protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { ///Uncoment to add your model SimpleModel simpleModel = new SimpleModel(factory, "Model/cenario"); ///Physic info (position, rotation and scale are set here) TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); ///Forward Shader (look at this shader construction for more info) ForwardXNABasicShader shader = new ForwardXNABasicShader(); ///Deferred material ForwardMaterial fmaterial = new ForwardMaterial(shader); ///The object itself IObject obj = new IObject(fmaterial, simpleModel, tmesh); ///Add to the world this.World.AddObject(obj); } { SnowParticleSystem snow = new SnowParticleSystem(); DPFSParticleSystem ps = new DPFSParticleSystem("snow", snow); this.World.ParticleManager.AddAndInitializeParticleSystem(ps); ///cant set emiter position before adding the particle ///IF YOU DO SO, IT WILL NOT WORK snow.Emitter.PositionData.Position = new Vector3(500, 0, 0); } CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(-50), MathHelper.ToRadians(-10), new Vector3(-150, 150, 150), GraphicInfo); this.World.CameraManager.AddCamera(cam); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ///Create the Terrain Object ///Controls how the heigh map is loaded TerrainObject to = new TerrainObject(factory, "..\\Content\\Textures\\Untitled", Vector3.Zero, Matrix.Identity, MaterialDescription.DefaultBepuMaterial(), 1, 1,10); ///Create the Model using the Terrain Object. Here we pass the textures used, in our case we are using MultiTextured Terrain so we pass lots of textures TerrainModel stm = new TerrainModel(factory, to, "TerrainName", "..\\Content\\Textures\\Terraingrass"); stm.SetTexture(factory.CreateTexture2DColor(1,1,Color.Green), TextureType.DIFFUSE); ///Create the shader ///In this sample we passed lots of textures, each one describe a level in the terrain, the ground is the sand and grass. the hills are rocks and the "mountains" are snow ///They are interpolated in the shader, you can control how using the shader parameters exposed in the DeferredTerrainShader ForwardXNABasicShader shader = new ForwardXNABasicShader(); ///Deferred material ForwardMaterial fmaterial = new ForwardMaterial(shader); ///The object itself IObject obj = new IObject(fmaterial, stm, to); ///Add to the world this.World.AddObject(obj); shader.BasicEffect.EnableDefaultLighting(); CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo.Viewport); this.World.CameraManager.AddCamera(cam); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); this.AttachCleanUpAble(ext); ModelLoaderData data = ext.Load(factory, GraphicInfo, "shadow"); WorldLoader wl = new WorldLoader(); wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); wl.OnCreateILight += new CreateILight(wl_OnCreateILight); wl.LoadWorld(factory, GraphicInfo, World, data); lt = new LightThrowBepu(this.World, factory); #region NormalLight ld1 = new DirectionalLightPE(new Vector3(0.2f, -1, 0.2f), Color.White); ld1.CastShadown = true; float li = 0.9f; ld1.LightIntensity = li; this.World.AddLight(ld1); #endregion CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grasscube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); ///Interpolator to change lightDirection inter.Start(new Vector3(0, -1, 0), new Vector3(1, -1, 1), 3, true); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); ModelLoaderData data = ext.Load(factory, GraphicInfo, "leonScene"); WorldLoader wl = new WorldLoader(); wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); wl.OnCreateILight += new CreateILight(wl_OnCreateILight); wl.LoadWorld(factory, GraphicInfo, World, data); //IModelo model = new SimpleModel(factory, "Model/leonScene"); //IPhysicObject po = new TriangleMeshObject(model, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); //GhostObject po = new GhostObject(); //IShader shader = new ForwardXNABasicShader(); //ForwardMaterial dm = new ForwardMaterial(shader); //this.World.AddObject(new IObject(dm, model, po)); CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffectStalker()); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); CameraFirstPerson CameraFirstPerson = new CameraFirstPerson(true, GraphicInfo); Texture2D tMap = factory.GetTexture2D("Textures//hmap_10243"); QuadTerrain q = new PloobsEngine.Material.QuadTerrain(factory, tMap, 33, 513, 10, 3f); DeferredTerrainMaterial mat = new DeferredTerrainMaterial(q); //Set various terrain stats. mat.diffuseScale = q.flatScale / 4; mat.detailScale = q.flatScale / 100; mat.detailMapStrength = 2; mat.textureBlend = factory.GetTexture2D("Textures//hmap_256blend"); mat.textureDetail = factory.GetTexture2D("Textures//coolgrass2DOT3"); mat.textureRed = factory.GetTexture2D("Textures//TexR"); mat.textureGreen = factory.GetTexture2D("Textures//TexG"); mat.textureBlue = factory.GetTexture2D("Textures//TexB"); mat.textureBlack = factory.GetTexture2D("Textures//TexBase"); TerrainObject to = new TerrainObject(factory,Vector3.Zero, Matrix.Identity, q.getHeightMap() ,MaterialDescription.DefaultBepuMaterial()); IObject obj3 = new IObject(mat, null, to); this.World.AddObject(obj3); LightThrowBepu lt = new LightThrowBepu(this.World, factory); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion this.World.CameraManager.AddCamera(CameraFirstPerson); CameraFirstPerson.FarPlane = 20000; SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//cubemap"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } { SimpleModel sm = new SimpleModel(factory, "..