I was troubleshooting an application today at work that runs periodically to handle some data processing needs, it often runs just fine but sometimes the application will crash and someone will have to manually restart it.
After looking at the source and some debugging it seems the core of the program relies on a recursive function that is removing rows from a DataTable and then stopping once the DataTable no longer has any rows remaining.
Here is the code:
Public Sub ProcessData(ByRef dtTable As DataTable) Dim DataView1 As New DataView() Dim UID As String = "" Dim dtUID As New DataTable dtUID = dtTable.Clone() UID = dtTable.Rows(0)("UID") DataView1 = dtTable.DefaultView Dim expression As String = "UID ='" & UID & "'" DataView1.RowFilter = expression For n As Integer = 0 To DataView1.Count - 1 dtUID.ImportRow(DataView1.Item(n).Row) Next Dim foundRows() As DataRow foundRows = dtTable.Select(expression) For n As Integer = 0 To foundRows.GetUpperBound(0) dtTable.Rows.Remove(foundRows(n)) Next For n As Integer = 0 To dtUID.Rows.Count - 1 ProcessRecord(dtUID, n) Next If dtTable.Rows.Count > 0 Then ProcessData(dtTable) End If End Sub
ProcessRecord() is a function that applies all the business logic to the record and also does a write to a database. The unhandled stack overFlow exception happens at:
For n As Integer = 0 To DataView1.Count - 1
In the real world this function would be fed a
DataTable with around 100,000 records in it. In testing it, it will run through about 40,000-65,000 pretty consistently after many trial runs before it has the stack overflow. The code that creates the
ProcessRecord() flag records that have already been processed, so if you're working through a 100,000 record large data set then subsequent calls to this method after a crash will be passed a smaller
DataTable (35,000-60,000 records.) Interestingly the stack overflow will happen more and more often with smaller
DataTables, I can consistently get through 40k-65k of a 100k
DataTable but cannot consistently get through 15k of a 15k
DataTable without a crash (eventually it will complete all records, with multiple crashes over the last few thousand.)
Once I saw what the problem was I basically scrapped most of this code and used an implementation I've used for similar tasks in the past. But I really wanted to understand exactly why this code was causing this problem.