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I know VBA in Excel isn't the quickest of things - but I need the most efficient (i.e. quickest) way to loop through a large sample of rows.

Currently I have:

For Each c In Range("$A$2:$A$" & Cells(Rows.count, "A").End(xlUp).row
    ' do stuff
Next c

The 'do stuff' includes insert a row here and there (so I need to keep the dynamic lookup of the range.)

Any ideas (looking at 10,000 rows+)?

EDIT I am already using

Application.ScreenUpdating = False
Application.Calculation = xlManual
share|improve this question
It has been nearly a decade since I worked with VBA in Excel, so I'm a little foggy. But, I thought there was a way to turn off updating the screen while doing large processes like this which tended to speed things up considerably. I may not be remembering it correctly, though. – rcollyer Nov 18 '11 at 5:30
100% correct, I am using Application.ScreenUpdating = False and Application.Calculation = xlManual (will add to question) – Chris Nov 18 '11 at 5:36
You could try getting rid of the range by tracking any inserts you do yourself, but I tend to think there's not much optimization that could be done on the for loop construct itself. I could certainly be wrong about that, but you should benchmark how long it takes just to do the loop with nothing at all inside of it just to see if you could actually save a significant amount of time there or if you're looking in the wrong place. – Brandon Moore Nov 18 '11 at 5:39
I think you meant xlManual in your edit. – rcollyer Nov 18 '11 at 5:41
Indeed I did... – Chris Nov 18 '11 at 5:45

2 Answers 2

up vote 21 down vote accepted

If you are just looping through 10k rows in column A, then dump the row into a variant array and then loop through that.

You can then either add the elements to a new array (while adding rows when needed) and using Transpose() to put the array onto your range in one move, or you can use your iterator variable to track which row you are on and add rows that way.

Dim i As Long
Dim varray As Variant

varray = Range("A2:A" & Cells(Rows.Count, "A").End(xlUp).Row).Value

For i = 1 To UBound(varray, 1)
    ' do stuff to varray(i, 1)

Here is an example of how you could add rows after evaluating each cell. This example just inserts a row after every row that has the word "foo" in column A. Not that the "+2" is added to the variable i during the insert since we are starting on A2. It would be +1 if we were starting our array with A1.

Sub test()

Dim varray As Variant
Dim i As Long

varray = Range("A2:A10").Value

'must step back or it'll be infinite loop
For i = UBound(varray, 1) To LBound(varray, 1) Step -1
    'do your logic and evaluation here
    If varray(i, 1) = "foo" Then
       'not how to offset the i variable 
       Range("A" & i + 2).EntireRow.Insert
    End If

End Sub
share|improve this answer
+1 loops are unnecessary sometimes. Dump the range into an array, do what you need to the array, then dump it back. A dynamic second array (using Redim) can help when you need to "add rows" to the original data. – JimmyPena Nov 18 '11 at 13:56
Absolutely. I'm a big fan of redim on a second array myself :) – Issun Nov 18 '11 at 14:58
+1 on the variant array, and +1 on JPs comment to handle new rows – brettdj Nov 19 '11 at 2:34
I really like the idea of new array, but I am hitting a snag. Example - Range(...).value returns an array such as a(10,10). Say I have a second array, Redim a2 as variant, if I want to insert a 'row', I would ReDim a2 to 10+1, but how do I copy a(1) to a2(1) when 'a' as an entire row - at the moment I have to loop through every value across a2(1, 1) = a(1, 1), a2(1, 2) = a(1, 2), etc because I can not extract just the row of the array – Chris Nov 20 '11 at 9:26
Chris, it's for that reason that I suggested that you just insert rows using the i variable (if you start from A2 and you need to add a row, you know that the new row should be i +1). Adding rows to a new array can be worth it, but the comlexity is a trade-off for sure. The idea is usually that you transfer elements from one array to the other, adding rows as you go. – Issun Nov 20 '11 at 13:45

EDIT Summary and reccomendations

Using a for each cell in range construct is not in itself slow. What is slow is repeated access to Excel in the loop (be it reading or writing cell values, format etc, inserting/deleting rows etc).

What is too slow depends entierly on your needs. A Sub that takes minutes to run might be OK is only used rarely, but another that takes 10s might be too slow if run frequently.

So, some general advice:

  1. keep it simple at first. If the result is too slow for your needs, then optimise
  2. focus on optimisation of the content of the loop
  3. don't just assume a loop is needed. There are sometime alternatives
  4. if you need to use cell values (a lot) inside the loop, load them into a variant array outside the loop.
  5. a good way to avoid complexity with inserts is to loop the range from the bottom up
    (for index = max to min step -1)
  6. if you can't do that and your 'insert a row here and there' is not too many, consider reloading the array after each insert
  7. If you need to access cell properties other than value, you are stuck with cell references
  8. To delete a number of rows consider building a range reference to a multi area range in the loop, then delete that range in one go after the loop

eg (not tested!)

