* This is Melanie's XEngine script engine. I've not tested this real well, however, it's confirmed to compile and OpenSimulator to run successfully without this script engine active.

author: Teravus Ovares 2008-05-30 12:27:06 +0000
committer: Teravus Ovares 2008-05-30 12:27:06 +0000
commit: 1a47ff8094ee414a47aebd310826906d89428a09 (patch)
tree: 0e90b3a33f43ff8617a077bb57b86d6b28e63e71 /ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
parent: * Fixed a dangling event hook that I added. (diff)
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1 files changed, 352 insertions, 0 deletions
diff --git a/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
new file mode 100644
index 0000000..be70aea
--- /dev/null
+++ b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
@@ -0,0 +1,352 @@
+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.
+                PerformanceCounterCategory.Create(
+                    _stpCategoryName, 
+                    _stpCategoryHelp, 
+                    //PerformanceCounterCategoryType.MultiInstance,
+                    counters);
+                    
+            }
+        }
+ 
+        // 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) {}
+    }
+}
author	Teravus Ovares	2008-05-30 12:27:06 +0000
committer	Teravus Ovares	2008-05-30 12:27:06 +0000
commit	1a47ff8094ee414a47aebd310826906d89428a09 (patch)
tree	0e90b3a33f43ff8617a077bb57b86d6b28e63e71 /ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
parent	* Fixed a dangling event hook that I added. (diff)
download	opensim-SC_OLD-1a47ff8094ee414a47aebd310826906d89428a09.zip opensim-SC_OLD-1a47ff8094ee414a47aebd310826906d89428a09.tar.gz opensim-SC_OLD-1a47ff8094ee414a47aebd310826906d89428a09.tar.bz2 opensim-SC_OLD-1a47ff8094ee414a47aebd310826906d89428a09.tar.xz

diff --git a/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs new file mode 100644 index 0000000..be70aea --- /dev/null +++ b/ThirdParty/SmartThreadPool/STPPerformanceCounter.cs
@@ -0,0 +1,352 @@
	1	using System;
	2	using System.Diagnostics;
	3
	4	namespace Amib.Threading.Internal
	5	{
	6	internal enum STPPerformanceCounterType
	7	{
	8	// Fields
	9	ActiveThreads = 0,
	10	InUseThreads = 1,
	11	OverheadThreads = 2,
	12	OverheadThreadsPercent = 3,
	13	OverheadThreadsPercentBase = 4,
	14
	15	WorkItems = 5,
	16	WorkItemsInQueue = 6,
	17	WorkItemsProcessed = 7,
	18
	19	WorkItemsQueuedPerSecond = 8,
	20	WorkItemsProcessedPerSecond = 9,
	21
	22	AvgWorkItemWaitTime = 10,
	23	AvgWorkItemWaitTimeBase = 11,
	24
	25	AvgWorkItemProcessTime = 12,
	26	AvgWorkItemProcessTimeBase = 13,
	27
	28	WorkItemsGroups = 14,
	29
	30	LastCounter = 14,
	31	}
	32
	33
	34	/// <summary>
	35	/// Summary description for STPPerformanceCounter.
	36	/// </summary>
	37	internal class STPPerformanceCounter
	38	{
	39	// Fields
	40	private PerformanceCounterType _pcType;
	41	protected string _counterHelp;
	42	protected string _counterName;
	43
	44	// Methods
	45	public STPPerformanceCounter(
	46	string counterName,
	47	string counterHelp,
	48	PerformanceCounterType pcType)
	49	{
	50	this._counterName = counterName;
	51	this._counterHelp = counterHelp;
	52	this._pcType = pcType;
	53	}
	54
	55	public void AddCounterToCollection(CounterCreationDataCollection counterData)
	56	{
	57	CounterCreationData counterCreationData = new CounterCreationData(
	58	_counterName,
	59	_counterHelp,
	60	_pcType);
	61
	62	counterData.Add(counterCreationData);
	63	}
	64
	65	// Properties
	66	public string Name
	67	{
	68	get
	69	{
	70	return _counterName;
	71	}
	72	}
	73	}
	74
	75	internal class STPPerformanceCounters
	76	{
	77	// Fields
	78	internal STPPerformanceCounter[] _stpPerformanceCounters;
	79	private static STPPerformanceCounters _instance;
	80	internal const string _stpCategoryHelp = "SmartThreadPool performance counters";
	81	internal const string _stpCategoryName = "SmartThreadPool";
	82
	83	// Methods
	84	static STPPerformanceCounters()
	85	{
	86	_instance = new STPPerformanceCounters();
	87	}
	88
	89	private STPPerformanceCounters()
	90	{
	91	STPPerformanceCounter[] stpPerformanceCounters = new STPPerformanceCounter[]
	92	{
	93	new STPPerformanceCounter("Active threads", "The current number of available in the thread pool.", PerformanceCounterType.NumberOfItems32),
	94	new STPPerformanceCounter("In use threads", "The current number of threads that execute a work item.", PerformanceCounterType.NumberOfItems32),
