Complete Guide to Pausing VBA Execution
Background Information and Explanation
All Microsoft Office applications run VBA code in the same thread as the main user interface. This means, as long as the VBA code doesn't call
DoEvents, code execution freezes the entire application (It will show as "not responding" in Task-Manager!). This includes calls to the
Sleep API function. Once
Sleep is called, there is no way of recovering from this state without waiting for the time to pass or force quitting the Application and restarting it.
Application.Wait also suffers from this issue, except that the app will not show as
not responding in Task Manager in this case. It will still be just as unresponsive to the user.
A way to circumvent this problem is calling
DoEvents in a loop, as other people have already pointed out. However, this comes with another issue. Because the application will try to execute VBA code as fast as possible, DoEvents is called at the maximum achievable rate essentially saturating the CPU completely on that single thread, leading to high, unnecessary CPU and power usage and potentially slowing down other more important tasks in the UI.
This is why the best way of getting VBA to pause execution is a combination of both methods, using
DoEvents to stay responsive and
Sleep to avoid maximum CPU usage. An implementation of this is presented in the following.
The following code implements a
Sub that will pause execution for a given amount of seconds while avoiding all of the above-mentioned issues.
It can be used like this:
This will pause the macro for 3.5 seconds, without freezing the application or causing excessive CPU usage. For this to work, just copy the following code to the top of any standard code module.
#If Mac Then
#If VBA7 Then
Private Declare PtrSafe Sub USleep Lib "/usr/lib/libc.dylib" Alias "usleep" (ByVal dwMicroseconds As Long)
Private Declare Sub USleep Lib "/usr/lib/libc.dylib" Alias "usleep" (ByVal dwMicroseconds As Long)
#If VBA7 Then
Private Declare PtrSafe Sub MSleep Lib "kernel32" Alias "Sleep" (ByVal dwMilliseconds As Long)
Private Declare Sub MSleep Lib "kernel32" Alias "Sleep" (ByVal dwMilliseconds As Long)
'Sub providing a Sleep API consistent with Windows on Mac (argument in ms)
'Authors: Guido Witt-Dörring, https://stackoverflow.com/a/74262120/12287457
' Cristian Buse, https://stackoverflow.com/a/71176040/12287457
Public Sub Sleep(ByVal dwMilliseconds As Long)
#If Mac Then 'To avoid overflow issues for inputs > &HFFFFFFFF / 1000:
Do While dwMilliseconds And &H80000000
If dwMilliseconds < (&H418937 Or &H80000000) Then
dwMilliseconds = &H7FBE76C9 + (dwMilliseconds - &H80000000)
Else: dwMilliseconds = dwMilliseconds - &H418937: End If
Do While dwMilliseconds > &H418937
USleep &HFFFFFED8: dwMilliseconds = dwMilliseconds - &H418937
If dwMilliseconds > &H20C49B Then
USleep (dwMilliseconds * 500& Or &H80000000) * 2&
Else: USleep dwMilliseconds * 1000&: End If
'Sub pausing code execution without freezing the app or causing high CPU usage
'Author: Guido Witt-Dörring, https://stackoverflow.com/a/74387976/12287457
Public Sub WaitSeconds(ByVal seconds As Single)
Dim currTime As Single: currTime = Timer()
Dim endTime As Single: endTime = currTime + seconds
Dim cacheTime As Single: cacheTime = currTime
Do While currTime < endTime
Sleep 15: DoEvents: currTime = Timer() 'Timer function resets at 00:00!
If currTime < cacheTime Then endTime = endTime - 86400! '<- sec per day
cacheTime = currTime
 More information on the cross-platform
Sleep included in the above code can be found here and here.
If application freezing is not an issue, e.g. for very short delays or if user interaction is undesired, the best solution is to call
Sleep directly. This is why, in the above solution, it is also declared as
Public. Note that
Sleep takes its argument as milliseconds.
