CounterSample Konstruktory

Definicja

Przestrzeń nazw:

System.Diagnostics

Zestaw:

System.Diagnostics.PerformanceCounter.dll

Pakiet:

System.Diagnostics.PerformanceCounter v8.0.0

Inicjuje CounterSample nowe wystąpienie struktury.

Przeciążenia

CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType)	Inicjuje CounterSample nowe wystąpienie struktury i ustawia CounterTimeStamp właściwość na 0 (zero).
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64)	Inicjuje CounterSample nowe wystąpienie struktury i ustawia CounterTimeStamp właściwość na wartość przekazaną.

CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType)

Źródło:

CounterSample.cs

Inicjuje CounterSample nowe wystąpienie struktury i ustawia CounterTimeStamp właściwość na 0 (zero).

public:
 CounterSample(long rawValue, long baseValue, long counterFrequency, long systemFrequency, long timeStamp, long timeStamp100nSec, System::Diagnostics::PerformanceCounterType counterType);

public CounterSample (long rawValue, long baseValue, long counterFrequency, long systemFrequency, long timeStamp, long timeStamp100nSec, System.Diagnostics.PerformanceCounterType counterType);

new System.Diagnostics.CounterSample : int64 * int64 * int64 * int64 * int64 * int64 * System.Diagnostics.PerformanceCounterType -> System.Diagnostics.CounterSample

Public Sub New (rawValue As Long, baseValue As Long, counterFrequency As Long, systemFrequency As Long, timeStamp As Long, timeStamp100nSec As Long, counterType As PerformanceCounterType)

Parametry

rawValue

Int64

Wartość liczbowa skojarzona z przykładem licznika wydajności.

baseValue

Int64

Opcjonalna, podstawowa wartość nieprzetworzona dla licznika, używana tylko wtedy, gdy próbka jest oparta na wielu licznikach.

counterFrequency

Int64

Częstotliwość odczytywania licznika.

systemFrequency

Int64

Częstotliwość, z jaką system odczytuje z licznika.

timeStamp

Int64

Nieprzetworzona sygnatura czasowa.

timeStamp100nSec

Int64

Surowy, wysokiej wierności sygnatura czasowa.

counterType

PerformanceCounterType

PerformanceCounterType Obiekt wskazujący typ licznika, dla którego ten przykład jest migawką.

Uwagi

Użyj tego konstruktora, aby użyć początkowego przykładu licznika wydajności. Monitor systemu dostarcza wartości tych parametrów automatycznie podczas wywoływania NextSample metody po raz pierwszy.

CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64)

Źródło:

CounterSample.cs

Inicjuje CounterSample nowe wystąpienie struktury i ustawia CounterTimeStamp właściwość na wartość przekazaną.

public:
 CounterSample(long rawValue, long baseValue, long counterFrequency, long systemFrequency, long timeStamp, long timeStamp100nSec, System::Diagnostics::PerformanceCounterType counterType, long counterTimeStamp);

public CounterSample (long rawValue, long baseValue, long counterFrequency, long systemFrequency, long timeStamp, long timeStamp100nSec, System.Diagnostics.PerformanceCounterType counterType, long counterTimeStamp);

new System.Diagnostics.CounterSample : int64 * int64 * int64 * int64 * int64 * int64 * System.Diagnostics.PerformanceCounterType * int64 -> System.Diagnostics.CounterSample

Public Sub New (rawValue As Long, baseValue As Long, counterFrequency As Long, systemFrequency As Long, timeStamp As Long, timeStamp100nSec As Long, counterType As PerformanceCounterType, counterTimeStamp As Long)

Parametry

rawValue

Int64

Wartość liczbowa skojarzona z przykładem licznika wydajności.

baseValue

Int64

Opcjonalna, podstawowa wartość nieprzetworzona dla licznika, używana tylko wtedy, gdy próbka jest oparta na wielu licznikach.

counterFrequency

Int64

Częstotliwość odczytywania licznika.

systemFrequency

Int64

Częstotliwość, z jaką system odczytuje z licznika.

timeStamp

Int64

Nieprzetworzona sygnatura czasowa.

timeStamp100nSec

Int64

Surowy, wysokiej wierności sygnatura czasowa.

counterType

PerformanceCounterType

PerformanceCounterType Obiekt wskazujący typ licznika, dla którego ten przykład jest migawką.

counterTimeStamp

Int64

Czas, w którym pobrano próbkę.

