# SumProduct over sets of cells (not contiguous)

I have a total data set that is for 4 different groupings. One of the values is the average time, the other is count. For the Total I have to multiply these and then divide by the total of the count. Currently I use:

``````=SUM(D32*D2,D94*D64,D156*D126,D218*D188)/SUM(D32,D94,D156,D218)
``````

I would rather use a SumProduct if I can to make it more readable. I tried to do:

``````=SUMPRODUCT((D2,D64,D126,D188),(D32,D94,D156,D218))/SUM(D32,94,D156,D218)
``````

But as you can tell by my posting here, that did not work. Is there a way to do SumProduct like I want?

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I've updated my answer with a possible custom function solution. –  gvkv Mar 12 '10 at 22:55

## 3 Answers

It might be possible with masterful excel-fu, but even if it can be done, it's not likely to be more readable than your original solution. The problem is that even after 20+ years, Excel still borks discontinuous ranges. Naming them won't work, array formulas won't work and as you see with SUMPRODUCT, they don't generally work in tuple-wise array functions. Your best bet here is to come up with a custom function.

UPDATE

You're question got me thinking about how to handle discontinuous ranges. It's not something I've had to deal with much in the past. I didn't have the time to give a better answer when you asked the question but now that I've got a few minutes, I've whipped up a custom function that will do what you want:

``````Function gvSUMPRODUCT(ParamArray rng() As Variant)

Dim sumProd As Integer
Dim valuesIndex As Integer
Dim values() As Double

For Each r In rng()
For Each c In r.Cells
On Error GoTo VBAIsSuchAPainInTheAssSometimes
valuesIndex = UBound(values) + 1
On Error GoTo 0
ReDim Preserve values(valuesIndex)
values(valuesIndex) = c.Value
Next c
Next r
If valuesIndex Mod 2 = 1 Then
For i = 0 To (valuesIndex - 1) / 2
sumProd = sumProd + values(i) * values(i + (valuesIndex + 1) / 2)
Next i
gvSUMPRODUCT = sumProd
Exit Function
Else
gvSUMPRODUCT = CVErr(xlErrValue)
Exit Function
End If

VBAIsSuchAPainInTheAssSometimes:
valuesIndex = 0
Resume Next

End Function
``````

Some notes:

• Excel enumerates ranges by column then row so if you have a continuous range where the data is organized by column, you have to select separate ranges: gvSUMPRODUCT(A1:A10,B1:B10) and not gvSUMPRODUCT(A1:B10).
• The function works by pairwise multiplying the first half of cells with the second and then summing those products: gvSUMPRODUCT(A1,C3,L2,B2,G5,F4) = A1*B2 + C3*G5 + L2*F4. I.e. order matters.
• You could extend the function to include n-wise multiplication by doing something like gvNSUMPRODUCT(n,ranges).
• If there are an odd number of cells (not ranges), it returns the #VALUE error.
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So I guess I'll accept this answer, and just have to either keep the current methodology or add a section when I automate this with VBA that adds each each of the groupings to the Total area as well... –  Craig Mar 12 '10 at 14:02
See update for a possible solution. –  gvkv Mar 12 '10 at 22:55

I agree with the comment "It might be possible with masterful excel-fu, but even if it can be done, it's not likely to be more readable than your original solution"

A possible solution is to embed the `CHOOSE()` function within your `SUMPRODUCT` (this trick actually is pretty handy for vlookups, finding conditional maximums, etc.).

Example: Let's say your data has eight observations and is in two columns (columns B and C) but you don't want to include some observations (exclude observations in rows 4 and 5). Then the `SUMPRODUCT` code looks like this...

``````=SUMPRODUCT(CHOOSE({1,2},A1:A3,A6:A8),CHOOSE({1,2},B1:B3,B6:B8))
``````

I actually thought of this on the fly, so I don't know the limitations and as you can see it is not that pretty.

Hope this helps! :)

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I will have to try out the Choose() statement to see how it works as this is the first I have heard of it. Is it limited to 2010 Excel and above, do you know? –  Craig Apr 1 '14 at 0:21
Thanks! CHOOSE is what I needed to use LARGE on a discontinuous set of values :-) E.g. to add the top two of three: LARGE(CHOOSE({1,2,3},J54,N54,U54),1)+LARGE(CHOOSE({1,2,3},J54,N54,U54),2) –  eimaj Apr 30 at 9:19

It might be helpful to create an intermediate table that summarizes the data that you are using to calculate the sum product. That would also make the calculation easier to follow.

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