public static void Main(string[] args) { // Instantiate the REST client Console.WriteLine("Creating a Qi REST API Client..."); string server = ConfigurationManager.AppSettings["QiServerUrl"]; QiClient qiclient = new QiClient(server); QiType evtType = null; try { // create types for int and double, then create properties for all the WaveData properties Console.WriteLine("Creating a Qi type for WaveData instances"); QiType intType = new QiType(); intType.Id = "intType"; intType.QiTypeCode = QiTypeCode.Int32; QiType doubleType = new QiType(); doubleType.Id = "doubleType"; doubleType.QiTypeCode = QiTypeCode.Double; QiTypeProperty orderProperty = new QiTypeProperty(); orderProperty.Id = "Order"; orderProperty.QiType = intType; orderProperty.IsKey = true; QiTypeProperty tauProperty = new QiTypeProperty(); tauProperty.Id = "Tau"; tauProperty.QiType = doubleType; QiTypeProperty radiansProperty = new QiTypeProperty(); radiansProperty.Id = "Radians"; radiansProperty.QiType = doubleType; QiTypeProperty sinProperty = new QiTypeProperty(); sinProperty.Id = "Sin"; sinProperty.QiType = doubleType; QiTypeProperty cosProperty = new QiTypeProperty(); cosProperty.Id = "Cos"; cosProperty.QiType = doubleType; QiTypeProperty tanProperty = new QiTypeProperty(); tanProperty.Id = "Tan"; tanProperty.QiType = doubleType; QiTypeProperty sinhProperty = new QiTypeProperty(); sinhProperty.Id = "Sinh"; sinhProperty.QiType = doubleType; QiTypeProperty coshProperty = new QiTypeProperty(); coshProperty.Id = "cosh"; coshProperty.QiType = doubleType; QiTypeProperty tanhProperty = new QiTypeProperty(); tanhProperty.Id = "Tanh"; tanhProperty.QiType = doubleType; // Create a QiType for our WaveData class; the metadata proeprties are the ones we just created QiType type = new QiType(); type.Name = "WaveData"; type.Id = "WaveDataType"; type.Description = "This is a sample stream for storing WaveData type events"; QiTypeProperty[] props = { orderProperty, tauProperty, radiansProperty, sinProperty, cosProperty, tanProperty, sinhProperty, coshProperty, tanhProperty }; type.Properties = props; // create the type in the Qi Service string evtTypeString = qiclient.CreateTypeAsync(type).Result; evtType = JsonConvert.DeserializeObject<QiType>(evtTypeString); // create a stream named evtStream Console.WriteLine("Creating a stream in this tenant for simple event measurements"); QiStream stream = new QiStream("evtStream", evtType.Id); string evtStreamString = qiclient.CreateStreamAsync(stream).Result; QiStream evtStream = JsonConvert.DeserializeObject<QiStream>(evtStreamString); #region CRUD operations #region Create (Insert) Console.WriteLine("Artificially generating 100 events and inserting them into the Qi Service"); // How to insert a single event TimeSpan span = new TimeSpan(0, 1, 0); WaveData evt = WaveData.Next(span, 2.0, 0); qiclient.CreateEventAsync("evtStream", JsonConvert.SerializeObject(evt)).Wait(); // how to insert an a collection of events List<WaveData> events = new List<WaveData>(); for (int i = 2; i < 200; i += 2) { evt = WaveData.Next(span, 2.0, i); events.Add(evt); Thread.Sleep(400); } qiclient.CreateEventsAsync("evtStream", JsonConvert.SerializeObject(events)).Wait(); Thread.Sleep(2000); #endregion #region Retrieve events Console.WriteLine("Retrieving the inserted events"); Console.WriteLine("=============================="); string jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; WaveData[] foundEvents = JsonConvert.DeserializeObject<WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region Update events Console.WriteLine(); Console.WriteLine("Updating values"); // take the first value inserted and update evt = foundEvents.First<WaveData>(); evt = WaveData.Next(span, 4.0, 0); qiclient.UpdateValueAsync("evtStream", JsonConvert.SerializeObject(evt)).Wait(); // update the remaining events (same span, multiplier, order) List<WaveData> newEvents = new List<WaveData>(); foreach (WaveData evnt in events) { WaveData newEvt = WaveData.Next(span, 4.0, evnt.Order); newEvents.Add(newEvt); Thread.Sleep(500); } qiclient.UpdateValuesAsync("evtStream", JsonConvert.SerializeObject(events)).Wait(); Thread.Sleep(2000); // check the results Console.WriteLine("Retrieving the updated values"); Console.WriteLine("============================="); jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; foundEvents = JsonConvert.DeserializeObject<WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region stream behavior // illustrate how stream behaviors modify retrieval // First, pull three items back with GetRangeValuesAsync for range