System.Diagnostics.PerformanceCounterType 列挙型
この記事では、この API のリファレンス ドキュメントへの補足的な解説を提供します。
列挙型は PerformanceCounterType 、ネイティブ型に直接マップされるパフォーマンス カウンターの種類を指定します。
一部のカウンターの種類は生データを表し、他のカウンターの種類は 1 つ以上のカウンター サンプルに基づく計算値を表します。 次のカテゴリは、使用可能なカウンターの種類を分類します。
- 平均: 時間の経過に伴う値を測定し、最後の 2 つの測定値の平均を表示します。 関連するサンプルの数を追跡するベース カウンターは、各平均カウンターに関連付けられます。
- 差: 前の測定値から最後の測定値を減算し、差が正の場合は表示します。負の場合は 0 を表示します。
- 瞬時: 最新の測定値を表示します。
- パーセンテージ: 計算値をパーセンテージで表示します。
- レート: 時間の経過に伴うイベント数の増加をサンプリングし、カウント値の変化を時間の変化で除算して、アクティビティの割合を表示します。
パフォーマンス カウンター データをサンプリングする場合、平均を表すカウンター型を使用すると、生データ値が実際に使用するために意味を持つ場合があります。 たとえば、生データ カウンター NumberOfItems64 では、サンプルからサンプルまでかなりランダムなデータを公開できます。 カウンターが返す値の平均計算の数式は (X 0 +X 1 +...+X n)/n になります。各 X i は生のカウンター サンプルです。
レート カウンターは平均カウンターに似ていますが、リソースが使用されるにつれてレートが増加する状況に役立ちます。 平均をすばやく計算する数式は ((X n -X 0)/(T n -T 0)) / 頻度です。各 X i はカウンター サンプルであり、各 T i は対応するサンプルが取得された時間です。 結果は、1 秒あたりの平均使用量です。
マルチタイマー カウンター は、プロセッサやディスクなどのコンポーネントの複数のインスタンスからデータを収集します。
逆カウンター は、コンポーネントがアクティブでない時間を測定し、その測定値からアクティブ時間を導き出します。
Note
特に指定がない限り、時間ベースは秒です。
アプリケーションをインストルメント化する場合 (カスタム パフォーマンス カウンターの作成と書き込み)、計算で使用される付属のベース カウンターに依存するパフォーマンス カウンターの種類を操作している可能性があります。 ベース カウンターは、アプリケーションが使用するコレクション内の関連付けられたカウンターの CounterCreationDataCollection 直後である必要があります。 次の表に、ベース カウンターの種類と、対応するパフォーマンス カウンターの種類を示します。
| ベース カウンターの種類 | パフォーマンス カウンターの種類 |
|---|---|
AverageBase |
AverageTimer32AverageCount64 |
RawBase |
RawFraction |
CounterMultiBase |
CounterMultiTimerCounterMultiTimerInverseCounterMultiTimer100NsCounterMultiTimer100NsInverse |
SampleBase |
SampleFraction |
計算値を表す一部のカウンターで使用される数式を次に示します。
AverageCount64: (N1 - N0)/(B1 - B0)、N 1 と N 0 はパフォーマンス カウンターの読み取り値、B1 と B0 は対応するAverageBase値です。 したがって、分子はサンプル間隔中に処理された項目の数を表し、分母はサンプル間隔中に完了した操作の数を表します。AverageTimer32: ((N1 - N0)/F)/(B1 - B0)、N1 と N0 はパフォーマンス カウンターの読み取り値、B1 と B0 は対応するAverageBase値、F は 1 秒あたりのティック数です。 結果を秒単位で表示できるように、F の値が数式に組み込まれます。 したがって、分子は最後のサンプル間隔中にカウントされたティック数を表し、F はティックの頻度を表し、分母は最後のサンプル間隔の間に完了した操作の数を表します。CounterDelta32: N1 - N0。N1 と N0 はパフォーマンス カウンターの読み取りです。CounterDelta64: N1 - N0。N1 と N0 はパフォーマンス カウンターの読み取りです。CounterMultiTimer: ((N1 - N0) / (D1 - D0)) x 100/B。N1 と N0 はパフォーマンス カウンターの読み取り値、D1 と D0 はシステム パフォーマンス タイマーのティック単位の対応する時間読み取り値であり、変数 B は監視対象コンポーネントのベース カウントを示します (型CounterMultiBaseのベース カウンターを使用)。 したがって、分子は、監視対象コンポーネントがアクティブであったサンプル間隔の部分を表し、分母はサンプル間隔の合計経過時間を表します。CounterMultiTimer100Ns: ((N1 - N0) / (D1 - D0)) x 100/B。N1 と N0 はパフォーマンス カウンターの読み取り値、D1 と D0 は対応する時間読み取り値を 100 ナノ秒単位で表し、変数 B は監視対象コンポーネントの基本カウントを示します (型CounterMultiBaseのベース カウンターを使用)。 したがって、分子は、監視対象コンポーネントがアクティブであったサンプル間隔の部分を表し、分母はサンプル間隔の合計経過時間を表します。CounterMultiTimer100NsInverse: (B - ((N1 - N0) / (D1 - D0))) x 100。分母はサンプル間隔の合計経過時間を表し、分子は監視対象のコンポーネントが非アクティブであった間隔の間の時間を表し、B はタイプCounterMultiBaseのベース カウンターを使用して監視されているコンポーネントの数を表します。CounterMultiTimerInverse: (B- ((N1 - N0) / (D1 - D0))) x 100。分母はサンプル間隔の合計経過時間を表し、分子は監視対象のコンポーネントが非アクティブであった間隔の間の時間を表し、B はタイプCounterMultiBaseのベース カウンターを使用して監視されているコンポーネントの数を表します。CounterTimer: (N1 - N0) / (D1 - D0)、N1 と N0 はパフォーマンス カウンターの読み取り値、D1 と D0 は対応する時間読み取り値です。 したがって、分子は、監視対象コンポーネントがアクティブであったサンプル間隔の部分を表し、分母はサンプル間隔の合計経過時間を表します。CounterTimerInverse: (1- ((N1 - N0) / (D1 - D0))) x 100。ここで、分子は監視対象コンポーネントが非アクティブであった間隔の間の時間を表し、分母はサンプル間隔の合計経過時間を表します。CountPerTimeInterval32: (N1 - N0) / (D1 - D0)、ここで、分子はキュー内の項目の数を表し、分母は最後のサンプル間隔の経過時間を表します。CountPerTimeInterval64: (N1 - N0) / (D1 - D0)、分子はキュー内の項目の数を表し、分母はサンプル間隔の経過時間を表します。ElapsedTime: (D0 - N0) /F。ここで D0 は現在の時刻を表し、N0 はオブジェクトが開始された時間を表し、F は 1 秒で経過した時間単位の数を表します。 結果を秒単位で表示できるように、F の値が数式に組み込まれます。NumberOfItems32:なし。 平均は表示されませんが、収集された生データが表示されます。NumberOfItems64:なし。 平均は表示されませんが、収集された生データが表示されます。NumberOfItemsHEX32:なし。 平均は表示されませんが、収集された生データが表示されます。NumberOfItemsHEX64:なし。 平均は表示されませんが、収集された生データが表示されますRateOfCountsPerSecond32: (N1 - N0) / ((D1 - D0) / F)、N1 と N0 はパフォーマンス カウンターの読み取り値、D1 と D0 は対応する時間読み取り値、F は 1 秒あたりのティック数を表します。 したがって、分子は最後のサンプル間隔中に実行された操作の数を表し、分母は最後のサンプル間隔の間に経過したティック数を表し、F はティックの頻度を表します。 結果を秒単位で表示できるように、F の値が数式に組み込まれます。RateOfCountsPerSecond64: (N1 - N0) / ((D1 - D0) / F)、N1 と N0 はパフォーマンス カウンターの読み取り値、D1 と D0 は対応する時間読み取り値、F は 1 秒あたりのティック数を表します。 したがって、分子は最後のサンプル間隔中に実行された操作の数を表し、分母は最後のサンプル間隔の間に経過したティック数を表し、F はティックの頻度を表します。 結果を秒単位で表示できるように、F の値が数式に組み込まれます。RawFraction: (N0/D0) x 100。D0 は (型RawBaseのベース カウンターを使用して) 測定された属性を表し、N0 はその属性の 1 つのコンポーネントを表します。SampleCounter: (N1 - N0) / ((D1 - D0) / F)、numerator (N) は完了した操作の数を表し、分母 (D) はシステム パフォーマンス タイマーのティック単位で経過時間を表し、F は 1 秒で経過したティック数を表します。 F を数式に組み込んで、結果を秒単位で表示できるようにします。SampleFraction: ((N1 - N0) / (D1 - D0)) x 100。ここで、分子は最後のサンプル間隔における成功した操作の数を表し、分母は、型のカウンターを使用して、サンプル間隔中に完了したすべての操作 (測定された型) の数のSampleBase変化を表します。Timer100Ns: (N1 - N0) / (D1 - D0) x 100。ここで、分子は、監視対象コンポーネントがアクティブであったサンプル間隔の部分を表し、分母はサンプル間隔の合計経過時間を表します。Timer100NsInverse: (1- ((N1 - N0) / (D1 - D0))) x 100。ここで、分子は監視対象コンポーネントが非アクティブであった間隔の間の時間を表し、分母はサンプル間隔の合計経過時間を表します。
例
次の例では、列挙体のカウンター型の一部を PerformanceCounterType 示します。
AverageCount64
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App
{
private static PerformanceCounter avgCounter64Sample;
