/*
PowerShell:
[System.Diagnostics.PerformanceCounterCategory]::Delete("Microshaoft ConcurrentAsyncQueue Performance Counters")
[System.Diagnostics.PerformanceCounterCategory]::GetCategories() | Format-Table -auto
[System.Diagnostics.PerformanceCounterCategory]::GetCategories() | Where {$_.CategoryName -like "*microshaoft*" } | Format-Table -auto
[Diagnostics.PerformanceCounterCategory]::Delete( "Your Category Name" )
[Diagnostics.PerformanceCounterCategory]::GetCategories() | Format-Table -auto
[Diagnostics.PerformanceCounterCategory]::GetCategories() | Where {$_.CategoryName -like "*microshaoft*" } | Format-Table -auto
[Diagnostics.PerformanceCounterCategory]::GetCategories() | Where {$_.CategoryName -like "*network*" } | Format-Table -auto
[Diagnostics.PerformanceCounterCategory]::GetCategories() | Where {$_.CategoryName -match "SQL.*Stat.*" } | Format-Table -auto
$categoryName = "Microshaoft ConcurrentAsyncQueue Performance Counters"
$counterName = ""
$instanceName = ""
if ([System.Diagnostics.PerformanceCounterCategory]::Exists($categoryName))
{
#if ([System.Diagnostics.PerformanceCounterCategory]::CounterExists($counterName,$categoryName))
{
}
if ([System.Diagnostics.PerformanceCounterCategory]::InstanceExists($instanceName, $categoryName))
{
$pc = New-Object [System.Diagnostics.PerformanceCounter] ($categoryName, $counterName, $instanceName)
$pc.RemoveInstance()
[System.Console]::WriteLine("RemoveInstance")
}
[System.Diagnostics.PerformanceCounterCategory]::Delete($categoryName)
[System.Console]::WriteLine("Delete")
}
*/
namespace Test
{
using Microshaoft;
using System;
using System.Threading;
using System.Threading.Tasks;
class Program
{
static void Main()
{
GCNotifier
.RegisterForFullGCNotification
(
99
, 99
, 10
, (x) =>
{
//if (x != GCNotificationStatus.Timeout)
{
Console.WriteLine("FullGCApproach {0}", x);
}
}
, (x) =>
{
//if (x != GCNotificationStatus.Timeout)
{
Console.WriteLine("FullGCComplete {0}", x);
}
}
);
var q = new ConcurrentAsyncQueue<int>();
q.AttachPerformanceCounters
(
"new"
, "Microshaoft ConcurrentAsyncQueue Performance Counters"
, new QueuePerformanceCountersContainer()
);
Random random = new Random();
q.OnDequeue += //new ConcurrentAsyncQueue<int>.QueueEventHandler
(
(x) =>
{
int sleep = random.Next(0, 9) * 50;
//Console.WriteLine(sleep);
Thread.Sleep(sleep);
if (sleep > 400)
{
Console.WriteLine(x);
}
}
);
q.OnCaughtException += //new ConcurrentAsyncQueue<int>.ExceptionEventHandler
(
(x, y) =>
{
Console.WriteLine(y.ToString());
return false;
}
);
Console.WriteLine("begin ...");
//q.StartAdd(10);
string r = string.Empty;
while ((r = Console.ReadLine()) != "q")
{
int i;
if (int.TryParse(r, out i))
{
Console.WriteLine("Parallel Enqueue {0} begin ...", i);
new Thread
(
new ParameterizedThreadStart
(
(x) =>
{
Parallel.For
(
0
, i
, (xx) =>
{
q.Enqueue(xx);
}
);
Console.WriteLine("Parallel Enqueue {0} end ...", i);
}
)
).Start();
}
else if (r.ToLower() == "stop")
{
q.StartDecreaseDequeueProcessThreads(10);
}
else if (r.ToLower() == "add")
{
q.StartIncreaseDequeueProcessThreads(20);
}
else
{
Console.WriteLine("please input Number!");
}
}
}
}
}
namespace Microshaoft
{
using System;
using System.Collections.Concurrent;
using System.Diagnostics;
using System.Threading;
public class ConcurrentAsyncQueue<T>
{
public delegate void QueueEventHandler(T item);
public event QueueEventHandler OnDequeue;
public delegate void QueueLogEventHandler(string logMessage);
public QueueLogEventHandler
OnQueueLog
, OnDequeueThreadStart
, OnDequeueThreadEnd;
public delegate bool ExceptionEventHandler(ConcurrentAsyncQueue<T> sender, Exception exception);
public event ExceptionEventHandler OnCaughtException;
private ConcurrentQueue<Tuple<Stopwatch, T>> _queue =
new ConcurrentQueue<Tuple<Stopwatch, T>>();
private ConcurrentQueue<Action> _callbackProcessBreaksActions;
private long _concurrentDequeueThreadsCount = 0; //Microshaoft 用于控制并发线程数
private ConcurrentQueue<ThreadProcessor> _dequeueThreadsProcessorsPool;
private int _dequeueIdleSleepSeconds = 10;
public QueuePerformanceCountersContainer PerformanceCounters
{
get;
private set;
}
public int DequeueIdleSleepSeconds
{
set
{
_dequeueIdleSleepSeconds = value;
}
get
{
return _dequeueIdleSleepSeconds;
}
}
private bool _isAttachedPerformanceCounters = false;
private class ThreadProcessor
{
public bool Break