Przykłady

W poniższym przykładzie pokazano, jak zainicjować nową CounterSample strukturę, przekazując wartości dla rawValueparametrów , , baseValue, timeStampsystemFrequencytimeStamp100nSeccounterFrequencycounterTypei .counterTimeStamp Po utworzeniu CounterSample struktury w przykładzie zostaną wyświetlone wartości właściwości w CounterSample oknie konsoli.

PerformanceCounter^ myPerformanceCounter1 = gcnew PerformanceCounter(
   "Processor","% Processor Time","0" );
CounterSample myCounterSample1( 10L, 20L, 30L, 40L, 50L, 60L,
  PerformanceCounterType::AverageCount64 );
Console::WriteLine( "CounterTimeStamp = {0}", myCounterSample1.CounterTimeStamp );

Console::WriteLine( "BaseValue = {0}", myCounterSample1.BaseValue );
Console::WriteLine( "RawValue = {0}", myCounterSample1.RawValue );
Console::WriteLine( "CounterFrequency = {0}", myCounterSample1.CounterFrequency );
Console::WriteLine( "SystemFrequency = {0}", myCounterSample1.SystemFrequency );
Console::WriteLine( "TimeStamp = {0}", myCounterSample1.TimeStamp );
Console::WriteLine( "TimeStamp100nSec = {0}", myCounterSample1.TimeStamp100nSec );
Console::WriteLine( "CounterType = {0}", myCounterSample1.CounterType );
// Hold the results of sample.
myCounterSample1 = myPerformanceCounter1->NextSample();
Console::WriteLine( "BaseValue = {0}", myCounterSample1.BaseValue );
Console::WriteLine( "RawValue = {0}", myCounterSample1.RawValue );
Console::WriteLine( "CounterFrequency = {0}", myCounterSample1.CounterFrequency );
Console::WriteLine( "SystemFrequency = {0}", myCounterSample1.SystemFrequency );
Console::WriteLine( "TimeStamp = {0}", myCounterSample1.TimeStamp );
Console::WriteLine( "TimeStamp100nSec = {0}", myCounterSample1.TimeStamp100nSec );
Console::WriteLine( "CounterType = {0}", myCounterSample1.CounterType );

PerformanceCounter myPerformanceCounter1 = new PerformanceCounter
   ("Processor","% Processor Time", "0");
CounterSample myCounterSample1 = new CounterSample(10L, 20L, 30L, 40L, 50L, 60L,
                     PerformanceCounterType.AverageCount64);
Console.WriteLine("CounterTimeStamp = "+myCounterSample1.CounterTimeStamp);

Console.WriteLine("BaseValue = "+myCounterSample1.BaseValue);
Console.WriteLine("RawValue = "+myCounterSample1.RawValue);
Console.WriteLine("CounterFrequency = "+myCounterSample1.CounterFrequency);
Console.WriteLine("SystemFrequency = "+myCounterSample1.SystemFrequency);
Console.WriteLine("TimeStamp = "+myCounterSample1.TimeStamp);
Console.WriteLine("TimeStamp100nSec = "+myCounterSample1.TimeStamp100nSec);
Console.WriteLine("CounterType = "+myCounterSample1.CounterType);
// Hold the results of sample.
myCounterSample1 = myPerformanceCounter1.NextSample();
Console.WriteLine("BaseValue = "+myCounterSample1.BaseValue);
Console.WriteLine("RawValue = "+myCounterSample1.RawValue);
Console.WriteLine("CounterFrequency = "+myCounterSample1.CounterFrequency);
Console.WriteLine("SystemFrequency = "+myCounterSample1.SystemFrequency);
Console.WriteLine("TimeStamp = "+myCounterSample1.TimeStamp);
Console.WriteLine("TimeStamp100nSec = "+myCounterSample1.TimeStamp100nSec);
Console.WriteLine("CounterType = "+myCounterSample1.CounterType);

