public GameManager()
{
TotalTimeElapsed = 0;
TvEngine = new TVEngine();
TvEngine.DisplayFPS(true);
if (windowed)
{
Form1 form = new Form1(this);
form.Show();
TvEngine.Init3DWindowed(form.Handle);
}
else
{
TvEngine.Init3DFullscreen(ScreenWidth, ScreenHeight);
}
TvInputEngine = new TVInputEngine();
TvInputEngine.Initialize(true, true);
TvScene = new TVScene();
TvCamera = TvScene.GetCamera();
TvPhysics = new TVPhysics();
TvPhysics.Initialize();
TvPhysics.SetSolverModel(CONST_TV_PHYSICS_SOLVER.TV_SOLVER_LINEAR_10_PASSES);
TvPhysics.SetFrictionModel(CONST_TV_PHYSICS_FRICTION.TV_FRICTION_EXACT);
TvPhysics.SetGlobalGravity(new TV_3DVECTOR(0F, -980F, 0F));
TvPhysics.SetMaterialInteractionContinuousCollision(0, 0, true);
TvPhysics.SetMaterialInteractionFriction(0, 0, 0.000001f, 0.000001f);
TvPhysics.SetMaterialInteractionBounciness(0, 0, 0.5f);
TvMaths = new TVMathLibrary();
TvScreen2DText = new TVScreen2DText();
TvLights = new TVLightEngine();
TvMaterials = new TVMaterialFactory();
TvGlobals = new TVGlobals();
Message = new MessageManager(this);
}
public void Init()
{
//bool DebugToConsole = true;
// We have to create the TV object before anything else.
TV = new TVEngine();
// Set the search directory of the objects, textures, ...
TV.SetSearchDirectory(Application.StartupPath);
// We put the debug file in the app directory
//TV.SetDebugFile(Application.StartupPath + "\\WorldEngine-Debug.txt");
//TV.SetDebugMode(true, true, DebugToConsole);
TV.SetDebugMode(false, false, false, false);
// We initialize TV in the picture box of the form.
TV.Init3DWindowed(GameHandle);
// We want to see the FPS.
TV.DisplayFPS(true);
// We create the TVGlobals object.
Globals = new TVGlobals();
// We create the input object.
InputEngine = new TVInputEngine();
InputEngine.Initialize();
// New : we create the graphic object so we can add some fog.
GraphicFX = new TVGraphicEffect();
// We create the scene (the world).
Scene = new TVScene();
//Scene.SetViewFrustum(45, 20000);
//Scene.SetViewFrustum(45, 20);
// We create the atmosphere class
Atmos = new TVAtmosphere();
// As said above, we need to create a new object which will
// hold all the textures needed for our land.
TextureFactory = new TVTextureFactory();
// We load the sky texture.
TextureFactory.LoadTexture("Media\\sky\\sunset\\up.jpg", "SkyTop", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\down.jpg", "SkyBottom", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\left.jpg", "SkyLeft", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\right.jpg", "SkyRight", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\front.jpg", "SkyFront", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\back.jpg", "SkyBack", -1, -1);
// We set the sky textures.
Atmos.SkyBox_SetTexture(Globals.GetTex("SkyFront"), Globals.GetTex("SkyBack"), Globals.GetTex("SkyLeft"), Globals.GetTex("SkyRight"), Globals.GetTex("SkyTop"), Globals.GetTex("SkyBottom"));
Atmos.SkyBox_Enable(true);
// New : the land generation. This is so much fun because it's
// so simple! You load a texture as a height map, the engine
// does the rest. But before this, we create the land object.
Land = new TVLandscape();
//Land = Scene.CreateLandscape("Land");
// Generate the height of the land from the grayscale of the image.
//Land.GenerateTerrain("Media\\heightmap.jpg", CONST_TV_LANDSCAPE_PRECISION.TV_PRECISION_LOW, 8, 8, -1024, 0, -1024, true);
//Land.CreateEmptyTerrain(CONST_TV_LANDSCAPE_PRECISION.TV_PRECISION_LOW, 1, 1, -128, 0, -128);
// Because we don't want to have mountains with height that get to
// the clouds, we adjust the height (Y) factor.
//Land.SetScale(1, 0.7f, 1);
// Then, we load the land texture.
TextureFactory.LoadTexture("Media\\dirtandgrass.jpg", "LandTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\dirtandgrass2.jpg", "LandTexture2", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
//...The splatting texture...
