Exception コンストラクター

定義

Exception クラスの新しいインスタンスを初期化します。

オーバーロード

Exception()

Exception クラスの新しいインスタンスを初期化します。

Exception(String)

指定したエラー メッセージを使用して、Exception クラスの新しいインスタンスを初期化します。

Exception(SerializationInfo, StreamingContext)
古い.

シリアル化したデータを使用して、Exception クラスの新しいインスタンスを初期化します。

Exception(String, Exception)

指定したエラー メッセージおよびこの例外の原因となった内部例外への参照を使用して、Exception クラスの新しいインスタンスを初期化します。

Exception()

ソース:
Exception.CoreCLR.cs
ソース:
Exception.CoreCLR.cs
ソース:
Exception.CoreCLR.cs

Exception クラスの新しいインスタンスを初期化します。

public:
 Exception();
public Exception ();
Public Sub New ()

次のコード例では、定義済みのメッセージを使用する を Exception 派生させます。 このコードでは、派生クラスと基底 Exception クラスにパラメーターなしのコンストラクターを使用する方法を示します。

// Example for the Exception( ) constructor.
using namespace System;

namespace NDP_UE_CPP
{

   // Derive an exception with a predefined message.
   public ref class NotEvenException: public Exception
   {
   public:
      NotEvenException()
         : Exception( "The argument to a function requiring "
      "even input is not divisible by 2." )
      {}

   };


   // Half throws a base exception if the input is not even.
   int Half( int input )
   {
      if ( input % 2 != 0 )
            throw gcnew Exception;
      else
            return input / 2;
   }


   // Half2 throws a derived exception if the input is not even.
   int Half2( int input )
   {
      if ( input % 2 != 0 )
            throw gcnew NotEvenException;
      else
            return input / 2;
   }


   // CalcHalf calls Half and catches any thrown exceptions.
   void CalcHalf( int input )
   {
      try
      {
         int halfInput = Half( input );
         Console::WriteLine( "Half of {0} is {1}.", input, halfInput );
      }
      catch ( Exception^ ex ) 
      {
         Console::WriteLine( ex->ToString() );
      }

   }


   // CalcHalf2 calls Half2 and catches any thrown exceptions.
   void CalcHalf2( int input )
   {
      try
      {
         int halfInput = Half2( input );
         Console::WriteLine( "Half of {0} is {1}.", input, halfInput );
      }
      catch ( Exception^ ex ) 
      {
         Console::WriteLine( ex->ToString() );
      }

   }

}

int main()
{
   Console::WriteLine( "This example of the Exception( ) constructor "
   "generates the following output." );
   Console::WriteLine( "\nHere, an exception is thrown using the \n"
   "parameterless constructor of the base class.\n" );
   NDP_UE_CPP::CalcHalf( 12 );
   NDP_UE_CPP::CalcHalf( 15 );
   Console::WriteLine( "\nHere, an exception is thrown using the \n"
   "parameterless constructor of a derived class.\n" );
   NDP_UE_CPP::CalcHalf2( 24 );
   NDP_UE_CPP::CalcHalf2( 27 );
}

/*
This example of the Exception( ) constructor generates the following output.

Here, an exception is thrown using the
parameterless constructor of the base class.

Half of 12 is 6.
System.Exception: Exception of type System.Exception was thrown.
   at NDP_UE_CPP.Half(Int32 input)
   at NDP_UE_CPP.CalcHalf(Int32 input)

Here, an exception is thrown using the
parameterless constructor of a derived class.

Half of 24 is 12.
NDP_UE_CPP.NotEvenException: The argument to a function requiring even input is
 not divisible by 2.
   at NDP_UE_CPP.Half2(Int32 input)
   at NDP_UE_CPP.CalcHalf2(Int32 input)
*/
// Example for the Exception( ) constructor.
using System;

namespace NDP_UE_CS
{
    // Derive an exception with a predefined message.
    class NotEvenException : Exception
    {
        public NotEvenException( ) :
            base( "The argument to a function requiring " +
                "even input is not divisible by 2." )
        { }
    }

    class NewExceptionDemo
    {
        public static void Main()
        {
            Console.WriteLine(
                "This example of the Exception( ) constructor " +
                "generates the following output." );
            Console.WriteLine(
                "\nHere, an exception is thrown using the \n" +
                "parameterless constructor of the base class.\n" );

            CalcHalf( 12 );
            CalcHalf( 15 );

            Console.WriteLine(
                "\nHere, an exception is thrown using the \n" +
                "parameterless constructor of a derived class.\n" );

            CalcHalf2( 24 );
            CalcHalf2( 27 );
        }
        
        // Half throws a base exception if the input is not even.
        static int Half( int input )
        {
            if( input % 2 != 0 )
                throw new Exception( );

            else return input / 2;
        }

        // Half2 throws a derived exception if the input is not even.
        static int Half2( int input )
        {
            if( input % 2 != 0 )
                throw new NotEvenException( );

            else return input / 2;
        }

        // CalcHalf calls Half and catches any thrown exceptions.
        static void CalcHalf(int input )
        {
            try
            {
                int halfInput = Half( input );
                Console.WriteLine(
                    "Half of {0} is {1}.", input, halfInput );
            }
            catch( Exception ex )
            {
                Console.WriteLine( ex.ToString( ) );
            }
        }

        // CalcHalf2 calls Half2 and catches any thrown exceptions.
        static void CalcHalf2(int input )
        {
            try
            {
                int halfInput = Half2( input );
                Console.WriteLine(
                    "Half of {0} is {1}.", input, halfInput );
            }
            catch( Exception ex )
            {
                Console.WriteLine( ex.ToString( ) );
            }
        }
    }
}

/*
This example of the Exception( ) constructor generates the following output.

Here, an exception is thrown using the
parameterless constructor of the base class.

Half of 12 is 6.
System.Exception: Exception of type System.Exception was thrown.
   at NDP_UE_CS.NewExceptionDemo.Half(Int32 input)
   at NDP_UE_CS.NewExceptionDemo.CalcHalf(Int32 input)

Here, an exception is thrown using the
parameterless constructor of a derived class.

Half of 24 is 12.
NDP_UE_CS.NotEvenException: The argument to a function requiring even input is
not divisible by 2.
   at NDP_UE_CS.NewExceptionDemo.Half2(Int32 input)
   at NDP_UE_CS.NewExceptionDemo.CalcHalf2(Int32 input)
*/
// Example for the Exception() constructor.
open System

// Derive an exception with a predefined message.
type NotEvenException() =
    inherit Exception "The argument to a function requiring even input is not divisible by 2."

