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Console.Error Propriété

Définition

Obtient le flux de sortie d'erreur standard.

public:
 static property System::IO::TextWriter ^ Error { System::IO::TextWriter ^ get(); };
public static System.IO.TextWriter Error { get; }
member this.Error : System.IO.TextWriter
Public Shared ReadOnly Property Error As TextWriter

Valeur de propriété

TextWriter

TextWriter qui représente le flux de sortie d'erreur standard.

Exemples

L’exemple suivant est un utilitaire de ligne de commande nommé ExpandTabs qui remplace les caractères de tabulation dans un fichier texte par quatre espaces, la valeur définie par la tabSize variable. Il redirige les flux d’entrée et de sortie standard vers des fichiers, mais utilise la Error propriété pour écrire le flux d’erreurs standard sur la console. Elle peut être lancée à partir de la ligne de commande en fournissant le nom du fichier qui contient les caractères de tabulation et le nom du fichier de sortie.

using namespace System;
using namespace System::IO;

void main()
{
   const int tabSize = 4;
   array<String^>^args = Environment::GetCommandLineArgs();
   String^ usageText = "Usage: EXPANDTABSEX inputfile.txt outputfile.txt";
   StreamWriter^ writer = nullptr;
   
   if ( args->Length < 3 )
   {
      Console::WriteLine( usageText );
      return;
   }

   try
   {
      writer = gcnew StreamWriter( args[ 2 ] );
      Console::SetOut( writer );
      Console::SetIn( gcnew StreamReader( args[ 1 ] ) );
   }
   catch ( IOException^ e ) 
   {
      TextWriter^ errorWriter = Console::Error;
      errorWriter->WriteLine( e->Message );
      errorWriter->WriteLine( usageText );
      return;
   }

   int i;
   while ( (i = Console::Read()) != -1 )
   {
      Char c = (Char)i;
      if ( c == '\t' )
            Console::Write( ((String^)"")->PadRight( tabSize, ' ' ) );
      else
            Console::Write( c );
   }

   writer->Close();
   
   // Recover the standard output stream so that a 
   // completion message can be displayed.
   StreamWriter^ standardOutput = gcnew StreamWriter(Console::OpenStandardOutput());
   standardOutput->AutoFlush = true;
   Console::SetOut(standardOutput);
   Console::WriteLine( "EXPANDTABSEX has completed the processing of {0}.", args[ 0 ] );
   return;
}
using System;
using System.IO;

public class ExpandTabs
{
    private const int tabSize = 4;
    private const string usageText = "Usage: EXPANDTABSEX inputfile.txt outputfile.txt";

    public static void Main(string[] args)
    {
        StreamWriter writer = null;

        if (args.Length < 2) {
            Console.WriteLine(usageText);
            return;
        }

        try {
            writer = new StreamWriter(args[1]);
            Console.SetOut(writer);
            Console.SetIn(new StreamReader(args[0]));
        }
        catch(IOException e) {
            TextWriter errorWriter = Console.Error;
            errorWriter.WriteLine(e.Message);
            errorWriter.WriteLine(usageText);
            return;
        }
        int i;
        while ((i = Console.Read()) != -1) {
            char c = (char)i;
            if (c == '\t')
                Console.Write(("").PadRight(tabSize, ' '));
            else
                Console.Write(c);
        }
        writer.Close();
        // Recover the standard output stream so that a
        // completion message can be displayed.
        StreamWriter standardOutput = new StreamWriter(Console.OpenStandardOutput());
        standardOutput.AutoFlush = true;
        Console.SetOut(standardOutput);
        Console.WriteLine("EXPANDTABSEX has completed the processing of {0}.", args[0]);
        return;
    }
}
open System
open System.IO

let tabSize = 4
let usageText = "Usage: EXPANDTABSEX inputfile.txt outputfile.txt"