{
set;
get;
}
public EventWaitHandle Wait
{
private set;
get;
}
public ConcurrentAsyncQueue<T> Sender
{
private set;
get;
}
public void StopOne()
{
Break = true;
}
public ThreadProcessor
(
ConcurrentAsyncQueue<T> queue
, EventWaitHandle wait
)
{
Wait = wait;
Sender = queue;
}
public void ThreadProcess()
{
long l = 0;
Interlocked.Increment(ref Sender._concurrentDequeueThreadsCount);
bool counterEnabled = Sender._isAttachedPerformanceCounters;
QueuePerformanceCountersContainer qpcc = Sender.PerformanceCounters;
var queue = Sender._queue;
var reThrowException = false;
PerformanceCountersHelper
.TryCountPerformance
(
counterEnabled
, reThrowException
, //IncrementCountersBeforeCountPerformance:
new PerformanceCounter[]
{
qpcc
.DequeueThreadStartPerformanceCounter
, qpcc
.DequeueThreadsCountPerformanceCounter
}
, //DecrementCountersBeforeCountPerformance:
null
, null
, () =>
{
#region Try Process
if (Sender.OnDequeueThreadStart != null)
{
l = Interlocked.Read(ref Sender._concurrentDequeueThreadsCount);
Sender
.OnDequeueThreadStart
(
string
.Format
(
"{0} Threads Count {1},Queue Count {2},Current Thread: {3} at {4}"
, "Threads ++ !"
, l
, queue.Count
, Thread.CurrentThread.Name
, DateTime.Now.ToString("yyyy-MM-dd HH:mm:ss.fffff")
)
);
}
while (true)
{
#region while true loop
if (Break)
{
break;
}
while (!queue.IsEmpty)
{
#region while queue.IsEmpty loop
if (Break)
{
break;
}
Tuple<Stopwatch, T> item = null;
if (queue.TryDequeue(out item))
{
PerformanceCountersHelper
.TryCountPerformance
(
counterEnabled
, reThrowException
, new PerformanceCounter[]
{
qpcc
.DequeuePerformanceCounter
}
, new PerformanceCounter[]
{
qpcc
.QueueLengthPerformanceCounter
}
, new Tuple
<
bool
, Stopwatch
, PerformanceCounter
, PerformanceCounter
>[]
{
Tuple.Create
<
bool //before 时是否需要启动
, Stopwatch
, PerformanceCounter
, PerformanceCounter //base
>
(
false
, item.Item1
, qpcc
.QueuedWaitAverageTimerPerformanceCounter
, qpcc
.QueuedWaitAverageBasePerformanceCounter
)
, Tuple.Create
<
bool
, Stopwatch
, PerformanceCounter
, PerformanceCounter
>
(
true
, new Stopwatch()
, qpcc
.DequeueProcessedAverageTimerPerformanceCounter
, qpcc
.DequeueProcessedAverageBasePerformanceCounter
)
}
, () => //try
{
if (Sender.OnDequeue != null)
{
var element = item.Item2;
item = null;
Sender.OnDequeue(element);
}
}
, (x) => //catch
{
reThrowException = false;
return reThrowException;
}
, null //finally
, null
, new PerformanceCounter[]
{
qpcc
.DequeueProcessedPerformanceCounter
, qpcc
.DequeueProcessedRateOfCountsPerSecondPerformanceCounter
}
);
}
#endregion while queue.IsEmpty loop
}
#region wait
Sender._dequeueThreadsProcessorsPool.Enqueue(this);
if (Break)
{
}
if (!Wait.WaitOne(Sender.DequeueIdleSleepSeconds * 1000))
{
}
#endregion wait
#endregion while true loop
}
#endregion
}
, (x) => //catch
{
#region Catch Process
if (Sender.OnCaughtException != null)
{
reThrowException = Sender.OnCaughtException(Sender, x);
}
return reThrowException;
#endregion
}
, (x, y) => //finally
{
#region Finally Process
l = Interlocked.Decrement(ref Sender._concurrentDequeueThreadsCount);
if (l < 0)
{
Interlocked.Exchange(ref Sender._concurrentDequeueThreadsCount, 0);
}
if (Sender.OnDequeueThreadEnd != null)
{
Sender
.OnDequeueThreadEnd
(
string.Format
(
"{0} Threads Count {1},Queue Count {2},Current Thread: {3} at {4}"
, "Threads--"
, l
, Sender._queue.Count
, Thread.CurrentThread.Name
, DateTime.Now.ToString("yyyy-MM-dd HH:mm:ss.fffff")
)
);
}
if (!Break)
{
Sender.StartIncreaseDequeueProcessThreads(1);
}
Break = false;
#endregion
}
, //DecrementCountersAfterCountPerformance:
new PerformanceCounter[]
{
qpcc.DequeueThreadsCountPerformanceCounter
}
, //IncrementCountersAfterCountPerformance:
new PerformanceCounter[]
{
qpcc.DequeueThreadEndPerformanceCounter
}
);
}
}
public void AttachPerformanceCounters
(
string instanceNamePrefix
, string categoryName
, QueuePerformanceCountersContainer performanceCounters
)
{
var process = Process.GetCurrentProcess();
var processName = process.ProcessName;
var instanceName = string.Format
(
"{0}-{1}"
, instanceNamePrefix
, processName
);
PerformanceCounters = performanceCounters;
PerformanceCounters
.AttachPerformanceCountersToProperties(instanceName, categoryName);
_isAttachedPerformanceCounters = true;
}
public int Count
{
get
{
return _queue.Count;
}
}
public long ConcurrentThreadsCount