TextureFactory.LoadTexture("Media\\grass.dds", "SplattingTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\grassa.dds", "SplattingAlphaTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// We assign a texture to that land.
//Land.SetTexture(Globals.GetTex("LandTexture"), -1);
//Land.SetTextureScale(3, 3, -1);
// New : the sun. We have to place the sun in the world. Just like the
// sky box, the sun is attached to the camera position vector. You will
// never notice it until you start playing really badly with the
// properties of the sun. Let's start by loading a texture for it.
TextureFactory.LoadTexture("Media\\sun.jpg", "Sun", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// Then, initialize it by placing it via a vector.
Atmos.Sun_SetTexture(Globals.GetTex("Sun"));
Atmos.Sun_SetBillboardSize(1);
Atmos.Sun_SetPosition(-1000f, 570f, 0f);
Atmos.Sun_Enable(true);
// New : To add extra visual effects, we add a lens flare effect. For
// this, we have to load some cirles that will be used to simulate
// the flare effect.
TextureFactory.LoadTexture("Media\\flare1.jpg", "Flare1", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare2.jpg", "Flare2", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare3.jpg", "Flare3", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare4.jpg", "Flare4", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// Initialize the lens flares.
Atmos.LensFlare_SetLensNumber(4);
Atmos.LensFlare_Enable(true);
Atmos.LensFlare_SetLensParams(0, Globals.GetTex("Flare1"), 2 * 5f, 40, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(1f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(1, Globals.GetTex("Flare2"), 2 * 1f, 18, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(1f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(2, Globals.GetTex("Flare3"), 2 * 1.8f, 15, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(0.7f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(3, Globals.GetTex("Flare4"), 2 * 1f, 6, Globals.RGBA(1f, 0.1f, 0f, 0.5f), Globals.RGBA(0.5f, 1f, 1f, 0.5f));
// New : also for fun, we add water. We start by loading the
// water tetxure...
sngWaterHeight = -1; //60
TextureFactory.LoadTexture("Media\\water.bmp", "Water");
WaterMesh = Scene.CreateMeshBuilder();
WaterMesh.AddFloor(Globals.GetTex("Water"), -700, 0, (8 * 256) - 700, 8 * 256, sngWaterHeight, 1, 1, false);
RenderSurf1 = Scene.CreateRenderSurface(256, 256, true);
RenderSurf2 = Scene.CreateRenderSurface(256, 256, true);
WPlane.Dist = -sngWaterHeight;
WPlane.Normal = new TV_3DVECTOR(0, 1, 0);
RenderSurf1.SetBackgroundColor(355);
GraphicFX.SetWaterReflection(WaterMesh, RenderSurf1, RenderSurf2, 0, WPlane);
// New : for fun, we will also add some clouds, just over the water
// to give a creepy fog effect. Let's start by loading the clouds textures.
TextureFactory.LoadTexture("Media\\cloud1.dds", "Clouds", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_BLACK, true);
// Then, set the land's clouds.
Atmos.Clouds_Create(1, 1024, 1024);
Atmos.Clouds_SetLayerParameters(0, 300, Globals.GetTex("Clouds"));
Atmos.Clouds_SetLayerAnimation(0, true, 0.01f, 0.01f);
// We set the camera vectors (position and look at) and angles.
sngPositionX = 0f;
sngPositionY = 20f;
sngPositionZ = 0f;
snglookatX = 0f;
snglookatY = 20f;
snglookatZ = 50f;
sngAngleX = 0f;
sngAngleY = 0f;
// We set the initial values of movement
sngWalk = 0f;
sngStrafe = 0f;
// Set the viewing distance
Scene.SetViewFrustum(60f, 900f); //"random" values, TODO : Check for better ones ?
//http://www.truevision3d.com/forums/tv3d_sdk_63/about_tilemap-t3865.0.html;prev_next=prev
// We pop the form over everything else.
//We create the world map
WMap = new WorldMap(Scene);
// We start the main loop. You can't create the MainLoop by using the
// toolbox buttons, nor by clicking on the form "Form1" : you have to
// create it by yourself. It's not as hard as it may sound...