[<EntryPoint>]
let main args =
    if args.Length < 2 then
        printfn $"{usageText}"
    else 
        try
            use writer = new StreamWriter(args[1])
            Console.SetOut writer
            Console.SetIn(new StreamReader(args[0]))
            let mutable i = Console.Read()
            while i <> -1 do
                let c = char i
                if c = '\t' then
                    Console.WriteLine(("").PadRight(tabSize, ' '))
                else
                    printf $"{c}"
                i <- Console.Read()
            // Recover the standard output stream so that a
            // completion message can be displayed.
            use standardOutput = new StreamWriter(Console.OpenStandardOutput())
            standardOutput.AutoFlush <- true
            Console.SetOut standardOutput
            printfn $"EXPANDTABSEX has completed the processing of {args[0]}."
        with :? IOException as e ->
            let errorWriter = Console.Error
            errorWriter.WriteLine e.Message
            errorWriter.WriteLine usageText
    0
Imports System.IO

Public Class ExpandTabs
   Private Const tabSize As Integer = 4
   Private Const usageText As String = "Usage: EXPANDTABSEX inputfile.txt outputfile.txt"
   
   Public Shared Sub Main(args() As String)
      Dim writer As StreamWriter = Nothing

      If args.Length < 2 Then
         Console.WriteLine(usageText)
         Exit Sub
      End If
      
      Try
         writer = New StreamWriter(args(1))
         Console.SetOut(writer)
         Console.SetIn(New StreamReader(args(0)))
      Catch e As IOException
         Console.Error.WriteLine(e.Message)
         Console.Error.WriteLine(usageText)
         Exit Sub
      End Try
      
      Dim i As Integer = Console.Read()
      While i <> -1 
         Dim c As Char = Convert.ToChar(i)
         If c = ControlChars.Tab Then
            Console.Write("".PadRight(tabSize, " "c))
         Else
            Console.Write(c)
         End If
         i = Console.Read()
      End While
      writer.Close()
      
      ' Reacquire the standard output stream so that a
      ' completion message can be displayed.
      Dim standardOutput As New StreamWriter(Console.OpenStandardOutput)
      standardOutput.AutoFlush = True
      Console.SetOut(standardOutput)
      Console.WriteLine("EXPANDTABSEX has completed the processing of {0}.", args(0))
   End Sub
End Class

L’exemple suivant est une visionneuse de fichier texte simple qui affiche le contenu d’un ou plusieurs fichiers texte sur la console. S’il n’y a pas d’arguments de ligne de commande, ou si des fichiers passés comme arguments de ligne de commande n’existent pas, l’exemple appelle la SetError méthode pour rediriger les informations d’erreur vers un fichier, appelle la OpenStandardError méthode dans le processus de réacquisition du flux d’erreur standard et indique que les informations d’erreur ont été écrites dans un fichier.

using System;
using System.IO;

public class ViewTextFile
{
   public static void Main()
   {
      String[] args = Environment.GetCommandLineArgs();
      String errorOutput = "";
      // Make sure that there is at least one command line argument.
      if (args.Length <= 1)
         errorOutput += "You must include a filename on the command line.\n";

      for (int ctr = 1; ctr <= args.GetUpperBound(0); ctr++)  {
         // Check whether the file exists.
         if (! File.Exists(args[ctr])) {
            errorOutput += String.Format("'{0}' does not exist.\n", args[ctr]);
         }
         else {
            // Display the contents of the file.
            StreamReader sr = new StreamReader(args[ctr]);
            String contents = sr.ReadToEnd();
            sr.Close();
            Console.WriteLine("*****Contents of file '{0}':\n\n",
                              args[ctr]);
            Console.WriteLine(contents);
            Console.WriteLine("*****\n");
         }
      }

      // Check for error conditions.
      if (! String.IsNullOrEmpty(errorOutput)) {
         // Write error information to a file.
         Console.SetError(new StreamWriter(@".\ViewTextFile.Err.txt"));
         Console.Error.WriteLine(errorOutput);
         Console.Error.Close();
         // Reacquire the standard error stream.
         var standardError = new StreamWriter(Console.OpenStandardError());
         standardError.AutoFlush = true;
         Console.SetError(standardError);
         Console.Error.WriteLine("\nError information written to ViewTextFile.Err.txt");
      }
   }
}
// If the example is compiled and run with the following command line:
//     ViewTextFile file1.txt file2.txt
// and neither file1.txt nor file2.txt exist, it displays the
// following output:
//     Error information written to ViewTextFile.Err.txt
// and writes the following text to ViewTextFile.Err.txt:
//     'file1.txt' does not exist.
//     'file2.txt' does not exist.
open System
open System.IO