private static PerformanceCounter avgCounter64SampleBase;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("AverageCounter64SampleCategory"))
{
CounterCreationDataCollection counterDataCollection = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData averageCount64 = new CounterCreationData();
averageCount64.CounterType = PerformanceCounterType.AverageCount64;
averageCount64.CounterName = "AverageCounter64Sample";
counterDataCollection.Add(averageCount64);
// Add the base counter.
CounterCreationData averageCount64Base = new CounterCreationData();
averageCount64Base.CounterType = PerformanceCounterType.AverageBase;
averageCount64Base.CounterName = "AverageCounter64SampleBase";
counterDataCollection.Add(averageCount64Base);
// Create the category.
PerformanceCounterCategory.Create("AverageCounter64SampleCategory",
"Demonstrates usage of the AverageCounter64 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, counterDataCollection);
return (true);
}
else
{
Console.WriteLine("Category exists - AverageCounter64SampleCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counters.
avgCounter64Sample = new PerformanceCounter("AverageCounter64SampleCategory",
"AverageCounter64Sample",
false);
avgCounter64SampleBase = new PerformanceCounter("AverageCounter64SampleCategory",
"AverageCounter64SampleBase",
false);
avgCounter64Sample.RawValue = 0;
avgCounter64SampleBase.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
Console.Write(j + " = " + value);
avgCounter64Sample.IncrementBy(value);
avgCounter64SampleBase.Increment();
if ((j % 10) == 9)
{
OutputSample(avgCounter64Sample.NextSample());
samplesList.Add(avgCounter64Sample.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
// Description - This counter type shows how many items are processed, on average,
// during an operation. Counters of this type display a ratio of the items
// processed (such as bytes sent) to the number of operations completed. The
// ratio is calculated by comparing the number of items processed during the
// last interval to the number of operations completed during the last interval.
// Generic type - Average
// Formula - (N1 - N0) / (D1 - D0), where the numerator (N) represents the number
// of items processed during the last sample interval and the denominator (D)
// represents the number of operations completed during the last two sample
// intervals.
// Average (Nx - N0) / (Dx - D0)
// Example PhysicalDisk\ Avg. Disk Bytes/Transfer
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single numerator = (Single)s1.RawValue - (Single)s0.RawValue;
Single denomenator = (Single)s1.BaseValue - (Single)s0.BaseValue;
Single counterValue = numerator / denomenator;
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App1
Private Shared avgCounter64Sample As PerformanceCounter
Private Shared avgCounter64SampleBase As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the App1lication that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("AverageCounter64SampleCategory") Then
Dim counterDataCollection As New CounterCreationDataCollection()
' Add the counter.
Dim averageCount64 As New CounterCreationData()
averageCount64.CounterType = PerformanceCounterType.AverageCount64
averageCount64.CounterName = "AverageCounter64Sample"
counterDataCollection.Add(averageCount64)
' Add the base counter.
Dim averageCount64Base As New CounterCreationData()
averageCount64Base.CounterType = PerformanceCounterType.AverageBase
averageCount64Base.CounterName = "AverageCounter64SampleBase"
counterDataCollection.Add(averageCount64Base)
' Create the category.
PerformanceCounterCategory.Create("AverageCounter64SampleCategory",
"Demonstrates usage of the AverageCounter64 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, counterDataCollection)
Return True
Else
Console.WriteLine("Category exists - AverageCounter64SampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counters.
avgCounter64Sample = New PerformanceCounter("AverageCounter64SampleCategory", "AverageCounter64Sample", False)
avgCounter64SampleBase = New PerformanceCounter("AverageCounter64SampleCategory", "AverageCounter64SampleBase", False)
avgCounter64Sample.RawValue = 0
avgCounter64SampleBase.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
Console.Write(j.ToString() + " = " + value.ToString())
avgCounter64Sample.IncrementBy(value)
avgCounter64SampleBase.Increment()
If j Mod 10 = 9 Then
OutputSample(avgCounter64Sample.NextSample())
samplesList.Add(avgCounter64Sample.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
' Description - This counter type shows how many items are processed, on average,
' during an operation. Counters of this type display a ratio of the items
' processed (such as bytes sent) to the number of operations completed. The
' ratio is calculated by comparing the number of items processed during the
' last interval to the number of operations completed during the last interval.