\\Content\\Model\\block"); sm.SetTexture(factory.CreateTexture2DColor(1, 1, Color.White), TextureType.DIFFUSE); BoxObject pi = new BoxObject(new Vector3(100, 40, 0), 1, 1, 1, 25, new Vector3(100, 10, 100), Matrix.Identity, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); IMaterial mat = new DeferredMaterial(shader); IObject obj3 = new IObject(mat, sm, pi); this.World.AddObject(obj3); } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion //SBlurPost hsv = new SBlurPost(1, SurfaceFormat.HdrBlendable); //hsv.ImageSamplerState = SamplerState.PointClamp; //this.RenderTechnic.AddPostEffect(hsv); DownSamplePostEffect DownSamplePostEffect = new Post.DownSamplePostEffect(); this.RenderTechnic.AddPostEffect(DownSamplePostEffect); CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); LightThrowBepu lt = new LightThrowBepu(this.World, factory); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); ModelLoaderData data = ext.Load(factory, GraphicInfo, "sponza"); WorldLoader wl = new WorldLoader(); wl.LoadWorld(factory, GraphicInfo, World, data); LightThrowBepu lt = new LightThrowBepu(this.World, factory); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.1f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); //ld1 = new DirectionalLightPE(new Vector3(0.2f, -1, 0.2f), Color.White); //ld1.CastShadown = true; //float li = 0.9f; //ld1.LightIntensity = li; //this.World.AddLight(ld1); #endregion CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); //cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); /////Interpolator to change lightDirection //inter.Start(new Vector3(0, -1, 0), new Vector3(1, -1, 1), 3, true); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffectStalker()); this.RenderTechnic.AddPostEffect(new BloomPostEffect()); //HdrPostEffect HdrPostEffect = new HdrPostEffect(); //HdrPostEffect.bloomMultiplier = 0.3f; //this.RenderTechnic.AddPostEffect(HdrPostEffect); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); ForwardXNABasicShader shader = new ForwardXNABasicShader(ForwardXNABasicShaderDescription.Default()); ForwardMaterial fmaterial = new ForwardMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } var newCameraFirstPerson = new CameraFirstPerson(GraphicInfo.Viewport); //newCameraFirstPerson.UseAcelerometer = true; this.World.CameraManager.AddCamera(newCameraFirstPerson); }
protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ///Create a Simple Model IModelo sm = new SimpleModel(factory, "..\\Content\\Model\\cenario"); ///Create a Physic Object IPhysicObject pi = new TriangleMeshObject(sm, Vector3.Zero, Matrix.Identity, Vector3.One,MaterialDescription.DefaultBepuMaterial()); pi.isMotionLess = true; ///Create a shader IShader shader = new DeferredNormalShader(); ///Create a Material IMaterial mat = new DeferredMaterial(shader); ///Create a an Object that englobs everything and add it to the world IObject obj4 = new IObject(mat, sm,pi); this.World.AddObject(obj4); lt = new LightThrowBepu(this.World, factory); ///Create a FirstPerson Camera ///This is a special camera, used in the development ///You can move around using wasd / qz / and the mouse ICamera cam = new CameraFirstPerson(GraphicInfo); this.World.CameraManager.AddCamera(cam); PointLightCircularUpdater lcu = new PointLightCircularUpdater(this); ///Create 100 moving point lights and add to the world ///IF the radius of the point light is TOO big like 250, it will make the game slower for (int i = 0; i < 10; i++) { for (int j = 0; j < 10; j++) { PointLightPE pl0 = new PointLightPE(new Vector3(i * 5, 25, j * 5), StaticRandom.RandomColor(), 100, 2); pl0.UsePointLightQuadraticAttenuation = true; lcu.AddLight(pl0, 0.01f, 50 * i, j / StaticRandom.Random()); this.World.AddLight(pl0); } } lcu.Start(); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); ExtractMeshesFromMoldelLoader ext = new ExtractMeshesFromMoldelLoader(); ModelLoaderData data = ext.Load(factory, GraphicInfo, "Model//leonScene"); WorldLoader wl = new WorldLoader(); wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); wl.LoadWorld(factory, GraphicInfo, World, data); LightThrowBepu lt = new LightThrowBepu(this.World, factory); CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffectStalker()); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); ForwardXNABasicShader shader = new ForwardXNABasicShader(ForwardXNABasicShaderDescription.Default()); ForwardMaterial fmaterial = new ForwardMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); obj.Name = "Cenario"; this.World.AddObject(obj); } Picking pick = new Picking(this, Microsoft.Xna.Framework.Input.Touch.GestureType.DoubleTap); pick.Start(); pick.OnPickedGesture += new OnPicked(pick_OnPickedGesture); var newCameraFirstPerson = new CameraFirstPerson(GraphicInfo); this.World.CameraManager.AddCamera(newCameraFirstPerson); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); CameraFirstPerson CameraFirstPerson = new CameraFirstPerson(true, GraphicInfo); Texture2D tMap = factory.GetTexture2D("Textures//hmap_10243"); QuadTerrain q = new PloobsEngine.Material.QuadTerrain(factory, tMap, 33, 513, 10, 3f); ForwardTerrainMaterial mat = new ForwardTerrainMaterial(q); //Set various terrain stats. mat.diffuseScale = q.flatScale / 4; mat.detailScale = q.flatScale / 100; mat.detailMapStrength = 2; mat.textureBlend = factory.GetTexture2D("Textures//hmap_256blend"); mat.textureDetail = factory.GetTexture2D("Textures//coolgrass2DOT3"); mat.textureRed = factory.GetTexture2D("Textures//TexR"); mat.textureGreen = factory.GetTexture2D("Textures//TexG"); mat.textureBlue = factory.GetTexture2D("Textures//TexB"); mat.textureBlack = factory.GetTexture2D("Textures//TexBase"); mat.sunlightVector = Vector3.Normalize(new Vector3(.5f, .5f, .8f)); mat.sunlightColour = new Vector3(2.3f, 2f, 1.8f); TerrainObject to = new TerrainObject(factory,Vector3.Zero, Matrix.Identity, q.getHeightMap() ,MaterialDescription.DefaultBepuMaterial()); IObject obj3 = new IObject(mat, null, to); this.World.AddObject(obj3); LightThrowBepu lt = new LightThrowBepu(this.World, factory); this.World.CameraManager.AddCamera(CameraFirstPerson); CameraFirstPerson.FarPlane = 20000; SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//cubemap"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { ///carrega o Modelo AnimatedModel am = new AnimatedModel(factory, "..