let args = Environment.GetCommandLineArgs()[1..]
let mutable errorOutput = ""
// Make sure that there is at least one command line argument.
if args.Length < 1 then
    errorOutput <- errorOutput + "You must include a filename on the command line.\n"

for file in args do
    // Check whether the file exists.
    if File.Exists file then
        errorOutput <- errorOutput + $"'{file}' does not exist.\n"
    else
        // Display the contents of the file.
        use sr = new StreamReader(file)
        let contents = sr.ReadToEnd()
        Console.WriteLine $"*****Contents of file '{file}':\n\n"
        Console.WriteLine contents
        Console.WriteLine "*****\n"

// Check for error conditions.
if not (String.IsNullOrEmpty errorOutput) then
    // Write error information to a file.
    Console.SetError(new StreamWriter(@".\ViewTextFile.Err.txt"))
    Console.Error.WriteLine errorOutput
    Console.Error.Close()
    // Reacquire the standard error stream.
    use standardError = new StreamWriter(Console.OpenStandardError())
    standardError.AutoFlush <- true
    Console.SetError standardError
    Console.Error.WriteLine "\nError information written to ViewTextFile.Err.txt"

// If the example is compiled and run with the following command line:
//     ViewTextFile file1.txt file2.txt
// and neither file1.txt nor file2.txt exist, it displays the
// following output:
//     Error information written to ViewTextFile.Err.txt
// and writes the following text to ViewTextFile.Err.txt:
//     'file1.txt' does not exist.
//     'file2.txt' does not exist.
Imports System.IO

Module ViewTextFile
   Public Sub Main()
      Dim args() As String = Environment.GetCommandLineArgs()
      Dim errorOutput As String = ""
      ' Make sure that there is at least one command line argument.
      If args.Length <= 1 Then
         errorOutput += "You must include a filename on the command line." +
                        vbCrLf
      End If
      
      For ctr As Integer = 1 To args.GetUpperBound(0)
         ' Check whether the file exists.
         If Not File.Exists(args(ctr)) Then
            errorOutput += String.Format("'{0}' does not exist.{1}",
                                         args(ctr), vbCrLf)
         Else
            ' Display the contents of the file.
            Dim sr As New StreamReader(args(ctr))
            Dim contents As String = sr.ReadToEnd()
            sr.Close()
            Console.WriteLine("***** Contents of file '{0}':{1}{1}",
                              args(ctr), vbCrLf)
            Console.WriteLine(contents)
            Console.WriteLine("*****{0}", vbCrLf)
         End If
      Next

      ' Check for error conditions.
      If Not String.IsNullOrEmpty(errorOutput) Then
         ' Write error information to a file.
         Console.SetError(New StreamWriter(".\ViewTextFile.Err.txt"))
         Console.Error.WriteLine(errorOutput)
         Console.Error.Close()
         ' Reacquire the standard error stream.
         Dim standardError As New StreamWriter(Console.OpenStandardError())
         standardError.AutoFlush = True
         Console.SetError(standardError)
         Console.Error.WriteLine("{0}Error information written to ViewTextFile.Err.txt",
                                 vbCrLf)
      End If
   End Sub
End Module
' If the example is compiled and run with the following command line:
'     ViewTextFile file1.txt file2.txt
' and neither file1.txt nor file2.txt exist, it displays the
' following output:
'     Error information written to ViewTextFile.Err.txt
' and writes the following text to ViewTextFile.Err.txt:
'     'file1.txt' does not exist.
'     'file2.txt' does not exist.

Notez que la StreamWriter.AutoFlush propriété a la valeur true avant de réacquérir le flux d’erreurs. Cela permet de s’assurer que la sortie est envoyée à la console immédiatement au lieu de la mise en mémoire tampon.

Remarques

Ce flux d’erreurs standard est défini par défaut sur la console. Il peut être défini sur un autre flux à l’aide de la SetError méthode. Une fois que le flux d’erreurs standard est redirigé, il peut être réacquis en appelant la OpenStandardError méthode.