' Generic type - Average
' Formula - (N1 - N0) / (D1 - D0), where the numerator (N) represents the number
' of items processed during the last sample interval and the denominator (D)
' represents the number of operations completed during the last two sample
' intervals.
' Average (Nx - N0) / (Dx - D0)
' Example PhysicalDisk\ Avg. Disk Bytes/Transfer
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim numerator As [Single] = CType(s1.RawValue, [Single]) - CType(s0.RawValue, [Single])
Dim denomenator As [Single] = CType(s1.BaseValue, [Single]) - CType(s0.BaseValue, [Single])
Dim counterValue As [Single] = numerator / denomenator
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine((" BaseValue = " + s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " + s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " + s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
AverageTimer32
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App2
{
private static PerformanceCounter PC;
private static PerformanceCounter BPC;
private const String categoryName = "AverageTimer32SampleCategory";
private const String counterName = "AverageTimer32Sample";
private const String baseCounterName = "AverageTimer32SampleBase";
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists(categoryName))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData averageTimer32 = new CounterCreationData();
averageTimer32.CounterType = PerformanceCounterType.AverageTimer32;
averageTimer32.CounterName = counterName;
CCDC.Add(averageTimer32);
// Add the base counter.
CounterCreationData averageTimer32Base = new CounterCreationData();
averageTimer32Base.CounterType = PerformanceCounterType.AverageBase;
averageTimer32Base.CounterName = baseCounterName;
CCDC.Add(averageTimer32Base);
// Create the category.
PerformanceCounterCategory.Create(categoryName,
"Demonstrates usage of the AverageTimer32 performance counter type",
PerformanceCounterCategoryType.SingleInstance, CCDC);
Console.WriteLine("Category created - " + categoryName);
return (true);
}
else
{
Console.WriteLine("Category exists - " + categoryName);
return (false);
}
}
private static void CreateCounters()
{
// Create the counters.
PC = new PerformanceCounter(categoryName,
counterName,
false);
BPC = new PerformanceCounter(categoryName,
baseCounterName,
false);
PC.RawValue = 0;
BPC.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Loop for the samples.
for (int i = 0; i < 10; i++)
{
PC.RawValue = Stopwatch.GetTimestamp();
BPC.IncrementBy(10);
System.Threading.Thread.Sleep(1000);
Console.WriteLine("Next value = " + PC.NextValue().ToString());
samplesList.Add(PC.NextSample());
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSample.Calculate((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//+++++++
// PERF_AVERAGE_TIMER
// Description - This counter type measures the time it takes, on
// average, to complete a process or operation. Counters of this
// type display a ratio of the total elapsed time of the sample
// interval to the number of processes or operations completed
// during that time. This counter type measures time in ticks
// of the system clock. The F variable represents the number of
// ticks per second. The value of F is factored into the equation
// so that the result can be displayed in seconds.
//
// Generic type - Average
//
// Formula - ((N1 - N0) / F) / (D1 - D0), where the numerator (N)
// represents the number of ticks counted during the last
// sample interval, F represents the frequency of the ticks,
// and the denominator (D) represents the number of operations
// completed during the last sample interval.
//
// Average - ((Nx - N0) / F) / (Dx - D0)
//
// Example - PhysicalDisk\ Avg. Disk sec/Transfer
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//+++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Int64 n1 = s1.RawValue;
Int64 n0 = s0.RawValue;
ulong f = (ulong)s1.SystemFrequency;
Int64 d1 = s1.BaseValue;
Int64 d0 = s0.BaseValue;
double numerator = (double)(n1 - n0);
double denominator = (double)(d1 - d0);
Single counterValue = (Single)((numerator / f) / denominator);
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.InteropServices
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App
Private Const categoryName As String = "AverageTimer32SampleCategory"
Private Const counterName As String = "AverageTimer32Sample"
Private Const baseCounterName As String = "AverageTimer32SampleBase"
Private Shared PC As PerformanceCounter
Private Shared BPC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
SetupCategory()
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists(categoryName) Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim averageTimer32 As New CounterCreationData()
averageTimer32.CounterType = PerformanceCounterType.AverageTimer32
averageTimer32.CounterName = counterName
CCDC.Add(averageTimer32)
' Add the base counter.
Dim averageTimer32Base As New CounterCreationData()
averageTimer32Base.CounterType = PerformanceCounterType.AverageBase
averageTimer32Base.CounterName = baseCounterName
CCDC.Add(averageTimer32Base)
' Create the category.
PerformanceCounterCategory.Create( _
categoryName, _
"Demonstrates usage of the AverageTimer32 performance counter type", _
PerformanceCounterCategoryType.SingleInstance, CCDC)
Console.WriteLine("Category created - " + categoryName)
Return True
Else
Console.WriteLine(("Category exists - " + _
categoryName))
Return False
End If
End Function
Private Shared Sub CreateCounters()
' Create the counters.
PC = New PerformanceCounter(categoryName, _
counterName, False)
BPC = New PerformanceCounter(categoryName, _
baseCounterName, False)
PC.RawValue = 0
BPC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Loop for the samples.
Dim i As Integer
For i = 0 To 9
PC.RawValue = Stopwatch.GetTimeStamp()
BPC.IncrementBy(10)
System.Threading.Thread.Sleep(1000)
Console.WriteLine(("Next value = " + PC.NextValue().ToString()))
samplesList.Add(PC.NextSample())
Next i
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
Dim sample1 As CounterSample
Dim sample2 As CounterSample
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
sample1 = CType(samplesList(i), CounterSample)
sample2 = CType(samplesList(i + 1), CounterSample)
OutputSample(sample1)
OutputSample(sample2)
' Use .NET to calculate the counter value.
Console.WriteLine((".NET computed counter value = " _
+ CounterSample.Calculate(sample1, sample2).ToString()))
' Calculate the counter value manually.
Console.WriteLine(("My computed counter value = " _
+ MyComputeCounterValue(sample1, sample2).ToString()))
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//+++++++
' PERF_AVERAGE_TIMER
' Description - This counter type measures the time it takes, on
' average, to complete a process or operation. Counters of this
' type display a ratio of the total elapsed time of the sample
' interval to the number of processes or operations completed
' during that time. This counter type measures time in ticks
' of the system clock. The F variable represents the number of
' ticks per second. The value of F is factored into the equation
' so that the result can be displayed in seconds.
'
' Generic type - Average
'
' Formula - ((N1 - N0) / F) / (D1 - D0), where the numerator (N)
' represents the number of ticks counted during the last
' sample interval, F represents the frequency of the ticks,
' and the denominator (D) represents the number of operations
' completed during the last sample interval.