DoLoop = true;
TV.EnableProfiler(true, false);
Main_Loop();
}
//Inicializace enginu
private void VytvorScenu()
{
TV = new TVEngine();
//Povoleni debug zprav
TV.SetDebugMode(true, true);
//Nastaveni debug souboru pro ladeni chyb
TV.SetDebugFile(System.IO.Path.GetDirectoryName(Application.ExecutablePath) + "\\debugfile.txt");
//Incizializace enginu
TV.Init3DWindowed(this.panel2.Handle, true);
//Nastaveni defaultniho adresare
TV.SetSearchDirectory(Environment.CurrentDirectory);
//Nastaveni samoobnovy velikosti obrazu dle okna
TV.GetViewport().SetAutoResize(true);
//Zobrazeni FPS
TV.DisplayFPS(false);
//Nastaveni preferovaneho uhloveho systemu
TV.SetAngleSystem(MTV3D65.CONST_TV_ANGLE.TV_ANGLE_DEGREE);
//Inicializace vsechno enginovych doplnku
Scene = new TVScene();
Globals = new TVGlobals();
Input = new TVInputEngine();
MatFactory = new TVMaterialFactory();
TexFactory = new TVTextureFactory();
//Povoleni mysi a klavesnice na vsup
Input.Initialize(true, true);
}
private void Robot_Load(object sender, EventArgs e)
{
//Tracking
//pictureBox27.Load(Application.StartupPath + "\\Resources\\image1.jpg");
/////3D
lights = new TVLightEngine();
globals = new TVGlobals();
atmosphere = new TVAtmosphere();
maths = new TVMathLibrary();
materialfactory = new TVMaterialFactory();
texturefactory = new TVTextureFactory();
tv = new TVEngine();
physics = new TVPhysics();
//Setup TV
tv.SetDebugMode(true, true);
tv.SetDebugFile(System.IO.Path.GetDirectoryName(Application.ExecutablePath) + "\\debugfile.txt");
tv.SetAntialiasing(true, CONST_TV_MULTISAMPLE_TYPE.TV_MULTISAMPLE_2_SAMPLES);
//Enter Your Beta Username And Password Here
//tv.SetBetaKey("", "");
tv.SetAngleSystem(CONST_TV_ANGLE.TV_ANGLE_DEGREE);
//tv.Init3DWindowed(this.Handle, true);
tv.Init3DWindowed(this.pictureBox3D.Handle, true);
tv.GetViewport().SetAutoResize(true);
tv.DisplayFPS(true);
tv.SetVSync(true);
scene = new TVScene();
input = new TVInputEngine();
input.Initialize(true, true);
camera = new TVCamera();
camera = scene.GetCamera();
camera.SetViewFrustum(45, 1000, 0.1f);
camera.SetPosition(0, 5, -20);
camera.SetLookAt(0, 3, 0);
viewport = new TVViewport();
viewport = tv.CreateViewport(this.Handle, "viewport");
viewport.SetCamera(camera);
viewport.SetBackgroundColor(Color.Blue.ToArgb());
bDoLoop = true;
InitSound();
InitMaterials();
InitTextures();
InitFonts();
InitShaders();
InitEnvironment();
InitPhysics();
InitLandscape();
InitObjects();
InitLights();
InitPhysicsMaterials();
Init2DText();
this.Show();
this.Focus();
GameLoop();
tv = null;
this.Close();
//// /3D
groupComPortDefault.Enabled = false;
groupComPortSettings.Enabled = false;
groupTcpClientServerSettings.Enabled = false;
groupTcpClientServerDefault.Enabled = false;
groupDirectionAndMotion.Enabled = false;
groupCameraRotation.Enabled = false;
groupCameraRot2.Enabled = false;
groupAdvencedSuppDevices.Enabled = false;
groupJoystickInit.Enabled = false;
labelCommunicationType.Text = null;
labelConnectingStatus.Text = null;
labelJoystickName.Text = null;
SetMap();
Maps.SelectedItem = "TUKE";
//Full Screen
Options op = new Options();
op = op.ReadOptionsFromFile();
this.combo_method.SelectedIndex = op.Scale;
this.combo_streams.SelectedIndex = op.Streams;
this.textBox1.Text = op.Text;
//this.lbl_foreColor.BackColor = ColorTranslator.FromHtml(op.ForeColor);
}
public void Init()
{
//bool DebugToConsole = true;
// We have to create the TV object before anything else.
TV = new TVEngine();
// Set the search directory of the objects, textures, ...