values between events. // The default behavior is continuous, so ExactOrCalculated should bring back interpolated values Console.WriteLine(); Console.WriteLine(@"Retrieving three events without a stream behavior"); jCollection = qiclient.GetRangeValuesAsync("evtStream", "1", 0, 3, false, QiBoundaryType.ExactOrCalculated).Result; foundEvents = JsonConvert.DeserializeObject<WaveData[]>(jCollection); DumpEvents(foundEvents); // now, create a stream behavior with Discrete and attach it to the existing stream QiStreamBehavior behavior = new QiStreamBehavior(); behavior.Id = "evtStreamStepLeading"; behavior.Mode = QiStreamMode.StepwiseContinuousLeading; string behaviorString = qiclient.CreateBehaviorAsync(behavior).Result; behavior = JsonConvert.DeserializeObject<QiStreamBehavior>(behaviorString); // update the stream to include this behavior evtStream.BehaviorId = behavior.Id; qiclient.UpdateStreamAsync(evtStream).Wait(); // repeat the retrieval Console.WriteLine(); Console.WriteLine("Retrieving three events with a stepwise stream behavior in effect -- compare to last retrieval"); jCollection = qiclient.GetRangeValuesAsync("evtStream", "1", 0, 3, false, QiBoundaryType.ExactOrCalculated).Result; foundEvents = JsonConvert.DeserializeObject<WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region delete events // remove the first value -- index is the timestamp of the event Console.WriteLine(); Console.WriteLine("Deleting events"); qiclient.RemoveValueAsync("evtStream", "0").Wait(); // remove the rest -- start and end time indices qiclient.RemoveWindowValuesAsync("evtStream", "1", "198").Wait(); Thread.Sleep(2000); Console.WriteLine("Checking for events"); Console.WriteLine("==================="); jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; foundEvents = JsonConvert.DeserializeObject<WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #endregion } catch (QiError qerr) { Console.WriteLine("Error, status code = " + qerr.Code.ToString() + "; " + qerr.Message); Console.WriteLine("Press ENTER to terminate"); Console.ReadLine(); } finally { try { qiclient.DeleteStreamAsync("evtStream").Wait(); qiclient.DeleteBehaviorAsync("evtStreamStepLeading").Wait(); qiclient.DeleteTypeAsync(evtType.Id).Wait(); } catch (Exception) { } } }
public static void Main(string[] args) { // Instantiate the REST client Console.WriteLine("Creating a Qi REST API Client..."); string server = ConfigurationManager.AppSettings["QiServerUrl"]; QiClient qiclient = new QiClient(server); QiType evtType = null; try { // create types for int and double, then create properties for all the WaveData properties Console.WriteLine("Creating a Qi type for WaveData instances"); QiType intType = new QiType(); intType.Id = "intType"; intType.QiTypeCode = QiTypeCode.Int32; QiType doubleType = new QiType(); doubleType.Id = "doubleType"; doubleType.QiTypeCode = QiTypeCode.Double; QiTypeProperty orderProperty = new QiTypeProperty(); orderProperty.Id = "Order"; orderProperty.QiType = intType; orderProperty.IsKey = true; QiTypeProperty tauProperty = new QiTypeProperty(); tauProperty.Id = "Tau"; tauProperty.QiType = doubleType; QiTypeProperty radiansProperty = new QiTypeProperty(); radiansProperty.Id = "Radians"; radiansProperty.QiType = doubleType; QiTypeProperty sinProperty = new QiTypeProperty(); sinProperty.Id = "Sin"; sinProperty.QiType = doubleType; QiTypeProperty cosProperty = new QiTypeProperty(); cosProperty.Id = "Cos"; cosProperty.QiType = doubleType; QiTypeProperty tanProperty = new QiTypeProperty(); tanProperty.Id = "Tan"; tanProperty.QiType = doubleType; QiTypeProperty sinhProperty = new QiTypeProperty(); sinhProperty.Id = "Sinh"; sinhProperty.QiType = doubleType; QiTypeProperty coshProperty = new QiTypeProperty(); coshProperty.Id = "cosh"; coshProperty.QiType = doubleType; QiTypeProperty tanhProperty = new QiTypeProperty(); tanhProperty.Id = "Tanh"; tanhProperty.QiType = doubleType; // Create a QiType for our WaveData class; the metadata proeprties are the ones we just created QiType type = new QiType(); type.Name = "WaveData"; type.Id = "WaveDataType"; type.Description = "This is a sample stream for storing WaveData type events"; QiTypeProperty[] props = { orderProperty, tauProperty, radiansProperty, sinProperty, cosProperty, tanProperty, sinhProperty, coshProperty, tanhProperty }; type.Properties = props; // create the type in the Qi Service string evtTypeString = qiclient.CreateTypeAsync(type).Result; evtType = JsonConvert.DeserializeObject <QiType>(evtTypeString); // create a stream named evtStream Console.WriteLine("Creating