'
' Average - ((Nx - N0) / F) / (Dx - D0)
'
' Example - PhysicalDisk\ Avg. Disk sec/Transfer
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//+++++++
Private Shared Function MyComputeCounterValue( _
ByVal s0 As CounterSample, _
ByVal s1 As CounterSample) As Single
Dim n1 As Int64 = s1.RawValue
Dim n0 As Int64 = s0.RawValue
Dim f As Decimal = CType(s1.SystemFrequency, Decimal)
Dim d1 As Int64 = s1.BaseValue
Dim d0 As Int64 = s0.BaseValue
Dim numerator As Double = System.Convert.ToDouble(n1 - n0)
Dim denominator As Double = System.Convert.ToDouble(d1 - d0)
Dim counterValue As Single = CType(numerator, Single)
counterValue = counterValue / CType(f, Single)
counterValue = counterValue / CType(denominator, Single)
Return counterValue
End Function
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine("+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Cr _
+ ControlChars.Lf)
Console.WriteLine((" CounterType = " + _
s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + _
s.RawValue.ToString()))
Console.WriteLine((" BaseValue = " _
+ s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + _
s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + _
s.CounterTimeStamp.ToString()))
Console.WriteLine((" SystemFrequency = " + _
s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + _
s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + _
s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
ElapsedTime
using System;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App
{
public static void Main()
{
CollectSamples();
}
public static void CollectSamples()
{
const String categoryName = "ElapsedTimeSampleCategory";
const String counterName = "ElapsedTimeSample";
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if ( !PerformanceCounterCategory.Exists(categoryName) )
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData ETimeData = new CounterCreationData();
ETimeData.CounterType = PerformanceCounterType.ElapsedTime;
ETimeData.CounterName = counterName;
CCDC.Add(ETimeData);
// Create the category.
PerformanceCounterCategory.Create(categoryName,
"Demonstrates ElapsedTime performance counter usage.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
// Return, rerun the application to make use of the new counters.
return;
}
else
{
Console.WriteLine("Category exists - {0}", categoryName);
}
// Create the performance counter.
PerformanceCounter PC = new PerformanceCounter(categoryName,
counterName,
false);
// Initialize the counter.
PC.RawValue = Stopwatch.GetTimestamp();
DateTime Start = DateTime.Now;
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
// Output the values.
if ((j % 10) == 9)
{
Console.WriteLine("NextValue() = " + PC.NextValue().ToString());
Console.WriteLine("Actual elapsed time = " + DateTime.Now.Subtract(Start).ToString());
OutputSample(PC.NextSample());
}
// Reset the counter on every 20th iteration.
if (j % 20 == 0)
{
PC.RawValue = Stopwatch.GetTimestamp();
Start = DateTime.Now;
}
System.Threading.Thread.Sleep(50);
}
Console.WriteLine("Elapsed time = " + DateTime.Now.Subtract(Start).ToString());
}
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.InteropServices
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App2
Public Shared Sub Main()
CollectSamples()
End Sub
Private Shared Sub CollectSamples()
Dim categoryName As String = "ElapsedTimeSampleCategory"
Dim counterName As String = "ElapsedTimeSample"
If Not PerformanceCounterCategory.Exists(categoryName) Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim ETimeData As New CounterCreationData()
ETimeData.CounterType = PerformanceCounterType.ElapsedTime
ETimeData.CounterName = counterName
CCDC.Add(ETimeData)
' Create the category.
PerformanceCounterCategory.Create(categoryName,
"Demonstrates ElapsedTime performance counter usage.",
PerformanceCounterCategoryType.SingleInstance, CCDC)
Else
Console.WriteLine("Category exists - {0}", categoryName)
End If
' Create the counter.
Dim PC As PerformanceCounter
PC = New PerformanceCounter(categoryName, counterName, False)
' Initialize the counter.
PC.RawValue = Stopwatch.GetTimestamp()
Dim Start As DateTime = DateTime.Now
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
' Output the values.
If j Mod 10 = 9 Then
Console.WriteLine(("NextValue() = " _
+ PC.NextValue().ToString()))
Console.WriteLine(("Actual elapsed time = " _
+ DateTime.Now.Subtract(Start).ToString()))
OutputSample(PC.NextSample())
End If
' Reset the counter every 20th iteration.
If j Mod 20 = 0 Then
PC.RawValue = Stopwatch.GetTimestamp()
Start = DateTime.Now
End If
System.Threading.Thread.Sleep(50)
Next j
Console.WriteLine(("Elapsed time = " +
DateTime.Now.Subtract(Start).ToString()))
End Sub
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++")
Console.WriteLine("Sample values - " + ControlChars.Cr _
+ ControlChars.Lf)
Console.WriteLine((" BaseValue = " _
+ s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " +
s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " +
s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " +
s.CounterType.ToString()))
Console.WriteLine((" RawValue = " +
s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " +
s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " +
s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " +
s.TimeStamp100nSec.ToString()))
Console.WriteLine("+++++++")
End Sub
End Class
NumberOfItems32
using System;
using System.Collections;
using System.Collections.Specialized;
using System.Diagnostics;
public class NumberOfItems64
{
private static PerformanceCounter PC;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if ( !PerformanceCounterCategory.Exists("NumberOfItems32SampleCategory") )
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData NOI64 = new CounterCreationData();
NOI64.CounterType = PerformanceCounterType.NumberOfItems64;
NOI64.CounterName = "NumberOfItems32Sample";
CCDC.Add(NOI64);
// Create the category.
PerformanceCounterCategory.Create("NumberOfItems32SampleCategory",
"Demonstrates usage of the NumberOfItems32 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return(true);
}
else
{
Console.WriteLine("Category exists - NumberOfItems32SampleCategory");
return(false);
}
}
private static void CreateCounters()
{
// Create the counter.
PC = new PerformanceCounter("NumberOfItems32SampleCategory",
"NumberOfItems32Sample",
false);
PC.RawValue=0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random( DateTime.Now.Millisecond );
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
Console.Write(j + " = " + value);
PC.IncrementBy(value);
if ((j % 10) == 9)
{
OutputSample(PC.NextSample());
samplesList.Add( PC.NextSample() );
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for(int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample( (CounterSample)samplesList[i] );
OutputSample( (CounterSample)samplesList[i+1] );
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i+1]) );
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i+1]) );
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single counterValue = s1.RawValue;
return(counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class NumberOfItems64
Private Shared PC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the application that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("NumberOfItems32SampleCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim NOI64 As New CounterCreationData()
NOI64.CounterType = PerformanceCounterType.NumberOfItems64
NOI64.CounterName = "NumberOfItems32Sample"
CCDC.Add(NOI64)
' Create the category.
