103

I'm using Console.WriteLine() from a very simple WPF test application, but when I execute the application from the command line, I'm seeing nothing being written to the console. Does anyone know what might be going on here?

I can reproduce it by creating a WPF application in VS 2008, and simply adding Console.WriteLine("text") anywhere that get executed. Any ideas?

All I need for right now is something as simple as Console.WriteLine(). I realize I could use log4net or somet other logging solution, but I really don't need that much functionality for this application.

Edit: I should have remembered that Console.WriteLine() is for console applications. Oh well, no stupid questions, right? :-) I'll just use System.Diagnostics.Trace.WriteLine() and DebugView for now.

  • Possible duplicates here and here (newer, but with some interesting answers using AttachConsole from Kernel32.dll) – Max Jun 22 '15 at 16:01
  • 1
    @Max, those questions are possible duplicates of this question. This question was asked 2-4 years before either of those questions you posted. – Rob Jun 22 '15 at 20:42

10 Answers 10

90

You'll have to create a Console window manually before you actually call any Console.Write methods. That will init the Console to work properly without changing the project type (which for WPF application won't work).

Here's a complete source code example, of how a ConsoleManager class might look like, and how it can be used to enable/disable the Console, independently of the project type.

With the following class, you just need to write ConsoleManager.Show() somewhere before any call to Console.Write...

[SuppressUnmanagedCodeSecurity]
public static class ConsoleManager
{
    private const string Kernel32_DllName = "kernel32.dll";

    [DllImport(Kernel32_DllName)]
    private static extern bool AllocConsole();

    [DllImport(Kernel32_DllName)]
    private static extern bool FreeConsole();

    [DllImport(Kernel32_DllName)]
    private static extern IntPtr GetConsoleWindow();

    [DllImport(Kernel32_DllName)]
    private static extern int GetConsoleOutputCP();

    public static bool HasConsole
    {
        get { return GetConsoleWindow() != IntPtr.Zero; }
    }

    /// <summary>
    /// Creates a new console instance if the process is not attached to a console already.
    /// </summary>
    public static void Show()
    {
        //#if DEBUG
        if (!HasConsole)
        {
            AllocConsole();
            InvalidateOutAndError();
        }
        //#endif
    }

    /// <summary>
    /// If the process has a console attached to it, it will be detached and no longer visible. Writing to the System.Console is still possible, but no output will be shown.
    /// </summary>
    public static void Hide()
    {
        //#if DEBUG
        if (HasConsole)
        {
            SetOutAndErrorNull();
            FreeConsole();
        }
        //#endif
    }

    public static void Toggle()
    {
        if (HasConsole)
        {
            Hide();
        }
        else
        {
            Show();
        }
    }

    static void InvalidateOutAndError()
    {
        Type type = typeof(System.Console);

        System.Reflection.FieldInfo _out = type.GetField("_out",
            System.Reflection.BindingFlags.Static | System.Reflection.BindingFlags.NonPublic);

        System.Reflection.FieldInfo _error = type.GetField("_error",
            System.Reflection.BindingFlags.Static | System.Reflection.BindingFlags.NonPublic);

        System.Reflection.MethodInfo _InitializeStdOutError = type.GetMethod("InitializeStdOutError",
            System.Reflection.BindingFlags.Static | System.Reflection.BindingFlags.NonPublic);

        Debug.Assert(_out != null);
        Debug.Assert(_error != null);

        Debug.Assert(_InitializeStdOutError != null);

        _out.SetValue(null, null);
        _error.SetValue(null, null);