\\Content\\Model\\PlayerMarine", "..\\Content\\Textures\\PlayerMarineDiffuse"); ///Inicializa o Controlador (Idle eh o nome da animacao inicial) AnimatedController arobo = new AnimatedController(am, "Idle"); ///Cria o shader e o material animados ForwardSimpleAnimationShader sas = new ForwardSimpleAnimationShader(arobo); ForwardAnimatedMaterial amat = new ForwardAnimatedMaterial(arobo, sas); IObject marine = new IObject(amat,am, new GhostObject()); ///Adiciona no mundo this.World.AddObject(marine); } var newCameraFirstPerson = new CameraFirstPerson(GraphicInfo); //newCameraFirstPerson.UseAcelerometer = true; this.World.CameraManager.AddCamera(newCameraFirstPerson); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); //cam.FarPlane = 100; this.World.CameraManager.AddCamera(cam); lt = new LightThrowBepu(this.World, factory); { ///Add Decal To the Decal Component ///Texture Texture2D texture = factory.GetTexture2D("Textures//goo"); ///The projection Matrix var projection = Matrix.CreatePerspectiveFieldOfView(cam.FieldOfView / 20, cam.AspectRatio, 1, 2000); ///The view Matrix var view = Matrix.CreateLookAt( new Vector3(500, 300, 200), new Vector3(0, 0, 0), Vector3.Up ); Decal decal = new Decal(texture, view, projection); DecalComponent.Decals.Add(decal); } { ///Add Decal To the Decal Component ///Texture Texture2D texture = factory.GetTexture2D("Textures//goo"); ///The projection Matrix var projection = Matrix.CreatePerspectiveFieldOfView(cam.FieldOfView / 10, cam.AspectRatio, 1, 2000); ///The view Matrix var view = Matrix.CreateLookAt( new Vector3(500, 500, 700), new Vector3(-200, 50, -10), Vector3.Up ); Decal decal = new Decal(texture, view, projection); DecalComponent.Decals.Add(decal); } SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grasscube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); ///Create the Terrain Object ///Controls how the heigh map is loaded TerrainObject to = new TerrainObject(factory,"..\\Content\\Textures\\Untitled",Vector3.Zero,Matrix.Identity,MaterialDescription.DefaultBepuMaterial(),2,1); ///Create the Model using the Terrain Object. Here we pass the textures used, in our case we are using MultiTextured Terrain so we pass lots of textures TerrainModel stm = new TerrainModel(factory, to,"TerrainName","..\\Content\\Textures\\Terraingrass", "..\\Content\\Textures\\rock", "..\\Content\\Textures\\sand", "..\\Content\\Textures\\snow"); ///Create the shader ///In this sample we passed lots of textures, each one describe a level in the terrain, the ground is the sand and grass. the hills are rocks and the "mountains" are snow ///They are interpolated in the shader, you can control how using the shader parameters exposed in the DeferredTerrainShader DeferredTerrainShader shader = new DeferredTerrainShader(TerrainType.MULTITEXTURE); ///the classic material DeferredMaterial mat = new DeferredMaterial(shader); IObject obj3 = new IObject(mat, stm, to); this.World.AddObject(obj3); lt = new LightThrowBepu(this.World, factory); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffectStalker()); }
protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { ///Must be called before everything in the LoadContent base.LoadContent(GraphicInfo, factory, contentManager); ///Create a Simple Model IModelo sm = new SimpleModel(factory,"..\\Content\\Model\\cenario"); ///Create a Physic Object IPhysicObject pi = new TriangleMeshObject(sm, Vector3.Zero,Matrix.Identity,Vector3.One,MaterialDescription.DefaultBepuMaterial()); pi.isMotionLess = true; ///Create a shader IShader shader = new DeferredNormalShader(); ///Create a Material IMaterial mat = new DeferredMaterial(shader); ///Create a an Object that englobs everything and add it to the world IObject obj4 = new IObject(mat, sm,pi); this.World.AddObject(obj4); ///Create the Physic Objects { for (int i = 0; i < 15; i++) { CreateThrash(new Vector3(-70 + i * 5, 50, 10)); } for (int i = 0; i < 15; i++) { CreateBox(new Vector3(-70 + i * 7, 100, 50)); } for (int i = 0; i < 15; i++) { CreateThrash(new Vector3(-70 + i * 5, 80, 50)); } for (int i = 0; i < 15; i++) { CreateBall(new Vector3(-70 + i * 5, 50, 30)); } for (int i = 0; i < 15; i++) { CreateBox(new Vector3(-70 + i * 7, 130, -20)); } for (int i = 0; i < 15; i++) { CreateBox(new Vector3(-70 + i * 7, 60, -50)); } ///Create A Ghost Object (Do Not Collide) { ///Create a Simple Model SimpleModel model = new SimpleModel(factory, "..\\Content\\Model\\ball"); model.SetTexture(factory.CreateTexture2DColor(1,1,Color.Purple), TextureType.DIFFUSE); ///Create a Physic Object IPhysicObject pobj = new GhostObject(new Vector3(50, 13f, 50), Matrix.Identity, Vector3.One * 5); pobj.isMotionLess = true; ///Create a shader IShader nd = new DeferredNormalShader(); ///Create a Material IMaterial material = new DeferredMaterial(shader); ///Create a an Object that englobs everything and add it to the world IObject obj = new IObject(material, model, pobj); this.World.AddObject(obj); } } ///Call the function releaseObjects when Space key is pressed InputPlayableKeyBoard ip1 = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Microsoft.Xna.Framework.Input.Keys.Space, releaseObjects); ///Using the Global Method, need to release when screen is cleaned ///Check the KeyboardInputScreen for how to use it locally mm = new BindKeyCommand(ip1, BindAction.ADD); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(mm); ///Create a FirstPerson Camera ///This is a special camera, used in the development ///You can move around using wasd / qz / and the mouse CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); this.World.CameraManager.AddCamera(cam); ///Create some directionals lights and add to the world DirectionalLightPE ld = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Down, Color.White); ld.LightIntensity = 0.5f; ld2.LightIntensity = 0.5f; ld3.LightIntensity = 0.5f; this.World.AddLight(ld); this.World.AddLight(ld2); this.World.AddLight(ld3); lightThrow = new LightThrowBepu(this.World,factory); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); }
protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); #region Models ///Cria um modelo Controlavel pelo teclado { SimpleModel sm = new SimpleModel(factory,"..\\Content\\Model\\cubo"); sm.SetTexture(factory.CreateTexture2DColor(1,1,Color.Blue),TextureType.DIFFUSE); DeferredNormalShader shader = new DeferredNormalShader(); IMaterial mat = new DeferredMaterial(shader); CharacterControllerInput character = new CharacterControllerInput(this, new Vector3(100, 150, 1), 1, 1, 50, Vector3.One * 10, 0.5f); character.AheadKey = Keys.G; character.BackKey = Keys.T; character.LeftKey = Keys.F; character.RightKey = Keys.H; character.JumpKey = Keys.R; character.Characterobj.CharacterController.MaxSpeed = 35f; character.Characterobj.CharacterController.JumpSpeed = 15f; player = new IObject(mat, sm, character.Characterobj); this.World.AddObject(player); } ///Cria o cenario padrao de sempre ;) { SimpleModel sm = new SimpleModel(factory,"..\\Content\\Model\\cenario"); IPhysicObject pi = new TriangleMeshObject(sm,Vector3.Zero, Matrix.Identity,Vector3.One,MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); IMaterial mat = new DeferredMaterial(shader); IObject obj3 = new IObject(mat, sm, pi); this.World.AddObject(obj3); } #endregion #region Cameras cam0 = new CameraFollowObject(player); ///Dando um nome a ela (para poder recupera-la depois) cam0.Name = "follow"; cam0.FarPlane = 3000; ///Adiciona ao Manager (NAO ESTA SENDO ATIVADA, APENAS ADICIONADA) this.World.CameraManager.AddCamera(cam0, cam0.Name); ///Ativa a camera atual (AO ADICIONAR UMA CAMERA AO WORLD USANDO mundo.AddCamera(cam) A CAMERA EH AUTOMATICAMENTE ATIVADA ) this.World.CameraManager.SetActiveCamera(cam0.Name); ///Adiciona na lista circular camerasNames.Value = cam0.Name; camerasNames.Next(); cam1 = new CameraFirstPerson(GraphicInfo); ///Dando um nome a ela (para poder recupera-la depois) cam1.Name = "first person"; cam1.FarPlane = 3000; ///Adiciona ao Manager (NAO ESTA SENDO ATIVADA, APENAS ADICIONADA) this.World.CameraManager.AddCamera(cam1, cam1.Name); ///Ativa a camera atual (AO ADICIONAR UMA CAMERA AO WORLD USANDO mundo.AddCamera(cam) A CAMERA EH AUTOMATICAMENTE ATIVADA ) this.World.CameraManager.SetActiveCamera(cam1.Name); ///Adiciona na lista circular camerasNames.Value = cam1.Name; //camerasNames.Next(); #endregion ///Objeto que permite atirar bolas de luzes na cena lt = new LightThrowBepu(this.World, factory); #region NormalLight ///Conjunto de luzes direcionais DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.4f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion { SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.Space, ChangeCamera); BindKeyCommand bk = new BindKeyCommand(ik, BindAction.ADD); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(bk); } }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); #region Models { SimpleModel simpleModel = new SimpleModel(factory, "..\\Content\\Model\\teapot"); simpleModel.SetTexture(factory.CreateTexture2DColor(1,1, Color.Red), TextureType.DIFFUSE); //TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); GhostObject tmesh = new GhostObject(Vector3.Zero, Matrix.Identity, Vector3.One); ///Environment Map Shader, there are 2 options, the first is a fully reflective surface (dont use the object texture) and the second ///is a mix of the object texture and the environment texture ///Used to fake ambient reflection, give metal appearence to an object .... DeferredEMReflectiveShader shader = new DeferredEMReflectiveShader("Textures\\grassCUBE", 0.9f); DeferredMaterial fmaterial = new DeferredMaterial(shader); tea = new IObject(fmaterial, simpleModel, tmesh); tea.OnUpdate += new OnUpdate(tea_OnUpdate); this.World.AddObject(tea); } //{ // SimpleModel simpleModel = new SimpleModel(factory, "Model//block"); // simpleModel.SetTexture(factory.CreateTexture2DColor(1, 1, Color.White), TextureType.DIFFUSE); // BoxObject tmesh = new BoxObject(new Vector3(0,-20,0), 1, 1, 1, 10, new Vector3(200, 1, 200), Matrix.Identity, MaterialDescription.DefaultBepuMaterial()); // tmesh.isMotionLess = true; // DeferredNormalShader shader = new DeferredNormalShader(); // DeferredMaterial fmaterial = new DeferredMaterial(shader); // IObject obj = new IObject(fmaterial, simpleModel, tmesh); // this.World.AddObject(obj); //} #endregion lt = new LightThrowBepu(this.World, factory); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCUBE"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-30), new Vector3(30, 30, 50), GraphicInfo); cam.FarPlane = 500; cam.NearPlane = 1; this.World.CameraManager.AddCamera(cam); //AntiAliasingPostEffectTabula aa = new AntiAliasingPostEffectTabula(); //aa.Weights = 2; //this.RenderTechnic.AddPostEffect(aa); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { { ///Create the xml file model extractor ///Loads a XML file that was export by our 3DS MAX plugin ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); this.AttachCleanUpAble(ext); ///Extract all the XML info (Model,Cameras, ...) ModelLoaderData data = ext.Load(factory, GraphicInfo, "ilha"); ///Create the WOrld Loader ///Convert the ModelLoaderData in World Entities WorldLoader wl = new WorldLoader(); ///all default wl.LoadWorld(factory, GraphicInfo, World, data); } } { SimpleModel