// half throws a base exception if the input is not even.
let half input =
    if input % 2 <> 0 then
        raise (Exception())
    else input / 2

// half2 throws a derived exception if the input is not even.
let half2 input =
    if input % 2 <> 0 then
        raise (NotEvenException())
    else input / 2

// calcHalf calls Half and catches any thrown exceptions.
let calcHalf input =
    try
        let halfInput = half input
        printfn $"Half of {input} is {halfInput}."
    with ex ->
        printfn $"{ex}"

// calcHalf2 calls Half2 and catches any thrown exceptions.
let calcHalf2 input =
    try
        let halfInput = half2 input
        printfn $"Half of {input} is {halfInput}."
    with ex ->
        printfn $"{ex}"

printfn "This example of the Exception() constructor generates the following output." 
printfn "\nHere, an exception is thrown using the \nparameterless constructor of the base class.\n"

calcHalf 12
calcHalf 15

printfn "\nHere, an exception is thrown using the \nparameterless constructor of a derived class.\n"

calcHalf2 24
calcHalf2 27 


// This example of the Exception() constructor generates the following output.
// Here, an exception is thrown using the
// parameterless constructor of the base class.
//
// Half of 12 is 6.
// System.Exception: Exception of type 'System.Exception' was thrown.
//    at NDP_UE_FS.half(Int32 input)
//    at at NDP_UE_FS.calcHalf(Int32 input)
//
// Here, an exception is thrown using the
// parameterless constructor of a derived class.
//
// Half of 24 is 12.
// NDP_UE_FS+NotEvenException: The argument to a function requiring even input is
// not divisible by 2.
//    at NDP_UE_FS.half2(Int32 input)
//    at NDP_UE_FS.calcHalf2(Int32 input)
' Example for the Exception( ) constructor.
Namespace NDP_UE_VB

    ' Derive an exception with a predefined message.
    Class NotEvenException
        Inherits Exception
           
        Public Sub New( )
            MyBase.New( _
                "The argument to a function requiring " & _
                "even input is not divisible by 2." )
        End Sub
    End Class

    Module NewExceptionDemo
       
        Sub Main( )
            Console.WriteLine( _
                "This example of the Exception( ) constructor " & _
                "generates the following output." )
            Console.WriteLine( vbCrLf & _
                "Here, an exception is thrown using the " & vbCrLf & _
                "parameterless constructor of the base class." & _
                vbCrLf )

            CalcHalf( 12 )
            CalcHalf( 15 )
              
            Console.WriteLine(vbCrLf & _
                "Here, an exception is thrown using the " & vbCrLf & _
                "parameterless constructor of a derived class." & _
                vbCrLf )

            CalcHalf2( 24 )
            CalcHalf2( 27 )
        End Sub
           
        ' Half throws a base exception if the input is not even.
        Function Half( input As Integer ) As Integer

            If input Mod 2 <> 0 Then
                Throw New Exception( )
            Else
                Return input / 2
            End If
        End Function ' Half
            
        ' Half2 throws a derived exception if the input is not even.
        Function Half2( input As Integer ) As Integer

            If input Mod 2 <> 0 Then
                Throw New NotEvenException( )
            Else
                Return input / 2
            End If
        End Function ' Half2
            
        ' CalcHalf calls Half and catches any thrown exceptions.
        Sub CalcHalf( input As Integer )

            Try
                Dim halfInput As Integer = Half( input )
                Console.WriteLine( _
                    "Half of {0} is {1}.", input, halfInput )

            Catch ex As Exception
                Console.WriteLine( ex.ToString( ) )
            End Try
        End Sub
           
        ' CalcHalf2 calls Half2 and catches any thrown exceptions.
        Sub CalcHalf2( input As Integer )

            Try
                Dim halfInput As Integer = Half2( input )
                Console.WriteLine( _
                    "Half of {0} is {1}.", input, halfInput )

            Catch ex As Exception
                Console.WriteLine( ex.ToString( ) )
            End Try
        End Sub

    End Module ' NewExceptionDemo
End Namespace ' NDP_UE_VB

' This example of the Exception( ) constructor generates the following output.
' 
' Here, an exception is thrown using the
' parameterless constructor of the base class.
' 
' Half of 12 is 6.
' System.Exception: Exception of type System.Exception was thrown.
'    at NDP_UE_VB.NewExceptionDemo.Half(Int32 input)
'    at NDP_UE_VB.NewExceptionDemo.CalcHalf(Int32 input)
' 
' Here, an exception is thrown using the
' parameterless constructor of a derived class.
' 
' Half of 24 is 12.
' NDP_UE_VB.NotEvenException: The argument to a function requiring even input i
' s not divisible by 2.
'    at NDP_UE_VB.NewExceptionDemo.Half2(Int32 input)
'    at NDP_UE_VB.NewExceptionDemo.CalcHalf2(Int32 input)

注釈

このコンストラクターは、新しいインスタンスの Message プロパティを初期化して、その値として、現在のシステムのカルチャを反映した、エラーを説明するシステム提供のメッセージを指定します。

すべての派生クラスは、このパラメーターなしのコンストラクターを提供する必要があります。 次の表に、Exception のインスタンスに対するプロパティの初期値を示します。

プロパティ
InnerException null 参照 (Visual Basic の場合は Nothing)。
Message システム提供のローカライズされた説明です。

適用対象

Exception(String)

ソース:
Exception.cs
ソース:
Exception.cs
ソース:
Exception.cs

指定したエラー メッセージを使用して、Exception クラスの新しいインスタンスを初期化します。

public:
 Exception(System::String ^ message);
public Exception (string message);
public Exception (string? message);
new Exception : string -> Exception
Public Sub New (message As String)

パラメーター

message
String

エラーを説明するメッセージ。

次のコード例では、特定の条件の を Exception 派生させます。 このコードでは、派生クラスと基底 Exception クラスの両方に対して、呼び出し元指定のメッセージをパラメーターとして受け取るコンストラクターの使用を示します。

// Example for the Exception( String* ) constructor.
using namespace System;

namespace NDP_UE_CPP
{

   // Derive an exception with a specifiable message.
   public ref class NotEvenException: public Exception
   {
   private:
      static String^ notEvenMessage = "The argument to a function requiring "
      "even input is not divisible by 2.";

   public:
      NotEvenException()
         : Exception( notEvenMessage )
      {}

      NotEvenException( String^ auxMessage )
         : Exception( String::Format( "{0} - {1}", auxMessage, notEvenMessage ) )
      {}

   };


   // Half throws a base exception if the input is not even.
   int Half( int input )
   {
      if ( input % 2 != 0 )
            throw gcnew Exception( String::Format( "The argument {0} is not divisible by 2.", input ) );
      else
            return input / 2;
   }


   // Half2 throws a derived exception if the input is not even.
   int Half2( int input )
   {
      if ( input % 2 != 0 )
            throw gcnew NotEvenException( String::Format( "Invalid argument: {0}", input ) );
      else
            return input / 2;
   }


