Wednesday, 28 October 2015

Creating an Azure WebJob and persisting data to an Azure Storage table

This article will describe how you can create an Azure WebJob and persist some data to an Azure Storage table. First of, head over to the portal for Azure using Internet Explorer and log in using your subscription: Azure Portal Select Web Apps in the left menu and click Add. Enter a name for your Web App and select your Subscription, Resource Group and App Service plan/Location and hit Create. Afterwards, select the Web Apps in the left menu again and select the Web App you just created. Use the Settings and choose WebJobs. We are going to create a webjob here using Visual Studio, note that the WebJobs link will list your webjobs.
Next, create in VS 2013 or newer a new ASP.NET Web Application using File and New Project in the Main Menu of VS. Choose an Empty web application. Do the following next:
  • Right click the web project
  • Choose Add
  • Add ASP.NET folder
  • App_Data
    • Select Solution Explorer and choose the Solution and right-click and add a new project which is Console Application. Also create subfolder jobs, triggered and web-job-helloworldv5. We will drop the compiled contents of the Console Application project we will add next. Let's add two app settings in the Console Application app.config file:


      
      <?xml version="1.0" encoding="utf-8" ?>
      <configuration>
        <appSettings>
          <add key="StorageAccount" value="INSERT_STORAGE_ACCOUNT" />
          <add key="StorageKey" value="INSERT_STORAGE_KEY" />
        </appSettings>
          <startup> 
              <supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.5" />
          </startup>
      </configuration>
      
      
      Obviously, we need to put into the two appsettings the storage account and storage primary key. In the left menu of Azure Portal select New and choose Data+Storage and choose Storage Account. This is needed to get started with Blobs, Tables and Queues and Choose Create Back in the left menu again, choose Browse and then Storage accounts (classic). Now we need the necessary connection details to this Storage Accounts. Select in the right menu Settings the link Keys. Copy the values for Storage account name and Primary Access Key. Add these two values into the two app settings earlier noted. Now we just need to make a simple WebJob and persist some data into Azure Storage Table. Let's calculate the first 100 prime numbers and then add these numbers to a Azure Storage Table. Into the Main method of Program.cs of the Console application we add the following code:
      
       static void Main(string[] args)
              {
                  Console.WriteLine("Starting prime number calculation..");
                  var primes = new List<int>(); 
                  foreach (var n in Enumerable.Range(0, 100))
                  {
                      int numberToCheck = (n*2) + 1;
                      bool isPrimes = IsPrime(numberToCheck);
                      if (isPrimes)
                      {
                          primes.Add(numberToCheck);
                      }
                  }
      
                  StoreToAzureTableStorage(primes, "primenumbersfound");
              }
      
              public static bool IsPrime(long num)
              {
                  for (long j = 2; j <= Math.Sqrt(num); j++) // you actually only need to check up to sqrt(i)
                  {
                      if (num%j == 0)
                      {
                          return false;
                      }
                  } //for
      
                  return true;
              }
      
      
      We need some plumbing code to get our CloudTableClient to work against our Azure Table:
      
      /// 
              /// Returns an instance of a Azure Cloud Table client 
              /// 
              /// 
              public static CloudTableClient GetCloudTableClient()
              {
                  string accountName = ConfigurationManager.AppSettings["StorageAccount"];
                  string accountKey = ConfigurationManager.AppSettings["StorageKey"];
      
                  if (string.IsNullOrEmpty(accountName) || string.IsNullOrEmpty(accountKey))
                      return null; 
      
                  try
                  {
                      var credentials = new StorageCredentials(accountName, accountKey); 
                      var cloudStorageAccount = new CloudStorageAccount(credentials, useHttps: true);
                      CloudTableClient client = cloudStorageAccount.CreateCloudTableClient();
                      return client;
                  }
                  catch (Exception ex)
                  {
                      return null;
                  }
              }
      
      
      Next we commit the data to our Azure Storage Table:
      
         public static void StoreToAzureTableStorage(List primes, string tableName)
              {
                  
                  try
                  {
      
                      CloudTableClient client = GetCloudTableClient();
                      CloudTable table = client.GetTableReference(tableName);
                      table.CreateIfNotExists();
      
                      foreach (int prime in primes)
                      {
                          var primeEntity = new PrimeNumberEntity(prime);
                          var insertOperation = TableOperation.Insert(primeEntity);
                          table.Execute(insertOperation);
                      }
      
