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I am trying to test the execution time differences between data types after looping through 1 million random numbers per data type (integer, double, decimal, and variant). I took this code from the Microsoft Developer website. I am using Excel 2010.

Here is the code:

    Option Explicit

    Sub Function1()

    Module Module1

    Declare Function QueryPerformanceCounter Lib "Kernel32" (ByRef X As Long) As Short
    Declare Function QueryPerformanceFrequency Lib "Kernel32" (ByRef X As Long) As Short

        Dim Ctr1, Ctr2, Freq As Long
        Dim Acc, I As Integer

        ' Times 100 increment operations by using QueryPerformanceCounter.

        If QueryPerformanceCounter(Ctr1) Then   ' Begin timing.
            For I = 1 To 100                    ' Code is being timed.
                Acc += 1
            Next
            QueryPerformanceCounter (Ctr2)      ' Finish timing.
            Console.WriteLine ("Start Value: " & Ctr1)
            Console.WriteLine ("End Value: " & Ctr2)
            QueryPerformanceFrequency (Freq)
            Console.WriteLine ("QueryPerformanceCounter minimum resolution: 1/" & Freq & " seconds.")
            Console.WriteLine ("100 Increment time: " & (Ctr2 - Ctr1) / Freq & " seconds.")
        Else
            Console.WriteLine ("High-resolution counter not supported.")
        End If
        '
        ' Keep console window open.
        '
        Console.WriteLine()
        Console.Write ("Press ENTER to finish ... ")
        Console.Read()

    End Module

    End Sub

    Sub Function1_Int_RandNumCounter()

    Dim Int_RandNum_X As Integer
    Dim Int_RandNum_Y As Integer
    Dim Count As Integer

    For Count = 1 To Count = 1000000
        Int_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Int_RandNum_Y = Rnd(Now)
    Next Count

    '    Call Function1_Dbl_RandNumCounter

End Sub

Sub Function1_Dbl_RandNumCounter()

Dim Dbl_RandNum_X As Double, Dbl_RandNum_Y As Double, Count As Double

    For Count = 1 To Count = 1000000
        Dbl_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Dbl_RandNum_Y = Rnd(Now)
    Next Count

    Call Function1_Var_RandNumCounter
End Sub
Sub Function1_Var_RandNumCounter()

Dim Var_RandNum_X, Var_RandNum_Y, Count As Variant

    For Count = 1 To Count = 1000000
        Var_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Var_RandNum_Y = Rnd(Now)
    Next Count

    Call Function1_Dec_RandNumCounter

End Sub
Sub Function1_Dec_RandNumCounter()

Dim Count, Var_RandNum_X, dec_RandNum_X, Var_RandNum_Y, dec_RandNum_Y

dec_RandNum_X = CDec(Var_RandNum_X)
dec_RandNum_Y = CDec(Var_RandNum_Y) ' convert these vals to decimals

    For Count = 1 To Count = 1000000
        dec_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        dec_RandNum_Y = Rnd(Now)
    Next Count

    Call Function2_BarGraph

End Sub
Sub Function2_BarGraph()
'   Put all of these vals in a 2D bar graph
End Sub

This code gives me errors such as:

Compile error:

Only comments may appear after End Sub, End Function, or End Property

EDIT: Here is the improved version of the code, which has no compile errors, but I'm not sure how to integrate the timer into my functions.

    Option Explicit

    Private Type LARGE_INTEGER
    lowpart As Long
    highpart As Long
    End Type

    Private Declare Function QueryPerformanceCounter Lib "kernel32" (lpPerformanceCount As LARGE_INTEGER) As Long
Private Declare Function QueryPerformanceFrequency Lib "kernel32" (lpFrequency As LARGE_INTEGER) As Long

Private m_CounterStart As LARGE_INTEGER
Private m_CounterEnd As LARGE_INTEGER
Private m_crFrequency As Double

Private Const TWO_32 = 4294967296# ' = 256# * 256# * 256# * 256#

Private Function LI2Double(LI As LARGE_INTEGER) As Double
Dim Low As Double
    Low = LI.lowpart
    If Low < 0 Then
        Low = Low + TWO_32
    End If
    LI2Double = LI.highpart * TWO_32 + Low
End Function

Private Sub Class_Initialize()
Dim PerfFrequency As LARGE_INTEGER
    QueryPerformanceFrequency PerfFrequency
    m_crFrequency = LI2Double(PerfFrequency)
End Sub

Public Sub StartCounter()
    QueryPerformanceCounter m_CounterStart
End Sub

Property Get TimeElapsed() As Double
Dim crStart As Double
Dim crStop As Double
    QueryPerformanceCounter m_CounterEnd
    crStart = LI2Double(m_CounterStart)
    crStop = LI2Double(m_CounterEnd)
    TimeElapsed = 1000# * (crStop - crStart) / m_crFrequency
End Property

Sub Function1_Int_RandNumCounter()

Dim Int_RandNum_X As Integer
Dim Int_RandNum_Y As Integer
Dim Count As Integer

    For Count = 1 To Count = 1000000
        Int_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Int_RandNum_Y = Rnd(Now)
    Next Count

'    Call Function1_Dbl_RandNumCounter

End Sub

Sub Function1_Dbl_RandNumCounter()

Dim Dbl_RandNum_X As Double, Dbl_RandNum_Y As Double, Count As Double

    For Count = 1 To Count = 1000000
        Dbl_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Dbl_RandNum_Y = Rnd(Now)
    Next Count