   // CalcHalf calls Half and catches any thrown exceptions.
   void CalcHalf( int input )
   {
      try
      {
         int halfInput = Half( input );
         Console::WriteLine( "Half of {0} is {1}.", input, halfInput );
      }
      catch ( Exception^ ex ) 
      {
         Console::WriteLine( ex->ToString() );
      }

   }


   // CalcHalf2 calls Half2 and catches any thrown exceptions.
   void CalcHalf2( int input )
   {
      try
      {
         int halfInput = Half2( input );
         Console::WriteLine( "Half of {0} is {1}.", input, halfInput );
      }
      catch ( Exception^ ex ) 
      {
         Console::WriteLine( ex->ToString() );
      }

   }

}

int main()
{
   Console::WriteLine( "This example of the Exception( String* )\n"
   "constructor generates the following output." );
   Console::WriteLine( "\nHere, an exception is thrown using the \n"
   "constructor of the base class.\n" );
   NDP_UE_CPP::CalcHalf( 18 );
   NDP_UE_CPP::CalcHalf( 21 );
   Console::WriteLine( "\nHere, an exception is thrown using the \n"
   "constructor of a derived class.\n" );
   NDP_UE_CPP::CalcHalf2( 30 );
   NDP_UE_CPP::CalcHalf2( 33 );
}

/*
This example of the Exception( String* )
constructor generates the following output.

Here, an exception is thrown using the
constructor of the base class.

Half of 18 is 9.
System.Exception: The argument 21 is not divisible by 2.
   at NDP_UE_CPP.Half(Int32 input)
   at NDP_UE_CPP.CalcHalf(Int32 input)

Here, an exception is thrown using the
constructor of a derived class.

Half of 30 is 15.
NDP_UE_CPP.NotEvenException: Invalid argument: 33 - The argument to a function
requiring even input is not divisible by 2.
   at NDP_UE_CPP.Half2(Int32 input)
   at NDP_UE_CPP.CalcHalf2(Int32 input)
*/
// Example for the Exception( string ) constructor.
using System;

namespace NDP_UE_CS2
{
    // Derive an exception with a specifiable message.
    class NotEvenException : Exception
    {
        const string notEvenMessage =
            "The argument to a function requiring " +
            "even input is not divisible by 2.";

        public NotEvenException( ) :
            base( notEvenMessage )
        { }

        public NotEvenException( string auxMessage ) :
            base( String.Format( "{0} - {1}",
                auxMessage, notEvenMessage ) )
        { }
    }

    class NewSExceptionDemo
    {
        public static void Main()
        {
            Console.WriteLine(
                "This example of the Exception( string )\n" +
                "constructor generates the following output." );
            Console.WriteLine(
                "\nHere, an exception is thrown using the \n" +
                "constructor of the base class.\n" );

            CalcHalf( 18 );
            CalcHalf( 21 );

            Console.WriteLine(
                "\nHere, an exception is thrown using the \n" +
                "constructor of a derived class.\n" );

            CalcHalf2( 30 );
            CalcHalf2( 33 );
        }
        
        // Half throws a base exception if the input is not even.
        static int Half( int input )
        {
            if( input % 2 != 0 )
                throw new Exception( String.Format(
                    "The argument {0} is not divisible by 2.",
                    input ) );

            else return input / 2;
        }

        // Half2 throws a derived exception if the input is not even.
        static int Half2( int input )
        {
            if( input % 2 != 0 )
                throw new NotEvenException(
                    String.Format( "Invalid argument: {0}", input ) );

            else return input / 2;
        }

        // CalcHalf calls Half and catches any thrown exceptions.
        static void CalcHalf(int input )
        {
            try
            {
                int halfInput = Half( input );
                Console.WriteLine(
                    "Half of {0} is {1}.", input, halfInput );
            }
            catch( Exception ex )
            {
                Console.WriteLine( ex.ToString( ) );
            }
        }

        // CalcHalf2 calls Half2 and catches any thrown exceptions.
        static void CalcHalf2(int input )
        {
            try
            {
                int halfInput = Half2( input );
                Console.WriteLine(
                    "Half of {0} is {1}.", input, halfInput );
            }
            catch( Exception ex )
            {
                Console.WriteLine( ex.ToString( ) );
            }
        }
    }
}

/*
This example of the Exception( string )
constructor generates the following output.

Here, an exception is thrown using the
constructor of the base class.

Half of 18 is 9.
System.Exception: The argument 21 is not divisible by 2.
   at NDP_UE_CS.NewSExceptionDemo.Half(Int32 input)
   at NDP_UE_CS.NewSExceptionDemo.CalcHalf(Int32 input)

Here, an exception is thrown using the
constructor of a derived class.

Half of 30 is 15.
NDP_UE_CS.NotEvenException: Invalid argument: 33 - The argument to a function r
equiring even input is not divisible by 2.
   at NDP_UE_CS.NewSExceptionDemo.Half2(Int32 input)
   at NDP_UE_CS.NewSExceptionDemo.CalcHalf2(Int32 input)
*/
// Example for the Exception(string) constructor.
open System

let notEvenMessage = "The argument to a function requiring even input is not divisible by 2."

// Derive an exception with a specifiable message.
type NotEvenException =
    inherit Exception
    new () = { inherit Exception(notEvenMessage) }
    new (auxMessage) = { inherit Exception($"{auxMessage} - {notEvenMessage}") }

// half throws a base exception if the input is not even.
let half input =
    if input % 2 <> 0 then
        raise (Exception $"The argument {input} is not divisible by 2.")
    else input / 2

// half2 throws a derived exception if the input is not even.
let half2 input =
    if input % 2 <> 0 then
        raise (NotEvenException $"Invalid argument: {input}")
    else input / 2

// calcHalf calls Half and catches any thrown exceptions.
let calcHalf input =
    try
        let halfInput = half input
        printfn $"Half of {input} is {halfInput}."
    with ex ->
        printfn $"{ex}"

// calcHalf2 calls Half2 and catches any thrown exceptions.
let calcHalf2 input =
    try
        let halfInput = half2 input
        printfn $"Half of {input} is {halfInput}."
    with ex ->
        printfn $"{ex}"

printfn "This example of the Exception(string)\nconstructor generates the following output."
printfn "\nHere, an exception is thrown using the \nconstructor of the base class.\n"

calcHalf 18
calcHalf 21

printfn "\nHere, an exception is thrown using the \nconstructor of a derived class.\n"

calcHalf2 30
calcHalf2 33


// This example of the Exception(string)
// constructor generates the following output.
//
// Here, an exception is thrown using the
// constructor of the base class.
//
// Half of 18 is 9.
// System.Exception: The argument 21 is not divisible by 2.
//    at NDP_UE_FS_2.half(Int32 input)
//    at NDP_UE_FS_2.calcHalf(Int32 input)
//
// Here, an exception is thrown using the
// constructor of a derived class.
//
// Half of 30 is 15.
// NDP_UE_FS_2+NotEvenException: Invalid argument: 33 - The argument to a function r
// equiring even input is not divisible by 2.
//    at NDP_UE_FS_2.half2(Int32 input)
//    at NDP_UE_FS_2.calcHalf2(Int32 input)
' Example for the Exception( String ) constructor( String ).
Namespace NDP_UE_VB

    ' Derive an exception with a specifiable message.
    Class NotEvenException
        Inherits Exception

        Private Const notEvenMessage As String = _
            "The argument to a function requiring " & _
            "even input is not divisible by 2."
           