{
get
{
return _concurrentDequeueThreadsCount;
}
}
private void DecreaseDequeueProcessThreads(int count)
{
Action action;
for (var i = 0; i < count; i++)
{
if (_callbackProcessBreaksActions.TryDequeue(out action))
{
action();
action = null;
}
}
}
public void StartDecreaseDequeueProcessThreads(int count)
{
new Thread
(
new ThreadStart
(
() =>
{
DecreaseDequeueProcessThreads(count);
}
)
).Start();
}
public void StartIncreaseDequeueProcessThreads(int count)
{
new Thread
(
new ThreadStart
(
() =>
{
IncreaseDequeueProcessThreads(count);
}
)
).Start();
}
private void IncreaseDequeueProcessThreads(int count)
{
for (int i = 0; i < count; i++)
{
Interlocked.Increment(ref _concurrentDequeueThreadsCount);
if (_dequeueThreadsProcessorsPool == null)
{
_dequeueThreadsProcessorsPool = new ConcurrentQueue<ThreadProcessor>();
}
var processor = new ThreadProcessor
(
this
, new AutoResetEvent(false)
);
var thread = new Thread
(
new ThreadStart
(
processor.ThreadProcess
)
);
if (_callbackProcessBreaksActions == null)
{
_callbackProcessBreaksActions = new ConcurrentQueue<Action>();
}
var callbackProcessBreakAction = new Action
(
processor.StopOne
);
_callbackProcessBreaksActions.Enqueue(callbackProcessBreakAction);
_dequeueThreadsProcessorsPool.Enqueue(processor);
thread.Start();
}
}
public bool Enqueue(T item)
{
var r = false;
var reThrowException = false;
var enableCount = _isAttachedPerformanceCounters;
PerformanceCountersHelper
.TryCountPerformance
(
enableCount
, reThrowException
, new PerformanceCounter[]
{
PerformanceCounters
.EnqueuePerformanceCounter
, PerformanceCounters
.EnqueueRateOfCountsPerSecondPerformanceCounter
, PerformanceCounters
.QueueLengthPerformanceCounter
}
, null
, null
, () =>
{
Stopwatch stopwatch = null;
if (_isAttachedPerformanceCounters)
{
stopwatch = Stopwatch.StartNew();
}
var element = Tuple.Create<Stopwatch, T>(stopwatch, item);
_queue.Enqueue(element);
r = true;
}
, (x) =>
{
if (OnCaughtException != null)
{
reThrowException = OnCaughtException(this, x);
}
return reThrowException;
}
, (x, y) =>
{
if
(
_dequeueThreadsProcessorsPool != null
&& !_dequeueThreadsProcessorsPool.IsEmpty
)
{
ThreadProcessor processor;
if (_dequeueThreadsProcessorsPool.TryDequeue(out processor))
{
processor.Wait.Set();
processor = null;
//Console.WriteLine("processor = null;");
}
}
}
);
return r;
}
}
}
namespace Microshaoft
{
using System;
using System.Diagnostics;
public class QueuePerformanceCountersContainer
{
#region PerformanceCounters
private PerformanceCounter _enqueuePerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "01.入队列累计总数(笔)"
)
]
public PerformanceCounter EnqueuePerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _enqueuePerformanceCounter, value, 2);
}
get
{
return _enqueuePerformanceCounter;
}
}
private PerformanceCounter _enqueueRateOfCountsPerSecondPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.RateOfCountsPerSecond64
, CounterName = "02.每秒入队列笔数(笔/秒)"
)
]
public PerformanceCounter EnqueueRateOfCountsPerSecondPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _enqueueRateOfCountsPerSecondPerformanceCounter, value, 2);
}
get
{
return _enqueueRateOfCountsPerSecondPerformanceCounter;
}
}
private PerformanceCounter _queueLengthPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "03.队列当前长度(笔)"
)
]
public PerformanceCounter QueueLengthPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _queueLengthPerformanceCounter, value, 2);
}
get
{
return _queueLengthPerformanceCounter;
}
}
private PerformanceCounter _dequeuePerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "04.出队列累计总数(笔)"
)
]
public PerformanceCounter DequeuePerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeuePerformanceCounter, value, 2);
}
get
{
return _dequeuePerformanceCounter;
}
}
private PerformanceCounter _dequeueProcessedRateOfCountsPerSecondPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.RateOfCountsPerSecond64
, CounterName = "05.每秒出队列并完成处理笔数(笔/秒)"
)
]
public PerformanceCounter DequeueProcessedRateOfCountsPerSecondPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueProcessedRateOfCountsPerSecondPerformanceCounter, value, 2);
}
get
{
return _dequeueProcessedRateOfCountsPerSecondPerformanceCounter;
}
}
private PerformanceCounter _dequeueProcessedPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "06.已出队列并完成处理累计总笔数(笔)"
)
]
