public static void SelectZone(object sender, MServerZone zone) { if (ZoneSelectHandler != null) { ZoneSelectHandler(sender, new ZoneEvent(zone)); } }
public void CreateZone(MClient c, MNetMessage m) { MServerZone zone = MServerZone.Deserialize <MServerZone>(m.Payload); MNetMessage mr = new MNetMessage(); if (MRudeWords.IsRude(zone.Name) == true) { mr.Command = MNetMessage.ERROR; mr.Payload = "CreateZone:Not allowed"; Send(c, "Message", mr.Serialize()); return; } if (_ZoneHandler.Add(zone) == true) { mr.Command = MNetMessage.CREATEZONE; //TODO: Only send the zones we need mr.Payload = _ZoneHandler.GetObjectsAsString(); SendToAllClients(c, mr.Serialize()); } else { mr.Command = MNetMessage.ERROR; mr.Payload = "ZONE(" + zone.Name + ") already in Use"; Send(c, "Message", mr.Serialize()); } ZoneChanged?.Invoke(this, new ZoneEvent(zone)); }
public bool Add(MServerZone m) { if (Zones.Find(x => x.Name.Equals(m.Name)) != null) { return(false); } Zones.Add(m); WriteToDisk(); return(true); }
public bool Remove(string UserID, MServerZone m) { MServerZone zone = Zones.Find(x => x.Name.Equals(m.Name) && x.OwnerID.Equals(UserID)); if (zone != null) { Zones.Remove(zone); WriteToDisk(); return(true); } return(false); }
public bool Update(string UserID, MServerZone z) { MServerZone zone = Zones.Find(x => x.Name.Equals(z.Name) && x.OwnerID.Equals(UserID)); if (zone != null) { z.CopyTo(zone); WriteToDisk(); return(true); } return(false); }
public static Vector3d Find(string s) { Vector3d pos = Vector3d.Zero; lock (ZoneLocker) { MServerZone zone = Zones.Find(x => x.Name.IndexOf(s, StringComparison.CurrentCultureIgnoreCase) > -1); if (zone != null) { pos = MassiveTools.Vector3dFromVector3_Server(zone.Position); } } return(pos); }
public void UpdateZone(MClient c, MNetMessage m) { MServerZone zone = MServerZone.Deserialize <MServerZone>(m.Payload); MNetMessage mr = new MNetMessage(); if (_ZoneHandler.Update(c.Account.UserID, zone)) { mr.Command = MNetMessage.UPDATEZONE; mr.Payload = zone.Serialize(); Send(c, "Message", mr.Serialize()); } else { mr.Command = MNetMessage.ERROR; mr.Payload = "You can't delete " + zone.Name + " because you are not the owner"; Send(c, "Message", mr.Serialize()); } ZoneChanged?.Invoke(this, new ZoneEvent(zone)); }
private void HomeButton_Click(object sender, EventArgs e) { MServerZone zone = MZoneService.Find("Earth"); //Vector3d pos = MassiveTools.Vector3dFromVector3_Server(zone.Position); //cape town Vector3d pos = MassiveTools.VectorFromArray(Globals.UserAccount.HomePosition); if (Globals.Network.Connected == true) { MMessageBus.TeleportRequest(Globals.UserAccount.UserID, pos, Quaterniond.Identity); } else { MScene.Camera.transform.Position = pos; Globals.UserAccount.CurrentPosition = MassiveTools.ArrayFromVector(pos); Globals.Avatar.SetPosition(pos); MMessageBus.AvatarMoved(this, Globals.UserAccount.UserID, pos, Quaterniond.Identity); } }
