Update SmartThreadPool to latest version 2.2.3 with a major and minor change.

SmartThreadPool code comes from http://www.codeproject.com/Articles/7933/Smart-Thread-Pool
This version implements thread abort (via WorkItem.Cancel(true)), threadpool naming, max thread stack, etc. so we no longer need to manually patch those.
However, two changes have been made to stock 2.2.3.
Major change: WorkItem.Cancel(bool abortExecution) in our version does not succeed if the work item was in progress and thread abort was not specified.
This is to match previous behaviour where we handle co-operative termination via another mechanism rather than checking WorkItem.IsCanceled.
Minor change: Did not add STP's StopWatch implementation as this is only used WinCE and Silverlight and causes a build clash with System.Diagnostics.StopWatch
The reason for updating is to see if this improves http://opensimulator.org/mantis/view.php?id=6557 and http://opensimulator.org/mantis/view.php?id=6586

26 files changed, 6666 insertions, 4783 deletions

diff --git a/ThirdParty/SmartThreadPool/AssemblyInfo.cs b/ThirdParty/SmartThreadPool/AssemblyInfo.cs
deleted file mode 100644
index e2465b0..0000000
--- a/ThirdParty/SmartThreadPool/AssemblyInfo.cs
+++ /dev/null
@@ -1,61 +0,0 @@
-using System;
-using System.Reflection;
-using System.Runtime.InteropServices;
-
-//
-// General Information about an assembly is controlled through the following 
-// set of attributes. Change these attribute values to modify the information
-// associated with an assembly.
-//
-[assembly: AssemblyTitle("")]
-[assembly: AssemblyDescription("")]
-[assembly: AssemblyConfiguration("")]
-[assembly: AssemblyCompany("")]
-[assembly: AssemblyProduct("")]
-[assembly: AssemblyCopyright("")]
-[assembly: AssemblyTrademark("")]
-[assembly: AssemblyCulture("")]        
-[assembly: ComVisible(false)]
-[assembly: CLSCompliant(true)]
-
-//
-// Version information for an assembly consists of the following four values:
-//
-//      Major Version
-//      Minor Version 
-//      Build Number
-//      Revision
-//
-// You can specify all the values or you can default the Revision and Build Numbers 
-// by using the '*' as shown below:
-
-[assembly: AssemblyVersion("0.7.6.*")]
-
-//
-// In order to sign your assembly you must specify a key to use. Refer to the 
-// Microsoft .NET Framework documentation for more information on assembly signing.
-//
-// Use the attributes below to control which key is used for signing. 
-//
-// Notes: 
-//   (*) If no key is specified, the assembly is not signed.
-//   (*) KeyName refers to a key that has been installed in the Crypto Service
-//       Provider (CSP) on your machine. KeyFile refers to a file which contains
-//       a key.
-//   (*) If the KeyFile and the KeyName values are both specified, the 
-//       following processing occurs:
-//       (1) If the KeyName can be found in the CSP, that key is used.
-//       (2) If the KeyName does not exist and the KeyFile does exist, the key 
-//           in the KeyFile is installed into the CSP and used.
-//   (*) In order to create a KeyFile, you can use the sn.exe (Strong Name) utility.
-//       When specifying the KeyFile, the location of the KeyFile should be
-//       relative to the project output directory which is
-//       %Project Directory%\obj\<configuration>. For example, if your KeyFile is
-//       located in the project directory, you would specify the AssemblyKeyFile 
-//       attribute as [assembly: AssemblyKeyFile("..\\..\\mykey.snk")]
-//   (*) Delay Signing is an advanced option - see the Microsoft .NET Framework
-//       documentation for more information on this.
-//
-[assembly: AssemblyDelaySign(false)]
-[assembly: AssemblyKeyFile("")]
-[assembly: AssemblyKeyName("")]
diff --git a/ThirdParty/SmartThreadPool/CallerThreadContext.cs b/ThirdParty/SmartThreadPool/CallerThreadContext.cs
index 6ea53f6..2177241 100644
--- a/ThirdParty/SmartThreadPool/CallerThreadContext.cs
+++ b/ThirdParty/SmartThreadPool/CallerThreadContext.cs
@@ -1,223 +1,138 @@
-using System;
-using System.Diagnostics;
-using System.Threading;
-using System.Reflection;
-using System.Web;
-using System.Runtime.Remoting.Messaging;
-
-
-namespace Amib.Threading
-{
-    #region CallerThreadContext class
-
-    /// <summary>
-    /// This class stores the caller call context in order to restore
-    /// it when the work item is executed in the thread pool environment. 
-    /// </summary>
-    internal class CallerThreadContext 
-    {
-        #region Prepare reflection information
-
-        // Cached type information.
-        private static MethodInfo getLogicalCallContextMethodInfo =
-            typeof(Thread).GetMethod("GetLogicalCallContext", BindingFlags.Instance | BindingFlags.NonPublic);
-
-        private static MethodInfo setLogicalCallContextMethodInfo =
-            typeof(Thread).GetMethod("SetLogicalCallContext", BindingFlags.Instance | BindingFlags.NonPublic);
-
-        private static string HttpContextSlotName = GetHttpContextSlotName();
-
-        private static string GetHttpContextSlotName()
-        {
-            FieldInfo fi = typeof(HttpContext).GetField("CallContextSlotName", BindingFlags.Static | BindingFlags.NonPublic);
-
-            if( fi != null )
-                return (string)fi.GetValue(null);
-            else // Use the default "HttpContext" slot name
-                return "HttpContext";
-        }
-
-        #endregion
-
-        #region Private fields
-
-        private HttpContext _httpContext = null;
-        private LogicalCallContext _callContext = null;
-
-        #endregion
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        private CallerThreadContext()
-        {
-        }
-
-        public bool CapturedCallContext
-        {
-            get
-            {
-                return (null != _callContext);
-            }
-        }
-
-        public bool CapturedHttpContext
-        {
-            get
-            {
-                return (null != _httpContext);
-            }
-        }
-
-        /// <summary>
-        /// Captures the current thread context
-        /// </summary>
-        /// <returns></returns>
-        public static CallerThreadContext Capture(
-            bool captureCallContext, 
-            bool captureHttpContext)
-        {
-            Debug.Assert(captureCallContext || captureHttpContext);
-
-            CallerThreadContext callerThreadContext = new CallerThreadContext();
-
-            // TODO: In NET 2.0, redo using the new feature of ExecutionContext class - Capture()
-            // Capture Call Context
-            if(captureCallContext && (getLogicalCallContextMethodInfo != null))
-            {
-                callerThreadContext._callContext = (LogicalCallContext)getLogicalCallContextMethodInfo.Invoke(Thread.CurrentThread, null);
-                if (callerThreadContext._callContext != null)
-                {
-                    callerThreadContext._callContext = (LogicalCallContext)callerThreadContext._callContext.Clone();
-                }
-            }
-
-            // Capture httpContext
-            if (captureHttpContext && (null != HttpContext.Current))
-            {
-                callerThreadContext._httpContext = HttpContext.Current;
-            }
-
-            return callerThreadContext;
-        }
-
-        /// <summary>
-        /// Applies the thread context stored earlier
-        /// </summary>
-        /// <param name="callerThreadContext"></param>
-        public static void Apply(CallerThreadContext callerThreadContext)
-        {
-            if (null == callerThreadContext) 
-            {
-                throw new ArgumentNullException("callerThreadContext");            
-            }
-
-            // Todo: In NET 2.0, redo using the new feature of ExecutionContext class - Run()
-            // Restore call context
-            if ((callerThreadContext._callContext != null) && (setLogicalCallContextMethodInfo != null))
-            {
-                setLogicalCallContextMethodInfo.Invoke(Thread.CurrentThread, new object[] { callerThreadContext._callContext });
-            }
-
-            // Restore HttpContext 
-            if (callerThreadContext._httpContext != null)
-            {
-                CallContext.SetData(HttpContextSlotName, callerThreadContext._httpContext);
-            }
-        }
-    }
-
-    #endregion
-
-}
-
-
-/*
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Threading;
-using System.Globalization;
-using System.Security.Principal;
-using System.Reflection;
-using System.Runtime.Remoting.Contexts;
-
-namespace Amib.Threading.Internal
-{
-    #region CallerThreadContext class
-
-    /// <summary>
-    /// This class stores the caller thread context in order to restore
-    /// it when the work item is executed in the context of the thread 
-    /// from the pool.
-    /// Note that we can't store the thread's CompressedStack, because 
-    /// it throws a security exception
-    /// </summary>
-    public class CallerThreadContext
-    {
-        private CultureInfo _culture = null;
-        private CultureInfo _cultureUI = null;
-        private IPrincipal _principal;
-        private System.Runtime.Remoting.Contexts.Context _context;
-
-        private static FieldInfo _fieldInfo = GetFieldInfo();
-
-        private static FieldInfo GetFieldInfo()
-        {
-            Type threadType = typeof(Thread);
-            return threadType.GetField(
-                "m_Context",
-                BindingFlags.Instance | BindingFlags.NonPublic);
-        }
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        private CallerThreadContext()
-        {
-        }
-
-        /// <summary>
-        /// Captures the current thread context
-        /// </summary>
-        /// <returns></returns>
-        public static CallerThreadContext Capture()
-        {
-            CallerThreadContext callerThreadContext = new CallerThreadContext();
-
-            Thread thread = Thread.CurrentThread;
-            callerThreadContext._culture = thread.CurrentCulture;
-            callerThreadContext._cultureUI = thread.CurrentUICulture;
-            callerThreadContext._principal = Thread.CurrentPrincipal;
-            callerThreadContext._context = Thread.CurrentContext;
-            return callerThreadContext;
-        }
-
-        /// <summary>
-        /// Applies the thread context stored earlier
-        /// </summary>
-        /// <param name="callerThreadContext"></param>
-        public static void Apply(CallerThreadContext callerThreadContext)
-        {
-            Thread thread = Thread.CurrentThread;
-            thread.CurrentCulture = callerThreadContext._culture;
-            thread.CurrentUICulture = callerThreadContext._cultureUI;
-            Thread.CurrentPrincipal = callerThreadContext._principal;
-
-            // Uncomment the following block to enable the Thread.CurrentThread
-/*
-            if (null != _fieldInfo)
-            {
-                _fieldInfo.SetValue(
-                    Thread.CurrentThread, 
-                    callerThreadContext._context);
-            }
-* /            
-        }
-    }
-
-    #endregion
-}
-*/
-
+

+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+

+using System;

+using System.Diagnostics;

+using System.Threading;

+using System.Reflection;

+using System.Web;

+using System.Runtime.Remoting.Messaging;

+

+

+namespace Amib.Threading.Internal

+{

+#region CallerThreadContext class

+

+        /// <summary>

+        /// This class stores the caller call context in order to restore

+        /// it when the work item is executed in the thread pool environment. 

+        /// </summary>

+        internal class CallerThreadContext 

+        {

+#region Prepare reflection information

+

+                // Cached type information.

+                private static readonly MethodInfo getLogicalCallContextMethodInfo =

+                        typeof(Thread).GetMethod("GetLogicalCallContext", BindingFlags.Instance | BindingFlags.NonPublic);

+

+                private static readonly MethodInfo setLogicalCallContextMethodInfo =

+                        typeof(Thread).GetMethod("SetLogicalCallContext", BindingFlags.Instance | BindingFlags.NonPublic);

+

+                private static string HttpContextSlotName = GetHttpContextSlotName();

+

+                private static string GetHttpContextSlotName()

+                {

+                        FieldInfo fi = typeof(HttpContext).GetField("CallContextSlotName", BindingFlags.Static | BindingFlags.NonPublic);

+

+            if (fi != null)

+            {

+                return (string) fi.GetValue(null);

+            }

+

+                    return "HttpContext";

+                }

+

+        #endregion

+

+#region Private fields

+

+                private HttpContext _httpContext;

+                private LogicalCallContext _callContext;

+

+        #endregion

+

+                /// <summary>

+                /// Constructor

+                /// </summary>

+                private CallerThreadContext()

+                {

+                }

+

+                public bool CapturedCallContext

+                {

+                        get

+                        {

+                                return (null != _callContext);

+                        }

+                }

+

+                public bool CapturedHttpContext

+                {

+                        get

+                        {

+                                return (null != _httpContext);

+                        }

+                }

+

+                /// <summary>

+                /// Captures the current thread context

+                /// </summary>

+                /// <returns></returns>

+                public static CallerThreadContext Capture(

+                        bool captureCallContext, 

+                        bool captureHttpContext)

+                {

+                        Debug.Assert(captureCallContext || captureHttpContext);

+

+                        CallerThreadContext callerThreadContext = new CallerThreadContext();

+

+                        // TODO: In NET 2.0, redo using the new feature of ExecutionContext class - Capture()

+                        // Capture Call Context

+                        if(captureCallContext && (getLogicalCallContextMethodInfo != null))

+                        {

+                                callerThreadContext._callContext = (LogicalCallContext)getLogicalCallContextMethodInfo.Invoke(Thread.CurrentThread, null);

+                                if (callerThreadContext._callContext != null)

+                                {

+                                        callerThreadContext._callContext = (LogicalCallContext)callerThreadContext._callContext.Clone();

+                                }

+                        }

+

+                        // Capture httpContext

+                        if (captureHttpContext && (null != HttpContext.Current))

+                        {

+                                callerThreadContext._httpContext = HttpContext.Current;

+                        }

+

+                        return callerThreadContext;

+                }

+

+                /// <summary>

+                /// Applies the thread context stored earlier

+                /// </summary>

+                /// <param name="callerThreadContext"></param>

+                public static void Apply(CallerThreadContext callerThreadContext)

+                {

+                        if (null == callerThreadContext) 

+                        {

+                                throw new ArgumentNullException("callerThreadContext");                 

+                        }

+

+                        // Todo: In NET 2.0, redo using the new feature of ExecutionContext class - Run()

+                        // Restore call context

+                        if ((callerThreadContext._callContext != null) && (setLogicalCallContextMethodInfo != null))

+                        {

+                                setLogicalCallContextMethodInfo.Invoke(Thread.CurrentThread, new object[] { callerThreadContext._callContext });

+                        }

+

+                        // Restore HttpContext 

+                        if (callerThreadContext._httpContext != null)

+                        {

+                HttpContext.Current = callerThreadContext._httpContext;

+                                //CallContext.SetData(HttpContextSlotName, callerThreadContext._httpContext);

+                        }

+                }

+        }

+

+    #endregion

+}

+#endif

diff --git a/ThirdParty/SmartThreadPool/CanceledWorkItemsGroup.cs b/ThirdParty/SmartThreadPool/CanceledWorkItemsGroup.cs
new file mode 100644
index 0000000..4a2a3e7
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/CanceledWorkItemsGroup.cs
@@ -0,0 +1,14 @@
+namespace Amib.Threading.Internal

+{

+    internal class CanceledWorkItemsGroup

+    {

+        public readonly static CanceledWorkItemsGroup NotCanceledWorkItemsGroup = new CanceledWorkItemsGroup();

+

+        public CanceledWorkItemsGroup()

+        {

+            IsCanceled = false;

+        }

+

+        public bool IsCanceled { get; set; }

+    }

+}
\ No newline at end of file
diff --git a/ThirdParty/SmartThreadPool/EventWaitHandle.cs b/ThirdParty/SmartThreadPool/EventWaitHandle.cs
new file mode 100644
index 0000000..70a1a29
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/EventWaitHandle.cs
@@ -0,0 +1,104 @@
+#if (_WINDOWS_CE)

+

+using System;

+using System.Runtime.InteropServices;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+    /// <summary>

+    /// EventWaitHandle class

+    /// In WindowsCE this class doesn't exist and I needed the WaitAll and WaitAny implementation.

+    /// So I wrote this class to implement these two methods with some of their overloads.

+    /// It uses the WaitForMultipleObjects API to do the WaitAll and WaitAny.

+    /// Note that this class doesn't even inherit from WaitHandle!

+    /// </summary>

+    public class STPEventWaitHandle

+    {

+        #region Public Constants

+

+        public const int WaitTimeout = Timeout.Infinite;

+

+        #endregion

+

+        #region Private External Constants

+

+        private const Int32 WAIT_FAILED = -1;

+        private const Int32 WAIT_TIMEOUT = 0x102;

+        private const UInt32 INFINITE = 0xFFFFFFFF;

+

+        #endregion

+

+        #region WaitAll and WaitAny

+

+        internal static bool WaitOne(WaitHandle waitHandle, int millisecondsTimeout, bool exitContext)

+        {

+            return waitHandle.WaitOne(millisecondsTimeout, exitContext);

+        }

+

+            private static IntPtr[] PrepareNativeHandles(WaitHandle[] waitHandles)

+            {

+                IntPtr[] nativeHandles = new IntPtr[waitHandles.Length];

+                for (int i = 0; i < waitHandles.Length; i++)

+                {

+                nativeHandles[i] = waitHandles[i].Handle;

+                }

+                return nativeHandles;

+            }

+

+            public static bool WaitAll(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+            {

+            uint timeout = millisecondsTimeout < 0 ? INFINITE : (uint)millisecondsTimeout;

+

+            IntPtr[] nativeHandles = PrepareNativeHandles(waitHandles);

+

+                int result = WaitForMultipleObjects((uint)waitHandles.Length, nativeHandles, true, timeout);

+

+            if (result == WAIT_TIMEOUT || result == WAIT_FAILED)

+            {

+                return false;

+            }

+

+                return true;

+            }

+

+

+            public static int WaitAny(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+        {

+            uint timeout = millisecondsTimeout < 0 ? INFINITE : (uint)millisecondsTimeout;

+

+            IntPtr[] nativeHandles = PrepareNativeHandles(waitHandles);

+

+            int result = WaitForMultipleObjects((uint)waitHandles.Length, nativeHandles, false, timeout);

+

+            if (result >= 0 && result < waitHandles.Length)

+            {

+                return result;

+            }

+

+            return -1;

+        }

+

+        public static int WaitAny(WaitHandle[] waitHandles)

+        {

+            return WaitAny(waitHandles, Timeout.Infinite, false);

+        }

+

+        public static int WaitAny(WaitHandle[] waitHandles, TimeSpan timeout, bool exitContext)

+        {

+            int millisecondsTimeout = (int)timeout.TotalMilliseconds;

+

+            return WaitAny(waitHandles, millisecondsTimeout, false);

+        }

+ 

+        #endregion

+

+        #region External methods

+

+        [DllImport("coredll.dll", SetLastError = true)]

+        public static extern int WaitForMultipleObjects(uint nCount, IntPtr[] lpHandles, bool fWaitAll, uint dwMilliseconds);

+

+        #endregion

+    }

+}

+#endif
\ No newline at end of file
diff --git a/ThirdParty/SmartThreadPool/EventWaitHandleFactory.cs b/ThirdParty/SmartThreadPool/EventWaitHandleFactory.cs
new file mode 100644
index 0000000..2f8c55b
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/EventWaitHandleFactory.cs
@@ -0,0 +1,82 @@
+using System.Threading;

+

+#if (_WINDOWS_CE)

+using System;

+using System.Runtime.InteropServices;

+#endif

+

+namespace Amib.Threading.Internal

+{

+    /// <summary>

+    /// EventWaitHandleFactory class.

+    /// This is a static class that creates AutoResetEvent and ManualResetEvent objects.

+    /// In WindowCE the WaitForMultipleObjects API fails to use the Handle property 

+    /// of XxxResetEvent. It can use only handles that were created by the CreateEvent API.

+    /// Consequently this class creates the needed XxxResetEvent and replaces the handle if

+    /// it's a WindowsCE OS.

+    /// </summary>

+    public static class EventWaitHandleFactory

+    {

+        /// <summary>

+        /// Create a new AutoResetEvent object

+        /// </summary>

+        /// <returns>Return a new AutoResetEvent object</returns>

+        public static AutoResetEvent CreateAutoResetEvent()

+        {

+            AutoResetEvent waitHandle = new AutoResetEvent(false);

+

+#if (_WINDOWS_CE)

+            ReplaceEventHandle(waitHandle, false, false);

+#endif

+

+            return waitHandle;

+        }

+

+        /// <summary>

+        /// Create a new ManualResetEvent object

+        /// </summary>

+        /// <returns>Return a new ManualResetEvent object</returns>

+        public static ManualResetEvent CreateManualResetEvent(bool initialState)

+        {

+            ManualResetEvent waitHandle = new ManualResetEvent(initialState);

+

+#if (_WINDOWS_CE)

+            ReplaceEventHandle(waitHandle, true, initialState);

+#endif

+

+            return waitHandle;

+        }

+

+#if (_WINDOWS_CE)

+

+        /// <summary>

+        /// Replace the event handle

+        /// </summary>

+        /// <param name="waitHandle">The WaitHandle object which its handle needs to be replaced.</param>

+        /// <param name="manualReset">Indicates if the event is a ManualResetEvent (true) or an AutoResetEvent (false)</param>

+        /// <param name="initialState">The initial state of the event</param>

+        private static void ReplaceEventHandle(WaitHandle waitHandle, bool manualReset, bool initialState)

+        {

+            // Store the old handle 

+            IntPtr oldHandle = waitHandle.Handle;

+

+            // Create a new event

+            IntPtr newHandle = CreateEvent(IntPtr.Zero, manualReset, initialState, null);

+

+            // Replace the old event with the new event

+            waitHandle.Handle = newHandle;

+

+            // Close the old event

+            CloseHandle (oldHandle);        

+        }

+

+        [DllImport("coredll.dll", SetLastError = true)]

+        public static extern IntPtr CreateEvent(IntPtr lpEventAttributes, bool bManualReset, bool bInitialState, string lpName);

+

+        //Handle

+        [DllImport("coredll.dll", SetLastError = true)]

+        public static extern bool CloseHandle(IntPtr hObject);

+#endif

+

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/Exceptions.cs b/ThirdParty/SmartThreadPool/Exceptions.cs
index c454709..8e66ce9 100644
--- a/ThirdParty/SmartThreadPool/Exceptions.cs
+++ b/ThirdParty/SmartThreadPool/Exceptions.cs
@@ -1,81 +1,111 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Runtime.Serialization;
-
-namespace Amib.Threading
-{
-    #region Exceptions
-
-    /// <summary>
-    /// Represents an exception in case IWorkItemResult.GetResult has been canceled
-    /// </summary>
-    [Serializable]
-    public sealed class WorkItemCancelException : ApplicationException
-    {
-        public WorkItemCancelException() : base()
-        {
-        }
-
-        public WorkItemCancelException(string message) : base(message)
-        {
-        }
-
-        public WorkItemCancelException(string message, Exception e) : base(message, e)
-        {
-        }
-
-        public WorkItemCancelException(SerializationInfo si, StreamingContext sc) : base(si, sc)
-        {
-        }
-    }
-
-    /// <summary>
-    /// Represents an exception in case IWorkItemResult.GetResult has been timed out
-    /// </summary>
-    [Serializable]
-    public sealed class WorkItemTimeoutException : ApplicationException
-    {
-        public WorkItemTimeoutException() : base()
-        {
-        }
-
-        public WorkItemTimeoutException(string message) : base(message)
-        {
-        }
-
-        public WorkItemTimeoutException(string message, Exception e) : base(message, e)
-        {
-        }
-
-        public WorkItemTimeoutException(SerializationInfo si, StreamingContext sc) : base(si, sc)
-        {
-        }
-    }
-
-    /// <summary>
-    /// Represents an exception in case IWorkItemResult.GetResult has been timed out
-    /// </summary>
-    [Serializable]
-    public sealed class WorkItemResultException : ApplicationException
-    {
-        public WorkItemResultException() : base()
-        {
-        }
-
-        public WorkItemResultException(string message) : base(message)
-        {
-        }
-
-        public WorkItemResultException(string message, Exception e) : base(message, e)
-        {
-        }
-
-        public WorkItemResultException(SerializationInfo si, StreamingContext sc) : base(si, sc)
-        {
-        }
-    }
-
-    #endregion
-}
+using System;

+#if !(_WINDOWS_CE)

+using System.Runtime.Serialization;

+#endif

+

+namespace Amib.Threading

+{

+    #region Exceptions

+

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been canceled

+    /// </summary>

+    public sealed partial class WorkItemCancelException : Exception

+    {

+        public WorkItemCancelException()

+        {

+        }

+

+        public WorkItemCancelException(string message)

+            : base(message)

+        {

+        }

+

+        public WorkItemCancelException(string message, Exception e)

+            : base(message, e)

+        {

+        }

+    }

+

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been timed out

+    /// </summary>

+    public sealed partial class WorkItemTimeoutException : Exception

+    {

+        public WorkItemTimeoutException()

+        {

+        }

+

+        public WorkItemTimeoutException(string message)

+            : base(message)

+        {

+        }

+

+        public WorkItemTimeoutException(string message, Exception e)

+            : base(message, e)

+        {

+        }

+    }

+

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been timed out

+    /// </summary>

+    public sealed partial class WorkItemResultException : Exception

+    {

+        public WorkItemResultException()

+        {

+        }

+

+        public WorkItemResultException(string message)

+            : base(message)

+        {

+        }

+

+        public WorkItemResultException(string message, Exception e)

+            : base(message, e)

+        {

+        }

+    }

+

+

+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been canceled

+    /// </summary>

+    [Serializable]

+    public sealed partial class WorkItemCancelException

+    {

+        public WorkItemCancelException(SerializationInfo si, StreamingContext sc)

+            : base(si, sc)

+        {

+        }

+    }

+

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been timed out

+    /// </summary>

+    [Serializable]

+    public sealed partial class WorkItemTimeoutException

+    {

+        public WorkItemTimeoutException(SerializationInfo si, StreamingContext sc)

+            : base(si, sc)

+        {

+        }

+    }

+

+    /// <summary>

+    /// Represents an exception in case IWorkItemResult.GetResult has been timed out

+    /// </summary>

+    [Serializable]

+    public sealed partial class WorkItemResultException

+    {

+        public WorkItemResultException(SerializationInfo si, StreamingContext sc)

+            : base(si, sc)

+        {

+        }

+    }

+

+#endif

+

+    #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/Interfaces.cs b/ThirdParty/SmartThreadPool/Interfaces.cs
index f1c1fcf..29c8a3e 100644
--- a/ThirdParty/SmartThreadPool/Interfaces.cs
+++ b/ThirdParty/SmartThreadPool/Interfaces.cs
@@ -1,271 +1,628 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Threading;
-
-namespace Amib.Threading
-{
-    #region Delegates
-
-    /// <summary>
-    /// A delegate that represents the method to run as the work item
-    /// </summary>
-    /// <param name="state">A state object for the method to run</param>
-    public delegate object WorkItemCallback(object state);
-
-    /// <summary>
-    /// A delegate to call after the WorkItemCallback completed
-    /// </summary>
-    /// <param name="wir">The work item result object</param>
-    public delegate void PostExecuteWorkItemCallback(IWorkItemResult wir);
-
-    /// <summary>
-    /// A delegate to call when a WorkItemsGroup becomes idle
-    /// </summary>
-    /// <param name="workItemsGroup">A reference to the WorkItemsGroup that became idle</param>
-    public delegate void WorkItemsGroupIdleHandler(IWorkItemsGroup workItemsGroup);
-
-    #endregion
-
-    #region WorkItem Priority
-
-    public enum WorkItemPriority
-    {
-        Lowest,
-        BelowNormal,
-        Normal,
-        AboveNormal,
-        Highest,
-    }
-
-    #endregion
-
-    #region IHasWorkItemPriority interface 
-
-    public interface IHasWorkItemPriority
-    {
-        WorkItemPriority WorkItemPriority { get; }
-    }
-
-    #endregion
-
-    #region IWorkItemsGroup interface 
-
-    /// <summary>
-    /// IWorkItemsGroup interface
-    /// </summary>
-    public interface IWorkItemsGroup
-    {
-        /// <summary>
-        /// Get/Set the name of the WorkItemsGroup
-        /// </summary>
-        string Name { get; set; }
-
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, WorkItemPriority workItemPriority);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, WorkItemPriority workItemPriority);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, WorkItemPriority workItemPriority);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, CallToPostExecute callToPostExecute);
-        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, CallToPostExecute callToPostExecute, WorkItemPriority workItemPriority);
-
-        IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback);
-        IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback, object state);
-
-        void WaitForIdle();
-        bool WaitForIdle(TimeSpan timeout);
-        bool WaitForIdle(int millisecondsTimeout);
-
-        int WaitingCallbacks { get; }
-        event WorkItemsGroupIdleHandler OnIdle;
-
-        void Cancel();
-        void Start();
-    }
-
-    #endregion
-
-    #region CallToPostExecute enumerator
-
-    [Flags]
-    public enum CallToPostExecute
-    {
-        Never                    = 0x00,
-        WhenWorkItemCanceled     = 0x01,
-        WhenWorkItemNotCanceled  = 0x02,
-        Always                   = WhenWorkItemCanceled | WhenWorkItemNotCanceled,
-    }
-
-    #endregion
-
-    #region IWorkItemResult interface
-
-    /// <summary>
-    /// IWorkItemResult interface
-    /// </summary>
-    public interface IWorkItemResult
-    {
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits.
-        /// </summary>
-        /// <returns>The result of the work item</returns>
-        object GetResult();
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout.
-        /// </summary>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        object GetResult(
-            int millisecondsTimeout,
-            bool exitContext);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout.
-        /// </summary>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        object GetResult(            
-            TimeSpan timeout,
-            bool exitContext);
-
-        void Abort();
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.
-        /// </summary>
-        /// <param name="millisecondsTimeout">Timeout in milliseconds, or -1 for infinite</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the blocking if needed</param>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        /// On cancel throws WorkItemCancelException
-        object GetResult(            
-            int millisecondsTimeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.
-        /// </summary>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        /// On cancel throws WorkItemCancelException
-        object GetResult(            
-            TimeSpan timeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits.
-        /// </summary>
-        /// <param name="e">Filled with the exception if one was thrown</param>
-        /// <returns>The result of the work item</returns>
-        object GetResult(out Exception e);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout.
-        /// </summary>
-        /// <param name="e">Filled with the exception if one was thrown</param>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        object GetResult(
-            int millisecondsTimeout,
-            bool exitContext,
-            out Exception e);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout.
-        /// </summary>
-        /// <param name="e">Filled with the exception if one was thrown</param>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        object GetResult(            
-            TimeSpan timeout,
-            bool exitContext,
-            out Exception e);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.
-        /// </summary>
-        /// <param name="millisecondsTimeout">Timeout in milliseconds, or -1 for infinite</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the blocking if needed</param>
-        /// <param name="e">Filled with the exception if one was thrown</param>
-        /// <returns>The result of the work item</returns>
-        /// On timeout throws WorkItemTimeoutException
-        /// On cancel throws WorkItemCancelException
-        object GetResult(            
-            int millisecondsTimeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle,
-            out Exception e);
-
-        /// <summary>
-        /// Get the result of the work item.
-        /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.
-        /// </summary>
-        /// <returns>The result of the work item</returns>
-        /// <param name="e">Filled with the exception if one was thrown</param>
-        /// On timeout throws WorkItemTimeoutException
-        /// On cancel throws WorkItemCancelException
-        object GetResult(            
-            TimeSpan timeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle,
-            out Exception e);
-
-        /// <summary>
-        /// Gets an indication whether the asynchronous operation has completed.
-        /// </summary>
-        bool IsCompleted { get; }
-
-        /// <summary>
-        /// Gets an indication whether the asynchronous operation has been canceled.
-        /// </summary>
-        bool IsCanceled { get; }
-
-        /// <summary>
-        /// Gets a user-defined object that qualifies or contains information about an asynchronous operation.
-        /// </summary>
-        object State { get; }
-
-        /// <summary>
-        /// Cancel the work item if it didn't start running yet.
-        /// </summary>
-        /// <returns>Returns true on success or false if the work item is in progress or already completed</returns>
-        bool Cancel();
-
-        /// <summary>
-        /// Get the work item's priority
-        /// </summary>
-        WorkItemPriority WorkItemPriority { get; }
-
-        /// <summary>
-        /// Return the result, same as GetResult()
-        /// </summary>
-        object Result { get; }
-
-        /// <summary>
-        /// Returns the exception if occured otherwise returns null.
-        /// </summary>
-        object Exception { get; }
-    }
-
-    #endregion
-}
+using System;

+using System.Threading;

+

+namespace Amib.Threading

+{

+        #region Delegates

+

+        /// <summary>

+        /// A delegate that represents the method to run as the work item

+        /// </summary>

+        /// <param name="state">A state object for the method to run</param>

+        public delegate object WorkItemCallback(object state);

+

+        /// <summary>

+        /// A delegate to call after the WorkItemCallback completed

+        /// </summary>

+        /// <param name="wir">The work item result object</param>

+    public delegate void PostExecuteWorkItemCallback(IWorkItemResult wir);

+

+    /// <summary>

+    /// A delegate to call after the WorkItemCallback completed

+    /// </summary>

+    /// <param name="wir">The work item result object</param>

+    public delegate void PostExecuteWorkItemCallback<TResult>(IWorkItemResult<TResult> wir);

+

+        /// <summary>

+        /// A delegate to call when a WorkItemsGroup becomes idle

+        /// </summary>

+        /// <param name="workItemsGroup">A reference to the WorkItemsGroup that became idle</param>

+        public delegate void WorkItemsGroupIdleHandler(IWorkItemsGroup workItemsGroup);

+

+    /// <summary>

+    /// A delegate to call after a thread is created, but before 

+    /// it's first use.

+    /// </summary>

+    public delegate void ThreadInitializationHandler();

+

+    /// <summary>

+    /// A delegate to call when a thread is about to exit, after 

+    /// it is no longer belong to the pool.

+    /// </summary>

+    public delegate void ThreadTerminationHandler();

+

+        #endregion

+

+        #region WorkItem Priority

+

+    /// <summary>

+    /// Defines the availeable priorities of a work item.

+    /// The higher the priority a work item has, the sooner

+    /// it will be executed.

+    /// </summary>

+        public enum WorkItemPriority

+        {

+                Lowest,

+                BelowNormal,

+                Normal,

+                AboveNormal,

+                Highest,

+        }

+

+        #endregion

+

+        #region IWorkItemsGroup interface 

+

+        /// <summary>

+        /// IWorkItemsGroup interface

+    /// Created by SmartThreadPool.CreateWorkItemsGroup()

+        /// </summary>

+        public interface IWorkItemsGroup

+        {

+                /// <summary>

+                /// Get/Set the name of the WorkItemsGroup

+                /// </summary>

+                string Name { get; set; }

+

+        /// <summary>

+        /// Get/Set the maximum number of workitem that execute cocurrency on the thread pool

+        /// </summary>

+        int Concurrency { get; set; }

+

+        /// <summary>

+        /// Get the number of work items waiting in the queue.

+        /// </summary>

+        int WaitingCallbacks { get; }

+

+        /// <summary>

+        /// Get an array with all the state objects of the currently running items.

+        /// The array represents a snap shot and impact performance.

+        /// </summary>

+        object[] GetStates();

+

+        /// <summary>

+        /// Get the WorkItemsGroup start information

+        /// </summary>

+        WIGStartInfo WIGStartInfo { get; }

+

+        /// <summary>

+        /// Starts to execute work items

+        /// </summary>

+        void Start();

+

+        /// <summary>

+        /// Cancel all the work items.

+        /// Same as Cancel(false)

+        /// </summary>

+        void Cancel();

+

+        /// <summary>

+        /// Cancel all work items using thread abortion

+        /// </summary>

+        /// <param name="abortExecution">True to stop work items by raising ThreadAbortException</param>

+        void Cancel(bool abortExecution);

+

+        /// <summary>

+        /// Wait for all work item to complete.

+        /// </summary>

+                void WaitForIdle();

+

+        /// <summary>

+        /// Wait for all work item to complete, until timeout expired

+        /// </summary>

+        /// <param name="timeout">How long to wait for the work items to complete</param>

+        /// <returns>Returns true if work items completed within the timeout, otherwise false.</returns>

+                bool WaitForIdle(TimeSpan timeout);

+

+        /// <summary>

+        /// Wait for all work item to complete, until timeout expired

+        /// </summary>

+        /// <param name="millisecondsTimeout">How long to wait for the work items to complete in milliseconds</param>

+        /// <returns>Returns true if work items completed within the timeout, otherwise false.</returns>

+        bool WaitForIdle(int millisecondsTimeout);

+

+        /// <summary>

+        /// IsIdle is true when there are no work items running or queued.

+        /// </summary>

+        bool IsIdle { get; }

+

+        /// <summary>

+        /// This event is fired when all work items are completed.

+        /// (When IsIdle changes to true)

+        /// This event only work on WorkItemsGroup. On SmartThreadPool

+        /// it throws the NotImplementedException.

+        /// </summary>

+        event WorkItemsGroupIdleHandler OnIdle;

+

+        #region QueueWorkItem

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <returns>Returns a work item result</returns>        

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="workItemPriority">The priority of the work item</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, WorkItemPriority workItemPriority);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, WorkItemPriority workItemPriority);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, WorkItemPriority workItemPriority);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, CallToPostExecute callToPostExecute);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, PostExecuteWorkItemCallback postExecuteWorkItemCallback, CallToPostExecute callToPostExecute, WorkItemPriority workItemPriority);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="workItemInfo">Work item info</param>

+        /// <param name="callback">A callback to execute</param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback);

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="workItemInfo">Work item information</param>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback, object state);

+

+        #endregion

+

+        #region QueueWorkItem(Action<...>)

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem(Action action);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem (Action action, WorkItemPriority priority);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T> (Action<T> action, T arg, WorkItemPriority priority);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T> (Action<T> action, T arg);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2>(Action<T1, T2> action, T1 arg1, T2 arg2);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2> (Action<T1, T2> action, T1 arg1, T2 arg2, WorkItemPriority priority);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2, T3>(Action<T1, T2, T3> action, T1 arg1, T2 arg2, T3 arg3);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2, T3> (Action<T1, T2, T3> action, T1 arg1, T2 arg2, T3 arg3, WorkItemPriority priority);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2, T3, T4>(Action<T1, T2, T3, T4> action, T1 arg1, T2 arg2, T3 arg3, T4 arg4);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult object, but its GetResult() will always return null</returns>

+        IWorkItemResult QueueWorkItem<T1, T2, T3, T4> (Action<T1, T2, T3, T4> action, T1 arg1, T2 arg2, T3 arg3, T4 arg4, WorkItemPriority priority);

+

+        #endregion

+

+        #region QueueWorkItem(Func<...>)

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult&lt;TResult&gt; object. 

+        /// its GetResult() returns a TResult object</returns>

+        IWorkItemResult<TResult> QueueWorkItem<TResult>(Func<TResult> func);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult&lt;TResult&gt; object. 

+        /// its GetResult() returns a TResult object</returns>

+        IWorkItemResult<TResult> QueueWorkItem<T, TResult>(Func<T, TResult> func, T arg);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult&lt;TResult&gt; object. 

+        /// its GetResult() returns a TResult object</returns>

+        IWorkItemResult<TResult> QueueWorkItem<T1, T2, TResult>(Func<T1, T2, TResult> func, T1 arg1, T2 arg2);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult&lt;TResult&gt; object. 

+        /// its GetResult() returns a TResult object</returns>

+        IWorkItemResult<TResult> QueueWorkItem<T1, T2, T3, TResult>(Func<T1, T2, T3, TResult> func, T1 arg1, T2 arg2, T3 arg3);

+

+        /// <summary>

+        /// Queue a work item.

+        /// </summary>

+        /// <returns>Returns a IWorkItemResult&lt;TResult&gt; object. 

+        /// its GetResult() returns a TResult object</returns>

+        IWorkItemResult<TResult> QueueWorkItem<T1, T2, T3, T4, TResult>(Func<T1, T2, T3, T4, TResult> func, T1 arg1, T2 arg2, T3 arg3, T4 arg4);

+

+        #endregion

+    }

+

+        #endregion

+

+        #region CallToPostExecute enumerator

+

+        [Flags]

+        public enum CallToPostExecute

+        {

+        /// <summary>

+        /// Never call to the PostExecute call back

+        /// </summary>

+                Never                    = 0x00,

+

+        /// <summary>

+        /// Call to the PostExecute only when the work item is cancelled

+        /// </summary>

+                WhenWorkItemCanceled     = 0x01,

+

+        /// <summary>

+        /// Call to the PostExecute only when the work item is not cancelled

+        /// </summary>

+                WhenWorkItemNotCanceled  = 0x02,

+

+        /// <summary>

+        /// Always call to the PostExecute

+        /// </summary>

+                Always                   = WhenWorkItemCanceled | WhenWorkItemNotCanceled,

+        }

+

+        #endregion

+

+        #region IWorkItemResult interface

+

+    /// <summary>

+    /// The common interface of IWorkItemResult and IWorkItemResult&lt;T&gt;

+    /// </summary>

+    public interface IWaitableResult

+    {

+        /// <summary>

+        /// This method intent is for internal use.