    Call Function1_Var_RandNumCounter
End Sub
Sub Function1_Var_RandNumCounter()

Dim Var_RandNum_X, Var_RandNum_Y, Count As Variant

    For Count = 1 To Count = 1000000
        Var_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        Var_RandNum_Y = Rnd(Now)
    Next Count

    Call Function1_Dec_RandNumCounter

End Sub
Sub Function1_Dec_RandNumCounter()

Dim Count, Var_RandNum_X, dec_RandNum_X, Var_RandNum_Y, dec_RandNum_Y

dec_RandNum_X = CDec(Var_RandNum_X)
dec_RandNum_Y = CDec(Var_RandNum_Y) ' convert these vals to decimals

    For Count = 1 To Count = 1000000
        dec_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
        dec_RandNum_Y = Rnd(Now)
    Next Count

    Call Function2_BarGraph

End Sub
Sub Function2_BarGraph()
'   Put all of these vals in a 2D bar graph
End Sub

EDIT: New VBA code (did I set up this function properly?)

Sub Function1_Int_RandNumCounter()
Dim Int_RandNum_X As Integer
Dim Int_RandNum_Y As Integer
Dim Count As Integer
Dim oPM As PerformanceMonitor
Dim Time_Int As Variant

Time_Int = CDec(Time_Int)

Set oPM = New PerformanceMonitor
oPM.StartCounter
For Count = 1 To Count = 1000000
    Int_RandNum_X = Rnd(Now) ' Get rnd vals based on Now, built-in VBA property
    Int_RandNum_Y = Rnd(Now)
Next

Time_Int = oPM.TimeElapsed

'    Call Function1_Dbl_RandNumCounter

End Sub
  • That's VB.Net code, not VBA. – Alex K. Jul 13 '15 at 12:20
  • 1
    FYI your benchmarking types but rarely declare them. dim a,b as T only declares b as T. – Alex K. Jul 13 '15 at 12:21
  • 2
    I suggest you read this: stackoverflow.com/questions/198409/… – Rory Jul 13 '15 at 12:22
  • @AlexK. I have been telling people the wrong programming language? Oh well. – Thomas Shera Jul 13 '15 at 12:22
  • @Rory I have added my new version of the code using that timer. Can you tell me how to integrate this timer into my macro? Thanks. – Thomas Shera Jul 13 '15 at 12:24
2

Add a new class module to your project, call it PerformanceMonitor and paste this code from the thread I linked to in my comment into the class:

Option Explicit

Private Type LARGE_INTEGER
    lowpart As Long
    highpart As Long
End Type

Private Declare Function QueryPerformanceCounter Lib "kernel32" (lpPerformanceCount As LARGE_INTEGER) As Long
Private Declare Function QueryPerformanceFrequency Lib "kernel32" (lpFrequency As LARGE_INTEGER) As Long

Private m_CounterStart As LARGE_INTEGER
Private m_CounterEnd As LARGE_INTEGER
Private m_crFrequency As Double

Private Const TWO_32 = 4294967296# ' = 256# * 256# * 256# * 256#

Private Function LI2Double(LI As LARGE_INTEGER) As Double
Dim Low As Double
    Low = LI.lowpart
    If Low < 0 Then
        Low = Low + TWO_32
    End If
    LI2Double = LI.highpart * TWO_32 + Low
End Function

Private Sub Class_Initialize()
    Dim PerfFrequency As LARGE_INTEGER

    QueryPerformanceFrequency PerfFrequency
    m_crFrequency = LI2Double(PerfFrequency)
End Sub

Public Sub StartCounter()
    QueryPerformanceCounter m_CounterStart
End Sub

Property Get TimeElapsed() As Double
Dim crStart As Double
Dim crStop As Double
    QueryPerformanceCounter m_CounterEnd
    crStart = LI2Double(m_CounterStart)
    crStop = LI2Double(m_CounterEnd)
    TimeElapsed = 1000# * (crStop - crStart) / m_crFrequency
End Property

Now as an example of how to use it, you need to declare and create an instance of the PerformanceMonitor class, then call its StartCounter method at the start of the code you want to time, then at the end call its TimeElapsed property to see how long it took (in milliseconds). For example:

Sub foo()
    Dim n As Long
    Dim oPM As PerformanceMonitor

    Set oPM = New PerformanceMonitor
    oPM.StartCounter
    For n = 1 To 100000
        Debug.Print n
    Next

    MsgBox oPM.TimeElapsed
    Set oPM = Nothing
End Sub
  • Thanks, I added that code and adapted my function to include the parts of this timer that need to go in it. How do I declare+create a PerformanceMonitor class and then call TimeElapsed? I think I understand the other parts though. – Thomas Shera Jul 13 '15 at 18:15
  • I have added my function which replaces your second example function (see above, the third block of code). – Thomas Shera Jul 13 '15 at 18:16
  • Looks fine - are you having an issue with it? – Rory Jul 13 '15 at 20:47
  • that part of the code works perfectly. How do I put this code in a class and then call the method? I am reading this ramblings.mcpher.com/Home/excelquirks/snippets/classes but it seems pretty technical to me and it's intended for beginners. – Thomas Shera Jul 14 '15 at 12:33
  • That's what you are doing above. If it works, you must have put the code into a class. – Rory Jul 14 '15 at 13:19

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