'Does freeze application
Sleep 3.5 * 1000
The time precision of the
Timer() function used in this solution is better on Windows, however, the claim in the documentation, that resolution on Mac is one second, is wrong. Even on Mac, the resolution is better than 0.1 seconds. Still, you shouldn't expect a resolution much better than ~
0.1 seconds from this solution!
WaitSeconds 1 will wait around
1.015 ± 0.02 seconds on Windows.
If you plan on using this to pause your code for long periods of time, or even in a case like OP is dealing with, you are most likely not using the correct tool for the job. If you are using Excel, consider looking into
Application.OnTime. (See the following section)
Alternatives to Pausing VBA Execution and Better Solution for OP
The question op has asked does not lead to the best solution for his problem. It's an XY-Problem.
It is not actually necessary to have VBA code running non-stop in the background in order to recalculate a Workbook every second. This is a typical example of a task that can also be achieved with
A detailed guide including a copy-paste solution to recalculate any
Range at any desired time interval
≥ 1s is available here.
The big advantage of using
Application.OnTime for this is that it avoids a continuously running macro and hence allows the use of other macros or other features that are unavailable while macros are running.
Meta-Analysis of All Other Solutions in This Thread
The reason I even wrote this answer is that all other solutions presented in this thread (at the time this post was written) have at least one of the following two severe drawbacks:
- They freeze the calling application completely, causing it to no longer respond to user input, or
- They cause excessive CPU usage (100% on the calling application's thread) by calling
DoEvents in a loop.
Additionally, many of the proposed solutions have other issues:
Some only work on Windows
Some only work in Excel
Some have an intrinsic imprecision of more than one second
Some have other problems or even bugs
The following table will give a short overview of all the solutions in this thread and their features
||App stays responsive and usable
||Freezes calling app completely
||Practically no CPU usage
||100% CPU usage in the single executing thread
||Works outside Excel
||Works only in Excel
||Works on both, Windows and Mac
||Only works on Windows
||Time precision < 0.1 seconds
||Time precision > 0.1 seconds (usually about 1 second)
||No other issues
||Has some other issues described in the table below
||This solution will sleep indefinitely if at the time of calling
Timer() + vSeconds > 172800 (
vSevonds is the input value). In practice, this shouldn't be a big problem because
Timer() is always ≤ 86400 so the input value needs to be bigger than 86400 which is one day. Such functions usually shouldn't be called for such long times anyways.
||This solution doesn't allow pausing for a specific amount of time at all! You just specify how often you want to call
DoEvents before continuing. How long this is, depends on the speed of your system. On my PC, calling the function with the maximum value a
Long can take (2147483647) (so the maximum time the function can pause) will pause for about 1434 seconds or about 24 minutes. Obviously, this is a terrible "solution".
||This solution will sleep indefinitely if at the time of calling
Timer() + sngSecs > 86400 (
sngSecs is the input value). Because
Timer() can return values up to 86400, calling this function right before midnight can cause this bug even with very small input values. This is a severe bug and should be considered!
||This solution does not wait at all. If you consider its generalization,
Application.Wait Second(Now) + dblInput, it will not wait at all for input values smaller than
CDbl(Now) - 60# / 86400#, which is 44815 at the time of writing this, and for input values larger than that, it will wait for
dblInput - CDbl(Now) - Second(Now) / 86400# days. While input values can be constructed that will make this wait for a reasonable amount of time, this is very difficult. A terrible "solution".
||The comment describes this function as being able to cause delays of up to 99 seconds. This is wrong because input values where
T Mod 100 > 60(
T is the input parameter) will cause an error and hence stop execution indefinitely if the error is not handled by the calling code. You can confirm this by calling the function like this:
||This solution will work correctly but additionally sets
Application.EnableEvents = True for no reason at all. If the calling code set this property to
False and reasonably doesn't expect a function that has nothing to do with this to set it to
True, this can lead to severe bugs in the calling code. If that line is deleted, the solution is fine.