sm2 = new SimpleModel(factory, "Model\\ball"); sm2.SetTexture(factory.CreateTexture2DColor(1, 1, Color.Red, false), TextureType.DIFFUSE); DeferredNormalShader nd = new DeferredNormalShader(); IMaterial m = new DeferredMaterial(nd); SphereObject pi2 = new SphereObject(new Vector3(100,50,0), 1, 10, 10, MaterialDescription.DefaultBepuMaterial()); IObject o = new IObject(m, sm2, pi2); this.World.AddObject(o); sound2 = new ObjectFollower3DSound(factory, "Songs/pianosong", o); this.World.AddSoundEmitter(sound2,true); } lt = new LightThrowBepu(this.World, factory); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); { ///Create the xml file model extractor ///Loads a XML file that was export by our 3DS MAX plugin ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); this.AttachCleanUpAble(ext); ///Extract all the XML info (Model,Cameras, ...) ModelLoaderData data = ext.Load(factory, GraphicInfo, "ilha"); ///Create the WOrld Loader ///Convert the ModelLoaderData in World Entities WorldLoader wl = new WorldLoader(); ///all default wl.LoadWorld(factory, GraphicInfo, World, data); } ///Create and add a sound to the SoundAudioPlayer ap = new SoundAudioPlayer(factory); ap.AddSoundToRepository("Songs/bye", "bye"); ///Create a sound effect without the SoundAudioPlayer (internaly the SoundAudioPlayer is a container of SimpleSoundEffect -- and some stuffs more) se = new SimpleSoundEffect(factory, "Songs/alarm"); ///Load the Sounds that you hear in your Microsoft Media Player ///Just loading the first album found =P lm = new LocalMediaAudioPlayer(); AlbumCollection ac = lm.MediaLibrary.Albums; lm.PlayAlbum(ac[0]); ///Creating a static 3D sound in the 0,0,0 (Bellow the island tree, go there and hear the sound getting louder) sound = new Static3DSound(factory, "Songs/pianosong", Vector3.Zero); this.World.AddSoundEmitter(sound, true); #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ///Classic Island SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); { ///Procedural yellow diffuse texture SimpleModel sm = new SimpleModel(factory, "Model\\block"); sm.SetTexture(factory.CreateTexture2DColor(1, 1, Color.BlueViolet), TextureType.DIFFUSE); ///physic Ghost object(no collision) GhostObject pi = new GhostObject(new Vector3(0, 0, 0), Matrix.Identity, new Vector3(500, 500, 500)); pi.isMotionLess = true; ///Transparency shader ///Transparent objects are NOT affected by lights ///It is a forward shader in the deferred engine (applied after all deferreed processing) ForwardTransparenteShader s = new ForwardTransparenteShader(); ///If the texture does not have Alpha, you can create an alpha for all the model s.TransparencyLevel = 0.3f; ///THIS MODEL is DRAW AFTER all the Deferred ones (remember:light wont afect it) ///You can use all the forward material the same way we are using this ForwardMaterial mat = new ForwardMaterial(s); IObject obj4 = new IObject(mat, sm, pi); this.World.AddObject(obj4); } ///Transparent blocks for (int k = 0; k < 5; k++) { for (int i = 0; i < 5; i++) { for (int j = 0; j < 5; j++) { ///Procedural yellow diffuse texture SimpleModel sm = new SimpleModel(factory, "Model\\block"); sm.SetTexture(factory.CreateTexture2DColor(1, 1, Color.Yellow), TextureType.DIFFUSE); ///physic Ghost object(no collision) GhostObject pi = new GhostObject(new Vector3(i * 10, 50 + k * 10, j * 10), Matrix.Identity, new Vector3(5)); pi.isMotionLess = true; ///Transparency shader ///Transparent objects are NOT affected by lights ///It is a forward shader in the deferred engine (applied after all deferreed processing) ForwardTransparenteShader s = new ForwardTransparenteShader(); ///If the texture does not have Alpha, you can create an alpha for all the model s.TransparencyLevel = 0.3f; ///THIS MODEL is DRAW AFTER all the Deferred ones (remember:light wont afect it) ///You can use all the forward material the same way we are using this ForwardMaterial mat = new ForwardMaterial(s); IObject obj4 = new IObject(mat, sm, pi); this.World.AddObject(obj4); } } } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCUBE"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } { SimpleModel sm = new SimpleModel(factory, "..\\Content\\Model\\block"); sm.SetTexture(factory.CreateTexture2DColor(1, 1, Color.White), TextureType.DIFFUSE); BoxObject pi = new BoxObject(new Vector3(100, 40, 0), 1, 1, 1, 25, new Vector3(100, 10, 100), Matrix.Identity, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); IMaterial mat = new DeferredMaterial(shader); IObject obj3 = new IObject(mat, sm, pi); this.World.AddObject(obj3); } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.FarPlane = 1000; this.World.CameraManager.AddCamera(cam); this.RenderTechnic.AddPostEffect(new SSAOPost()); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grasscube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); ModelLoaderData data = ext.Load(factory, GraphicInfo, "techdemo"); WorldLoader wl = new WorldLoader(); wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); wl.OnCreateILight += new CreateILight(wl_OnCreateILight); wl.LoadWorld(factory, GraphicInfo, World, data); LightThrowBepu lt = new LightThrowBepu(this.World, factory); { l = new DirectionalLightPE(new Vector3(0.2f, -1, 0.2f), Color.White); l.CastShadown = true; float lii = 0.6f; l.LightIntensity = lii; this.World.AddLight(l); } #region NormalLight //DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); //DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); //DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); //DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); //DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); //DirectionalLightPE ld6 = new DirectionalLightPE(Vector3.Up, Color.White); //float li = 