Brian has a row of numbers with 240 cells. In this row, the numbers are steadily declining and will eventually, at some point in those 240 cells, become 0. The zeroes will continue to fill the remaining cells in the row. Brian needs to write an equation that will return the last non-zero value in the row.
There are a variety of ways that the desired value can be returned. (Doesn’t that always seem to be the case with Excel? You can come up with lots of ways to get a result.) In general, you could use a regular formula or an array formula.
If you want to use a regular formula, here’s one you can try:
The COUNTIF function counts the number of zero values and the COUNT function determines the number of cells in the range. Subtracting one from the other and adjusting by 1 gives the OFFSET value into the “array” of cells where the last non-zero value lies. This formula assumes that the values begin in column A; if they begin in a different column then you’ll need to adjust the value provided by the COUNT/COUNTIF portion of the formula to represent the offset from the first column.
Here’s a shorter variation of the formula, based on doing an offset from the right side of the range rather than the left side:
In this instance it is important that IF6 be the actual right end of the range. The formula works by counting the number of zero values in the range (all at the right side of the range) and then computing the cell address of the last cell (IF6) minus the number of zeros.
Here is a version that uses the INDEX function, instead:
This version is even shorter, using the LOOKUP function:
Array formulas can also be used. (Array formulas are entered by pressing Ctrl+Shift+Enter.) This one uses the INDIRECT function:
=INDIRECT("R6C" & MAX((A6:IF6>0)*COLUMN(A6:IF6)),FALSE)
This array formula uses an interesting implementation of the LOOKUP function to find the correct result:
Here’s another array formula that can be used, this time using the OFFSET function to find the last non-zero value in row 6:
Here’s an even shorter variation:
All of these formulas presented so far depend on the fact that the numbers in the row actually do decline-they go from whatever the beginning number is and steadily go toward zero. If the numbers don’t decline, then you can use a different type of array formula to determine the last non-zero value in the row:
The formula first determines the maximum column in the row (in this case row 6) that has a value not equal to zero, then it uses the INDEX function to get the value from that column in that row.
As you can tell, there are quite a few ways to find the last non-zero value in a row. Pick the one that strikes your fancy; there is no right or wrong in this instance.