      
                      var query = new TableQuery();
                      var primesFound = table.ExecuteQuery(query).OrderBy(p => int.Parse(p.RowKey)).ToList();
      
                      foreach (PrimeNumberEntity pf in primesFound)
                      {
                          Console.WriteLine(pf);
                      }
      
                  }
      
                  catch (Exception ex)
                  {
      
                      Console.WriteLine(ex);
      
                  }
      
      
                  Console.WriteLine("Done... press a key to end.");
      
              }
      
      
      We can now invoke our WebJob from the Azure portal:




      We can choose Web Apps and then our WebApp and next in the right menu WebJobs. Note that we can pin our WebApp to our Dashboard for quicker navigation using the pin symbol in Azure Portal. Now choose the WebJobs and right click and choose Run.



      We can inspect the data we inserted using Azure Storage Explorer. Download a Visual Studio 2013 solution with code above below, you will need create a Web App and a Storage account in Azure Portal and insert the necessary app settings as noted to run the example: Download VS 2013 Solution file (.zip) [69 MB]

Friday, 9 October 2015

Switchbased delay with Dispatcher in WPF

Extended my DispatcherUtil class today, with SwitchBasedDelay! Example of calling the new method, note we use a fixed Guid in this case to "group" calls into a logical switch:

 DispatcherUtil.SwitchbasedDelayedInvokeAction(Guid.Parse(@"{4E101F98-31F3-4E19-B18B-2820AEA60A1B}"), () =>
     {
      PublishEvent<ProcedureFreeTypeTextChangedEvent, ProcedureFreeTypeTextChangedEventArg>(
       new ProcedureFreeTypeTextChangedEventArg
        {
          FreshId = Context.CurrentOperationalUnit.FreshId,
          ProcedureCode = Model.ProcedureTypeFreeText,
          OperationId = Model.OperationId
        });
      }, 2000);


using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading;
using System.Windows.Threading;

namespace SomeAcme.SomePackage
{

    /// <summary>
    /// Contains helper methods for dispatcher operations 
    /// </summary>
    public static class DispatcherUtil
    {

        private static readonly List<DelayedAction> ActionsRegistered = new List<DelayedAction>();

        private static readonly Dictionary<Guid?, bool> SwitchDelays = new Dictionary<Guid?, bool>();

        /// <summary>
        /// Executes an action passed into this method by a timeout measured in millisecond in a switch-based manner. 
        /// </summary>
        /// <param name="keyToken">A key token (Guid) to identity the switch (basic grouping)</param>
        /// <param name="executeAction">Action to execute</param>
        /// <param name="timeOut">The timeout to wait before executing (in milliseconds)</param>
        /// <param name="priority">Priority of the dispatcher operation</param>
        /// <returns></returns>
        public static bool SwitchbasedDelayedInvokeAction(Guid keyToken, Action executeAction, int timeOut,
            DispatcherPriority priority = DispatcherPriority.Background)
        {
            if (SwitchDelays.ContainsKey(keyToken) && SwitchDelays[keyToken])
                return false; //do not execute, already in progress 

            SwitchDelays[keyToken] = true;

            DelayedInvokeAction(executeAction, timeOut, priority, keyToken);
            return true; //delayed action sent off
        }

        /// <summary>
        /// Executes an action passed into this method by a timeout measured in milliseconds
        /// </summary>
        /// <param name="executeAction">Action to execute</param>
        /// <param name="timeOut">The timeout to wait before executing (in milliseconds)</param>
        /// <param name="priority"></param>
        ///    /// <param name="keyToken">A key token to identity the switch (basic grouing). Will be used as a tag on the DispatcherTimer</param>
        public static bool DelayedInvokeAction(Action executeAction, int timeOut, DispatcherPriority priority = DispatcherPriority.Background, Guid? keyToken = null)
        {
            var delayedAction = new DelayedAction(executeAction, timeOut, keyToken);
            ActionsRegistered.Add(delayedAction);
            DispatcherTimer dtimer = new DispatcherTimer(priority);