        Public Sub New()
            MyBase.New(notEvenMessage)
        End Sub
           
        Public Sub New(auxMessage As String)
            MyBase.New(String.Format("{0} - {1}", _
                auxMessage, notEvenMessage))
        End Sub
    End Class

    Module NewSExceptionDemo
       
        Sub Main()
            Console.WriteLine( _
                "This example of the Exception( String )" & vbCrLf & _
                "constructor generates the following output." )
            Console.WriteLine( vbCrLf & _
                "Here, an exception is thrown using the " & vbCrLf & _
                "constructor of the base class." & vbCrLf )

            CalcHalf(18)
            CalcHalf(21)
              
            Console.WriteLine(vbCrLf & _
                "Here, an exception is thrown using the " & vbCrLf & _
                "constructor of a derived class." & vbCrLf )

            CalcHalf2(30)
            CalcHalf2(33)
        End Sub
           
        ' Half throws a base exception if the input is not even.
        Function Half(input As Integer) As Integer

            If input Mod 2 <> 0 Then
                Throw New Exception( String.Format( _
                    "The argument {0} is not divisible by 2.", _
                    input ) )
            Else
                Return input / 2
            End If
        End Function ' Half
            
        ' Half2 throws a derived exception if the input is not even.
        Function Half2(input As Integer) As Integer

            If input Mod 2 <> 0 Then
                Throw New NotEvenException( _
                    String.Format( "Invalid argument: {0}", input ) )
            Else
                Return input / 2
            End If
        End Function ' Half2
            
        ' CalcHalf calls Half and catches any thrown exceptions.
        Sub CalcHalf(input As Integer)

            Try
                Dim halfInput As Integer = Half(input)
                Console.WriteLine( _
                    "Half of {0} is {1}.", input, halfInput )

            Catch ex As Exception
                Console.WriteLine( ex.ToString( ) )
            End Try
        End Sub
           
           
        ' CalcHalf2 calls Half2 and catches any thrown exceptions.
        Sub CalcHalf2( input As Integer )

            Try
                Dim halfInput As Integer = Half2( input )
                Console.WriteLine( _
                    "Half of {0} is {1}.", input, halfInput )

            Catch ex As Exception
                Console.WriteLine( ex.ToString( ) )
            End Try
        End Sub

    End Module ' NewSExceptionDemo
End Namespace ' NDP_UE_VB

' This example of the Exception( String )
' constructor generates the following output.
' 
' Here, an exception is thrown using the
' constructor of the base class.
' 
' Half of 18 is 9.
' System.Exception: The argument 21 is not divisible by 2.
'    at NDP_UE_VB.NewSExceptionDemo.Half(Int32 input)
'    at NDP_UE_VB.NewSExceptionDemo.CalcHalf(Int32 input)
' 
' Here, an exception is thrown using the
' constructor of a derived class.
' 
' Half of 30 is 15.
' NDP_UE_VB.NotEvenException: Invalid argument: 33 - The argument to a function
'  requiring even input is not divisible by 2.
'    at NDP_UE_VB.NewSExceptionDemo.Half2(Int32 input)
'    at NDP_UE_VB.NewSExceptionDemo.CalcHalf2(Int32 input)

注釈

このコンストラクターは、 パラメーターを Message 使用して新しいインスタンスの プロパティを message 初期化します。 パラメーターが の message 場合、 nullこれはコンストラクターの呼び出しと Exception 同じです。

次の表に、Exception のインスタンスに対するプロパティの初期値を示します。

プロパティ
InnerException null 参照 (Visual Basic の場合は Nothing)。
Message エラー メッセージ文字列。

適用対象

Exception(SerializationInfo, StreamingContext)

ソース:
Exception.CoreCLR.cs
ソース:
Exception.CoreCLR.cs
ソース:
Exception.CoreCLR.cs

注意事項

This API supports obsolete formatter-based serialization. It should not be called or extended by application code.

シリアル化したデータを使用して、Exception クラスの新しいインスタンスを初期化します。

protected:
 Exception(System::Runtime::Serialization::SerializationInfo ^ info, System::Runtime::Serialization::StreamingContext context);
protected Exception (System.Runtime.Serialization.SerializationInfo info, System.Runtime.Serialization.StreamingContext context);
[System.Obsolete("This API supports obsolete formatter-based serialization. It should not be called or extended by application code.", DiagnosticId="SYSLIB0051", UrlFormat="https://aka.ms/dotnet-warnings/{0}")]
protected Exception (System.Runtime.Serialization.SerializationInfo info, System.Runtime.Serialization.StreamingContext context);
new Exception : System.Runtime.Serialization.SerializationInfo * System.Runtime.Serialization.StreamingContext -> Exception
[<System.Obsolete("This API supports obsolete formatter-based serialization. It should not be called or extended by application code.", DiagnosticId="SYSLIB0051", UrlFormat="https://aka.ms/dotnet-warnings/{0}")>]
new Exception : System.Runtime.Serialization.SerializationInfo * System.Runtime.Serialization.StreamingContext -> Exception
Protected Sub New (info As SerializationInfo, context As StreamingContext)

パラメーター

info
SerializationInfo

スローされている例外に関するシリアル化済みオブジェクト データを保持している SerializationInfo

context
StreamingContext

転送元または転送先についてのコンテキスト情報を含む StreamingContext です。

属性

例外

infonullです。

クラス名が null であるか、HResult が 0 です。

次のコード例では、派生シリアル化可能クラス Exception を定義します。 このコードでは、強制的に 0 除算エラーが発生し、 (SerializationInfo, StreamingContext) コンストラクターを使用して派生例外のインスタンスが作成されます。 このコードでは、インスタンスをファイルにシリアル化し、ファイルを新しい例外に逆シリアル化してスローし、例外のデータをキャッチして表示します。

#using <System.Runtime.Serialization.Formatters.Soap.dll>

using namespace System;
using namespace System::IO;
using namespace System::Runtime::Serialization;
using namespace System::Runtime::Serialization::Formatters::Soap;

// Define a serializable derived exception class.