PerformanceCounterCategory.Create("NumberOfItems32SampleCategory", _
"Demonstrates usage of the NumberOfItems32 performance counter type.", _
PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - NumberOfItems32SampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counter.
PC = New PerformanceCounter("NumberOfItems32SampleCategory", "NumberOfItems32Sample", False)
PC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
Console.Write(j.ToString() + " = " + value.ToString())
PC.IncrementBy(value)
If j Mod 10 = 9 Then
OutputSample(PC.NextSample())
samplesList.Add(PC.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim counterValue As [Single] = s1.RawValue
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine(" BaseValue = " + s.BaseValue.ToString())
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency.ToString())
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp.ToString())
Console.WriteLine(" CounterType = " + s.CounterType.ToString())
Console.WriteLine(" RawValue = " + s.RawValue.ToString())
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency.ToString())
Console.WriteLine(" TimeStamp = " + s.TimeStamp.ToString())
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString())
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
NumberOfItems64
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class NumberOfItems64_1
{
private static PerformanceCounter PC;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Perfomance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("NumberOfItems64SampleCategory"))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData NOI64 = new CounterCreationData();
NOI64.CounterType = PerformanceCounterType.NumberOfItems64;
NOI64.CounterName = "NumberOfItems64Sample";
CCDC.Add(NOI64);
// Create the category.
PerformanceCounterCategory.Create("NumberOfItems64SampleCategory",
"Demonstrates usage of the NumberOfItems64 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return (true);
}
else
{
Console.WriteLine("Category exists - NumberOfItems64SampleCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counters.
PC = new PerformanceCounter("NumberOfItems64SampleCategory",
"NumberOfItems64Sample",
false);
PC.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
Console.Write(j + " = " + value);
PC.IncrementBy(value);
if ((j % 10) == 9)
{
OutputSample(PC.NextSample());
samplesList.Add(PC.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single counterValue = s1.RawValue;
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class NumberOfItems64_1
Private Shared PC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the application that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("NumberOfItems64SampleCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim NOI64 As New CounterCreationData()
NOI64.CounterType = PerformanceCounterType.NumberOfItems64
NOI64.CounterName = "NumberOfItems64Sample"
CCDC.Add(NOI64)
' Create the category.
PerformanceCounterCategory.Create("NumberOfItems64SampleCategory",
"Demonstrates usage of the NumberOfItems64_1 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - NumberOfItems64SampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counters.
PC = New PerformanceCounter("NumberOfItems64SampleCategory", "NumberOfItems64Sample", False)
PC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
Console.Write((j.ToString() + " = " + value.ToString()))
PC.IncrementBy(value)
If j Mod 10 = 9 Then
OutputSample(PC.NextSample())
samplesList.Add(PC.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim counterValue As [Single] = s1.RawValue
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine((" BaseValue = " + s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " + s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " + s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
SampleFraction
using System;
using System.Collections;
using System.Collections.Specialized;
using System.Diagnostics;
// Provides a SampleFraction counter to measure the percentage of the user processor
// time for this process to total processor time for the process.
public class App
{
private static PerformanceCounter perfCounter;
private static PerformanceCounter basePerfCounter;
private static Process thisProcess = Process.GetCurrentProcess();
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("SampleFractionCategory"))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData sampleFraction = new CounterCreationData();
sampleFraction.CounterType = PerformanceCounterType.SampleFraction;
sampleFraction.CounterName = "SampleFractionSample";
CCDC.Add(sampleFraction);
// Add the base counter.
CounterCreationData sampleFractionBase = new CounterCreationData();
sampleFractionBase.CounterType = PerformanceCounterType.SampleBase;
sampleFractionBase.CounterName = "SampleFractionSampleBase";
CCDC.Add(sampleFractionBase);
// Create the category.
PerformanceCounterCategory.Create("SampleFractionCategory",
"Demonstrates usage of the SampleFraction performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return (true);
}
else
{
Console.WriteLine("Category exists - SampleFractionCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counters.
perfCounter = new PerformanceCounter("SampleFractionCategory",
"SampleFractionSample",
false);
basePerfCounter = new PerformanceCounter("SampleFractionCategory",
"SampleFractionSampleBase",
false);
perfCounter.RawValue = thisProcess.UserProcessorTime.Ticks;
basePerfCounter.RawValue = thisProcess.TotalProcessorTime.Ticks;
}
private static void CollectSamples(ArrayList samplesList)
{
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
perfCounter.IncrementBy(thisProcess.UserProcessorTime.Ticks);
basePerfCounter.IncrementBy(thisProcess.TotalProcessorTime.Ticks);
if ((j % 10) == 9)
{
OutputSample(perfCounter.NextSample());
samplesList.Add(perfCounter.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
// Description - This counter type provides A percentage counter that shows the
// average ratio of user proccessor time to total processor time during the last
// two sample intervals.
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single numerator = (Single)s1.RawValue - (Single)s0.RawValue;
Single denomenator = (Single)s1.BaseValue - (Single)s0.BaseValue;
Single counterValue = 100 * (numerator / denomenator);
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
' Provides a SampleFraction counter to measure the percentage of the user processor
' time for this process to total processor time for the process.
<SupportedOSPlatform("Windows")>
Public Class App3
Private Shared perfCounter As PerformanceCounter
Private Shared basePerfCounter As PerformanceCounter
Private Shared thisProcess As Process = Process.GetCurrentProcess()
Public Shared Sub Main()
Dim samplesList As New ArrayList()
' If the category does not exist, create the category and exit.
' Performance counters should not be created and immediately used.
' There is a latency time to enable the counters, they should be created
' prior to executing the application that uses the counters.
' Execute this sample a second time to use the category.
If SetupCategory() Then
Return
End If
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("SampleFractionCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim sampleFraction As New CounterCreationData()
sampleFraction.CounterType = PerformanceCounterType.SampleFraction
sampleFraction.CounterName = "SampleFractionSample"
CCDC.Add(sampleFraction)
' Add the base counter.
Dim sampleFractionBase As New CounterCreationData()
sampleFractionBase.CounterType = PerformanceCounterType.SampleBase
sampleFractionBase.CounterName = "SampleFractionSampleBase"
CCDC.Add(sampleFractionBase)
' Create the category.
PerformanceCounterCategory.Create("SampleFractionCategory", "Demonstrates usage of the SampleFraction performance counter type.", PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - SampleFractionCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counters.
perfCounter = New PerformanceCounter("SampleFractionCategory", "SampleFractionSample", False)
basePerfCounter = New PerformanceCounter("SampleFractionCategory", "SampleFractionSampleBase", False)
perfCounter.RawValue = thisProcess.UserProcessorTime.Ticks
basePerfCounter.RawValue = thisProcess.TotalProcessorTime.Ticks
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
perfCounter.IncrementBy(thisProcess.UserProcessorTime.Ticks)
basePerfCounter.IncrementBy(thisProcess.TotalProcessorTime.Ticks)
If j Mod 10 = 9 Then
OutputSample(perfCounter.NextSample())
samplesList.Add(perfCounter.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1)
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)))
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)))
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
' Description - This counter type provides A percentage counter that shows the
' average ratio of user proccessor time to total processor time during the last
' two sample intervals.
