CounterSample Constructors
Definition
Important
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Initializes a new instance of the CounterSample structure.
Overloads
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType) |
Initializes a new instance of the CounterSample structure and sets the CounterTimeStamp property to 0 (zero). |
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64) |
Initializes a new instance of the CounterSample structure and sets the CounterTimeStamp property to the value that is passed in. |
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType)
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
Initializes a new instance of the CounterSample structure and sets the CounterTimeStamp property to 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)
Parameters
- rawValue
- Int64
The numeric value associated with the performance counter sample.
- baseValue
- Int64
An optional, base raw value for the counter, to use only if the sample is based on multiple counters.
- counterFrequency
- Int64
The frequency with which the counter is read.
- systemFrequency
- Int64
The frequency with which the system reads from the counter.
- timeStamp
- Int64
The raw time stamp.
- timeStamp100nSec
- Int64
The raw, high-fidelity time stamp.
- counterType
- PerformanceCounterType
A PerformanceCounterType object that indicates the type of the counter for which this sample is a snapshot.
Remarks
Use this constructor to take an initial sample of the performance counter. The System Monitor supplies values for these parameters automatically when you call the NextSample method for the first time.
Applies to
CounterSample(Int64, Int64, Int64, Int64, Int64, Int64, PerformanceCounterType, Int64)
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
- Source:
- CounterSample.cs
Initializes a new instance of the CounterSample structure and sets the CounterTimeStamp property to the value that is passed in.
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)
Parameters
- rawValue
- Int64
The numeric value associated with the performance counter sample.
- baseValue
- Int64
An optional, base raw value for the counter, to use only if the sample is based on multiple counters.
- counterFrequency
- Int64
The frequency with which the counter is read.
- systemFrequency
- Int64
The frequency with which the system reads from the counter.
- timeStamp
- Int64
The raw time stamp.
- timeStamp100nSec
- Int64
The raw, high-fidelity time stamp.
- counterType
- PerformanceCounterType
A PerformanceCounterType object that indicates the type of the counter for which this sample is a snapshot.
- counterTimeStamp
- Int64
The time at which the sample was taken.
Examples
The following example demonstrates how to initialize a new CounterSample structure, passing in values for the rawValue
, baseValue
, counterFrequency
, systemFrequency
, timeStamp
, timeStamp100nSec
, counterType
, and counterTimeStamp
parameters. After creating the CounterSample structure, the example displays the property values for the CounterSample in the console window.
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)
Remarks
Use this constructor to take samples after you have already taken an initial sample of the performance counter. The System Monitor supplies values for these parameters automatically when you call the NextSample method.
Applies to
.NET