+        /// </summary>

+        /// <returns></returns>

+        IWorkItemResult GetWorkItemResult();

+

+        /// <summary>

+        /// This method intent is for internal use.

+        /// </summary>

+        /// <returns></returns>

+        IWorkItemResult<TResult> GetWorkItemResultT<TResult>();

+    }

+

+    /// <summary>

+    /// IWorkItemResult interface.

+    /// Created when a WorkItemCallback work item is queued.

+    /// </summary>

+    public interface IWorkItemResult : IWorkItemResult<object>

+    {

+    }

+

+        /// <summary>

+    /// IWorkItemResult&lt;TResult&gt; interface.

+    /// Created when a Func&lt;TResult&gt; work item is queued.

+        /// </summary>

+    public interface IWorkItemResult<TResult> : IWaitableResult

+        {

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits.

+                /// </summary>

+                /// <returns>The result of the work item</returns>

+        TResult GetResult();

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout.

+                /// </summary>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+        TResult GetResult(

+                        int millisecondsTimeout,

+                        bool exitContext);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout.

+                /// </summary>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+        TResult GetResult(                      

+                        TimeSpan timeout,

+                        bool exitContext);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.

+                /// </summary>

+                /// <param name="millisecondsTimeout">Timeout in milliseconds, or -1 for infinite</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the blocking if needed</param>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+                /// On cancel throws WorkItemCancelException

+        TResult GetResult(                      

+                        int millisecondsTimeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.

+                /// </summary>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+                /// On cancel throws WorkItemCancelException

+        TResult GetResult(                      

+                        TimeSpan timeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits.

+                /// </summary>

+                /// <param name="e">Filled with the exception if one was thrown</param>

+                /// <returns>The result of the work item</returns>

+        TResult GetResult(out Exception e);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout.

+                /// </summary>

+                /// <param name="millisecondsTimeout"></param>

+                /// <param name="exitContext"></param>

+                /// <param name="e">Filled with the exception if one was thrown</param>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+        TResult GetResult(

+                        int millisecondsTimeout,

+                        bool exitContext,

+                        out Exception e);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout.

+                /// </summary>

+                /// <param name="exitContext"></param>

+                /// <param name="e">Filled with the exception if one was thrown</param>

+                /// <param name="timeout"></param>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+        TResult GetResult(                      

+                        TimeSpan timeout,

+                        bool exitContext,

+                        out Exception e);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.

+                /// </summary>

+                /// <param name="millisecondsTimeout">Timeout in milliseconds, or -1 for infinite</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the blocking if needed</param>

+                /// <param name="e">Filled with the exception if one was thrown</param>

+                /// <returns>The result of the work item</returns>

+                /// On timeout throws WorkItemTimeoutException

+                /// On cancel throws WorkItemCancelException

+        TResult GetResult(                      

+                        int millisecondsTimeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle,

+                        out Exception e);

+

+                /// <summary>

+                /// Get the result of the work item.

+                /// If the work item didn't run yet then the caller waits until timeout or until the cancelWaitHandle is signaled.

+                /// </summary>

+                /// <returns>The result of the work item</returns>

+                /// <param name="cancelWaitHandle"></param>

+                /// <param name="e">Filled with the exception if one was thrown</param>

+                /// <param name="timeout"></param>

+                /// <param name="exitContext"></param>

+                /// On timeout throws WorkItemTimeoutException

+                /// On cancel throws WorkItemCancelException

+        TResult GetResult(                      

+                        TimeSpan timeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle,

+                        out Exception e);

+

+                /// <summary>

+                /// Gets an indication whether the asynchronous operation has completed.

+                /// </summary>

+                bool IsCompleted { get; }

+

+                /// <summary>

+                /// Gets an indication whether the asynchronous operation has been canceled.

+                /// </summary>

+                bool IsCanceled { get; }

+

+                /// <summary>

+                /// Gets the user-defined object that contains context data 

+        /// for the work item method.

+                /// </summary>

+                object State { get; }

+

+                /// <summary>

+        /// Same as Cancel(false).

+                /// </summary>

+        bool Cancel();

+

+        /// <summary>

+        /// Cancel the work item execution.

+        /// If the work item is in the queue then it won't execute

+        /// If the work item is completed, it will remain completed

+        /// If the work item is in progress then the user can check the SmartThreadPool.IsWorkItemCanceled

+        ///   property to check if the work item has been cancelled. If the abortExecution is set to true then

+        ///   the Smart Thread Pool will send an AbortException to the running thread to stop the execution 

+        ///   of the work item. When an in progress work item is canceled its GetResult will throw WorkItemCancelException.

+        /// If the work item is already cancelled it will remain cancelled

+        /// </summary>

+        /// <param name="abortExecution">When true send an AbortException to the executing thread.</param>

+        /// <returns>Returns true if the work item was not completed, otherwise false.</returns>

+        bool Cancel(bool abortExecution);

+

+                /// <summary>

+                /// Get the work item's priority

+                /// </summary>

+                WorkItemPriority WorkItemPriority { get; }

+

+                /// <summary>

+                /// Return the result, same as GetResult()

+                /// </summary>

+        TResult Result { get; }

+

+                /// <summary>

+                /// Returns the exception if occured otherwise returns null.

+                /// </summary>

+                object Exception { get; }

+        }

+

+        #endregion

+

+    #region .NET 3.5

+

+    // All these delegate are built-in .NET 3.5

+    // Comment/Remove them when compiling to .NET 3.5 to avoid ambiguity.

+

+    public delegate void Action();

+    public delegate void Action<T1, T2>(T1 arg1, T2 arg2);

+    public delegate void Action<T1, T2, T3>(T1 arg1, T2 arg2, T3 arg3);

+    public delegate void Action<T1, T2, T3, T4>(T1 arg1, T2 arg2, T3 arg3, T4 arg4);

+

+    public delegate TResult Func<TResult>();

+    public delegate TResult Func<T, TResult>(T arg1);

+    public delegate TResult Func<T1, T2, TResult>(T1 arg1, T2 arg2);

+    public delegate TResult Func<T1, T2, T3, TResult>(T1 arg1, T2 arg2, T3 arg3);

+    public delegate TResult Func<T1, T2, T3, T4, TResult>(T1 arg1, T2 arg2, T3 arg3, T4 arg4);

+

+    #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/InternalInterfaces.cs b/ThirdParty/SmartThreadPool/InternalInterfaces.cs
new file mode 100644
index 0000000..8be7161
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/InternalInterfaces.cs
@@ -0,0 +1,27 @@
+

+namespace Amib.Threading.Internal

+{

+    /// <summary>

+    /// An internal delegate to call when the WorkItem starts or completes

+    /// </summary>

+    internal delegate void WorkItemStateCallback(WorkItem workItem);

+

+    internal interface IInternalWorkItemResult

+    {

+        event WorkItemStateCallback OnWorkItemStarted;

+        event WorkItemStateCallback OnWorkItemCompleted;

+    }

+

+    internal interface IInternalWaitableResult

+    {

+        /// <summary>

+        /// This method is intent for internal use.

+        /// </summary>   

+        IWorkItemResult GetWorkItemResult();

+    }

+

+    public interface IHasWorkItemPriority

+    {

+        WorkItemPriority WorkItemPriority { get; }

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/PriorityQueue.cs b/ThirdParty/SmartThreadPool/PriorityQueue.cs
index 63d5e84..6245fd8 100644
--- a/ThirdParty/SmartThreadPool/PriorityQueue.cs
+++ b/ThirdParty/SmartThreadPool/PriorityQueue.cs
@@ -1,240 +1,239 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Collections;
-using System.Diagnostics;
-
-namespace Amib.Threading.Internal
-{
-    #region PriorityQueue class
-
-    /// <summary>
-    /// PriorityQueue class
-    /// This class is not thread safe because we use external lock
-    /// </summary>
-    public sealed class PriorityQueue : IEnumerable
-    {
-        #region Private members
-
-        /// <summary>
-        /// The number of queues, there is one for each type of priority
-        /// </summary>
-        private const int _queuesCount = WorkItemPriority.Highest-WorkItemPriority.Lowest+1;
-
-        /// <summary>
-        /// Work items queues. There is one for each type of priority
-        /// </summary>
-        private Queue [] _queues = new Queue[_queuesCount];
-
-        /// <summary>
-        /// The total number of work items within the queues 
-        /// </summary>
-        private int _workItemsCount = 0;
-
-        /// <summary>
-        /// Use with IEnumerable interface
-        /// </summary>
-        private int _version = 0;
-
-        #endregion
-
-        #region Contructor
-
-        public PriorityQueue()
-        {
-            for(int i = 0; i < _queues.Length; ++i)
-            {
-                _queues[i] = new Queue();
-            }
-        }
-
-        #endregion
-
-        #region Methods
-
-        /// <summary>
-        /// Enqueue a work item.
-        /// </summary>
-        /// <param name="workItem">A work item</param>
-        public void Enqueue(IHasWorkItemPriority workItem)
-        {
-            Debug.Assert(null != workItem);
-
-            int queueIndex = _queuesCount-(int)workItem.WorkItemPriority-1;
-            Debug.Assert(queueIndex >= 0);
-            Debug.Assert(queueIndex < _queuesCount);
-
-            _queues[queueIndex].Enqueue(workItem);
-            ++_workItemsCount;
-            ++_version;
-        }
-
-        /// <summary>
-        /// Dequeque a work item.
-        /// </summary>
-        /// <returns>Returns the next work item</returns>
-        public IHasWorkItemPriority Dequeue()
-        {
-            IHasWorkItemPriority workItem = null;
-
-            if(_workItemsCount > 0)
-            {
-                int queueIndex = GetNextNonEmptyQueue(-1);
-                Debug.Assert(queueIndex >= 0);
-                workItem = _queues[queueIndex].Dequeue() as IHasWorkItemPriority;
-                Debug.Assert(null != workItem);
-                --_workItemsCount;
-                ++_version;
-            }
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Find the next non empty queue starting at queue queueIndex+1
-        /// </summary>
-        /// <param name="queueIndex">The index-1 to start from</param>
-        /// <returns>
-        /// The index of the next non empty queue or -1 if all the queues are empty
-        /// </returns>
-        private int GetNextNonEmptyQueue(int queueIndex)
-        {
-            for(int i = queueIndex+1; i < _queuesCount; ++i)
-            {
-                if(_queues[i].Count > 0)
-                {
-                    return i;
-                }
-            }
-            return -1;
-        }
-
-        /// <summary>
-        /// The number of work items 
-        /// </summary>
-        public int Count
-        {
-            get
-            {
-                return _workItemsCount;
-            }
-        }
-
-        /// <summary>
-        /// Clear all the work items 
-        /// </summary>
-        public void Clear()
-        {
-            if (_workItemsCount > 0)
-            {
-                foreach(Queue queue in _queues)
-                {
-                    queue.Clear();
-                }
-                _workItemsCount = 0;
-                ++_version;
-            }
-        }
-
-        #endregion
-
-        #region IEnumerable Members
-
-        /// <summary>
-        /// Returns an enumerator to iterate over the work items
-        /// </summary>
-        /// <returns>Returns an enumerator</returns>
-        public IEnumerator GetEnumerator()
-        {
-            return new PriorityQueueEnumerator(this);
-        }
-
-        #endregion
-
-        #region PriorityQueueEnumerator
-
-        /// <summary>
-        /// The class the implements the enumerator
-        /// </summary>
-        private class PriorityQueueEnumerator : IEnumerator
-        {
-            private PriorityQueue _priorityQueue;
-            private int _version;
-            private int _queueIndex;
-            private IEnumerator _enumerator;
-
-            public PriorityQueueEnumerator(PriorityQueue priorityQueue)
-            {
-                _priorityQueue = priorityQueue;
-                _version = _priorityQueue._version;
-                _queueIndex = _priorityQueue.GetNextNonEmptyQueue(-1);
-                if (_queueIndex >= 0)
-                {
-                    _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();
-                }
-                else
-                {
-                    _enumerator = null;
-                }
-            }
-
-            #region IEnumerator Members
-
-            public void Reset()
-            {
-                _version = _priorityQueue._version;
-                _queueIndex = _priorityQueue.GetNextNonEmptyQueue(-1);
-                if (_queueIndex >= 0)
-                {
-                    _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();
-                }
-                else
-                {
-                    _enumerator = null;
-                }
-            }
-
-            public object Current
-            {
-                get
-                {
-                    Debug.Assert(null != _enumerator);
-                    return _enumerator.Current;
-                }
-            }
-
-            public bool MoveNext()
-            {
-                if (null == _enumerator)
-                {
-                    return false;
-                }
-
-                if(_version != _priorityQueue._version)
-                {
-                    throw new InvalidOperationException("The collection has been modified");
-
-                }
-                if (!_enumerator.MoveNext())
-                {
-                    _queueIndex = _priorityQueue.GetNextNonEmptyQueue(_queueIndex);
-                    if(-1 == _queueIndex)
-                    {
-                        return false;
-                    }
-                    _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();
-                    _enumerator.MoveNext();
-                    return true;
-                }
-                return true;
-            }
-
-            #endregion
-        }
-
-        #endregion
-    }
-
-    #endregion
-}
+using System;

+using System.Collections;

+using System.Collections.Generic;

+using System.Diagnostics;

+

+namespace Amib.Threading.Internal

+{

+        #region PriorityQueue class

+

+        /// <summary>

+        /// PriorityQueue class

+        /// This class is not thread safe because we use external lock

+        /// </summary>

+        public sealed class PriorityQueue : IEnumerable

+        {

+                #region Private members

+

+                /// <summary>

+                /// The number of queues, there is one for each type of priority

+                /// </summary>

+                private const int _queuesCount = WorkItemPriority.Highest-WorkItemPriority.Lowest+1;

+

+                /// <summary>

+                /// Work items queues. There is one for each type of priority

+                /// </summary>

+        private readonly LinkedList<IHasWorkItemPriority>[] _queues = new LinkedList<IHasWorkItemPriority>[_queuesCount];

+

+                /// <summary>

+                /// The total number of work items within the queues 

+                /// </summary>

+                private int _workItemsCount;

+

+                /// <summary>

+                /// Use with IEnumerable interface

+                /// </summary>

+                private int _version;

+

+                #endregion

+

+                #region Contructor

+

+                public PriorityQueue()

+                {

+                        for(int i = 0; i < _queues.Length; ++i)

+                        {

+                _queues[i] = new LinkedList<IHasWorkItemPriority>();

+                        }

+                }

+

+                #endregion

+

+                #region Methods

+

+                /// <summary>

+                /// Enqueue a work item.

+                /// </summary>

+                /// <param name="workItem">A work item</param>

+                public void Enqueue(IHasWorkItemPriority workItem)

+                {

+                        Debug.Assert(null != workItem);

+

+                        int queueIndex = _queuesCount-(int)workItem.WorkItemPriority-1;

+                        Debug.Assert(queueIndex >= 0);

+                        Debug.Assert(queueIndex < _queuesCount);

+

+                        _queues[queueIndex].AddLast(workItem);

+                        ++_workItemsCount;

+                        ++_version;

+                }

+

+                /// <summary>

+                /// Dequeque a work item.

+                /// </summary>

+                /// <returns>Returns the next work item</returns>

+                public IHasWorkItemPriority Dequeue()

+                {

+                        IHasWorkItemPriority workItem = null;

+

+                        if(_workItemsCount > 0)

+                        {

+                                int queueIndex = GetNextNonEmptyQueue(-1);

+                                Debug.Assert(queueIndex >= 0);

+                workItem = _queues[queueIndex].First.Value;

+                                _queues[queueIndex].RemoveFirst();

+                                Debug.Assert(null != workItem);

+                                --_workItemsCount;

+                                ++_version;

+                        }

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Find the next non empty queue starting at queue queueIndex+1

+                /// </summary>

+                /// <param name="queueIndex">The index-1 to start from</param>

+                /// <returns>

+                /// The index of the next non empty queue or -1 if all the queues are empty

+                /// </returns>

+                private int GetNextNonEmptyQueue(int queueIndex)

+                {

+                        for(int i = queueIndex+1; i < _queuesCount; ++i)

+                        {

+                                if(_queues[i].Count > 0)

+                                {

+                                        return i;

+                                }

+                        }

+                        return -1;

+                }

+

+                /// <summary>

+                /// The number of work items 

+                /// </summary>

+                public int Count

+                {

+                        get

+                        {

+                                return _workItemsCount;

+                        }

+                }

+

+                /// <summary>

+                /// Clear all the work items 

+                /// </summary>

+                public void Clear()

+                {

+                        if (_workItemsCount > 0)

+                        {

+                                foreach(LinkedList<IHasWorkItemPriority> queue in _queues)

+                                {

+                                        queue.Clear();

+                                }

+                                _workItemsCount = 0;

+                                ++_version;

+                        }

+                }

+

+                #endregion

+

+                #region IEnumerable Members

+

+                /// <summary>

+                /// Returns an enumerator to iterate over the work items

+                /// </summary>

+                /// <returns>Returns an enumerator</returns>

+                public IEnumerator GetEnumerator()

+                {

+                        return new PriorityQueueEnumerator(this);

+                }

+

+                #endregion

+

+                #region PriorityQueueEnumerator

+

+                /// <summary>

+                /// The class the implements the enumerator

+                /// </summary>

+                private class PriorityQueueEnumerator : IEnumerator

+                {

+                        private readonly PriorityQueue _priorityQueue;

+                        private int _version;

+                        private int _queueIndex;

+                        private IEnumerator _enumerator;

+

+                        public PriorityQueueEnumerator(PriorityQueue priorityQueue)

+                        {

+                                _priorityQueue = priorityQueue;

+                                _version = _priorityQueue._version;

+                                _queueIndex = _priorityQueue.GetNextNonEmptyQueue(-1);

+                                if (_queueIndex >= 0)

+                                {

+                                        _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();

+                                }

+                                else

+                                {

+                                        _enumerator = null;

+                                }

+                        }

+

+                        #region IEnumerator Members

+

+                        public void Reset()

+                        {

+                                _version = _priorityQueue._version;

+                                _queueIndex = _priorityQueue.GetNextNonEmptyQueue(-1);

+                                if (_queueIndex >= 0)

+                                {

+                                        _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();

+                                }

+                                else

+                                {

+                                        _enumerator = null;

+                                }

+                        }

+

+                        public object Current

+                        {

+                                get

+                                {

+                                        Debug.Assert(null != _enumerator);

+                                        return _enumerator.Current;

+                                }

+                        }

+

+                        public bool MoveNext()

+                        {

+                                if (null == _enumerator)

+                                {

+                                        return false;

+                                }

+

+                                if(_version != _priorityQueue._version)

+                                {

+                                        throw new InvalidOperationException("The collection has been modified");

+

+                                }

+                                if (!_enumerator.MoveNext())

+                                {

+                                        _queueIndex = _priorityQueue.GetNextNonEmptyQueue(_queueIndex);

+                                        if(-1 == _queueIndex)

+                                        {

+                                                return false;

+                                        }

+                                        _enumerator = _priorityQueue._queues[_queueIndex].GetEnumerator();

+                                        _enumerator.MoveNext();

+                                        return true;

+                                }

+                                return true;

+                        }

+

+                        #endregion

+                }

+

+                #endregion

+        }

+

+        #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/Properties/AssemblyInfo.cs b/ThirdParty/SmartThreadPool/Properties/AssemblyInfo.cs
new file mode 100644
index 0000000..1651e78
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/Properties/AssemblyInfo.cs
@@ -0,0 +1,23 @@
+using System.Reflection;

+using System.Runtime.CompilerServices;

+using System.Runtime.InteropServices;

+

+[assembly: AssemblyTitle("Amib.Threading")]

+[assembly: AssemblyDescription("Smart Thread Pool")]

+[assembly: AssemblyConfiguration("")]

+[assembly: AssemblyCompany("")]

+[assembly: AssemblyProduct("Amib.Threading")]

+[assembly: AssemblyCopyright("")]

+[assembly: AssemblyTrademark("")]

+[assembly: AssemblyCulture("")]

+[assembly: ComVisible(false)]

+[assembly: Guid("c764a3de-c4f8-434d-85b5-a09830d1e44f")]

+[assembly: AssemblyVersion("2.2.3.0")]

+

+#if (_PUBLISH)

+[assembly: InternalsVisibleTo("STPTests,PublicKey=00240000048000009400000006020000002400005253413100040000010001004fe3d39add741ba7c8d52cd1eb0d94c7d79060ad956cbaff0e51c1dce94db10356b261778bc1ac3114b3218434da6fcd8416dd5507653809598f7d2afc422099ce4f6b7b0477f18e6c57c727ef2a7ab6ee56e6b4589fe44cb0e25f2875a3c65ab0383ee33c4dd93023f7ce1218bebc8b7a9a1dac878938f5c4f45ea74b6bd8ad")]

+#else

+[assembly: InternalsVisibleTo("STPTests")]

+#endif

+

+

diff --git a/ThirdParty/SmartThreadPool/SLExt.cs b/ThirdParty/SmartThreadPool/SLExt.cs
new file mode 100644
index 0000000..fafff19
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/SLExt.cs
@@ -0,0 +1,16 @@
+#if _SILVERLIGHT

+

+using System.Threading;

+

+namespace Amib.Threading

+{

+    public enum ThreadPriority

+    {

+        Lowest,

+        BelowNormal,

+        Normal,

+        AboveNormal,

+        Highest,

+    }

+}

+#endif

diff --git a/ThirdParty/SmartThreadPool/STPEventWaitHandle.cs b/ThirdParty/SmartThreadPool/STPEventWaitHandle.cs
new file mode 100644
index 0000000..3b92645
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/STPEventWaitHandle.cs
@@ -0,0 +1,62 @@
+#if !(_WINDOWS_CE)

+

+using System;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+#if _WINDOWS ||  WINDOWS_PHONE

+    internal static class STPEventWaitHandle

+    {

+        public const int WaitTimeout = Timeout.Infinite;

+

+        internal static bool WaitAll(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+        {

+            return WaitHandle.WaitAll(waitHandles, millisecondsTimeout);

+        }

+

+        internal static int WaitAny(WaitHandle[] waitHandles)

+        {

+            return WaitHandle.WaitAny(waitHandles);

+        }

+

+        internal static int WaitAny(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+        {

+            return WaitHandle.WaitAny(waitHandles, millisecondsTimeout);

+        }

+

+        internal static bool WaitOne(WaitHandle waitHandle, int millisecondsTimeout, bool exitContext)

+        {

+            return waitHandle.WaitOne(millisecondsTimeout);

+        }

+    }

+#else

+    internal static class STPEventWaitHandle

+    {

+        public const int WaitTimeout = Timeout.Infinite;

+

+        internal static bool WaitAll(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+        {

+            return WaitHandle.WaitAll(waitHandles, millisecondsTimeout, exitContext);

+        }

+

+        internal static int WaitAny(WaitHandle[] waitHandles)

+        {

+            return WaitHandle.WaitAny(waitHandles);

+        }

+

+        internal static int WaitAny(WaitHandle[] waitHandles, int millisecondsTimeout, bool exitContext)

+        {

+            return WaitHandle.WaitAny(waitHandles, millisecondsTimeout, exitContext);

+        }

+

+        internal static bool WaitOne(WaitHandle waitHandle, int millisecondsTimeout, bool exitContext)

+        {

+            return waitHandle.WaitOne(millisecondsTimeout, exitContext);

+        }

+    }

+#endif

+

+}

+

+#endif
\ No newline at end of file
diff --git a/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
index 077cf17..2508661 100644
--- a/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
+++ b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
@@ -1,354 +1,448 @@
-using System;
-using System.Diagnostics;
-
-namespace Amib.Threading.Internal
-{
-    internal enum STPPerformanceCounterType
-    {
-        // Fields
-        ActiveThreads                = 0,
-        InUseThreads                = 1,
-        OverheadThreads                = 2,
-        OverheadThreadsPercent        = 3,
-        OverheadThreadsPercentBase    = 4,
-
-        WorkItems                    = 5,
-        WorkItemsInQueue            = 6,
-        WorkItemsProcessed            = 7,
-
-        WorkItemsQueuedPerSecond    = 8,
-        WorkItemsProcessedPerSecond    = 9,
-
-        AvgWorkItemWaitTime            = 10,
-        AvgWorkItemWaitTimeBase        = 11,
-
-        AvgWorkItemProcessTime        = 12,
-        AvgWorkItemProcessTimeBase    = 13,
-
-        WorkItemsGroups                = 14,
-
-        LastCounter                    = 14,
-    }
- 
-
-    /// <summary>
-    /// Summary description for STPPerformanceCounter.
-    /// </summary>
-    internal class STPPerformanceCounter
-    {
-        // Fields
-        private PerformanceCounterType _pcType;
-        protected string _counterHelp;
-        protected string _counterName;
-
-        // Methods
-        public STPPerformanceCounter(
-            string counterName, 
-            string counterHelp, 
-            PerformanceCounterType pcType)
-        {
-            this._counterName = counterName;
-            this._counterHelp = counterHelp;
-            this._pcType = pcType;
-        }
-
-        public void AddCounterToCollection(CounterCreationDataCollection counterData)
-        {
-            CounterCreationData counterCreationData = new CounterCreationData(
-                _counterName, 
-                _counterHelp, 
-                _pcType);
-
-            counterData.Add(counterCreationData);
-        }
- 
-        // Properties
-        public string Name
-        {
-            get
-            {
-                return _counterName;
-            }
-        }
-    }
-
-    internal class STPPerformanceCounters
-    {
-        // Fields
-        internal STPPerformanceCounter[] _stpPerformanceCounters;
-        private static STPPerformanceCounters _instance;
-        internal const string _stpCategoryHelp = "SmartThreadPool performance counters";
-        internal const string _stpCategoryName = "SmartThreadPool";
-
-        // Methods
-        static STPPerformanceCounters()
-        {
-            _instance = new STPPerformanceCounters();
-        }
- 
-        private STPPerformanceCounters()
-        {
-            STPPerformanceCounter[] stpPerformanceCounters = new STPPerformanceCounter[] 
-                { 
-                    new STPPerformanceCounter("Active threads", "The current number of available in the thread pool.", PerformanceCounterType.NumberOfItems32), 
-                    new STPPerformanceCounter("In use threads", "The current number of threads that execute a work item.", PerformanceCounterType.NumberOfItems32), 
-                    new STPPerformanceCounter("Overhead threads", "The current number of threads that are active, but are not in use.", PerformanceCounterType.NumberOfItems32), 
-                    new STPPerformanceCounter("% overhead threads", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawFraction), 
-                    new STPPerformanceCounter("% overhead threads base", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawBase), 
-
-                    new STPPerformanceCounter("Work Items", "The number of work items in the Smart Thread Pool. Both queued and processed.", PerformanceCounterType.NumberOfItems32), 
-                    new STPPerformanceCounter("Work Items in queue", "The current number of work items in the queue", PerformanceCounterType.NumberOfItems32), 
-                    new STPPerformanceCounter("Work Items processed", "The number of work items already processed", PerformanceCounterType.NumberOfItems32), 
-
-                    new STPPerformanceCounter("Work Items queued/sec", "The number of work items queued per second", PerformanceCounterType.RateOfCountsPerSecond32), 
-                    new STPPerformanceCounter("Work Items processed/sec", "The number of work items processed per second", PerformanceCounterType.RateOfCountsPerSecond32), 
-
-                    new STPPerformanceCounter("Avg. Work Item wait time/sec", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageCount64), 
-                    new STPPerformanceCounter("Avg. Work Item wait time base", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageBase), 
-
-                    new STPPerformanceCounter("Avg. Work Item process time/sec", "The average time it takes to process a work item.", PerformanceCounterType.AverageCount64), 
-                    new STPPerformanceCounter("Avg. Work Item process time base", "The average time it takes to process a work item.", PerformanceCounterType.AverageBase), 
-
-                    new STPPerformanceCounter("Work Items Groups", "The current number of work item groups associated with the Smart Thread Pool.", PerformanceCounterType.NumberOfItems32), 
-                };
-
-            _stpPerformanceCounters = stpPerformanceCounters;
-            SetupCategory();
-        }
- 
-        private void SetupCategory()
-        {
-            if (!PerformanceCounterCategory.Exists(_stpCategoryName))
-            {
-                CounterCreationDataCollection counters = new CounterCreationDataCollection();
-
-                for (int i = 0; i < _stpPerformanceCounters.Length; i++)
-                {
-                    _stpPerformanceCounters[i].AddCounterToCollection(counters);
-                }
-
-
-                // *********** Remark for .NET 2.0 ***********
-                // If you are here, it means you got the warning that this overload
-                // of the method is deprecated in .NET 2.0. To use the correct 
-                // method overload, uncomment the third argument of
-                // the method.
-                #pragma warning disable 0618
-                PerformanceCounterCategory.Create(
-                    _stpCategoryName, 
-                    _stpCategoryHelp, 
-                    //PerformanceCounterCategoryType.MultiInstance,
-                    counters);
-                #pragma warning restore 0618
-            }
-        }
- 
-        // Properties
-        public static STPPerformanceCounters Instance
-        {
-            get
-            {
-                return _instance;
-            }
-        }
-     }
-
-    internal class STPInstancePerformanceCounter : IDisposable
-    {
-        // Fields
-        private PerformanceCounter _pcs;
-
-        // Methods
-        protected STPInstancePerformanceCounter()
-        {
-        }
-
-        public STPInstancePerformanceCounter(
-            string instance, 
-            STPPerformanceCounterType spcType)
-        {
-            STPPerformanceCounters counters = STPPerformanceCounters.Instance;
-            _pcs = new PerformanceCounter(
-                STPPerformanceCounters._stpCategoryName, 
-                counters._stpPerformanceCounters[(int) spcType].Name, 
-                instance, 
-                false);
-            _pcs.RawValue = _pcs.RawValue;
-        }
-
-        ~STPInstancePerformanceCounter()
-        {
-            Close();
-        }
-
-        public void Close()
-        {
-            if (_pcs != null)
-            {
-                _pcs.RemoveInstance();
-                _pcs.Close();
-                _pcs = null;
-            }
-        }
- 
-        public void Dispose()
-        {
-            Close();
-            GC.SuppressFinalize(this);
-        }
- 
-        public virtual void Increment()
-        {
-            _pcs.Increment();
-        }
- 
-        public virtual void IncrementBy(long val)
-        {
-            _pcs.IncrementBy(val);
-        }
-
-        public virtual void Set(long val)
-        {
-            _pcs.RawValue = val;
-        }
-    }
-
-    internal class STPInstanceNullPerformanceCounter : STPInstancePerformanceCounter
-    {
-        // Methods
-        public STPInstanceNullPerformanceCounter() {}
-        public override void Increment() {}
-        public override void IncrementBy(long value) {}
-        public override void Set(long val) {}
-    }
-        
-    internal interface ISTPInstancePerformanceCounters : IDisposable
-    {
-        void Close();
-        void SampleThreads(long activeThreads, long inUseThreads);
-        void SampleWorkItems(long workItemsQueued, long workItemsProcessed);
-        void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime);
-        void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime);
-    }
-
-
-    internal class STPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
-    {
-        // Fields
-        private STPInstancePerformanceCounter[] _pcs;
-        private static STPInstancePerformanceCounter _stpInstanceNullPerformanceCounter;
-
-        // Methods
-        static STPInstancePerformanceCounters()
-        {
-            _stpInstanceNullPerformanceCounter = new STPInstanceNullPerformanceCounter();
-        }
- 
-        public STPInstancePerformanceCounters(string instance)
-        {
-            _pcs = new STPInstancePerformanceCounter[(int)STPPerformanceCounterType.LastCounter];
-            // STPPerformanceCounters counters = STPPerformanceCounters.Instance;
-            for (int i = 0; i < _pcs.Length; i++)
-            {
-                if (instance != null)
-                {
-                    _pcs[i] = new STPInstancePerformanceCounter(
-                        instance, 
-                        (STPPerformanceCounterType) i);
-                }
-                else
-                {
-                    _pcs[i] = _stpInstanceNullPerformanceCounter;
-                }
-            }
-        }
- 
-
-        public void Close()
-        {
-            if (null != _pcs)
-            {
-                for (int i = 0; i < _pcs.Length; i++)
-                {
-                    if (null != _pcs[i])
-                    {
-                        _pcs[i].Close();
-                    }
-                }
-                _pcs = null;
-            }
-        }
-
-        ~STPInstancePerformanceCounters()
-        {
-            Close();
-        }
-
-        public void Dispose()
-        {
-            Close();
-            GC.SuppressFinalize(this);
-        }
- 
-        private STPInstancePerformanceCounter GetCounter(STPPerformanceCounterType spcType)
-        {
-            return _pcs[(int) spcType];
-        }
-
-        public void SampleThreads(long activeThreads, long inUseThreads)
-        {
-            GetCounter(STPPerformanceCounterType.ActiveThreads).Set(activeThreads);
-            GetCounter(STPPerformanceCounterType.InUseThreads).Set(inUseThreads);
-            GetCounter(STPPerformanceCounterType.OverheadThreads).Set(activeThreads-inUseThreads);
-
-            GetCounter(STPPerformanceCounterType.OverheadThreadsPercentBase).Set(activeThreads-inUseThreads);
-            GetCounter(STPPerformanceCounterType.OverheadThreadsPercent).Set(inUseThreads);
-        }
-
-        public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)
-        {
-            GetCounter(STPPerformanceCounterType.WorkItems).Set(workItemsQueued+workItemsProcessed);
-            GetCounter(STPPerformanceCounterType.WorkItemsInQueue).Set(workItemsQueued);
-            GetCounter(STPPerformanceCounterType.WorkItemsProcessed).Set(workItemsProcessed);
-
-            GetCounter(STPPerformanceCounterType.WorkItemsQueuedPerSecond).Set(workItemsQueued);
-            GetCounter(STPPerformanceCounterType.WorkItemsProcessedPerSecond).Set(workItemsProcessed);
-        }
-
-        public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)
-        {
-            GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTime).IncrementBy((long)workItemWaitTime.TotalMilliseconds);
-            GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTimeBase).Increment();
-        }
-
-        public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)
-        {
-            GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTime).IncrementBy((long)workItemProcessTime.TotalMilliseconds);
-            GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTimeBase).Increment();
-        }
-    }
-
-    internal class NullSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
-    {
-        static NullSTPInstancePerformanceCounters()
-        {
-        }
-
-        private static NullSTPInstancePerformanceCounters _instance = new NullSTPInstancePerformanceCounters(null);
-
-        public static NullSTPInstancePerformanceCounters Instance
-        {
-            get { return _instance; }
-        }
-
-        public NullSTPInstancePerformanceCounters(string instance) {}
-         public void Close() {}
-        public void Dispose() {}
- 
-        public void SampleThreads(long activeThreads, long inUseThreads) {}
-        public void SampleWorkItems(long workItemsQueued, long workItemsProcessed) {}
-        public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime) {}
-        public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime) {}
-    }
-
-}
+using System;

+using System.Diagnostics;

+using System.Threading;

+

+namespace Amib.Threading

+{

+    public interface ISTPPerformanceCountersReader

+    {

+        long InUseThreads { get; }

+        long ActiveThreads { get; }

+        long WorkItemsQueued { get; }

+        long WorkItemsProcessed { get; }

+    }

+}

+

+namespace Amib.Threading.Internal

+{

+    internal interface ISTPInstancePerformanceCounters : IDisposable

+    {

+        void Close();

+        void SampleThreads(long activeThreads, long inUseThreads);

+        void SampleWorkItems(long workItemsQueued, long workItemsProcessed);

+        void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime);

+        void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime);

+    }

+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+

+    internal enum STPPerformanceCounterType

+        {

+                // Fields

+                ActiveThreads                           = 0,

+                InUseThreads                            = 1,

+                OverheadThreads                         = 2,

+                OverheadThreadsPercent          = 3,

+                OverheadThreadsPercentBase      = 4,

+

+                WorkItems                                       = 5,

+                WorkItemsInQueue                        = 6,

+                WorkItemsProcessed                      = 7,

+

+                WorkItemsQueuedPerSecond        = 8,

+                WorkItemsProcessedPerSecond     = 9,

+

+                AvgWorkItemWaitTime                     = 10,

+                AvgWorkItemWaitTimeBase         = 11,

+

+                AvgWorkItemProcessTime          = 12,

+                AvgWorkItemProcessTimeBase      = 13,

+

+                WorkItemsGroups                         = 14,

+

+                LastCounter                                     = 14,

+        }

+ 

+

+        /// <summary>

+        /// Summary description for STPPerformanceCounter.