            dtimer.Interval += new TimeSpan(0, 0, 0, 0, timeOut);
            dtimer.Tag = delayedAction.ExecuteGuid;
            dtimer.Tick += DelayedInvokeTimerTick;
            dtimer.IsEnabled = true;
            dtimer.Start();

            return true;
        }

        private static void DelayedInvokeTimerTick(object sender, EventArgs e)
        {
            var dtimer = sender as DispatcherTimer;
            if (dtimer != null)
            {
                dtimer.IsEnabled = false;
                dtimer.Stop();
                dtimer.Tick -= DelayedInvokeTimerTick; //unsubscribe
                Guid targetActionGuid = (Guid)dtimer.Tag;

                DelayedAction delayedAction = ActionsRegistered.Single(a => a.ExecuteGuid == targetActionGuid);
                delayedAction.ActionToExecute(); //now execute the action 
                ActionsRegistered.Remove(delayedAction);

                if (dtimer.Tag != null)
                {
                    Guid? keyToken = dtimer.Tag as Guid?; 
                    if (SwitchDelays.ContainsKey(keyToken))
                    {
                        SwitchDelays.Remove(keyToken); //remove the switch 
                    } //if 
                } //if 

                // ReSharper disable once RedundantAssignment
                dtimer = null; //ensure free up dispatcher timer - do not starve threading resources 
            } //if 
        }

        /// <summary>
        /// Invokes an action on the current dispatcher, used to execute operations on the GUI thread
        /// </summary>
        /// <param name="executeAction">The action to execute, pass in e.g. delegate { --code lines goes here } </param>
        /// <param name="dispatcherPriority">The priority to give the action on the thread (signal to the WPF messaging queue). Default is background.</param>
        /// <returns>Returns true when the action was dispatched</returns>
        /// <remarks>Default priority is DispatcherPriority.Background</remarks>
        public static bool InvokeAction(Action executeAction, DispatcherPriority dispatcherPriority = DispatcherPriority.Background)
        {
            Dispatcher.CurrentDispatcher.Invoke(new Action(() =>
            {
                executeAction();
            }), dispatcherPriority);
            return true;
        }

        /// <summary>
        /// Asynchronously invokes an action on the current dispatcher, used to execute operations on the GUI thread
        /// </summary>
        /// <param name="executeAction">The action to execute, pass in e.g. delegate { --code lines goes here } </param>
        /// <param name="dispatcherPriority">The priority to give the action on the thread (signal to the WPF messaging queue). Default is background.</param>
        /// <returns>Returns true when the action was dispatched</returns>
        /// <remarks>Default priority is DispatcherPriority.Background</remarks>
        public static bool BeginInvokeAction(Action executeAction, DispatcherPriority dispatcherPriority = DispatcherPriority.Background)
        {
            Dispatcher.CurrentDispatcher.BeginInvoke(new Action(() =>
            {
                executeAction();
            }), dispatcherPriority);
            return true;
        }

        public static void AsyncWorkAndUiThreadUpdate<T>(Dispatcher currentDispatcher, Func<T> threadWork, Action<T> guiUpdate)
        {
            // ReSharper disable once UnusedAnonymousMethodSignature
            ThreadPool.QueueUserWorkItem(delegate(object state)
            {
                T resultAfterThreadWork = threadWork();
                // ReSharper disable once UnusedAnonymousMethodSignature
                // ReSharper disable once UnusedAnonymousMethodSignature
                currentDispatcher.BeginInvoke(DispatcherPriority.Normal, new Action<T>(delegate {
                    guiUpdate(resultAfterThreadWork);
                }), resultAfterThreadWork);

            });
        }

    }
}



Wednesday, 7 October 2015

DispatcherUtil - Elegant WPF Dispatcher programmatic handling

Don't you hate it when you need to tweak the Dispatcher to do what you expect and respect the main GUI thread can only work with GUI controls rule? Wouldn't you like to have some code that just does the things you want to do with the Dispatcher without getting the dreaded InvalidOperationException? Well here is the DispatcherUtil I use to achieve this!

