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());
}
/// <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);
RegisterDebugDrawCommand rc = new RegisterDebugDrawCommand(ddrawer);
CommandProcessor.getCommandProcessor().SendCommandAssyncronous(rc);
///Create a simple object
///Geomtric Info and textures (this model automaticaly loads the texture)
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());
///Shader info (must be a deferred type)
DeferredNormalShader shader = new DeferredNormalShader();
///Material info (must be a deferred type also)
DeferredMaterial fmaterial = new DeferredMaterial(shader);
///The object itself
IObject obj = new IObject(fmaterial, simpleModel, tmesh);
///Add to the world
this.World.AddObject(obj);
lt = new LightThrowBepu(this.World, factory);
///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
///Add a AA post effect
this.RenderTechnic.AddPostEffect(new AntiAliasingPostEffect());
///add a camera
this.World.CameraManager.AddCamera(new CameraFirstPerson(GraphicInfo));
}
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(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(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);
}
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);
}
/// <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);
obj3.OnUpdate += new OnUpdate(obj3_OnUpdate);
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);
obj.OnUpdate += new OnUpdate(obj_OnUpdate);
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);
LightThrowBepu = 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);
///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 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);
///the classical light throw
lt = new LightThrowBepu(this.World, factory);
///Classical lights
#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
///Classic Camera =P
CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-30), new Vector3(50,50,75), GraphicInfo);
cam.FarPlane = 500;
cam.NearPlane = 1;
cam.MoveSpeed *= 2;
this.World.CameraManager.AddCamera(cam);
///Some basic AA
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(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//cubemap"),TextureType.ENVIRONMENT);
BoxObject pi = new BoxObject(new Vector3(200, 110, 0), 1, 1, 1, 5, new Vector3(100, 100, 100), Matrix.Identity, MaterialDescription.DefaultBepuMaterial());
DeferredEnvironmentCustomShader = new DeferredEnvironmentCustomShader(false, true, false);
DeferredEnvironmentCustomShader.SpecularIntensity = 0.2f;
DeferredEnvironmentCustomShader.SpecularPower = 30;
DeferredEnvironmentCustomShader.ReflectionIndex = 0.5f;
///Setting Shader iD
///This make the object be not affect by the light
DeferredEnvironmentCustomShader.ShaderId = ShaderUtils.CreateSpecificBitField(true);
IMaterial mat = new DeferredMaterial(DeferredEnvironmentCustomShader);
IObject obj3 = new IObject(mat, sm, pi);
this.World.AddObject(obj3);
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.Space,
(a) =>
{
if (DeferredEnvironmentCustomShader.ShaderId == ShaderUtils.CreateSpecificBitField(true))
{
DeferredEnvironmentCustomShader.ShaderId = ShaderUtils.CreateSpecificBitField(false);
}
else
{
DeferredEnvironmentCustomShader.ShaderId = ShaderUtils.CreateSpecificBitField(true);
}
}
);
this.BindInput(ik);
}
}
{
SimpleModel simpleModel = new SimpleModel(factory, "Model//cenario");
TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial());
DeferredCustomShader shader = new DeferredCustomShader(false,false,false,false);
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 = 0.5f;
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(10), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo);
this.World.CameraManager.AddCamera(cam);
LightThrowBepu = new LightThrowBepu(this.World, GraphicFactory);
SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//cubemap");
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(PloobsEngine.Engine.GraphicInfo GraphicInfo, PloobsEngine.Engine.GraphicFactory factory, IContentManager contentManager)
{
///must be called before all
base.LoadContent(GraphicInfo, factory, contentManager);
this.gf = factory;
///Uncoment to Add an object
/////Create a simple object
/////Geomtric Info and textures (this model automaticaly loads the texture)
//SimpleModel simpleModel = new SimpleModel(factory, "Model FILEPATH GOES HERE", "Diffuse Texture FILEPATH GOES HERE -- Use only if it is not embeded in the Model file");
/////Physic info (position, rotation and scale are set here)
//TriangleMeshObject tmesh = new TriangleMeshObject(simpleModel, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial());
/////Shader info (must be a deferred type)
//DeferredNormalShader shader = new DeferredNormalShader();
/////Material info (must be a deferred type also)
//DeferredMaterial fmaterial = new DeferredMaterial(shader);