        _InitializeStdOutError.Invoke(null, new object[] { true });
    }

    static void SetOutAndErrorNull()
    {
        Console.SetOut(TextWriter.Null);
        Console.SetError(TextWriter.Null);
    }
} 
  • I like this, it works, & I can use this in other projects. However because it launches a new console window it causes an issue with a current project. If I pass in command line options would like to be able to output to the console that it was launched from so the user gets the output there. In my app if command line options are provided it stays a console app and then does its work and then exits. This allows for the app to be automated and schedule to do tasks, or the user can just do something quickly and get out. However I want to output some things , like the help usage stuff, etc. – Rodney S. Foley Jan 29 '10 at 23:56
  • 4
    It's possible to try to call AttachConsole(-1) first and check its return value to attach to the parent process' console; if it returns false, call AllocConsole. However, the application still 'returns' first and only then outputs to the console, I'll post more if I find a solution. Also, if you set the WPF app type to Console Application, the problem disappears but you can't detach the console without it showing on the screen briefly when the program is started, so it kinda looks awkward (but if you can live with it, it works great). – Alex Paven Dec 16 '10 at 8:25
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    Eh, actually no, I don't think it's possible to have it both ways; a Console application is marked as CUI in its PE header and thus cooperates well with CMD automatically. A GUI application on the other hand returns control to CMD immediately, and even if it can reattach to the console, reading and writing will be intermingled with the next outputs in the pipeline, which is obviously very bad. If on the other hand you mark the application as Console application, you only have to live with CMD showing briefly at app startup; you can then use FreeConsole to detach and Attach/Alloc later etc – Alex Paven Dec 16 '10 at 10:33
  • 1
    Why do this when the answer from Brian works as well and much easier. – Wouter Janssens Feb 10 '12 at 9:55
  • 2
    @Mark Yeah, but it doesn't work... There's a SetConsoleCtrlHandler function that allows to be notified when the CTRL_CLOSE_EVENT event happens but you can't do anything with it, there's nothing that's allowing your application to continue. You will be shut down. If you feel like hacking, you could probably swap the windows message handler for the console process and just drop the WM_CLOSE message, I have never tried this but it could work. It's just another window but with that said, unless you want to entertain this idea you effort is probably better spent doing something else. – John Leidegren Aug 27 '13 at 18:08
122

Right click on the project, "Properties", "Application" tab, change "Output Type" to "Console Application", and then it will also have a console.

  • 2
    The only issue with that is you will have a cmd open in the background, but it works :). – ykatchou May 2 '12 at 9:22
  • 5
    Great, but command-line window will be created when application is not executed from cmd.exe (two windows created for one application). But for this there is also solution: you can hide cmd window by ShowWindow(hWnd, 0). stackoverflow.com/a/10416180/1457197 . Using this solution you will see text in console only when WPF application is executed from command-line. – CoperNick May 9 '13 at 17:44
  • Note you'll have to switch it back to "Window Application" while working in Blend, as it only shows XAML (with no access to the Design View) for "Console Application" types. (as of Blend 2013) – user600838 Oct 7 '14 at 22:12
  • 1
    Not correct ans. Hides main Windows. Just console comes up. – Yash Jul 25 '15 at 16:27
111

You can use

Trace.WriteLine("text");

This will output to the "Output" window in Visual Studio (when debugging).

make sure to have the Diagnostics assembly included:

using System.Diagnostics;
  • 9
    this is the best answer, but has not the highest rating – kiltek Oct 19 '13 at 9:33
  • I agree - this is exactly what op is asking for. Great alternative to Console.WriteLine() - the solution marked as the answer is a neat exercise but unreasonable to include in a production application. – nocarrier Nov 23 '13 at 23:01
  • 4
    PS for Windows Store apps (Windows Runtime) the equivalent of Trace.WriteLine is Debug.WriteLine() – nocarrier Nov 23 '13 at 23:05
  • This is a simple, clean solution, however didn't work for me. Didn't work in entity framework's seed method during update-database. Otherwise, works everywhere else! – Charles W Mar 7 '14 at 15:19
12

Although John Leidegren keeps shooting down the idea, Brian is correct. I've just got it working in Visual Studio.

To be clear a WPF application does not create a Console window by default.

You have to create a WPF Application and then change the OutputType to "Console Application". When you run the project you will see a console window with your WPF window in front of it.

It doesn't look very pretty, but I found it helpful as I wanted my app to be run from the command line with feedback in there, and then for certain command options I would display the WPF window.

