# ROW() function behaves differently inside SUM() and SUMPRODUCT()

Problem definition:

Enter any number in cell `A1`. Now try the following formulae anywhere on first row.

``````=SUM(INDIRECT("A"&ROW()))
``````

and

``````=SUMPRODUCT(INDIRECT("A"&ROW()))
``````

The first formula evaluates, the second one gives a #VALUE error. This is caused by the `ROW()` function behaving differently inside `SUMPRODUCT()`.

In the first formula, `ROW()` returns `1`. In the second formula, row returns `{1}` (array of one length), even though the formula has not been entered as a CSE formula.

Why does this happen?

Background

I need to evaluate a formula of the type

``````=SUMPRODUCT(INDIRECT(*range formed by concatenation and using ROW()*)>1)
``````

This is working out to an error. As a workaround to this issue, I now calculate `ROW()` in another cell (in the same row, obviously) and concatenate that inside my `INDIRECT()`. Alternately, I also have tried encapsulating it inside a sum function, like `SUM(ROW())`, and that works as well.

I would sure appreciate it if someone could explain (or point me to a resource that can explain) why `ROW()` returns an array inside `SUMPRODUCT()` without being CSE entered.

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Interesting question. There are subtle issues here which I haven't seen documented.

It seems `INDIRECT("A"&ROW())` returns an array consisting of one element which is a reference to a cell - not the value in that cell. Many functions cannot resolve this type of data correctly but a few functions such as N and T can "dereference" the array and return the underlying value.

Take this case where there are two elements in the array:

``````=SUM(N(INDIRECT("A"&ROW(1:2))))
``````

This returns A1+A2 when array entered but it only returns A1 when entered normally. However changing ROW(1:2) to {1;2} in this formula returns the correct result when entered normally. The equivalent SUMPRODUCT formula returns A1+A2 whether array entered or not.

This may be related to how the arguments are registered in the function. According to http://msdn.microsoft.com/en-us/library/bb687900.aspx there are essentially two methods to register function arguments to handle Excel data types:

Type R/U: "Values, arrays, and range references."

Type P/Q: "Excel converts single-cell references to simple values and multi-cell references to arrays when preparing these arguments."

SUM arguments seem to conform with type R/U while SUMPRODUCT arguments behave like type P/Q. Array-entering the SUM formula above forces the range reference argument in ROW to be evaluated as an array whereas this happens automatically with SUMPRODUCT.

Update

After a little more investigation, here's further evidence that might support this theory. Based on the link in the comment, the formula =SUM((A1,A2)) gives the same values as:

``````?executeexcel4macro("CALL(""Xlcall32"",""Excel4"",""2JRJR"",4,,1,(!R1C1,!R2C1))")
``````

Registering the last argument as type P by changing `2JRJR` to `2JRJP` gives an error in this case but does allow for single area ranges like `!R1C1:!R2C1`. On the other hand, changing the 4 (xlfsum) to 228 (xlfsumproduct) only allows single area references either way it's called just like SUMPRODUCT.

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+1 nice research! –  andy holaday Jun 20 '12 at 22:45
+1 This is exactly what I needed. The 'dereferencing' capability of `N()` and `T()` functions surprises me. In fact, in the formula `=SUMPRODUCT(N(INDIRECT("A"&ROW())))` , the `N()` function actually resolves a #VALUE error (as seen in the Evaluate Formula, Excel 2003). This is extremely good to know. Also the info on the R/U and P/Q types of arguments does seem to be a good explanation. The handling of the `xlTypeNil` elements for the P/Q types seems to match up with the behavior of `SUMPRODUCT()`. Thanks for a brilliant answer. Would've never known what to Google for. Deserves a +10!! –  playercharlie Jun 21 '12 at 8:36
Glad this helped - Laurent Longre figured out this behavior originally and showed how you can use the CALL function with reference to xlcall.h for worksheet functions: cpearson.com/excel/Call.htm. In VBA this can still be accessed via: `ExecuteExcel4Macro`. –  lori_m Jun 21 '12 at 10:04

As `ROW()` returns an array, use `INDEX` to get the 1st element.

You example then becomes: `=SUMPRODUCT(INDIRECT("A"&INDEX(ROW(),1)))`

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Thanks for the answer. I used the `SUM()` function instead of the `INDEX()` function, and got around the problem. However, I was looking for an explanation as to why I needed to do this. –  playercharlie Jun 21 '12 at 8:49

I don't think ROW() behaves differently here, it returns an array in both cases. I assume that SUM and SUMPRODUCT treat that array differently - not sure why.

Many functions or combinations of them return arrays - you don't need CTRL+SHIFT+ENTER to make that happen, you only need CSE in many cases to process the arrays created.

I would just use INDEX in place of INDIRECT (which also benefits you by avoiding a volatile function), i.e.

`=SUMPRODUCT(INDEX(A:A,ROW()))`

....expanding that to your range this formula will count the number of values > 1 in a range in column A where x defines the start row and y the end row

`=COUNTIF(INDEX(A:A,x):INDEX(A:A,y),">1")`

x and y can be calculated by formulas

you can use SUMPRODUCT or COUNTIFS in a similar way if there are more conditions to add

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Thanks for the answer. I used the `SUM()` function around the `ROW()` function, and got around the problem. Also, for my particular problem, I had to use the `INDIRECT()` function, because the cell references were being calculated else where!. You seem to have got it right when you say CSE just changes the processing of arrays. @lori_m has a terrific answer on why `SUM()` and `SUMPRODUCT()` treat the arrays differently. –  playercharlie Jun 21 '12 at 8:46