How can I programmatically (in C#) determine, if ANOTHER foreign application (native, java, .NET or whatever...) is currently demanding user input? Can this be done fully in Managed code?

What I'm looking for is the implementation of:

static Boolean IsWaitingForUserInput(String processName)

By demanding user input I mean when an application asks the user to enter some data or quit an error message (Modal dialogs) and is not able to perform its normal tasks anymore. A drawing application that is waiting for the user to draw something is not meant here.

PS: After edits to reflect the comments at the bottom and make the concern clearer, some comments and answers may not be 100% consistent with the question. Take this into account when evaluating the answers and remarks.

  • Can you define "waiting for user input" in a GUI application? Is a mouse click not also user input? Sep 10, 2009 at 11:20
  • By waiting for user input I mean everything that impeaches the third party tool to go on with its work automatically. This includes waiting for quitting a dialog box (like an error message box in most of our cases)
    – jdehaan
    Sep 10, 2009 at 11:25
  • Do I understand you well, that "the third party tool" and the "ANOTHER foreign application" both refer to the same application, whose state you want to check? Sep 10, 2009 at 12:45
  • Right! I thought a lot about how to formulate the problem clearly, it's amazing that there are always so many problems in human communication :-)
    – jdehaan
    Sep 10, 2009 at 13:28
  • I know this isn't answering your question, but I believe the name for the app state you are looking for is "input-idle". Try searching for that and see if you get any helpful hits. Sep 18, 2009 at 20:20

4 Answers 4


It's in general impossible. Take for instance a common kind of application, a word processor. Nowadays that will be running spellchecks in the background, it periodically auto-saves your document, etcetera. Yet from a users perspective it's waiting for input all the time.

Another common case would be a slideshow viewer. At any moment in time you could press a key to advance a slide. Yet your typical user would not view this as "waiting for input".

To summarize: "waiting for input" is a subjective state and therefore cannot be determined programmatically.

  • impossible to solve in a general sense. The pattern to apply would be a strategy; you'd have to determine how to examine the each application you need to solve this problem for, and figure out what constitutes a "waiting for user input" state. As one of the other answers to this question shows, it can be solved for Excel using a modal dialog to "demand" user input.
    – Blue Toque
    Sep 20, 2009 at 19:43
  • Impossible is nothing ;-) I agree it's a matter of definition. I rewrote the question to be more precise, there are definitively approaches to solve the problem like the one I posted (best I could get and I am happy with it)
    – jdehaan
    Sep 21, 2009 at 12:04
  • 1
    there's no impossible in most of these questions. There is only "how bad do you want this"
    – Blue Toque
    Sep 21, 2009 at 17:03
  • Thanks Oplopanax, I sometimes wonder that an answer that definitively does not help to solve a real problem I and probably others have (poorly or not but at least better than nothing) gets upvoted so many times!!! [By the time of this response the question was written in a misleading way this should not be a comment to blame MSalters ;-)]
    – jdehaan
    Sep 22, 2009 at 5:10

How do you like this?

I worked out a solution that seems to work, please notify me in case of problems with this code so I also gain benefit of improvements. It works for Excel as far as I tested. The only issue I dislike is that I had to use unmanaged calls. It also handles the case when an application is based on a dialog like for MFC, derived from CDialog.

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Runtime.InteropServices;
using System.Threading;
using System.Diagnostics;

namespace Util
    public class ModalChecker
        public static Boolean IsWaitingForUserInput(String processName)
            Process[] processes = Process.GetProcessesByName(processName);
            if (processes.Length == 0)
                throw new Exception("No process found matching the search criteria");
            if (processes.Length > 1)
                throw new Exception("More than one process found matching the search criteria");
            // for thread safety
            ModalChecker checker = new ModalChecker(processes[0]);
            return checker.WaitingForUserInput;

        #region Native Windows Stuff
        private const int WS_EX_DLGMODALFRAME = 0x00000001;
        private const int GWL_EXSTYLE = (-20);
        private delegate int EnumWindowsProc(IntPtr hWnd, int lParam);
        private extern static int EnumWindows(EnumWindowsProc lpEnumFunc, int lParam);
        [DllImport("user32", CharSet = CharSet.Auto)]
        private extern static uint GetWindowLong(IntPtr hWnd, int nIndex);
        private extern static uint GetWindowThreadProcessId(IntPtr hWnd, out IntPtr lpdwProcessId);

        // The process we want the info from
        private Process _process;
        private Boolean _waiting;

        private ModalChecker(Process process)
            _process = process;
            _waiting = false; //default

        private Boolean WaitingForUserInput
                EnumWindows(new EnumWindowsProc(this.WindowEnum), 0);
                return _waiting;

        private int WindowEnum(IntPtr hWnd, int lParam)
            if (hWnd == _process.MainWindowHandle)
                return 1;
            IntPtr processId;
            GetWindowThreadProcessId(hWnd, out processId);
            if (processId.ToInt32() != _process.Id)
                return 1;
            uint style = GetWindowLong(hWnd, GWL_EXSTYLE);
            if ((style & WS_EX_DLGMODALFRAME) != 0)
                _waiting = true;
                return 0; // stop searching further
            return 1;
  • 2
    this is probably the only definition of "waiting for user input" that is valid. a modal dialog. we should probably call it "demanding user input"
    – slf
    Sep 17, 2009 at 17:31
  • Good idea! I know this was more or less matter of definition. This piece of code is hopefully a good base for other people wanting to do the same thing.
    – jdehaan
    Sep 17, 2009 at 18:00
  • One downside of it is that it misses detection of a triggered jit debugger... Any ideas to solved it (not only for one special jit debugger)?
    – jdehaan
    Sep 22, 2009 at 6:53

If I understand you well, you may try to enumerate the process's threads and check their states. Windows Task Manager does something similar. This however will require Win32 functions - Thread32First and Thread32Next among others - but you can achieve this by the simplest use of P/Invoke in C#:

    public static extern bool Thread32First(IntPtr handle, IntPtr threadEntry32);

(Precise signature may differ).

EDIT: Ok, there are corresponding functions in the .NET library.

  • Enumerating the threads and check their state was not enough, like MSalters remarked, Input-Idle is the state where the application processes messages, not really 100% signalizing a demand for input from the user.
    – jdehaan
    Sep 22, 2009 at 11:33

If possible, rewrite the other code to be a concurrent input processor (similar to the algorithm for a concurrent web server):

Wait for input
Fork process
  Parent: Repeat
  Child: (Worker) handle input

Of course, you could still have your function:

static Boolean IsWaitingForUserInput(String processName) {
    return true;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.