0.5f; //ld1.LightIntensity = li; //ld2.LightIntensity = li; //ld3.LightIntensity = li; //ld4.LightIntensity = li; //ld5.LightIntensity = li; //ld6.LightIntensity = li; //this.World.AddLight(ld1); //this.World.AddLight(ld2); //this.World.AddLight(ld3); //this.World.AddLight(ld4); //this.World.AddLight(ld5); //this.World.AddLight(ld6); #endregion CameraFirstPerson cam = new CameraFirstPerson(GraphicInfo); cam.FarPlane = 1000; cam.MoveSpeed *= 5; this.World.CameraManager.AddCamera(cam); this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { ///must be called before all base.LoadContent(GraphicInfo, factory, contentManager); ///Create the xml file model extractor ///Loads a XML file that was export by our 3DS MAX plugin ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//", "Textures//"); this.AttachCleanUpAble(ext); ///Extract all the XML info (Model,Cameras, ...) ModelLoaderData data = ext.Load(factory, GraphicInfo, "lionscene"); ///Create the WOrld Loader ///Convert the ModelLoaderData in World Entities WorldLoader wl = new WorldLoader(); ///Register some Custom Handler ///The Default arent good all the time ///Called when an object is created, the default creates a triangle mesh entity and a deferred Material (whith Custom Shader) and add it to the world wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); ///When a ligh is created, the default just add the light wl.OnCreateILight += new CreateILight(wl_OnCreateILight); ///when a camera is created, the default just add the camera wl.OnCreateICamera += new CreateICamera(wl_OnCreateICamera); wl.LoadWorld(factory, GraphicInfo, World, data); ///Add some directional lights #region Lights DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.3f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion ///Add a post effect this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); ///add a camera CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-30), new Vector3(50,50,75), GraphicInfo); cam.FarPlane = 500; cam.NearPlane = 1; this.World.CameraManager.AddCamera(cam); { SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.B, bumpChange); this.BindInput(ik); } { SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.V, specularChange); this.BindInput(ik); } lt = new LightThrowBepu(this.World, factory); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ///Create the xml file model extractor ///Loads a XML file that was export by our 3DS MAX plugin ExtractXmlModelLoader ext = new ExtractXmlModelLoader("Content//ModelInfos//", "Model//","Textures//"); this.AttachCleanUpAble(ext); ///Extract all the XML info (Model,Cameras, ...) ModelLoaderData data = ext.Load(factory, GraphicInfo, "SSAO"); ///Create the WOrld Loader ///Convert the ModelLoaderData in World Entities WorldLoader wl = new WorldLoader(); ///Register some Custom HAnlder ///The Default arent good all the time ///Called when an object is created, the default creates a triangle mesh entity and a deferred Material (whith Custom Shader) and add it to the world wl.OnCreateIObject += new CreateIObject(wl_OnCreateIObject); ///When a ligh is created, the default just add the light wl.OnCreateILight += new CreateILight(wl_OnCreateILight); ///when a camera is created, the default just add the camera wl.OnCreateICamera += new CreateICamera(wl_OnCreateICamera); wl.LoadWorld(factory, GraphicInfo, World, data); ///Add some directional lights to completely iluminate the world #region Lights DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.4f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion { ///har way SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.Enter,Active); this.BindInput(ik); } { ///easy way SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.Space); ik.KeyStateChange += new KeyStateChange(ik_KeyStateChange); this.BindInput(ik); } ssao = new SSAOPostEffect(); //ssao.OutputONLYSSAOMAP = true; ssao.WhiteCorrection = 0.7f; ssao.Intensity = 5; ssao.Diffscale = 0.5f; ///Add a AA post effect this.RenderTechnic.AddPostEffect(ssao); CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(0), MathHelper.ToRadians(-10), new Vector3(0,100, 150), GraphicInfo); ///add a camera this.World.CameraManager.AddCamera(cam); }
protected override void LoadContent(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); ///Create a Simple Model IModelo sm = new SimpleModel(factory, "..\\Content\\Model\\cenario"); ///Create a Physic Object IPhysicObject pi = new TriangleMeshObject(sm, Vector3.Zero, Matrix.Identity, Vector3.One,MaterialDescription.DefaultBepuMaterial()); ///Create a shader IShader shader = new DeferredNormalShader(); ///Create a Material IMaterial mat = new DeferredMaterial(shader); ///Create a an Object that englobs everything and add it to the world IObject obj4 = new IObject(mat, sm, pi); this.World.AddObject(obj4); lt = new LightThrowBepu(this.World,factory); ///Create a FirstPerson Camera ///This is a special camera, used in the development ///You can move around using wasd / qz / and the mouse ICamera cam = new CameraFirstPerson(GraphicInfo); this.World.CameraManager.AddCamera(cam); { SpotLightPE sp1 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.YellowGreen, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc1 = new SpotLightCircularUpdater(this, sp1, 0.01f, 1, 0, true); this.World.AddLight(sp1); SpotLightPE sp2 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0),Color.Red, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc2 = new SpotLightCircularUpdater(this, sp2, 0.01f, 1, (float)Math.PI / 2, true); this.World.AddLight(sp2); SpotLightPE sp3 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Red, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc3 = new SpotLightCircularUpdater(this, sp3, 0.01f, 