[Serializable]
ref class SecondLevelException: public Exception, public ISerializable
{
public:

   // This public constructor is used by class instantiators.
   SecondLevelException( String^ message, Exception^ inner )
      : Exception( message, inner )
   {
      HelpLink = "http://MSDN.Microsoft.com";
      Source = "Exception_Class_Samples";
   }


protected:

   // This protected constructor is used for deserialization.
   SecondLevelException( SerializationInfo^ info, StreamingContext context )
      : Exception( info, context )
   {}


public:

   // GetObjectData performs a custom serialization.
   [System::Security::Permissions::SecurityPermissionAttribute
   (System::Security::Permissions::SecurityAction::LinkDemand, 
   Flags=System::Security::Permissions::SecurityPermissionFlag::SerializationFormatter)]
   virtual void GetObjectData( SerializationInfo^ info, StreamingContext context ) override
   {
      
      // Change the case of two properties, and then use the 
      // method of the base class.
      HelpLink = HelpLink->ToLower();
      Source = Source->ToUpperInvariant();
      Exception::GetObjectData( info, context );
   }

};

int main()
{
   Console::WriteLine( "This example of the Exception constructor "
   "and Exception.GetObjectData\nwith Serialization"
   "Info and StreamingContext parameters "
   "generates \nthe following output.\n" );
   try
   {
      
      // This code forces a division by 0 and catches the 
      // resulting exception.
      try
      {
         int zero = 0;
         int ecks = 1 / zero;
      }
      catch ( Exception^ ex ) 
      {
         
         // Create a new exception to throw again.
         SecondLevelException^ newExcept = gcnew SecondLevelException( "Forced a division by 0 and threw "
         "another exception.",ex );
         Console::WriteLine( "Forced a division by 0, caught the "
         "resulting exception, \n"
         "and created a derived exception:\n" );
         Console::WriteLine( "HelpLink: {0}", newExcept->HelpLink );
         Console::WriteLine( "Source:   {0}", newExcept->Source );
         
         // This FileStream is used for the serialization.
         FileStream^ stream = gcnew FileStream( "NewException.dat",FileMode::Create );
         try
         {
            
            // Serialize the derived exception.
            SoapFormatter^ formatter = gcnew SoapFormatter( nullptr,StreamingContext(StreamingContextStates::File) );
            formatter->Serialize( stream, newExcept );
            
            // Rewind the stream and deserialize the 
            // exception.
            stream->Position = 0;
            SecondLevelException^ deserExcept = dynamic_cast<SecondLevelException^>(formatter->Deserialize( stream ));
            Console::WriteLine( "\nSerialized the exception, and then "
            "deserialized the resulting stream "
            "into a \nnew exception. "
            "The deserialization changed the case "
            "of certain properties:\n" );
            
            // Throw the deserialized exception again.
            throw deserExcept;
         }
         catch ( SerializationException^ se ) 
         {
            Console::WriteLine( "Failed to serialize: {0}", se->ToString() );
         }
         finally
         {
            stream->Close();
         }

      }

   }
   catch ( Exception^ ex ) 
   {
      Console::WriteLine( "HelpLink: {0}", ex->HelpLink );
      Console::WriteLine( "Source:   {0}", ex->Source );
      Console::WriteLine();
      Console::WriteLine( ex->ToString() );
   }

}

/*
This example of the Exception constructor and Exception.GetObjectData
with SerializationInfo and StreamingContext parameters generates
the following output.

Forced a division by 0, caught the resulting exception,
and created a derived exception:

HelpLink: http://MSDN.Microsoft.com
Source:   Exception_Class_Samples

Serialized the exception, and then deserialized the resulting stream into a
new exception. The deserialization changed the case of certain properties:

HelpLink: http://msdn.microsoft.com
Source:   EXCEPTION_CLASS_SAMPLES

SecondLevelException: Forced a division by 0 and threw another exception. ---> S
ystem.DivideByZeroException: Attempted to divide by zero.
   at main()
   --- End of inner exception stack trace ---
   at main()

*/
using System;
using System.IO;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters.Soap;

// Define a serializable derived exception class.
[Serializable]
class SecondLevelException : Exception, ISerializable
{
    // This public constructor is used by class instantiators.
    public SecondLevelException(string message, Exception inner) :
        base(message, inner)
    {
        HelpLink = "http://MSDN.Microsoft.com";
        Source = "Exception_Class_Samples";
    }

    // This protected constructor is used for deserialization.
    protected SecondLevelException(SerializationInfo info,
        StreamingContext context) :
            base(info, context)
    { }

    // GetObjectData performs a custom serialization.
    public override void GetObjectData(SerializationInfo info,
        StreamingContext context)
    {
        // Change the case of two properties, and then use the
        // method of the base class.
        HelpLink = HelpLink.ToLower();
        Source = Source.ToUpperInvariant();

        base.GetObjectData(info, context);
    }
}

class SerializationDemo
{
    public static void Main()
    {
        Console.WriteLine(
            "This example of the Exception constructor " +
            "and Exception.GetObjectData\nwith Serialization" +
            "Info and StreamingContext parameters " +
            "generates \nthe following output.\n");

        try
        {
            // This code forces a division by 0 and catches the
            // resulting exception.
            try
            {
                int zero = 0;
                int ecks = 1 / zero;
            }
            catch (Exception ex)
            {
                // Create a new exception to throw again.
                SecondLevelException newExcept =
                    new SecondLevelException(
                        "Forced a division by 0 and threw " +
                        "another exception.", ex);

                Console.WriteLine(
                    "Forced a division by 0, caught the " +
                    "resulting exception, \n" +
                    "and created a derived exception:\n");
                Console.WriteLine("HelpLink: {0}",
                    newExcept.HelpLink);
                Console.WriteLine("Source:   {0}",
                    newExcept.Source);

                // This FileStream is used for the serialization.
                FileStream stream =
                    new FileStream("NewException.dat",
                        FileMode.Create);

                try
                {
                    // Serialize the derived exception.
                    SoapFormatter formatter =
                        new SoapFormatter(null,
                            new StreamingContext(
                                StreamingContextStates.File));
                    formatter.Serialize(stream, newExcept);

                    // Rewind the stream and deserialize the
                    // exception.
                    stream.Position = 0;
                    SecondLevelException deserExcept =
                        (SecondLevelException)
                            formatter.Deserialize(stream);

                    Console.WriteLine(
                        "\nSerialized the exception, and then " +
                        "deserialized the resulting stream " +
                        "into a \nnew exception. " +
                        "The deserialization changed the case " +
                        "of certain properties:\n");

                    // Throw the deserialized exception again.
                    throw deserExcept;
                }
                catch (SerializationException se)
                {
                    Console.WriteLine("Failed to serialize: {0}",
                        se.ToString());
                }
                finally
                {
                    stream.Close();
                }
            }
        }
        catch (Exception ex)
        {
            Console.WriteLine("HelpLink: {0}", ex.HelpLink);
            Console.WriteLine("Source:   {0}", ex.Source);

            Console.WriteLine();
            Console.WriteLine(ex.ToString());
        }
    }
}
/*
This example displays the following output.