/////The object itself
//IObject obj = new IObject(fmaterial, simpleModel, tmesh);
/////Add to the world
//this.World.AddObject(obj);
List <IObject> balls = new List <IObject>();
Vector3 pos1, pos2;
pos1 = Vector3.Zero;
pos2 = new Vector3(0, -3, 0);
IObject ball1 = CreateSphere(pos1, Matrix.Identity);
ball1.PhysicObject.isMotionLess = true; // Setting the Parent object as imovable
World.AddObject(ball1);
IObject ball2 = CreateSphere(pos2, Matrix.Identity);
World.AddObject(ball2);
balls.Add(ball2);
constraint = new PointPointConstraint((pos1 + pos2) / 2, ball1.PhysicObject, ball2.PhysicObject);
World.PhysicWorld.AddConstraint(constraint);
///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
LightThrowBepu lt = new LightThrowBepu(this.World, factory);
///add a camera
this.World.CameraManager.AddCamera(new CameraFirstPerson(GraphicInfo));
}
protected override void LoadContent(GraphicInfo GraphicInfo, GraphicFactory factory, IContentManager contentManager)
{
base.LoadContent(GraphicInfo, factory, contentManager);
///Create the water
///Water is just a Shader that Creates a Water like texture and binds it to a model
{
IModelo sm = new SimpleModel(factory, "Model\\block");
Matrix trans = Matrix.CreateTranslation(new Vector3(0, 50, 0));
Plane plano = Plane.Transform(new Plane(0, 1, 0, 0), trans);
///The water is VERRRRY big, the reflection and refraction will looks like blocked, its normal, increasy the size of the reflection/refrection buffer to correct this (bigger cost)
///We normally use the SAME transformation applyied to the plane (if not stranges affects can happen)
IPhysicObject pi = new BoxObject(new Vector3(0, 50, 0), 1, 1, 1, 5, new Vector3(3000, 0.1f, 3000), trans, MaterialDescription.DefaultBepuMaterial());
pi.isMotionLess = true;
///Water shader, will refract and reflect according to the plano passed in the parameter
///Using default Parameters, there are lots of things that can be changed. See WaterCompleteShader
DeferredWaterCompleteShader shader = new DeferredWaterCompleteShader(800, 600, plano, 0.1f);
shader.SpecularIntensity = 0.01f;
shader.SpecularPower = 50;
IMaterial mat = new DeferredMaterial(shader);
IObject obj4 = new IObject(mat, sm, pi);
this.World.AddObject(obj4);
}
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);
#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
this.World.CameraManager.AddCamera(new CameraFirstPerson(true, GraphicInfo));
SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//grassCube");
CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc);
lt = new LightThrowBepu(this.World, factory,100);
}
/// <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);
}
{
///Procedural 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 + 100, 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);
}
}
}
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.RenderTechnic.AddPostEffect(new AntiAliasingPostEffectStalker());
CameraFirstPerson cam = new CameraFirstPerson(MathHelper.ToRadians(30), MathHelper.ToRadians(-10), new Vector3(150, 150, 200), 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
///Model with Paralax Shader enabled
{
///Need to load the height, the normal texture and the difuse texture
SimpleModel sm = new SimpleModel(factory,"..\\Content\\Model\\cubo", "..\\Content\\Textures\\color_map");
sm.SetTexture("Textures\\normal_map", TextureType.BUMP);
sm.SetTexture("Textures\\height_map", TextureType.PARALAX);
BoxObject pi = new BoxObject(new Vector3(200, 110, 0),1,1 ,1, 5, new Vector3(100, 100, 100),Matrix.Identity,MaterialDescription.DefaultBepuMaterial());
///Enable paralax and Normal Mapping;
paralax = new DeferredCustomShader(false, true, false, true);
paralax.SpecularIntensity = 0.2f;
paralax.SpecularPower = 30;
IMaterial mat = new DeferredMaterial(paralax);
IObject obj3 = new IObject(mat, sm, pi);
this.World.AddObject(obj3);
}
{
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);
}
#endregion
lt = new LightThrowBepu(this.World, factory,75,5);
#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(10), MathHelper.ToRadians(-10), new Vector3(200, 150, 250), GraphicInfo);
this.World.CameraManager.AddCamera(cam);
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.DOWN, Keys.H, aumentaScale);
this.BindInput(ik);
}
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.DOWN , Keys.G, diminuiScale);
this.BindInput(ik);
}
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.DOWN, Keys.Y, aumentaBias);
this.BindInput(ik);
}
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.DOWN, Keys.T, diminuiBias);
this.BindInput(ik);
}
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.J, EnableDisableParalax);
this.BindInput(ik);
}
{
SimpleConcreteKeyboardInputPlayable ik = new SimpleConcreteKeyboardInputPlayable(StateKey.PRESS, Keys.K, EnableDisableBump);
this.BindInput(ik);
}
}