1, (float)Math.PI, true); this.World.AddLight(sp3); SpotLightPE sp4 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Green, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc4 = new SpotLightCircularUpdater(this, sp4, 0.01f, 1, (float)(Math.PI * 3) / 2, true); this.World.AddLight(sp4); } { SpotLightPE sp1 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Purple, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc1 = new SpotLightCircularUpdater(this, sp1, 0.02f, 2, 0, false); this.World.AddLight(sp1); SpotLightPE sp2 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.PowderBlue, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc2 = new SpotLightCircularUpdater(this, sp2, 0.02f, 2, (float)Math.PI / 2, false); this.World.AddLight(sp2); SpotLightPE sp3 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0),Color.YellowGreen, 1, 600 , (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc3 = new SpotLightCircularUpdater(this, sp3, 0.02f, 2, (float)Math.PI, false); this.World.AddLight(sp3); SpotLightPE sp4 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Maroon, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc4 = new SpotLightCircularUpdater(this, sp4, 0.02f, 2, (float)(Math.PI * 3) / 2, false); this.World.AddLight(sp4); } { SpotLightPE sp1 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.PapayaWhip,1, 600 , (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc1 = new SpotLightCircularUpdater(this, sp1, 0.03f, 3, (float)Math.PI / 4, true); this.World.AddLight(sp1); SpotLightPE sp2 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.LightSeaGreen, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc2 = new SpotLightCircularUpdater(this, sp2, 0.03f, 3, (float)Math.PI / 4 + (float)Math.PI / 2, true); this.World.AddLight(sp2); SpotLightPE sp3 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Gold, 1, 600, (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc3 = new SpotLightCircularUpdater(this, sp3, 0.03f, 3, (float)Math.PI / 4 + (float)Math.PI, true); this.World.AddLight(sp3); SpotLightPE sp4 = new SpotLightPE(new Vector3(0, 150, 0), new Vector3(0, -1, 0), Color.Aqua,1, 600 , (float)Math.Cos(Math.PI / 7), 0.5f); SpotLightCircularUpdater spc4 = new SpotLightCircularUpdater(this, sp4, 0.03f, 3, (float)Math.PI / 4 + (float)(Math.PI * 3) / 2, true); this.World.AddLight(sp4); } this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect()); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { PhysxPhysicWorld PhysxPhysicWorld = World.PhysicWorld as PhysxPhysicWorld; base.LoadContent(GraphicInfo, factory, contentManager); const int maximumParticles = 3000; ///Remember ///There are 2 math apis (XNA AND PHYSX) ///Sometimes we need to convert between then ///Use the extension methods AsPhysx() in XNA API and AsXNA in Physx APi ///emitter var fluidEmitterDesc = new FluidEmitterDescription() { DimensionX = 1.5f, DimensionY = 1.5f, Rate = 65, RelativePose = Phyx.Matrix.RotationAxis(new Phyx.Vector3(0, 1, 0), (float)Math.PI) * Phyx.Matrix.Translation(-40, 10, -50), Shape = EmitterShape.Rectangular, Type = EmitterType.ConstantFlowRate, RandomAngle = 0.5f, }; fluidEmitterDesc.Flags |= (FluidEmitterFlag.Enabled | FluidEmitterFlag.Visualization); ///fluid var fluidDesc = new FluidDescription() { Emitters = { fluidEmitterDesc }, Flags = FluidFlag.Enabled | FluidFlag.Visualization, MaximumParticles = maximumParticles, }; fluidDesc.ParticleWriteData.AllocatePositionBuffer<Vector3>(maximumParticles); fluidDesc.ParticleWriteData.NumberOfParticles = maximumParticles; ///create and add the fluid to the world fluid = PhysxPhysicWorld.Scene.CreateFluid(fluidDesc); ///Use Billboards to render the fuild particles (dummy way) Texture2D tex = factory.GetTexture2D("Textures/Smoke"); for (int i = 0; i < maximumParticles; i++) { Billboard3D Billboard3D = new Billboard3D(tex,Vector3.Zero,new Vector2(0.001f)); Billboard3D.Enabled = false; CPUSphericalBillboardComponent.Billboards.Add(Billboard3D); } // Ledge { var boxShapeDesc = new BoxShapeDescription(5, 0.1f, 5); SimpleModel SimpleModel = new PloobsEngine.Modelo.SimpleModel(factory, "Model/block"); SimpleModel.SetTexture(factory.CreateTexture2DColor(1, 1, Color.Red), TextureType.DIFFUSE); PhysxPhysicObject PhysxPhysicObject = new PloobsEngine.Physics.PhysxPhysicObject(boxShapeDesc, (Phyx.Matrix.RotationX(-0.5f) * Phyx.Matrix.Translation(-40, 5, -52)).AsXNA(),new Vector3(5,0.1f,5)); ForwardXNABasicShader shader = new ForwardXNABasicShader(ForwardXNABasicShaderDescription.Default()); ForwardMaterial fmaterial = new ForwardMaterial(shader); IObject obj = new IObject(fmaterial, SimpleModel, PhysxPhysicObject); this.World.AddObject(obj); } // Drain { var boxShapeDesc = new BoxShapeDescription(5, 0.1f, 5); boxShapeDesc.Flags |= ShapeFlag.FluidDrain; var drainActorDesc = new ActorDescription() { GlobalPose = Phyx.Matrix.Translation(-40, -20, -55), Shapes = { boxShapeDesc } }; var drianActor = PhysxPhysicWorld.Scene.CreateActor(drainActorDesc); } BallThrowPhysx28 BallThrowBullet = new BallThrowPhysx28(this.World, GraphicFactory); BallThrowBullet.ballSize = 1f; BallThrowBullet.Speed = 25; this.AttachCleanUpAble(BallThrowBullet); CameraFirstPerson CameraFirstPerson = new CameraFirstPerson(GraphicInfo); CameraFirstPerson.Position = new Vector3(-35, 8, -52); CameraFirstPerson.LeftRightRot = MathHelper.ToRadians(125); this.World.CameraManager.AddCamera(CameraFirstPerson); }