a stream in this tenant for simple event measurements"); QiStream stream = new QiStream("evtStream", evtType.Id); string evtStreamString = qiclient.CreateStreamAsync(stream).Result; QiStream evtStream = JsonConvert.DeserializeObject <QiStream>(evtStreamString); #region CRUD operations #region Create (Insert) Console.WriteLine("Artificially generating 100 events and inserting them into the Qi Service"); // How to insert a single event TimeSpan span = new TimeSpan(0, 1, 0); WaveData evt = WaveData.Next(span, 2.0, 0); qiclient.CreateEventAsync("evtStream", JsonConvert.SerializeObject(evt)).Wait(); // how to insert an a collection of events List <WaveData> events = new List <WaveData>(); for (int i = 2; i < 200; i += 2) { evt = WaveData.Next(span, 2.0, i); events.Add(evt); Thread.Sleep(400); } qiclient.CreateEventsAsync("evtStream", JsonConvert.SerializeObject(events)).Wait(); Thread.Sleep(2000); #endregion #region Retrieve events Console.WriteLine("Retrieving the inserted events"); Console.WriteLine("=============================="); string jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; WaveData[] foundEvents = JsonConvert.DeserializeObject <WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region Update events Console.WriteLine(); Console.WriteLine("Updating values"); // take the first value inserted and update evt = foundEvents.First <WaveData>(); evt = WaveData.Next(span, 4.0, 0); qiclient.UpdateValueAsync("evtStream", JsonConvert.SerializeObject(evt)).Wait(); // update the remaining events (same span, multiplier, order) List <WaveData> newEvents = new List <WaveData>(); foreach (WaveData evnt in events) { WaveData newEvt = WaveData.Next(span, 4.0, evnt.Order); newEvents.Add(newEvt); Thread.Sleep(500); } qiclient.UpdateValuesAsync("evtStream", JsonConvert.SerializeObject(events)).Wait(); Thread.Sleep(2000); // check the results Console.WriteLine("Retrieving the updated values"); Console.WriteLine("============================="); jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; foundEvents = JsonConvert.DeserializeObject <WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region stream behavior // illustrate how stream behaviors modify retrieval // First, pull three items back with GetRangeValuesAsync for range values between events. // The default behavior is continuous, so ExactOrCalculated should bring back interpolated values Console.WriteLine(); Console.WriteLine(@"Retrieving three events without a stream behavior"); jCollection = qiclient.GetRangeValuesAsync("evtStream", "1", 0, 3, false, QiBoundaryType.ExactOrCalculated).Result; foundEvents = JsonConvert.DeserializeObject <WaveData[]>(jCollection); DumpEvents(foundEvents); // now, create a stream behavior with Discrete and attach it to the existing stream QiStreamBehavior behavior = new QiStreamBehavior(); behavior.Id = "evtStreamStepLeading"; behavior.Mode = QiStreamMode.StepwiseContinuousLeading; string behaviorString = qiclient.CreateBehaviorAsync(behavior).Result; behavior = JsonConvert.DeserializeObject <QiStreamBehavior>(behaviorString); // update the stream to include this behavior evtStream.BehaviorId = behavior.Id; qiclient.UpdateStreamAsync(evtStream).Wait(); // repeat the retrieval Console.WriteLine(); Console.WriteLine("Retrieving three events with a stepwise stream behavior in effect -- compare to last retrieval"); jCollection = qiclient.GetRangeValuesAsync("evtStream", "1", 0, 3, false, QiBoundaryType.ExactOrCalculated).Result; foundEvents = JsonConvert.DeserializeObject <WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #region delete events // remove the first value -- index is the timestamp of the event Console.WriteLine(); Console.WriteLine("Deleting events"); qiclient.RemoveValueAsync("evtStream", "0").Wait(); // remove the rest -- start and end time indices qiclient.RemoveWindowValuesAsync("evtStream", "1", "198").Wait(); Thread.Sleep(2000); Console.WriteLine("Checking for events"); Console.WriteLine("==================="); jCollection = qiclient.GetWindowValuesAsync("evtStream", "0", "198").Result; foundEvents = JsonConvert.DeserializeObject <WaveData[]>(jCollection); DumpEvents(foundEvents); #endregion #endregion } catch (QiError qerr) { Console.WriteLine("Error, status code = " + qerr.Code.ToString() + "; " + qerr.Message); Console.WriteLine("Press ENTER to terminate"); Console.ReadLine(); } finally { try { qiclient.DeleteStreamAsync("evtStream").Wait(); qiclient.DeleteBehaviorAsync("evtStreamStepLeading").Wait(); qiclient.DeleteTypeAsync(evtType.Id).Wait(); } catch (Exception) { } } }