhysicsObjects.Count > 0;
                 * });*/

                for (int i = 0; i < physicsElements.Count; i++)
                {
                    var el = physicsElements[i];
                    //game.LineManager3D.AddBox(BoundingBox.CreateFromSphere( el.BoundingSphere), Color.Orange);
                }
                for (int i = 0; i < spheres.Count; i++)
                {
                    sphereMesh.WorldMatrix = Matrix.CreateTranslation(spheres[i].Center);
                    sphereMesh.Render(game);
                }
            };
            game.UpdateEvent += delegate
            {
                engine.Update(game.Elapsed);
                sphereMesh.Update(game);
                if (game.Keyboard.IsKeyPressed(Microsoft.Xna.Framework.Input.Keys.F))
                {
                    var pEl = physicsElementFactory.CreateDynamicElement(crateMesh,
                                                                         Matrix.CreateTranslation(
                                                                             game.SpectaterCamera.CameraPosition +
                                                                             game.SpectaterCamera.CameraDirection));
                    pEl.Actor.LinearVelocity = game.SpectaterCamera.CameraDirection * 30;

                    var rEl = renderer.AddMesh(crateMesh);


                    gameMeshes.Add(new OBJParserTest.TestGameMesh(rEl, pEl));
                }
                if (game.Keyboard.IsKeyPressed(Microsoft.Xna.Framework.Input.Keys.E))
                {
                    var pEl = physicsElementFactory.CreateDynamicElement(barrelMesh,
                                                                         Matrix.CreateTranslation(
                                                                             game.SpectaterCamera.CameraPosition +
                                                                             game.SpectaterCamera.CameraDirection));
                    pEl.Actor.LinearVelocity = game.SpectaterCamera.CameraDirection * 30;

                    var rEl = renderer.AddMesh(barrelMesh);


                    gameMeshes.Add(new OBJParserTest.TestGameMesh(rEl, pEl));
                }


                for (int i = 0; i < gameMeshes.Count; i++)
                {
                    var m = gameMeshes[i];
                    m.RenderElement.WorldMatrix = m.PhysicsElement.World;
                }
            };

            game.Run();
        }