	95	new STPPerformanceCounter("Overhead threads", "The current number of threads that are active, but are not in use.", PerformanceCounterType.NumberOfItems32),
	96	new STPPerformanceCounter("% overhead threads", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawFraction),
	97	new STPPerformanceCounter("% overhead threads base", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawBase),
	98
	99	new STPPerformanceCounter("Work Items", "The number of work items in the Smart Thread Pool. Both queued and processed.", PerformanceCounterType.NumberOfItems32),
	100	new STPPerformanceCounter("Work Items in queue", "The current number of work items in the queue", PerformanceCounterType.NumberOfItems32),
	101	new STPPerformanceCounter("Work Items processed", "The number of work items already processed", PerformanceCounterType.NumberOfItems32),
	102
	103	new STPPerformanceCounter("Work Items queued/sec", "The number of work items queued per second", PerformanceCounterType.RateOfCountsPerSecond32),
	104	new STPPerformanceCounter("Work Items processed/sec", "The number of work items processed per second", PerformanceCounterType.RateOfCountsPerSecond32),
	105
	106	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),
	107	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),
	108
	109	new STPPerformanceCounter("Avg. Work Item process time/sec", "The average time it takes to process a work item.", PerformanceCounterType.AverageCount64),
	110	new STPPerformanceCounter("Avg. Work Item process time base", "The average time it takes to process a work item.", PerformanceCounterType.AverageBase),
	111
	112	new STPPerformanceCounter("Work Items Groups", "The current number of work item groups associated with the Smart Thread Pool.", PerformanceCounterType.NumberOfItems32),
	113	};
	114
	115	_stpPerformanceCounters = stpPerformanceCounters;
	116	SetupCategory();
	117	}
	118
	119	private void SetupCategory()
	120	{
	121	if (!PerformanceCounterCategory.Exists(_stpCategoryName))
	122	{
	123	CounterCreationDataCollection counters = new CounterCreationDataCollection();
	124
	125	for (int i = 0; i < _stpPerformanceCounters.Length; i++)
	126	{
	127	_stpPerformanceCounters[i].AddCounterToCollection(counters);
	128	}
	129
	130
	131	// ********* Remark for .NET 2.0 *********
	132	// If you are here, it means you got the warning that this overload
	133	// of the method is deprecated in .NET 2.0. To use the correct
	134	// method overload, uncomment the third argument of the method.
	135	PerformanceCounterCategory.Create(
	136	_stpCategoryName,
	137	_stpCategoryHelp,
	138	//PerformanceCounterCategoryType.MultiInstance,
	139	counters);
	140
	141	}
	142	}
	143
	144	// Properties
	145	public static STPPerformanceCounters Instance
	146	{
	147	get
	148	{
	149	return _instance;
	150	}
	151	}
	152	}
	153
	154	internal class STPInstancePerformanceCounter : IDisposable
	155	{
	156	// Fields
	157	private PerformanceCounter _pcs;
	158
	159	// Methods
	160	protected STPInstancePerformanceCounter()
	161	{
	162	}
	163
	164	public STPInstancePerformanceCounter(
	165	string instance,
	166	STPPerformanceCounterType spcType)
	167	{
	168	STPPerformanceCounters counters = STPPerformanceCounters.Instance;
	169	_pcs = new PerformanceCounter(
	170	STPPerformanceCounters._stpCategoryName,
	171	counters._stpPerformanceCounters[(int) spcType].Name,
	172	instance,
	173	false);
	174	_pcs.RawValue = _pcs.RawValue;
	175	}
	176
	177	~STPInstancePerformanceCounter()
	178	{
	179	Close();
	180	}
	181
	182	public void Close()
	183	{
	184	if (_pcs != null)
	185	{
	186	_pcs.RemoveInstance();
	187	_pcs.Close();
	188	_pcs = null;
	189	}
	190	}
	191
	192	public void Dispose()
	193	{
	194	Close();
	195	GC.SuppressFinalize(this);
	196	}
	197
	198	public virtual void Increment()
	199	{
	200	_pcs.Increment();
	201	}
	202
	203	public virtual void IncrementBy(long val)
	204	{
	205	_pcs.IncrementBy(val);
	206	}
	207
	208	public virtual void Set(long val)
	209	{
	210	_pcs.RawValue = val;
	211	}
	212	}
	213
	214	internal class STPInstanceNullPerformanceCounter : STPInstancePerformanceCounter
	215	{
	216	// Methods
	217	public STPInstanceNullPerformanceCounter() {}
	218	public override void Increment() {}
	219	public override void IncrementBy(long value) {}
	220	public override void Set(long val) {}