TV.SetSearchDirectory(Application.StartupPath);
// We put the debug file in the app directory
//TV.SetDebugFile(Application.StartupPath + "\\WorldEngine-Debug.txt");
//TV.SetDebugMode(true, true, DebugToConsole);
TV.SetDebugMode(false, false, false, false);
// We initialize TV in the picture box of the form.
TV.Init3DWindowed(GameHandle);
// We want to see the FPS.
TV.DisplayFPS(true);
// We create the TVGlobals object.
Globals = new TVGlobals();
// We create the input object.
InputEngine = new TVInputEngine();
InputEngine.Initialize();
// New : we create the graphic object so we can add some fog.
GraphicFX = new TVGraphicEffect();
// We create the scene (the world).
Scene = new TVScene();
//Scene.SetViewFrustum(45, 20000);
//Scene.SetViewFrustum(45, 20);
// We create the atmosphere class
Atmos = new TVAtmosphere();
// As said above, we need to create a new object which will
// hold all the textures needed for our land.
TextureFactory = new TVTextureFactory();
// We load the sky texture.
TextureFactory.LoadTexture("Media\\sky\\sunset\\up.jpg", "SkyTop", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\down.jpg", "SkyBottom", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\left.jpg", "SkyLeft", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\right.jpg", "SkyRight", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\front.jpg", "SkyFront", -1, -1);
TextureFactory.LoadTexture("Media\\sky\\sunset\\back.jpg", "SkyBack", -1, -1);
// We set the sky textures.
Atmos.SkyBox_SetTexture(Globals.GetTex("SkyFront"), Globals.GetTex("SkyBack"), Globals.GetTex("SkyLeft"), Globals.GetTex("SkyRight"), Globals.GetTex("SkyTop"), Globals.GetTex("SkyBottom"));
Atmos.SkyBox_Enable(true);
// New : the land generation. This is so much fun because it's
// so simple! You load a texture as a height map, the engine
// does the rest. But before this, we create the land object.
Land = new TVLandscape();
//Land = Scene.CreateLandscape("Land");
// Generate the height of the land from the grayscale of the image.
//Land.GenerateTerrain("Media\\heightmap.jpg", CONST_TV_LANDSCAPE_PRECISION.TV_PRECISION_LOW, 8, 8, -1024, 0, -1024, true);
//Land.CreateEmptyTerrain(CONST_TV_LANDSCAPE_PRECISION.TV_PRECISION_LOW, 1, 1, -128, 0, -128);
// Because we don't want to have mountains with height that get to
// the clouds, we adjust the height (Y) factor.
//Land.SetScale(1, 0.7f, 1);
// Then, we load the land texture.
TextureFactory.LoadTexture("Media\\dirtandgrass.jpg", "LandTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\dirtandgrass2.jpg", "LandTexture2", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
//...The splatting texture...
TextureFactory.LoadTexture("Media\\grass.dds", "SplattingTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\grassa.dds", "SplattingAlphaTexture", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// We assign a texture to that land.
//Land.SetTexture(Globals.GetTex("LandTexture"), -1);
//Land.SetTextureScale(3, 3, -1);
// New : the sun. We have to place the sun in the world. Just like the
// sky box, the sun is attached to the camera position vector. You will
// never notice it until you start playing really badly with the
// properties of the sun. Let's start by loading a texture for it.
TextureFactory.LoadTexture("Media\\sun.jpg", "Sun", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// Then, initialize it by placing it via a vector.
Atmos.Sun_SetTexture(Globals.GetTex("Sun"));
Atmos.Sun_SetBillboardSize(1);
Atmos.Sun_SetPosition(-1000f, 570f, 0f);
Atmos.Sun_Enable(true);
// New : To add extra visual effects, we add a lens flare effect. For
// this, we have to load some cirles that will be used to simulate
// the flare effect.
TextureFactory.LoadTexture("Media\\flare1.jpg", "Flare1", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare2.jpg", "Flare2", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare3.jpg", "Flare3", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
TextureFactory.LoadTexture("Media\\flare4.jpg", "Flare4", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
// Initialize the lens flares.