Dans les applications console dont la sortie d’information est souvent redirigée vers un fichier, le flux d’erreurs standard disponible par le biais de la Error propriété peut être utilisé pour afficher des informations dans la console même si la sortie est redirigée. L’exemple suivant affiche des tables de produits pour 10 nombres à la fois à partir de 1. Après chaque ensemble de 10 nombres, la Error propriété est utilisée pour demander à l’utilisateur s’il faut afficher le jeu suivant. Si la sortie standard est redirigée vers un fichier, l’utilisateur est toujours invité à indiquer si la routine doit générer le jeu de produits suivant.

using System;

public class Example
{
   public static void Main()
   {
      int increment = 0;
      bool exitFlag = false;

      while (! exitFlag) {
         if (Console.IsOutputRedirected)
            Console.Error.WriteLine("Generating multiples of numbers from {0} to {1}",
                                    increment + 1, increment + 10);

         Console.WriteLine("Generating multiples of numbers from {0} to {1}",
                           increment + 1, increment + 10);
         for (int ctr = increment + 1; ctr <= increment + 10; ctr++) {
            Console.Write("Multiples of {0}: ", ctr);
            for (int ctr2 = 1; ctr2 <= 10; ctr2++)
               Console.Write("{0}{1}", ctr * ctr2, ctr2 == 10 ? "" : ", ");

            Console.WriteLine();
         }
         Console.WriteLine();

         increment += 10;
         Console.Error.Write("Display multiples of {0} through {1} (y/n)? ",
                             increment + 1, increment + 10);
         Char response = Console.ReadKey(true).KeyChar;
         Console.Error.WriteLine(response);
         if (! Console.IsOutputRedirected)
            Console.CursorTop--;

         if (Char.ToUpperInvariant(response) == 'N')
            exitFlag = true;
      }
   }
}
open System

let mutable increment = 0
let mutable exitFlag = false

while not exitFlag do
    if Console.IsOutputRedirected then
        Console.Error.WriteLine $"Generating multiples of numbers from {increment + 1} to {increment + 10}"

    Console.WriteLine $"Generating multiples of numbers from {increment + 1} to {increment + 10}"

    for i = increment + 1 to increment + 10 do
        Console.Write $"Multiples of {i}: "
        for j = 1 to 10 do
            Console.Write $"""{i * j}{if j = 10 then "" else ", "}"""

        Console.WriteLine()
    Console.WriteLine()

    increment <- increment + 10
    Console.Error.Write $"Display multiples of {increment + 1} through {increment + 10} (y/n)? "
    let response = Console.ReadKey(true).KeyChar
    Console.Error.WriteLine response
    if not Console.IsOutputRedirected then
        Console.CursorTop <- Console.CursorTop - 1 

    if Char.ToUpperInvariant response = 'N' then
        exitFlag <- true
Module Example
   Public Sub Main()
      Dim increment As Integer = 0
      Dim exitFlag As Boolean = False
      
      Do While Not exitFlag
         If Console.IsOutputRedirected Then
            Console.Error.WriteLine("Generating multiples of numbers from {0} to {1}",
                                    increment + 1, increment + 10)
         End If
         Console.WriteLine("Generating multiples of numbers from {0} to {1}",
                           increment + 1, increment + 10)
         For ctr As Integer = increment + 1 To increment + 10
            Console.Write("Multiples of {0}: ", ctr)
            For ctr2 As Integer = 1 To 10
               Console.Write("{0}{1}", ctr * ctr2, If(ctr2 = 10, "", ", "))
            Next
            Console.WriteLine()
         Next
         Console.WriteLine()
         
         increment += 10
         Console.Error.Write("Display multiples of {0} through {1} (y/n)? ",
                             increment + 1, increment + 10)
         Dim response As Char = Console.ReadKey(True).KeyChar
         Console.Error.WriteLine(response)
         If Not Console.IsOutputRedirected Then
            Console.CursorTop = Console.CursorTop - 1
         End If
         If Char.ToUpperInvariant(response) = "N" Then exitFlag = True
      Loop
   End Sub
End Module

S’applique à

Voir aussi