	221	}
	222
	223	internal interface ISTPInstancePerformanceCounters : IDisposable
	224	{
	225	void Close();
	226	void SampleThreads(long activeThreads, long inUseThreads);
	227	void SampleWorkItems(long workItemsQueued, long workItemsProcessed);
	228	void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime);
	229	void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime);
	230	}
	231
	232
	233	internal class STPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
	234	{
	235	// Fields
	236	private STPInstancePerformanceCounter[] _pcs;
	237	private static STPInstancePerformanceCounter _stpInstanceNullPerformanceCounter;
	238
	239	// Methods
	240	static STPInstancePerformanceCounters()
	241	{
	242	_stpInstanceNullPerformanceCounter = new STPInstanceNullPerformanceCounter();
	243	}
	244
	245	public STPInstancePerformanceCounters(string instance)
	246	{
	247	_pcs = new STPInstancePerformanceCounter[(int)STPPerformanceCounterType.LastCounter];
	248	STPPerformanceCounters counters = STPPerformanceCounters.Instance;
	249	for (int i = 0; i < _pcs.Length; i++)
	250	{
	251	if (instance != null)
	252	{
	253	_pcs[i] = new STPInstancePerformanceCounter(
	254	instance,
	255	(STPPerformanceCounterType) i);
	256	}
	257	else
	258	{
	259	_pcs[i] = _stpInstanceNullPerformanceCounter;
	260	}
	261	}
	262	}
	263
	264
	265	public void Close()
	266	{
	267	if (null != _pcs)
	268	{
	269	for (int i = 0; i < _pcs.Length; i++)
	270	{
	271	if (null != _pcs[i])
	272	{
	273	_pcs[i].Close();
	274	}
	275	}
	276	_pcs = null;
	277	}
	278	}
	279
	280	~STPInstancePerformanceCounters()
	281	{
	282	Close();
	283	}
	284
	285	public void Dispose()
	286	{
	287	Close();
	288	GC.SuppressFinalize(this);
	289	}
	290
	291	private STPInstancePerformanceCounter GetCounter(STPPerformanceCounterType spcType)
	292	{
	293	return _pcs[(int) spcType];
	294	}
	295
	296	public void SampleThreads(long activeThreads, long inUseThreads)
	297	{
	298	GetCounter(STPPerformanceCounterType.ActiveThreads).Set(activeThreads);
	299	GetCounter(STPPerformanceCounterType.InUseThreads).Set(inUseThreads);
	300	GetCounter(STPPerformanceCounterType.OverheadThreads).Set(activeThreads-inUseThreads);
	301
	302	GetCounter(STPPerformanceCounterType.OverheadThreadsPercentBase).Set(activeThreads-inUseThreads);
	303	GetCounter(STPPerformanceCounterType.OverheadThreadsPercent).Set(inUseThreads);
	304	}
	305
	306	public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)
	307	{
	308	GetCounter(STPPerformanceCounterType.WorkItems).Set(workItemsQueued+workItemsProcessed);
	309	GetCounter(STPPerformanceCounterType.WorkItemsInQueue).Set(workItemsQueued);
	310	GetCounter(STPPerformanceCounterType.WorkItemsProcessed).Set(workItemsProcessed);
	311
	312	GetCounter(STPPerformanceCounterType.WorkItemsQueuedPerSecond).Set(workItemsQueued);
	313	GetCounter(STPPerformanceCounterType.WorkItemsProcessedPerSecond).Set(workItemsProcessed);
	314	}
	315
	316	public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)
	317	{
	318	GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTime).IncrementBy((long)workItemWaitTime.TotalMilliseconds);
	319	GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTimeBase).Increment();
	320	}
	321
	322	public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)
	323	{
	324	GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTime).IncrementBy((long)workItemProcessTime.TotalMilliseconds);
	325	GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTimeBase).Increment();
	326	}
	327	}
	328
	329	internal class NullSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
	330	{
	331	static NullSTPInstancePerformanceCounters()
	332	{
	333	}
	334
	335	private static NullSTPInstancePerformanceCounters _instance = new NullSTPInstancePerformanceCounters(null);
	336
	337	public static NullSTPInstancePerformanceCounters Instance
	338	{
	339	get { return _instance; }
	340	}
	341
	342	public NullSTPInstancePerformanceCounters(string instance) {}
	343	public void Close() {}
	344	public void Dispose() {}
	345
	346	public void SampleThreads(long activeThreads, long inUseThreads) {}
	347	public void SampleWorkItems(long workItemsQueued, long workItemsProcessed) {}
	348	public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime) {}
	349	public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime) {}
	350	}
	351
	352	}