/// <summary> /// This method breaks the generated fills collections to blocks of a configured size /// and feeds them (WriteMultiple) to the space by blocks. /// </summary> public void Feed() { try { //Stopwatch is used to measure feed time. var stopWatch = new Stopwatch(); var blocks = _fills.Length / _config.BlockSize; var buffer = new Data[_config.BlockSize]; stopWatch.Start(); for (int block = 0; block < blocks; block++) { //Copy the current fiils block int offset = block * _config.BlockSize; Array.Copy(_fills, offset, buffer, 0, buffer.Length); //Write the current block to the space _proxy.WriteMultiple(buffer); Thread.Sleep(_config.FeedingThrottle); if (!_continueFeeding) { break; } } stopWatch.Stop(); } catch { } }
public static Job submitJob(int tasks, String serviceName, String functionName, Dictionary <String, String> paramters) { JobId++; Console.WriteLine(" - Executing Job " + JobId); JobResult jobResult = new JobResult(); Request[] requests = new Request[tasks]; for (int i = 0; i < tasks; i++) { requests[i] = new Request(); requests[i].JobID = JobId; requests[i].TaskID = ((JobId) + "_" + (i)); requests[i].Payload = "PayloadData_" + requests[i].TaskID; requests[i].ServiceName = serviceName; requests[i].FunctionName = functionName; requests[i].Parameters = paramters; } SpaceProxy.WriteMultiple(requests); Job job = new Job(); job.JobID = JobId; job.NumberOfTask = tasks; SpaceProxy.Write(job); return(job); }
public static void Main(string[] args) { url = args[0]; Int32 batchSize = 10000; numOfTrades = Convert.ToInt32(args[1]); Console.WriteLine("Connecting to Space:" + url); SpaceProxy = GigaSpacesFactory.FindSpace(url); Console.WriteLine("Inserting " + numOfTrades + " Trades in the space"); Int32 k = 0; Trade[] trades; if (numOfTrades <= batchSize) { trades = new Trade[numOfTrades]; for (int i = 0; i < numOfTrades; i++) { trades[i] = CalculateUtil.generateTrade(i + 1); } SpaceProxy.WriteMultiple(trades); } else { for (int i = 0; i < numOfTrades / batchSize; i++) { trades = new Trade[batchSize]; for (int j = 0; j < batchSize; j++) { trades[j] = CalculateUtil.generateTrade(k + 1); k++; } SpaceProxy.WriteMultiple(trades); } } Console.WriteLine("Press any key to continue..."); Console.ReadKey(); }
public void writeUsers() { User[] users = new User[2]; users[0] = new User(); users[0].Id = 1; users[0].Name = "John Dow"; users[0].Status = EAccountStatus.ACTIVE; users[1] = new User(); users[1].Id = 2; users[1].Name = "John Dow"; users[1].Status = EAccountStatus.ACTIVE; proxy.WriteMultiple(users); }
public static Job submitJob(int tasks, String serviceName, String functionName, Dictionary <String, String> paramters) { JobId++; Console.WriteLine(" - Executing Job " + JobId); JobResult jobResult = new JobResult(); Request[] requests = new Request[tasks]; for (int i = 0; i < tasks; i++) { requests[i] = new Request(); requests[i].JobID = JobId + ""; requests[i].TaskID = ((JobId) + "_" + (i)); requests[i].Payload = "PayloadData_" + requests[i].TaskID; requests[i].ServiceName = serviceName; requests[i].FunctionName = functionName; requests[i].Parameters = paramters; requests[i].Priority = i % 4 + 1; requests[i].Rate = Rate; requests[i].TradeIds = IdsMap[MapIndex]; MapIndex++; } try { SpaceProxy.WriteMultiple(requests); } catch (Exception e) { Console.WriteLine(e.StackTrace); throw e; } Job job = new Job(); job.JobID = JobId + ""; job.NumberOfTask = tasks; SpaceProxy.Write(job); return(job); }