public VarianceShadowSample(Microsoft.Xna.Framework.Game game) : base(game) { SampleFramework.IsMouseVisible = false; _graphicsScreen = new DeferredGraphicsScreen(Services) { // For debugging: Disable materials and only show light buffer. DebugMode = DeferredGraphicsDebugMode.VisualizeDiffuseLightBuffer }; _graphicsScreen.DrawReticle = true; GraphicsService.Screens.Insert(0, _graphicsScreen); GameObjectService.Objects.Add(new DeferredGraphicsOptionsObject(Services)); Services.Register(typeof(DebugRenderer), null, _graphicsScreen.DebugRenderer); Services.Register(typeof(IScene), null, _graphicsScreen.Scene); // Add gravity and damping to the physics simulation. Simulation.ForceEffects.Add(new Gravity()); Simulation.ForceEffects.Add(new Damping()); // Add a custom game object which controls the camera. var cameraGameObject = new CameraObject(Services); GameObjectService.Objects.Add(cameraGameObject); _graphicsScreen.ActiveCameraNode = cameraGameObject.CameraNode; GameObjectService.Objects.Add(new GrabObject(Services)); // Create test scene. ShadowSample.CreateScene(Services, ContentManager, _graphicsScreen); // Get directional light created by the DynamicSkyObject and replace the default // shadow with our custom VSM shadow. _lightNode = _graphicsScreen.Scene.GetDescendants().OfType <LightNode>().First(n => n.Shadow is CascadedShadow); _varianceShadow = new VarianceShadow { // If a target area is set, the VSM covers the given area. // If no target area is set, the VSM covers the area in front of the camera. TargetArea = new Aabb(new Vector3(-100, 0, -100), new Vector3(100, 50, 100)), }; _lightNode.Shadow = _varianceShadow; // Apply a blur filter to the shadow map. _varianceShadow.Filter = new Blur(GraphicsService); _varianceShadow.Filter.InitializeGaussianBlur(11, 3, false); // Register our custom shadow map and shadow mask renderers. _graphicsScreen.ShadowMapRenderer.Renderers.Add(new VarianceShadowMapRenderer(_graphicsScreen.ShadowMapRenderer.RenderCallback)); _graphicsScreen.ShadowMaskRenderer.Renderers.Add(new VarianceShadowMaskRenderer(GraphicsService)); CreateGuiControls(); }
public CascadedShadowSample(Microsoft.Xna.Framework.Game game) : base(game) { SampleFramework.IsMouseVisible = false; _graphicsScreen = new DeferredGraphicsScreen(Services) { // For debugging: Disable materials and only show light buffer. DebugMode = DeferredGraphicsDebugMode.VisualizeDiffuseLightBuffer }; _graphicsScreen.DrawReticle = true; GraphicsService.Screens.Insert(0, _graphicsScreen); GameObjectService.Objects.Add(new DeferredGraphicsOptionsObject(Services)); Services.Register(typeof(DebugRenderer), null, _graphicsScreen.DebugRenderer); Services.Register(typeof(IScene), null, _graphicsScreen.Scene); // Add gravity and damping to the physics simulation. Simulation.ForceEffects.Add(new Gravity()); Simulation.ForceEffects.Add(new Damping()); // Add a custom game object which controls the camera. var cameraGameObject = new CameraObject(Services); GameObjectService.Objects.Add(cameraGameObject); _graphicsScreen.ActiveCameraNode = cameraGameObject.CameraNode; GameObjectService.Objects.Add(new GrabObject(Services)); ShadowSample.CreateScene(Services, ContentManager, _graphicsScreen); // Get the cascaded shadow of the sunlight (which was created by the DynamicSkyObject). _cascadedShadow = (CascadedShadow)((LightNode)_graphicsScreen.Scene.GetSceneNode("Sunlight")).Shadow; CreateGuiControls(); }