Forced a division by 0, caught the resulting exception,
and created a derived exception:

HelpLink: http://MSDN.Microsoft.com
Source:   Exception_Class_Samples

Serialized the exception, and then deserialized the resulting stream into a
new exception. The deserialization changed the case of certain properties:

HelpLink: http://msdn.microsoft.com
Source:   EXCEPTION_CLASS_SAMPLES

NDP_UE_CS.SecondLevelException: Forced a division by 0 and threw another except
ion. ---> System.DivideByZeroException: Attempted to divide by zero.
   at NDP_UE_CS.SerializationDemo.Main()
   --- End of inner exception stack trace ---
   at NDP_UE_CS.SerializationDemo.Main()
*/
open System
open System.IO
open System.Runtime.Serialization
open System.Runtime.Serialization.Formatters.Soap
open System.Security.Permissions

 // Define a serializable derived exception class.
 [<Serializable>]
 type SecondLevelException =
    inherit Exception

    interface ISerializable with
        // GetObjectData performs a custom serialization.
        member this.GetObjectData(info: SerializationInfo, context: StreamingContext) =
            // Change the case of two properties, and then use the
            // method of the base class.
            this.HelpLink <- this.HelpLink.ToLower()
            this.Source <- this.Source.ToUpperInvariant()

            base.GetObjectData( info, context )
    // This public constructor is used by class instantiators.
    new (message: string, inner: Exception) as this =
        { inherit Exception(message, inner) }
        then
            this.HelpLink <- "http://MSDN.Microsoft.com"
            this.Source <- "Exception_Class_Samples" 

    // This protected constructor is used for deserialization.
    new (info: SerializationInfo, context: StreamingContext) =
        { inherit Exception(info, context) }

printfn 
    """This example of the Exception constructor and Exception.GetObjectData
with SerializationInfo and StreamingContext parameters generates 
the following output.
"""

try
    // This code forces a division by 0 and catches the
    // resulting exception.
    try
        let zero = 0
        let ecks = 1 / zero
        ()
    with ex ->
        // Create a new exception to throw again.
        let newExcept = SecondLevelException("Forced a division by 0 and threw another exception.", ex)

        printfn "Forced a division by 0, caught the resulting exception, \nand created a derived exception:\n"
        printfn $"HelpLink: {newExcept.HelpLink}"
        printfn $"Source:   {newExcept.Source}"

        // This FileStream is used for the serialization.
        use stream = new FileStream("NewException.dat", FileMode.Create)

        try
            // Serialize the derived exception.
            let formatter = SoapFormatter(null, StreamingContext StreamingContextStates.File)
            formatter.Serialize(stream, newExcept)

            // Rewind the stream and deserialize the
            // exception.
            stream.Position <- 0L
            let deserExcept = formatter.Deserialize stream :?> SecondLevelException

            printfn 
                """
Serialized the exception, and then deserialized the resulting stream into a 
new exception. The deserialization changed the case of certain properties:
"""

            // Throw the deserialized exception again.
            raise deserExcept
        with :? SerializationException as se -> 
            printfn $"Failed to serialize: {se}"

with ex ->
    printfn $"HelpLink: {ex.HelpLink}"
    printfn $"Source:   {ex.Source}"
    printfn $"\n{ex}"

// This example displays the following output.
//     Forced a division by 0, caught the resulting exception,
//     and created a derived exception:
//    
//     HelpLink: http://MSDN.Microsoft.com
//     Source:   Exception_Class_Samples
//    
//     Serialized the exception, and then deserialized the resulting stream into a
//     new exception. The deserialization changed the case of certain properties:
//    
//     HelpLink: http://msdn.microsoft.com
//     Source:   EXCEPTION_CLASS_SAMPLES
//    
//     NDP_UE_FS_3+SecondLevelException: Forced a division by 0 and threw another except
//     ion. ---> System.DivideByZeroException: Attempted to divide by zero.
//        at <StartupCode$fs>.$NDP_UE_FS_3.main@()
//        --- End of inner exception stack trace ---
//        at <StartupCode$fs>.$NDP_UE_FS_3.main@()
' If compiling with the Visual Basic compiler (vbc.exe) from the command
' prompt, be sure to add the following switch:
'    /reference:System.Runtime.Serialization.Formatters.Soap.dll 
Imports System.IO
Imports System.Runtime.Serialization
Imports System.Runtime.Serialization.Formatters.Soap
Imports System.Security.Permissions

 ' Define a serializable derived exception class.
 <Serializable()>  _
 Class SecondLevelException
     Inherits Exception

     ' This public constructor is used by class instantiators.
     Public Sub New( message As String, inner As Exception )
         MyBase.New( message, inner )

         HelpLink = "http://MSDN.Microsoft.com"
         Source = "Exception_Class_Samples"
     End Sub

     ' This protected constructor is used for deserialization.
     Protected Sub New( info As SerializationInfo, _
         context As StreamingContext )
             MyBase.New( info, context )
     End Sub

     ' GetObjectData performs a custom serialization.
     <SecurityPermissionAttribute(SecurityAction.Demand, _
                                  SerializationFormatter:=True)> _
     Overrides Sub GetObjectData( info As SerializationInfo, _
         context As StreamingContext)

         ' Change the case of two properties, and then use the
         ' method of the base class.
         HelpLink = HelpLink.ToLower()
         Source = Source.ToUpperInvariant()

         MyBase.GetObjectData(info, context)
     End Sub
 End Class

 Module SerializationDemo

     Sub Main()
         Console.WriteLine( _
             "This example of the Exception constructor " & _
             "and Exception.GetObjectData " & vbCrLf & _
             "with SerializationInfo and StreamingContext " & _
             "parameters generates " & vbCrLf & _
             "the following output." & vbCrLf )

         ' This code forces a division by 0 and catches the
         ' resulting exception.
         Try
             Try
                 Dim zero As Integer = 0
                 Dim ecks As Integer = 1 \ zero

             ' Create a new exception to throw again.
             Catch ex As Exception

                 Dim newExcept As New SecondLevelException( _
                     "Forced a division by 0 and threw " & _
                     "another exception.", ex )

                 Console.WriteLine( _
                     "Forced a division by 0, caught the " & _
                     "resulting exception, " & vbCrLf & _
                     "and created a derived exception:" & vbCrLf )
                 Console.WriteLine( "HelpLink: {0}", _
                     newExcept.HelpLink )
                 Console.WriteLine( "Source:   {0}", _
                     newExcept.Source )

                 ' This FileStream is used for the serialization.
                 Dim stream As New FileStream( _
                     "NewException.dat", FileMode.Create )