+        /// </summary>

+        internal class STPPerformanceCounter

+        {

+                // Fields

+                private readonly PerformanceCounterType _pcType;

+                protected string _counterHelp;

+                protected string _counterName;

+

+                // Methods

+                public STPPerformanceCounter(

+                        string counterName, 

+                        string counterHelp, 

+                        PerformanceCounterType pcType)

+                {

+                        _counterName = counterName;

+                        _counterHelp = counterHelp;

+                        _pcType = pcType;

+                }

+

+                public void AddCounterToCollection(CounterCreationDataCollection counterData)

+                {

+                        CounterCreationData counterCreationData = new CounterCreationData(

+                                _counterName, 

+                                _counterHelp, 

+                                _pcType);

+

+                        counterData.Add(counterCreationData);

+                }

+ 

+                // Properties

+                public string Name

+                {

+                        get

+                        {

+                                return _counterName;

+                        }

+                }

+        }

+

+        internal class STPPerformanceCounters

+        {

+                // Fields

+                internal STPPerformanceCounter[] _stpPerformanceCounters;

+                private static readonly STPPerformanceCounters _instance;

+                internal const string _stpCategoryHelp = "SmartThreadPool performance counters";

+                internal const string _stpCategoryName = "SmartThreadPool";

+

+                // Methods

+                static STPPerformanceCounters()

+                {

+                        _instance = new STPPerformanceCounters();

+                }

+ 

+                private STPPerformanceCounters()

+                {

+                        STPPerformanceCounter[] stpPerformanceCounters = new STPPerformanceCounter[] 

+                                { 

+                                        new STPPerformanceCounter("Active threads", "The current number of available in the thread pool.", PerformanceCounterType.NumberOfItems32), 

+                                        new STPPerformanceCounter("In use threads", "The current number of threads that execute a work item.", PerformanceCounterType.NumberOfItems32), 

+                                        new STPPerformanceCounter("Overhead threads", "The current number of threads that are active, but are not in use.", PerformanceCounterType.NumberOfItems32), 

+                                        new STPPerformanceCounter("% overhead threads", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawFraction), 

+                                        new STPPerformanceCounter("% overhead threads base", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawBase), 

+

+                                        new STPPerformanceCounter("Work Items", "The number of work items in the Smart Thread Pool. Both queued and processed.", PerformanceCounterType.NumberOfItems32), 

+                                        new STPPerformanceCounter("Work Items in queue", "The current number of work items in the queue", PerformanceCounterType.NumberOfItems32), 

+                                        new STPPerformanceCounter("Work Items processed", "The number of work items already processed", PerformanceCounterType.NumberOfItems32), 

+

+                                        new STPPerformanceCounter("Work Items queued/sec", "The number of work items queued per second", PerformanceCounterType.RateOfCountsPerSecond32), 

+                                        new STPPerformanceCounter("Work Items processed/sec", "The number of work items processed per second", PerformanceCounterType.RateOfCountsPerSecond32), 

+

+                                        new STPPerformanceCounter("Avg. Work Item wait time/sec", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageCount64), 

+                                        new STPPerformanceCounter("Avg. Work Item wait time base", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageBase), 

+

+                                        new STPPerformanceCounter("Avg. Work Item process time/sec", "The average time it takes to process a work item.", PerformanceCounterType.AverageCount64), 

+                                        new STPPerformanceCounter("Avg. Work Item process time base", "The average time it takes to process a work item.", PerformanceCounterType.AverageBase), 

+

+                                        new STPPerformanceCounter("Work Items Groups", "The current number of work item groups associated with the Smart Thread Pool.", PerformanceCounterType.NumberOfItems32), 

+                                };

+

+                        _stpPerformanceCounters = stpPerformanceCounters;

+                        SetupCategory();

+                }

+ 

+                private void SetupCategory()

+                {

+                        if (!PerformanceCounterCategory.Exists(_stpCategoryName))

+                        {

+                                CounterCreationDataCollection counters = new CounterCreationDataCollection();

+

+                                for (int i = 0; i < _stpPerformanceCounters.Length; i++)

+                                {

+                                        _stpPerformanceCounters[i].AddCounterToCollection(counters);

+                                }

+

+                                PerformanceCounterCategory.Create(

+                                        _stpCategoryName, 

+                                        _stpCategoryHelp, 

+                    PerformanceCounterCategoryType.MultiInstance,

+                                        counters);

+                                        

+                        }

+                }

+ 

+                // Properties

+                public static STPPerformanceCounters Instance

+                {

+                        get

+                        {

+                                return _instance;

+                        }

+                }

+        }

+

+        internal class STPInstancePerformanceCounter : IDisposable

+        {

+                // Fields

+        private bool _isDisposed;

+                private PerformanceCounter _pcs;

+

+                // Methods

+                protected STPInstancePerformanceCounter()

+                {

+            _isDisposed = false;

+                }

+

+                public STPInstancePerformanceCounter(

+                        string instance, 

+                        STPPerformanceCounterType spcType) : this()

+                {

+                        STPPerformanceCounters counters = STPPerformanceCounters.Instance;

+                        _pcs = new PerformanceCounter(

+                                STPPerformanceCounters._stpCategoryName, 

+                                counters._stpPerformanceCounters[(int) spcType].Name, 

+                                instance, 

+                                false);

+                        _pcs.RawValue = _pcs.RawValue;

+                }

+

+

+                public void Close()

+                {

+                        if (_pcs != null)

+                        {

+                                _pcs.RemoveInstance();

+                                _pcs.Close();

+                                _pcs = null;

+                        }

+                }

+ 

+                public void Dispose()

+                {

+            Dispose(true);

+                }

+

+        public virtual void Dispose(bool disposing)

+        {

+            if (!_isDisposed)

+            {

+                if (disposing)

+                {

+                    Close();

+                }

+            }

+            _isDisposed = true;

+        }

+ 

+                public virtual void Increment()

+                {

+                        _pcs.Increment();

+                }

+ 

+                public virtual void IncrementBy(long val)

+                {

+                        _pcs.IncrementBy(val);

+                }

+

+                public virtual void Set(long val)

+                {

+                        _pcs.RawValue = val;

+                }

+        }

+

+        internal class STPInstanceNullPerformanceCounter : STPInstancePerformanceCounter

+        {

+                // Methods

+                public override void Increment() {}

+                public override void IncrementBy(long value) {}

+                public override void Set(long val) {}

+        }

+

+

+

+        internal class STPInstancePerformanceCounters : ISTPInstancePerformanceCounters

+        {

+        private bool _isDisposed;

+                // Fields

+                private STPInstancePerformanceCounter[] _pcs;

+                private static readonly STPInstancePerformanceCounter _stpInstanceNullPerformanceCounter;

+

+                // Methods

+                static STPInstancePerformanceCounters()

+                {

+                        _stpInstanceNullPerformanceCounter = new STPInstanceNullPerformanceCounter();

+                }

+ 

+                public STPInstancePerformanceCounters(string instance)

+                {

+            _isDisposed = false;

+                        _pcs = new STPInstancePerformanceCounter[(int)STPPerformanceCounterType.LastCounter];

+

+            // Call the STPPerformanceCounters.Instance so the static constructor will

+            // intialize the STPPerformanceCounters singleton.

+                        STPPerformanceCounters.Instance.GetHashCode();

+

+                        for (int i = 0; i < _pcs.Length; i++)

+                        {

+                                if (instance != null)

+                                {

+                                        _pcs[i] = new STPInstancePerformanceCounter(

+                                                instance, 

+                                                (STPPerformanceCounterType) i);

+                                }

+                                else

+                                {

+                                        _pcs[i] = _stpInstanceNullPerformanceCounter;

+                                }

+                        }

+                }

+ 

+

+                public void Close()

+                {

+                        if (null != _pcs)

+                        {

+                                for (int i = 0; i < _pcs.Length; i++)

+                                {

+                    if (null != _pcs[i])

+                    {

+                        _pcs[i].Dispose();

+                    }

+                                }

+                                _pcs = null;

+                        }

+                }

+

+                public void Dispose()

+                {

+            Dispose(true);

+                }

+

+        public virtual void Dispose(bool disposing)

+        {

+            if (!_isDisposed)

+            {

+                if (disposing)

+                {

+                    Close();

+                }

+            }

+            _isDisposed = true;

+        }

+ 

+                private STPInstancePerformanceCounter GetCounter(STPPerformanceCounterType spcType)

+                {

+                        return _pcs[(int) spcType];

+                }

+

+                public void SampleThreads(long activeThreads, long inUseThreads)

+                {

+                        GetCounter(STPPerformanceCounterType.ActiveThreads).Set(activeThreads);

+                        GetCounter(STPPerformanceCounterType.InUseThreads).Set(inUseThreads);

+                        GetCounter(STPPerformanceCounterType.OverheadThreads).Set(activeThreads-inUseThreads);

+

+                        GetCounter(STPPerformanceCounterType.OverheadThreadsPercentBase).Set(activeThreads-inUseThreads);

+                        GetCounter(STPPerformanceCounterType.OverheadThreadsPercent).Set(inUseThreads);

+                }

+

+                public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)

+                {

+                        GetCounter(STPPerformanceCounterType.WorkItems).Set(workItemsQueued+workItemsProcessed);

+                        GetCounter(STPPerformanceCounterType.WorkItemsInQueue).Set(workItemsQueued);

+                        GetCounter(STPPerformanceCounterType.WorkItemsProcessed).Set(workItemsProcessed);

+

+                        GetCounter(STPPerformanceCounterType.WorkItemsQueuedPerSecond).Set(workItemsQueued);

+                        GetCounter(STPPerformanceCounterType.WorkItemsProcessedPerSecond).Set(workItemsProcessed);

+                }

+

+                public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)

+                {

+                        GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTime).IncrementBy((long)workItemWaitTime.TotalMilliseconds);

+                        GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTimeBase).Increment();

+                }

+

+                public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)

+                {

+                        GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTime).IncrementBy((long)workItemProcessTime.TotalMilliseconds);

+                        GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTimeBase).Increment();

+                }

+    }

+#endif

+

+    internal class NullSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, ISTPPerformanceCountersReader

+        {

+                private static readonly NullSTPInstancePerformanceCounters _instance = new NullSTPInstancePerformanceCounters();

+

+                public static NullSTPInstancePerformanceCounters Instance

+                {

+                        get { return _instance; }

+                }

+

+                public void Close() {}

+                public void Dispose() {}

+ 

+                public void SampleThreads(long activeThreads, long inUseThreads) {}

+                public void SampleWorkItems(long workItemsQueued, long workItemsProcessed) {}

+                public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime) {}

+                public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime) {}

+        public long InUseThreads

+        {

+            get { return 0; }

+        }

+

+        public long ActiveThreads

+        {

+            get { return 0; }

+        }

+

+        public long WorkItemsQueued

+        {

+            get { return 0; }

+        }

+

+        public long WorkItemsProcessed

+        {

+            get { return 0; }

+        }

+        }

+

+    internal class LocalSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, ISTPPerformanceCountersReader

+    {

+        public void Close() { }

+        public void Dispose() { }

+

+        private long _activeThreads;

+        private long _inUseThreads;

+        private long _workItemsQueued;

+        private long _workItemsProcessed;

+

+        public long InUseThreads

+        {

+            get { return _inUseThreads; }

+        }

+

+        public long ActiveThreads

+        {

+            get { return _activeThreads; }

+        }

+

+        public long WorkItemsQueued

+        {

+            get { return _workItemsQueued; }

+        }

+

+        public long WorkItemsProcessed

+        {

+            get { return _workItemsProcessed; }

+        }

+

+        public void SampleThreads(long activeThreads, long inUseThreads)

+        {

+            _activeThreads = activeThreads;

+            _inUseThreads = inUseThreads;

+        }

+

+        public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)

+        {

+            _workItemsQueued = workItemsQueued;

+            _workItemsProcessed = workItemsProcessed;

+        }

+

+        public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)

+        {

+            // Not supported

+        }

+

+        public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)

+        {

+            // Not supported

+        }

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/STPStartInfo.cs b/ThirdParty/SmartThreadPool/STPStartInfo.cs
index fa9ceb4..2ec8dc6 100644
--- a/ThirdParty/SmartThreadPool/STPStartInfo.cs
+++ b/ThirdParty/SmartThreadPool/STPStartInfo.cs
@@ -1,113 +1,212 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System.Threading;
-
-namespace Amib.Threading
-{
-    /// <summary>
-    /// Summary description for STPStartInfo.
-    /// </summary>
-    public class STPStartInfo : WIGStartInfo
-    {
-        /// <summary>
-        /// Idle timeout in milliseconds.
-        /// If a thread is idle for _idleTimeout milliseconds then 
-        /// it may quit.
-        /// </summary>
-        private int _idleTimeout;
-
-        /// <summary>
-        /// The lower limit of threads in the pool.
-        /// </summary>
-        private int _minWorkerThreads;
-
-        /// <summary>
-        /// The upper limit of threads in the pool.
-        /// </summary>
-        private int _maxWorkerThreads;
-
-        /// <summary>
-        /// The priority of the threads in the pool
-        /// </summary>
-        private ThreadPriority _threadPriority;
-
-        /// <summary>
-        /// The thread pool name. Threads will get names depending on this.
-        /// </summary>
-        private string _threadPoolName;
-
-        /// <summary>
-        /// If this field is not null then the performance counters are enabled
-        /// and use the string as the name of the instance.
-        /// </summary>
-        private string _pcInstanceName;
-
-        private int _stackSize;
-
-        public STPStartInfo() : base()
-        {
-            _idleTimeout = SmartThreadPool.DefaultIdleTimeout;
-            _minWorkerThreads = SmartThreadPool.DefaultMinWorkerThreads;
-            _maxWorkerThreads = SmartThreadPool.DefaultMaxWorkerThreads;
-            _threadPriority = SmartThreadPool.DefaultThreadPriority;
-            _threadPoolName = SmartThreadPool.DefaultThreadPoolName;
-            _pcInstanceName = SmartThreadPool.DefaultPerformanceCounterInstanceName;
-            _stackSize = SmartThreadPool.DefaultStackSize;
-        }
-
-        public STPStartInfo(STPStartInfo stpStartInfo) : base(stpStartInfo)
-        {
-            _idleTimeout = stpStartInfo._idleTimeout;
-            _minWorkerThreads = stpStartInfo._minWorkerThreads;
-            _maxWorkerThreads = stpStartInfo._maxWorkerThreads;
-            _threadPriority = stpStartInfo._threadPriority;
-            _threadPoolName = stpStartInfo._threadPoolName;
-            _pcInstanceName = stpStartInfo._pcInstanceName;
-            _stackSize = stpStartInfo._stackSize;
-        }
-
-        public int IdleTimeout
-        {
-            get { return _idleTimeout; }
-            set { _idleTimeout = value; }
-        }
-
-        public int MinWorkerThreads
-        {
-            get { return _minWorkerThreads; }
-            set { _minWorkerThreads = value; }
-        }
-
-        public int MaxWorkerThreads
-        {
-            get { return _maxWorkerThreads; }
-            set { _maxWorkerThreads = value; }
-        }
-
-        public ThreadPriority ThreadPriority
-        {
-            get { return _threadPriority; }
-            set { _threadPriority = value; }
-        }
-
-        public virtual string ThreadPoolName
-        {
-            get { return _threadPoolName; }
-            set { _threadPoolName = value; }
-        }
-
-
-        public string PerformanceCounterInstanceName
-        {
-            get { return _pcInstanceName; }
-            set { _pcInstanceName = value; }
-        }
-
-        public int StackSize
-        {
-            get { return _stackSize; }
-            set { _stackSize = value; }
-        }
-    }
-}
+using System;

+using System.Threading;

+

+namespace Amib.Threading

+{

+        /// <summary>

+        /// Summary description for STPStartInfo.

+        /// </summary>

+    public class STPStartInfo : WIGStartInfo

+    {

+        private int _idleTimeout = SmartThreadPool.DefaultIdleTimeout;

+        private int _minWorkerThreads = SmartThreadPool.DefaultMinWorkerThreads;

+        private int _maxWorkerThreads = SmartThreadPool.DefaultMaxWorkerThreads;

+#if !(WINDOWS_PHONE)

+        private ThreadPriority _threadPriority = SmartThreadPool.DefaultThreadPriority;

+#endif

+        private string _performanceCounterInstanceName = SmartThreadPool.DefaultPerformanceCounterInstanceName;

+        private bool _areThreadsBackground = SmartThreadPool.DefaultAreThreadsBackground;

+        private bool _enableLocalPerformanceCounters;

+        private string _threadPoolName = SmartThreadPool.DefaultThreadPoolName;

+        private int? _maxStackSize = SmartThreadPool.DefaultMaxStackSize;

+

+        public STPStartInfo()

+        {

+            _performanceCounterInstanceName = SmartThreadPool.DefaultPerformanceCounterInstanceName;

+#if !(WINDOWS_PHONE)

+            _threadPriority = SmartThreadPool.DefaultThreadPriority;

+#endif

+            _maxWorkerThreads = SmartThreadPool.DefaultMaxWorkerThreads;

+            _idleTimeout = SmartThreadPool.DefaultIdleTimeout;

+            _minWorkerThreads = SmartThreadPool.DefaultMinWorkerThreads;

+        }

+

+            public STPStartInfo(STPStartInfo stpStartInfo)

+            : base(stpStartInfo)

+        {

+            _idleTimeout = stpStartInfo.IdleTimeout;

+            _minWorkerThreads = stpStartInfo.MinWorkerThreads;

+            _maxWorkerThreads = stpStartInfo.MaxWorkerThreads;

+#if !(WINDOWS_PHONE)

+            _threadPriority = stpStartInfo.ThreadPriority;

+#endif

+            _performanceCounterInstanceName = stpStartInfo.PerformanceCounterInstanceName;

+            _enableLocalPerformanceCounters = stpStartInfo._enableLocalPerformanceCounters;

+            _threadPoolName = stpStartInfo._threadPoolName;

+            _areThreadsBackground = stpStartInfo.AreThreadsBackground;

+#if !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+            _apartmentState = stpStartInfo._apartmentState;

+#endif

+        }

+          

+            /// <summary>

+            /// Get/Set the idle timeout in milliseconds.

+            /// If a thread is idle (starved) longer than IdleTimeout then it may quit.

+            /// </summary>

+            public virtual int IdleTimeout

+            {

+                get { return _idleTimeout; }

+                set 

+            {

+                ThrowIfReadOnly();

+                _idleTimeout = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set the lower limit of threads in the pool.

+            /// </summary>

+            public virtual int MinWorkerThreads

+            {

+                get { return _minWorkerThreads; }

+                set 

+            {

+                ThrowIfReadOnly();

+                _minWorkerThreads = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set the upper limit of threads in the pool.

+            /// </summary>

+            public virtual int MaxWorkerThreads

+            {

+                get { return _maxWorkerThreads; }

+                set 

+            {

+                ThrowIfReadOnly();

+                _maxWorkerThreads = value; 

+            }

+            }

+

+#if !(WINDOWS_PHONE)

+            /// <summary>

+            /// Get/Set the scheduling priority of the threads in the pool.

+            /// The Os handles the scheduling.

+            /// </summary>

+            public virtual ThreadPriority ThreadPriority

+            {

+                get { return _threadPriority; }

+                set 

+            {

+                ThrowIfReadOnly();

+                _threadPriority = value; 

+            }

+            }

+#endif

+        /// <summary>

+        /// Get/Set the thread pool name. Threads will get names depending on this.

+        /// </summary>

+        public virtual string ThreadPoolName {

+            get { return _threadPoolName; }

+            set

+            {

+                ThrowIfReadOnly ();

+                _threadPoolName = value;

+            }

+        }

+

+            /// <summary>

+            /// Get/Set the performance counter instance name of this SmartThreadPool

+            /// The default is null which indicate not to use performance counters at all.

+            /// </summary>

+            public virtual string PerformanceCounterInstanceName

+            {

+                get { return _performanceCounterInstanceName; }

+                set 

+            {

+                ThrowIfReadOnly();

+                _performanceCounterInstanceName = value; 

+            }

+            }

+

+        /// <summary>

+        /// Enable/Disable the local performance counter.

+        /// This enables the user to get some performance information about the SmartThreadPool 

+        /// without using Windows performance counters. (Useful on WindowsCE, Silverlight, etc.)

+        /// The default is false.

+        /// </summary>

+        public virtual bool EnableLocalPerformanceCounters

+            {

+                get { return _enableLocalPerformanceCounters; }

+                set 

+                        { 

+                                ThrowIfReadOnly(); 

+                                _enableLocalPerformanceCounters = value; 

+                        }

+            }

+

+        /// <summary>

+        /// Get/Set backgroundness of thread in thread pool.

+        /// </summary>

+            public virtual bool AreThreadsBackground

+            {

+                get { return _areThreadsBackground; }

+                set

+                {

+                    ThrowIfReadOnly ();

+                    _areThreadsBackground = value;

+                }

+            }

+

+            /// <summary>

+        /// Get a readonly version of this STPStartInfo.

+        /// </summary>

+        /// <returns>Returns a readonly reference to this STPStartInfo</returns>

+        public new STPStartInfo AsReadOnly()

+        {

+            return new STPStartInfo(this) { _readOnly = true };

+        }

+

+#if !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+

+        private ApartmentState _apartmentState = SmartThreadPool.DefaultApartmentState;

+

+        /// <summary>

+        /// Get/Set the apartment state of threads in the thread pool

+        /// </summary>

+        public ApartmentState ApartmentState

+        {

+            get { return _apartmentState; }

+            set

+            {

+                ThrowIfReadOnly();

+                _apartmentState = value;

+            }

+        } 

+

+#if !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+        

+        /// <summary>

+        /// Get/Set the max stack size of threads in the thread pool

+        /// </summary>

+        public int? MaxStackSize

+        {

+            get { return _maxStackSize; }

+            set

+            {

+                ThrowIfReadOnly();

+                if (value.HasValue && value.Value < 0)

+                {

+                    throw new ArgumentOutOfRangeException("value", "Value must be greater than 0.");

+                }

+                _maxStackSize = value;

+            }

+        }

+#endif

+

+#endif

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/SmartThreadPool.ThreadEntry.cs b/ThirdParty/SmartThreadPool/SmartThreadPool.ThreadEntry.cs
new file mode 100644
index 0000000..ba7d73f
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/SmartThreadPool.ThreadEntry.cs
@@ -0,0 +1,60 @@
+

+using System;

+using Amib.Threading.Internal;

+

+namespace Amib.Threading

+{

+    public partial class SmartThreadPool

+    {

+        #region ThreadEntry class

+

+        internal class ThreadEntry

+        {

+            /// <summary>

+            /// The thread creation time

+            /// The value is stored as UTC value.

+            /// </summary>

+            private readonly DateTime _creationTime;

+

+            /// <summary>

+            /// The last time this thread has been running

+            /// It is updated by IAmAlive() method

+            /// The value is stored as UTC value.

+            /// </summary>

+            private DateTime _lastAliveTime;

+

+            /// <summary>

+            /// A reference from each thread in the thread pool to its SmartThreadPool

+            /// object container.

+            /// With this variable a thread can know whatever it belongs to a 

+            /// SmartThreadPool.

+            /// </summary>

+            private readonly SmartThreadPool _associatedSmartThreadPool;

+

+            /// <summary>

+            /// A reference to the current work item a thread from the thread pool 

+            /// is executing.

+            /// </summary>            

+            public WorkItem CurrentWorkItem { get; set; }

+

+            public ThreadEntry(SmartThreadPool stp)

+            {

+                _associatedSmartThreadPool = stp;

+                _creationTime = DateTime.UtcNow;

+                _lastAliveTime = DateTime.MinValue;

+            }

+

+            public SmartThreadPool AssociatedSmartThreadPool

+            {

+                get { return _associatedSmartThreadPool; }

+            }

+

+            public void IAmAlive()

+            {

+                _lastAliveTime = DateTime.UtcNow;

+            }

+        }

+

+        #endregion

+    }

+}
\ No newline at end of file
diff --git a/ThirdParty/SmartThreadPool/SmartThreadPool.cs b/ThirdParty/SmartThreadPool/SmartThreadPool.cs
index 19a0007..9256777 100644
--- a/ThirdParty/SmartThreadPool/SmartThreadPool.cs
+++ b/ThirdParty/SmartThreadPool/SmartThreadPool.cs
@@ -1,1448 +1,1732 @@
-// Ami Bar
-// amibar@gmail.com
-//
-// Smart thread pool in C#.
-// 7 Aug 2004 - Initial release
-// 14 Sep 2004 - Bug fixes 
-// 15 Oct 2004 - Added new features
-//        - Work items return result.
-//        - Support waiting synchronization for multiple work items.
-//        - Work items can be cancelled.
-//        - Passage of the caller thread’s context to the thread in the pool.
-//        - Minimal usage of WIN32 handles.
-//        - Minor bug fixes.
-// 26 Dec 2004 - Changes:
-//        - Removed static constructors.
-//      - Added finalizers.
-//        - Changed Exceptions so they are serializable.
-//        - Fixed the bug in one of the SmartThreadPool constructors.
-//        - Changed the SmartThreadPool.WaitAll() so it will support any number of waiters. 
-//        The SmartThreadPool.WaitAny() is still limited by the .NET Framework.
-//        - Added PostExecute with options on which cases to call it.
-//      - Added option to dispose of the state objects.
-//      - Added a WaitForIdle() method that waits until the work items queue is empty.
-//      - Added an STPStartInfo class for the initialization of the thread pool.
-//      - Changed exception handling so if a work item throws an exception it 
-//        is rethrown at GetResult(), rather then firing an UnhandledException event.
-//        Note that PostExecute exception are always ignored.
-// 25 Mar 2005 - Changes:
-//        - Fixed lost of work items bug
-// 3 Jul 2005: Changes.
-//      - Fixed bug where Enqueue() throws an exception because PopWaiter() returned null, hardly reconstructed. 
-// 16 Aug 2005: Changes.
-//        - Fixed bug where the InUseThreads becomes negative when canceling work items. 
-//
-// 31 Jan 2006 - Changes:
-//        - Added work items priority
-//        - Removed support of chained delegates in callbacks and post executes (nobody really use this)
-//        - Added work items groups
-//        - Added work items groups idle event
-//        - Changed SmartThreadPool.WaitAll() behavior so when it gets empty array
-//          it returns true rather then throwing an exception.
-//        - Added option to start the STP and the WIG as suspended
-//        - Exception behavior changed, the real exception is returned by an 
-//          inner exception
-//        - Added option to keep the Http context of the caller thread. (Thanks to Steven T.)
-//        - Added performance counters
-//        - Added priority to the threads in the pool
-//
-// 13 Feb 2006 - Changes:
-//        - Added a call to the dispose of the Performance Counter so
-//          their won't be a Performance Counter leak.
-//        - Added exception catch in case the Performance Counters cannot 
-//          be created.
-
-using System;
-using System.Security;
-using System.Threading;
-using System.Collections;
-using System.Diagnostics;
-using System.Runtime.CompilerServices;
-
-using Amib.Threading.Internal;
-
-namespace Amib.Threading
-{
-    #region SmartThreadPool class
-    /// <summary>
-    /// Smart thread pool class.
-    /// </summary>
-    public class SmartThreadPool : IWorkItemsGroup, IDisposable
-    {
-        #region Default Constants
-
-        /// <summary>
-        /// Default minimum number of threads the thread pool contains. (0)
-        /// </summary>
-        public const int DefaultMinWorkerThreads = 0;
-
-        /// <summary>
-        /// Default maximum number of threads the thread pool contains. (25)
-        /// </summary>
-        public const int DefaultMaxWorkerThreads = 25;
-
-        /// <summary>
-        /// Default idle timeout in milliseconds. (One minute)
-        /// </summary>
-        public const int DefaultIdleTimeout = 60*1000; // One minute
-
-        /// <summary>
-        /// Indicate to copy the security context of the caller and then use it in the call. (false)
-        /// </summary>
-        public const bool DefaultUseCallerCallContext = false; 
-
-        /// <summary>
-        /// Indicate to copy the HTTP context of the caller and then use it in the call. (false)
-        /// </summary>
-        public const bool DefaultUseCallerHttpContext = false;
-
-        /// <summary>
-        /// Indicate to dispose of the state objects if they support the IDispose interface. (false)
-        /// </summary>
-        public const bool DefaultDisposeOfStateObjects = false; 
-
-        /// <summary>
-        /// The default option to run the post execute
-        /// </summary>
-        public const CallToPostExecute DefaultCallToPostExecute = CallToPostExecute.Always;
-
-        /// <summary>
-        /// The default post execute method to run. 
-        /// When null it means not to call it.
-        /// </summary>
-        public static readonly PostExecuteWorkItemCallback DefaultPostExecuteWorkItemCallback = null;
-
-        /// <summary>
-        /// The default work item priority
-        /// </summary>
-        public const WorkItemPriority DefaultWorkItemPriority = WorkItemPriority.Normal;
-
-        /// <summary>
-        /// The default is to work on work items as soon as they arrive
-        /// and not to wait for the start.
-        /// </summary>
-        public const bool DefaultStartSuspended = false;
-
-        /// <summary>
-        /// The default is not to use the performance counters
-        /// </summary>
-        public static readonly string DefaultPerformanceCounterInstanceName = null;
-
-        public static readonly int DefaultStackSize = 0;
-
-        /// <summary>
-        /// The default thread priority
-        /// </summary>
-        public const ThreadPriority DefaultThreadPriority = ThreadPriority.Normal;
-
-        /// <summary>
-        /// The default thread pool name
-        /// </summary>
-        public const string DefaultThreadPoolName = "SmartThreadPool";
-
-        #endregion
-
-        #region Member Variables
-
-        /// <summary>
-        /// Contains the name of this instance of SmartThreadPool.
-        /// Can be changed by the user.
-        /// </summary>
-        private string _name = DefaultThreadPoolName;
-
-        /// <summary>
-        /// Hashtable of all the threads in the thread pool.
-        /// </summary>
-        private Hashtable _workerThreads = Hashtable.Synchronized(new Hashtable());
-
-        /// <summary>
-        /// Queue of work items.
-        /// </summary>
-        private WorkItemsQueue _workItemsQueue = new WorkItemsQueue();
-
-        /// <summary>
-        /// Count the work items handled.
-        /// Used by the performance counter.
-        /// </summary>
-        private long _workItemsProcessed = 0;
-
-        /// <summary>
-        /// Number of threads that currently work (not idle).
-        /// </summary>
-        private int _inUseWorkerThreads = 0;
-
-        /// <summary>
-        /// Start information to use. 
-        /// It is simpler than providing many constructors.
-        /// </summary>
-        private STPStartInfo _stpStartInfo = new STPStartInfo();
-
-        /// <summary>
-        /// Total number of work items that are stored in the work items queue 
-        /// plus the work items that the threads in the pool are working on.
-        /// </summary>
-        private int _currentWorkItemsCount = 0;
-
-        /// <summary>
-        /// Signaled when the thread pool is idle, i.e. no thread is busy
-        /// and the work items queue is empty
-        /// </summary>
-        private ManualResetEvent _isIdleWaitHandle = new ManualResetEvent(true);
-
-        /// <summary>
-        /// An event to signal all the threads to quit immediately.
-        /// </summary>
-        private ManualResetEvent _shuttingDownEvent = new ManualResetEvent(false);
-
-        /// <summary>
-        /// A flag to indicate the threads to quit.
-        /// </summary>
-        private bool _shutdown = false;
-
-        /// <summary>
-        /// Counts the threads created in the pool.
-        /// It is used to name the threads.
-        /// </summary>
-        private int _threadCounter = 0;
-
-        /// <summary>
-        /// Indicate that the SmartThreadPool has been disposed
-        /// </summary>
-        private bool _isDisposed = false;
-
-        /// <summary>
-        /// Event to send that the thread pool is idle
-        /// </summary>
-        private event EventHandler _stpIdle;
-
-        /// <summary>
-        /// On idle event
-        /// </summary>
-        //private event WorkItemsGroupIdleHandler _onIdle;
-
-        /// <summary>
-        /// Holds all the WorkItemsGroup instaces that have at least one 
-        /// work item int the SmartThreadPool
-        /// This variable is used in case of Shutdown
-        /// </summary>
-        private Hashtable _workItemsGroups = Hashtable.Synchronized(new Hashtable());
-
-        /// <summary>
-        /// A reference from each thread in the thread pool to its SmartThreadPool
-        /// object container.
-        /// With this variable a thread can know whatever it belongs to a 
-        /// SmartThreadPool.
-        /// </summary>
-        [ThreadStatic]
-        private static SmartThreadPool _smartThreadPool;
-
-        /// <summary>
-        /// A reference to the current work item a thread from the thread pool 
-        /// is executing.
-        /// </summary>
-        [ThreadStatic]
-        private static WorkItem _currentWorkItem;
-
-        /// <summary>
-        /// STP performance counters
-        /// </summary>
-        private ISTPInstancePerformanceCounters _pcs = NullSTPInstancePerformanceCounters.Instance;
-
-        #endregion
-
-        #region Construction and Finalization
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        public SmartThreadPool()
-        {
-            Initialize();
-        }
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        /// <param name="idleTimeout">Idle timeout in milliseconds</param>
-        public SmartThreadPool(int idleTimeout)
-        {
-            _stpStartInfo.IdleTimeout = idleTimeout;
-            Initialize();
-        }
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        /// <param name="idleTimeout">Idle timeout in milliseconds</param>
-        /// <param name="maxWorkerThreads">Upper limit of threads in the pool</param>
-        public SmartThreadPool(
-            int idleTimeout,
-            int maxWorkerThreads)
-        {
-            _stpStartInfo.IdleTimeout = idleTimeout;
-            _stpStartInfo.MaxWorkerThreads = maxWorkerThreads;
-            Initialize();
-        }
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        /// <param name="idleTimeout">Idle timeout in milliseconds</param>
-        /// <param name="maxWorkerThreads">Upper limit of threads in the pool</param>
-        /// <param name="minWorkerThreads">Lower limit of threads in the pool</param>
-        public SmartThreadPool(
-            int idleTimeout,
-            int maxWorkerThreads,
-            int minWorkerThreads)
-        {
-            _stpStartInfo.IdleTimeout = idleTimeout;
-            _stpStartInfo.MaxWorkerThreads = maxWorkerThreads;
-            _stpStartInfo.MinWorkerThreads = minWorkerThreads;
-            Initialize();
-        }
-
-        /// <summary>
-        /// Constructor
-        /// </summary>
-        public SmartThreadPool(STPStartInfo stpStartInfo)
-        {
-            _stpStartInfo = new STPStartInfo(stpStartInfo);
-            Initialize();
-        }
-
-        private void Initialize()
-        {
-            Name = _stpStartInfo.ThreadPoolName;
-            ValidateSTPStartInfo();
-
-            if (null != _stpStartInfo.PerformanceCounterInstanceName)
-            {
-                try
-                {
-                    _pcs = new STPInstancePerformanceCounters(_stpStartInfo.PerformanceCounterInstanceName);
-                }
-                catch(Exception e)
-                {
-                    Debug.WriteLine("Unable to create Performance Counters: " + e.ToString());
-                    _pcs = NullSTPInstancePerformanceCounters.Instance;
-                }
-            }
-
-            StartOptimalNumberOfThreads();
-        }
-
-        private void StartOptimalNumberOfThreads()
-        {
-            int threadsCount = Math.Max(_workItemsQueue.Count, _stpStartInfo.MinWorkerThreads);
-            threadsCount = Math.Min(threadsCount, _stpStartInfo.MaxWorkerThreads);
-            StartThreads(threadsCount);
-        }
-
-        private void ValidateSTPStartInfo()
-        {
-            if (_stpStartInfo.MinWorkerThreads < 0)
-            {
-                throw new ArgumentOutOfRangeException(
-                    "MinWorkerThreads", "MinWorkerThreads cannot be negative");
-            }
-
-            if (_stpStartInfo.MaxWorkerThreads <= 0)
-            {
-                throw new ArgumentOutOfRangeException(
-                    "MaxWorkerThreads", "MaxWorkerThreads must be greater than zero");
-            }
-
-            if (_stpStartInfo.MinWorkerThreads > _stpStartInfo.MaxWorkerThreads)
-            {
-                throw new ArgumentOutOfRangeException(
-                    "MinWorkerThreads, maxWorkerThreads", 
-                    "MaxWorkerThreads must be greater or equal to MinWorkerThreads");
-            }
-        }
-
-        private void ValidateCallback(Delegate callback)
-        {
-            if(callback.GetInvocationList().Length > 1)
-            {
-                throw new NotSupportedException("SmartThreadPool doesn't support delegates chains");
-            }
-        }
-
-        #endregion
-
-        #region Thread Processing
-
-        /// <summary>
-        /// Waits on the queue for a work item, shutdown, or timeout.
-        /// </summary>
-        /// <returns>
-        /// Returns the WaitingCallback or null in case of timeout or shutdown.
-        /// </returns>
-        private WorkItem Dequeue()
-        {
-            WorkItem workItem = 
-                _workItemsQueue.DequeueWorkItem(_stpStartInfo.IdleTimeout, _shuttingDownEvent);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Put a new work item in the queue
-        /// </summary>
-        /// <param name="workItem">A work item to queue</param>
-        private void Enqueue(WorkItem workItem)
-        {
-            Enqueue(workItem, true);
-        }
-
-        /// <summary>
-        /// Put a new work item in the queue
-        /// </summary>
-        /// <param name="workItem">A work item to queue</param>
-        internal void Enqueue(WorkItem workItem, bool incrementWorkItems)
-        {
-            // Make sure the workItem is not null
-            Debug.Assert(null != workItem);
-
-            if (incrementWorkItems)
-            {
-                IncrementWorkItemsCount();
-            }
-
-            _workItemsQueue.EnqueueWorkItem(workItem);
-            workItem.WorkItemIsQueued();
-
-            // If all the threads are busy then try to create a new one
-            if ((InUseThreads + WaitingCallbacks) > _workerThreads.Count) 
-            {
-                StartThreads(1);
-            }
-        }
-
-        private void IncrementWorkItemsCount()
-        {
-            _pcs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);
-
-            int count = Interlocked.Increment(ref _currentWorkItemsCount);
-            //Trace.WriteLine("WorkItemsCount = " + _currentWorkItemsCount.ToString());
-            if (count == 1) 
-            {
-                //Trace.WriteLine("STP is NOT idle");
-                _isIdleWaitHandle.Reset();
-            }
-        }
-
-        private void DecrementWorkItemsCount()
-        {
-            ++_workItemsProcessed;
-
-            // The counter counts even if the work item was cancelled
-            _pcs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);
-
-            int count = Interlocked.Decrement(ref _currentWorkItemsCount);
-            //Trace.WriteLine("WorkItemsCount = " + _currentWorkItemsCount.ToString());
-            if (count == 0) 
-            {
-                //Trace.WriteLine("STP is idle");
-                _isIdleWaitHandle.Set();
-            }
-        }
-
-        internal void RegisterWorkItemsGroup(IWorkItemsGroup workItemsGroup)
-        {
-            _workItemsGroups[workItemsGroup] = workItemsGroup;
-        }
-
-        internal void UnregisterWorkItemsGroup(IWorkItemsGroup workItemsGroup)
-        {
-            if (_workItemsGroups.Contains(workItemsGroup))
-            {
-                _workItemsGroups.Remove(workItemsGroup);
-            }
-        }
-
-        /// <summary>
-        /// Inform that the current thread is about to quit or quiting.
-        /// The same thread may call this method more than once.
-        /// </summary>
-        private void InformCompleted()
-        {
-            // There is no need to lock the two methods together 
-            // since only the current thread removes itself
-            // and the _workerThreads is a synchronized hashtable
-            if (_workerThreads.Contains(Thread.CurrentThread))
-            {
-                _workerThreads.Remove(Thread.CurrentThread);
-                _pcs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);
-            }
-        }
-
-        /// <summary>
-        /// Starts new threads
-        /// </summary>
-        /// <param name="threadsCount">The number of threads to start</param>
-        private void StartThreads(int threadsCount)
-        {
-            if (_stpStartInfo.StartSuspended)
-            {
-                return;
-            }
-
-            lock(_workerThreads.SyncRoot)
-            {
-                // Don't start threads on shut down
-                if (_shutdown)
-                {
-                    return;
-                }
-
-                for(int i = 0; i < threadsCount; ++i)
-                {
-                    // Don't create more threads then the upper limit
-                    if (_workerThreads.Count >= _stpStartInfo.MaxWorkerThreads)
-                    {
-                        return;
-                    }
-
-                    // Create a new thread
-                    Thread workerThread;
-                    if (_stpStartInfo.StackSize > 0)
-                        workerThread = new Thread(ProcessQueuedItems, _stpStartInfo.StackSize);
-                    else
-                        workerThread = new Thread(ProcessQueuedItems);
-
-                    // Configure the new thread and start it
-                    workerThread.Name = "STP " + Name + " Thread #" + _threadCounter;
-                    workerThread.IsBackground = true;
-                    workerThread.Priority = _stpStartInfo.ThreadPriority;
-                    workerThread.Start();
-                    ++_threadCounter;
-
-                    // Add the new thread to the hashtable and update its creation
-                    // time.
-                    _workerThreads[workerThread] = DateTime.Now;
-                    _pcs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);
-                }
-            }
-        }
-
-        /// <summary>
-        /// A worker thread method that processes work items from the work items queue.
-        /// </summary>
-        private void ProcessQueuedItems()
-        {
-            // Initialize the _smartThreadPool variable
-            _smartThreadPool = this;
-
-            try
-            {
-                bool bInUseWorkerThreadsWasIncremented = false;
-
-                // Process until shutdown.
-                while(!_shutdown)
-                {
-                    // Update the last time this thread was seen alive.
-                    // It's good for debugging.
-                    _workerThreads[Thread.CurrentThread] = DateTime.Now;
-
-                    // Wait for a work item, shutdown, or timeout
-                    WorkItem workItem = Dequeue();
-
-                    // Update the last time this thread was seen alive.
-                    // It's good for debugging.
-                    _workerThreads[Thread.CurrentThread] = DateTime.Now;
-
-                    // On timeout or shut down.
-                    if (null == workItem)
-                    {
-                        // Double lock for quit.
-                        if (_workerThreads.Count > _stpStartInfo.MinWorkerThreads)
-                        {
-                            lock(_workerThreads.SyncRoot)
-                            {
-                                if (_workerThreads.Count > _stpStartInfo.MinWorkerThreads)
-                                {
-                                    // Inform that the thread is quiting and then quit.
-                                    // This method must be called within this lock or else
-                                    // more threads will quit and the thread pool will go
-                                    // below the lower limit.
-                                    InformCompleted();
-                                    break;
-                                }
-                            }
-                        }
-                    }
-
-                    // If we didn't quit then skip to the next iteration.
-                    if (null == workItem)
-                    {
-                        continue;
-                    }
-
-                    try 
-                    {
-                        // Initialize the value to false
-                        bInUseWorkerThreadsWasIncremented = false;
-
-                        // Change the state of the work item to 'in progress' if possible.
-                        // We do it here so if the work item has been canceled we won't 
-                        // increment the _inUseWorkerThreads.
-                        // The cancel mechanism doesn't delete items from the queue,  
-                        // it marks the work item as canceled, and when the work item
-                        // is dequeued, we just skip it.
-                        // If the post execute of work item is set to always or to
-                        // call when the work item is canceled then the StartingWorkItem()
-                        // will return true, so the post execute can run.
-                        if (!workItem.StartingWorkItem())
-                        {
-                            continue;
-                        }
-
-                        // Execute the callback.  Make sure to accurately
-                        // record how many callbacks are currently executing.
-                        int inUseWorkerThreads = Interlocked.Increment(ref _inUseWorkerThreads);
-                        _pcs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);
-
-                        // Mark that the _inUseWorkerThreads incremented, so in the finally{}
-                        // statement we will decrement it correctly.
-                        bInUseWorkerThreadsWasIncremented = true;
-
-                        // Set the _currentWorkItem to the current work item
-                        _currentWorkItem = workItem;
-
-                        lock(workItem)
-                        {
-                            workItem.currentThread = Thread.CurrentThread;
-                        }
-
-                        ExecuteWorkItem(workItem);
-
-                        lock(workItem)
-                        {
-                            workItem.currentThread = null;
-                        }
-
-                    }
-                    catch(ThreadAbortException ex)
-                    {
-                        lock(workItem)
-                        {
-                            workItem.currentThread = null;
-                        }
-                        ex.GetHashCode();
-                        Thread.ResetAbort();
-                    }
-                    catch(Exception ex)
-                    {
-                        ex.GetHashCode();
-                        // Do nothing
-                    }
-                    finally
-                    {
-                        lock(workItem)
-                        {
-                            workItem.currentThread = null;
-                        }
-
-                        if (null != workItem)
-                        {
-                            workItem.DisposeOfState();
-                        }
-
-                        // Set the _currentWorkItem to null, since we 
-                        // no longer run user's code.
-                        _currentWorkItem = null;
-
-                        // Decrement the _inUseWorkerThreads only if we had 
-                        // incremented it. Note the cancelled work items don't
-                        // increment _inUseWorkerThreads.
-                        if (bInUseWorkerThreadsWasIncremented)
-                        {
-                            int inUseWorkerThreads = Interlocked.Decrement(ref _inUseWorkerThreads);
-                            _pcs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);
-                        }
-
-                        // Notify that the work item has been completed.
-                        // WorkItemsGroup may enqueue their next work item.
-                        workItem.FireWorkItemCompleted();
-
-                        // Decrement the number of work items here so the idle 
-                        // ManualResetEvent won't fluctuate.
-                        DecrementWorkItemsCount();
-                    }
-                }
-            } 
-            catch(ThreadAbortException tae)
-            {
-                tae.GetHashCode();
-                // Handle the abort exception gracfully.
-                Thread.ResetAbort();
-            }
-            catch(Exception e)
-            {
-                Debug.Assert(null != e);
-            }
-            finally
-            {
-                InformCompleted();
-            }
-        }
-
-        private void ExecuteWorkItem(WorkItem workItem)
-        {
-            _pcs.SampleWorkItemsWaitTime(workItem.WaitingTime);
-            try
-            {
-                workItem.Execute();
-            }
-            catch
-            {
-                throw;
-            }
-            finally
-            {
-                _pcs.SampleWorkItemsProcessTime(workItem.ProcessTime);
-            }
-        }
-
-
-        #endregion
-
-        #region Public Methods
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="workItemPriority">The priority of the work item</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, WorkItemPriority workItemPriority)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, workItemPriority);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="workItemInfo">Work item info</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, workItemInfo, callback);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, WorkItemPriority workItemPriority)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state, workItemPriority);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="workItemInfo">Work item information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback, object state)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, workItemInfo, callback, state);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state, postExecuteWorkItemCallback);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            WorkItemPriority workItemPriority)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state, postExecuteWorkItemCallback, workItemPriority);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute,
-            WorkItemPriority workItemPriority)
-        {
-            ValidateNotDisposed();
-            ValidateCallback(callback);
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _stpStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute, workItemPriority);
-            Enqueue(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public void WaitForIdle()
-        {
-            WaitForIdle(Timeout.Infinite);
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public bool WaitForIdle(TimeSpan timeout)
-        {
-            return WaitForIdle((int)timeout.TotalMilliseconds);
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public bool WaitForIdle(int millisecondsTimeout)
-        {
-            ValidateWaitForIdle();
-            return _isIdleWaitHandle.WaitOne(millisecondsTimeout, false);
-        }
-
-        private void ValidateWaitForIdle()
-        {
-            if(_smartThreadPool == this)
-            {
-                throw new NotSupportedException(
-                    "WaitForIdle cannot be called from a thread on its SmartThreadPool, it will cause may cause a deadlock");
-            }
-        }
-
-        internal void ValidateWorkItemsGroupWaitForIdle(IWorkItemsGroup workItemsGroup)
-        {
-            ValidateWorkItemsGroupWaitForIdleImpl(workItemsGroup, SmartThreadPool._currentWorkItem);
-            if ((null != workItemsGroup) && 
-                (null != SmartThreadPool._currentWorkItem) &&
-                SmartThreadPool._currentWorkItem.WasQueuedBy(workItemsGroup))
-            {
-                throw new NotSupportedException("WaitForIdle cannot be called from a thread on its SmartThreadPool, it will cause may cause a deadlock");
-            }
-        }
-
-        [MethodImpl(MethodImplOptions.NoInlining)]
-        private void ValidateWorkItemsGroupWaitForIdleImpl(IWorkItemsGroup workItemsGroup, WorkItem workItem)
-        {
-            if ((null != workItemsGroup) && 
-                (null != workItem) &&
-                workItem.WasQueuedBy(workItemsGroup))
-            {
-                throw new NotSupportedException("WaitForIdle cannot be called from a thread on its SmartThreadPool, it will cause may cause a deadlock");
-            }
-        }
-
-
-
-        /// <summary>
-        /// Force the SmartThreadPool to shutdown
-        /// </summary>
-        public void Shutdown()
-        {
-            Shutdown(true, 0);
-        }
-
-        public void Shutdown(bool forceAbort, TimeSpan timeout)
-        {
-            Shutdown(forceAbort, (int)timeout.TotalMilliseconds);
-        }
-
-        /// <summary>
-        /// Empties the queue of work items and abort the threads in the pool.
-        /// </summary>
-        public void Shutdown(bool forceAbort, int millisecondsTimeout)
-        {
-            ValidateNotDisposed();
-
-            ISTPInstancePerformanceCounters pcs = _pcs;
-
-            if (NullSTPInstancePerformanceCounters.Instance != _pcs)
-            {
-                _pcs.Dispose();
-                // Set the _pcs to "null" to stop updating the performance
-                // counters
-                _pcs = NullSTPInstancePerformanceCounters.Instance;
-            }
-
-            Thread [] threads = null;
-            lock(_workerThreads.SyncRoot)
-            {
-                // Shutdown the work items queue
-                _workItemsQueue.Dispose();
-
-                // Signal the threads to exit
-                _shutdown = true;
-                _shuttingDownEvent.Set();
-
-                // Make a copy of the threads' references in the pool
-                threads = new Thread [_workerThreads.Count];
-                _workerThreads.Keys.CopyTo(threads, 0);
-            }
-
-            int millisecondsLeft = millisecondsTimeout;
-            DateTime start = DateTime.Now;
-            bool waitInfinitely = (Timeout.Infinite == millisecondsTimeout);
-            bool timeout = false;
-
-            // Each iteration we update the time left for the timeout.
-            foreach(Thread thread in threads)
-            {
-                // Join don't work with negative numbers
-                if (!waitInfinitely && (millisecondsLeft < 0))
-                {
-                    timeout = true;
-                    break;
-                }
-
-                // Wait for the thread to terminate
-                bool success = thread.Join(millisecondsLeft);
-                if(!success)
-                {
-                    timeout = true;
-                    break;
-                }
-
-                if(!waitInfinitely)
-                {
-                    // Update the time left to wait
-                    TimeSpan ts = DateTime.Now - start;
-                    millisecondsLeft = millisecondsTimeout - (int)ts.TotalMilliseconds;
-                }
-            }
-
-            if (timeout && forceAbort)
-            {
-                // Abort the threads in the pool
-                foreach(Thread thread in threads)
-                {
-                    if ((thread != null) && thread.IsAlive) 
-                    {
-                        try 
-                        {
-                            thread.Abort("Shutdown");
-                        }
-                        catch(SecurityException e)
-                        {
-                            e.GetHashCode();
-                        }
-                        catch(ThreadStateException ex)
-                        {
-                            ex.GetHashCode();
-                            // In case the thread has been terminated 
-                            // after the check if it is alive.
-                        }
-                    }
-                }
-            }
-
-            // Dispose of the performance counters
-            pcs.Dispose();
-        }
-
-        /// <summary>
-        /// Wait for all work items to complete
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
-        /// </returns>
-        public static bool WaitAll(
-            IWorkItemResult [] workItemResults)
-        {
-            return WaitAll(workItemResults, Timeout.Infinite, true);
-        }
-
-        /// <summary>
-        /// Wait for all work items to complete
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
-        /// </returns>
-        public static bool WaitAll(
-            IWorkItemResult [] workItemResults,
-            TimeSpan timeout,
-            bool exitContext)
-        {
-            return WaitAll(workItemResults, (int)timeout.TotalMilliseconds, exitContext);
-        }
-
-        /// <summary>
-        /// Wait for all work items to complete
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>
-        /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
-        /// </returns>
-        public static bool WaitAll(
-            IWorkItemResult [] workItemResults,  
-            TimeSpan timeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle)
-        {
-            return WaitAll(workItemResults, (int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);
-        }
-
-        /// <summary>
-        /// Wait for all work items to complete
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
-        /// </returns>
-        public static bool WaitAll(
-            IWorkItemResult [] workItemResults,  
-            int millisecondsTimeout,
-            bool exitContext)
-        {
-            return WorkItem.WaitAll(workItemResults, millisecondsTimeout, exitContext, null);
-        }
-
-        /// <summary>
-        /// Wait for all work items to complete
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>
-        /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
-        /// </returns>
-        public static bool WaitAll(
-            IWorkItemResult [] workItemResults,  
-            int millisecondsTimeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle)
-        {
-            return WorkItem.WaitAll(workItemResults, millisecondsTimeout, exitContext, cancelWaitHandle);
-        }
-
-
-        /// <summary>
-        /// Waits for any of the work items in the specified array to complete, cancel, or timeout
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <returns>
-        /// The array index of the work item result that satisfied the wait, or WaitTimeout if any of the work items has been canceled.
-        /// </returns>
-        public static int WaitAny(
-            IWorkItemResult [] workItemResults)
-        {
-            return WaitAny(workItemResults, Timeout.Infinite, true);
-        }
-
-        /// <summary>
-        /// Waits for any of the work items in the specified array to complete, cancel, or timeout
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <returns>
-        /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.
-        /// </returns>
-        public static int WaitAny(
-            IWorkItemResult [] workItemResults,
-            TimeSpan timeout,
-            bool exitContext)
-        {
-            return WaitAny(workItemResults, (int)timeout.TotalMilliseconds, exitContext);
-        }
-
-        /// <summary>
-        /// Waits for any of the work items in the specified array to complete, cancel, or timeout
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>
-        /// <returns>
-        /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.
-        /// </returns>
-        public static int WaitAny(
-            IWorkItemResult [] workItemResults,
-            TimeSpan timeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle)
-        {
-            return WaitAny(workItemResults, (int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);
-        }
-
-        /// <summary>
-        /// Waits for any of the work items in the specified array to complete, cancel, or timeout
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <returns>
-        /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.
-        /// </returns>
-        public static int WaitAny(
-            IWorkItemResult [] workItemResults,  
-            int millisecondsTimeout,
-            bool exitContext)
-        {
-            return WorkItem.WaitAny(workItemResults, millisecondsTimeout, exitContext, null);
-        }
-
-        /// <summary>
-        /// Waits for any of the work items in the specified array to complete, cancel, or timeout
-        /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
-        /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
-        /// <param name="exitContext">
-        /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
-        /// </param>
-        /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>
-        /// <returns>
-        /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.
-        /// </returns>
-        public static int WaitAny(
-            IWorkItemResult [] workItemResults,  
-            int millisecondsTimeout,
-            bool exitContext,
-            WaitHandle cancelWaitHandle)
-        {
-            return WorkItem.WaitAny(workItemResults, millisecondsTimeout, exitContext, cancelWaitHandle);
-        }
-
-        public IWorkItemsGroup CreateWorkItemsGroup(int concurrency)
-        {
-            IWorkItemsGroup workItemsGroup = new WorkItemsGroup(this, concurrency, _stpStartInfo);
-            return workItemsGroup;
-        }
-
-        public IWorkItemsGroup CreateWorkItemsGroup(int concurrency, WIGStartInfo wigStartInfo)
-        {
-            IWorkItemsGroup workItemsGroup = new WorkItemsGroup(this, concurrency, wigStartInfo);
-            return workItemsGroup;
-        }
-
-        public event WorkItemsGroupIdleHandler OnIdle
-        {
-            add
-            {
-                throw new NotImplementedException("This event is not implemented in the SmartThreadPool class. Please create a WorkItemsGroup in order to use this feature.");
-                //_onIdle += value;
-            }
-            remove
-            {
-                throw new NotImplementedException("This event is not implemented in the SmartThreadPool class. Please create a WorkItemsGroup in order to use this feature.");
-                //_onIdle -= value;
-            }
-        }
-
-        public void Cancel()
-        {
-            ICollection workItemsGroups = _workItemsGroups.Values;
-            foreach(WorkItemsGroup workItemsGroup in workItemsGroups)
-            {
-                workItemsGroup.Cancel();
-            }
-        }
-
-        public void Start()
-        {
-            lock (this)
-            {
-                if (!this._stpStartInfo.StartSuspended)
-                {
-                    return;
-                }
-                _stpStartInfo.StartSuspended = false;
-            }
-            
-            ICollection workItemsGroups = _workItemsGroups.Values;
-            foreach(WorkItemsGroup workItemsGroup in workItemsGroups)
-            {
-                workItemsGroup.OnSTPIsStarting();
-            }
-
-            StartOptimalNumberOfThreads();
-        }
-
-        #endregion
-
-        #region Properties
-
-        /// <summary>
-        /// Get/Set the name of the SmartThreadPool instance
-        /// </summary>
-        public string Name 
-        { 
-            get
-            {
-                return _name;
-            }
-
-            set
-            {
-                _name = value;
-            }
-        }
-
-        /// <summary>
-        /// Get the lower limit of threads in the pool.
-        /// </summary>
-        public int MinThreads 
-        { 
-            get 
-            {
-                ValidateNotDisposed();
-                return _stpStartInfo.MinWorkerThreads; 
-            }
-        }
-
-        /// <summary>
-        /// Get the upper limit of threads in the pool.
-        /// </summary>
-        public int MaxThreads 
-        { 
-            get 
-            {
-                ValidateNotDisposed();
-                return _stpStartInfo.MaxWorkerThreads; 
-            } 
-        }
-        /// <summary>
-        /// Get the number of threads in the thread pool.
-        /// Should be between the lower and the upper limits.
-        /// </summary>
-        public int ActiveThreads 
-        { 
-            get 
-            {
-                ValidateNotDisposed();
-                return _workerThreads.Count; 
-            } 
-        }
-
-        /// <summary>
-        /// Get the number of busy (not idle) threads in the thread pool.
-        /// </summary>
-        public int InUseThreads 
-        { 
-            get 
-            { 
-                ValidateNotDisposed();
-                return _inUseWorkerThreads; 
-            } 
-        }
-
-        /// <summary>
-        /// Get the number of work items in the queue.
-        /// </summary>
-        public int WaitingCallbacks 
-        { 
-            get 
-            { 
-                ValidateNotDisposed();
-                return _workItemsQueue.Count;
-            } 
-        }
-
-
-        public event EventHandler Idle
-        {
-            add
-            {
-                _stpIdle += value;
-            }
-
-            remove
-            {
-                _stpIdle -= value;
-            }
-        }
-
-        #endregion
-
-        #region IDisposable Members
-
-//        ~SmartThreadPool()
-//        {
-//            Dispose();
-//        }
-
-        public void Dispose()
-        {
-            if (!_isDisposed)
-            {
-                if (!_shutdown)
-                {
-                    Shutdown();
-                }
-
-                if (null != _shuttingDownEvent)
-                {
-                    _shuttingDownEvent.Close();
-                    _shuttingDownEvent = null;
-                }
-                _workerThreads.Clear();
-                _isDisposed = true;
-                GC.SuppressFinalize(this);
-            }
-        }
-
-        private void ValidateNotDisposed()
-        {
-            if(_isDisposed)
-            {
-                throw new ObjectDisposedException(GetType().ToString(), "The SmartThreadPool has been shutdown");
-            }
-        }
-        #endregion
-    }
-    #endregion
-}
+#region Release History