Dim rngToDelete as range
for each rw in rng.rows
    if need to delete rw then

        if rngToDelete is nothing then
            set rngToDelete = rw
            set rngToDelete = Union(rngToDelete, rw)
        end if


Original post

Conventional wisdom says that looping through cells is bad and looping through a variant array is good. I too have been an advocate of this for some time. Your question got me thinking, so I did some short tests with suprising (to me anyway) results:

test data set: a simple list in cells A1 .. A1000000 (thats 1,000,000 rows)

Test case 1: loop an array

Dim v As Variant
Dim n As Long

T1 = GetTickCount
Set r = Range("$A$1", Cells(Rows.Count, "A").End(xlUp)).Cells
v = r
For n = LBound(v, 1) To UBound(v, 1)
    'i = i + 1
    'i = r.Cells(n, 1).Value 'i + 1
Debug.Print "Array Time = " & (GetTickCount - T1) / 1000#
Debug.Print "Array Count = " & Format(n, "#,###")


Array Time = 0.249 sec
Array Count = 1,000,001

Test Case 2: loop the range

T1 = GetTickCount
Set r = Range("$A$1", Cells(Rows.Count, "A").End(xlUp)).Cells
For Each c In r
Next c
Debug.Print "Range Time = " & (GetTickCount - T1) / 1000#
Debug.Print "Range Count = " & Format(r.Cells.Count, "#,###")


Range Time = 0.296 sec
Range Count = 1,000,000

So,looping an array is faster but only by 19% - much less than I expected.

Test 3: loop an array with a cell reference

T1 = GetTickCount
Set r = Range("$A$1", Cells(Rows.Count, "A").End(xlUp)).Cells
v = r
For n = LBound(v, 1) To UBound(v, 1)
    i = r.Cells(n, 1).Value
Debug.Print "Array Time = " & (GetTickCount - T1) / 1000# & " sec"
Debug.Print "Array Count = " & Format(i, "#,###")


Array Time = 5.897 sec
Array Count = 1,000,000

Test case 4: loop range with a cell reference

T1 = GetTickCount
Set r = Range("$A$1", Cells(Rows.Count, "A").End(xlUp)).Cells
For Each c In r
    i = c.Value
Next c
Debug.Print "Range Time = " & (GetTickCount - T1) / 1000# & " sec"
Debug.Print "Range Count = " & Format(r.Cells.Count, "#,###")


Range Time = 2.356 sec
Range Count = 1,000,000

So event with a single simple cell reference, the loop is an order of magnitude slower, and whats more, the range loop is twice as fast!

So, conclusion is what matters most is what you do inside the loop, and if speed really matters, test all the options

FWIW, tested on Excel 2010 32 bit, Win7 64 bit All tests with

  • ScreenUpdating off,
  • Calulation manual,
  • Events disabled.
share|improve this answer
You're missing the most important test - loop the varray with varray reference. There is no point in test 3 - why loop an array but make a call to excel for every element and ignore the contents of the array? I think you'll find looping the array and referencing its elements is substancially faster than looping a range and referencing the cells (make sure you test with data inside the cells you are testing (not empty cells)). – Issun Nov 18 '11 at 6:51
@Issun sorry, but you miss the point: the OP clearly states The 'do stuff' includes insert a row here and there so a reference to the sheet inside the loop is required. The choice of instruction was deliberately trivial and not ment to be meaningful. If there is no need to reference the sheet inside the loop then using a zarray reference is the obvious answer and can (and did) go without saying. The really interesting thing here is using a loop over the cells is in itself not a costly method. What matters more is what you do inside the loop. – chris neilsen Nov 18 '11 at 7:04
Simply assigning a variable tmp to equal the cell value, 1M longs too 2.234sec for range and 0.3428sec for array in my tests. Similar results for strings (about a third of a second longer for both methods). – Issun Nov 18 '11 at 7:04
The reason the "range loop is twice as fast" compared to cycling through n in r.Cells(n, 1), is that the For Each construct is intrinsically quicker for marching through collections, compared to looking up collection members via their index, which is slower. Of course if you decide to call the latter "looping through a variant", then "looping through a variant" is bad, but that's not what it is; it is "looping through [a collection of] cells" via their index, which conventional wisdom accurately describes as slow. – Jean-François Corbett Nov 18 '11 at 7:30
An empty loop is a really bad way to test speed in general, since a loop will not be doing nothing. The time to for/foreach loop is practically nothing when each item in the range/collection/array are not being referenced. The moment you do, for each loops DESTROY the for loops, and varrays DESTROY calls to excel cells 8so much so that the fact that you are using for instead of for each is irrelevent) – Issun Nov 18 '11 at 7:47

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