/// <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 DeferredEnvironmentCustomShader = new DeferredEnvironmentCustomShader(false, true, false);
                DeferredEnvironmentCustomShader.SpecularIntensity = 0.2f;
                DeferredEnvironmentCustomShader.SpecularPower = 30;
                DeferredEnvironmentCustomShader.ShaderId = ShaderUtils.CreateSpecificBitField(true);
                IMaterial mat = new DeferredMaterial(DeferredEnvironmentCustomShader);
                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());
                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);

            new LightThrowBepu(this.World, GraphicFactory);

            SkyBoxSetTextureCube stc = new SkyBoxSetTextureCube("Textures//cubemap");
            CommandProcessor.getCommandProcessor().SendCommandAssyncronous(stc);
        }
        /// <summary>
        /// Called when an object is found
        /// </summary>
        /// <param name="world">The world.</param>
        /// <param name="factory">The factory.</param>
        /// <param name="ginfo">The ginfo.</param>
        /// <param name="mi">The mi.</param>
        /// <returns></returns>
        IObject[] wl_OnCreateIObject(IWorld world, GraphicFactory factory, GraphicInfo ginfo, ObjectInformation[] mi)
        {
            IObject[] objs = new IObject[mi.Length];
            for (int i = 0; i < mi.Length; i++)
            {
                IModelo model = new CustomModel(factory, mi[i].modelName, mi[i].batchInformation, mi[i].textureInformation);
                IPhysicObject po = new TriangleMeshObject(model, Vector3.Zero, Matrix.Identity, Vector3.One, MaterialDescription.DefaultBepuMaterial());
                DeferredCustomShader shader = new DeferredCustomShader(mi[i].HasTexture(TextureType.GLOW), mi[i].HasTexture(TextureType.BUMP), mi[i].HasTexture(TextureType.SPECULAR), mi[i].HasTexture(TextureType.PARALAX));
                DeferredMaterial dm = new DeferredMaterial(shader);
                IObject obj = new IObject(dm, model, po);

                if (mi[i].HasTexture(TextureType.BUMP))
                {
                    withBump.Add(obj);
                }

                if (mi[i].HasTexture(TextureType.SPECULAR))
                {
                    shader.SpecularPowerMapScale = 2f;
                    shader.SpecularIntensityMapScale = 0.1f;
                    withSpecular.Add(obj);
                }
                objs[i] = obj;
            }

            return objs;

        }
        /// <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\\block", "..\\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, false, false, false);
                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());
                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);

            {
                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);
            }

            new LightThrowBepu(this.World, GraphicFactory);
        }
Exemplo n.º 4
0
        public static IObject[] CreateOBJ(IWorld world, GraphicFactory factory, GraphicInfo ginfo, ObjectInformation[] mi)
        {            

            IModelo model = new CustomModel(factory, mi);            

            MaterialDescription material;
            if (mi[0].staticfriction == -1 || mi[0].dinamicfriction == -1 || mi[0].ellasticity == -1)
            {
                material = MaterialDescription.DefaultBepuMaterial();
            }
            else
            {
                material = new MaterialDescription(mi[0].staticfriction, mi[0].dinamicfriction, mi[0].ellasticity);
            }

            IPhysicObject po;

            bool massflag = false;
            if (mi[0].mass == 0)
            {
                massflag = true;
                mi[0].mass = 0.5f;
            }

            BatchInformation binf = model.GetBatchInformation(0)[0];            

            BoundingBox bb;

            switch (mi[0].collisionType)
            {

                case "Ghost":

                   
                    po = new GhostObject(mi[0].position,Matrix.CreateFromQuaternion(mi[0].rotation), mi[0].scale);

                    break;
                case "Cylinder":

                    binf.ModelLocalTransformation = Matrix.Identity;
                    bb = ModelBuilderHelper.CreateBoundingBoxFromModel(binf);
                    Vector3 len = bb.Max - bb.Min;

                    po = new CylinderObject(mi[0].position, len.Y, len.X / 2,Vector3.Up ,mi[0].mass, Matrix.CreateFromQuaternion(mi[0].rotation), material);
                    
                    break;


                case "Sphere":
                    binf.ModelLocalTransformation = Matrix.Identity;
                    po = new SphereObject(mi[0].position, model.GetModelRadius(), mi[0].mass, mi[0].scale.X, material);
                    po.Rotation = Matrix.CreateFromQuaternion(mi[0].rotation);

                    break;


                case "Box":

                    bb = ModelBuilderHelper.CreateBoundingBoxFromModel(binf);

                    len = bb.Max - bb.Min;

                    po = new BoxObject(mi[0].position, len.X, len.Y, len.Z, mi[0].mass, mi[0].scale, Matrix.CreateFromQuaternion(mi[0].rotation), material);

                    break;

                case "Water":
                    po = new GhostObject(mi[0].position, Matrix.CreateFromQuaternion(mi[0].rotation), mi[0].scale);
                    break;
                case "TriangleMesh":
                default:
                    po = new TriangleMeshObject(model, Vector3.Zero, Matrix.Identity, new Vector3(1), material);
                    break;
            }

            po.isMotionLess = massflag;

            IShader shader = null;
#if !REACH && !WINDOWS_PHONE
            
            if (mi[0].HasTexture(TextureType.ENVIRONMENT))
            {
                shader = new DeferredEMReflectiveShader();
                (shader as DeferredEMReflectiveShader).TextureCube = mi[0].textureInformation.getCubeTexture(TextureType.ENVIRONMENT);
                
            }
            else if (mi[0].collisionType != null && mi[0].collisionType.Contains("Water"))
            {
                Vector3 position = (Vector3)(mi[0].extra["position"]);
                var width = (mi[0].extra["width"]);
                var height = (mi[0].extra["length"]);
                shader = new DeferredWaterCompleteShader((int)width,(int)height, new Plane(position.X, position.Y, position.Z, 1),10.0f);
            }
            
            else
            {
                shader = new DeferredCustomShader(mi[0].HasTexture(TextureType.GLOW), mi[0].HasTexture(TextureType.BUMP), mi[0].HasTexture(TextureType.SPECULAR), mi[0].HasTexture(TextureType.PARALAX)); 
            }
          
            DeferredMaterial dm = new DeferredMaterial(shader);
#else
            shader = new ForwardXNABasicShader();
            ForwardMaterial dm = new ForwardMaterial(shader);

#endif
            IObject ob = new IObject(dm, model, po);

            ob.Name = mi[0].modelName;

            return new IObject[] { ob };
        }