public PerformanceCounter DequeueProcessedPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueProcessedPerformanceCounter, value, 2);
}
get
{
return _dequeueProcessedPerformanceCounter;
}
}
private PerformanceCounter _dequeueProcessedAverageTimerPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.AverageTimer32
, CounterName = "07.每笔已出队列并完成处理平均耗时秒数(秒/笔)"
)
]
public PerformanceCounter DequeueProcessedAverageTimerPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueProcessedAverageTimerPerformanceCounter, value, 2);
}
get
{
return _dequeueProcessedAverageTimerPerformanceCounter;
}
}
private PerformanceCounter _dequeueProcessedAverageBasePerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.AverageBase
)
]
public PerformanceCounter DequeueProcessedAverageBasePerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueProcessedAverageBasePerformanceCounter, value, 2);
}
get
{
return _dequeueProcessedAverageBasePerformanceCounter;
}
}
private PerformanceCounter _queuedWaitAverageTimerPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.AverageTimer32
, CounterName = "08.每笔入出队列并完成处理平均耗时秒数(秒/笔)"
)
]
public PerformanceCounter QueuedWaitAverageTimerPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _queuedWaitAverageTimerPerformanceCounter, value, 2);
}
get
{
return _queuedWaitAverageTimerPerformanceCounter;
}
}
private PerformanceCounter _queuedWaitAverageBasePerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.AverageBase
)
]
public PerformanceCounter QueuedWaitAverageBasePerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _queuedWaitAverageBasePerformanceCounter, value, 2);
}
get
{
return _queuedWaitAverageBasePerformanceCounter;
}
}
private PerformanceCounter _dequeueThreadStartPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "09.新建出队列处理线程启动次数(次)"
)
]
public PerformanceCounter DequeueThreadStartPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueThreadStartPerformanceCounter, value, 2);
}
get
{
return _dequeueThreadStartPerformanceCounter;
}
}
private PerformanceCounter _dequeueThreadsCountPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "10.当前出队列并发处理线程数(个)"
)
]
public PerformanceCounter DequeueThreadsCountPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueThreadsCountPerformanceCounter, value, 2);
}
get
{
return _dequeueThreadsCountPerformanceCounter;
}
}
private PerformanceCounter _dequeueThreadEndPerformanceCounter;
[
PerformanceCounterDefinitionAttribute
(
CounterType = PerformanceCounterType.NumberOfItems64
, CounterName = "11.出队列处理线程退出次数(次)"
)
]
public PerformanceCounter DequeueThreadEndPerformanceCounter
{
private set
{
ReaderWriterLockSlimHelper
.TryEnterWriterLockSlimWrite<PerformanceCounter>
(ref _dequeueThreadEndPerformanceCounter, value, 2);
}
get
{
return _dequeueThreadEndPerformanceCounter;
}
}
#endregion
// indexer declaration
public PerformanceCounter this[string name]
{
get
{
throw new NotImplementedException();
//return null;
}
}
private bool _isAttachedPerformanceCounters = false;
public void AttachPerformanceCountersToProperties
(
string instanceName
, string categoryName
)
{
if (!_isAttachedPerformanceCounters)
{
var type = this.GetType();
PerformanceCountersHelper
.AttachPerformanceCountersToProperties<QueuePerformanceCountersContainer>
(instanceName, categoryName, this);
}
_isAttachedPerformanceCounters = true;
}
}
}
//=======================================================================================================
//=======================================================================================================
namespace Microshaoft
{
using System;
using System.Diagnostics;
[AttributeUsage(AttributeTargets.Property, AllowMultiple = false, Inherited = false)]
public class PerformanceCounterDefinitionAttribute : Attribute
{
public PerformanceCounterType CounterType;
public string CounterName;
}
}
namespace Microshaoft
{
using System;
using System.Diagnostics;
using System.Threading;
using System.Linq;
public static class PerformanceCountersHelper
{
public static void TryCountPerformance
(
bool enableCount
, bool reThrowException = false
, PerformanceCounter[] IncrementCountersBeforeCountPerformance = null
, PerformanceCounter[] DecrementCountersBeforeCountPerformance = null
, Tuple
<
bool //before时是否已经启动
, Stopwatch
, PerformanceCounter
, PerformanceCounter //base计数器
>[] timerCounters = null