10

It's possible to see output intended for console by using command line redirection.

For example:

C:\src\bin\Debug\Example.exe > output.txt

will write all the content to output.txt file.

  • Best answer as it is simple and doesn't require changes to the source – buckley Jan 7 at 13:08
8

Old post, but I ran into this so if you're trying to output something to Output in a WPF project in Visual Studio, the contemporary method is:

Include this:

using System.Diagnostics;

And then:

Debug.WriteLine("something");
4

I use Console.WriteLine() for use in the Output window...

  • 4
    It's a 4 year old question that's been edited heavily since I first saw it. Now of course the question has been better worded and my response was made irrelevant. – erodewald May 2 '12 at 16:42
1

I've create a solution, mixed the information of varius post.

Its a form, that contains a label and one textbox. The console output is redirected to the textbox.

There are too a class called ConsoleView that implements three publics methods: Show(), Close(), and Release(). The last one is for leave open the console and activate the Close button for view results.

The forms is called FrmConsole. Here are the XAML and the c# code.

The use is very simple:

ConsoleView.Show("Title of the Console");

For open the console. Use:

System.Console.WriteLine("The debug message");

For output text to the console.

Use:

ConsoleView.Close();

For Close the console.

ConsoleView.Release();

Leaves open the console and enables the Close button

XAML

<Window x:Class="CustomControls.FrmConsole"
    xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
    xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
    xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
    xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
    xmlns:local="clr-namespace:CustomControls"
    mc:Ignorable="d"
    Height="500" Width="600" WindowStyle="None" ResizeMode="NoResize" WindowStartupLocation="CenterScreen" Topmost="True" Icon="Images/icoConsole.png">
<Grid>
    <Grid.RowDefinitions>
        <RowDefinition Height="40"/>
        <RowDefinition Height="*"/>
        <RowDefinition Height="40"/>
    </Grid.RowDefinitions>
    <Label Grid.Row="0" Name="lblTitulo" HorizontalAlignment="Center" HorizontalContentAlignment="Center" VerticalAlignment="Center" VerticalContentAlignment="Center" FontFamily="Arial" FontSize="14" FontWeight="Bold" Content="Titulo"/>
    <Grid Grid.Row="1">
        <Grid.ColumnDefinitions>
            <ColumnDefinition Width="10"/>
            <ColumnDefinition Width="*"/>
            <ColumnDefinition Width="10"/>
        </Grid.ColumnDefinitions>
        <TextBox Grid.Column="1" Name="txtInner" FontFamily="Arial" FontSize="10" ScrollViewer.CanContentScroll="True" VerticalScrollBarVisibility="Visible" HorizontalScrollBarVisibility="Visible" TextWrapping="Wrap"/>
    </Grid>
    <Button Name="btnCerrar" Grid.Row="2" Content="Cerrar" Width="100" Height="30" HorizontalAlignment="Center" HorizontalContentAlignment="Center" VerticalAlignment="Center" VerticalContentAlignment="Center"/>
</Grid>

The code of the Window:

partial class FrmConsole : Window
{
    private class ControlWriter : TextWriter
    {
        private TextBox textbox;
        public ControlWriter(TextBox textbox)
        {
            this.textbox = textbox;
        }

        public override void WriteLine(char value)
        {
            textbox.Dispatcher.Invoke(new Action(() =>
            {
                textbox.AppendText(value.ToString());
                textbox.AppendText(Environment.NewLine);
                textbox.ScrollToEnd();
            }));
        }

        public override void WriteLine(string value)
        {
            textbox.Dispatcher.Invoke(new Action(() =>
            {
                textbox.AppendText(value);
                textbox.AppendText(Environment.NewLine);
                textbox.ScrollToEnd();
            }));
        }

        public override void Write(char value)
        {
            textbox.Dispatcher.Invoke(new Action(() =>
            {
                textbox.AppendText(value.ToString());
                textbox.ScrollToEnd();
            }));
        }

        public override void Write(string value)
        {
            textbox.Dispatcher.Invoke(new Action(() =>
            {
                textbox.AppendText(value);
                textbox.ScrollToEnd();
            }));
        }

        public override Encoding Encoding
        {
            get { return Encoding.UTF8; }