Dim myPerformanceCounter1 As New PerformanceCounter("Processor", _
                                            "% Processor Time", "0")
Dim myCounterSample1 As New CounterSample(10&, 20&, 30&, 40&, 50&, 60&, _
                               PerformanceCounterType.AverageCount64)
Console.WriteLine("CounterTimeStamp = " & myCounterSample1.CounterTimeStamp)

Console.WriteLine("BaseValue = " & myCounterSample1.BaseValue)
Console.WriteLine("RawValue = " & myCounterSample1.RawValue)
Console.WriteLine("CounterFrequency = " & myCounterSample1.CounterFrequency)
Console.WriteLine("SystemFrequency = " & myCounterSample1.SystemFrequency)
Console.WriteLine("TimeStamp = " & myCounterSample1.TimeStamp)
Console.WriteLine("TimeStamp100nSec = " & myCounterSample1.TimeStamp100nSec)
Console.WriteLine("CounterType = " & myCounterSample1.CounterType.ToString)
' Hold the results of sample.
myCounterSample1 = myPerformanceCounter1.NextSample()

Console.WriteLine("BaseValue = " & myCounterSample1.BaseValue)
Console.WriteLine("RawValue = " & myCounterSample1.RawValue)
Console.WriteLine("CounterFrequency = " & myCounterSample1.CounterFrequency)
Console.WriteLine("SystemFrequency = " & myCounterSample1.SystemFrequency)
Console.WriteLine("TimeStamp = " & myCounterSample1.TimeStamp)
Console.WriteLine("TimeStamp100nSec = " & myCounterSample1.TimeStamp100nSec)
Console.WriteLine("CounterType = " & myCounterSample1.CounterType.ToString)

PerformanceCounter^ myPerformanceCounter2 =
   gcnew PerformanceCounter( "Processor","% Processor Time","0" );
CounterSample myCounterSample2( 10L, 20L, 30L, 40L, 50L, 60L,
  PerformanceCounterType::AverageCount64,300);
Console::WriteLine( "CounterTimeStamp = {0}", myCounterSample2.CounterTimeStamp );
Console::WriteLine( "BaseValue = {0}", myCounterSample2.BaseValue );
Console::WriteLine( "RawValue = {0}", myCounterSample2.RawValue );
Console::WriteLine( "CounterFrequency = {0}", myCounterSample2.CounterFrequency );
Console::WriteLine( "SystemFrequency = {0}", myCounterSample2.SystemFrequency );
Console::WriteLine( "TimeStamp = {0}", myCounterSample2.TimeStamp );
Console::WriteLine( "TimeStamp100nSec = {0}", myCounterSample2.TimeStamp100nSec );
Console::WriteLine( "CounterType = {0}", myCounterSample2.CounterType );
Console::WriteLine( "CounterTimeStamp = {0}", myCounterSample2.CounterTimeStamp );
// Hold the results of sample.
myCounterSample2 = myPerformanceCounter2->NextSample();
Console::WriteLine( "BaseValue = {0}", myCounterSample2.BaseValue );
Console::WriteLine( "RawValue = {0}", myCounterSample2.RawValue );
Console::WriteLine( "CounterFrequency = {0}", myCounterSample2.CounterFrequency );
Console::WriteLine( "SystemFrequency = {0}", myCounterSample2.SystemFrequency );
Console::WriteLine( "TimeStamp = {0}", myCounterSample2.TimeStamp );
Console::WriteLine( "TimeStamp100nSec = {0}", myCounterSample2.TimeStamp100nSec );
Console::WriteLine( "CounterType = {0}", myCounterSample2.CounterType );
Console::WriteLine( "CounterTimeStamp = {0}", myCounterSample2.CounterTimeStamp );