using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading;
using System.Windows.Threading;

namespace SomeAcme.SomePackage
{

    /// <summary>
    /// Contains helper methods for dispatcher operations 
    /// </summary>
    public static class DispatcherUtil
    {

        private static readonly List<DelayedAction> actionsRegistered = new List<DelayedAction>();


        /// <summary>
        /// Executes an action passed into this method by a timeout measured in milliseconds
        /// </summary>
        /// <param name="executeAction">Action to execute</param>
        /// <param name="timeOut">The timeout to wait before executing (in milliseconds)</param>
        /// <param name="priority"></param>
        public static bool DelayedInvokeAction(Action executeAction, int timeOut, DispatcherPriority priority = DispatcherPriority.Background)
        {
            var delayedAction = new DelayedAction(executeAction, timeOut);
            actionsRegistered.Add(delayedAction);
            DispatcherTimer dtimer = new DispatcherTimer(priority); 
            dtimer.Interval += new TimeSpan(0, 0, 0, 0, timeOut);
            dtimer.Tag = delayedAction.ExecuteGuid;
            dtimer.Tick += DelayedInvokeTimerTick;
            dtimer.IsEnabled = true;
            dtimer.Start();

            return true;
        }

        private static void DelayedInvokeTimerTick(object sender, EventArgs e)
        {
            var dtimer = sender as DispatcherTimer;
            if (dtimer != null)
            {
                dtimer.IsEnabled = false;
                dtimer.Stop();
                dtimer.Tick -= DelayedInvokeTimerTick; //unsubscribe
                Guid targetActionGuid = (Guid)dtimer.Tag;

                DelayedAction delayedAction = actionsRegistered.Single(a => a.ExecuteGuid == targetActionGuid);
                delayedAction.ActionToExecute(); //now execute the action 
                actionsRegistered.Remove(delayedAction); 

                if (dtimer != null)
                    dtimer = null; //ensure free up dispatcher timer - do not starve threading resources 
            } //if 
        }

        /// <summary>
        /// Invokes an action on the current dispatcher, used to execute operations on the GUI thread
        /// </summary>
        /// <param name="executeAction">The action to execute, pass in e.g. delegate { --code lines goes here } </param>
        /// <param name="dispatcherPriority">The priority to give the action on the thread (signal to the WPF messaging queue). Default is background.</param>
        /// <returns>Returns true when the action was dispatched</returns>
        /// <remarks>Default priority is DispatcherPriority.Background</remarks>
        public static bool InvokeAction(Action executeAction, DispatcherPriority dispatcherPriority = DispatcherPriority.Background)
        {
            Dispatcher.CurrentDispatcher.Invoke(new Action(() =>
            {
                executeAction();
            }), dispatcherPriority);
            return true;
        }

        /// <summary>
        /// Asynchronously invokes an action on the current dispatcher, used to execute operations on the GUI thread
        /// </summary>
        /// <param name="executeAction">The action to execute, pass in e.g. delegate { --code lines goes here } </param>
        /// <param name="dispatcherPriority">The priority to give the action on the thread (signal to the WPF messaging queue). Default is background.</param>
        /// <returns>Returns true when the action was dispatched</returns>
        /// <remarks>Default priority is DispatcherPriority.Background</remarks>
        public static bool BeginInvokeAction(Action executeAction, DispatcherPriority dispatcherPriority = DispatcherPriority.Background)
        {
            Dispatcher.CurrentDispatcher.BeginInvoke(new Action(() =>
            {
                executeAction();
            }), dispatcherPriority);
            return true;
        }

        public static void AsyncWorkAndUIThreadUpdate<T>(Dispatcher currentDispatcher, Func<T> threadWork, Action<T> guiUpdate)
        {
            ThreadPool.QueueUserWorkItem(delegate(object state)
            {
                T resultAfterThreadWork = threadWork();
                currentDispatcher.BeginInvoke(DispatcherPriority.Normal, new Action<T>(delegate(T result)
                {
                    guiUpdate(resultAfterThreadWork);
                }), resultAfterThreadWork);

            });
        }

    }
}


Enjoy the code! It has helped me many times when I want to do work in other threads or using Tasks with TPL!