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim numerator As [Single] = CType(s1.RawValue, [Single]) - CType(s0.RawValue, [Single])
Dim denomenator As [Single] = CType(s1.BaseValue, [Single]) - CType(s0.BaseValue, [Single])
Dim counterValue As [Single] = 100 * (numerator / denomenator)
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(vbCr + vbLf + "+++++++++++")
Console.WriteLine("Sample values - " + vbCr + vbLf)
Console.WriteLine(" BaseValue = " + s.BaseValue)
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency)
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp)
Console.WriteLine(" CounterType = " + s.CounterType)
Console.WriteLine(" RawValue = " + s.RawValue)
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency)
Console.WriteLine(" TimeStamp = " + s.TimeStamp)
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec)
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
RateOfCountsPerSecond32
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App3
{
private static PerformanceCounter PC;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Perfomance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("RateOfCountsPerSecond32SampleCategory"))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData rateOfCounts32 = new CounterCreationData();
rateOfCounts32.CounterType = PerformanceCounterType.RateOfCountsPerSecond32;
rateOfCounts32.CounterName = "RateOfCountsPerSecond32Sample";
CCDC.Add(rateOfCounts32);
// Create the category.
PerformanceCounterCategory.Create("RateOfCountsPerSecond32SampleCategory",
"Demonstrates usage of the RateOfCountsPerSecond32 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return (true);
}
else
{
Console.WriteLine("Category exists - RateOfCountsPerSecond32SampleCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counter.
PC = new PerformanceCounter("RateOfCountsPerSecond32SampleCategory",
"RateOfCountsPerSecond32Sample",
false);
PC.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Initialize the performance counter.
PC.NextSample();
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
PC.IncrementBy(value);
Console.Write(j + " = " + value);
if ((j % 10) == 9)
{
Console.WriteLine("; NextValue() = " + PC.NextValue().ToString());
OutputSample(PC.NextSample());
samplesList.Add(PC.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
// PERF_COUNTER_COUNTER
// Description - This counter type shows the average number of operations completed
// during each second of the sample interval. Counters of this type
// measure time in ticks of the system clock. The F variable represents
// the number of ticks per second. The value of F is factored into the
// equation so that the result can be displayed in seconds.
//
// Generic type - Difference
//
// Formula - (N1 - N0) / ( (D1 - D0) / F), where the numerator (N) represents the number
// of operations performed during the last sample interval, the denominator
// (D) represents the number of ticks elapsed during the last sample
// interval, and F is the frequency of the ticks.
//
// Average - (Nx - N0) / ((Dx - D0) / F)
//
// Example - System\ File Read Operations/sec
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single numerator = (Single)(s1.RawValue - s0.RawValue);
Single denomenator = (Single)(s1.TimeStamp - s0.TimeStamp) / (Single)s1.SystemFrequency;
Single counterValue = numerator / denomenator;
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App4
Private Shared PC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the App4lication that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("RateOfCountsPerSecond32SampleCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim rateOfCounts32 As New CounterCreationData()
rateOfCounts32.CounterType = PerformanceCounterType.RateOfCountsPerSecond32
rateOfCounts32.CounterName = "RateOfCountsPerSecond32Sample"
CCDC.Add(rateOfCounts32)
' Create the category.
PerformanceCounterCategory.Create("RateOfCountsPerSecond32SampleCategory", _
"Demonstrates usage of the RateOfCountsPerSecond32 performance counter type.", _
PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - RateOfCountsPerSecond32SampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counter.
PC = New PerformanceCounter("RateOfCountsPerSecond32SampleCategory", "RateOfCountsPerSecond32Sample", False)
PC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Initialize the performance counter.
PC.NextSample()
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
PC.IncrementBy(value)
Console.Write((j.ToString() + " = " + value.ToString()))
If j Mod 10 = 9 Then
Console.WriteLine(("; NextValue() = " + PC.NextValue().ToString()))
OutputSample(PC.NextSample())
samplesList.Add(PC.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
' PERF_COUNTER_COUNTER
' Description - This counter type shows the average number of operations completed
' during each second of the sample interval. Counters of this type
' measure time in ticks of the system clock. The F variable represents
' the number of ticks per second. The value of F is factored into the
' equation so that the result can be displayed in seconds.
'
' Generic type - Difference
'
' Formula - (N1 - N0) / ( (D1 - D0) / F), where the numerator (N) represents the number
' of operations performed during the last sample interval, the denominator
' (D) represents the number of ticks elapsed during the last sample
' interval, and F is the frequency of the ticks.
'
' Average - (Nx - N0) / ((Dx - D0) / F)
'
' Example - System\ File Read Operations/sec
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim numerator As [Single] = CType(s1.RawValue - s0.RawValue, [Single])
Dim denomenator As [Single] = CType(s1.TimeStamp - s0.TimeStamp, [Single]) / CType(s1.SystemFrequency, [Single])
Dim counterValue As [Single] = numerator / denomenator
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine((" BaseValue = " + s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " + s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " + s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
RateOfCountsPerSecond64
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App4
{
private static PerformanceCounter PC;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Perfomance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the category.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("RateOfCountsPerSecond64SampleCategory"))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData rateOfCounts64 = new CounterCreationData();
rateOfCounts64.CounterType = PerformanceCounterType.RateOfCountsPerSecond64;
rateOfCounts64.CounterName = "RateOfCountsPerSecond64Sample";
CCDC.Add(rateOfCounts64);
// Create the category.
PerformanceCounterCategory.Create("RateOfCountsPerSecond64SampleCategory",
"Demonstrates usage of the RateOfCountsPerSecond64 performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return (true);
}
else
{
Console.WriteLine("Category exists - RateOfCountsPerSecond64SampleCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counter.
PC = new PerformanceCounter("RateOfCountsPerSecond64SampleCategory",
"RateOfCountsPerSecond64Sample",
false);
PC.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Initialize the performance counter.
PC.NextSample();
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
PC.IncrementBy(value);
Console.Write(j + " = " + value);
if ((j % 10) == 9)
{
Console.WriteLine("; NextValue() = " + PC.NextValue().ToString());
OutputSample(PC.NextSample());
samplesList.Add(PC.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < (samplesList.Count - 1); i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
OutputSample((CounterSample)samplesList[i + 1]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i],
(CounterSample)samplesList[i + 1]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
// PERF_COUNTER_COUNTER
// Description - This counter type shows the average number of operations completed
// during each second of the sample interval. Counters of this type
// measure time in ticks of the system clock. The F variable represents
// the number of ticks per second. The value of F is factored into the
// equation so that the result can be displayed in seconds.