+

+// Smart Thread Pool

+// 7 Aug 2004 - Initial release

+//

+// 14 Sep 2004 - Bug fixes 

+//

+// 15 Oct 2004 - Added new features

+//              - Work items return result.

+//              - Support waiting synchronization for multiple work items.

+//              - Work items can be cancelled.

+//              - Passage of the caller thread’s context to the thread in the pool.

+//              - Minimal usage of WIN32 handles.

+//              - Minor bug fixes.

+//

+// 26 Dec 2004 - Changes:

+//              - Removed static constructors.

+//      - Added finalizers.

+//              - Changed Exceptions so they are serializable.

+//              - Fixed the bug in one of the SmartThreadPool constructors.

+//              - Changed the SmartThreadPool.WaitAll() so it will support any number of waiters. 

+//        The SmartThreadPool.WaitAny() is still limited by the .NET Framework.

+//              - Added PostExecute with options on which cases to call it.

+//      - Added option to dispose of the state objects.

+//      - Added a WaitForIdle() method that waits until the work items queue is empty.

+//      - Added an STPStartInfo class for the initialization of the thread pool.

+//      - Changed exception handling so if a work item throws an exception it 

+//        is rethrown at GetResult(), rather then firing an UnhandledException event.

+//        Note that PostExecute exception are always ignored.

+//

+// 25 Mar 2005 - Changes:

+//              - Fixed lost of work items bug

+//

+// 3 Jul 2005: Changes.

+//      - Fixed bug where Enqueue() throws an exception because PopWaiter() returned null, hardly reconstructed. 

+//

+// 16 Aug 2005: Changes.

+//              - Fixed bug where the InUseThreads becomes negative when canceling work items. 

+//

+// 31 Jan 2006 - Changes:

+//              - Added work items priority

+//              - Removed support of chained delegates in callbacks and post executes (nobody really use this)

+//              - Added work items groups

+//              - Added work items groups idle event

+//              - Changed SmartThreadPool.WaitAll() behavior so when it gets empty array

+//                it returns true rather then throwing an exception.

+//              - Added option to start the STP and the WIG as suspended

+//              - Exception behavior changed, the real exception is returned by an 

+//                inner exception

+//              - Added option to keep the Http context of the caller thread. (Thanks to Steven T.)

+//              - Added performance counters

+//              - Added priority to the threads in the pool

+//

+// 13 Feb 2006 - Changes:

+//              - Added a call to the dispose of the Performance Counter so

+//                their won't be a Performance Counter leak.

+//              - Added exception catch in case the Performance Counters cannot 

+//                be created.

+//

+// 17 May 2008 - Changes:

+//      - Changed the dispose behavior and removed the Finalizers.

+//      - Enabled the change of the MaxThreads and MinThreads at run time.

+//      - Enabled the change of the Concurrency of a IWorkItemsGroup at run 

+//        time If the IWorkItemsGroup is a SmartThreadPool then the Concurrency 

+//        refers to the MaxThreads. 

+//      - Improved the cancel behavior.

+//      - Added events for thread creation and termination. 

+//      - Fixed the HttpContext context capture.

+//      - Changed internal collections so they use generic collections

+//      - Added IsIdle flag to the SmartThreadPool and IWorkItemsGroup

+//      - Added support for WinCE

+//      - Added support for Action<T> and Func<T>

+//

+// 07 April 2009 - Changes:

+//      - Added support for Silverlight and Mono

+//      - Added Join, Choice, and Pipe to SmartThreadPool.

+//      - Added local performance counters (for Mono, Silverlight, and WindowsCE)

+//      - Changed duration measures from DateTime.Now to Stopwatch.

+//      - Queues changed from System.Collections.Queue to System.Collections.Generic.LinkedList<T>.

+//

+// 21 December 2009 - Changes:

+//      - Added work item timeout (passive)

+//

+// 20 August 2012 - Changes:

+//      - Added set name to threads

+//      - Fixed the WorkItemsQueue.Dequeue. 

+//        Replaced while (!Monitor.TryEnter(this)); with lock(this) { ... }

+//      - Fixed SmartThreadPool.Pipe

+//      - Added IsBackground option to threads

+//      - Added ApartmentState to threads

+//      - Fixed thread creation when queuing many work items at the same time.

+//

+// 24 August 2012 - Changes:

+//      - Enabled cancel abort after cancel. See: http://smartthreadpool.codeplex.com/discussions/345937 by alecswan

+//      - Added option to set MaxStackSize of threads 

+

+#endregion

+

+using System;

+using System.Security;

+using System.Threading;

+using System.Collections;

+using System.Collections.Generic;

+using System.Diagnostics;

+using System.Runtime.CompilerServices;

+

+using Amib.Threading.Internal;

+

+namespace Amib.Threading

+{

+        #region SmartThreadPool class

+        /// <summary>

+        /// Smart thread pool class.

+        /// </summary>

+        public partial class SmartThreadPool : WorkItemsGroupBase, IDisposable

+        {

+                #region Public Default Constants

+

+                /// <summary>

+                /// Default minimum number of threads the thread pool contains. (0)

+                /// </summary>

+                public const int DefaultMinWorkerThreads = 0;

+

+                /// <summary>

+                /// Default maximum number of threads the thread pool contains. (25)

+                /// </summary>

+                public const int DefaultMaxWorkerThreads = 25;

+

+                /// <summary>

+                /// Default idle timeout in milliseconds. (One minute)

+                /// </summary>

+                public const int DefaultIdleTimeout = 60*1000; // One minute

+

+                /// <summary>

+                /// Indicate to copy the security context of the caller and then use it in the call. (false)

+                /// </summary>

+                public const bool DefaultUseCallerCallContext = false; 

+

+                /// <summary>

+                /// Indicate to copy the HTTP context of the caller and then use it in the call. (false)

+                /// </summary>

+                public const bool DefaultUseCallerHttpContext = false;

+

+                /// <summary>

+                /// Indicate to dispose of the state objects if they support the IDispose interface. (false)

+                /// </summary>

+                public const bool DefaultDisposeOfStateObjects = false; 

+

+                /// <summary>

+        /// The default option to run the post execute (CallToPostExecute.Always)

+                /// </summary>

+                public const CallToPostExecute DefaultCallToPostExecute = CallToPostExecute.Always;

+

+                /// <summary>

+                /// The default post execute method to run. (None)

+                /// When null it means not to call it.

+                /// </summary>

+                public static readonly PostExecuteWorkItemCallback DefaultPostExecuteWorkItemCallback;

+

+                /// <summary>

+        /// The default work item priority (WorkItemPriority.Normal)

+                /// </summary>

+                public const WorkItemPriority DefaultWorkItemPriority = WorkItemPriority.Normal;

+

+                /// <summary>

+                /// The default is to work on work items as soon as they arrive

+                /// and not to wait for the start. (false)

+                /// </summary>

+                public const bool DefaultStartSuspended = false;

+

+                /// <summary>

+        /// The default name to use for the performance counters instance. (null)

+                /// </summary>

+                public static readonly string DefaultPerformanceCounterInstanceName;

+

+#if !(WINDOWS_PHONE)

+

+                /// <summary>

+        /// The default thread priority (ThreadPriority.Normal)

+                /// </summary>

+                public const ThreadPriority DefaultThreadPriority = ThreadPriority.Normal;

+#endif

+        /// <summary>

+        /// The default thread pool name. (SmartThreadPool)

+        /// </summary>

+        public const string DefaultThreadPoolName = "SmartThreadPool";

+

+        /// <summary>

+        /// The default Max Stack Size. (SmartThreadPool)

+        /// </summary>

+        public static readonly int? DefaultMaxStackSize = null;

+

+        /// <summary>

+        /// The default fill state with params. (false)

+        /// It is relevant only to QueueWorkItem of Action&lt;...&gt;/Func&lt;...&gt;

+        /// </summary>

+        public const bool DefaultFillStateWithArgs = false;

+

+        /// <summary>

+        /// The default thread backgroundness. (true)

+        /// </summary>

+        public const bool DefaultAreThreadsBackground = true;

+

+#if !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+        /// <summary>

+        /// The default apartment state of a thread in the thread pool. 

+        /// The default is ApartmentState.Unknown which means the STP will not 

+        /// set the apartment of the thread. It will use the .NET default.

+        /// </summary>

+        public const ApartmentState DefaultApartmentState = ApartmentState.Unknown;

+#endif

+

+                #endregion

+

+        #region Member Variables

+

+                /// <summary>

+                /// Dictionary of all the threads in the thread pool.

+                /// </summary>

+        private readonly SynchronizedDictionary<Thread, ThreadEntry> _workerThreads = new SynchronizedDictionary<Thread, ThreadEntry>();

+

+                /// <summary>

+                /// Queue of work items.

+                /// </summary>

+                private readonly WorkItemsQueue _workItemsQueue = new WorkItemsQueue();

+

+                /// <summary>

+                /// Count the work items handled.

+                /// Used by the performance counter.

+                /// </summary>

+                private int _workItemsProcessed;

+

+                /// <summary>

+                /// Number of threads that currently work (not idle).

+                /// </summary>

+                private int _inUseWorkerThreads;

+

+        /// <summary>

+        /// Stores a copy of the original STPStartInfo.

+        /// It is used to change the MinThread and MaxThreads

+        /// </summary>

+        private STPStartInfo _stpStartInfo;

+

+                /// <summary>

+                /// Total number of work items that are stored in the work items queue 

+                /// plus the work items that the threads in the pool are working on.

+                /// </summary>

+                private int _currentWorkItemsCount;

+

+                /// <summary>

+                /// Signaled when the thread pool is idle, i.e. no thread is busy

+                /// and the work items queue is empty

+                /// </summary>

+                //private ManualResetEvent _isIdleWaitHandle = new ManualResetEvent(true);

+                private ManualResetEvent _isIdleWaitHandle = EventWaitHandleFactory.CreateManualResetEvent(true);

+

+                /// <summary>

+                /// An event to signal all the threads to quit immediately.

+                /// </summary>

+                //private ManualResetEvent _shuttingDownEvent = new ManualResetEvent(false);

+                private ManualResetEvent _shuttingDownEvent = EventWaitHandleFactory.CreateManualResetEvent(false);

+

+        /// <summary>

+        /// A flag to indicate if the Smart Thread Pool is now suspended.

+        /// </summary>

+        private bool _isSuspended;

+

+                /// <summary>

+                /// A flag to indicate the threads to quit.

+                /// </summary>

+                private bool _shutdown;

+

+                /// <summary>

+                /// Counts the threads created in the pool.

+                /// It is used to name the threads.

+                /// </summary>

+                private int _threadCounter;

+

+                /// <summary>

+                /// Indicate that the SmartThreadPool has been disposed

+                /// </summary>

+                private bool _isDisposed;

+

+                /// <summary>

+                /// Holds all the WorkItemsGroup instaces that have at least one 

+                /// work item int the SmartThreadPool

+                /// This variable is used in case of Shutdown

+                /// </summary>

+        private readonly SynchronizedDictionary<IWorkItemsGroup, IWorkItemsGroup> _workItemsGroups = new SynchronizedDictionary<IWorkItemsGroup, IWorkItemsGroup>();

+

+        /// <summary>

+        /// A common object for all the work items int the STP

+        /// so we can mark them to cancel in O(1)

+        /// </summary>

+        private CanceledWorkItemsGroup _canceledSmartThreadPool = new CanceledWorkItemsGroup();

+

+        /// <summary>

+        /// Windows STP performance counters

+        /// </summary>

+        private ISTPInstancePerformanceCounters _windowsPCs = NullSTPInstancePerformanceCounters.Instance;

+

+        /// <summary>

+        /// Local STP performance counters

+        /// </summary>

+        private ISTPInstancePerformanceCounters _localPCs = NullSTPInstancePerformanceCounters.Instance;

+

+

+#if (WINDOWS_PHONE) 

+        private static readonly Dictionary<int, ThreadEntry> _threadEntries = new Dictionary<int, ThreadEntry>();

+#elif (_WINDOWS_CE)

+        private static LocalDataStoreSlot _threadEntrySlot = Thread.AllocateDataSlot();

+#else

+        [ThreadStatic]

+        private static ThreadEntry _threadEntry;

+

+#endif

+

+        /// <summary>

+        /// An event to call after a thread is created, but before 

+        /// it's first use.

+        /// </summary>

+        private event ThreadInitializationHandler _onThreadInitialization;

+

+        /// <summary>

+        /// An event to call when a thread is about to exit, after 

+        /// it is no longer belong to the pool.

+        /// </summary>

+        private event ThreadTerminationHandler _onThreadTermination;

+

+        #endregion

+

+        #region Per thread properties

+

+        /// <summary>

+        /// A reference to the current work item a thread from the thread pool 

+        /// is executing.

+        /// </summary>

+        internal static ThreadEntry CurrentThreadEntry

+        {

+#if (WINDOWS_PHONE)

+            get

+            {

+                lock(_threadEntries)

+                {

+                    ThreadEntry threadEntry;

+                    if (_threadEntries.TryGetValue(Thread.CurrentThread.ManagedThreadId, out threadEntry))

+                    {

+                        return threadEntry;

+                    }

+                }

+                return null;

+            }

+            set

+            {

+                lock(_threadEntries)

+                {

+                    _threadEntries[Thread.CurrentThread.ManagedThreadId] = value;

+                }

+            }

+#elif (_WINDOWS_CE)

+            get

+            {

+                //Thread.CurrentThread.ManagedThreadId

+                return Thread.GetData(_threadEntrySlot) as ThreadEntry;

+            }

+            set

+            {

+                Thread.SetData(_threadEntrySlot, value);

+            }

+#else

+            get

+            {

+                return _threadEntry;

+            }

+            set

+            {

+                _threadEntry = value;

+            }

+#endif

+        }

+        #endregion

+

+        #region Construction and Finalization

+

+        /// <summary>

+                /// Constructor

+                /// </summary>

+                public SmartThreadPool()

+                {

+            _stpStartInfo = new STPStartInfo();

+            Initialize();

+                }

+

+                /// <summary>

+                /// Constructor

+                /// </summary>

+                /// <param name="idleTimeout">Idle timeout in milliseconds</param>

+                public SmartThreadPool(int idleTimeout)

+                {

+            _stpStartInfo = new STPStartInfo

+            {

+                IdleTimeout = idleTimeout,

+            };

+                        Initialize();

+                }

+

+                /// <summary>

+                /// Constructor

+                /// </summary>

+                /// <param name="idleTimeout">Idle timeout in milliseconds</param>

+                /// <param name="maxWorkerThreads">Upper limit of threads in the pool</param>

+                public SmartThreadPool(

+                        int idleTimeout,

+                        int maxWorkerThreads)

+                {

+            _stpStartInfo = new STPStartInfo

+            {

+                IdleTimeout = idleTimeout,

+                MaxWorkerThreads = maxWorkerThreads,

+            };

+                        Initialize();

+                }

+

+                /// <summary>

+                /// Constructor

+                /// </summary>

+                /// <param name="idleTimeout">Idle timeout in milliseconds</param>

+                /// <param name="maxWorkerThreads">Upper limit of threads in the pool</param>

+                /// <param name="minWorkerThreads">Lower limit of threads in the pool</param>

+                public SmartThreadPool(

+                        int idleTimeout,

+                        int maxWorkerThreads,

+                        int minWorkerThreads)

+                {

+            _stpStartInfo = new STPStartInfo

+            {

+                IdleTimeout = idleTimeout,

+                MaxWorkerThreads = maxWorkerThreads,

+                MinWorkerThreads = minWorkerThreads,

+            };

+                        Initialize();

+                }

+

+        /// <summary>

+        /// Constructor

+        /// </summary>

+        /// <param name="stpStartInfo">A SmartThreadPool configuration that overrides the default behavior</param>

+                public SmartThreadPool(STPStartInfo stpStartInfo)

+                {

+                        _stpStartInfo = new STPStartInfo(stpStartInfo);

+                        Initialize();

+                }

+

+                private void Initialize()

+                {

+            Name = _stpStartInfo.ThreadPoolName;

+                        ValidateSTPStartInfo();

+

+            // _stpStartInfoRW stores a read/write copy of the STPStartInfo.

+            // Actually only MaxWorkerThreads and MinWorkerThreads are overwritten

+

+            _isSuspended = _stpStartInfo.StartSuspended;

+

+#if (_WINDOWS_CE) || (_SILVERLIGHT) || (_MONO) || (WINDOWS_PHONE)

+                        if (null != _stpStartInfo.PerformanceCounterInstanceName)

+                        {

+                throw new NotSupportedException("Performance counters are not implemented for Compact Framework/Silverlight/Mono, instead use StpStartInfo.EnableLocalPerformanceCounters");

+            }

+#else

+            if (null != _stpStartInfo.PerformanceCounterInstanceName)

+            {

+                try

+                {

+                    _windowsPCs = new STPInstancePerformanceCounters(_stpStartInfo.PerformanceCounterInstanceName);

+                }

+                catch (Exception e)

+                {

+                    Debug.WriteLine("Unable to create Performance Counters: " + e);

+                    _windowsPCs = NullSTPInstancePerformanceCounters.Instance;

+                }

+            }

+#endif

+

+            if (_stpStartInfo.EnableLocalPerformanceCounters)

+            {

+                _localPCs = new LocalSTPInstancePerformanceCounters();

+            }

+

+                    // If the STP is not started suspended then start the threads.

+            if (!_isSuspended)

+            {

+                StartOptimalNumberOfThreads();

+            }

+                }

+

+                private void StartOptimalNumberOfThreads()

+                {

+                        int threadsCount = Math.Max(_workItemsQueue.Count, _stpStartInfo.MinWorkerThreads);

+            threadsCount = Math.Min(threadsCount, _stpStartInfo.MaxWorkerThreads);

+            threadsCount -= _workerThreads.Count;

+            if (threadsCount > 0)

+            {

+                StartThreads(threadsCount);

+            }

+                }

+

+                private void ValidateSTPStartInfo()

+                {

+            if (_stpStartInfo.MinWorkerThreads < 0)

+                        {

+                                throw new ArgumentOutOfRangeException(

+                                        "MinWorkerThreads", "MinWorkerThreads cannot be negative");

+                        }

+

+            if (_stpStartInfo.MaxWorkerThreads <= 0)

+                        {

+                                throw new ArgumentOutOfRangeException(

+                                        "MaxWorkerThreads", "MaxWorkerThreads must be greater than zero");

+                        }

+

+            if (_stpStartInfo.MinWorkerThreads > _stpStartInfo.MaxWorkerThreads)

+                        {

+                                throw new ArgumentOutOfRangeException(

+                                        "MinWorkerThreads, maxWorkerThreads", 

+                                        "MaxWorkerThreads must be greater or equal to MinWorkerThreads");

+                        }

+                }

+

+                private static void ValidateCallback(Delegate callback)

+                {

+                        if(callback.GetInvocationList().Length > 1)

+                        {

+                                throw new NotSupportedException("SmartThreadPool doesn't support delegates chains");

+                        }

+                }

+

+                #endregion

+

+                #region Thread Processing

+

+                /// <summary>

+                /// Waits on the queue for a work item, shutdown, or timeout.

+                /// </summary>

+                /// <returns>

+                /// Returns the WaitingCallback or null in case of timeout or shutdown.

+                /// </returns>

+                private WorkItem Dequeue()

+                {

+                        WorkItem workItem =

+                _workItemsQueue.DequeueWorkItem(_stpStartInfo.IdleTimeout, _shuttingDownEvent);

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Put a new work item in the queue

+                /// </summary>

+                /// <param name="workItem">A work item to queue</param>

+                internal override void Enqueue(WorkItem workItem)

+                {

+                        // Make sure the workItem is not null

+                        Debug.Assert(null != workItem);

+

+                        IncrementWorkItemsCount();

+

+            workItem.CanceledSmartThreadPool = _canceledSmartThreadPool;

+                        _workItemsQueue.EnqueueWorkItem(workItem);

+                        workItem.WorkItemIsQueued();

+

+                        // If all the threads are busy then try to create a new one

+                        if (_currentWorkItemsCount > _workerThreads.Count) 

+                        {

+                                StartThreads(1);

+                        }

+                }

+

+                private void IncrementWorkItemsCount()

+                {

+                        _windowsPCs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);

+            _localPCs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);

+

+                        int count = Interlocked.Increment(ref _currentWorkItemsCount);

+                        //Trace.WriteLine("WorkItemsCount = " + _currentWorkItemsCount.ToString());

+                        if (count == 1) 

+                        {

+                IsIdle = false;

+                _isIdleWaitHandle.Reset();

+                        }

+                }

+

+                private void DecrementWorkItemsCount()

+                {

+            int count = Interlocked.Decrement(ref _currentWorkItemsCount);

+            //Trace.WriteLine("WorkItemsCount = " + _currentWorkItemsCount.ToString());

+            if (count == 0)

+            {

+                IsIdle = true;

+                _isIdleWaitHandle.Set();

+            }

+

+            Interlocked.Increment(ref _workItemsProcessed);

+

+            if (!_shutdown)

+            {

+                            // The counter counts even if the work item was cancelled

+                            _windowsPCs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);

+                _localPCs.SampleWorkItems(_workItemsQueue.Count, _workItemsProcessed);

+            }

+

+                }

+

+                internal void RegisterWorkItemsGroup(IWorkItemsGroup workItemsGroup)

+                {

+                        _workItemsGroups[workItemsGroup] = workItemsGroup;

+                }

+

+                internal void UnregisterWorkItemsGroup(IWorkItemsGroup workItemsGroup)

+                {

+                        if (_workItemsGroups.Contains(workItemsGroup))

+                        {

+                                _workItemsGroups.Remove(workItemsGroup);

+                        }

+                }

+

+                /// <summary>

+                /// Inform that the current thread is about to quit or quiting.

+                /// The same thread may call this method more than once.

+                /// </summary>

+                private void InformCompleted()

+                {

+                        // There is no need to lock the two methods together 

+                        // since only the current thread removes itself

+                        // and the _workerThreads is a synchronized dictionary

+                        if (_workerThreads.Contains(Thread.CurrentThread))

+                        {

+                                _workerThreads.Remove(Thread.CurrentThread);

+                                _windowsPCs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);

+                _localPCs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);

+                        }

+                }

+

+                /// <summary>

+                /// Starts new threads

+                /// </summary>

+                /// <param name="threadsCount">The number of threads to start</param>

+                private void StartThreads(int threadsCount)

+                {

+            if (_isSuspended)

+                        {

+                                return;

+                        }

+

+                        lock(_workerThreads.SyncRoot)

+                        {

+                                // Don't start threads on shut down

+                                if (_shutdown)

+                                {

+                                        return;

+                                }

+

+                                for(int i = 0; i < threadsCount; ++i)

+                                {

+                                        // Don't create more threads then the upper limit

+                    if (_workerThreads.Count >= _stpStartInfo.MaxWorkerThreads)

+                                        {

+                                                return;

+                                        }

+

+                    // Create a new thread

+

+#if (_SILVERLIGHT) || (WINDOWS_PHONE)

+                                        Thread workerThread = new Thread(ProcessQueuedItems);

+#else

+                    Thread workerThread =

+                        _stpStartInfo.MaxStackSize.HasValue

+                        ? new Thread(ProcessQueuedItems, _stpStartInfo.MaxStackSize.Value)

+                        : new Thread(ProcessQueuedItems);

+#endif

+                                        // Configure the new thread and start it

+                                        workerThread.Name = "STP " + Name + " Thread #" + _threadCounter;

+                    workerThread.IsBackground = _stpStartInfo.AreThreadsBackground;

+

+#if !(_SILVERLIGHT) && !(_WINDOWS_CE) && !(WINDOWS_PHONE)

+                    if (_stpStartInfo.ApartmentState != ApartmentState.Unknown)

+                    {

+                        workerThread.SetApartmentState(_stpStartInfo.ApartmentState);

+                    }

+#endif

+

+#if !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+                    workerThread.Priority = _stpStartInfo.ThreadPriority;

+#endif

+                    workerThread.Start();

+                                        ++_threadCounter;

+

+                    // Add it to the dictionary and update its creation time.

+                    _workerThreads[workerThread] = new ThreadEntry(this);

+

+                                        _windowsPCs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);

+                    _localPCs.SampleThreads(_workerThreads.Count, _inUseWorkerThreads);

+                                }

+                        }

+                }

+

+                /// <summary>

+                /// A worker thread method that processes work items from the work items queue.