                 ' Serialize the derived exception.
                 Try
                     Dim formatter As New SoapFormatter( Nothing, _
                         New StreamingContext( _
                             StreamingContextStates.File ) )
                     formatter.Serialize( stream, newExcept )

                     ' Rewind the stream and deserialize the
                     ' exception.
                     stream.Position = 0
                     Dim deserExcept As SecondLevelException = _
                         CType( formatter.Deserialize( stream ), _
                             SecondLevelException )

                     Console.WriteLine( vbCrLf & _
                         "Serialized the exception, and then " & _
                         "deserialized the resulting stream " & _
                         "into a " & vbCrLf & "new exception. " & _
                         "The deserialization changed the case " & _
                         "of certain properties:" & vbCrLf )

                     ' Throw the deserialized exception again.
                     Throw deserExcept

                 Catch se As SerializationException
                     Console.WriteLine( "Failed to serialize: {0}", _
                         se.ToString( ) )

                 Finally
                     stream.Close( )
                 End Try
             End Try
         Catch ex As Exception
             Console.WriteLine( "HelpLink: {0}", ex.HelpLink )
             Console.WriteLine( "Source:   {0}", ex.Source )

             Console.WriteLine( )
             Console.WriteLine( ex.ToString( ) )
         End Try
     End Sub
 End Module
' This example displays the following output:
' 
' Forced a division by 0, caught the resulting exception,
' and created a derived exception:
' 
' HelpLink: http://MSDN.Microsoft.com
' Source:   Exception_Class_Samples
' 
' Serialized the exception, and then deserialized the resulting stream into a
' new exception. The deserialization changed the case of certain properties:
' 
' HelpLink: http://msdn.microsoft.com
' Source:   EXCEPTION_CLASS_SAMPLES
' 
' NDP_UE_VB.SecondLevelException: Forced a division by 0 and threw another exce
' ption. ---> System.DivideByZeroException: Attempted to divide by zero.
'    at NDP_UE_VB.SerializationDemo.Main()
'    --- End of inner exception stack trace ---
'    at NDP_UE_VB.SerializationDemo.Main()

注釈

このコンストラクターは、シリアル化解除の際に呼び出されて、ストリームで送信された例外オブジェクトを再構成します。 詳細については、「 XML および SOAP のシリアル化」を参照してください。

こちらもご覧ください

適用対象

Exception(String, Exception)

ソース:
Exception.cs
ソース:
Exception.cs
ソース:
Exception.cs

指定したエラー メッセージおよびこの例外の原因となった内部例外への参照を使用して、Exception クラスの新しいインスタンスを初期化します。

public:
 Exception(System::String ^ message, Exception ^ innerException);
public Exception (string message, Exception innerException);
public Exception (string? message, Exception? innerException);
new Exception : string * Exception -> Exception
Public Sub New (message As String, innerException As Exception)

パラメーター

message
String

例外の原因を説明するエラー メッセージ。

innerException
Exception

現在の例外の原因である例外。内部例外が指定されていない場合は null 参照 (Visual Basic では、Nothing)。

次のコード例では、特定の条件の を Exception 派生させます。 このコードでは、派生クラスと基底 Exception クラスの両方に対して、メッセージと内部例外をパラメーターとして受け取るコンストラクターの使用を示します。

// Example for the Exception( String*, Exception* ) constructor.
using namespace System;

namespace NDP_UE_CPP
{

   // Derive an exception with a specifiable message and inner exception.
   public ref class LogTableOverflowException: public Exception
   {
   private:
      static String^ overflowMessage =  "The log table has overflowed.";

   public:
      LogTableOverflowException()
         : Exception( overflowMessage )
      {}

      LogTableOverflowException( String^ auxMessage )
         : Exception( String::Format( "{0} - {1}", overflowMessage, auxMessage ) )
      {}

      LogTableOverflowException( String^ auxMessage, Exception^ inner )
         : Exception( String::Format( "{0} - {1}", overflowMessage, auxMessage ), inner )
      {}

   };

   public ref class LogTable
   {
   public:
      LogTable( int numElements )
      {
         logArea = gcnew array<String^>(numElements);
         elemInUse = 0;
      }


   protected:
      array<String^>^logArea;
      int elemInUse;

   public:

      // The AddRecord method throws a derived exception 
      // if the array bounds exception is caught.
      int AddRecord( String^ newRecord )
      {
         try
         {
            logArea[ elemInUse ] = newRecord;
            return elemInUse++;
         }
         catch ( Exception^ ex ) 
         {
            throw gcnew LogTableOverflowException( String::Format( "Record \"{0}\" was not logged.", newRecord ),ex );
         }

      }

   };


   // Create a log table and force an overflow.
   void ForceOverflow()
   {
      LogTable^ log = gcnew LogTable( 4 );
      try
      {
         for ( int count = 1; ; count++ )
         {
            log->AddRecord( String::Format( "Log record number {0}", count ) );

         }
      }
      catch ( Exception^ ex ) 
      {
         Console::WriteLine( ex->ToString() );
      }

   }

}

int main()
{
   Console::WriteLine( "This example of the Exception( String*, Exception* )\n"
   "constructor generates the following output." );
   Console::WriteLine( "\nExample of a derived exception "
   "that references an inner exception:\n" );
   NDP_UE_CPP::ForceOverflow();
}

/*
This example of the Exception( String*, Exception* )
constructor generates the following output.

Example of a derived exception that references an inner exception:

NDP_UE_CPP.LogTableOverflowException: The log table has overflowed. - Record "L
og record number 5" was not logged. ---> System.IndexOutOfRangeException: Index
 was outside the bounds of the array.
   at NDP_UE_CPP.LogTable.AddRecord(String newRecord)
   --- End of inner exception stack trace ---
   at NDP_UE_CPP.LogTable.AddRecord(String newRecord)
   at NDP_UE_CPP.ForceOverflow()
*/
// Example for the Exception( string, Exception ) constructor.
using System;

namespace NDP_UE_CS
{
    // Derive an exception with a specifiable message and inner exception.
    class LogTableOverflowException : Exception
    {
        const string overflowMessage =
            "The log table has overflowed.";

        public LogTableOverflowException( ) :
            base( overflowMessage )
        { }

        public LogTableOverflowException( string auxMessage ) :
            base( String.Format( "{0} - {1}",
                overflowMessage, auxMessage ) )
        { }

        public LogTableOverflowException(
            string auxMessage, Exception inner ) :
                base( String.Format( "{0} - {1}",
                    overflowMessage, auxMessage ), inner )
        { }
    }

    class LogTable
    {
        public LogTable( int numElements )
        {
            logArea = new string[ numElements ];
            elemInUse = 0;
        }

        protected string[ ] logArea;
        protected int       elemInUse;

        // The AddRecord method throws a derived exception
        // if the array bounds exception is caught.
        public    int       AddRecord( string newRecord )
        {
            try
            {
                logArea[ elemInUse ] = newRecord;
                return elemInUse++;
            }
            catch( Exception ex )
            {
                throw new LogTableOverflowException(
                    String.Format( "Record \"{0}\" was not logged.",
                        newRecord ), ex );
            }
        }
    }

    class OverflowDemo
    {
        // Create a log table and force an overflow.
        public static void Main()
        {
            LogTable log = new LogTable( 4 );

            Console.WriteLine(
                "This example of the Exception( string, Exception )" +
                "\nconstructor generates the following output." );
            Console.WriteLine(
                "\nExample of a derived exception " +
                "that references an inner exception:\n" );
            try
            {
                for( int count = 1; ; count++ )
                {
                    log.AddRecord(
                        String.Format(
                            "Log record number {0}", count ) );
                }
            }
            catch( Exception ex )
            {
                Console.WriteLine( ex.ToString( ) );
            }
        }
    }
}

/*
This example of the Exception( string, Exception )
constructor generates the following output.

