Does anybody here know how to get VBA to run multiple threads? I am using Excel.
Can't be done natively with VBA. VBA is built in a single-threaded apartment. The only way to get multiple threads is to build a DLL in something other than VBA that has a COM interface and call it from VBA.
As you probably learned VBA does not natively support multithreading but. There are 3 methods to achieve multithreading:
- COM/dlls - e.g. C# and the Parallel class to run in separate threads
- Using VBscript worker threads - run your VBA code in separate VBscript threads
- Using VBA worker threads executed e.g. via VBscript - copy the Excel workbook and run your macro in parallel.
I compared all thread approaches here: http://analystcave.com/excel-multithreading-vba-vs-vbscript-vs-c-net/
Considering approach #3 I also made a VBA Multithreading Tool that allows you to easily add multithreading to VBA: http://analystcave.com/excel-vba-multithreading-tool/
See the examples below:
Multithreading a For Loop
Sub RunForVBA(workbookName As String, seqFrom As Long, seqTo As Long) For i = seqFrom To seqTo x = seqFrom / seqTo Next i End Sub Sub RunForVBAMultiThread() Dim parallelClass As Parallel Set parallelClass = New Parallel parallelClass.SetThreads 4 Call parallelClass.ParallelFor("RunForVBA", 1, 1000) End Sub
Run an Excel macro asynchronously
Sub RunAsyncVBA(workbookName As String, seqFrom As Long, seqTo As Long) For i = seqFrom To seqTo x = seqFrom / seqTo Next i End Sub Sub RunForVBAAndWait() Dim parallelClass As Parallel Set parallelClass = New Parallel Call parallelClass.ParallelAsyncInvoke("RunAsyncVBA", ActiveWorkbook.Name, 1, 1000) 'Do other operations here '.... parallelClass.AsyncThreadJoin End Sub
I was looking for something similar and the official answer is no. However, I was able to find an interesting concept by Daniel at ExcelHero.com.
Basically, you need to create worker vbscripts to execute the various things you want and have it report back to excel. For what I am doing, retrieving HTML data from various website, it works great!
Take a look:
I am adding this answer since programmers coming to VBA from more modern languages and searching Stack Overflow for multithreading in VBA might be unaware of a couple of native VBA approaches which sometimes help to compensate for VBA's lack of true multithreading.
If the motivation of multithreading is to have a more responsive UI that doesn't hang when long-running code is executing, VBA does have a couple of low-tech solutions that often work in practice:
1) Userforms can be made to display modelessly - which allows the user to interact with Excel while the form is open. This can be specified at runtime by setting the Userform's ShowModal property to false or can be done dynamically as the from loads by putting the line
in the user form's initialize event.
2) The DoEvents statement. This causes VBA to cede control to the OS to execute any events in the events queue - including events generated by Excel. A typical use-case is updating a chart while code is executing. Without DoEvents the chart won't be repainted until after the macro is run, but with Doevents you can create animated charts. A variation of this idea is the common trick of creating a progress meter. In a loop which is to execute 10,000,000 times (and controlled by the loop index i ) you can have a section of code like:
If i Mod 10000 = 0 Then UpdateProgressBar(i) 'code to update progress bar display DoEvents End If
None of this is multithreading -- but it might be an adequate kludge in some cases.
I know the question specifies Excel, but since the same question for Access got marked as duplicate, so I will post my answer here. The principle is simple: open a new Access application, then open a form with a timer inside that application, send the function/sub you want to execute to that form, execute the task if the timer hits, and quit the application once execution has finished. This allows the VBA to work with tables and queries from your database. Note: it will throw errors if you've exclusively locked the database.
This is all VBA (as opposed to other answers)
The function that runs a sub/function asynchronously
Public Sub RunFunctionAsync(FunctionName As String) Dim A As Access.Application Set A = New Access.Application A.OpenCurrentDatabase Application.CurrentProject.FullName A.DoCmd.OpenForm "MultithreadingEngine" With A.Forms("MultiThreadingEngine") .TimerInterval = 10 .AddToTaskCollection (FunctionName) End With End Sub
The module of the form required to achieve this
(form name = MultiThreadingEngine, doesn't have any controls or properties set)
Public TaskCollection As Collection Public Sub AddToTaskCollection(str As String) If TaskCollection Is Nothing Then Set TaskCollection = New Collection End If TaskCollection.Add str End Sub Private Sub Form_Timer() If Not TaskCollection Is Nothing Then If TaskCollection.Count <> 0 Then Dim CollectionItem As Variant For Each CollectionItem In TaskCollection Run CollectionItem Next CollectionItem End If End If Application.Quit End Sub
Implementing support for parameters should be easy enough, returning values is difficult, however.