+                /// </summary>

+                private void ProcessQueuedItems()

+                {

+            // Keep the entry of the dictionary as thread's variable to avoid the synchronization locks

+            // of the dictionary.

+            CurrentThreadEntry = _workerThreads[Thread.CurrentThread];

+

+            FireOnThreadInitialization();

+

+                        try

+                        {

+                                bool bInUseWorkerThreadsWasIncremented = false;

+

+                                // Process until shutdown.

+                                while(!_shutdown)

+                                {

+                                        // Update the last time this thread was seen alive.

+                                        // It's good for debugging.

+                    CurrentThreadEntry.IAmAlive();

+

+                    // The following block handles the when the MaxWorkerThreads has been

+                    // incremented by the user at run-time.

+                    // Double lock for quit.

+                    if (_workerThreads.Count > _stpStartInfo.MaxWorkerThreads)

+                    {

+                        lock (_workerThreads.SyncRoot)

+                        {

+                            if (_workerThreads.Count > _stpStartInfo.MaxWorkerThreads)

+                            {

+                                // Inform that the thread is quiting and then quit.

+                                // This method must be called within this lock or else

+                                // more threads will quit and the thread pool will go

+                                // below the lower limit.

+                                InformCompleted();

+                                break;

+                            }

+                        }

+                    }

+

+                                        // Wait for a work item, shutdown, or timeout

+                                        WorkItem workItem = Dequeue();

+

+                                        // Update the last time this thread was seen alive.

+                                        // It's good for debugging.

+                    CurrentThreadEntry.IAmAlive();

+

+                                        // On timeout or shut down.

+                                        if (null == workItem)

+                                        {

+                                                // Double lock for quit.

+                        if (_workerThreads.Count > _stpStartInfo.MinWorkerThreads)

+                                                {

+                                                        lock(_workerThreads.SyncRoot)

+                                                        {

+                                if (_workerThreads.Count > _stpStartInfo.MinWorkerThreads)

+                                                                {

+                                                                        // Inform that the thread is quiting and then quit.

+                                                                        // This method must be called within this lock or else

+                                                                        // more threads will quit and the thread pool will go

+                                                                        // below the lower limit.

+                                                                        InformCompleted();

+                                                                        break;

+                                                                }

+                                                        }

+                                                }

+                                        }

+

+                                        // If we didn't quit then skip to the next iteration.

+                                        if (null == workItem)

+                                        {

+                                                continue;

+                                        }

+

+                                        try 

+                                        {

+                                                // Initialize the value to false

+                                                bInUseWorkerThreadsWasIncremented = false;

+

+                        // Set the Current Work Item of the thread.

+                        // Store the Current Work Item  before the workItem.StartingWorkItem() is called, 

+                        // so WorkItem.Cancel can work when the work item is between InQueue and InProgress 

+                        // states.

+                        // If the work item has been cancelled BEFORE the workItem.StartingWorkItem() 

+                        // (work item is in InQueue state) then workItem.StartingWorkItem() will return false.

+                        // If the work item has been cancelled AFTER the workItem.StartingWorkItem() then

+                        // (work item is in InProgress state) then the thread will be aborted

+                        CurrentThreadEntry.CurrentWorkItem = workItem;

+

+                                                // Change the state of the work item to 'in progress' if possible.

+                                                // We do it here so if the work item has been canceled we won't 

+                                                // increment the _inUseWorkerThreads.

+                                                // The cancel mechanism doesn't delete items from the queue,  

+                                                // it marks the work item as canceled, and when the work item

+                                                // is dequeued, we just skip it.

+                                                // If the post execute of work item is set to always or to

+                                                // call when the work item is canceled then the StartingWorkItem()

+                                                // will return true, so the post execute can run.

+                                                if (!workItem.StartingWorkItem())

+                                                {

+                                                        continue;

+                                                }

+

+                                                // Execute the callback.  Make sure to accurately

+                                                // record how many callbacks are currently executing.

+                                                int inUseWorkerThreads = Interlocked.Increment(ref _inUseWorkerThreads);

+                                                _windowsPCs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);

+                        _localPCs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);

+

+                                                // Mark that the _inUseWorkerThreads incremented, so in the finally{}

+                                                // statement we will decrement it correctly.

+                                                bInUseWorkerThreadsWasIncremented = true;

+

+                        workItem.FireWorkItemStarted();

+

+                                                ExecuteWorkItem(workItem);

+                                        }

+                                        catch(Exception ex)

+                                        {

+                        ex.GetHashCode();

+                                                // Do nothing

+                                        }

+                                        finally

+                                        {

+                                                workItem.DisposeOfState();

+

+                                                // Set the CurrentWorkItem to null, since we 

+                                                // no longer run user's code.

+                        CurrentThreadEntry.CurrentWorkItem = null;

+

+                                                // Decrement the _inUseWorkerThreads only if we had 

+                                                // incremented it. Note the cancelled work items don't

+                                                // increment _inUseWorkerThreads.

+                                                if (bInUseWorkerThreadsWasIncremented)

+                                                {

+                                                        int inUseWorkerThreads = Interlocked.Decrement(ref _inUseWorkerThreads);

+                                                        _windowsPCs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);

+                            _localPCs.SampleThreads(_workerThreads.Count, inUseWorkerThreads);

+                                                }

+

+                                                // Notify that the work item has been completed.

+                                                // WorkItemsGroup may enqueue their next work item.

+                                                workItem.FireWorkItemCompleted();

+

+                                                // Decrement the number of work items here so the idle 

+                                                // ManualResetEvent won't fluctuate.

+                                                DecrementWorkItemsCount();

+                                        }

+                                }

+                        } 

+                        catch(ThreadAbortException tae)

+                        {

+                tae.GetHashCode();

+                // Handle the abort exception gracfully.

+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+                                Thread.ResetAbort();

+#endif

+            }

+                        catch(Exception e)

+                        {

+                                Debug.Assert(null != e);

+                        }

+                        finally

+                        {

+                                InformCompleted();

+                FireOnThreadTermination();

+                        }

+                }

+

+                private void ExecuteWorkItem(WorkItem workItem)

+                {

+                        _windowsPCs.SampleWorkItemsWaitTime(workItem.WaitingTime);

+            _localPCs.SampleWorkItemsWaitTime(workItem.WaitingTime);

+                        try

+                        {

+                                workItem.Execute();

+                        }

+                        finally

+                        {

+                                _windowsPCs.SampleWorkItemsProcessTime(workItem.ProcessTime);

+                _localPCs.SampleWorkItemsProcessTime(workItem.ProcessTime);

+                        }

+                }

+

+

+                #endregion

+

+                #region Public Methods

+

+                private void ValidateWaitForIdle()

+                {

+            if (null != CurrentThreadEntry && CurrentThreadEntry.AssociatedSmartThreadPool == this)

+                        {

+                                throw new NotSupportedException(

+                                        "WaitForIdle cannot be called from a thread on its SmartThreadPool, it causes a deadlock");

+                        }

+                }

+

+                internal static void ValidateWorkItemsGroupWaitForIdle(IWorkItemsGroup workItemsGroup)

+                {

+            if (null == CurrentThreadEntry)

+            {

+                return;

+            }

+

+            WorkItem workItem = CurrentThreadEntry.CurrentWorkItem;

+            ValidateWorkItemsGroupWaitForIdleImpl(workItemsGroup, workItem);

+                        if ((null != workItemsGroup) &&

+                (null != workItem) &&

+                CurrentThreadEntry.CurrentWorkItem.WasQueuedBy(workItemsGroup))

+                        {

+                                throw new NotSupportedException("WaitForIdle cannot be called from a thread on its SmartThreadPool, it causes a deadlock");

+                        }

+                }

+

+                [MethodImpl(MethodImplOptions.NoInlining)]

+                private static void ValidateWorkItemsGroupWaitForIdleImpl(IWorkItemsGroup workItemsGroup, WorkItem workItem)

+                {

+                        if ((null != workItemsGroup) && 

+                                (null != workItem) &&

+                                workItem.WasQueuedBy(workItemsGroup))

+                        {

+                                throw new NotSupportedException("WaitForIdle cannot be called from a thread on its SmartThreadPool, it causes a deadlock");

+                        }

+                }

+

+                /// <summary>

+                /// Force the SmartThreadPool to shutdown

+                /// </summary>

+                public void Shutdown()

+                {

+                        Shutdown(true, 0);

+                }

+

+        /// <summary>

+        /// Force the SmartThreadPool to shutdown with timeout

+        /// </summary>

+        public void Shutdown(bool forceAbort, TimeSpan timeout)

+                {

+                        Shutdown(forceAbort, (int)timeout.TotalMilliseconds);

+                }

+

+                /// <summary>

+                /// Empties the queue of work items and abort the threads in the pool.

+                /// </summary>

+                public void Shutdown(bool forceAbort, int millisecondsTimeout)

+                {

+                        ValidateNotDisposed();

+

+                        ISTPInstancePerformanceCounters pcs = _windowsPCs;

+

+                        if (NullSTPInstancePerformanceCounters.Instance != _windowsPCs)

+                        {

+                                // Set the _pcs to "null" to stop updating the performance

+                                // counters

+                                _windowsPCs = NullSTPInstancePerformanceCounters.Instance;

+

+                pcs.Dispose();

+                        }

+

+                        Thread [] threads;

+                        lock(_workerThreads.SyncRoot)

+                        {

+                                // Shutdown the work items queue

+                                _workItemsQueue.Dispose();

+

+                                // Signal the threads to exit

+                                _shutdown = true;

+                                _shuttingDownEvent.Set();

+

+                                // Make a copy of the threads' references in the pool

+                                threads = new Thread [_workerThreads.Count];

+                                _workerThreads.Keys.CopyTo(threads, 0);

+                        }

+

+                        int millisecondsLeft = millisecondsTimeout;

+            Stopwatch stopwatch = Stopwatch.StartNew();

+            //DateTime start = DateTime.UtcNow;

+                        bool waitInfinitely = (Timeout.Infinite == millisecondsTimeout);

+                        bool timeout = false;

+

+                        // Each iteration we update the time left for the timeout.

+                        foreach(Thread thread in threads)

+                        {

+                                // Join don't work with negative numbers

+                                if (!waitInfinitely && (millisecondsLeft < 0))

+                                {

+                                        timeout = true;

+                                        break;

+                                }

+

+                                // Wait for the thread to terminate

+                                bool success = thread.Join(millisecondsLeft);

+                                if(!success)

+                                {

+                                        timeout = true;

+                                        break;

+                                }

+

+                                if(!waitInfinitely)

+                                {

+                                        // Update the time left to wait

+                    //TimeSpan ts = DateTime.UtcNow - start;

+                    millisecondsLeft = millisecondsTimeout - (int)stopwatch.ElapsedMilliseconds;

+                                }

+                        }

+

+                        if (timeout && forceAbort)

+                        {

+                                // Abort the threads in the pool

+                                foreach(Thread thread in threads)

+                                {

+                    

+                                        if ((thread != null)

+#if !(_WINDOWS_CE)

+                        && thread.IsAlive

+#endif                        

+                        )

+                                        {

+                                                try 

+                                                {

+                            thread.Abort(); // Shutdown

+                                                }

+                                                catch(SecurityException e)

+                                                {

+                            e.GetHashCode();

+                                                }

+                                                catch(ThreadStateException ex)

+                                                {

+                            ex.GetHashCode();

+                                                        // In case the thread has been terminated 

+                                                        // after the check if it is alive.

+                                                }

+                                        }

+                                }

+                        }

+                }

+

+                /// <summary>

+                /// Wait for all work items to complete

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <returns>

+                /// true when every work item in workItemResults has completed; otherwise false.

+                /// </returns>

+                public static bool WaitAll(

+                        IWaitableResult [] waitableResults)

+                {

+            return WaitAll(waitableResults, Timeout.Infinite, true);

+                }

+

+                /// <summary>

+                /// Wait for all work items to complete

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <returns>

+                /// true when every work item in workItemResults has completed; otherwise false.

+                /// </returns>

+                public static bool WaitAll(

+                        IWaitableResult [] waitableResults,

+                        TimeSpan timeout,

+                        bool exitContext)

+                {

+            return WaitAll(waitableResults, (int)timeout.TotalMilliseconds, exitContext);

+                }

+

+                /// <summary>

+                /// Wait for all work items to complete

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>

+                /// <returns>

+                /// true when every work item in workItemResults has completed; otherwise false.

+                /// </returns>

+                public static bool WaitAll(

+            IWaitableResult[] waitableResults,  

+                        TimeSpan timeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle)

+                {

+            return WaitAll(waitableResults, (int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);

+                }

+

+                /// <summary>

+                /// Wait for all work items to complete

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <returns>

+                /// true when every work item in workItemResults has completed; otherwise false.

+                /// </returns>

+                public static bool WaitAll(

+                        IWaitableResult [] waitableResults,  

+                        int millisecondsTimeout,

+                        bool exitContext)

+                {

+            return WorkItem.WaitAll(waitableResults, millisecondsTimeout, exitContext, null);

+                }

+

+                /// <summary>

+                /// Wait for all work items to complete

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>

+                /// <returns>

+                /// true when every work item in workItemResults has completed; otherwise false.

+                /// </returns>

+                public static bool WaitAll(

+            IWaitableResult[] waitableResults,  

+                        int millisecondsTimeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle)

+                {

+            return WorkItem.WaitAll(waitableResults, millisecondsTimeout, exitContext, cancelWaitHandle);

+                }

+

+

+                /// <summary>

+                /// Waits for any of the work items in the specified array to complete, cancel, or timeout

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <returns>

+                /// The array index of the work item result that satisfied the wait, or WaitTimeout if any of the work items has been canceled.

+                /// </returns>

+                public static int WaitAny(

+                        IWaitableResult [] waitableResults)

+                {

+            return WaitAny(waitableResults, Timeout.Infinite, true);

+                }

+

+                /// <summary>

+                /// Waits for any of the work items in the specified array to complete, cancel, or timeout

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <returns>

+                /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.

+                /// </returns>

+                public static int WaitAny(

+            IWaitableResult[] waitableResults,

+                        TimeSpan timeout,

+                        bool exitContext)

+                {

+            return WaitAny(waitableResults, (int)timeout.TotalMilliseconds, exitContext);

+                }

+

+                /// <summary>

+                /// Waits for any of the work items in the specified array to complete, cancel, or timeout

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="timeout">The number of milliseconds to wait, or a TimeSpan that represents -1 milliseconds to wait indefinitely. </param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>

+                /// <returns>

+                /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.

+                /// </returns>

+                public static int WaitAny(

+                        IWaitableResult [] waitableResults,

+                        TimeSpan timeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle)

+                {

+            return WaitAny(waitableResults, (int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);

+                }

+

+                /// <summary>

+                /// Waits for any of the work items in the specified array to complete, cancel, or timeout

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <returns>

+                /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.

+                /// </returns>

+                public static int WaitAny(

+                        IWaitableResult [] waitableResults,  

+                        int millisecondsTimeout,

+                        bool exitContext)

+                {

+            return WorkItem.WaitAny(waitableResults, millisecondsTimeout, exitContext, null);

+                }

+

+                /// <summary>

+                /// Waits for any of the work items in the specified array to complete, cancel, or timeout

+                /// </summary>

+        /// <param name="waitableResults">Array of work item result objects</param>

+                /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>

+                /// <param name="exitContext">

+                /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 

+                /// </param>

+                /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>

+                /// <returns>

+                /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.

+                /// </returns>

+                public static int WaitAny(

+                        IWaitableResult [] waitableResults,  

+                        int millisecondsTimeout,

+                        bool exitContext,

+                        WaitHandle cancelWaitHandle)

+                {

+            return WorkItem.WaitAny(waitableResults, millisecondsTimeout, exitContext, cancelWaitHandle);

+                }

+

+        /// <summary>

+        /// Creates a new WorkItemsGroup.

+        /// </summary>

+        /// <param name="concurrency">The number of work items that can be run concurrently</param>

+        /// <returns>A reference to the WorkItemsGroup</returns>

+                public IWorkItemsGroup CreateWorkItemsGroup(int concurrency)

+                {

+            IWorkItemsGroup workItemsGroup = new WorkItemsGroup(this, concurrency, _stpStartInfo);

+                        return workItemsGroup;

+                }

+

+        /// <summary>

+        /// Creates a new WorkItemsGroup.

+        /// </summary>

+        /// <param name="concurrency">The number of work items that can be run concurrently</param>

+        /// <param name="wigStartInfo">A WorkItemsGroup configuration that overrides the default behavior</param>

+        /// <returns>A reference to the WorkItemsGroup</returns>

+                public IWorkItemsGroup CreateWorkItemsGroup(int concurrency, WIGStartInfo wigStartInfo)

+                {

+                        IWorkItemsGroup workItemsGroup = new WorkItemsGroup(this, concurrency, wigStartInfo);

+                        return workItemsGroup;

+                }

+

+        #region Fire Thread's Events

+

+        private void FireOnThreadInitialization()

+        {

+            if (null != _onThreadInitialization)

+            {

+                foreach (ThreadInitializationHandler tih in _onThreadInitialization.GetInvocationList())

+                {

+                    try

+                    {

+                        tih();

+                    }

+                    catch (Exception e)

+                    {

+                        e.GetHashCode();

+                        Debug.Assert(false);

+                        throw;

+                    }

+                }

+            }

+        }

+

+        private void FireOnThreadTermination()

+        {

+            if (null != _onThreadTermination)

+            {

+                foreach (ThreadTerminationHandler tth in _onThreadTermination.GetInvocationList())

+                {

+                    try

+                    {

+                        tth();

+                    }

+                    catch (Exception e)

+                    {

+                        e.GetHashCode();

+                        Debug.Assert(false);

+                        throw;

+                    }

+                }

+            }

+        }

+

+        #endregion

+

+        /// <summary>

+        /// This event is fired when a thread is created.

+        /// Use it to initialize a thread before the work items use it.

+        /// </summary>

+        public event ThreadInitializationHandler OnThreadInitialization

+        {

+            add { _onThreadInitialization += value; }

+            remove { _onThreadInitialization -= value; }

+        }

+

+        /// <summary>

+        /// This event is fired when a thread is terminating.

+        /// Use it for cleanup.

+        /// </summary>

+        public event ThreadTerminationHandler OnThreadTermination

+        {

+            add { _onThreadTermination += value; }

+            remove { _onThreadTermination -= value; }

+        }

+

+

+        internal void CancelAbortWorkItemsGroup(WorkItemsGroup wig)

+        {

+            foreach (ThreadEntry threadEntry in _workerThreads.Values)

+            {

+                WorkItem workItem = threadEntry.CurrentWorkItem;

+                if (null != workItem &&

+                    workItem.WasQueuedBy(wig) &&

+                    !workItem.IsCanceled)

+                {

+                    threadEntry.CurrentWorkItem.GetWorkItemResult().Cancel(true);

+                }

+            }

+        }

+

+        

+

+                #endregion

+

+                #region Properties

+

+                /// <summary>

+                /// Get/Set the lower limit of threads in the pool.

+                /// </summary>

+                public int MinThreads 

+                { 

+                        get 

+                        {

+                                ValidateNotDisposed();

+                return _stpStartInfo.MinWorkerThreads; 

+                        }

+            set

+            {

+                Debug.Assert(value >= 0);

+                Debug.Assert(value <= _stpStartInfo.MaxWorkerThreads);

+                if (_stpStartInfo.MaxWorkerThreads < value)

+                {

+                    _stpStartInfo.MaxWorkerThreads = value;

+                }

+                _stpStartInfo.MinWorkerThreads = value;

+                StartOptimalNumberOfThreads();

+            }

+                }

+

+            /// <summary>

+                /// Get/Set the upper limit of threads in the pool.

+                /// </summary>

+                public int MaxThreads 

+                { 

+                        get 

+                        {

+                                ValidateNotDisposed();

+                return _stpStartInfo.MaxWorkerThreads; 

+                        } 

+

+                        set 

+                        {

+                Debug.Assert(value > 0);

+                Debug.Assert(value >= _stpStartInfo.MinWorkerThreads);

+                if (_stpStartInfo.MinWorkerThreads > value)

+                {

+                    _stpStartInfo.MinWorkerThreads = value;

+                }

+                _stpStartInfo.MaxWorkerThreads = value;

+                StartOptimalNumberOfThreads();

+            } 

+                }

+                /// <summary>

+                /// Get the number of threads in the thread pool.

+                /// Should be between the lower and the upper limits.

+                /// </summary>

+                public int ActiveThreads 

+                { 

+                        get 

+                        {

+                                ValidateNotDisposed();

+                                return _workerThreads.Count; 

+                        } 

+                }

+

+                /// <summary>

+                /// Get the number of busy (not idle) threads in the thread pool.

+                /// </summary>

+                public int InUseThreads 

+                { 

+                        get 

+                        { 

+                                ValidateNotDisposed();

+                                return _inUseWorkerThreads; 

+                        } 

+                }

+

+        /// <summary>

+        /// Returns true if the current running work item has been cancelled.

+        /// Must be used within the work item's callback method.

+        /// The work item should sample this value in order to know if it

+        /// needs to quit before its completion.

+        /// </summary>

+        public static bool IsWorkItemCanceled

+        {

+            get

+            {

+                return CurrentThreadEntry.CurrentWorkItem.IsCanceled;

+            }

+        } 

+        

+        /// <summary>

+        /// Checks if the work item has been cancelled, and if yes then abort the thread.

+        /// Can be used with Cancel and timeout

+        /// </summary>

+        public static void AbortOnWorkItemCancel()

+        {

+            if (IsWorkItemCanceled)

+            {

+                Thread.CurrentThread.Abort();

+            }

+        }

+

+        /// <summary>

+        /// Thread Pool start information (readonly)

+        /// </summary>

+        public STPStartInfo STPStartInfo

+        {

+            get 

+            {

+                return _stpStartInfo.AsReadOnly(); 

+            }

+        }

+

+            public bool IsShuttingdown

+            {

+            get { return _shutdown;  }

+            }

+

+        /// <summary>

+        /// Return the local calculated performance counters

+        /// Available only if STPStartInfo.EnableLocalPerformanceCounters is true.

+        /// </summary>

+        public ISTPPerformanceCountersReader PerformanceCountersReader

+        {

+            get { return (ISTPPerformanceCountersReader)_localPCs; }

+        }

+

+        #endregion

+

+        #region IDisposable Members

+

+        public void Dispose()

+        {

+            if (!_isDisposed)

+            {

+                if (!_shutdown)

+                {

+                    Shutdown();

+                }

+

+                if (null != _shuttingDownEvent)

+                {

+                    _shuttingDownEvent.Close();

+                    _shuttingDownEvent = null;

+                }

+                _workerThreads.Clear();

+                

+                if (null != _isIdleWaitHandle)

+                {

+                    _isIdleWaitHandle.Close();

+                    _isIdleWaitHandle = null;

+                }

+

+                _isDisposed = true;

+            }

+        }

+

+        private void ValidateNotDisposed()

+        {

+            if(_isDisposed)

+            {

+                throw new ObjectDisposedException(GetType().ToString(), "The SmartThreadPool has been shutdown");

+            }

+        }

+        #endregion

+

+        #region WorkItemsGroupBase Overrides

+

+        /// <summary>

+        /// Get/Set the maximum number of work items that execute cocurrency on the thread pool

+        /// </summary>

+        public override int Concurrency

+            {

+                get { return MaxThreads; }

+                set { MaxThreads = value; }

+            }

+

+            /// <summary>

+            /// Get the number of work items in the queue.

+            /// </summary>

+            public override int WaitingCallbacks

+            {

+                get

+                {

+                    ValidateNotDisposed();

+                    return _workItemsQueue.Count;

+                }

+            }

+

+        /// <summary>

+        /// Get an array with all the state objects of the currently running items.

+        /// The array represents a snap shot and impact performance.

+        /// </summary>

+        public override object[] GetStates()

+        {

+            object[] states = _workItemsQueue.GetStates();

+            return states;

+        }

+

+        /// <summary>

+        /// WorkItemsGroup start information (readonly)

+        /// </summary>

+        public override WIGStartInfo WIGStartInfo

+        {

+            get { return _stpStartInfo.AsReadOnly(); }

+        }

+

+            /// <summary>

+        /// Start the thread pool if it was started suspended.

+        /// If it is already running, this method is ignored.

+        /// </summary>

+        public override void Start()

+        {

+            if (!_isSuspended)

+            {

+                return;

+            }

+            _isSuspended = false;

+

+            ICollection workItemsGroups = _workItemsGroups.Values;

+            foreach (WorkItemsGroup workItemsGroup in workItemsGroups)

+            {

+                workItemsGroup.OnSTPIsStarting();

+            }

+

+            StartOptimalNumberOfThreads();

+        }

+

+        /// <summary>

+        /// Cancel all work items using thread abortion

+        /// </summary>

+        /// <param name="abortExecution">True to stop work items by raising ThreadAbortException</param>

+        public override void Cancel(bool abortExecution)

+        {

+            _canceledSmartThreadPool.IsCanceled = true;

+            _canceledSmartThreadPool = new CanceledWorkItemsGroup();

+

+            ICollection workItemsGroups = _workItemsGroups.Values;

+            foreach (WorkItemsGroup workItemsGroup in workItemsGroups)

+            {

+                workItemsGroup.Cancel(abortExecution);

+            }

+

+            if (abortExecution)

+            {

+                foreach (ThreadEntry threadEntry in _workerThreads.Values)

+                {

+                    WorkItem workItem = threadEntry.CurrentWorkItem;

+                    if (null != workItem &&

+                        threadEntry.AssociatedSmartThreadPool == this &&

+                        !workItem.IsCanceled)

+                    {

+                        threadEntry.CurrentWorkItem.GetWorkItemResult().Cancel(true);

+                    }

+                }

+            }

+        }

+

+            /// <summary>

+        /// Wait for the thread pool to be idle

+        /// </summary>

+        public override bool WaitForIdle(int millisecondsTimeout)

+        {

+            ValidateWaitForIdle();

+            return STPEventWaitHandle.WaitOne(_isIdleWaitHandle, millisecondsTimeout, false);

+        }

+

+        /// <summary>

+        /// This event is fired when all work items are completed.

+        /// (When IsIdle changes to true)

+        /// This event only work on WorkItemsGroup. On SmartThreadPool

+        /// it throws the NotImplementedException.

+        /// </summary>

+        public override event WorkItemsGroupIdleHandler OnIdle

+        {

+            add

+            {

+                throw new NotImplementedException("This event is not implemented in the SmartThreadPool class. Please create a WorkItemsGroup in order to use this feature.");

+                //_onIdle += value;

+            }

+            remove

+            {

+                throw new NotImplementedException("This event is not implemented in the SmartThreadPool class. Please create a WorkItemsGroup in order to use this feature.");

+                //_onIdle -= value;

+            }

+        }

+

+            internal override void PreQueueWorkItem()

+        {

+            ValidateNotDisposed();   

+        }

+

+        #endregion

+

+        #region Join, Choice, Pipe, etc.

+

+        /// <summary>

+        /// Executes all actions in parallel.

+        /// Returns when they all finish.

+        /// </summary>

+        /// <param name="actions">Actions to execute</param>

+        public void Join(IEnumerable<Action> actions)

+        {

+            WIGStartInfo wigStartInfo = new WIGStartInfo { StartSuspended = true };

+            IWorkItemsGroup workItemsGroup = CreateWorkItemsGroup(int.MaxValue, wigStartInfo);

+            foreach (Action action in actions)

+            {

+                workItemsGroup.QueueWorkItem(action);

+            }

+            workItemsGroup.Start();

+            workItemsGroup.WaitForIdle();

+        }

+

+        /// <summary>

+        /// Executes all actions in parallel.

+        /// Returns when they all finish.

+        /// </summary>

+        /// <param name="actions">Actions to execute</param>

+        public void Join(params Action[] actions)

+        {

+            Join((IEnumerable<Action>)actions);

+        }

+

+        private class ChoiceIndex

+        {

+            public int _index = -1;

+        }

+

+        /// <summary>

+        /// Executes all actions in parallel

+        /// Returns when the first one completes

+        /// </summary>

+        /// <param name="actions">Actions to execute</param>

+        public int Choice(IEnumerable<Action> actions)

+        {

+            WIGStartInfo wigStartInfo = new WIGStartInfo { StartSuspended = true };

+            IWorkItemsGroup workItemsGroup = CreateWorkItemsGroup(int.MaxValue, wigStartInfo);

+

+            ManualResetEvent anActionCompleted = new ManualResetEvent(false);

+

+            ChoiceIndex choiceIndex = new ChoiceIndex();

+            

+            int i = 0;

+            foreach (Action action in actions)

+            {

+                Action act = action;

+                int value = i;

+                workItemsGroup.QueueWorkItem(() => { act(); Interlocked.CompareExchange(ref choiceIndex._index, value, -1); anActionCompleted.Set(); });

+                ++i;

+            }

+                workItemsGroup.Start();

+            anActionCompleted.WaitOne();

+

+            return choiceIndex._index;

+        }

+

+        /// <summary>

+        /// Executes all actions in parallel

+        /// Returns when the first one completes

+        /// </summary>

+        /// <param name="actions">Actions to execute</param>

+        public int Choice(params Action[] actions)

+            {

+            return Choice((IEnumerable<Action>)actions);

+        }

+

+        /// <summary>

+        /// Executes actions in sequence asynchronously.

+        /// Returns immediately.

+        /// </summary>

+        /// <param name="pipeState">A state context that passes </param>

+        /// <param name="actions">Actions to execute in the order they should run</param>

+        public void Pipe<T>(T pipeState, IEnumerable<Action<T>> actions)

+        {

+            WIGStartInfo wigStartInfo = new WIGStartInfo { StartSuspended = true };

+            IWorkItemsGroup workItemsGroup = CreateWorkItemsGroup(1, wigStartInfo);

+            foreach (Action<T> action in actions)

+            {

+                Action<T> act = action;

+                workItemsGroup.QueueWorkItem(() => act(pipeState));

+            }

+            workItemsGroup.Start();

+            workItemsGroup.WaitForIdle();

+        }

+

+        /// <summary>

+        /// Executes actions in sequence asynchronously.

+        /// Returns immediately.

+        /// </summary>

+        /// <param name="pipeState"></param>

+        /// <param name="actions">Actions to execute in the order they should run</param>

+        public void Pipe<T>(T pipeState, params Action<T>[] actions)

+        {

+            Pipe(pipeState, (IEnumerable<Action<T>>)actions);

+        }

+        #endregion

+        }

+        #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/SynchronizedDictionary.cs b/ThirdParty/SmartThreadPool/SynchronizedDictionary.cs
new file mode 100644
index 0000000..3532cca
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/SynchronizedDictionary.cs
@@ -0,0 +1,89 @@
+using System.Collections.Generic;

+

+namespace Amib.Threading.Internal

+{

+    internal class SynchronizedDictionary<TKey, TValue>

+    {

+        private readonly Dictionary<TKey, TValue> _dictionary;

+        private readonly object _lock;

+

+        public SynchronizedDictionary()

+        {

+            _lock = new object();

+            _dictionary = new Dictionary<TKey, TValue>();

+        }

+

+        public int Count

+        {

+            get { return _dictionary.Count; }

+        }

+

+        public bool Contains(TKey key)

+        {

+            lock (_lock)

+            {

+                return _dictionary.ContainsKey(key);

+            }

+        }

+

+        public void Remove(TKey key)

+        {

+            lock (_lock)

+            {

+                _dictionary.Remove(key);

+            }

+        }

+

+        public object SyncRoot

+        {

+            get { return _lock; }

+        }

+

+        public TValue this[TKey key]

+        {

+            get

+            {

+                lock (_lock)

+                {

+                    return _dictionary[key];

+                }

+            }

+            set

+            {

+                lock (_lock)

+                {

+                    _dictionary[key] = value;

+                }

+            }

+        }

+

+        public Dictionary<TKey, TValue>.KeyCollection Keys

+        {

+            get

+            {

+                lock (_lock)

+                {

+                    return _dictionary.Keys;

+                }

+            }

+        }

+

+        public Dictionary<TKey, TValue>.ValueCollection Values

+        {

+            get

+            {

+                lock (_lock)

+                {

+                    return _dictionary.Values;

+                }

+            }

+        }

+        public void Clear()

+        {

+            lock (_lock)

+            {

+                _dictionary.Clear();

+            }

+        }

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/WIGStartInfo.cs b/ThirdParty/SmartThreadPool/WIGStartInfo.cs
index 150317f..e5ff150 100644
--- a/ThirdParty/SmartThreadPool/WIGStartInfo.cs
+++ b/ThirdParty/SmartThreadPool/WIGStartInfo.cs
@@ -1,99 +1,171 @@
-// Ami Bar
-// amibar@gmail.com
-
-namespace Amib.Threading
-{
-    /// <summary>
-    /// Summary description for WIGStartInfo.
-    /// </summary>
-    public class WIGStartInfo
-    {
-        /// <summary>
-        /// Use the caller's security context
-        /// </summary>
-        private bool _useCallerCallContext;
-
-        /// <summary>
-        /// Use the caller's HTTP context
-        /// </summary>
-        private bool _useCallerHttpContext;
-
-        /// <summary>
-        /// Dispose of the state object of a work item
-        /// </summary>
-        private bool _disposeOfStateObjects;
-
-        /// <summary>
-        /// The option to run the post execute
-        /// </summary>
-        private CallToPostExecute _callToPostExecute;
-
-        /// <summary>
-        /// A post execute callback to call when none is provided in 
-        /// the QueueWorkItem method.
-        /// </summary>
-        private PostExecuteWorkItemCallback _postExecuteWorkItemCallback;
-
-        /// <summary>
-        /// Indicate the WorkItemsGroup to suspend the handling of the work items
-        /// until the Start() method is called.
-        /// </summary>
-        private bool _startSuspended;
-
-        public WIGStartInfo()
-        {
-            _useCallerCallContext = SmartThreadPool.DefaultUseCallerCallContext;
-            _useCallerHttpContext = SmartThreadPool.DefaultUseCallerHttpContext;
-            _disposeOfStateObjects = SmartThreadPool.DefaultDisposeOfStateObjects;
-            _callToPostExecute = SmartThreadPool.DefaultCallToPostExecute;
-            _postExecuteWorkItemCallback = SmartThreadPool.DefaultPostExecuteWorkItemCallback;
-            _startSuspended = SmartThreadPool.DefaultStartSuspended;
-        }
-
-        public WIGStartInfo(WIGStartInfo wigStartInfo)
-        {
-            _useCallerCallContext = wigStartInfo._useCallerCallContext;
-            _useCallerHttpContext = wigStartInfo._useCallerHttpContext;
-            _disposeOfStateObjects = wigStartInfo._disposeOfStateObjects;
-            _callToPostExecute = wigStartInfo._callToPostExecute;
-            _postExecuteWorkItemCallback = wigStartInfo._postExecuteWorkItemCallback;
-            _startSuspended = wigStartInfo._startSuspended;
-        }
-
-        public bool UseCallerCallContext
-        {
-            get { return _useCallerCallContext; }
-            set { _useCallerCallContext = value; }
-        }
-
-        public bool UseCallerHttpContext
-        {
-            get { return _useCallerHttpContext; }
-            set { _useCallerHttpContext = value; }
-        }
-
-        public bool DisposeOfStateObjects
-        {
-            get { return _disposeOfStateObjects; }
-            set { _disposeOfStateObjects = value; }
-        }
-
-        public CallToPostExecute CallToPostExecute
-        {
-            get { return _callToPostExecute; }
-            set { _callToPostExecute = value; }
-        }
-
-        public PostExecuteWorkItemCallback PostExecuteWorkItemCallback
-        {
-            get { return _postExecuteWorkItemCallback; }
-            set { _postExecuteWorkItemCallback = value; }
-        }
-
-        public bool StartSuspended
-        {
-            get { return _startSuspended; }
-            set { _startSuspended = value; }
-        }
-    }
-}
+using System;

+

+namespace Amib.Threading

+{

+        /// <summary>

+        /// Summary description for WIGStartInfo.

+        /// </summary>

+        public class WIGStartInfo

+        {

+        private bool _useCallerCallContext;

+        private bool _useCallerHttpContext;

+        private bool _disposeOfStateObjects;

+        private CallToPostExecute _callToPostExecute;

+        private PostExecuteWorkItemCallback _postExecuteWorkItemCallback;

+        private bool _startSuspended;

+        private WorkItemPriority _workItemPriority;

+        private bool _fillStateWithArgs;

+

+        protected bool _readOnly;

+

+            public WIGStartInfo()

+        {

+                _fillStateWithArgs = SmartThreadPool.DefaultFillStateWithArgs;

+                _workItemPriority = SmartThreadPool.DefaultWorkItemPriority;

+            _startSuspended = SmartThreadPool.DefaultStartSuspended;

+            _postExecuteWorkItemCallback = SmartThreadPool.DefaultPostExecuteWorkItemCallback;

+            _callToPostExecute = SmartThreadPool.DefaultCallToPostExecute;

+            _disposeOfStateObjects = SmartThreadPool.DefaultDisposeOfStateObjects;

+            _useCallerHttpContext = SmartThreadPool.DefaultUseCallerHttpContext;

+            _useCallerCallContext = SmartThreadPool.DefaultUseCallerCallContext;

+        }

+

+            public WIGStartInfo(WIGStartInfo wigStartInfo)

+        {

+            _useCallerCallContext = wigStartInfo.UseCallerCallContext;

+            _useCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+            _disposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+            _callToPostExecute = wigStartInfo.CallToPostExecute;

+            _postExecuteWorkItemCallback = wigStartInfo.PostExecuteWorkItemCallback;

+            _workItemPriority = wigStartInfo.WorkItemPriority;

+            _startSuspended = wigStartInfo.StartSuspended;

+            _fillStateWithArgs = wigStartInfo.FillStateWithArgs;

+        }

+

+        protected void ThrowIfReadOnly()

+        {

+            if (_readOnly)

+            {

+                throw new NotSupportedException("This is a readonly instance and set is not supported");

+            }

+        }

+

+            /// <summary>

+            /// Get/Set if to use the caller's security context

+            /// </summary>

+            public virtual bool UseCallerCallContext

+            {

+                get { return _useCallerCallContext; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _useCallerCallContext = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set if to use the caller's HTTP context

+            /// </summary>

+            public virtual bool UseCallerHttpContext

+            {

+                get { return _useCallerHttpContext; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _useCallerHttpContext = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set if to dispose of the state object of a work item

+            /// </summary>

+            public virtual bool DisposeOfStateObjects

+            {

+                get { return _disposeOfStateObjects; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _disposeOfStateObjects = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set the run the post execute options

+            /// </summary>

+            public virtual CallToPostExecute CallToPostExecute

+            {

+                get { return _callToPostExecute; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _callToPostExecute = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set the default post execute callback

+            /// </summary>

+            public virtual PostExecuteWorkItemCallback PostExecuteWorkItemCallback

+            {

+                get { return _postExecuteWorkItemCallback; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _postExecuteWorkItemCallback = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set if the work items execution should be suspended until the Start()

+            /// method is called.

+            /// </summary>

+            public virtual bool StartSuspended

+            {

+                get { return _startSuspended; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _startSuspended = value; 

+            }

+            }

+

+

+            /// <summary>

+            /// Get/Set the default priority that a work item gets when it is enqueued

+            /// </summary>

+            public virtual WorkItemPriority WorkItemPriority

+            {

+                get { return _workItemPriority; }

+                set { _workItemPriority = value; }

+            }

+

+            /// <summary>

+        /// Get/Set the if QueueWorkItem of Action&lt;...&gt;/Func&lt;...&gt; fill the

+            /// arguments as an object array into the state of the work item.

+            /// The arguments can be access later by IWorkItemResult.State.