//
// Generic type - Difference
//
// Formula - (N1 - N0) / ( (D1 - D0) / F), where the numerator (N) represents the number
// of operations performed during the last sample interval, the denominator
// (D) represents the number of ticks elapsed during the last sample
// interval, and F is the frequency of the ticks.
//
// Average - (Nx - N0) / ((Dx - D0) / F)
//
// Example - System\ File Read Operations/sec
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample s0, CounterSample s1)
{
Single numerator = (Single)(s1.RawValue - s0.RawValue);
Single denomenator = (Single)(s1.TimeStamp - s0.TimeStamp) / (Single)s1.SystemFrequency;
Single counterValue = numerator / denomenator;
return (counterValue);
}
private static void OutputSample(CounterSample s)
{
Console.WriteLine("\r\n+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App5
Private Shared PC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the App5lication that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("RateOfCountsPerSecond64SampleCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim rateOfCounts64 As New CounterCreationData()
rateOfCounts64.CounterType = PerformanceCounterType.RateOfCountsPerSecond64
rateOfCounts64.CounterName = "RateOfCountsPerSecond64Sample"
CCDC.Add(rateOfCounts64)
' Create the category.
PerformanceCounterCategory.Create("RateOfCountsPerSecond64SampleCategory", _
"Demonstrates usage of the RateOfCountsPerSecond64 performance counter type.", _
PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - RateOfCountsPerSecond64SampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counter.
PC = New PerformanceCounter("RateOfCountsPerSecond64SampleCategory", "RateOfCountsPerSecond64Sample", False)
PC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Initialize the performance counter.
PC.NextSample()
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
PC.IncrementBy(value)
Console.Write((j.ToString() + " = " + value.ToString()))
If j Mod 10 = 9 Then
Console.WriteLine(("; NextValue() = " + PC.NextValue().ToString()))
OutputSample(PC.NextSample())
samplesList.Add(PC.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To (samplesList.Count - 1) - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
OutputSample(CType(samplesList((i + 1)), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + _
CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + _
MyComputeCounterValue(CType(samplesList(i), CounterSample), CType(samplesList((i + 1)), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
' PERF_COUNTER_COUNTER
' Description - This counter type shows the average number of operations completed
' during each second of the sample interval. Counters of this type
' measure time in ticks of the system clock. The F variable represents
' the number of ticks per second. The value of F is factored into the
' equation so that the result can be displayed in seconds.
'
' Generic type - Difference
'
' Formula - (N1 - N0) / ( (D1 - D0) / F), where the numerator (N) represents the number
' of operations performed during the last sample interval, the denominator
' (D) represents the number of ticks elapsed during the last sample
' interval, and F is the frequency of the ticks.
'
' Average - (Nx - N0) / ((Dx - D0) / F)
'
' Example - System\ File Read Operations/sec
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal s0 As CounterSample, ByVal s1 As CounterSample) As [Single]
Dim numerator As [Single] = CType(s1.RawValue - s0.RawValue, [Single])
Dim denomenator As [Single] = CType(s1.TimeStamp - s0.TimeStamp, [Single]) / CType(s1.SystemFrequency, [Single])
Dim counterValue As [Single] = numerator / denomenator
Return counterValue
End Function 'MyComputeCounterValue
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine(ControlChars.Lf + ControlChars.Cr + "+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine((" BaseValue = " + s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " + s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " + s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
RawFraction
using System;
using System.Collections;
using System.Diagnostics;
using System.Runtime.Versioning;
[SupportedOSPlatform("Windows")]
public class App5
{
private static PerformanceCounter PC;
private static PerformanceCounter BPC;
public static void Main()
{
ArrayList samplesList = new ArrayList();
// If the category does not exist, create the category and exit.
// Performance counters should not be created and immediately used.
// There is a latency time to enable the counters, they should be created
// prior to executing the application that uses the counters.
// Execute this sample a second time to use the counters.
if (SetupCategory())
return;
CreateCounters();
CollectSamples(samplesList);
CalculateResults(samplesList);
}
private static bool SetupCategory()
{
if (!PerformanceCounterCategory.Exists("RawFractionSampleCategory"))
{
CounterCreationDataCollection CCDC = new CounterCreationDataCollection();
// Add the counter.
CounterCreationData rf = new CounterCreationData();
rf.CounterType = PerformanceCounterType.RawFraction;
rf.CounterName = "RawFractionSample";
CCDC.Add(rf);
// Add the base counter.
CounterCreationData rfBase = new CounterCreationData();
rfBase.CounterType = PerformanceCounterType.RawBase;
rfBase.CounterName = "RawFractionSampleBase";
CCDC.Add(rfBase);
// Create the category.
PerformanceCounterCategory.Create("RawFractionSampleCategory",
"Demonstrates usage of the RawFraction performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC);
return (true);
}
else
{
Console.WriteLine("Category exists - RawFractionSampleCategory");
return (false);
}
}
private static void CreateCounters()
{
// Create the counters.
PC = new PerformanceCounter("RawFractionSampleCategory",
"RawFractionSample",
false);
BPC = new PerformanceCounter("RawFractionSampleCategory",
"RawFractionSampleBase",
false);
PC.RawValue = 0;
BPC.RawValue = 0;
}
private static void CollectSamples(ArrayList samplesList)
{
Random r = new Random(DateTime.Now.Millisecond);
// Initialize the performance counter.
PC.NextSample();
// Loop for the samples.
for (int j = 0; j < 100; j++)
{
int value = r.Next(1, 10);
Console.Write(j + " = " + value);
// Increment the base every time, because the counter measures the number
// of high hits (raw fraction value) against all the hits (base value).
BPC.Increment();
// Get the % of samples that are 9 or 10 out of all the samples taken.
if (value >= 9)
PC.Increment();
// Copy out the next value every ten times around the loop.
if ((j % 10) == 9)
{
Console.WriteLine("; NextValue() = " + PC.NextValue().ToString());
OutputSample(PC.NextSample());
samplesList.Add(PC.NextSample());
}
else
{
Console.WriteLine();
}
System.Threading.Thread.Sleep(50);
}
}
private static void CalculateResults(ArrayList samplesList)
{
for (int i = 0; i < samplesList.Count; i++)
{
// Output the sample.
OutputSample((CounterSample)samplesList[i]);
// Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " +
CounterSampleCalculator.ComputeCounterValue((CounterSample)samplesList[i]));
// Calculate the counter value manually.
Console.WriteLine("My computed counter value = " +
MyComputeCounterValue((CounterSample)samplesList[i]));
}
}
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
// Formula from MSDN -
// Description - This counter type shows the ratio of a subset to its set as a percentage.
// For example, it compares the number of bytes in use on a disk to the
// total number of bytes on the disk. Counters of this type display the
// current percentage only, not an average over time.
