I have a client who needs Excel VBA code that produces formula values moved to VB.NET. He is in the business of providing financial analytics, in this case delivered as an Excel add-in. I have translated the VBA into VB.NET code that runs in a separate DLL. The DLL is compiled as a COM Server because, well, Excel-callable .NET UDFs have to be. So far, so good: Excel cells have "=foo(Range1, Range2, ...)", the VB.NET Com Server's UDF is called, and the cell obtains a value that matches the VBA code's value.
The VB.NET code is way slower. I can stretch a range of VBA-based formulas and get instantaneous calculation. I can stretch a comparable range of VB.NET-based formulas and the calculation takes 5-10 seconds. It is visibly slower and unacceptable to the client.
There are a few possibilities that occur to me:
- native compilation of VBA is faster because of the absence of a switch
- the DLL may be loaded and unloaded for each UDF call
- the DLL calls Excel WorksheetFunction methods and requires an Application object, and creating the Application object is expensive
- calling an Excel WorksheetFunction method from the DLL is expensive
I don't think that (2) is true because I put calls to append to a file in the Shared New, the Public New, and Finalize functions, and all I get are:
Shared Sub New Public Sub New Finalize
when I open the spreadsheet, repeatedly stretch a formula range, and close the spreadsheet.
I don't think (3) is true because the file writing shows that the Application object is created only once.
How do I figure out what is taking the time? How to profile in this environment? Are there obvious enhancements?
In the last category, I have tried to reduce the number of creations of an Application object (used for WorkSheetFunction calls) by making it Shared:
<Guid("1ECB17BB-444F-4a26-BC3B-B1D6F07D670E")> _ <ClassInterface(ClassInterfaceType.AutoDual)> _ <ComVisible(True)> _ <ProgId("Library.Class")> _ Public Class MyClass Private Shared Appp As Application ' Very annoying
I've tried to reduce the dependence on Excel mathematical functions by rewriting my own. I've replaced Min, Max, Average, Stdev, Small, Percentile, Skew, Kurtosis, and a few more. My UDF code calls out to Excel much less. The unavoidable call seems to be taking a Range as an argument and converting that to a .NET Array for internal use.