Atmos.LensFlare_SetLensNumber(4);
Atmos.LensFlare_Enable(true);
Atmos.LensFlare_SetLensParams(0, Globals.GetTex("Flare1"), 2 * 5f, 40, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(1f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(1, Globals.GetTex("Flare2"), 2 * 1f, 18, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(1f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(2, Globals.GetTex("Flare3"), 2 * 1.8f, 15, Globals.RGBA(1f, 1f, 1f, 0.5f), Globals.RGBA(0.7f, 1f, 1f, 0.5f));
Atmos.LensFlare_SetLensParams(3, Globals.GetTex("Flare4"), 2 * 1f, 6, Globals.RGBA(1f, 0.1f, 0f, 0.5f), Globals.RGBA(0.5f, 1f, 1f, 0.5f));
// New : also for fun, we add water. We start by loading the
// water tetxure...
sngWaterHeight = -1; //60
TextureFactory.LoadTexture("Media\\water.bmp", "Water");
WaterMesh = Scene.CreateMeshBuilder();
WaterMesh.AddFloor(Globals.GetTex("Water"), -700, 0, (8 * 256) - 700, 8 * 256, sngWaterHeight, 1, 1, false);
RenderSurf1 = Scene.CreateRenderSurface(256, 256, true);
RenderSurf2 = Scene.CreateRenderSurface(256, 256, true);
WPlane.Dist = -sngWaterHeight;
WPlane.Normal = new TV_3DVECTOR(0, 1, 0);
RenderSurf1.SetBackgroundColor(355);
GraphicFX.SetWaterReflection(WaterMesh, RenderSurf1, RenderSurf2, 0, WPlane);
// New : for fun, we will also add some clouds, just over the water
// to give a creepy fog effect. Let's start by loading the clouds textures.
TextureFactory.LoadTexture("Media\\cloud1.dds", "Clouds", -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_BLACK, true);
// Then, set the land's clouds.
Atmos.Clouds_Create(1, 1024, 1024);
Atmos.Clouds_SetLayerParameters(0, 300, Globals.GetTex("Clouds"));
Atmos.Clouds_SetLayerAnimation(0, true, 0.01f, 0.01f);
// We set the camera vectors (position and look at) and angles.
sngPositionX = 0f;
sngPositionY = 20f;
sngPositionZ = 0f;
snglookatX = 0f;
snglookatY = 20f;
snglookatZ = 50f;
sngAngleX = 0f;
sngAngleY = 0f;
// We set the initial values of movement
sngWalk = 0f;
sngStrafe = 0f;
// Set the viewing distance
Scene.SetViewFrustum(60f, 900f); //"random" values, TODO : Check for better ones ?
//http://www.truevision3d.com/forums/tv3d_sdk_63/about_tilemap-t3865.0.html;prev_next=prev
// We pop the form over everything else.
//We create the world map
WMap = new WorldMap(Scene);
// We start the main loop. You can't create the MainLoop by using the
// toolbox buttons, nor by clicking on the form "Form1" : you have to
// create it by yourself. It's not as hard as it may sound...
DoLoop = true;
TV.EnableProfiler(true, false);
Main_Loop();
}
/// <summary>
/// Initializes the engine, services and components.
/// </summary>
/// <param name="sender">Ignored</param>
/// <param name="e">Ignored</param>
void InitializeEngine(object sender, EventArgs e)
{
// Attach the looping events
looping = new Looping(this);
Engine = new TVEngine();
#if DEBUG
Engine.SetDebugMode(true, true, true, false);
Engine.SetDebugFile(settings.DebugFile.FullName);
#else
Engine.SetDebugMode(false, false, false, false);
Engine.DisplayFPS(false);
#endif
Engine.AllowMultithreading(settings.MultiThreading);
if (File.Exists(GetType().Assembly.GetName().Name + ".lic"))
{
Engine.SetLicenseFile(GetType().Assembly.GetName().Name + ".lic");
}
// When we use doubles, we need double-precision.
Engine.SetFPUPrecision(true);
// Set default component update frequency value.
if (settings.UpdateFrequency.Equals(0f))
{
settings.UpdateFrequency = 1f / 60f;
}
SetMultisample();
// Create render form.
settings.RenderForm = new RenderForm();
// Apply v sync option.