, Action onTryCountPerformanceProcessAction = null
, Func<Exception, bool> onCaughtExceptionCountPerformanceProcessFunc = null
, Action<bool, Exception> onFinallyCountPerformanceProcessAction = null
, PerformanceCounter[] DecrementCountersAfterCountPerformance = null
, PerformanceCounter[] IncrementCountersAfterCountPerformance = null
)
{
if (onTryCountPerformanceProcessAction != null)
{
if (enableCount)
{
#region before
if (IncrementCountersBeforeCountPerformance != null)
{
Array.ForEach
(
IncrementCountersBeforeCountPerformance
, (x) =>
{
var l = x.Increment();
}
);
}
if (DecrementCountersBeforeCountPerformance != null)
{
Array.ForEach
(
DecrementCountersBeforeCountPerformance
, (x) =>
{
var l = x.Decrement();
if (l < 0)
{
x.RawValue = 0;
}
}
);
}
if (timerCounters != null)
{
Array.ForEach
(
timerCounters
, (x) =>
{
if
(
x.Item1
&& x.Item2 != null
)
{
x.Item2.Start();
}
}
);
}
#endregion
}
var needTry = true;
TryCatchFinallyProcessHelper
.TryProcessCatchFinally
(
needTry
, () =>
{
onTryCountPerformanceProcessAction();
}
, reThrowException
, (x) =>
{
if (onCaughtExceptionCountPerformanceProcessFunc != null)
{
reThrowException = onCaughtExceptionCountPerformanceProcessFunc(x);
}
return reThrowException;
}
, (x, y) =>
{
if (enableCount)
{
#region after
if (timerCounters != null)
{
Array.ForEach
(
timerCounters
, (xx) =>
{
if (xx.Item2 != null)
{
Stopwatch stopwatch = xx.Item2;
stopwatch.Stop();
long elapsedTicks = stopwatch.ElapsedTicks;
var counter = xx.Item3;
counter.IncrementBy(elapsedTicks);
stopwatch = null;
counter = xx.Item4; //base
counter.Increment();
}
}
);
}
if (IncrementCountersAfterCountPerformance != null)
{
Array.ForEach
(
IncrementCountersAfterCountPerformance
, (xx) =>
{
var l = xx.Increment();
}
);
}
if (DecrementCountersAfterCountPerformance != null)
{
Array.ForEach
(
DecrementCountersAfterCountPerformance
, (xx) =>
{
var l = xx.Decrement();
if (l < 0)
{
xx.RawValue = 0;
}
}
);
}
#endregion
}
if (onFinallyCountPerformanceProcessAction != null)
{
onFinallyCountPerformanceProcessAction(x, y);
}
}
);
}
}
public static void AttachPerformanceCountersToProperties<T>
(
string performanceCounterInstanceName
, string category
, T target //= default(T)
)
{
var type = typeof(T);
var propertiesList = type.GetProperties().ToList();
propertiesList = propertiesList
.Where
(
(pi) =>
{
var parameters = pi.GetIndexParameters();
return
(
pi.PropertyType == typeof(PerformanceCounter)
&& (parameters == null ? 0 : parameters.Length) <= 0
);
}
).ToList();
if (PerformanceCounterCategory.Exists(category))
{
propertiesList
.ForEach
(
(pi) =>
{
if (PerformanceCounterCategory.CounterExists(pi.Name, category))
{
if (PerformanceCounterCategory.InstanceExists(performanceCounterInstanceName, category))
{
//var pc = new PerformanceCounter(category, pi.Name, instanceName, false);
//pc.InstanceName = instanceName;
//pc.RemoveInstance();
}
}
}
);
//PerformanceCounterCategory.Delete(category);
}
if (!PerformanceCounterCategory.Exists(category))
{
var ccdc = new CounterCreationDataCollection();
propertiesList
.ForEach
(
(pi) =>
{
var propertyName = pi.Name;
var performanceCounterType = PerformanceCounterType.NumberOfItems64;
var performanceCounterName = propertyName;
var attribute
= pi
.GetCustomAttributes(false)
.FirstOrDefault
(
(x) =>
{
return
x as PerformanceCounterDefinitionAttribute
!= null;
}
) as PerformanceCounterDefinitionAttribute;
if (attribute != null)
{
var counterName = attribute.CounterName;
if (!string.IsNullOrEmpty(counterName))
{
performanceCounterName = counterName;
}
var counterType = attribute.CounterType;
//if (counterType != null)
{
performanceCounterType = counterType;
}
}
var ccd = PerformanceCountersHelper
.GetCounterCreationData
(
performanceCounterName
, performanceCounterType
);
ccdc.Add(ccd);
}
);
PerformanceCounterCategory
.Create
(
category
, string.Format("{0} Category Help.", category)
, PerformanceCounterCategoryType.MultiInstance
, ccdc
);
}
propertiesList.ForEach
(
(pi) =>
{
var propertyName = pi.Name;
var performanceCounterType = PerformanceCounterType.NumberOfItems64;
var performanceCounterName = propertyName;
var attribute
= pi
.GetCustomAttributes(false)
.FirstOrDefault
(
(x) =>
{
return
x as PerformanceCounterDefinitionAttribute
!= null;
}
) as PerformanceCounterDefinitionAttribute;
if (attribute != null)
{