public void InitializePlanets() { //GravityIndicator = Helper.CreateCube(MScene.AstroRoot, "GravitySphere", Vector3d.Zero); //GravityIndicator.transform.Scale = new Vector3d(0.05, 0.1, 0.1); //GravityIndicator.OwnerID = "MasterAstronomer"; //MScene.AstroRoot.Add(GravityIndicator); //GravityIndicator.SetMaterial((MMaterial)MScene.MaterialRoot.FindModuleByName(MMaterial.DEFAULT_MATERIAL)); CreateShaders(); for (int i = 0; i < Bodies.Count; i++) { MAstroBody m = Bodies[i]; //m.Radius = m.Radius * 0.5; if (m.IsTemplate == true) { continue; } m.ListIndex = i; Vector3d pos = m.Position + new Vector3d(-m.Radius.X, 0, 0) * (m.HasRings == true ? 3.0 : 1.1); MServerZone zone = new MServerZone("MASTER_ASTRONOMER", m.Name, "Astronomical", MassiveTools.ToVector3_Server(pos)); zone.Rotation = MassiveTools.ArrayFromQuaterniond(Quaterniond.Identity); zone.Description = m.Description + " \nRadius:" + m.Radius; MMessageBus.AddZone(this, zone); //Extensions.LookAt(m.Position + m.Radius * 2, m.Position), m.Name)); MSceneObject mo; //planet files contain uvs for mercator if (m.HasAtmosphere) { CurrentNear = m; mo = Helper.CreateModel(MScene.AstroRoot, m.Name, @"Models\planets\earth.3ds", Vector3d.Zero); //mo = Helper.CreateSphere(MScene.AstroRoot, 3, "Planet"); //mo.transform.Scale = m.Radius * 1.00055; mo.transform.Scale = m.Radius; } else { mo = Helper.CreateModel(MScene.AstroRoot, m.Name, @"Models\planets\planet_sphere2.3ds", Vector3d.Zero); mo.transform.Scale = m.Radius; } if (m.HasRings) { MModel ring = Helper.CreateModel(MScene.Priority2, m.Name + "_rings", @"Models\planets\planet_rings.3ds", Vector3d.Zero); ring.transform.Position = m.Position; ring.transform.Rotation = Quaterniond.FromEulerAngles(0, 0, 5 * Math.PI / 180); ring.transform.Scale = m.Radius; ring.InstanceID = m.Name; ring.TemplateID = m.Name; ring.DistanceThreshold = m.Radius.X * 12; ring.OwnerID = "MasterAstronomer"; MMaterial ringmat = new MMaterial(m.Name + "_mat"); ringmat.AddShader((MShader)MScene.MaterialRoot.FindModuleByName(MShader.DEFAULT_SHADER)); MTexture ringtex = Globals.TexturePool.GetTexture(@"Textures\Planets\saturn_rings.png"); ringmat.SetDiffuseTexture(ringtex); ring.SetMaterial(ringmat); MPhysicsObject ringpo = new MPhysicsObject(ring, "Physics", 0, MPhysicsObject.EShape.ConcaveMesh, false, m.Radius); ringpo.SetLinearFactor(0, 0, 0); ringpo.SetRestitution(0.5); } mo.transform.Position = m.Position; //mo.transform.Scale = m.Radius * 1.9999; mo.InstanceID = m.Name; mo.TemplateID = m.Name; mo.OwnerID = "MasterAstronomer"; mo.DistanceThreshold = m.Radius.X * 110002; //distance at which it becomes visible //MModel mod = (MModel)mo.FindModuleByType(EType.Model); //mod.DistanceThreshold = mo.DistanceThreshold; //MMesh met = (MMesh)mod.FindModuleByType(EType.Mesh); //if ( met != null ) { //met.DistanceThreshold = mo.DistanceThreshold; //} mo.Tag = m; m.Tag = mo; //now that we have a 3d model, apply some progressive textures (will auto-switch with smooth transition in shader) MMaterial mat = new MMaterial(m.Name + "_mat"); mat.AddShader((MShader)MScene.MaterialRoot.FindModuleByName(MShader.DEFAULT_SHADER)); MTexture tex = Globals.TexturePool.GetTexture(m.TextureName); mat.SetDiffuseTexture(tex); mo.SetMaterial(mat); MTexture tex2 = Globals.TexturePool.GetTexture("Textures\\terrain\\sand01b.jpg"); mat.SetMultiTexture(tex2); MTexture tex3 = Globals.TexturePool.GetTexture("Textures\\terrain\\water.jpg"); mat.SetNormalMap(tex3); double dia = 2.0 * Math.PI * m.Radius.X * 0.0000001; //double dia = 1; mat.Tex2CoordScale = new Vector2((float)dia, (float)dia); mo.SetMaterial(mat); MScene.MaterialRoot.Add(mat); if (m.HasAtmosphere) { if (Settings.DrawTerrains == true) { m.AddDynamicTerrain(); //adds tile based terrain (from e.g. tile service) } //MPhysicsObject po = new MPhysicsObject(mo, "Physics", 0, MPhysicsObject.EShape.ConcaveMesh, //false, m.Radius); MPhysicsObject po = new MPhysicsObject(mo, "Physics", 0, MPhysicsObject.EShape.Sphere, false, m.Radius); //po.SetLinearFactor(0, 0, 0); //po.SetRestitution(0.5); //MSphere moc = Helper.CreateSphere(MScene.AstroRoot, 3, m.Name+ "Clouds", Vector3d.Zero); MModel moc = Helper.CreateModel(MScene.AstroRoot, m.Name + "_clouds", @"Models\planets\clouds.3ds", Vector3d.Zero); moc.CastsShadow = false; moc.transform.Position = m.Position; moc.transform.Scale = m.Radius; moc.DistanceThreshold = m.Radius.X * 3; //moc.transform.Scale = m.Radius*2.1; moc.InstanceID = m.Name; moc.TemplateID = m.Name; moc.OwnerID = "MasterAstronomer"; moc.Tag = m; MMaterial cmat = new MMaterial("CloudMat"); cmat.AddShader((MShader)MScene.MaterialRoot.FindModuleByName(MShader.DEFAULT_SHADER)); cmat.Opacity = 1; cmat.IsSky = 1; // = new MTexture("CloudTex"); MTexture ctex = Globals.TexturePool.GetTexture(CloudTexURL); ctex.Additive = false; cmat.SetDiffuseTexture(ctex); moc.SetMaterial(cmat); MScene.MaterialRoot.Add(cmat); MModel sky = Helper.CreateModel(MScene.AstroRoot, m.Name + "_sky", @"Models\sky.3ds", Vector3d.Zero); sky.CastsShadow = false; sky.transform.Position = m.Position; sky.transform.Scale = m.Radius; //moc.transform.Scale = m.Radius*2.1; sky.InstanceID = m.Name; sky.TemplateID = m.Name; sky.OwnerID = "MasterAstronomer"; sky.Tag = m; sky.SetMaterial(cmat); sky.DistanceThreshold = m.Radius.X * 4; MObjectAnimation ani = new MObjectAnimation(); ani.AngleOffset = Quaterniond.FromEulerAngles(0, 0.002, 0); ani.Speed = 1; sky.Add(ani); sky.SetMaterial(MSkyMaterial); /*MMaterial csky = new MMaterial("Skymat"); * csky.AddShader((MShader)MScene.MaterialRoot.FindModuleByName(MShader.DEFAULT_SHADER)); * csky.Opacity = 0.5; * csky.IsSky = 1; * // = new MTexture("CloudTex"); * MTexture cSkyTex = Globals.TexturePool.GetTexture(OpaqueCloudTexURL); * cSkyTex.Additive = false; * csky.SetDiffuseTexture(cSkyTex); * sky.SetMaterial(csky); * MScene.MaterialRoot.Add(csky); */ /* MSphere water = Helper.CreateSphere(MScene.ModelRoot, 5, "Water"); * water.transform.Position = m.Position; * water.transform.Scale = m.Radius * 2.00; * MMaterial waterman = new MMaterial("Watermat"); * MShader shader = new MShader("watershader"); * shader.Load("ocean_vs.glsl", "ocean_fs.glsl"); * shader.Bind(); * shader.SetInt("diffuseTexture", 0); * shader.SetInt("shadowMap", 1); * waterman.AddShader(shader); * water.SetMaterial(waterman); */ //water.SetMaterial((MMaterial)MScene.MaterialRoot.FindModuleByName(MMaterial.DEFAULT_MATERIAL)); } else { MPhysicsObject po = new MPhysicsObject(mo, "Physics", 0, MPhysicsObject.EShape.Sphere, false, m.Radius * 0.999); po.SetLinearFactor(0, 0, 0); po.SetRestitution(0.5); } m.Setup(); //Console.WriteLine("Created:" + mo.Name + ":" + (mo.transform.Position) + " R:" + m.Radius); } }
public ZoneEvent(MServerZone inZone) { Zone = inZone; }
public static void AddZone(object sender, MServerZone zone) { ZoneAddHandler?.Invoke(sender, new ZoneEvent(zone)); }