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); SimpleModel simpleModel = new SimpleModel(factory, "Model//block"); simpleModel.SetTexture(factory.CreateTexture2DColor(1,1,Color.White),TextureType.DIFFUSE); BoxObject tmesh = new BoxObject(new Vector3(0,10,0), 1, 1,1,50,new Vector3(5000,1,5000),Matrix.Identity, MaterialDescription.DefaultBepuMaterial()); tmesh.isMotionLess = true; DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); { List<BilboardInstance> poss = new List<BilboardInstance>(); for (int i = -10 ; i < 20; i++) { for (int j = -10; j < 20; j++) { float x, y; x = i * 100; y = j * 100; BilboardInstance bi = new BilboardInstance(); bi.Scale = new Vector2(100, 100); bi.Position = new Vector3(x, 5, y); poss.Add(bi); } } ///same as before, just the name of the class change ///You can change the position of a individual bilboard using bm.GetBilboardInstances(), updating the structure recieved and ///using bm.SetBilboardInstances(). Dont do this every frame pls =P ///You can change lots of parameters of the DeferredInstancedBilboardShader, check it InstancedBilboardModel bm = new InstancedBilboardModel(factory, "Bilbs", "..\\Content\\Textures\\tree",poss.ToArray()); DeferredInstancedBilboardShader cb = new DeferredInstancedBilboardShader(BilboardType.Cilindric); DeferredMaterial matfor = new DeferredMaterial(cb); GhostObject go = new GhostObject(); IObject obj2 = new IObject(matfor, bm, go); this.World.AddObject(obj2); } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(-50), MathHelper.ToRadians(-15), new Vector3(-200, 300, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager) { base.LoadContent(GraphicInfo, factory, contentManager); #region Models { ///Need to load the height, the normal texture and the difuse texture SimpleModel sm = new SimpleModel(factory, "..\\Content\\Model\\block", "..\\Content\\Textures\\color_map"); sm.SetTexture("Textures\\normal_map", TextureType.BUMP); sm.SetCubeTexture(factory.GetTextureCube("Textures//grassCUBE"), TextureType.AMBIENT_CUBE_MAP); BoxObject pi = new BoxObject(new Vector3(200, 110, 0), 1, 1, 1, 5, new Vector3(100, 100, 100), Matrix.Identity, MaterialDescription.DefaultBepuMaterial()); DeferredCustomShader DeferredCustomShader = new DeferredCustomShader(false, true, false,false,true); DeferredCustomShader.SpecularIntensity = 0.2f; DeferredCustomShader.SpecularPower = 30; DeferredCustomShader.AmbientCubeMapScale = 0.05f; IMaterial mat = new DeferredMaterial(DeferredCustomShader); IObject obj3 = new IObject(mat, sm, pi); this.World.AddObject(obj3); } { SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); simpleModel.SetCubeTexture(factory.GetTextureCube("Textures//grassCUBE"), TextureType.AMBIENT_CUBE_MAP); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(0,0,true,0.05f); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } { SimpleModel simpleModel = new SimpleModel(factory, "Model//ball"); simpleModel.SetCubeTexture(factory.GetTextureCube("Textures//grassCUBE"), TextureType.AMBIENT_CUBE_MAP); simpleModel.SetTexture(factory.CreateTexture2DColor(1,1,Color.White),TextureType.DIFFUSE); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, new Vector3(50,50,-100), Matrix.Identity, Vector3.One * 20, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(0, 0, true, 0.2f); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); } #endregion #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.2f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld3); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(10), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); new LightThrowBepu(this.World, GraphicFactory); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCUBE"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }
/// <summary> /// Load content for the screen. /// </summary> /// <param name="GraphicInfo"></param> /// <param name="factory"></param> /// <param name="contentManager"></param> protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory ,IContentManager contentManager) { base.LoadContent(GraphicInfo,factory, contentManager); SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario"); TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial()); DeferredNormalShader shader = new DeferredNormalShader(); DeferredMaterial fmaterial = new DeferredMaterial(shader); IObject obj = new IObject(fmaterial, simpleModel, tmesh); this.World.AddObject(obj); { List<Vector3> poss = new List<Vector3>(); for (int i = 0; i < 10; i++) { for (int j = 0; j < 10; j++) { float x, y; x = i * 15; y = j * 15; poss.Add(new Vector3(x, 5, y)); } } ///The Bilboard Model StaticBilboardModel bm = new StaticBilboardModel(factory, "Bilbs", "Textures\\grama2", poss); ///The Procedural Animated BilboardShader DeferredProceduralAnimatedcilindricBilboardShader cb = new DeferredProceduralAnimatedcilindricBilboardShader(); ///You can change parameters like Amplitude and Speed to control the movement cb.MovimentSpeedControl = 1000; DeferredMaterial matfor = new DeferredMaterial(cb); GhostObject go = new GhostObject(); go.Position = new Vector3(70, 0, 0); IObject obj2 = new IObject(matfor, bm, go); this.World.AddObject(obj2); } #region NormalLight DirectionalLightPE ld1 = new DirectionalLightPE(Vector3.Left, Color.White); DirectionalLightPE ld2 = new DirectionalLightPE(Vector3.Right, Color.White); DirectionalLightPE ld3 = new DirectionalLightPE(Vector3.Backward, Color.White); DirectionalLightPE ld4 = new DirectionalLightPE(Vector3.Forward, Color.White); DirectionalLightPE ld5 = new DirectionalLightPE(Vector3.Down, Color.White); float li = 0.5f; ld1.LightIntensity = li; ld2.LightIntensity = li; ld3.LightIntensity = li; ld4.LightIntensity = li; ld5.LightIntensity = li; this.World.AddLight(ld1); this.World.AddLight(ld2); this.World.AddLight(ld3); this.World.AddLight(ld4); this.World.AddLight(ld5); #endregion CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(-40), MathHelper.ToRadians(-5), new Vector3(-50, 50, 250), GraphicInfo); this.World.CameraManager.AddCamera(cam); SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube"); CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc); }