CounterSample Costruttori
Definizione
Importante
Alcune informazioni sono relative alla release non definitiva del prodotto, che potrebbe subire modifiche significative prima della release definitiva. Microsoft non riconosce alcuna garanzia, espressa o implicita, in merito alle informazioni qui fornite.
Inizializza una nuova istanza della struttura CounterSample.
Overload
| CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType) |
Inizializza una nuova istanza della struttura CounterSample e imposta la proprietà CounterTimeStamp su zero (0). |
| CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64) |
Inizializza una nuova istanza della struttura CounterSample e imposta la proprietà CounterTimeStamp sul valore passato. |
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType)
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
Inizializza una nuova istanza della struttura CounterSample e imposta la proprietà CounterTimeStamp su zero (0).
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.CounterSamplePublic Sub New (rawValue As Long, baseValue As Long, counterFrequency As Long, systemFrequency As Long, timeStamp As Long, timeStamp100nSec As Long, counterType As PerformanceCounterType)Parametri
- rawValue
- Int64
Valore numerico associato al campione del contatore delle prestazioni.
- baseValue
- Int64
Valore base facoltativo non elaborato del contatore, da utilizzare soltanto se il campione si basa su più contatori.
- counterFrequency
- Int64
Frequenza con la quale viene letto il contatore.
- systemFrequency
- Int64
Frequenza con la quale il sistema legge il contatore.
- timeStamp
- Int64
Timestamp non elaborato.
- timeStamp100nSec
- Int64
Timestamp ad alta fedeltà non elaborato.
- counterType
- PerformanceCounterType
Oggetto PerformanceCounterType che indica il tipo di contatore di cui questo campione è uno snapshot.
Commenti
Usare questo costruttore per eseguire un esempio iniziale del contatore delle prestazioni. Monitoraggio sistema fornisce automaticamente i valori per questi parametri quando si chiama il NextSample metodo per la prima volta.
Si applica a
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64)
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
Inizializza una nuova istanza della struttura CounterSample e imposta la proprietà CounterTimeStamp sul valore passato.
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.CounterSamplePublic 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)Parametri
- rawValue
- Int64
Valore numerico associato al campione del contatore delle prestazioni.
- baseValue
- Int64
Valore base facoltativo non elaborato del contatore, da utilizzare soltanto se il campione si basa su più contatori.
- counterFrequency
- Int64
Frequenza con la quale viene letto il contatore.
- systemFrequency
- Int64
Frequenza con la quale il sistema legge il contatore.
- timeStamp
- Int64
Timestamp non elaborato.
- timeStamp100nSec
- Int64
Timestamp ad alta fedeltà non elaborato.
- counterType
- PerformanceCounterType
Oggetto PerformanceCounterType che indica il tipo di contatore di cui questo campione è uno snapshot.
- counterTimeStamp
- Int64
Ora in cui è stato ottenuto il campione.
Esempio
Nell'esempio seguente viene illustrato come inizializzare una nuova CounterSample struttura, passando i valori per i rawValueparametri , baseValuetimeStampsystemFrequencytimeStamp100nSeccounterFrequencycounterTypee .counterTimeStamp Dopo aver creato la CounterSample struttura, nell'esempio vengono visualizzati i valori delle proprietà per la CounterSample finestra della console.
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)
Commenti
Usare questo costruttore per eseguire esempi dopo aver già preso un esempio iniziale del contatore delle prestazioni. Monitoraggio sistema fornisce automaticamente i valori per questi parametri quando si chiama il NextSample metodo.
Si applica a
Commenti e suggerimenti
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