protected internal virtual void Initialize(ComputationalNode<double> node, object ruleContext) { var ai = node as IAdjustableItem; if (ai != null) Initialize(ai); }
static void Main(string[] args) { EventLogger.AddAppender(new Log4NetAppender()); var ipAddress = "127.0.0.1"; var port = 8123; IPEndPoint endPoint = new IPEndPoint(IPAddress.Parse(ipAddress), port); Console.WriteLine("Choose component: \n" + "1 ComputationalClient\n" + "2 TaskManager\n" + "3 ComputationalNode\n"); Console.WriteLine("Select: "); int componentType; int.TryParse(Console.ReadLine(), out componentType); Component component = new ComputationalClient(); switch (componentType) { case 1: component = new ComputationalClient(); break; case 2: component = new TaskManager(); break; case 3: component = new ComputationalNode(); break; } component.SolvableProblems = new List <string>() { "MultiplyProblem", "DVRP" }; component.Register(endPoint); var filePath = @"DvrpData\okulD.vrp"; var problem = new DvrpProblem(new DvrpProblemData(filePath)); //var problem = new MultiplyProblem(10, 3, 1000000); while (true) { Common.Abstractions.Message msg = null; int result; Console.WriteLine("RegisterMessage was sent\n" + "Choose another message: \n" + "1 RegisterMessage\n" + "2 RegisterResponseMessage\n" + "3 StatusMessage\n" + "4 SolveRequestMessage\n" + "5 SolveRequestResponseMessage\n" + "6 DivideProblemMessage\n" + "7 SolutionRequestMessage\n" + "8 PartialProblemsMessage\n" + "9 Solutions message\n" + "10 Exit" ); Console.WriteLine("Choose message to send: "); if (int.TryParse(Console.ReadLine(), out result) == false || result < 1 || result > 10) { Console.WriteLine("\nWrong input\n\n"); continue; } switch (result) { case 1: msg = new RegisterMessage(component.Type, 0, component.SolvableProblems); break; case 2: msg = new RegisterResponseMessage(123L, DateTime.Now); break; case 3: msg = new StatusMessage(123L, null); break; case 4: msg = new SolveRequestMessage(problem.ProblemType, problem.SolvingTimeout, problem.Data); break; case 5: msg = new SolveRequestResponseMessage(123L); break; case 6: msg = new DivideProblemMessage("Problem type", 123L, Encoding.UTF8.GetBytes("test1"), 321L); break; case 7: msg = new SolutionRequestMessage(123L); break; case 8: msg = new SolvePartialProblemsMessage("problem type", 123L, Encoding.UTF8.GetBytes("test1"), 333L, null); break; case 9: msg = new SolutionsMessage("problemy type", 123L, Encoding.UTF8.GetBytes("test1"), null); break; case 10: Environment.Exit(0); break; } component.SendMessage(msg.Serialize()); } //component.SendMessage(Encoding.UTF8.GetBytes("dupa")); }
protected internal virtual object CreateRuleContext(ComputationalNode<double> forNode) { return null; }
internal BackPropgationNodeContext(object ruleContext, ComputationalNode<double> node) : base(ruleContext) { Contract.Requires(node != null); Node = node; }
protected internal override void Initialize(ComputationalNode<double> node, object ruleContext) { base.Initialize(node, ruleContext); Initialize(ruleContext); }
protected internal override object CreateRuleContext(ComputationalNode<double> forNode) { if (forNode is ActivationNeuron) return new DeltaContext(); return base.CreateRuleContext(forNode); }
protected static void setConfigFileAtRuntime(string[] args) { string componentToStart; Console.WriteLine("Please specify a component that you want to start:"); Console.WriteLine("1. Server"); Console.WriteLine("2. Task manager"); Console.WriteLine("3. Client"); Console.WriteLine("4. Computational node"); Console.Write("> "); componentToStart = Console.ReadLine(); componentToStart = componentToStart.Replace(" ", string.Empty); componentToStart = componentToStart.Replace(".", string.Empty); UInt16 port = 666; string hostName = Dns.GetHostName(); IPAddress ip = Shared.Connection.ConnectionHelpers.getIPAddressOfTheLocalMachine(); int result = 0; if (Int32.TryParse(componentToStart, out result)) { switch (result) { case 1: componentToStart = "SERVER"; break; case 2: componentToStart = "TASKMANAGER"; break; case 3: componentToStart = "CLIENT"; break; case 4: componentToStart = "COMPUTATIONALNODE"; break; } } switch (componentToStart.ToUpper()) { case "TASKMANAGER": TaskManager newTaskManagerInstance = new TaskManager(); newTaskManagerInstance.startInstance(port, ip); break; case "SERVER": Server newServerInstance = new Server(); newServerInstance.startInstance(port, ip); break; case "CLIENT": ComputationalCluster.Nodes.Client newClientInstance = new ComputationalCluster.Nodes.Client(); newClientInstance.startInstance(port, ip); break; case "COMPUTATIONALNODE": ComputationalNode newComputationalNodeInstance = new ComputationalNode(); newComputationalNodeInstance.startInstance(port, ip); break; } }