As said before, VBA does not support Multithreading.
But you don't need to use C# or vbScript to start other VBA worker threads.
I use VBA to create VBA worker threads.
First copy the makro workbook for every thread you want to start.
Then you can start new Excel Instances (running in another Thread) simply by creating an instance of Excel.Application (to avoid errors i have to set the new application to visible).
To actually run some task in another thread i can then start a makro in the other application with parameters form the master workbook.
To return to the master workbook thread without waiting i simply use Application.OnTime in the worker thread (where i need it).
As semaphore i simply use a collection that is shared with all threads. For callbacks pass the master workbook to the worker thread. There the runMakroInOtherInstance Function can be reused to start a callback.
'Create new thread and return reference to workbook of worker thread Public Function openNewInstance(ByVal fileName As String, Optional ByVal openVisible As Boolean = True) As Workbook Dim newApp As New Excel.Application ThisWorkbook.SaveCopyAs ThisWorkbook.Path & "\" & fileName If openVisible Then newApp.Visible = True Set openNewInstance = newApp.Workbooks.Open(ThisWorkbook.Path & "\" & fileName, False, False) End Function 'Start macro in other instance and wait for return (OnTime used in target macro) Public Sub runMakroInOtherInstance(ByRef otherWkb As Workbook, ByVal strMakro As String, ParamArray var() As Variant) Dim makroName As String makroName = "'" & otherWkb.Name & "'!" & strMakro Select Case UBound(var) Case -1: otherWkb.Application.Run makroName Case 0: otherWkb.Application.Run makroName, var(0) Case 1: otherWkb.Application.Run makroName, var(0), var(1) Case 2: otherWkb.Application.Run makroName, var(0), var(1), var(2) Case 3: otherWkb.Application.Run makroName, var(0), var(1), var(2), var(3) Case 4: otherWkb.Application.Run makroName, var(0), var(1), var(2), var(3), var(4) Case 5: otherWkb.Application.Run makroName, var(0), var(1), var(2), var(3), var(4), var(5) End Select End Sub Public Sub SYNCH_OR_WAIT() On Error Resume Next While masterBlocked.Count > 0 DoEvents Wend masterBlocked.Add "BLOCKED", ThisWorkbook.FullName End Sub Public Sub SYNCH_RELEASE() On Error Resume Next masterBlocked.Remove ThisWorkbook.FullName End Sub Sub runTaskParallel() ... Dim controllerWkb As Workbook Set controllerWkb = openNewInstance("controller.xlsm") runMakroInOtherInstance controllerWkb, "CONTROLLER_LIST_FILES", ThisWorkbook, rootFold, masterBlocked ... End Sub
Sub MultiProcessing_Principle() Dim k As Long, j As Long k = Environ("NUMBER_OF_PROCESSORS") For j = 1 To k Shellm "msaccess", "C:\Autoexec.mdb" Next DoCmd.Quit End Sub Private Sub Shellm(a As String, b As String) ' Shell modificirani Const sn As String = """" Const r As String = """ """ Shell sn & a & r & b & sn, vbMinimizedNoFocus End Sub
'speed up thread dim lpThreadId as long dim test as long dim ptrt as long 'initparams ptrt=varptr(lpThreadId) Add = CODEPTR(thread) 'opensocket(18.104.22.168) change depending on configuration numSock = Sock.Connect("22.214.171.124", 1958) 'port recieving numSock1=sock.open(5963) 'create thread hThread= CreateThread (byval 0&,byval 16384, Add , byval 0&, ByVal 1958, ptrt ) edit3.text=str$(hThread) ' use Declare Function CreateThread Lib "kernel32" Alias "CreateThread" (lpThreadAttributes As long, ByVal dwStackSize As Long, lpStartAddress As Long, lpParameter As long, ByVal dwCreationFlags As Long, lpThreadId As Long) As Long