var counterName = attribute.CounterName;
if (!string.IsNullOrEmpty(counterName))
{
performanceCounterName = counterName;
}
var counterType = attribute.CounterType;
//if (counterType != null)
{
performanceCounterType = counterType;
}
}
var pc = new PerformanceCounter()
{
CategoryName = category
, CounterName = performanceCounterName
, InstanceLifetime = PerformanceCounterInstanceLifetime.Process
, InstanceName = performanceCounterInstanceName
, ReadOnly = false
, RawValue = 0
};
if (pi.GetGetMethod().IsStatic)
{
var setter = DynamicPropertyAccessor
.CreateSetStaticPropertyValueAction<PerformanceCounter>
(
type
, propertyName
);
setter(pc);
}
else
{
if (target != null)
{
var setter = DynamicPropertyAccessor
.CreateSetPropertyValueAction<PerformanceCounter>
(
type
, propertyName
);
setter(target, pc);
}
}
}
);
}
public static CounterCreationData GetCounterCreationData
(
string counterName
, PerformanceCounterType performanceCounterType
)
{
return
new CounterCreationData()
{
CounterName = counterName
, CounterHelp = string.Format("{0} Help", counterName)
, CounterType = performanceCounterType
};
}
}
}
namespace Microshaoft
{
using System;
using System.Threading;
public static class ReaderWriterLockSlimHelper
{
public static bool TryEnterWriterLockSlimWrite<T>
(
ref T target
, T newTarget
, int enterTimeOutSeconds
)
where T : class
{
bool r = false;
var rwls = new ReaderWriterLockSlim();
int timeOut = Timeout.Infinite;
if (enterTimeOutSeconds >= 0)
{
timeOut = enterTimeOutSeconds * 1000;
}
try
{
r = (rwls.TryEnterWriteLock(timeOut));
if (r)
{
Interlocked.Exchange<T>(ref target, newTarget);
r = true;
}
}
finally
{
if (r)
{
rwls.ExitWriteLock();
}
}
return r;
}
public static bool TryEnterWriterLockSlim
(
Action action
, int enterTimeOutSeconds
)
{
bool r = false;
if (action != null)
{
var rwls = new ReaderWriterLockSlim();
int timeOut = Timeout.Infinite;
if (enterTimeOutSeconds >= 0)
{
timeOut = enterTimeOutSeconds * 1000;
}
try
{
r = (rwls.TryEnterWriteLock(timeOut));
if (r)
{
action();
r = true;
}
}
finally
{
if (r)
{
rwls.ExitWriteLock();
}
}
}
return r;
}
}
}
namespace Microshaoft
{
using System;
using System.Linq;
using System.Linq.Expressions;
using System.Reflection;
public class DynamicPropertyAccessor
{
private static Assembly GetAssemblyByTypeName(string typeName)
{
return
AppDomain
.CurrentDomain
.GetAssemblies()
.First
(
(a) =>
{
return
a
.GetTypes()
.Any
(
(t) =>
{
return
(
t.FullName
== typeName
);
}
);
}
);
}
public static Func<object, object> CreateGetPropertyValueFunc
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateGetPropertyValueFunc(type, propertyName);
}
public static Func<object, object> CreateGetPropertyValueFunc
(
Type type
, string propertyName
)
{
var target = Expression.Parameter(typeof(object));
var castTarget = Expression.Convert(target, type);
var getPropertyValue = Expression.Property(castTarget, propertyName);
var castPropertyValue = Expression.Convert(getPropertyValue, typeof(object));
var lambda = Expression.Lambda<Func<object, object>>(castPropertyValue, target);
return lambda.Compile();
}
public static Func<object, TProperty> CreateGetPropertyValueFunc<TProperty>
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateGetPropertyValueFunc<TProperty>(type, propertyName);
}
public static Func<object, TProperty> CreateGetPropertyValueFunc<TProperty>
(
Type type
, string propertyName
)
{
var target = Expression.Parameter(typeof(object));
var castTarget = Expression.Convert(target, type);
var getPropertyValue = Expression.Property(castTarget, propertyName);
var lambda = Expression.Lambda<Func<object, TProperty>>(getPropertyValue, target);
return lambda.Compile();
}
public static Func<TProperty> CreateGetStaticPropertyValueFunc<TProperty>
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateGetStaticPropertyValueFunc<TProperty>(type, propertyName);
}
public static Func<TProperty> CreateGetStaticPropertyValueFunc<TProperty>
(
Type type
, string propertyName
)
{
Func<TProperty> func = null;
var property = type.GetProperty(propertyName, typeof(TProperty));
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var getPropertyValue = Expression.Property(null, property);
var lambda = Expression.Lambda<Func<TProperty>>(getPropertyValue, null);
func = lambda.Compile();
}
return func;
}
public static Func<object> CreateGetStaticPropertyValueFunc