+            /// </summary>

+            public virtual bool FillStateWithArgs

+            {

+                get { return _fillStateWithArgs; }

+            set 

+            { 

+                ThrowIfReadOnly();  

+                _fillStateWithArgs = value; 

+            }

+            }

+

+            /// <summary>

+        /// Get a readonly version of this WIGStartInfo

+        /// </summary>

+        /// <returns>Returns a readonly reference to this WIGStartInfoRO</returns>

+        public WIGStartInfo AsReadOnly()

+            {

+            return new WIGStartInfo(this) { _readOnly = true };

+            }

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItem.WorkItemResult.cs b/ThirdParty/SmartThreadPool/WorkItem.WorkItemResult.cs
new file mode 100644
index 0000000..5745c15
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/WorkItem.WorkItemResult.cs
@@ -0,0 +1,190 @@
+using System;

+using System.Collections.Generic;

+using System.Text;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+    public partial class WorkItem

+    {

+        #region WorkItemResult class

+

+        private class WorkItemResult : IWorkItemResult, IInternalWorkItemResult, IInternalWaitableResult

+        {

+            /// <summary>

+            /// A back reference to the work item

+            /// </summary>

+            private readonly WorkItem _workItem;

+

+            public WorkItemResult(WorkItem workItem)

+            {

+                _workItem = workItem;

+            }

+

+            internal WorkItem GetWorkItem()

+            {

+                return _workItem;

+            }

+

+            #region IWorkItemResult Members

+

+            public bool IsCompleted

+            {

+                get

+                {

+                    return _workItem.IsCompleted;

+                }

+            }

+

+            public bool IsCanceled

+            {

+                get

+                {

+                    return _workItem.IsCanceled;

+                }

+            }

+

+            public object GetResult()

+            {

+                return _workItem.GetResult(Timeout.Infinite, true, null);

+            }

+

+            public object GetResult(int millisecondsTimeout, bool exitContext)

+            {

+                return _workItem.GetResult(millisecondsTimeout, exitContext, null);

+            }

+

+            public object GetResult(TimeSpan timeout, bool exitContext)

+            {

+                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, null);

+            }

+

+            public object GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle)

+            {

+                return _workItem.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle);

+            }

+

+            public object GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle)

+            {

+                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);

+            }

+

+            public object GetResult(out Exception e)

+            {

+                return _workItem.GetResult(Timeout.Infinite, true, null, out e);

+            }

+

+            public object GetResult(int millisecondsTimeout, bool exitContext, out Exception e)

+            {

+                return _workItem.GetResult(millisecondsTimeout, exitContext, null, out e);

+            }

+

+            public object GetResult(TimeSpan timeout, bool exitContext, out Exception e)

+            {

+                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, null, out e);

+            }

+

+            public object GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)

+            {

+                return _workItem.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle, out e);

+            }

+

+            public object GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)

+            {

+                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle, out e);

+            }

+

+            public bool Cancel()

+            {

+                return Cancel(false);

+            }

+

+            public bool Cancel(bool abortExecution)

+            {

+                return _workItem.Cancel(abortExecution);

+            }

+

+            public object State

+            {

+                get

+                {

+                    return _workItem._state;

+                }

+            }

+

+            public WorkItemPriority WorkItemPriority

+            {

+                get

+                {

+                    return _workItem._workItemInfo.WorkItemPriority;

+                }

+            }

+

+            /// <summary>

+            /// Return the result, same as GetResult()

+            /// </summary>

+            public object Result

+            {

+                get { return GetResult(); }

+            }

+

+            /// <summary>

+            /// Returns the exception if occured otherwise returns null.

+            /// This value is valid only after the work item completed,

+            /// before that it is always null.

+            /// </summary>

+            public object Exception

+            {

+                get { return _workItem._exception; }

+            }

+

+            #endregion

+

+            #region IInternalWorkItemResult Members

+

+            public event WorkItemStateCallback OnWorkItemStarted

+            {

+                add

+                {

+                    _workItem.OnWorkItemStarted += value;

+                }

+                remove

+                {

+                    _workItem.OnWorkItemStarted -= value;

+                }

+            }

+

+

+            public event WorkItemStateCallback OnWorkItemCompleted

+            {

+                add

+                {

+                    _workItem.OnWorkItemCompleted += value;

+                }

+                remove

+                {

+                    _workItem.OnWorkItemCompleted -= value;

+                }

+            }

+

+            #endregion

+

+            #region IInternalWorkItemResult Members

+

+            public IWorkItemResult GetWorkItemResult()

+            {

+                return this;

+            }

+

+            public IWorkItemResult<TResult> GetWorkItemResultT<TResult>()

+            {

+                return new WorkItemResultTWrapper<TResult>(this);

+            }

+

+            #endregion

+        }

+

+        #endregion

+

+    }

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItem.cs b/ThirdParty/SmartThreadPool/WorkItem.cs
index d0c0524..f229d1f 100644
--- a/ThirdParty/SmartThreadPool/WorkItem.cs
+++ b/ThirdParty/SmartThreadPool/WorkItem.cs
@@ -1,58 +1,13 @@
-// Ami Bar
-// amibar@gmail.com
-
 using System;
 using System.Threading;
 using System.Diagnostics;
 
 namespace Amib.Threading.Internal
 {
-    #region WorkItem Delegate
-
-    /// <summary>
-    /// An internal delegate to call when the WorkItem starts or completes
-    /// </summary>
-    internal delegate void WorkItemStateCallback(WorkItem workItem);
-
-    #endregion
-
-    #region IInternalWorkItemResult interface 
-
-    public class CanceledWorkItemsGroup
-    {
-        public readonly static CanceledWorkItemsGroup NotCanceledWorkItemsGroup = new CanceledWorkItemsGroup();
-
-        private bool _isCanceled = false;
-        public bool IsCanceled 
-        { 
-            get { return _isCanceled; }
-            set { _isCanceled = value; }
-        }
-    }
-
-    internal interface IInternalWorkItemResult
-    {
-        event WorkItemStateCallback OnWorkItemStarted;
-        event WorkItemStateCallback OnWorkItemCompleted;
-    }
-
-    #endregion
-
-    #region IWorkItem interface
-
-    public interface IWorkItem
-    {
-
-    }
-
-    #endregion
-
-    #region WorkItem class
-
     /// <summary>
     /// Holds a callback delegate and the state for that delegate.
     /// </summary>
-    public class WorkItem : IHasWorkItemPriority, IWorkItem
+    public partial class WorkItem : IHasWorkItemPriority
     {
         #region WorkItemState enum
 
@@ -61,33 +16,57 @@ namespace Amib.Threading.Internal
         /// </summary>
         private enum WorkItemState
         {
-            InQueue,
-            InProgress,
-            Completed,
-            Canceled,
+            InQueue = 0,    // Nexts: InProgress, Canceled
+            InProgress = 1,    // Nexts: Completed, Canceled
+            Completed = 2,    // Stays Completed
+            Canceled = 3,    // Stays Canceled
         }
 
-        #endregion
+        private static bool IsValidStatesTransition(WorkItemState currentState, WorkItemState nextState)
+        {
+            bool valid = false;
+
+            switch (currentState)
+            {
+                case WorkItemState.InQueue:
+                    valid = (WorkItemState.InProgress == nextState) || (WorkItemState.Canceled == nextState);
+                    break;
+                case WorkItemState.InProgress:
+                    valid = (WorkItemState.Completed == nextState) || (WorkItemState.Canceled == nextState);
+                    break;
+                case WorkItemState.Completed:
+                case WorkItemState.Canceled:
+                    // Cannot be changed
+                    break;
+                default:
+                    // Unknown state
+                    Debug.Assert(false);
+                    break;
+            }
 
-        #region Member Variables
+            return valid;
+        }
 
-        public Thread currentThread;
+        #endregion
+
+        #region Fields
 
         /// <summary>
         /// Callback delegate for the callback.
         /// </summary>
-        private WorkItemCallback _callback;
+        private readonly WorkItemCallback _callback;
 
         /// <summary>
         /// State with which to call the callback delegate.
         /// </summary>
         private object _state;
 
+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
         /// <summary>
         /// Stores the caller's context
         /// </summary>
-        private CallerThreadContext _callerContext;
-
+        private readonly CallerThreadContext _callerContext;
+#endif
         /// <summary>
         /// Holds the result of the mehtod
         /// </summary>
@@ -117,12 +96,12 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Represents the result state of the work item
         /// </summary>
-        private WorkItemResult _workItemResult;
+        private readonly WorkItemResult _workItemResult;
 
         /// <summary>
         /// Work item info
         /// </summary>
-        private WorkItemInfo _workItemInfo;
+        private readonly WorkItemInfo _workItemInfo;
 
         /// <summary>
         /// Called when the WorkItem starts
@@ -141,30 +120,41 @@ namespace Amib.Threading.Internal
         private CanceledWorkItemsGroup _canceledWorkItemsGroup = CanceledWorkItemsGroup.NotCanceledWorkItemsGroup;
 
         /// <summary>
+        /// A reference to an object that indicates whatever the 
+        /// SmartThreadPool has been canceled
+        /// </summary>
+        private CanceledWorkItemsGroup _canceledSmartThreadPool = CanceledWorkItemsGroup.NotCanceledWorkItemsGroup;
+
+        /// <summary>
         /// The work item group this work item belong to.
-        /// 
         /// </summary>
-        private IWorkItemsGroup _workItemsGroup;
+        private readonly IWorkItemsGroup _workItemsGroup;
 
-        #region Performance Counter fields
+        /// <summary>
+        /// The thread that executes this workitem.
+        /// This field is available for the period when the work item is executed, before and after it is null.
+        /// </summary>
+        private Thread _executingThread;
 
         /// <summary>
-        /// The time when the work items is queued.
-        /// Used with the performance counter.
+        /// The absulote time when the work item will be timeout
         /// </summary>
-        private DateTime _queuedTime;
+        private long _expirationTime;
+
+        #region Performance Counter fields
+
+
+
 
         /// <summary>
-        /// The time when the work items starts its execution.
-        /// Used with the performance counter.
+        /// Stores how long the work item waited on the stp queue
         /// </summary>
-        private DateTime _beginProcessTime;
+        private Stopwatch _waitingOnQueueStopwatch;
 
         /// <summary>
-        /// The time when the work items ends its execution.
-        /// Used with the performance counter.
+        /// Stores how much time it took the work item to execute after it went out of the queue
         /// </summary>
-        private DateTime _endProcessTime;
+        private Stopwatch _processingStopwatch;
 
         #endregion
 
@@ -174,17 +164,25 @@ namespace Amib.Threading.Internal
 
         public TimeSpan WaitingTime
         {
-            get 
+            get
             {
-                return (_beginProcessTime - _queuedTime);
+                return _waitingOnQueueStopwatch.Elapsed;
             }
         }
 
         public TimeSpan ProcessTime
         {
-            get 
+            get
+            {
+                return _processingStopwatch.Elapsed;
+            }
+        }
+
+        internal WorkItemInfo WorkItemInfo
+        {
+            get
             {
-                return (_endProcessTime - _beginProcessTime);
+                return _workItemInfo;
             }
         }
 
@@ -195,6 +193,8 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Initialize the callback holding object.
         /// </summary>
+        /// <param name="workItemsGroup">The workItemGroup of the workitem</param>
+        /// <param name="workItemInfo">The WorkItemInfo of te workitem</param>
         /// <param name="callback">Callback delegate for the callback.</param>
         /// <param name="state">State with which to call the callback delegate.</param>
         /// 
@@ -203,16 +203,18 @@ namespace Amib.Threading.Internal
         public WorkItem(
             IWorkItemsGroup workItemsGroup,
             WorkItemInfo workItemInfo,
-            WorkItemCallback callback, 
+            WorkItemCallback callback,
             object state)
         {
             _workItemsGroup = workItemsGroup;
             _workItemInfo = workItemInfo;
 
+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
             if (_workItemInfo.UseCallerCallContext || _workItemInfo.UseCallerHttpContext)
             {
                 _callerContext = CallerThreadContext.Capture(_workItemInfo.UseCallerCallContext, _workItemInfo.UseCallerHttpContext);
             }
+#endif
 
             _callback = callback;
             _state = state;
@@ -222,9 +224,18 @@ namespace Amib.Threading.Internal
 
         internal void Initialize()
         {
+            // The _workItemState is changed directly instead of using the SetWorkItemState
+            // method since we don't want to go throught IsValidStateTransition.
             _workItemState = WorkItemState.InQueue;
+
             _workItemCompleted = null;
             _workItemCompletedRefCount = 0;
+            _waitingOnQueueStopwatch = new Stopwatch();
+            _processingStopwatch = new Stopwatch();
+            _expirationTime =
+                _workItemInfo.Timeout > 0 ?
+                DateTime.UtcNow.Ticks + _workItemInfo.Timeout * TimeSpan.TicksPerMillisecond :
+                long.MaxValue;
         }
 
         internal bool WasQueuedBy(IWorkItemsGroup workItemsGroup)
@@ -237,17 +248,16 @@ namespace Amib.Threading.Internal
 
         #region Methods
 
-        public CanceledWorkItemsGroup CanceledWorkItemsGroup
+        internal CanceledWorkItemsGroup CanceledWorkItemsGroup
         {
-            get
-            {
-                return _canceledWorkItemsGroup;
-            }
+            get { return _canceledWorkItemsGroup; }
+            set { _canceledWorkItemsGroup = value; }
+        }
 
-            set
-            {
-                _canceledWorkItemsGroup = value;
-            }
+        internal CanceledWorkItemsGroup CanceledSmartThreadPool
+        {
+            get { return _canceledSmartThreadPool; }
+            set { _canceledSmartThreadPool = value; }
         }
 
         /// <summary>
@@ -259,9 +269,10 @@ namespace Amib.Threading.Internal
         /// </returns>
         public bool StartingWorkItem()
         {
-            _beginProcessTime = DateTime.Now;
+            _waitingOnQueueStopwatch.Stop();
+            _processingStopwatch.Start();
 
-            lock(this)
+            lock (this)
             {
                 if (IsCanceled)
                 {
@@ -277,6 +288,9 @@ namespace Amib.Threading.Internal
 
                 Debug.Assert(WorkItemState.InQueue == GetWorkItemState());
 
+                // No need for a lock yet, only after the state has changed to InProgress
+                _executingThread = Thread.CurrentThread;
+
                 SetWorkItemState(WorkItemState.InProgress);
             }
 
@@ -291,7 +305,7 @@ namespace Amib.Threading.Internal
             CallToPostExecute currentCallToPostExecute = 0;
 
             // Execute the work item if we are in the correct state
-            switch(GetWorkItemState())
+            switch (GetWorkItemState())
             {
                 case WorkItemState.InProgress:
                     currentCallToPostExecute |= CallToPostExecute.WhenWorkItemNotCanceled;
@@ -311,7 +325,7 @@ namespace Amib.Threading.Internal
                 PostExecute();
             }
 
-            _endProcessTime = DateTime.Now;
+            _processingStopwatch.Stop();
         }
 
         internal void FireWorkItemCompleted()
@@ -323,8 +337,21 @@ namespace Amib.Threading.Internal
                     _workItemCompletedEvent(this);
                 }
             }
-            catch // Ignore exceptions
-            {}
+            catch // Suppress exceptions
+            { }
+        }
+
+        internal void FireWorkItemStarted()
+        {
+            try
+            {
+                if (null != _workItemStartedEvent)
+                {
+                    _workItemStartedEvent(this);
+                }
+            }
+            catch // Suppress exceptions
+            { }
         }
 
         /// <summary>
@@ -332,32 +359,70 @@ namespace Amib.Threading.Internal
         /// </summary>
         private void ExecuteWorkItem()
         {
+
+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
             CallerThreadContext ctc = null;
             if (null != _callerContext)
             {
                 ctc = CallerThreadContext.Capture(_callerContext.CapturedCallContext, _callerContext.CapturedHttpContext);
                 CallerThreadContext.Apply(_callerContext);
             }
+#endif
 
             Exception exception = null;
             object result = null;
 
             try
             {
-                result = _callback(_state);
+                try
+                {
+                    result = _callback(_state);
+                }
+                catch (Exception e)
+                {
+                    // Save the exception so we can rethrow it later
+                    exception = e;
+                }
+
+                // Remove the value of the execution thread, so it will be impossible to cancel the work item,
+                // since it is already completed.
+                // Cancelling a work item that already completed may cause the abortion of the next work item!!!
+                Thread executionThread = Interlocked.CompareExchange(ref _executingThread, null, _executingThread);
+
+                if (null == executionThread)
+                {
+                    // Oops! we are going to be aborted..., Wait here so we can catch the ThreadAbortException
+                    Thread.Sleep(60 * 1000);
+
+                    // If after 1 minute this thread was not aborted then let it continue working.
+                }
             }
-            catch (Exception e) 
+            // We must treat the ThreadAbortException or else it will be stored in the exception variable
+            catch (ThreadAbortException tae)
             {
-                // Save the exception so we can rethrow it later
-                exception = e;
+                tae.GetHashCode();
+                // Check if the work item was cancelled
+                // If we got a ThreadAbortException and the STP is not shutting down, it means the 
+                // work items was cancelled.
+                if (!SmartThreadPool.CurrentThreadEntry.AssociatedSmartThreadPool.IsShuttingdown)
+                {
+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
+                    Thread.ResetAbort();
+#endif
+                }
             }
-        
+
+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
             if (null != _callerContext)
             {
                 CallerThreadContext.Apply(ctc);
             }
+#endif
 
-            SetResult(result, exception);
+            if (!SmartThreadPool.IsWorkItemCanceled)
+            {
+                SetResult(result, exception);
+            }
         }
 
         /// <summary>
@@ -369,9 +434,9 @@ namespace Amib.Threading.Internal
             {
                 try
                 {
-                    _workItemInfo.PostExecuteWorkItemCallback(this._workItemResult);
+                    _workItemInfo.PostExecuteWorkItemCallback(_workItemResult);
                 }
-                catch (Exception e) 
+                catch (Exception e)
                 {
                     Debug.Assert(null != e);
                 }
@@ -382,6 +447,8 @@ namespace Amib.Threading.Internal
         /// Set the result of the work item to return
         /// </summary>
         /// <param name="result">The result of the work item</param>
+        /// <param name="exception">The exception that was throw while the workitem executed, null
+        /// if there was no exception.</param>
         internal void SetResult(object result, Exception exception)
         {
             _result = result;
@@ -401,48 +468,48 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Wait for all work items to complete
         /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
+        /// <param name="waitableResults">Array of work item result objects</param>
         /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
         /// <param name="exitContext">
         /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
         /// </param>
         /// <param name="cancelWaitHandle">A cancel wait handle to interrupt the wait if needed</param>
         /// <returns>
-        /// true when every work item in workItemResults has completed; otherwise false.
+        /// true when every work item in waitableResults has completed; otherwise false.
         /// </returns>
         internal static bool WaitAll(
-            IWorkItemResult [] workItemResults,
+            IWaitableResult[] waitableResults,
             int millisecondsTimeout,
             bool exitContext,
             WaitHandle cancelWaitHandle)
         {
-            if (0 == workItemResults.Length)
+            if (0 == waitableResults.Length)
             {
                 return true;
             }
 
             bool success;
-            WaitHandle [] waitHandles = new WaitHandle[workItemResults.Length];;
-            GetWaitHandles(workItemResults, waitHandles);
+            WaitHandle[] waitHandles = new WaitHandle[waitableResults.Length];
+            GetWaitHandles(waitableResults, waitHandles);
 
             if ((null == cancelWaitHandle) && (waitHandles.Length <= 64))
             {
-                success = WaitHandle.WaitAll(waitHandles, millisecondsTimeout, exitContext);
+                success = STPEventWaitHandle.WaitAll(waitHandles, millisecondsTimeout, exitContext);
             }
             else
             {
                 success = true;
                 int millisecondsLeft = millisecondsTimeout;
-                DateTime start = DateTime.Now;
+                Stopwatch stopwatch = Stopwatch.StartNew();
 
-                WaitHandle [] whs;
+                WaitHandle[] whs;
                 if (null != cancelWaitHandle)
                 {
-                    whs = new WaitHandle [] { null, cancelWaitHandle };
+                    whs = new WaitHandle[] { null, cancelWaitHandle };
                 }
                 else
                 {
-                    whs = new WaitHandle [] { null };
+                    whs = new WaitHandle[] { null };
                 }
 
                 bool waitInfinitely = (Timeout.Infinite == millisecondsTimeout);
@@ -450,7 +517,7 @@ namespace Amib.Threading.Internal
                 // We cannot use WaitHandle.WaitAll directly, because the cancelWaitHandle
                 // won't affect it.
                 // Each iteration we update the time left for the timeout.
-                for(int i = 0; i < workItemResults.Length; ++i)
+                for (int i = 0; i < waitableResults.Length; ++i)
                 {
                     // WaitAny don't work with negative numbers
                     if (!waitInfinitely && (millisecondsLeft < 0))
@@ -460,23 +527,22 @@ namespace Amib.Threading.Internal
                     }
 
                     whs[0] = waitHandles[i];
-                    int result = WaitHandle.WaitAny(whs, millisecondsLeft, exitContext);
-                    if((result > 0) || (WaitHandle.WaitTimeout == result))
+                    int result = STPEventWaitHandle.WaitAny(whs, millisecondsLeft, exitContext);
+                    if ((result > 0) || (STPEventWaitHandle.WaitTimeout == result))
                     {
                         success = false;
                         break;
                     }
 
-                    if(!waitInfinitely)
+                    if (!waitInfinitely)
                     {
                         // Update the time left to wait
-                        TimeSpan ts = DateTime.Now - start;
-                        millisecondsLeft = millisecondsTimeout - (int)ts.TotalMilliseconds;
+                        millisecondsLeft = millisecondsTimeout - (int)stopwatch.ElapsedMilliseconds;
                     }
                 }
             }
             // Release the wait handles
-            ReleaseWaitHandles(workItemResults);
+            ReleaseWaitHandles(waitableResults);
 
             return success;
         }
@@ -484,7 +550,7 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Waits for any of the work items in the specified array to complete, cancel, or timeout
         /// </summary>
-        /// <param name="workItemResults">Array of work item result objects</param>
+        /// <param name="waitableResults">Array of work item result objects</param>
         /// <param name="millisecondsTimeout">The number of milliseconds to wait, or Timeout.Infinite (-1) to wait indefinitely.</param>
         /// <param name="exitContext">
         /// true to exit the synchronization domain for the context before the wait (if in a synchronized context), and reacquire it; otherwise, false. 
@@ -493,38 +559,38 @@ namespace Amib.Threading.Internal
         /// <returns>
         /// The array index of the work item result that satisfied the wait, or WaitTimeout if no work item result satisfied the wait and a time interval equivalent to millisecondsTimeout has passed or the work item has been canceled.
         /// </returns>
-        internal static int WaitAny(            
-            IWorkItemResult [] workItemResults,
+        internal static int WaitAny(
+            IWaitableResult[] waitableResults,
             int millisecondsTimeout,
             bool exitContext,
             WaitHandle cancelWaitHandle)
         {
-            WaitHandle [] waitHandles = null;
+            WaitHandle[] waitHandles;
 
             if (null != cancelWaitHandle)
             {
-                waitHandles = new WaitHandle[workItemResults.Length+1];
-                GetWaitHandles(workItemResults, waitHandles);
-                waitHandles[workItemResults.Length] = cancelWaitHandle;
+                waitHandles = new WaitHandle[waitableResults.Length + 1];
+                GetWaitHandles(waitableResults, waitHandles);
+                waitHandles[waitableResults.Length] = cancelWaitHandle;
             }
             else
             {
-                waitHandles = new WaitHandle[workItemResults.Length];
-                GetWaitHandles(workItemResults, waitHandles);
+                waitHandles = new WaitHandle[waitableResults.Length];
+                GetWaitHandles(waitableResults, waitHandles);
             }
 
-            int result = WaitHandle.WaitAny(waitHandles, millisecondsTimeout, exitContext);
+            int result = STPEventWaitHandle.WaitAny(waitHandles, millisecondsTimeout, exitContext);
 
             // Treat cancel as timeout
             if (null != cancelWaitHandle)
             {
-                if (result == workItemResults.Length)
+                if (result == waitableResults.Length)
                 {
-                    result = WaitHandle.WaitTimeout;
+                    result = STPEventWaitHandle.WaitTimeout;
                 }
             }
 
-            ReleaseWaitHandles(workItemResults);
+            ReleaseWaitHandles(waitableResults);
 
             return result;
         }
@@ -532,16 +598,16 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Fill an array of wait handles with the work items wait handles.
         /// </summary>
-        /// <param name="workItemResults">An array of work item results</param>
+        /// <param name="waitableResults">An array of work item results</param>
         /// <param name="waitHandles">An array of wait handles to fill</param>
         private static void GetWaitHandles(
-            IWorkItemResult [] workItemResults,
-            WaitHandle [] waitHandles)
+            IWaitableResult[] waitableResults,
+            WaitHandle[] waitHandles)
         {
-            for(int i = 0; i < workItemResults.Length; ++i)
+            for (int i = 0; i < waitableResults.Length; ++i)
             {
-                WorkItemResult wir = workItemResults[i] as WorkItemResult;
-                Debug.Assert(null != wir, "All workItemResults must be WorkItemResult objects");
+                WorkItemResult wir = waitableResults[i].GetWorkItemResult() as WorkItemResult;
+                Debug.Assert(null != wir, "All waitableResults must be WorkItemResult objects");
 
                 waitHandles[i] = wir.GetWorkItem().GetWaitHandle();
             }
@@ -550,40 +616,64 @@ namespace Amib.Threading.Internal
         /// <summary>
         /// Release the work items' wait handles
         /// </summary>
-        /// <param name="workItemResults">An array of work item results</param>
-        private static void ReleaseWaitHandles(IWorkItemResult [] workItemResults)
+        /// <param name="waitableResults">An array of work item results</param>
+        private static void ReleaseWaitHandles(IWaitableResult[] waitableResults)
         {
-            for(int i = 0; i < workItemResults.Length; ++i)
+            for (int i = 0; i < waitableResults.Length; ++i)
             {
-                WorkItemResult wir = workItemResults[i] as WorkItemResult;
+                WorkItemResult wir = (WorkItemResult)waitableResults[i].GetWorkItemResult();
 
                 wir.GetWorkItem().ReleaseWaitHandle();
             }
         }
 
-
         #endregion
-        
+
         #region Private Members
 
         private WorkItemState GetWorkItemState()
         {
-            if (_canceledWorkItemsGroup.IsCanceled)
+            lock (this)
             {
-                return WorkItemState.Canceled;
-            }
-            return _workItemState;
+                if (WorkItemState.Completed == _workItemState)
+                {
+                    return _workItemState;
+                }
+
+                long nowTicks = DateTime.UtcNow.Ticks;
 
+                if (WorkItemState.Canceled != _workItemState && nowTicks > _expirationTime)
+                {
+                    _workItemState = WorkItemState.Canceled;
+                }
+
+                if (WorkItemState.InProgress == _workItemState)
+                {
+                    return _workItemState;
+                }
+
+                if (CanceledSmartThreadPool.IsCanceled || CanceledWorkItemsGroup.IsCanceled)
+                {
+                    return WorkItemState.Canceled;
+                }
+
+                return _workItemState;
+            }
         }
+
+
         /// <summary>
         /// Sets the work item's state
         /// </summary>
         /// <param name="workItemState">The state to set the work item to</param>
         private void SetWorkItemState(WorkItemState workItemState)
         {
-            lock(this)
+            lock (this)
             {
-                _workItemState = workItemState;
+                if (IsValidStatesTransition(_workItemState, workItemState))
+                {
+                    _workItemState = workItemState;
+                }
             }
         }
 
@@ -594,7 +684,7 @@ namespace Amib.Threading.Internal
         private void SignalComplete(bool canceled)
         {
             SetWorkItemState(canceled ? WorkItemState.Canceled : WorkItemState.Completed);
-            lock(this)
+            lock (this)
             {
                 // If someone is waiting then signal.
                 if (null != _workItemCompleted)
@@ -606,40 +696,83 @@ namespace Amib.Threading.Internal
 
         internal void WorkItemIsQueued()
         {
-            _queuedTime = DateTime.Now;
+            _waitingOnQueueStopwatch.Start();
         }
 
         #endregion
-        
+
         #region Members exposed by WorkItemResult
 
         /// <summary>
         /// Cancel the work item if it didn't start running yet.
         /// </summary>
         /// <returns>Returns true on success or false if the work item is in progress or already completed</returns>
-        private bool Cancel()
+        private bool Cancel(bool abortExecution)
         {
-            lock(this)
+#if (_WINDOWS_CE)
+            if(abortExecution)
+            {
+                throw new ArgumentOutOfRangeException("abortExecution", "WindowsCE doesn't support this feature");
+            }
+#endif
+            bool success = false;
+            bool signalComplete = false;
+
+            lock (this)
             {
-                switch(GetWorkItemState())
+                switch (GetWorkItemState())
                 {
                     case WorkItemState.Canceled:
                         //Debug.WriteLine("Work item already canceled");
-                        return true;
+                        if (abortExecution)
+                        {
+                            Thread executionThread = Interlocked.CompareExchange(ref _executingThread, null, _executingThread);
+                            if (null != executionThread)
+                            {
+                                executionThread.Abort(); // "Cancel"
+                                // No need to signalComplete, because we already cancelled this work item
+                                // so it already signaled its completion.
+                                //signalComplete = true;
+                            }
+                        } 
+                        success = true;
+                        break;
                     case WorkItemState.Completed:
-                    case WorkItemState.InProgress:
                         //Debug.WriteLine("Work item cannot be canceled");
-                        return false;
+                        break;
+                    case WorkItemState.InProgress:
+                        if (abortExecution)
+                        {
+                            Thread executionThread = Interlocked.CompareExchange(ref _executingThread, null, _executingThread);
+                            if (null != executionThread)
+                            {
+                                executionThread.Abort(); // "Cancel"
+                                success = true;
+                                signalComplete = true;
+                            }
+                        }
+                        else
+                        {
+                            success = false;
+                            signalComplete = false;
+                        }
+                        break;
                     case WorkItemState.InQueue:
                         // Signal to the wait for completion that the work
                         // item has been completed (canceled). There is no
                         // reason to wait for it to get out of the queue
-                        SignalComplete(true);
+                        signalComplete = true;
                         //Debug.WriteLine("Work item canceled");
-                        return true;
+                        success = true;
+                        break;
+                }
+
+                if (signalComplete)
+                {
+                    SignalComplete(true);
                 }
             }
-            return false;
+            return success;
         }
 
         /// <summary>
@@ -653,7 +786,7 @@ namespace Amib.Threading.Internal
             bool exitContext,
             WaitHandle cancelWaitHandle)
         {
-            Exception e = null;
+            Exception e;
             object result = GetResult(millisecondsTimeout, exitContext, cancelWaitHandle, out e);
             if (null != e)
             {
@@ -694,7 +827,7 @@ namespace Amib.Threading.Internal
             {
                 WaitHandle wh = GetWaitHandle();
 
-                bool timeout = !wh.WaitOne(millisecondsTimeout, exitContext);
+                bool timeout = !STPEventWaitHandle.WaitOne(wh, millisecondsTimeout, exitContext);
 
                 ReleaseWaitHandle();
 
@@ -706,10 +839,10 @@ namespace Amib.Threading.Internal
             else
             {
                 WaitHandle wh = GetWaitHandle();
-                int result = WaitHandle.WaitAny(new WaitHandle[] { wh, cancelWaitHandle });
+                int result = STPEventWaitHandle.WaitAny(new WaitHandle[] { wh, cancelWaitHandle });
                 ReleaseWaitHandle();
 
-                switch(result)
+                switch (result)
                 {
                     case 0:
                         // The work item signaled
@@ -717,7 +850,7 @@ namespace Amib.Threading.Internal
                         // work item (not the get result)
                         break;
                     case 1:
-                    case WaitHandle.WaitTimeout:
+                    case STPEventWaitHandle.WaitTimeout:
                         throw new WorkItemTimeoutException("Work item timeout");
                     default:
                         Debug.Assert(false);
@@ -745,11 +878,11 @@ namespace Amib.Threading.Internal
         /// </summary>
         private WaitHandle GetWaitHandle()
         {
-            lock(this)
+            lock (this)
             {
                 if (null == _workItemCompleted)
                 {
-                    _workItemCompleted = new ManualResetEvent(IsCompleted);
+                    _workItemCompleted = EventWaitHandleFactory.CreateManualResetEvent(IsCompleted);
                 }
                 ++_workItemCompletedRefCount;
             }
@@ -758,7 +891,7 @@ namespace Amib.Threading.Internal
 
         private void ReleaseWaitHandle()
         {
-            lock(this)
+            lock (this)
             {
                 if (null != _workItemCompleted)
                 {
@@ -779,10 +912,10 @@ namespace Amib.Threading.Internal
         {
             get
             {
-                lock(this)
+                lock (this)
                 {
                     WorkItemState workItemState = GetWorkItemState();
-                    return ((workItemState == WorkItemState.Completed) || 
+                    return ((workItemState == WorkItemState.Completed) ||
                             (workItemState == WorkItemState.Canceled));
                 }
             }
@@ -795,7 +928,7 @@ namespace Amib.Threading.Internal
         {
             get
             {
-                lock(this)
+                lock (this)
                 {
                     return (GetWorkItemState() == WorkItemState.Canceled);
                 }
@@ -843,172 +976,6 @@ namespace Amib.Threading.Internal
             }
         }
 
-
-        #region WorkItemResult class
-
-        private class WorkItemResult : IWorkItemResult, IInternalWorkItemResult
-        {
-            /// <summary>
-            /// A back reference to the work item
-            /// </summary>
-            private WorkItem _workItem;
-
-            public WorkItemResult(WorkItem workItem)
-            {
-                _workItem = workItem;
-            }
-
-            internal WorkItem GetWorkItem()
-            {
-                return _workItem;
-            }
-
-            #region IWorkItemResult Members
-
-            public bool IsCompleted
-            {
-                get
-                {
-                    return _workItem.IsCompleted;
-                }
-            }
-
-            public void Abort()
-            {
-                _workItem.Abort();
-            }
-
-            public bool IsCanceled
-            {
-                get
-                {
-                    return _workItem.IsCanceled;
-                }
-            }
-
-            public object GetResult()
-            {
-                return _workItem.GetResult(Timeout.Infinite, true, null);
-            }
-    
-            public object GetResult(int millisecondsTimeout, bool exitContext)
-            {
-                return _workItem.GetResult(millisecondsTimeout, exitContext, null);
-            }
-
-            public object GetResult(TimeSpan timeout, bool exitContext)
-            {
-                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, null);
-            }
-
-            public object GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle)
-            {
-                return _workItem.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle);
-            }
-
-            public object GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle)
-            {
-                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle);
-            }
-
-            public object GetResult(out Exception e)
-            {
-                return _workItem.GetResult(Timeout.Infinite, true, null, out e);
-            }
-    
-            public object GetResult(int millisecondsTimeout, bool exitContext, out Exception e)
-            {
-                return _workItem.GetResult(millisecondsTimeout, exitContext, null, out e);
-            }
-
-            public object GetResult(TimeSpan timeout, bool exitContext, out Exception e)
-            {
-                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, null, out e);
-            }
-
-            public object GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)
-            {
-                return _workItem.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle, out e);
-            }
-
-            public object GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)
-            {
-                return _workItem.GetResult((int)timeout.TotalMilliseconds, exitContext, cancelWaitHandle, out e);
-            }
-
-            public bool Cancel()
-            {
-                return _workItem.Cancel();
-            }
-
-            public object State
-            {
-                get
-                {
-                    return _workItem._state;
-                }
-            }
-
-            public WorkItemPriority WorkItemPriority 
-            { 
-                get
-                {
-                    return _workItem._workItemInfo.WorkItemPriority;
-                }
-            }
-
-            /// <summary>
-            /// Return the result, same as GetResult()
-            /// </summary>
-            public object Result
-            {
-                get { return GetResult(); }
-            }
-
-            /// <summary>
-            /// Returns the exception if occured otherwise returns null.
-            /// This value is valid only after the work item completed,
-            /// before that it is always null.
-            /// </summary>
-            public object Exception
-            {
-                get { return _workItem._exception; }
-            }
-
-            #endregion
-
-            #region IInternalWorkItemResult Members
-
-            public event WorkItemStateCallback OnWorkItemStarted
-            {
-                add
-                {
-                    _workItem.OnWorkItemStarted += value;
-                }
-                remove
-                {
-                    _workItem.OnWorkItemStarted -= value;
-                }
-            }
-
-
-            public event WorkItemStateCallback OnWorkItemCompleted
-            {
-                add
-                {
-                    _workItem.OnWorkItemCompleted += value;
-                }
-                remove
-                {
-                    _workItem.OnWorkItemCompleted -= value;
-                }
-            }
-
-            #endregion
-        }
-
-        #endregion
-
         public void DisposeOfState()
         {
             if (_workItemInfo.DisposeOfStateObjects)
@@ -1021,15 +988,5 @@ namespace Amib.Threading.Internal
                 }
             }
         }
-
-        public void Abort()
-        {
-            lock (this)
-            {
-                if(currentThread != null)
-                    currentThread.Abort();
-            }
-        }
     }
-    #endregion
 }
diff --git a/ThirdParty/SmartThreadPool/WorkItemFactory.cs b/ThirdParty/SmartThreadPool/WorkItemFactory.cs
index dfcb54f..2d6601e 100644
--- a/ThirdParty/SmartThreadPool/WorkItemFactory.cs
+++ b/ThirdParty/SmartThreadPool/WorkItemFactory.cs
@@ -1,333 +1,343 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-
-namespace Amib.Threading.Internal
-{
-    #region WorkItemFactory class 
-
-    public class WorkItemFactory
-    {
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback)
-        {
-            return CreateWorkItem(workItemsGroup, wigStartInfo, callback, null);
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="workItemPriority">The priority of the work item</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            WorkItemPriority workItemPriority)
-        {
-            return CreateWorkItem(workItemsGroup, wigStartInfo, callback, null, workItemPriority);
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="workItemInfo">Work item info</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemInfo workItemInfo, 
-            WorkItemCallback callback)
-        {
-            return CreateWorkItem(
-                workItemsGroup,
-                wigStartInfo,
-                workItemInfo, 
-                callback, 
-                null);
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state)
-        {
-            ValidateCallback(callback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = wigStartInfo.PostExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state, 
-            WorkItemPriority workItemPriority)
-        {
-            ValidateCallback(callback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = wigStartInfo.PostExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-            workItemInfo.WorkItemPriority = workItemPriority;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="workItemInfo">Work item information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemInfo workItemInfo, 
-            WorkItemCallback callback, 
-            object state)
-        {
-            ValidateCallback(callback);
-            ValidateCallback(workItemInfo.PostExecuteWorkItemCallback);
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                new WorkItemInfo(workItemInfo),
-                callback, 
-                state);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback)
-        {
-            ValidateCallback(callback);
-            ValidateCallback(postExecuteWorkItemCallback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            WorkItemPriority workItemPriority)
-        {
-            ValidateCallback(callback);
-            ValidateCallback(postExecuteWorkItemCallback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-            workItemInfo.WorkItemPriority = workItemPriority;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute)
-        {
-            ValidateCallback(callback);
-            ValidateCallback(postExecuteWorkItemCallback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = callToPostExecute;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-
-            return workItem;
-        }
-
-        /// <summary>
-        /// Create a new work item
-        /// </summary>
-        /// <param name="wigStartInfo">Work item group start information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item</returns>
-        public static WorkItem CreateWorkItem(
-            IWorkItemsGroup workItemsGroup,
-            WIGStartInfo wigStartInfo,
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute,
-            WorkItemPriority workItemPriority)
-        {
-
-            ValidateCallback(callback);
-            ValidateCallback(postExecuteWorkItemCallback);
-
-            WorkItemInfo workItemInfo = new WorkItemInfo();
-            workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;
-            workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;
-            workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;
-            workItemInfo.CallToPostExecute = callToPostExecute;
-            workItemInfo.WorkItemPriority = workItemPriority;
-            workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;
-
-            WorkItem workItem = new WorkItem(
-                workItemsGroup,
-                workItemInfo,
-                callback, 
-                state);
-            
-            return workItem;
-        }
-
-        private static void ValidateCallback(Delegate callback)
-        {
-            if(callback.GetInvocationList().Length > 1)
-            {
-                throw new NotSupportedException("SmartThreadPool doesn't support delegates chains");
-            }
-        }
-    }
-
-    #endregion
-}
+using System;

+

+namespace Amib.Threading.Internal

+{

+        #region WorkItemFactory class 

+

+        public class WorkItemFactory

+        {

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+                /// <param name="workItemsGroup">The WorkItemsGroup of this workitem</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback)

+                {

+                        return CreateWorkItem(workItemsGroup, wigStartInfo, callback, null);

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The WorkItemsGroup of this workitem</param>

+        /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="workItemPriority">The priority of the work item</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        WorkItemPriority workItemPriority)

+                {

+                        return CreateWorkItem(workItemsGroup, wigStartInfo, callback, null, workItemPriority);

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The WorkItemsGroup of this workitem</param>

+        /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="workItemInfo">Work item info</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemInfo workItemInfo, 

+                        WorkItemCallback callback)

+                {

+                        return CreateWorkItem(

+                                workItemsGroup,

+                                wigStartInfo,

+                                workItemInfo, 

+                                callback, 

+                                null);

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The WorkItemsGroup of this workitem</param>

+        /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state)

+                {

+                        ValidateCallback(callback);

+            

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = wigStartInfo.PostExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+            workItemInfo.WorkItemPriority = wigStartInfo.WorkItemPriority;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+                /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <param name="workItemPriority">The work item priority</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state, 

+                        WorkItemPriority workItemPriority)

+                {

+                        ValidateCallback(callback);

+

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = wigStartInfo.PostExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+                        workItemInfo.WorkItemPriority = workItemPriority;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="workItemInfo">Work item information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <returns>Returns a work item</returns>

+        public static WorkItem CreateWorkItem(

+            IWorkItemsGroup workItemsGroup,

+            WIGStartInfo wigStartInfo,

+            WorkItemInfo workItemInfo,

+            WorkItemCallback callback,

+            object state)

+        {

+            ValidateCallback(callback);

+            ValidateCallback(workItemInfo.PostExecuteWorkItemCallback);

+

+            WorkItem workItem = new WorkItem(

+                workItemsGroup,

+                new WorkItemInfo(workItemInfo),

+                callback,

+                state);

+

+            return workItem;

+        }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <param name="postExecuteWorkItemCallback">

+                /// A delegate to call after the callback completion

+                /// </param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state,

+                        PostExecuteWorkItemCallback postExecuteWorkItemCallback)

+                {

+                        ValidateCallback(callback);

+                        ValidateCallback(postExecuteWorkItemCallback);

+

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+            workItemInfo.WorkItemPriority = wigStartInfo.WorkItemPriority;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <param name="postExecuteWorkItemCallback">

+                /// A delegate to call after the callback completion

+                /// </param>

+                /// <param name="workItemPriority">The work item priority</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state,

+                        PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+                        WorkItemPriority workItemPriority)

+                {

+                        ValidateCallback(callback);

+                        ValidateCallback(postExecuteWorkItemCallback);

+

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = wigStartInfo.CallToPostExecute;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+                        workItemInfo.WorkItemPriority = workItemPriority;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <param name="postExecuteWorkItemCallback">

+                /// A delegate to call after the callback completion

+                /// </param>

+                /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state,

+                        PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+                        CallToPostExecute callToPostExecute)

+                {

+                        ValidateCallback(callback);

+                        ValidateCallback(postExecuteWorkItemCallback);

+

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = callToPostExecute;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+            workItemInfo.WorkItemPriority = wigStartInfo.WorkItemPriority;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+

+                        return workItem;

+                }

+

+                /// <summary>

+                /// Create a new work item

+                /// </summary>

+        /// <param name="workItemsGroup">The work items group</param>

+                /// <param name="wigStartInfo">Work item group start information</param>

+                /// <param name="callback">A callback to execute</param>

+                /// <param name="state">

+                /// The context object of the work item. Used for passing arguments to the work item. 