PerformanceCounter myPerformanceCounter2 = new PerformanceCounter
   ("Processor","% Processor Time", "0");
CounterSample myCounterSample2 = new CounterSample(10L, 20L, 30L, 40L, 50L, 60L,
               PerformanceCounterType.AverageCount64, 300);
Console.WriteLine("CounterTimeStamp = "+myCounterSample2.CounterTimeStamp);
Console.WriteLine("BaseValue = "+myCounterSample2.BaseValue);
Console.WriteLine("RawValue = "+myCounterSample2.RawValue);
Console.WriteLine("CounterFrequency = "+myCounterSample2.CounterFrequency);
Console.WriteLine("SystemFrequency = "+myCounterSample2.SystemFrequency);
Console.WriteLine("TimeStamp = "+myCounterSample2.TimeStamp);
Console.WriteLine("TimeStamp100nSec = "+myCounterSample2.TimeStamp100nSec);
Console.WriteLine("CounterType = "+myCounterSample2.CounterType);
Console.WriteLine("CounterTimeStamp = "+myCounterSample2.CounterTimeStamp);
// Hold the results of sample.
myCounterSample2 = myPerformanceCounter2.NextSample();
Console.WriteLine("BaseValue = "+myCounterSample2.BaseValue);
Console.WriteLine("RawValue = "+myCounterSample2.RawValue);
Console.WriteLine("CounterFrequency = "+myCounterSample2.CounterFrequency);
Console.WriteLine("SystemFrequency = "+myCounterSample2.SystemFrequency);
Console.WriteLine("TimeStamp = "+myCounterSample2.TimeStamp);
Console.WriteLine("TimeStamp100nSec = "+myCounterSample2.TimeStamp100nSec);
Console.WriteLine("CounterType = "+myCounterSample2.CounterType);
Console.WriteLine("CounterTimeStamp = "+myCounterSample2.CounterTimeStamp);

Dim myPerformanceCounter2 As New PerformanceCounter("Processor", _
                                             "% Processor Time", "0")
Dim myCounterSample2 As New CounterSample(10&, 20&, 30&, 40&, 50&, 60&, _
                         PerformanceCounterType.AverageCount64, 300)
Console.WriteLine("CounterTimeStamp = " & myCounterSample2.CounterTimeStamp)
Console.WriteLine("BaseValue = " & myCounterSample2.BaseValue)
Console.WriteLine("RawValue = " & myCounterSample2.RawValue)
Console.WriteLine("CounterFrequency = " & myCounterSample2.CounterFrequency)
Console.WriteLine("SystemFrequency = " & myCounterSample2.SystemFrequency)
Console.WriteLine("TimeStamp = " & myCounterSample2.TimeStamp)
Console.WriteLine("TimeStamp100nSec = " & myCounterSample2.TimeStamp100nSec)
Console.WriteLine("CounterType = " & myCounterSample2.CounterType.ToString)
Console.WriteLine("CounterTimeStamp = " & myCounterSample2.CounterTimeStamp)

' Hold the results of sample.
myCounterSample2 = myPerformanceCounter2.NextSample()
Console.WriteLine("BaseValue = " & myCounterSample2.BaseValue)
Console.WriteLine("RawValue = " & myCounterSample2.RawValue)
Console.WriteLine("CounterFrequency = " & myCounterSample2.CounterFrequency)
Console.WriteLine("SystemFrequency = " & myCounterSample2.SystemFrequency)
Console.WriteLine("TimeStamp = " & myCounterSample2.TimeStamp)
Console.WriteLine("TimeStamp100nSec = " & myCounterSample2.TimeStamp100nSec)
Console.WriteLine("CounterType = " & myCounterSample2.CounterType.ToString)
Console.WriteLine("CounterTimeStamp = " & myCounterSample2.CounterTimeStamp)

Uwagi

Użyj tego konstruktora, aby pobrać przykłady po utworzeniu początkowej próbki licznika wydajności. Monitor systemu dostarcza wartości tych parametrów automatycznie podczas wywoływania NextSample metody.