//
// Generic type - Instantaneous, Percentage
// Formula - (N0 / D0), where D represents a measured attribute and N represents one
// component of that attribute.
//
// Average - SUM (N / D) /x
// Example - Paging File\% Usage Peak
//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
private static Single MyComputeCounterValue(CounterSample rfSample)
{
Single numerator = (Single)rfSample.RawValue;
Single denomenator = (Single)rfSample.BaseValue;
Single counterValue = (numerator / denomenator) * 100;
return (counterValue);
}
// Output information about the counter sample.
private static void OutputSample(CounterSample s)
{
Console.WriteLine("+++++++++++");
Console.WriteLine("Sample values - \r\n");
Console.WriteLine(" BaseValue = " + s.BaseValue);
Console.WriteLine(" CounterFrequency = " + s.CounterFrequency);
Console.WriteLine(" CounterTimeStamp = " + s.CounterTimeStamp);
Console.WriteLine(" CounterType = " + s.CounterType);
Console.WriteLine(" RawValue = " + s.RawValue);
Console.WriteLine(" SystemFrequency = " + s.SystemFrequency);
Console.WriteLine(" TimeStamp = " + s.TimeStamp);
Console.WriteLine(" TimeStamp100nSec = " + s.TimeStamp100nSec);
Console.WriteLine("++++++++++++++++++++++");
}
}
Imports System.Collections
Imports System.Collections.Specialized
Imports System.Diagnostics
Imports System.Runtime.Versioning
<SupportedOSPlatform("Windows")>
Public Class App6
Private Shared PC As PerformanceCounter
Private Shared BPC As PerformanceCounter
Public Shared Sub Main()
Dim samplesList As New ArrayList()
'If the category does not exist, create the category and exit.
'Performance counters should not be created and immediately used.
'There is a latency time to enable the counters, they should be created
'prior to executing the App6lication that uses the counters.
'Execute this sample a second time to use the counters.
If Not (SetupCategory()) Then
CreateCounters()
CollectSamples(samplesList)
CalculateResults(samplesList)
End If
End Sub
Private Shared Function SetupCategory() As Boolean
If Not PerformanceCounterCategory.Exists("RawFractionSampleCategory") Then
Dim CCDC As New CounterCreationDataCollection()
' Add the counter.
Dim rf As New CounterCreationData()
rf.CounterType = PerformanceCounterType.RawFraction
rf.CounterName = "RawFractionSample"
CCDC.Add(rf)
' Add the base counter.
Dim rfBase As New CounterCreationData()
rfBase.CounterType = PerformanceCounterType.RawBase
rfBase.CounterName = "RawFractionSampleBase"
CCDC.Add(rfBase)
' Create the category.
PerformanceCounterCategory.Create("RawFractionSampleCategory",
"Demonstrates usage of the RawFraction performance counter type.",
PerformanceCounterCategoryType.SingleInstance, CCDC)
Return True
Else
Console.WriteLine("Category exists - RawFractionSampleCategory")
Return False
End If
End Function 'SetupCategory
Private Shared Sub CreateCounters()
' Create the counters.
PC = New PerformanceCounter("RawFractionSampleCategory", "RawFractionSample", False)
BPC = New PerformanceCounter("RawFractionSampleCategory", "RawFractionSampleBase", False)
PC.RawValue = 0
BPC.RawValue = 0
End Sub
Private Shared Sub CollectSamples(ByVal samplesList As ArrayList)
Dim r As New Random(DateTime.Now.Millisecond)
' Initialize the performance counter.
PC.NextSample()
' Loop for the samples.
Dim j As Integer
For j = 0 To 99
Dim value As Integer = r.Next(1, 10)
Console.Write((j.ToString() + " = " + value.ToString()))
' Increment the base every time, because the counter measures the number
' of high hits (raw fraction value) against all the hits (base value).
BPC.Increment()
' Get the % of samples that are 9 or 10 out of all the samples taken.
If value >= 9 Then
PC.Increment()
End If
' Copy out the next value every ten times around the loop.
If j Mod 10 = 9 Then
Console.WriteLine(("; NextValue() = " + PC.NextValue().ToString()))
OutputSample(PC.NextSample())
samplesList.Add(PC.NextSample())
Else
Console.WriteLine()
End If
System.Threading.Thread.Sleep(50)
Next j
End Sub
Private Shared Sub CalculateResults(ByVal samplesList As ArrayList)
Dim i As Integer
For i = 0 To samplesList.Count - 1
' Output the sample.
OutputSample(CType(samplesList(i), CounterSample))
' Use .NET to calculate the counter value.
Console.WriteLine(".NET computed counter value = " + CounterSampleCalculator.ComputeCounterValue(CType(samplesList(i), CounterSample)).ToString())
' Calculate the counter value manually.
Console.WriteLine("My computed counter value = " + MyComputeCounterValue(CType(samplesList(i), CounterSample)).ToString())
Next i
End Sub
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
' Formula from MSDN -
' Description - This counter type shows the ratio of a subset to its set as a percentage.
' For example, it compares the number of bytes in use on a disk to the
' total number of bytes on the disk. Counters of this type display the
' current percentage only, not an average over time.
'
' Generic type - Instantaneous, Percentage
' Formula - (N0 / D0), where D represents a measured attribute and N represents one
' component of that attribute.
'
' Average - SUM (N / D) /x
' Example - Paging File\% Usage Peak
'++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++//++++++++
Private Shared Function MyComputeCounterValue(ByVal rfSample As CounterSample) As [Single]
Dim numerator As [Single] = CType(rfSample.RawValue, [Single])
Dim denomenator As [Single] = CType(rfSample.BaseValue, [Single])
Dim counterValue As [Single] = numerator / denomenator * 100
Return counterValue
End Function 'MyComputeCounterValue
' Output information about the counter sample.
Private Shared Sub OutputSample(ByVal s As CounterSample)
Console.WriteLine("+++++++++++")
Console.WriteLine("Sample values - " + ControlChars.Lf + ControlChars.Cr)
Console.WriteLine((" BaseValue = " + s.BaseValue.ToString()))
Console.WriteLine((" CounterFrequency = " + s.CounterFrequency.ToString()))
Console.WriteLine((" CounterTimeStamp = " + s.CounterTimeStamp.ToString()))
Console.WriteLine((" CounterType = " + s.CounterType.ToString()))
Console.WriteLine((" RawValue = " + s.RawValue.ToString()))
Console.WriteLine((" SystemFrequency = " + s.SystemFrequency.ToString()))
Console.WriteLine((" TimeStamp = " + s.TimeStamp.ToString()))
Console.WriteLine((" TimeStamp100nSec = " + s.TimeStamp100nSec.ToString()))
Console.WriteLine("++++++++++++++++++++++")
End Sub
End Class
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