        }
    }

    //DEFINICIONES DE LA CLASE
    #region DEFINICIONES DE LA CLASE

    #endregion


    //CONSTRUCTORES DE LA CLASE
    #region CONSTRUCTORES DE LA CLASE

    public FrmConsole(string titulo)
    {
        InitializeComponent();
        lblTitulo.Content = titulo;
        Clear();
        btnCerrar.Click += new RoutedEventHandler(BtnCerrar_Click);
        Console.SetOut(new ControlWriter(txtInner));
        DesactivarCerrar();
    }

    #endregion


    //PROPIEDADES
    #region PROPIEDADES

    #endregion


    //DELEGADOS
    #region DELEGADOS

    private void BtnCerrar_Click(object sender, RoutedEventArgs e)
    {
        Close();
    }

    #endregion


    //METODOS Y FUNCIONES
    #region METODOS Y FUNCIONES

    public void ActivarCerrar()
    {
        btnCerrar.IsEnabled = true;
    }

    public void Clear()
    {
        txtInner.Clear();
    }

    public void DesactivarCerrar()
    {
        btnCerrar.IsEnabled = false;
    }

    #endregion  
}

the code of ConsoleView class

static public class ConsoleView
{
    //DEFINICIONES DE LA CLASE
    #region DEFINICIONES DE LA CLASE
    static FrmConsole console;
    static Thread StatusThread;
    static bool isActive = false;
    #endregion

    //CONSTRUCTORES DE LA CLASE
    #region CONSTRUCTORES DE LA CLASE

    #endregion

    //PROPIEDADES
    #region PROPIEDADES

    #endregion

    //DELEGADOS
    #region DELEGADOS

    #endregion

    //METODOS Y FUNCIONES
    #region METODOS Y FUNCIONES

    public static void Show(string label)
    {
        if (isActive)
        {
            return;
        }

        isActive = true;
        //create the thread with its ThreadStart method
        StatusThread = new Thread(() =>
        {
            try
            {
                console = new FrmConsole(label);
                console.ShowDialog();
                //this call is needed so the thread remains open until the dispatcher is closed
                Dispatcher.Run();
            }
            catch (Exception)
            {
            }
        });

        //run the thread in STA mode to make it work correctly
        StatusThread.SetApartmentState(ApartmentState.STA);
        StatusThread.Priority = ThreadPriority.Normal;
        StatusThread.Start();

    }

    public static void Close()
    {
        isActive = false;
        if (console != null)
        {
            //need to use the dispatcher to call the Close method, because the window is created in another thread, and this method is called by the main thread
            console.Dispatcher.InvokeShutdown();
            console = null;
            StatusThread = null;
        }

        console = null;
    }

    public static void Release()
    {
        isActive = false;
        if (console != null)
        {
            console.Dispatcher.Invoke(console.ActivarCerrar);
        }

    }
    #endregion
}

I hope this result usefull.

0

Check out this post, was very helpful for myself. Download the code sample:

http://www.codeproject.com/Articles/335909/Embedding-a-Console-in-a-C-Application

-16

As far as I know, Console.WriteLine() is only for console applications. I think this is your problem.

  • 1
    I don't know about WPF, but this certainly isn't the case for WinForms. Console.WriteLine works fine there, but, of course, you won't see the console, you will see it in the Debugger output window and if you listen to the standard output. – Jeff Yates Oct 2 '08 at 4:13
  • 2
    you can set the project to a Console application and it will still run as a Windows app but it will also have a visible console – Mark Cidade Oct 8 '08 at 16:32
  • That's incorrect, the build process of a non console application does not attach a console by deffault. You can do this manually by calling the AllocConsole() Win32 API function before any call to Console.Write, the Console class will then be initialized to work with that Console window. – John Leidegren Apr 5 '09 at 7:11

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