+                /// </param>

+                /// <param name="postExecuteWorkItemCallback">

+                /// A delegate to call after the callback completion

+                /// </param>

+                /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+                /// <param name="workItemPriority">The work item priority</param>

+                /// <returns>Returns a work item</returns>

+                public static WorkItem CreateWorkItem(

+                        IWorkItemsGroup workItemsGroup,

+                        WIGStartInfo wigStartInfo,

+                        WorkItemCallback callback, 

+                        object state,

+                        PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+                        CallToPostExecute callToPostExecute,

+                        WorkItemPriority workItemPriority)

+                {

+

+                        ValidateCallback(callback);

+                        ValidateCallback(postExecuteWorkItemCallback);

+

+                        WorkItemInfo workItemInfo = new WorkItemInfo();

+                        workItemInfo.UseCallerCallContext = wigStartInfo.UseCallerCallContext;

+                        workItemInfo.UseCallerHttpContext = wigStartInfo.UseCallerHttpContext;

+                        workItemInfo.PostExecuteWorkItemCallback = postExecuteWorkItemCallback;

+                        workItemInfo.CallToPostExecute = callToPostExecute;

+                        workItemInfo.WorkItemPriority = workItemPriority;

+                        workItemInfo.DisposeOfStateObjects = wigStartInfo.DisposeOfStateObjects;

+

+                        WorkItem workItem = new WorkItem(

+                                workItemsGroup,

+                                workItemInfo,

+                                callback, 

+                                state);

+                        

+                        return workItem;

+                }

+

+                private static void ValidateCallback(Delegate callback)

+                {

+            if (callback != null && callback.GetInvocationList().Length > 1)

+                        {

+                                throw new NotSupportedException("SmartThreadPool doesn't support delegates chains");

+                        }

+                }

+        }

+

+        #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItemInfo.cs b/ThirdParty/SmartThreadPool/WorkItemInfo.cs
index c259339..5fbceb8 100644
--- a/ThirdParty/SmartThreadPool/WorkItemInfo.cs
+++ b/ThirdParty/SmartThreadPool/WorkItemInfo.cs
@@ -1,102 +1,69 @@
-// Ami Bar
-// amibar@gmail.com
-
-namespace Amib.Threading
-{
-    #region WorkItemInfo class
-
-    /// <summary>
-    /// Summary description for WorkItemInfo.
-    /// </summary>
-    public class WorkItemInfo
-    {
-        /// <summary>
-        /// Use the caller's security context
-        /// </summary>
-        private bool _useCallerCallContext;
-
-        /// <summary>
-        /// Use the caller's security context
-        /// </summary>
-        private bool _useCallerHttpContext;
-
-        /// <summary>
-        /// Dispose of the state object of a work item
-        /// </summary>
-        private bool _disposeOfStateObjects;
-
-        /// <summary>
-        /// The option to run the post execute
-        /// </summary>
-        private CallToPostExecute _callToPostExecute;
-
-        /// <summary>
-        /// A post execute callback to call when none is provided in 
-        /// the QueueWorkItem method.
-        /// </summary>
-        private PostExecuteWorkItemCallback _postExecuteWorkItemCallback;
-        
-        /// <summary>
-        /// The priority of the work item
-        /// </summary>
-        private WorkItemPriority _workItemPriority;
-
-        public WorkItemInfo()
-        {
-            _useCallerCallContext = SmartThreadPool.DefaultUseCallerCallContext;
-            _useCallerHttpContext = SmartThreadPool.DefaultUseCallerHttpContext;
-            _disposeOfStateObjects = SmartThreadPool.DefaultDisposeOfStateObjects;
-            _callToPostExecute = SmartThreadPool.DefaultCallToPostExecute;
-            _postExecuteWorkItemCallback = SmartThreadPool.DefaultPostExecuteWorkItemCallback;
-            _workItemPriority = SmartThreadPool.DefaultWorkItemPriority;
-        }
-
-        public WorkItemInfo(WorkItemInfo workItemInfo)
-        {
-            _useCallerCallContext = workItemInfo._useCallerCallContext;
-            _useCallerHttpContext = workItemInfo._useCallerHttpContext;
-            _disposeOfStateObjects = workItemInfo._disposeOfStateObjects;
-            _callToPostExecute = workItemInfo._callToPostExecute;
-            _postExecuteWorkItemCallback = workItemInfo._postExecuteWorkItemCallback;
-            _workItemPriority = workItemInfo._workItemPriority;
-        }
-
-        public bool UseCallerCallContext
-        {
-            get { return _useCallerCallContext; }
-            set { _useCallerCallContext = value; }
-        }
-
-        public bool UseCallerHttpContext
-        {
-            get { return _useCallerHttpContext; }
-            set { _useCallerHttpContext = value; }
-        }
-
-        public bool DisposeOfStateObjects
-        {
-            get { return _disposeOfStateObjects; }
-            set { _disposeOfStateObjects = value; }
-        }
-
-        public CallToPostExecute CallToPostExecute
-        {
-            get { return _callToPostExecute; }
-            set { _callToPostExecute = value; }
-        }
-
-        public PostExecuteWorkItemCallback PostExecuteWorkItemCallback
-        {
-            get { return _postExecuteWorkItemCallback; }
-            set { _postExecuteWorkItemCallback = value; }
-        }
-
-        public WorkItemPriority WorkItemPriority
-        {
-            get { return _workItemPriority; }
-            set { _workItemPriority = value; }
-        }
-    }
-
-    #endregion
-}
+namespace Amib.Threading

+{

+        #region WorkItemInfo class

+

+        /// <summary>

+        /// Summary description for WorkItemInfo.

+        /// </summary>

+        public class WorkItemInfo

+        {

+            public WorkItemInfo()

+                {

+                        UseCallerCallContext = SmartThreadPool.DefaultUseCallerCallContext;

+                        UseCallerHttpContext = SmartThreadPool.DefaultUseCallerHttpContext;

+                        DisposeOfStateObjects = SmartThreadPool.DefaultDisposeOfStateObjects;

+                        CallToPostExecute = SmartThreadPool.DefaultCallToPostExecute;

+                        PostExecuteWorkItemCallback = SmartThreadPool.DefaultPostExecuteWorkItemCallback;

+                        WorkItemPriority = SmartThreadPool.DefaultWorkItemPriority;

+                }

+

+                public WorkItemInfo(WorkItemInfo workItemInfo)

+                {

+                        UseCallerCallContext = workItemInfo.UseCallerCallContext;

+                        UseCallerHttpContext = workItemInfo.UseCallerHttpContext;

+                        DisposeOfStateObjects = workItemInfo.DisposeOfStateObjects;

+                        CallToPostExecute = workItemInfo.CallToPostExecute;

+                        PostExecuteWorkItemCallback = workItemInfo.PostExecuteWorkItemCallback;

+                        WorkItemPriority = workItemInfo.WorkItemPriority;

+            Timeout = workItemInfo.Timeout;

+                }

+

+            /// <summary>

+            /// Get/Set if to use the caller's security context

+            /// </summary>

+            public bool UseCallerCallContext { get; set; }

+

+            /// <summary>

+            /// Get/Set if to use the caller's HTTP context

+            /// </summary>

+            public bool UseCallerHttpContext { get; set; }

+

+            /// <summary>

+            /// Get/Set if to dispose of the state object of a work item

+            /// </summary>

+            public bool DisposeOfStateObjects { get; set; }

+

+            /// <summary>

+            /// Get/Set the run the post execute options

+            /// </summary>

+        public CallToPostExecute CallToPostExecute { get; set; }

+

+            /// <summary>

+            /// Get/Set the post execute callback

+            /// </summary>

+        public PostExecuteWorkItemCallback PostExecuteWorkItemCallback { get; set; }

+

+            /// <summary>

+            /// Get/Set the work item's priority

+            /// </summary>

+            public WorkItemPriority WorkItemPriority { get; set; }

+

+            /// <summary>

+            /// Get/Set the work item's timout in milliseconds.

+        /// This is a passive timout. When the timout expires the work item won't be actively aborted!

+            /// </summary>

+            public long Timeout { get; set; }

+        }

+

+        #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItemResultTWrapper.cs b/ThirdParty/SmartThreadPool/WorkItemResultTWrapper.cs
new file mode 100644
index 0000000..a0bf8b8
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/WorkItemResultTWrapper.cs
@@ -0,0 +1,128 @@
+using System;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+    #region WorkItemResultTWrapper class

+

+    internal class WorkItemResultTWrapper<TResult> : IWorkItemResult<TResult>, IInternalWaitableResult

+    {

+        private readonly IWorkItemResult _workItemResult;

+

+        public WorkItemResultTWrapper(IWorkItemResult workItemResult)

+        {

+            _workItemResult = workItemResult;

+        }

+

+        #region IWorkItemResult<TResult> Members

+

+        public TResult GetResult()

+        {

+            return (TResult)_workItemResult.GetResult();

+        }

+

+        public TResult GetResult(int millisecondsTimeout, bool exitContext)

+        {

+            return (TResult)_workItemResult.GetResult(millisecondsTimeout, exitContext);

+        }

+

+        public TResult GetResult(TimeSpan timeout, bool exitContext)

+        {

+            return (TResult)_workItemResult.GetResult(timeout, exitContext);

+        }

+

+        public TResult GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle)

+        {

+            return (TResult)_workItemResult.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle);

+        }

+

+        public TResult GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle)

+        {

+            return (TResult)_workItemResult.GetResult(timeout, exitContext, cancelWaitHandle);

+        }

+

+        public TResult GetResult(out Exception e)

+        {

+            return (TResult)_workItemResult.GetResult(out e);

+        }

+

+        public TResult GetResult(int millisecondsTimeout, bool exitContext, out Exception e)

+        {

+            return (TResult)_workItemResult.GetResult(millisecondsTimeout, exitContext, out e);

+        }

+

+        public TResult GetResult(TimeSpan timeout, bool exitContext, out Exception e)

+        {

+            return (TResult)_workItemResult.GetResult(timeout, exitContext, out e);

+        }

+

+        public TResult GetResult(int millisecondsTimeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)

+        {

+            return (TResult)_workItemResult.GetResult(millisecondsTimeout, exitContext, cancelWaitHandle, out e);

+        }

+

+        public TResult GetResult(TimeSpan timeout, bool exitContext, WaitHandle cancelWaitHandle, out Exception e)

+        {

+            return (TResult)_workItemResult.GetResult(timeout, exitContext, cancelWaitHandle, out e);

+        }

+

+        public bool IsCompleted

+        {

+            get { return _workItemResult.IsCompleted; }

+        }

+

+        public bool IsCanceled

+        {

+            get { return _workItemResult.IsCanceled; }

+        }

+

+        public object State

+        {

+            get { return _workItemResult.State; }

+        }

+

+        public bool Cancel()

+        {

+            return _workItemResult.Cancel();

+        }

+

+        public bool Cancel(bool abortExecution)

+        {

+            return _workItemResult.Cancel(abortExecution);

+        }

+

+        public WorkItemPriority WorkItemPriority

+        {

+            get { return _workItemResult.WorkItemPriority; }

+        }

+

+        public TResult Result

+        {

+            get { return (TResult)_workItemResult.Result; }

+        }

+

+        public object Exception

+        {

+            get { return (TResult)_workItemResult.Exception; }

+        }

+

+        #region IInternalWorkItemResult Members

+

+        public IWorkItemResult GetWorkItemResult()

+        {

+            return _workItemResult.GetWorkItemResult();

+        }

+

+        public IWorkItemResult<TRes> GetWorkItemResultT<TRes>()

+        {

+            return (IWorkItemResult<TRes>)this;

+        }

+

+        #endregion

+

+        #endregion

+    }

+

+    #endregion

+

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItemsGroup.cs b/ThirdParty/SmartThreadPool/WorkItemsGroup.cs
index 01ac8dd..67dcbdd 100644
--- a/ThirdParty/SmartThreadPool/WorkItemsGroup.cs
+++ b/ThirdParty/SmartThreadPool/WorkItemsGroup.cs
@@ -1,512 +1,361 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Threading;
-using System.Runtime.CompilerServices;
-using System.Diagnostics;
-
-namespace Amib.Threading.Internal
-{
-    #region WorkItemsGroup class 
-
-    /// <summary>
-    /// Summary description for WorkItemsGroup.
-    /// </summary>
-    public class WorkItemsGroup : IWorkItemsGroup
-    {
-        #region Private members
-
-        private object _lock = new object();
-        /// <summary>
-        /// Contains the name of this instance of SmartThreadPool.
-        /// Can be changed by the user.
-        /// </summary>
-        private string _name = "WorkItemsGroup";
-
-        /// <summary>
-        /// A reference to the SmartThreadPool instance that created this 
-        /// WorkItemsGroup.
-        /// </summary>
-        private SmartThreadPool _stp;
-
-        /// <summary>
-        /// The OnIdle event
-        /// </summary>
-        private event WorkItemsGroupIdleHandler _onIdle;
-
-        /// <summary>
-        /// Defines how many work items of this WorkItemsGroup can run at once.
-        /// </summary>
-        private int _concurrency;
-
-        /// <summary>
-        /// Priority queue to hold work items before they are passed 
-        /// to the SmartThreadPool.
-        /// </summary>
-        private PriorityQueue _workItemsQueue;
-
-        /// <summary>
-        /// Indicate how many work items are waiting in the SmartThreadPool
-        /// queue.
-        /// This value is used to apply the concurrency.
-        /// </summary>
-        private int _workItemsInStpQueue;
-
-        /// <summary>
-        /// Indicate how many work items are currently running in the SmartThreadPool.
-        /// This value is used with the Cancel, to calculate if we can send new 
-        /// work items to the STP.
-        /// </summary>
-        private int _workItemsExecutingInStp = 0;
-
-        /// <summary>
-        /// WorkItemsGroup start information
-        /// </summary>
-        private WIGStartInfo _workItemsGroupStartInfo;
-
-        /// <summary>
-        /// Signaled when all of the WorkItemsGroup's work item completed.
-        /// </summary>
-        private ManualResetEvent _isIdleWaitHandle = new ManualResetEvent(true);
-
-        /// <summary>
-        /// A common object for all the work items that this work items group
-        /// generate so we can mark them to cancel in O(1)
-        /// </summary>
-        private CanceledWorkItemsGroup _canceledWorkItemsGroup = new CanceledWorkItemsGroup();
-
-        #endregion 
-
-        #region Construction
-
-        public WorkItemsGroup(
-            SmartThreadPool stp, 
-            int concurrency, 
-            WIGStartInfo wigStartInfo)
-        {
-            if (concurrency <= 0)
-            {
-                throw new ArgumentOutOfRangeException("concurrency", concurrency, "concurrency must be greater than zero");
-            }
-            _stp = stp;
-            _concurrency = concurrency;
-            _workItemsGroupStartInfo = new WIGStartInfo(wigStartInfo);
-            _workItemsQueue = new PriorityQueue();
-
-            // The _workItemsInStpQueue gets the number of currently executing work items,
-            // because once a work item is executing, it cannot be cancelled.
-            _workItemsInStpQueue = _workItemsExecutingInStp;
-        }
-
-        #endregion 
-
-        #region IWorkItemsGroup implementation
-
-        /// <summary>
-        /// Get/Set the name of the SmartThreadPool instance
-        /// </summary>
-        public string Name 
-        { 
-            get
-            {
-                return _name;
-            }
-
-            set
-            {
-                _name = value;
-            }
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="workItemPriority">The priority of the work item</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, WorkItemPriority workItemPriority)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, workItemPriority);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="workItemInfo">Work item info</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, workItemInfo, callback);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, WorkItemPriority workItemPriority)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state, workItemPriority);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="workItemInfo">Work item information</param>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback, object state)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, workItemInfo, callback, state);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state, postExecuteWorkItemCallback);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            WorkItemPriority workItemPriority)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state, postExecuteWorkItemCallback, workItemPriority);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Queue a work item
-        /// </summary>
-        /// <param name="callback">A callback to execute</param>
-        /// <param name="state">
-        /// The context object of the work item. Used for passing arguments to the work item. 
-        /// </param>
-        /// <param name="postExecuteWorkItemCallback">
-        /// A delegate to call after the callback completion
-        /// </param>
-        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>
-        /// <param name="workItemPriority">The work item priority</param>
-        /// <returns>Returns a work item result</returns>
-        public IWorkItemResult QueueWorkItem(
-            WorkItemCallback callback, 
-            object state,
-            PostExecuteWorkItemCallback postExecuteWorkItemCallback,
-            CallToPostExecute callToPostExecute,
-            WorkItemPriority workItemPriority)
-        {
-            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, _workItemsGroupStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute, workItemPriority);
-            EnqueueToSTPNextWorkItem(workItem);
-            return workItem.GetWorkItemResult();
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public void WaitForIdle()
-        {
-            WaitForIdle(Timeout.Infinite);
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public bool WaitForIdle(TimeSpan timeout)
-        {
-            return WaitForIdle((int)timeout.TotalMilliseconds);
-        }
-
-        /// <summary>
-        /// Wait for the thread pool to be idle
-        /// </summary>
-        public bool WaitForIdle(int millisecondsTimeout)
-        {
-            _stp.ValidateWorkItemsGroupWaitForIdle(this);
-            return _isIdleWaitHandle.WaitOne(millisecondsTimeout, false);
-        }
-
-        public int WaitingCallbacks
-        {
-            get
-            {
-                return _workItemsQueue.Count;
-            }
-        }
-
-        public event WorkItemsGroupIdleHandler OnIdle
-        {
-            add
-            {
-                _onIdle += value;
-            }
-            remove
-            {
-                _onIdle -= value;
-            }
-        }
-
-        public void Cancel()
-        {
-            lock(_lock)
-            {
-                _canceledWorkItemsGroup.IsCanceled = true;
-                _workItemsQueue.Clear();
-                _workItemsInStpQueue = 0;
-                _canceledWorkItemsGroup = new CanceledWorkItemsGroup();
-            }
-        }
-
-        public void Start()
-        {
-            lock (this)
-            {
-                if (!_workItemsGroupStartInfo.StartSuspended)
-                {
-                    return;
-                }
-                _workItemsGroupStartInfo.StartSuspended = false;
-            }
-            
-            for(int i = 0; i < _concurrency; ++i)
-            {
-                EnqueueToSTPNextWorkItem(null, false);
-            }
-        }
-
-        #endregion 
-
-        #region Private methods
-
-        private void RegisterToWorkItemCompletion(IWorkItemResult wir)
-        {
-            IInternalWorkItemResult iwir = wir as IInternalWorkItemResult;
-            iwir.OnWorkItemStarted += new WorkItemStateCallback(OnWorkItemStartedCallback);
-            iwir.OnWorkItemCompleted += new WorkItemStateCallback(OnWorkItemCompletedCallback);
-        }
-
-        public void OnSTPIsStarting()
-        {
-            lock (this)
-            {
-                if (_workItemsGroupStartInfo.StartSuspended)
-                {
-                    return;
-                }
-            }
-            
-            for(int i = 0; i < _concurrency; ++i)
-            {
-                EnqueueToSTPNextWorkItem(null, false);
-            }
-        }
-
-        private object FireOnIdle(object state)
-        {
-            FireOnIdleImpl(_onIdle);
-            return null;
-        }
-
-        [MethodImpl(MethodImplOptions.NoInlining)]
-        private void FireOnIdleImpl(WorkItemsGroupIdleHandler onIdle)
-        {
-            if(null == onIdle)
-            {
-                return;
-            }
-
-            Delegate[] delegates = onIdle.GetInvocationList();
-            foreach(WorkItemsGroupIdleHandler eh in delegates)
-            {
-                try
-                {
-                    eh(this);
-                }
-                    // Ignore exceptions
-                catch{} 
-            }
-        }
-
-        private void OnWorkItemStartedCallback(WorkItem workItem)
-        {
-            lock(_lock)
-            {
-                ++_workItemsExecutingInStp;
-            }
-        }
-
-        private void OnWorkItemCompletedCallback(WorkItem workItem)
-        {
-            EnqueueToSTPNextWorkItem(null, true);
-        }
-
-        private void EnqueueToSTPNextWorkItem(WorkItem workItem)
-        {
-            EnqueueToSTPNextWorkItem(workItem, false);
-        }
-
-        private void EnqueueToSTPNextWorkItem(WorkItem workItem, bool decrementWorkItemsInStpQueue)
-        {
-            lock(_lock)
-            {
-                // Got here from OnWorkItemCompletedCallback()
-                if (decrementWorkItemsInStpQueue)
-                {
-                    --_workItemsInStpQueue;
-
-                    if(_workItemsInStpQueue < 0)
-                    {
-                        _workItemsInStpQueue = 0;
-                    }
-
-                    --_workItemsExecutingInStp;
-
-                    if(_workItemsExecutingInStp < 0)
-                    {
-                        _workItemsExecutingInStp = 0;
-                    }
-                }
-
-                // If the work item is not null then enqueue it
-                if (null != workItem)
-                {
-                    workItem.CanceledWorkItemsGroup = _canceledWorkItemsGroup;
-
-                    RegisterToWorkItemCompletion(workItem.GetWorkItemResult());
-                    _workItemsQueue.Enqueue(workItem);
-                    //_stp.IncrementWorkItemsCount();
-
-                    if ((1 == _workItemsQueue.Count) && 
-                        (0 == _workItemsInStpQueue))
-                    {
-                        _stp.RegisterWorkItemsGroup(this);
-                        Trace.WriteLine("WorkItemsGroup " + Name + " is NOT idle");
-                        _isIdleWaitHandle.Reset();
-                    }
-                }
-
-                // If the work items queue of the group is empty than quit
-                if (0 == _workItemsQueue.Count)
-                {
-                    if (0 == _workItemsInStpQueue)
-                    {
-                        _stp.UnregisterWorkItemsGroup(this);
-                        Trace.WriteLine("WorkItemsGroup " + Name + " is idle");
-                        _isIdleWaitHandle.Set();
-                        _stp.QueueWorkItem(new WorkItemCallback(this.FireOnIdle));
-                    }
-                    return;
-                }
-
-                if (!_workItemsGroupStartInfo.StartSuspended)
-                {
-                    if (_workItemsInStpQueue < _concurrency)
-                    {
-                        WorkItem nextWorkItem = _workItemsQueue.Dequeue() as WorkItem;
-                        _stp.Enqueue(nextWorkItem, true);
-                        ++_workItemsInStpQueue;
-                    }
-                }
-            }
-        }
-
-        #endregion
-    }
-
-    #endregion
-}
+using System;

+using System.Threading;

+using System.Runtime.CompilerServices;

+using System.Diagnostics;

+

+namespace Amib.Threading.Internal

+{

+

+        #region WorkItemsGroup class 

+

+        /// <summary>

+        /// Summary description for WorkItemsGroup.

+        /// </summary>

+        public class WorkItemsGroup : WorkItemsGroupBase

+        {

+                #region Private members

+

+                private readonly object _lock = new object();

+

+                /// <summary>

+                /// A reference to the SmartThreadPool instance that created this 

+                /// WorkItemsGroup.

+                /// </summary>

+                private readonly SmartThreadPool _stp;

+

+                /// <summary>

+                /// The OnIdle event

+                /// </summary>

+                private event WorkItemsGroupIdleHandler _onIdle;

+

+        /// <summary>

+        /// A flag to indicate if the Work Items Group is now suspended.

+        /// </summary>

+        private bool _isSuspended;

+

+                /// <summary>

+                /// Defines how many work items of this WorkItemsGroup can run at once.

+                /// </summary>

+                private int _concurrency;

+

+                /// <summary>

+                /// Priority queue to hold work items before they are passed 

+                /// to the SmartThreadPool.

+                /// </summary>

+                private readonly PriorityQueue _workItemsQueue;

+

+                /// <summary>

+                /// Indicate how many work items are waiting in the SmartThreadPool

+                /// queue.

+                /// This value is used to apply the concurrency.

+                /// </summary>

+                private int _workItemsInStpQueue;

+

+                /// <summary>

+                /// Indicate how many work items are currently running in the SmartThreadPool.

+                /// This value is used with the Cancel, to calculate if we can send new 

+                /// work items to the STP.

+                /// </summary>

+                private int _workItemsExecutingInStp = 0;

+

+                /// <summary>

+                /// WorkItemsGroup start information

+                /// </summary>

+                private readonly WIGStartInfo _workItemsGroupStartInfo;

+

+                /// <summary>

+                /// Signaled when all of the WorkItemsGroup's work item completed.

+                /// </summary>

+        //private readonly ManualResetEvent _isIdleWaitHandle = new ManualResetEvent(true);

+        private readonly ManualResetEvent _isIdleWaitHandle = EventWaitHandleFactory.CreateManualResetEvent(true);

+

+                /// <summary>

+                /// A common object for all the work items that this work items group

+                /// generate so we can mark them to cancel in O(1)

+                /// </summary>

+                private CanceledWorkItemsGroup _canceledWorkItemsGroup = new CanceledWorkItemsGroup();

+

+                #endregion 

+

+                #region Construction

+

+            public WorkItemsGroup(

+                        SmartThreadPool stp, 

+                        int concurrency, 

+                        WIGStartInfo wigStartInfo)

+                {

+                        if (concurrency <= 0)

+                        {

+                                throw new ArgumentOutOfRangeException(

+                    "concurrency",

+#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)

+                    concurrency,

+#endif

+ "concurrency must be greater than zero");

+                        }

+                        _stp = stp;

+                        _concurrency = concurrency;

+                        _workItemsGroupStartInfo = new WIGStartInfo(wigStartInfo).AsReadOnly();

+                        _workItemsQueue = new PriorityQueue();

+                Name = "WorkItemsGroup";

+

+                        // The _workItemsInStpQueue gets the number of currently executing work items,

+                        // because once a work item is executing, it cannot be cancelled.

+                        _workItemsInStpQueue = _workItemsExecutingInStp;

+

+            _isSuspended = _workItemsGroupStartInfo.StartSuspended;

+                }

+

+                #endregion 

+

+        #region WorkItemsGroupBase Overrides

+

+        public override int Concurrency

+        {

+            get { return _concurrency; }

+            set

+            {

+                Debug.Assert(value > 0);

+

+                int diff = value - _concurrency;

+                _concurrency = value;

+                if (diff > 0)

+                {

+                    EnqueueToSTPNextNWorkItem(diff);

+                }

+            }

+        }

+

+        public override int WaitingCallbacks

+        {

+            get { return _workItemsQueue.Count; }

+        }

+

+        public override object[] GetStates()

+        {

+            lock (_lock)

+            {

+                object[] states = new object[_workItemsQueue.Count];

+                int i = 0;

+                foreach (WorkItem workItem in _workItemsQueue)

+                {

+                    states[i] = workItem.GetWorkItemResult().State;

+                    ++i;

+                }

+                return states;

+            }

+        }

+

+            /// <summary>

+        /// WorkItemsGroup start information

+        /// </summary>

+        public override WIGStartInfo WIGStartInfo

+        {

+            get { return _workItemsGroupStartInfo; }

+        }

+

+            /// <summary>

+            /// Start the Work Items Group if it was started suspended

+            /// </summary>

+            public override void Start()

+            {

+                // If the Work Items Group already started then quit

+                if (!_isSuspended)

+                {

+                    return;

+                }

+                _isSuspended = false;

+            

+                EnqueueToSTPNextNWorkItem(Math.Min(_workItemsQueue.Count, _concurrency));

+            }

+

+            public override void Cancel(bool abortExecution)

+            {

+                lock (_lock)

+                {

+                    _canceledWorkItemsGroup.IsCanceled = true;

+                    _workItemsQueue.Clear();

+                    _workItemsInStpQueue = 0;

+                    _canceledWorkItemsGroup = new CanceledWorkItemsGroup();

+                }

+

+                if (abortExecution)

+                {

+                    _stp.CancelAbortWorkItemsGroup(this);

+                }

+            }

+

+            /// <summary>

+        /// Wait for the thread pool to be idle

+        /// </summary>

+        public override bool WaitForIdle(int millisecondsTimeout)

+        {

+            SmartThreadPool.ValidateWorkItemsGroupWaitForIdle(this);

+            return STPEventWaitHandle.WaitOne(_isIdleWaitHandle, millisecondsTimeout, false);

+        }

+

+            public override event WorkItemsGroupIdleHandler OnIdle

+                {

+                        add { _onIdle += value; }

+                        remove { _onIdle -= value; }

+                }

+

+            #endregion 

+

+                #region Private methods

+

+            private void RegisterToWorkItemCompletion(IWorkItemResult wir)

+                {

+                        IInternalWorkItemResult iwir = (IInternalWorkItemResult)wir;

+                        iwir.OnWorkItemStarted += OnWorkItemStartedCallback;

+                        iwir.OnWorkItemCompleted += OnWorkItemCompletedCallback;

+                }

+

+            public void OnSTPIsStarting()

+                {

+            if (_isSuspended)

+            {

+                return;

+            }

+                        

+            EnqueueToSTPNextNWorkItem(_concurrency);

+                }

+

+            public void EnqueueToSTPNextNWorkItem(int count)

+        {

+            for (int i = 0; i < count; ++i)

+            {

+                EnqueueToSTPNextWorkItem(null, false);

+            }

+        }

+

+                private object FireOnIdle(object state)

+                {

+                        FireOnIdleImpl(_onIdle);

+                        return null;

+                }

+

+                [MethodImpl(MethodImplOptions.NoInlining)]

+                private void FireOnIdleImpl(WorkItemsGroupIdleHandler onIdle)

+                {

+                        if(null == onIdle)

+                        {

+                                return;

+                        }

+

+                        Delegate[] delegates = onIdle.GetInvocationList();

+                        foreach(WorkItemsGroupIdleHandler eh in delegates)

+                        {

+                                try

+                                {

+                                        eh(this);

+                                }

+                catch { }  // Suppress exceptions

+                        }

+                }

+

+                private void OnWorkItemStartedCallback(WorkItem workItem)

+                {

+                        lock(_lock)

+                        {

+                                ++_workItemsExecutingInStp;

+                        }

+                }

+

+                private void OnWorkItemCompletedCallback(WorkItem workItem)

+                {

+                        EnqueueToSTPNextWorkItem(null, true);

+                }

+

+        internal override void Enqueue(WorkItem workItem)

+        {

+            EnqueueToSTPNextWorkItem(workItem);

+        }

+

+            private void EnqueueToSTPNextWorkItem(WorkItem workItem)

+                {

+                        EnqueueToSTPNextWorkItem(workItem, false);

+                }

+

+                private void EnqueueToSTPNextWorkItem(WorkItem workItem, bool decrementWorkItemsInStpQueue)

+                {

+                        lock(_lock)

+                        {

+                                // Got here from OnWorkItemCompletedCallback()

+                                if (decrementWorkItemsInStpQueue)

+                                {

+                                        --_workItemsInStpQueue;

+

+                                        if(_workItemsInStpQueue < 0)

+                                        {

+                                                _workItemsInStpQueue = 0;

+                                        }

+

+                                        --_workItemsExecutingInStp;

+

+                                        if(_workItemsExecutingInStp < 0)

+                                        {

+                                                _workItemsExecutingInStp = 0;

+                                        }

+                                }

+

+                                // If the work item is not null then enqueue it

+                                if (null != workItem)

+                                {

+                                        workItem.CanceledWorkItemsGroup = _canceledWorkItemsGroup;

+

+                                        RegisterToWorkItemCompletion(workItem.GetWorkItemResult());

+                                        _workItemsQueue.Enqueue(workItem);

+                                        //_stp.IncrementWorkItemsCount();

+

+                                        if ((1 == _workItemsQueue.Count) && 

+                                                (0 == _workItemsInStpQueue))

+                                        {

+                                                _stp.RegisterWorkItemsGroup(this);

+                        IsIdle = false;

+                        _isIdleWaitHandle.Reset();

+                                        }

+                                }

+

+                                // If the work items queue of the group is empty than quit

+                                if (0 == _workItemsQueue.Count)

+                                {

+                                        if (0 == _workItemsInStpQueue)

+                                        {

+                                                _stp.UnregisterWorkItemsGroup(this);

+                        IsIdle = true;

+                        _isIdleWaitHandle.Set();

+                        if (decrementWorkItemsInStpQueue && _onIdle != null && _onIdle.GetInvocationList().Length > 0)

+                        {

+                            _stp.QueueWorkItem(new WorkItemCallback(FireOnIdle));

+                        }

+                                        }

+                                        return;

+                                }

+

+                if (!_isSuspended)

+                                {

+                                        if (_workItemsInStpQueue < _concurrency)

+                                        {

+                                                WorkItem nextWorkItem = _workItemsQueue.Dequeue() as WorkItem;

+                        try

+                        {

+                            _stp.Enqueue(nextWorkItem);

+                        }

+                        catch (ObjectDisposedException e)

+                        {

+                            e.GetHashCode();

+                            // The STP has been shutdown

+                        }

+

+                                                ++_workItemsInStpQueue;

+                                        }

+                                }

+                        }

+                }

+

+                #endregion

+    }

+

+        #endregion

+}

diff --git a/ThirdParty/SmartThreadPool/WorkItemsGroupBase.cs b/ThirdParty/SmartThreadPool/WorkItemsGroupBase.cs
new file mode 100644
index 0000000..429de12
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/WorkItemsGroupBase.cs
@@ -0,0 +1,471 @@
+using System;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+    public abstract class WorkItemsGroupBase : IWorkItemsGroup

+    {

+        #region Private Fields

+

+        /// <summary>

+        /// Contains the name of this instance of SmartThreadPool.

+        /// Can be changed by the user.

+        /// </summary>

+        private string _name = "WorkItemsGroupBase";

+

+        public WorkItemsGroupBase()

+        {

+            IsIdle = true;

+        }

+

+        #endregion

+

+        #region IWorkItemsGroup Members

+

+        #region Public Methods

+

+        /// <summary>

+        /// Get/Set the name of the SmartThreadPool/WorkItemsGroup instance

+        /// </summary>

+        public string Name

+        {

+            get { return _name; }

+            set { _name = value; }

+        }

+

+        #endregion

+

+        #region Abstract Methods

+

+        public abstract int Concurrency { get; set; }

+        public abstract int WaitingCallbacks { get; }

+        public abstract object[] GetStates();

+        public abstract WIGStartInfo WIGStartInfo { get; }

+        public abstract void Start();

+        public abstract void Cancel(bool abortExecution);

+        public abstract bool WaitForIdle(int millisecondsTimeout);

+        public abstract event WorkItemsGroupIdleHandler OnIdle;

+

+        internal abstract void Enqueue(WorkItem workItem);

+        internal virtual void PreQueueWorkItem() { }

+

+        #endregion

+

+        #region Common Base Methods

+

+        /// <summary>

+        /// Cancel all the work items.

+        /// Same as Cancel(false)

+        /// </summary>

+        public virtual void Cancel()

+        {

+            Cancel(false);

+        }

+

+        /// <summary>

+        /// Wait for the SmartThreadPool/WorkItemsGroup to be idle

+        /// </summary>

+        public void WaitForIdle()

+        {

+            WaitForIdle(Timeout.Infinite);

+        }

+

+        /// <summary>

+        /// Wait for the SmartThreadPool/WorkItemsGroup to be idle

+        /// </summary>

+        public bool WaitForIdle(TimeSpan timeout)

+        {

+            return WaitForIdle((int)timeout.TotalMilliseconds);

+        }

+

+        /// <summary>

+        /// IsIdle is true when there are no work items running or queued.

+        /// </summary>

+        public bool IsIdle { get; protected set; }

+

+        #endregion

+

+        #region QueueWorkItem

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemCallback callback)

+        {

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="workItemPriority">The priority of the work item</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, WorkItemPriority workItemPriority)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, workItemPriority);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="workItemInfo">Work item info</param>

+        /// <param name="callback">A callback to execute</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, workItemInfo, callback);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state)

+        {

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemCallback callback, object state, WorkItemPriority workItemPriority)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state, workItemPriority);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="workItemInfo">Work item information</param>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(WorkItemInfo workItemInfo, WorkItemCallback callback, object state)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, workItemInfo, callback, state);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(

+            WorkItemCallback callback,

+            object state,

+            PostExecuteWorkItemCallback postExecuteWorkItemCallback)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state, postExecuteWorkItemCallback);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(

+            WorkItemCallback callback,

+            object state,

+            PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+            WorkItemPriority workItemPriority)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state, postExecuteWorkItemCallback, workItemPriority);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(

+            WorkItemCallback callback,

+            object state,

+            PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+            CallToPostExecute callToPostExecute)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        /// <summary>

+        /// Queue a work item

+        /// </summary>

+        /// <param name="callback">A callback to execute</param>

+        /// <param name="state">

+        /// The context object of the work item. Used for passing arguments to the work item. 