(
Type type
, string propertyName
)
{
Func<object> func = null;
var property = type.GetProperty(propertyName);
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var getPropertyValue = Expression.Property(null, property);
var castPropertyValue = Expression.Convert(getPropertyValue, typeof(object));
var lambda = Expression.Lambda<Func<object>>(castPropertyValue, null);
func = lambda.Compile();
}
return func;
}
public static Func<object> CreateGetStaticPropertyValueFunc
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateGetStaticPropertyValueFunc(type, propertyName);
}
public static Action<object, object> CreateSetPropertyValueAction
(
Type type
, string propertyName
)
{
Action<object, object> action = null;
var property = type.GetProperty(propertyName);
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var target = Expression.Parameter(typeof(object));
var propertyValue = Expression.Parameter(typeof(object));
var castTarget = Expression.Convert(target, type);
var castPropertyValue = Expression.Convert(propertyValue, property.PropertyType);
var getSetMethod = property.GetSetMethod();
if (getSetMethod == null)
{
getSetMethod = property.GetSetMethod(true);
}
var call = Expression.Call(castTarget, getSetMethod, castPropertyValue);
var lambda = Expression.Lambda<Action<object, object>>(call, target, propertyValue);
action = lambda.Compile();
}
return action;
}
public static Action<object, object> CreateSetPropertyValueAction
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateSetPropertyValueAction(type, propertyName);
}
public static Action<object, TProperty> CreateSetPropertyValueAction<TProperty>
(
Type type
, string propertyName
)
{
Action<object, TProperty> action = null;
var property = type.GetProperty(propertyName);
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var target = Expression.Parameter(typeof(object));
var propertyValue = Expression.Parameter(typeof(TProperty));
var castTarget = Expression.Convert(target, type);
var castPropertyValue = Expression.Convert(propertyValue, property.PropertyType);
var getSetMethod = property.GetSetMethod();
if (getSetMethod == null)
{
getSetMethod = property.GetSetMethod(true);
}
var call = Expression.Call(castTarget, getSetMethod, castPropertyValue);
var lambda = Expression.Lambda<Action<object, TProperty>>(call, target, propertyValue);
action = lambda.Compile();
}
return action;
}
public static Action<object, TProperty> CreateSetPropertyValueAction<TProperty>
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateSetPropertyValueAction<TProperty>(type, propertyName);
}
public static Action<object> CreateSetStaticPropertyValueAction
(
Type type
, string propertyName
)
{
Action<object> action = null;
var property = type.GetProperty(propertyName);
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var propertyValue = Expression.Parameter(typeof(object));
var castPropertyValue = Expression.Convert(propertyValue, property.PropertyType);
var getSetMethod = property.GetSetMethod();
if (getSetMethod == null)
{
getSetMethod = property.GetSetMethod(true);
}
var call = Expression.Call(null, getSetMethod, castPropertyValue);
var lambda = Expression.Lambda<Action<object>>(call, propertyValue);
action = lambda.Compile();
}
return action;
}
public static Action<object> CreateSetStaticPropertyValueAction
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateSetStaticPropertyValueAction(type, propertyName);
}
public static Action<TProperty> CreateSetStaticPropertyValueAction<TProperty>
(
Type type
, string propertyName
)
{
Action<TProperty> action = null;
var property = type.GetProperty(propertyName);
if (property == null)
{
property =
type
.GetProperties()
.ToList()
.FirstOrDefault
(
(x) =>
{
return
(
x.Name.ToLower()
== propertyName.ToLower()
);
}
);
}
if (property != null)
{
var propertyValue = Expression.Parameter(typeof(TProperty));
//var castPropertyValue = Expression.Convert(propertyValue, property.PropertyType);
var getSetMethod = property.GetSetMethod();
if (getSetMethod == null)
{
getSetMethod = property.GetSetMethod(true);
}
var call = Expression.Call(null, getSetMethod, propertyValue);
var lambda = Expression.Lambda<Action<TProperty>>(call, propertyValue);
action = lambda.Compile();
}
return action;
}
public static Action<TProperty> CreateSetStaticPropertyValueAction<TProperty>