public CompositeShadowSample(Microsoft.Xna.Framework.Game game) : base(game) { SampleFramework.IsMouseVisible = false; _graphicsScreen = new DeferredGraphicsScreen(Services) { // For debugging: Disable materials and only show light buffer. DebugMode = DeferredGraphicsDebugMode.VisualizeDiffuseLightBuffer }; _graphicsScreen.DrawReticle = true; GraphicsService.Screens.Insert(0, _graphicsScreen); GameObjectService.Objects.Add(new DeferredGraphicsOptionsObject(Services)); Services.Register(typeof(DebugRenderer), null, _graphicsScreen.DebugRenderer); Services.Register(typeof(IScene), null, _graphicsScreen.Scene); // Add gravity and damping to the physics simulation. Simulation.ForceEffects.Add(new Gravity()); Simulation.ForceEffects.Add(new Damping()); // Add a custom game object which controls the camera. var cameraGameObject = new CameraObject(Services); GameObjectService.Objects.Add(cameraGameObject); _graphicsScreen.ActiveCameraNode = cameraGameObject.CameraNode; GameObjectService.Objects.Add(new GrabObject(Services)); // Create test scene. ShadowSample.CreateScene(Services, ContentManager, _graphicsScreen); // Create 3 different shadows: // The VarianceShadow covers the whole level. _vsmShadow = new VarianceShadow { Prefer16Bit = false, PreferredSize = 512, MinLightDistance = 200, MaxDistance = 200, FadeOutRange = 0, ShadowFog = 0, TargetArea = new Aabb(new Vector3(-100, 0, -100), new Vector3(100, 50, 100)) }; _vsmShadow.Filter = new Blur(GraphicsService); _vsmShadow.Filter.NumberOfPasses = 1; _vsmShadow.Filter.InitializeGaussianBlur(11, 3, false); // The CascadedShadow for static objects. _staticCascadedShadow = new CascadedShadow { PreferredSize = 1024, Prefer16Bit = true, Distances = new Vector4(4, 12, 20, 80), MinLightDistance = 200, }; // The CascadedShadow for dynamic objects covering a smaller distance. _dynamicCascadedShadow = new CascadedShadow { PreferredSize = 1024, Prefer16Bit = true, NumberOfCascades = 2, Distances = new Vector4(4, 12, 0, 0), MinLightDistance = 200, }; // Get directional light created by the DynamicSkyObject and replace the default // shadow with our a CompositeShadow. _lightNode = _graphicsScreen.Scene.GetDescendants().OfType <LightNode>().First(n => n.Shadow is CascadedShadow); _lightNode.Shadow = new CompositeShadow { Shadows = { _vsmShadow, _staticCascadedShadow, _dynamicCascadedShadow, } }; // We do not want to render the same objects into all 3 shadow maps. We use a custom // render callback to render each objects into only one of the shadow maps. _graphicsScreen.ShadowMapRenderer.RenderCallback = context => { // Query all shadow casters. var query = context.Scene.Query <ShadowCasterQuery>(context.CameraNode, context); if (query.ShadowCasters.Count == 0) { return(false); } // Get the shadow which is currently being rendered. var shadow = context.Object; // Create a list of scene nodes for the current shadow. var list = _tempList; if (shadow == _vsmShadow) { // Get the hills and skyscrapers which have been marked with a user flag // in ShadowSample.CreateScene. foreach (var node in query.ShadowCasters) { if (node.UserFlags == 1) { _tempList.Add(node); } } } else if (shadow == _staticCascadedShadow) { // Get all static objects except the hills/skyscrapers. foreach (var node in query.ShadowCasters) { if (node.UserFlags == 0 && node.IsStatic) { _tempList.Add(node); } } } else if (shadow == _dynamicCascadedShadow) { // Get all dynamic objects. foreach (var node in query.ShadowCasters) { if (!node.IsStatic) { _tempList.Add(node); } } } else { // Other shadows of other lights. list = query.ShadowCasters; } // Render the selected objects into the shadow map. _graphicsScreen.MeshRenderer.Render(list, context); _tempList.Clear(); return(true); }; // Register the custom renderers for the VarianceShadow. _graphicsScreen.ShadowMapRenderer.Renderers.Add(new VarianceShadowMapRenderer(_graphicsScreen.ShadowMapRenderer.RenderCallback)); _graphicsScreen.ShadowMaskRenderer.Renderers.Add(new VarianceShadowMaskRenderer(GraphicsService)); CreateGuiControls(); }