+        /// </param>

+        /// <param name="postExecuteWorkItemCallback">

+        /// A delegate to call after the callback completion

+        /// </param>

+        /// <param name="callToPostExecute">Indicates on which cases to call to the post execute callback</param>

+        /// <param name="workItemPriority">The work item priority</param>

+        /// <returns>Returns a work item result</returns>

+        public IWorkItemResult QueueWorkItem(

+            WorkItemCallback callback,

+            object state,

+            PostExecuteWorkItemCallback postExecuteWorkItemCallback,

+            CallToPostExecute callToPostExecute,

+            WorkItemPriority workItemPriority)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(this, WIGStartInfo, callback, state, postExecuteWorkItemCallback, callToPostExecute, workItemPriority);

+            Enqueue(workItem);

+            return workItem.GetWorkItemResult();

+        }

+

+        #endregion

+

+        #region QueueWorkItem(Action<...>)

+

+        public IWorkItemResult QueueWorkItem(Action action)

+        {

+            return QueueWorkItem (action, SmartThreadPool.DefaultWorkItemPriority);

+        }

+

+        public IWorkItemResult QueueWorkItem (Action action, WorkItemPriority priority)

+        {

+            PreQueueWorkItem ();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem (

+                this,

+                WIGStartInfo,

+                delegate

+                {

+                    action.Invoke ();

+                    return null;

+                }, priority);

+            Enqueue (workItem);

+            return workItem.GetWorkItemResult ();

+        }

+

+        public IWorkItemResult QueueWorkItem<T>(Action<T> action, T arg)

+        {

+            return QueueWorkItem<T> (action, arg, SmartThreadPool.DefaultWorkItemPriority);

+        }

+

+        public IWorkItemResult QueueWorkItem<T> (Action<T> action, T arg, WorkItemPriority priority)

+        {

+            PreQueueWorkItem ();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem (

+                this,

+                WIGStartInfo,

+                state =>

+                {

+                    action.Invoke (arg);

+                    return null;

+                },

+                WIGStartInfo.FillStateWithArgs ? new object[] { arg } : null, priority);

+            Enqueue (workItem);

+            return workItem.GetWorkItemResult ();

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2>(Action<T1, T2> action, T1 arg1, T2 arg2)

+        {

+            return QueueWorkItem<T1, T2> (action, arg1, arg2, SmartThreadPool.DefaultWorkItemPriority);

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2> (Action<T1, T2> action, T1 arg1, T2 arg2, WorkItemPriority priority)

+        {

+            PreQueueWorkItem ();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem (

+                this,

+                WIGStartInfo,

+                state =>

+                {

+                    action.Invoke (arg1, arg2);

+                    return null;

+                },

+                WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2 } : null, priority);

+            Enqueue (workItem);

+            return workItem.GetWorkItemResult ();

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2, T3>(Action<T1, T2, T3> action, T1 arg1, T2 arg2, T3 arg3)

+        {

+            return QueueWorkItem<T1, T2, T3> (action, arg1, arg2, arg3, SmartThreadPool.DefaultWorkItemPriority);

+            ;

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2, T3> (Action<T1, T2, T3> action, T1 arg1, T2 arg2, T3 arg3, WorkItemPriority priority)

+        {

+            PreQueueWorkItem ();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem (

+                this,

+                WIGStartInfo,

+                state =>

+                {

+                    action.Invoke (arg1, arg2, arg3);

+                    return null;

+                },

+                WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2, arg3 } : null, priority);

+            Enqueue (workItem);

+            return workItem.GetWorkItemResult ();

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2, T3, T4>(

+            Action<T1, T2, T3, T4> action, T1 arg1, T2 arg2, T3 arg3, T4 arg4)

+        {

+            return QueueWorkItem<T1, T2, T3, T4> (action, arg1, arg2, arg3, arg4,

+                                                  SmartThreadPool.DefaultWorkItemPriority);

+        }

+

+        public IWorkItemResult QueueWorkItem<T1, T2, T3, T4> (

+            Action<T1, T2, T3, T4> action, T1 arg1, T2 arg2, T3 arg3, T4 arg4, WorkItemPriority priority)

+        {

+            PreQueueWorkItem ();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem (

+                           this,

+                           WIGStartInfo,

+                           state =>

+                           {

+                               action.Invoke (arg1, arg2, arg3, arg4);

+                               return null;

+                           },

+                           WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2, arg3, arg4 } : null, priority);

+            Enqueue (workItem);

+            return workItem.GetWorkItemResult ();

+        }

+

+        #endregion

+

+        #region QueueWorkItem(Func<...>)

+

+        public IWorkItemResult<TResult> QueueWorkItem<TResult>(Func<TResult> func)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(

+                            this,

+                            WIGStartInfo,

+                            state =>

+                            {

+                                return func.Invoke();

+                            });

+            Enqueue(workItem);

+            return new WorkItemResultTWrapper<TResult>(workItem.GetWorkItemResult());

+        }

+

+        public IWorkItemResult<TResult> QueueWorkItem<T, TResult>(Func<T, TResult> func, T arg)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(

+                this,

+                WIGStartInfo,

+                state =>

+                {

+                    return func.Invoke(arg);

+                },

+                WIGStartInfo.FillStateWithArgs ? new object[] { arg } : null);

+            Enqueue(workItem);

+            return new WorkItemResultTWrapper<TResult>(workItem.GetWorkItemResult());

+        }

+

+        public IWorkItemResult<TResult> QueueWorkItem<T1, T2, TResult>(Func<T1, T2, TResult> func, T1 arg1, T2 arg2)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(

+                            this,

+                            WIGStartInfo,

+                            state =>

+                            {

+                                return func.Invoke(arg1, arg2);

+                            },

+                           WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2 } : null);

+            Enqueue(workItem);

+            return new WorkItemResultTWrapper<TResult>(workItem.GetWorkItemResult());

+        }

+

+        public IWorkItemResult<TResult> QueueWorkItem<T1, T2, T3, TResult>(

+            Func<T1, T2, T3, TResult> func, T1 arg1, T2 arg2, T3 arg3)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(

+                            this,

+                            WIGStartInfo,

+                            state =>

+                            {

+                                return func.Invoke(arg1, arg2, arg3);

+                            },

+                           WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2, arg3 } : null);

+            Enqueue(workItem);

+            return new WorkItemResultTWrapper<TResult>(workItem.GetWorkItemResult());

+        }

+

+        public IWorkItemResult<TResult> QueueWorkItem<T1, T2, T3, T4, TResult>(

+            Func<T1, T2, T3, T4, TResult> func, T1 arg1, T2 arg2, T3 arg3, T4 arg4)

+        {

+            PreQueueWorkItem();

+            WorkItem workItem = WorkItemFactory.CreateWorkItem(

+                            this,

+                            WIGStartInfo,

+                            state =>

+                            {

+                                return func.Invoke(arg1, arg2, arg3, arg4);

+                            },

+                           WIGStartInfo.FillStateWithArgs ? new object[] { arg1, arg2, arg3, arg4 } : null);

+            Enqueue(workItem);

+            return new WorkItemResultTWrapper<TResult>(workItem.GetWorkItemResult());

+        }

+

+        #endregion

+

+        #endregion

+    }

+}
\ No newline at end of file
diff --git a/ThirdParty/SmartThreadPool/WorkItemsQueue.cs b/ThirdParty/SmartThreadPool/WorkItemsQueue.cs
index af5af07..156a131 100644
--- a/ThirdParty/SmartThreadPool/WorkItemsQueue.cs
+++ b/ThirdParty/SmartThreadPool/WorkItemsQueue.cs
@@ -1,600 +1,645 @@
-// Ami Bar
-// amibar@gmail.com
-
-using System;
-using System.Threading;
-
-namespace Amib.Threading.Internal
-{
-    #region WorkItemsQueue class
-
-    /// <summary>
-    /// WorkItemsQueue class.
-    /// </summary>
-    public class WorkItemsQueue : IDisposable
-    {
-        #region Member variables
-
-        /// <summary>
-        /// Waiters queue (implemented as stack).
-        /// </summary>
-        private WaiterEntry _headWaiterEntry = new WaiterEntry();
-
-        /// <summary>
-        /// Waiters count
-        /// </summary>
-        private int _waitersCount = 0;
-
-        /// <summary>
-        /// Work items queue
-        /// </summary>
-        private PriorityQueue _workItems = new PriorityQueue();
-
-        /// <summary>
-        /// Indicate that work items are allowed to be queued
-        /// </summary>
-        private bool _isWorkItemsQueueActive = true;
-
-        /// <summary>
-        /// Each thread in the thread pool keeps its own waiter entry.
-        /// </summary>
-        [ThreadStatic]
-        private static WaiterEntry _waiterEntry;
-
-        /// <summary>
-        /// A flag that indicates if the WorkItemsQueue has been disposed.
-        /// </summary>
-        private bool _isDisposed = false;
-
-        #endregion
-
-        #region Public properties
-
-        /// <summary>
-        /// Returns the current number of work items in the queue
-        /// </summary>
-        public int Count
-        {
-            get
-            {
-                lock(this)
-                {
-                    ValidateNotDisposed();
-                    return _workItems.Count;
-                }
-            }
-        }
-
-        /// <summary>
-        /// Returns the current number of waiters
-        /// </summary>
-        public int WaitersCount
-        {
-            get
-            {
-                lock(this)
-                {
-                    ValidateNotDisposed();
-                    return _waitersCount;
-                }
-            }
-        }
-
-
-        #endregion
-
-        #region Public methods
-
-        /// <summary>
-        /// Enqueue a work item to the queue.
-        /// </summary>
-        public bool EnqueueWorkItem(WorkItem workItem)
-        {
-            // A work item cannot be null, since null is used in the
-            // WaitForWorkItem() method to indicate timeout or cancel
-            if (null == workItem)
-            {
-                throw new ArgumentNullException("workItem" , "workItem cannot be null");
-            }
-
-            bool enqueue = true;
-
-            // First check if there is a waiter waiting for work item. During 
-            // the check, timed out waiters are ignored. If there is no 
-            // waiter then the work item is queued.
-            lock(this)
-            {
-                ValidateNotDisposed();
-
-                if (!_isWorkItemsQueueActive)
-                {
-                    return false;
-                }
-
-                while(_waitersCount > 0)
-                {
-                    // Dequeue a waiter.
-                    WaiterEntry waiterEntry = PopWaiter();
-
-                    // Signal the waiter. On success break the loop
-                    if (waiterEntry.Signal(workItem))
-                    {
-                        enqueue = false;
-                        break;
-                    }
-                }
-
-                if (enqueue)
-                {
-                    // Enqueue the work item
-                    _workItems.Enqueue(workItem);
-                }
-            }
-            return true;
-        }
-
-
-        /// <summary>
-        /// Waits for a work item or exits on timeout or cancel
-        /// </summary>
-        /// <param name="millisecondsTimeout">Timeout in milliseconds</param>
-        /// <param name="cancelEvent">Cancel wait handle</param>
-        /// <returns>Returns true if the resource was granted</returns>
-        public WorkItem DequeueWorkItem(
-            int millisecondsTimeout, 
-            WaitHandle cancelEvent)
-        {
-            /// This method cause the caller to wait for a work item.
-            /// If there is at least one waiting work item then the 
-            /// method returns immidiately with true.
-            /// 
-            /// If there are no waiting work items then the caller 
-            /// is queued between other waiters for a work item to arrive.
-            /// 
-            /// If a work item didn't come within millisecondsTimeout or 
-            /// the user canceled the wait by signaling the cancelEvent 
-            /// then the method returns false to indicate that the caller 
-            /// didn't get a work item.
-
-            WaiterEntry waiterEntry = null;
-            WorkItem workItem = null;
-
-            lock(this)
-            {
-                ValidateNotDisposed();
-
-                // If there are waiting work items then take one and return.
-                if (_workItems.Count > 0)
-                {
-                    workItem = _workItems.Dequeue() as WorkItem;
-                    return workItem;
-                }
-                    // No waiting work items ...
-                else
-                {
-                    // Get the wait entry for the waiters queue
-                    waiterEntry = GetThreadWaiterEntry();
-
-                    // Put the waiter with the other waiters
-                    PushWaiter(waiterEntry);
-                }
-            }
-
-            // Prepare array of wait handle for the WaitHandle.WaitAny()
-            WaitHandle [] waitHandles = new WaitHandle [] { 
-                                                                waiterEntry.WaitHandle, 
-                                                                cancelEvent };
-
-            // Wait for an available resource, cancel event, or timeout.
-
-            // During the wait we are supposes to exit the synchronization 
-            // domain. (Placing true as the third argument of the WaitAny())
-            // It just doesn't work, I don't know why, so I have lock(this) 
-            // statments insted of one.
-
-            int index = WaitHandle.WaitAny(
-                waitHandles,
-                millisecondsTimeout, 
-                true);
-
-            lock(this)
-            {
-                // success is true if it got a work item.
-                bool success = (0 == index);
-
-                // The timeout variable is used only for readability.
-                // (We treat cancel as timeout)
-                bool timeout = !success;
-
-                // On timeout update the waiterEntry that it is timed out
-                if (timeout)
-                {
-                    // The Timeout() fails if the waiter has already been signaled
-                    timeout = waiterEntry.Timeout();
-
-                    // On timeout remove the waiter from the queue.
-                    // Note that the complexity is O(1).
-                    if(timeout)
-                    {
-                        RemoveWaiter(waiterEntry, false);
-                    }
-
-                    // Again readability
-                    success = !timeout;
-                }
-
-                // On success return the work item
-                if (success)
-                {
-                    workItem = waiterEntry.WorkItem;
-
-                    if (null == workItem)
-                    {
-                        workItem = _workItems.Dequeue() as WorkItem;
-                    }
-                }
-            }
-            // On failure return null.
-            return workItem;
-        }
-
-        /// <summary>
-        /// Cleanup the work items queue, hence no more work 
-        /// items are allowed to be queue
-        /// </summary>
-        protected virtual void Cleanup()
-        {
-            lock(this)
-            {
-                // Deactivate only once
-                if (!_isWorkItemsQueueActive)
-                {
-                    return;
-                }
-
-                // Don't queue more work items
-                _isWorkItemsQueueActive = false;
-
-                foreach(WorkItem workItem in _workItems)
-                {
-                    workItem.DisposeOfState();
-                }
-
-                // Clear the work items that are already queued
-                _workItems.Clear();
-
-                // Note: 
-                // I don't iterate over the queue and dispose of work items's states, 
-                // since if a work item has a state object that is still in use in the 
-                // application then I must not dispose it.
-
-                // Tell the waiters that they were timed out.
-                // It won't signal them to exit, but to ignore their
-                // next work item.
-                while(_waitersCount > 0)
-                {
-                    WaiterEntry waiterEntry = PopWaiter();
-                    waiterEntry.Timeout();
-                }
-            }
-        }
-
-        #endregion
-
-        #region Private methods
-
-        /// <summary>
-        /// Returns the WaiterEntry of the current thread
-        /// </summary>
-        /// <returns></returns>
-        /// In order to avoid creation and destuction of WaiterEntry
-        /// objects each thread has its own WaiterEntry object.
-        private WaiterEntry GetThreadWaiterEntry()
-        {
-            if (null == _waiterEntry)
-            {
-                _waiterEntry = new WaiterEntry();
-            }
-            _waiterEntry.Reset();
-            return _waiterEntry;
-        }
-
-        #region Waiters stack methods
-
-        /// <summary>
-        /// Push a new waiter into the waiter's stack
-        /// </summary>
-        /// <param name="newWaiterEntry">A waiter to put in the stack</param>
-        public void PushWaiter(WaiterEntry newWaiterEntry)
-        {
-            // Remove the waiter if it is already in the stack and 
-            // update waiter's count as needed
-            RemoveWaiter(newWaiterEntry, false);
-
-            // If the stack is empty then newWaiterEntry is the new head of the stack 
-            if (null == _headWaiterEntry._nextWaiterEntry)
-            {
-                _headWaiterEntry._nextWaiterEntry = newWaiterEntry;
-                newWaiterEntry._prevWaiterEntry = _headWaiterEntry;
-
-            }
-            // If the stack is not empty then put newWaiterEntry as the new head 
-            // of the stack.
-            else
-            {
-                // Save the old first waiter entry
-                WaiterEntry oldFirstWaiterEntry = _headWaiterEntry._nextWaiterEntry;
-
-                // Update the links
-                _headWaiterEntry._nextWaiterEntry = newWaiterEntry;
-                newWaiterEntry._nextWaiterEntry = oldFirstWaiterEntry;
-                newWaiterEntry._prevWaiterEntry = _headWaiterEntry;
-                oldFirstWaiterEntry._prevWaiterEntry = newWaiterEntry;
-            }
-
-            // Increment the number of waiters
-            ++_waitersCount;
-        }
-
-        /// <summary>
-        /// Pop a waiter from the waiter's stack
-        /// </summary>
-        /// <returns>Returns the first waiter in the stack</returns>
-        private WaiterEntry PopWaiter()
-        {
-            // Store the current stack head
-            WaiterEntry oldFirstWaiterEntry = _headWaiterEntry._nextWaiterEntry;
-
-            // Store the new stack head
-            WaiterEntry newHeadWaiterEntry = oldFirstWaiterEntry._nextWaiterEntry;
-
-            // Update the old stack head list links and decrement the number
-            // waiters.
-            RemoveWaiter(oldFirstWaiterEntry, true);
-
-            // Update the new stack head
-            _headWaiterEntry._nextWaiterEntry = newHeadWaiterEntry;
-            if (null != newHeadWaiterEntry)
-            {
-                newHeadWaiterEntry._prevWaiterEntry = _headWaiterEntry;
-            }
-
-            // Return the old stack head
-            return oldFirstWaiterEntry;
-        }
-
-        /// <summary>
-        /// Remove a waiter from the stack
-        /// </summary>
-        /// <param name="waiterEntry">A waiter entry to remove</param>
-        /// <param name="popDecrement">If true the waiter count is always decremented</param>
-        private void RemoveWaiter(WaiterEntry waiterEntry, bool popDecrement)
-        {
-            // Store the prev entry in the list
-            WaiterEntry prevWaiterEntry = waiterEntry._prevWaiterEntry;
-
-            // Store the next entry in the list
-            WaiterEntry nextWaiterEntry = waiterEntry._nextWaiterEntry;
-
-            // A flag to indicate if we need to decrement the waiters count.
-            // If we got here from PopWaiter then we must decrement.
-            // If we got here from PushWaiter then we decrement only if
-            // the waiter was already in the stack.
-            bool decrementCounter = popDecrement;
-
-            // Null the waiter's entry links
-            waiterEntry._prevWaiterEntry = null;
-            waiterEntry._nextWaiterEntry = null;
-
-            // If the waiter entry had a prev link then update it.
-            // It also means that the waiter is already in the list and we
-            // need to decrement the waiters count.
-            if (null != prevWaiterEntry)
-            {
-                prevWaiterEntry._nextWaiterEntry = nextWaiterEntry;
-                decrementCounter = true;
-            }
-
-            // If the waiter entry had a next link then update it.
-            // It also means that the waiter is already in the list and we
-            // need to decrement the waiters count.
-            if (null != nextWaiterEntry)
-            {
-                nextWaiterEntry._prevWaiterEntry = prevWaiterEntry;
-                decrementCounter = true;
-            }
-
-            // Decrement the waiters count if needed
-            if (decrementCounter)
-            {
-                --_waitersCount;
-            }
-        }
-
-        #endregion
-
-        #endregion
-
-        #region WaiterEntry class 
-
-        // A waiter entry in the _waiters queue.
-        public class WaiterEntry : IDisposable
-        {
-            #region Member variables
-
-            /// <summary>
-            /// Event to signal the waiter that it got the work item.
-            /// </summary>
-            private AutoResetEvent _waitHandle = new AutoResetEvent(false);
-
-            /// <summary>
-            /// Flag to know if this waiter already quited from the queue 
-            /// because of a timeout.
-            /// </summary>
-            private bool _isTimedout = false;
-
-            /// <summary>
-            /// Flag to know if the waiter was signaled and got a work item. 
-            /// </summary>
-            private bool _isSignaled = false;
-
-            /// <summary>
-            /// A work item that passed directly to the waiter withou going 
-            /// through the queue
-            /// </summary>
-            private WorkItem _workItem = null;
-
-            private bool _isDisposed = false;
-
-            // Linked list members
-            internal WaiterEntry _nextWaiterEntry = null;
-            internal WaiterEntry _prevWaiterEntry = null;
-
-            #endregion
-
-            #region Construction
-
-            public WaiterEntry()
-            {
-                Reset();
-            }
-                        
-            #endregion
-
-            #region Public methods
-
-            public WaitHandle WaitHandle
-            {
-                get { return _waitHandle; }
-            }
-
-            public WorkItem WorkItem
-            {
-                get
-                {
-                    lock(this)
-                    {
-                        return _workItem;
-                    }
-                }
-            }
-
-            /// <summary>
-            /// Signal the waiter that it got a work item.
-            /// </summary>
-            /// <returns>Return true on success</returns>
-            /// The method fails if Timeout() preceded its call
-            public bool Signal(WorkItem workItem)
-            {
-                lock(this)
-                {
-                    if (!_isTimedout)
-                    {
-                        _workItem = workItem;
-                        _isSignaled = true;
-                        _waitHandle.Set();
-                        return true;
-                    }
-                }
-                return false;
-            }
-
-            /// <summary>
-            /// Mark the wait entry that it has been timed out
-            /// </summary>
-            /// <returns>Return true on success</returns>
-            /// The method fails if Signal() preceded its call
-            public bool Timeout()
-            {
-                lock(this)
-                {
-                    // Time out can happen only if the waiter wasn't marked as
-                    // signaled
-                    if (!_isSignaled)
-                    {
-                        // We don't remove the waiter from the queue, the DequeueWorkItem 
-                        // method skips _waiters that were timed out.
-                        _isTimedout = true;
-                        return true;
-                    }
-                }
-                return false;
-            }
-
-            /// <summary>
-            /// Reset the wait entry so it can be used again
-            /// </summary>
-            public void Reset()
-            {
-                _workItem = null;
-                _isTimedout = false;
-                _isSignaled = false;
-                _waitHandle.Reset();
-            }
-
-            /// <summary>
-            /// Free resources
-            /// </summary>
-            public void Close()
-            {
-                if (null != _waitHandle)
-                {
-                    _waitHandle.Close();
-                    _waitHandle = null;
-                }
-            }
-
-            #endregion
-
-            #region IDisposable Members
-
-            public void Dispose()
-            {
-                if (!_isDisposed)
-                {
-                    Close();
-                    _isDisposed = true;
-                }
-            }
-
-            ~WaiterEntry()
-            {
-                Dispose();
-            }
-
-            #endregion
-        }
-
-        #endregion
-
-        #region IDisposable Members
-
-        public void Dispose()
-        {
-            if (!_isDisposed)
-            {
-                Cleanup();
-                _isDisposed = true;
-                GC.SuppressFinalize(this);
-            }
-        }
-
-        ~WorkItemsQueue()
-        {
-            Cleanup();
-        }
-
-        private void ValidateNotDisposed()
-        {
-            if(_isDisposed)
-            {
-                throw new ObjectDisposedException(GetType().ToString(), "The SmartThreadPool has been shutdown");
-            }
-        }
-
-        #endregion
-    }
-
-    #endregion
-}
-
+using System;

+using System.Collections.Generic;

+using System.Threading;

+

+namespace Amib.Threading.Internal

+{

+        #region WorkItemsQueue class

+

+        /// <summary>

+        /// WorkItemsQueue class.

+        /// </summary>

+        public class WorkItemsQueue : IDisposable

+        {

+                #region Member variables

+

+                /// <summary>

+                /// Waiters queue (implemented as stack).

+                /// </summary>

+                private readonly WaiterEntry _headWaiterEntry = new WaiterEntry();

+

+                /// <summary>

+                /// Waiters count

+                /// </summary>

+                private int _waitersCount = 0;

+

+                /// <summary>

+                /// Work items queue

+                /// </summary>

+                private readonly PriorityQueue _workItems = new PriorityQueue();

+

+        /// <summary>

+        /// Indicate that work items are allowed to be queued

+        /// </summary>

+        private bool _isWorkItemsQueueActive = true;

+

+

+#if (WINDOWS_PHONE) 

+        private static readonly Dictionary<int, WaiterEntry> _waiterEntries = new Dictionary<int, WaiterEntry>();

+#elif (_WINDOWS_CE)

+        private static LocalDataStoreSlot _waiterEntrySlot = Thread.AllocateDataSlot();

+#else

+

+        [ThreadStatic]

+        private static WaiterEntry _waiterEntry;

+#endif

+

+

+        /// <summary>

+        /// Each thread in the thread pool keeps its own waiter entry.

+        /// </summary>

+        private static WaiterEntry CurrentWaiterEntry

+        {

+#if (WINDOWS_PHONE) 

+            get

+            {

+                lock (_waiterEntries)

+                {

+                    WaiterEntry waiterEntry;

+                    if (_waiterEntries.TryGetValue(Thread.CurrentThread.ManagedThreadId, out waiterEntry))

+                    {

+                        return waiterEntry;

+                    }

+                }

+                return null;

+            }

+            set

+            {

+                lock (_waiterEntries)

+                {

+                    _waiterEntries[Thread.CurrentThread.ManagedThreadId] = value;

+                }

+            }

+#elif (_WINDOWS_CE)

+            get

+            {

+                return Thread.GetData(_waiterEntrySlot) as WaiterEntry;

+            }

+            set

+            {

+                Thread.SetData(_waiterEntrySlot, value);

+            }

+#else

+            get

+            {

+                return _waiterEntry;

+            }

+            set

+            {

+                _waiterEntry = value;

+            }

+#endif

+        }

+

+        /// <summary>

+                /// A flag that indicates if the WorkItemsQueue has been disposed.

+                /// </summary>

+        private bool _isDisposed = false;

+

+                #endregion

+

+                #region Public properties

+

+        /// <summary>

+        /// Returns the current number of work items in the queue

+        /// </summary>

+                public int Count

+                {

+                        get

+                        {

+                return _workItems.Count;

+                        }

+                }

+

+                /// <summary>

+                /// Returns the current number of waiters

+                /// </summary>

+                public int WaitersCount

+                {

+                        get

+                        {

+                                return _waitersCount;

+                        }

+                }

+

+

+        #endregion

+

+        #region Public methods

+

+                /// <summary>

+                /// Enqueue a work item to the queue.

+                /// </summary>

+                public bool EnqueueWorkItem(WorkItem workItem)

+                {

+                        // A work item cannot be null, since null is used in the

+                        // WaitForWorkItem() method to indicate timeout or cancel

+                        if (null == workItem)

+                        {

+                                throw new ArgumentNullException("workItem" , "workItem cannot be null");

+                        }

+

+                        bool enqueue = true;

+

+                        // First check if there is a waiter waiting for work item. During 

+                        // the check, timed out waiters are ignored. If there is no 

+                        // waiter then the work item is queued.

+                        lock(this)

+                        {

+                ValidateNotDisposed();

+

+                if (!_isWorkItemsQueueActive)

+                {

+                    return false;

+                }

+

+                                while(_waitersCount > 0)

+                                {

+                                        // Dequeue a waiter.

+                                        WaiterEntry waiterEntry = PopWaiter();

+

+                                        // Signal the waiter. On success break the loop

+                                        if (waiterEntry.Signal(workItem))

+                                        {

+                                                enqueue = false;

+                                                break;

+                                        }

+                                }

+

+                                if (enqueue)

+                                {

+                                        // Enqueue the work item

+                                        _workItems.Enqueue(workItem);

+                                }

+                        }

+            return true;

+                }

+

+

+                /// <summary>

+                /// Waits for a work item or exits on timeout or cancel

+                /// </summary>

+                /// <param name="millisecondsTimeout">Timeout in milliseconds</param>

+                /// <param name="cancelEvent">Cancel wait handle</param>

+                /// <returns>Returns true if the resource was granted</returns>

+                public WorkItem DequeueWorkItem(

+                        int millisecondsTimeout, 

+                        WaitHandle cancelEvent)

+                {

+                        // This method cause the caller to wait for a work item.

+                        // If there is at least one waiting work item then the 

+                        // method returns immidiately with it.

+                        // 

+                        // If there are no waiting work items then the caller 

+                        // is queued between other waiters for a work item to arrive.

+                        // 

+                        // If a work item didn't come within millisecondsTimeout or 

+                        // the user canceled the wait by signaling the cancelEvent 

+                        // then the method returns null to indicate that the caller 

+                        // didn't get a work item.

+

+                        WaiterEntry waiterEntry;

+                        WorkItem workItem = null;

+                    lock (this)

+                    {

+                ValidateNotDisposed();

+

+                // If there are waiting work items then take one and return.

+                if (_workItems.Count > 0)

+                {

+                    workItem = _workItems.Dequeue() as WorkItem;

+                    return workItem;

+                }

+

+                // No waiting work items ...

+

+                // Get the waiter entry for the waiters queue

+                waiterEntry = GetThreadWaiterEntry();

+

+                // Put the waiter with the other waiters

+                PushWaiter(waiterEntry);

+                    }

+

+                    // Prepare array of wait handle for the WaitHandle.WaitAny()

+            WaitHandle [] waitHandles = new WaitHandle[] { 

+                                                                                                                                waiterEntry.WaitHandle, 

+                                                                                                                                cancelEvent };

+

+                        // Wait for an available resource, cancel event, or timeout.

+

+                        // During the wait we are supposes to exit the synchronization 

+                        // domain. (Placing true as the third argument of the WaitAny())

+                        // It just doesn't work, I don't know why, so I have two lock(this) 

+                        // statments instead of one.

+

+            int index = STPEventWaitHandle.WaitAny(

+                                waitHandles,

+                                millisecondsTimeout, 

+                                true);

+

+                        lock(this)

+                        {

+                                // success is true if it got a work item.

+                                bool success = (0 == index);

+

+                                // The timeout variable is used only for readability.

+                                // (We treat cancel as timeout)

+                                bool timeout = !success;

+

+                                // On timeout update the waiterEntry that it is timed out

+                                if (timeout)

+                                {

+                                        // The Timeout() fails if the waiter has already been signaled

+                                        timeout = waiterEntry.Timeout();

+

+                                        // On timeout remove the waiter from the queue.

+                                        // Note that the complexity is O(1).

+                                        if(timeout)

+                                        {

+                                                RemoveWaiter(waiterEntry, false);

+                                        }

+

+                                        // Again readability

+                                        success = !timeout;

+                                }

+

+                                // On success return the work item

+                                if (success)

+                                {

+                                        workItem = waiterEntry.WorkItem;

+

+                                        if (null == workItem)

+                                        {

+                                                workItem = _workItems.Dequeue() as WorkItem;

+                                        }

+                                }

+                        }

+                        // On failure return null.

+                        return workItem;

+                }

+

+        /// <summary>

+        /// Cleanup the work items queue, hence no more work 

+        /// items are allowed to be queue

+        /// </summary>

+        private void Cleanup()

+        {

+            lock(this)

+            {

+                // Deactivate only once

+                if (!_isWorkItemsQueueActive)

+                {

+                    return;

+                }

+

+                // Don't queue more work items

+                _isWorkItemsQueueActive = false;

+

+                foreach(WorkItem workItem in _workItems)

+                {

+                    workItem.DisposeOfState();

+                }

+

+                // Clear the work items that are already queued

+                _workItems.Clear();

+

+                // Note: 

+                // I don't iterate over the queue and dispose of work items's states, 

+                // since if a work item has a state object that is still in use in the 

+                // application then I must not dispose it.

+

+                // Tell the waiters that they were timed out.

+                // It won't signal them to exit, but to ignore their

+                // next work item.

+                                while(_waitersCount > 0)

+                                {

+                                        WaiterEntry waiterEntry = PopWaiter();

+                                        waiterEntry.Timeout();

+                                }

+            }

+        }

+

+        public object[] GetStates()

+        {

+            lock (this)

+            {

+                object[] states = new object[_workItems.Count];

+                int i = 0;

+                foreach (WorkItem workItem in _workItems)

+                {

+                    states[i] = workItem.GetWorkItemResult().State;

+                    ++i;

+                }

+                return states;

+            }

+        }

+

+                #endregion

+

+                #region Private methods

+

+                /// <summary>

+                /// Returns the WaiterEntry of the current thread

+                /// </summary>

+                /// <returns></returns>

+                /// In order to avoid creation and destuction of WaiterEntry

+                /// objects each thread has its own WaiterEntry object.

+                private static WaiterEntry GetThreadWaiterEntry()

+                {

+                        if (null == CurrentWaiterEntry)

+                        {

+                                CurrentWaiterEntry = new WaiterEntry();

+                        }

+                        CurrentWaiterEntry.Reset();

+                        return CurrentWaiterEntry;

+                }

+

+                #region Waiters stack methods

+

+                /// <summary>

+                /// Push a new waiter into the waiter's stack

+                /// </summary>

+                /// <param name="newWaiterEntry">A waiter to put in the stack</param>

+                public void PushWaiter(WaiterEntry newWaiterEntry)

+                {

+                        // Remove the waiter if it is already in the stack and 

+                        // update waiter's count as needed

+                        RemoveWaiter(newWaiterEntry, false);

+

+                        // If the stack is empty then newWaiterEntry is the new head of the stack 

+                        if (null == _headWaiterEntry._nextWaiterEntry)

+                        {

+                                _headWaiterEntry._nextWaiterEntry = newWaiterEntry;

+                                newWaiterEntry._prevWaiterEntry = _headWaiterEntry;

+

+                        }

+                        // If the stack is not empty then put newWaiterEntry as the new head 

+                        // of the stack.

+                        else

+                        {

+                                // Save the old first waiter entry

+                                WaiterEntry oldFirstWaiterEntry = _headWaiterEntry._nextWaiterEntry;

+

+                // Update the links

+                                _headWaiterEntry._nextWaiterEntry = newWaiterEntry;

+                                newWaiterEntry._nextWaiterEntry = oldFirstWaiterEntry;

+                                newWaiterEntry._prevWaiterEntry = _headWaiterEntry;

+                                oldFirstWaiterEntry._prevWaiterEntry = newWaiterEntry;

+                        }

+

+                        // Increment the number of waiters

+                        ++_waitersCount;

+                }

+

+                /// <summary>

+                /// Pop a waiter from the waiter's stack

+                /// </summary>

+                /// <returns>Returns the first waiter in the stack</returns>

+                private WaiterEntry PopWaiter()

+                {

+                        // Store the current stack head

+                        WaiterEntry oldFirstWaiterEntry = _headWaiterEntry._nextWaiterEntry;

+

+                        // Store the new stack head

+                        WaiterEntry newHeadWaiterEntry = oldFirstWaiterEntry._nextWaiterEntry;

+

+                        // Update the old stack head list links and decrement the number

+                        // waiters.

+                        RemoveWaiter(oldFirstWaiterEntry, true);

+

+                        // Update the new stack head

+                        _headWaiterEntry._nextWaiterEntry = newHeadWaiterEntry;

+                        if (null != newHeadWaiterEntry)

+                        {

+                                newHeadWaiterEntry._prevWaiterEntry = _headWaiterEntry;

+                        }

+

+                        // Return the old stack head

+                        return oldFirstWaiterEntry;

+                }

+

+                /// <summary>

+                /// Remove a waiter from the stack

+                /// </summary>

+                /// <param name="waiterEntry">A waiter entry to remove</param>

+                /// <param name="popDecrement">If true the waiter count is always decremented</param>

+                private void RemoveWaiter(WaiterEntry waiterEntry, bool popDecrement)

+                {

+                        // Store the prev entry in the list

+                        WaiterEntry prevWaiterEntry = waiterEntry._prevWaiterEntry;

+

+                        // Store the next entry in the list

+                        WaiterEntry nextWaiterEntry = waiterEntry._nextWaiterEntry;

+

+                        // A flag to indicate if we need to decrement the waiters count.

+                        // If we got here from PopWaiter then we must decrement.

+                        // If we got here from PushWaiter then we decrement only if

+                        // the waiter was already in the stack.

+                        bool decrementCounter = popDecrement;

+

+                        // Null the waiter's entry links

+                        waiterEntry._prevWaiterEntry = null;

+                        waiterEntry._nextWaiterEntry = null;

+

+                        // If the waiter entry had a prev link then update it.

+                        // It also means that the waiter is already in the list and we

+                        // need to decrement the waiters count.

+                        if (null != prevWaiterEntry)

+                        {

+                                prevWaiterEntry._nextWaiterEntry = nextWaiterEntry;

+                                decrementCounter = true;

+                        }

+

+                        // If the waiter entry had a next link then update it.

+                        // It also means that the waiter is already in the list and we

+                        // need to decrement the waiters count.

+                        if (null != nextWaiterEntry)

+                        {

+                                nextWaiterEntry._prevWaiterEntry = prevWaiterEntry;

+                                decrementCounter = true;

+                        }

+

+                        // Decrement the waiters count if needed

+                        if (decrementCounter)

+                        {

+                                --_waitersCount;

+                        }

+                }

+

+                #endregion

+

+                #endregion

+

+                #region WaiterEntry class 

+

+                // A waiter entry in the _waiters queue.

+                public sealed class WaiterEntry : IDisposable

+                {

+                        #region Member variables

+

+                        /// <summary>

+                        /// Event to signal the waiter that it got the work item.

+                        /// </summary>

+                        //private AutoResetEvent _waitHandle = new AutoResetEvent(false);

+            private AutoResetEvent _waitHandle = EventWaitHandleFactory.CreateAutoResetEvent();

+

+                        /// <summary>

+                        /// Flag to know if this waiter already quited from the queue 

+                        /// because of a timeout.

+                        /// </summary>

+                        private bool _isTimedout = false;

+

+                        /// <summary>

+                        /// Flag to know if the waiter was signaled and got a work item. 

+                        /// </summary>

+                        private bool _isSignaled = false;

+

+            /// <summary>

+            /// A work item that passed directly to the waiter withou going 

+            /// through the queue

+            /// </summary>

+                        private WorkItem _workItem = null;

+

+            private bool _isDisposed = false;

+

+                        // Linked list members

+                        internal WaiterEntry _nextWaiterEntry = null;

+                        internal WaiterEntry _prevWaiterEntry = null;

+

+                        #endregion

+

+                        #region Construction

+

+                        public WaiterEntry()

+                        {

+                                Reset();

+                        }

+                                                

+                        #endregion

+

+                        #region Public methods

+

+                        public WaitHandle WaitHandle

+                        {

+                                get { return _waitHandle; }

+                        }

+

+                        public WorkItem WorkItem

+                        {

+                                get

+                                {

+                                        return _workItem;

+                                }

+                        }

+

+                        /// <summary>

+                        /// Signal the waiter that it got a work item.

+                        /// </summary>

+                        /// <returns>Return true on success</returns>

+                        /// The method fails if Timeout() preceded its call

+                        public bool Signal(WorkItem workItem)

+                        {

+                                lock(this)

+                                {

+                                        if (!_isTimedout)

+                                        {

+                                                _workItem = workItem;

+                                                _isSignaled = true;

+                                                _waitHandle.Set();

+                                                return true;

+                                        }

+                                }

+                                return false;

+                        }

+

+                        /// <summary>

+                        /// Mark the wait entry that it has been timed out

+                        /// </summary>

+                        /// <returns>Return true on success</returns>

+                        /// The method fails if Signal() preceded its call

+                        public bool Timeout()

+                        {

+                                lock(this)

+                                {

+                                        // Time out can happen only if the waiter wasn't marked as

+                                        // signaled

+                                        if (!_isSignaled)

+                                        {

+                                                // We don't remove the waiter from the queue, the DequeueWorkItem 

+                        // method skips _waiters that were timed out.

+                                                _isTimedout = true;

+                                                return true;

+                                        }

+                                }

+                                return false;

+                        }

+

+                        /// <summary>

+                        /// Reset the wait entry so it can be used again

+                        /// </summary>

+                        public void Reset()

+                        {

+                                _workItem = null;

+                                _isTimedout = false;

+                                _isSignaled = false;

+                                _waitHandle.Reset();

+                        }

+

+                        /// <summary>

+                        /// Free resources

+                        /// </summary>

+                        public void Close()

+                        {

+                                if (null != _waitHandle)

+                                {

+                                        _waitHandle.Close();

+                                        _waitHandle = null;

+                                }

+                        }

+

+                        #endregion

+

+                        #region IDisposable Members

+

+                        public void Dispose()

+                        {

+                lock (this)

+                {

+                    if (!_isDisposed)

+                    {

+                        Close();

+                    }

+                    _isDisposed = true;

+                }

+            }

+

+                        #endregion

+                }

+

+                #endregion

+

+        #region IDisposable Members

+

+        public void Dispose()

+        {

+            if (!_isDisposed)

+            {

+                Cleanup();

+            }

+            _isDisposed = true;

+        }

+

+        private void ValidateNotDisposed()

+        {

+            if(_isDisposed)

+            {

+                throw new ObjectDisposedException(GetType().ToString(), "The SmartThreadPool has been shutdown");

+            }

+        }

+

+        #endregion

+    }

+

+        #endregion

+}

+