(
string typeName
, string propertyName
, bool isTypeFromAssembly = false
)
{
Type type;
if (isTypeFromAssembly)
{
var assembly = GetAssemblyByTypeName(typeName);
type = assembly.GetType(typeName);
}
else
{
type = Type.GetType(typeName);
}
return CreateSetStaticPropertyValueAction<TProperty>(type, propertyName);
}
}
}
namespace Microshaoft
{
using System;
using System.Threading;
public static class GCNotifier
{
public static void CancelForFullGCNotification()
{
GC.CancelFullGCNotification();
}
public static void RegisterForFullGCNotification
(
int maxGenerationThreshold
, int maxLargeObjectHeapThreshold
, int waitOnceSecondsTimeout
, Action<GCNotificationStatus> waitForFullGCApproachProcessAction
, Action<GCNotificationStatus> waitForFullGCCompleteProcessAction
)
{
GC.RegisterForFullGCNotification(maxGenerationThreshold, maxLargeObjectHeapThreshold);
new Thread
(
new ThreadStart
(
() =>
{
while (true)
{
if (waitForFullGCApproachProcessAction != null)
{
var gcNotificationStatus
= GC.WaitForFullGCApproach(1000 * waitOnceSecondsTimeout);
if (gcNotificationStatus != GCNotificationStatus.Timeout)
{
waitForFullGCApproachProcessAction(gcNotificationStatus);
}
}
if (waitForFullGCApproachProcessAction != null)
{
var gcNotificationStatus
= GC.WaitForFullGCComplete(1000 * waitOnceSecondsTimeout);
if (gcNotificationStatus != GCNotificationStatus.Timeout)
{
waitForFullGCCompleteProcessAction(gcNotificationStatus);
}
}
Thread.Sleep(1000);
}
}
)
).Start();
}
}
}
namespace Microshaoft
{
using System;
using System.Diagnostics;
using System.Reflection;
using System.Threading.Tasks;
public static class TryCatchFinallyProcessHelper
{
public static async Task<T> TryProcessCatchFinallyAsync<T>
(
bool needTry
, Func<Task<T>> onTryProcessFunc
, bool reThrowException = false
, Func<Exception, bool> onCaughtExceptionProcessFunc = null
, Action<bool, Exception> onFinallyProcessAction = null
)
{
T r = default(T);
//if (onTryProcessAction != null)
{
if (needTry)
{
Exception exception = null;
var caughtException = false;
try
{
r = await onTryProcessFunc();
return r;
}
catch (Exception e)
{
caughtException = true;
exception = e;
if (onCaughtExceptionProcessFunc != null)
{
reThrowException = onCaughtExceptionProcessFunc(e);
}
if (reThrowException)
{
var currentCalleeMethod = MethodInfo.GetCurrentMethod();
var currentCalleeType = currentCalleeMethod.DeclaringType;
StackTrace stackTrace = new StackTrace();
var callerMethod = stackTrace.GetFrame(1).GetMethod();
var callerType = callerMethod.DeclaringType;
var innerExceptionMessage = string.Format
(
"[{1}]{0}Caught Exception in Caller's [{2}]{0}Rethrow Exception on [{3}]"
, "\r\n\t"
, string.Format("{1}{0}{2}", "::", currentCalleeType, currentCalleeMethod)
, string.Format("{1}{0}{2}", "::", callerType, callerMethod)
, "Catch Exception"
);
throw
new Exception
(
innerExceptionMessage
, e
);
}
return r;
}
finally
{
if (onFinallyProcessAction != null)
{
onFinallyProcessAction(caughtException, exception);
}
}
}
else
{
return await onTryProcessFunc();
}
}
}
public static void TryProcessCatchFinally
(
bool needTry
, Action onTryProcessAction
, bool reThrowException = false
, Func<Exception, bool> onCaughtExceptionProcessFunc = null
, Action<bool, Exception> onFinallyProcessAction = null
)
{
if (onTryProcessAction != null)
{
if (needTry)
{
Exception exception = null;
var caughtException = false;
try
{
onTryProcessAction();
}
catch (Exception e)
{
caughtException = true;
exception = e;
if (onCaughtExceptionProcessFunc != null)
{
reThrowException = onCaughtExceptionProcessFunc(e);
}
if (reThrowException)
{
var currentCalleeMethod = MethodInfo.GetCurrentMethod();
var currentCalleeType = currentCalleeMethod.DeclaringType;
StackTrace stackTrace = new StackTrace();
var callerMethod = stackTrace.GetFrame(1).GetMethod();
var callerType = callerMethod.DeclaringType;
var innerExceptionMessage = string.Format
(
"[{1}]{0}Caught Exception in Caller's [{2}]{0}Rethrow Exception on [{3}]"
, "\r\n\t"
, string.Format("{1}{0}{2}", "::", currentCalleeType, currentCalleeMethod)
, string.Format("{1}{0}{2}", "::", callerType, callerMethod)
, "Catch Exception"
);
throw
new Exception
(
innerExceptionMessage
, e
);
}
}
finally
{
if (onFinallyProcessAction != null)
{
onFinallyProcessAction(caughtException, exception);
}
}
}
else
{
onTryProcessAction();
}
}
}
}
}
|