// Methods public virtual bool Initialize(string title, int width, int height, bool vSync, bool fullScreen, int testTimeSeconds) { if (Configuration == null) { Configuration = new DSystemConfiguration(title, width, height, fullScreen, vSync); } // Initialize Window. InitializeWindows(title); DPerfLogger.Initialize("RenderForm C# SharpDX: " + Configuration.Width + "x" + Configuration.Height + " VSync:" + DSystemConfiguration.VerticalSyncEnabled + " FullScreen:" + DSystemConfiguration.FullScreen + " " + RenderForm.Text, testTimeSeconds, Configuration.Width, Configuration.Height);; // Create and initialize Timer. Timer = new DTimer(); if (!Timer.Initialize()) { MessageBox.Show("Could not initialize Timer object", "Error", MessageBoxButtons.OK); return(false); } // Create the application wrapper object. DApplication = new DApplication(); // Initialize the application wrapper object. if (!DApplication.Initialize(Configuration, RenderForm.Handle)) { return(false); } return(true); }
// Methods. public bool Initialize(DSystemConfiguration configuration, IntPtr windowHandle) { try { // Create the input object. The input object will be used to handle reading the keyboard and mouse input from the user. Input = new DInput(); // Initialize the input object. if (!Input.Initialize(configuration, windowHandle)) { return(false); } // #region Initialize System // Create the Direct3D object. D3D = new DDX11(); // Initialize the Direct3D object. if (!D3D.Initialize(configuration, windowHandle)) { return(false); } // Create the position object. Position = new DPosition(); // Set the initial position and rotation of the viewer. Position.SetPosition(280.379f, 24.5225f, 367.018f); Position.SetRotation(19.6834f, 222.013f, 0.0f); // Create the camera object Camera = new DCamera(); // Initialize a base view matrix with the camera for 2D user interface rendering. Camera.SetPosition(0.0f, 0.0f, -10.0f); Camera.RenderBaseViewMatrix(); Matrix baseViewMatrix = Camera.BaseViewMatrix; // Create the light object. Light = new DLight(); // Initialize the light object. Light.SetDiffuseColor(1.0f, 1.0f, 1.0f, 1.0f); Light.Direction = new Vector3(0.5f, -0.75f, 0.25f); // Create the model object. TerrainModel = new DTerrainHeightMap(); // Initialize the terrain object. if (!TerrainModel.Initialize(D3D.Device, "hm.bmp", "cm.bmp", 20.0f, "dirt04.bmp", "normal01.bmp")) { return(false); } // Create the color shader object. TerrainShader = new DTerrainShader(); //// Initialize the color shader object. if (!TerrainShader.Initialize(D3D.Device, windowHandle)) { return(false); } // Create the sky dome object. SkyDome = new DSkyDome(); // Initialize the sky dome object. if (!SkyDome.Initialize(D3D.Device)) { return(false); } // Create the sky dome shader object. SkyDomeShader = new DSkyDomeShader(); // Initialize the sky dome shader object. if (!SkyDomeShader.Initialize(D3D.Device, windowHandle)) { return(false); } // Create the sky plane object. SkyPlane = new DSkyPlane(); // Initialize the sky plane object. if (!SkyPlane.Initialze(D3D.Device, "cloud001.bmp", "perturb001.bmp")) { return(false); } // Create the sky plane shader object. SkyPlaneShader = new DSkyPlaneShader(); // Initialize the sky plane shader object. if (!SkyPlaneShader.Initialize(D3D.Device, windowHandle)) { return(false); } // Create the fps object. FPS = new DFPS(); // Initialize the fps object. FPS.Initialize(); // Create the cpu object. CPU = new DCPU(); // Initialize the cpu object. CPU.Initialize(); // Create the text object. Text = new DText(); // Initialize the text object. if (!Text.Initialize(D3D.Device, D3D.DeviceContext, windowHandle, configuration.Width, configuration.Height, baseViewMatrix)) { return(false); } // Set the video card information in the text object. if (!Text.SetVideoCard(D3D.VideoCardDescription, D3D.VideoCardMemory, D3D.DeviceContext)) { return(false); } // Create the refraction render to texture object. RefractionTexture = new DRenderTexture(); // Initialize the refraction render to texture object. if (!RefractionTexture.Initialize(D3D.Device, configuration)) { return(false); } // Create the reflection render to texture object. ReflectionTexture = new DRenderTexture(); // Initialize the reflection render to texture object. if (!ReflectionTexture.Initialize(D3D.Device, configuration)) { return(false); } // Create the reflection shader object. ReflectionShader = new DReflectionShader(); // Initialize the reflection shader object. if (!ReflectionShader.Initialize(D3D.Device, windowHandle)) { return(false); } // Create the water object. WaterModel = new DWater(); // Initialize the water object. if (!WaterModel.Initilize(D3D.Device, "waternormal.bmp", 3.75f, 110.0f)) { return(false); } // Create the water shader object. WaterShader = new DWaterShader(); // Initialize the water shader object. if (!WaterShader.Initialize(D3D.Device, windowHandle)) { return(false); } return(true); } catch (Exception ex) { MessageBox.Show("Could not initialize Direct3D\nError is '" + ex.Message + "'"); return(false); } }