Example of a derived exception that references an inner exception:

NDP_UE_CS.LogTableOverflowException: The log table has overflowed. - Record "Lo
g record number 5" was not logged. ---> System.IndexOutOfRangeException: Index
was outside the bounds of the array.
   at NDP_UE_CS.LogTable.AddRecord(String newRecord)
   --- End of inner exception stack trace ---
   at NDP_UE_CS.LogTable.AddRecord(String newRecord)
   at NDP_UE_CS.OverflowDemo.Main()
*/
// Example for the Exception(string, Exception) constructor.
open System

let overflowMessage = "The log table has overflowed."

// Derive an exception with a specifiable message and inner exception.
type LogTableOverflowException =
    inherit Exception

    new () =  { inherit Exception(overflowMessage) }

    new (auxMessage: string) = 
        { inherit Exception($"{overflowMessage} - {auxMessage}") }

    new (auxMessage: string, inner: Exception) =
        { inherit Exception($"{overflowMessage} - {auxMessage}", inner ) }

type LogTable(numElements: int) =
    let mutable logArea = Array.zeroCreate<string> numElements
    let mutable elemInUse = 0

    // The AddRecord method throws a derived exception
    // if the array bounds exception is caught.
    member _.AddRecord(newRecord: string): int =
        try
            logArea[elemInUse] <- newRecord
            elemInUse <- elemInUse + 1
            elemInUse - 1
        with ex ->
            raise (LogTableOverflowException($"Record \"{newRecord}\" was not logged.", ex ) )

// Create a log table and force an overflow.
let log = LogTable 4

printfn "This example of the Exception(string, Exception)\nconstructor generates the following output."
printfn "\nExample of a derived exception that references an inner exception:\n"
try
    for count = 1 to 1000 do
        log.AddRecord $"Log record number {count}"
        |> ignore
with ex ->
    printfn $"{ex}"


// This example of the Exception(string, Exception)
// constructor generates the following output.
//
// Example of a derived exception that references an inner exception:
//
// NDP_UE_FS_4+LogTableOverflowException: The log table has overflowed. - Record "Lo
// g record number 5" was not logged. ---> System.IndexOutOfRangeException: Index
// was outside the bounds of the array.
//    at NDP_UE_FS_4.LogTable.AddRecord(String newRecord)
//    --- End of inner exception stack trace ---
//    at NDP_UE_FS_4.LogTable.AddRecord(String newRecord)
//    at <StartupCode$fs>.$NDP_UE_FS_4.main@()
' Sample for Exception( String, Exception ) constructor.
Namespace NDP_UE_VB

    ' Derive an exception with a specifiable message and inner exception.
    Class LogTableOverflowException
        Inherits Exception

        Private Const overflowMessage As String = _
            "The log table has overflowed."
           
        Public Sub New( )
            MyBase.New( overflowMessage )
        End Sub
           
        Public Sub New( auxMessage As String )
            MyBase.New( String.Format( "{0} - {1}", _
                overflowMessage, auxMessage ) )
        End Sub
           
        Public Sub New( auxMessage As String, inner As Exception )
            MyBase.New( String.Format( "{0} - {1}", _
                overflowMessage, auxMessage ), inner )
        End Sub
    End Class

    Class LogTable
       
        Public Sub New( numElements As Integer )
            logArea = New String( numElements ) { }
            elemInUse = 0
        End Sub
           
        Protected logArea( ) As String
        Protected elemInUse As Integer
           
        ' The AddRecord method throws a derived exception 
        ' if the array bounds exception is caught.
        Public Function AddRecord( newRecord As String ) As Integer

            Try
                Dim curElement as Integer = elemInUse
                logArea( elemInUse ) = newRecord
                elemInUse += 1
                Return curElement

            Catch ex As Exception
                Throw New LogTableOverflowException( String.Format( _
                    "Record ""{0}"" was not logged.", newRecord ), ex )
            End Try
        End Function ' AddRecord
        End Class

        Module OverflowDemo
           
        ' Create a log table and force an overflow.
        Sub Main()
            Dim log As New LogTable(4)
              
            Console.WriteLine( _
                "This example of the Exception( String, Exception )" & _
                vbCrLf & "constructor generates the following output." )
            Console.WriteLine( vbCrLf & _
                "Example of a derived exception " & vbCrLf & _
                "that references an inner exception:" & vbCrLf )
            Try
                Dim count As Integer = 0
                 
                Do
                    log.AddRecord( _
                        String.Format( _
                            "Log record number {0}", count ) )
                    count += 1
                Loop

            Catch ex As Exception
                Console.WriteLine( ex.ToString( ) )
            End Try
        End Sub

    End Module ' OverflowDemo
End Namespace ' NDP_UE_VB

' This example of the Exception( String, Exception )
' constructor generates the following output.
' 
' Example of a derived exception
' that references an inner exception:
' 
' NDP_UE_VB.LogTableOverflowException: The log table has overflowed. - Record "
' Log record number 5" was not logged. ---> System.IndexOutOfRangeException: In
' dex was outside the bounds of the array.
'    at NDP_UE_VB.LogTable.AddRecord(String newRecord)
'    --- End of inner exception stack trace ---
'    at NDP_UE_VB.LogTable.AddRecord(String newRecord)
'    at NDP_UE_VB.OverflowDemo.Main()

注釈

前の例外の直接の結果としてスローされる例外については、InnerException プロパティに、前の例外への参照を含める必要があります。 InnerException プロパティは、コンストラクターに渡されたものと同じ値を返します。Nothing プロパティによって内部例外値がコンストラクターに渡されなかった場合は、null 参照 (Visual Basic の場合は InnerException) を返します。

次の表に、Exception のインスタンスに対するプロパティの初期値を示します。

プロパティ [値]
InnerException 内部例外の参照。
Message エラー メッセージ文字列。

適用対象