Engine.SetVSync(settings.VSync);
// Use current settings by default if none are given.
screenWidth = Screen.PrimaryScreen.Bounds.Width;
screenHeight = Screen.PrimaryScreen.Bounds.Height;
if (settings.ScreenMode.Width == 0 || settings.ScreenMode.Height == 0)
{
settings.ScreenMode.Width = screenWidth;
settings.ScreenMode.Height = Screen.PrimaryScreen.Bounds.Height;
}
if (settings.ScreenMode.Format == 0)
{
settings.ScreenMode.Format = screenHeight;
}
bool initSuccess = false;
if (settings.Fullscreen)
{
try
{
initSuccess = Engine.Init3DFullscreen(settings.ScreenMode.Width, settings.ScreenMode.Height,
settings.ScreenMode.Format, true, settings.VSync,
CONST_TV_DEPTHBUFFERFORMAT.TV_DEPTHBUFFER_BESTBUFFER, 1, settings.RenderForm.Handle);
}
catch (AccessViolationException) { /* License failure */ }
}
else
{
try
{
// Resize windowed form and move to center screen.
settings.RenderForm.Size = new System.Drawing.Size(settings.ScreenMode.Width, settings.ScreenMode.Height);
settings.RenderForm.Top = (screenHeight - settings.ScreenMode.Height) / 2;
settings.RenderForm.Left = (screenWidth - settings.ScreenMode.Width) / 2;
initSuccess = Engine.Init3DWindowed(settings.RenderForm.Handle, true);
}
catch (AccessViolationException) { /* License failure */ }
}
// Apply auto resize.
Engine.GetViewport().SetAutoResize(true);
// Probably a license failure
if (!initSuccess)
{
MessageBox.Show("Couldn't initialize engine! Exiting.", "Critical error", MessageBoxButtons.OK, MessageBoxIcon.Error);
Application.Idle -= InitializeEngine;
Dispose();
Application.Exit();
return;
}
// Initialize physics
Physics.Initialize();
Physics.SetSolverModel(CONST_TV_PHYSICS_SOLVER.TV_SOLVER_ADAPTIVE);
Physics.SetFrictionModel(CONST_TV_PHYSICS_FRICTION.TV_FRICTION_ADAPTIVE);
Physics.SetGlobalGravity(new TV_3DVECTOR(0, -14.8f, 0));
Physics.EnableCPUOptimizations(true);
// Initialize input
InputEngine.Initialize(true, true);
// If nothing is found, just don't hook the events
if (settings.RenderForm != null)
{
settings.RenderForm.FormClosing += (_, __) => Exit();
//settings.RenderForm.Deactivate += (_, __) => looping.PauseLoop();
//settings.RenderForm.Activated += delegate
//{
// // Silly workaround
// InputEngine.ClearKeyBuffer();
// InputEngine.ForceUpdate();
// stopwatch.Reset();
// looping.ResumeLoop();
//};
}
Initialize();
if (!settings.Fullscreen)
{
settings.RenderForm.Show();
}
Application.Idle -= InitializeEngine;
}
private void StartEngine()
{
Time = new GameTime();
Components = new List<GameComponent>();
Engine = new TVEngine();
Scene = new TVScene();
Screen2D = new TVScreen2DImmediate();
Textures = new TVTextureFactory();
Text2D = new TVScreen2DText();
Globals = new TVGlobals();
Materials = new TVMaterialFactory();
Math = new TVMathLibrary();
Effects = new TVGraphicEffect();
Atmosphere = new TVAtmosphere();
Internal = new TVInternalObjects();
Light = new TVLightEngine();
Input = new TVInputEngine();
Random = new Random();
Engine.SetInternalShaderVersion(CONST_TV_SHADERMODEL.TV_SHADERMODEL_BEST);
Engine.SetAngleSystem(CONST_TV_ANGLE.TV_ANGLE_DEGREE);
Engine.AllowMultithreading(true);
Engine.SetFPUPrecision(true);
Engine.EnableSmoothTime(false);
Engine.SetDebugMode(true, true);
Engine.SetDebugFile("debug.txt");
Engine.EnableProfiler(false);
Engine.DisplayFPS(false);
Engine.SetVSync(false);
Engine.SetAntialiasing(false, CONST_TV_MULTISAMPLE_TYPE.TV_MULTISAMPLE_NONE);
Engine.Init3DWindowed(Form.Handle);
//Engine.Init3DFullscreen(1920, 1200, 32, true, false, CONST_TV_DEPTHBUFFERFORMAT.TV_DEPTHBUFFER_BESTBUFFER, 1, Window.Handle);
Engine.GetViewport().SetAutoResize(true);
Input.Initialize(true, true);
Input.SetRepetitionDelay(400, 100);
Textures.SetTextureMode(CONST_TV_TEXTUREMODE.TV_TEXTUREMODE_BETTER);
Light.SetGlobalAmbient(0, 0, 0);
}
