For what it's worth, here's another completely different method to reverse an array. (I'm posting this as a separate answer just because it is apples and oranges to the other answer I already provided.)

Instead of reversing the order of the array by reversing the indexing, it is also possible to use matrix multiplication (`MMULT`

) to accomplish this.

If your data in `A1:A3`

is `{1;3;5}`

(for example) then the following matrix multiplication effectively reverses this array:

```
[0 0 1] [1] [5]
[0 1 0] * [3] = [3]
[1 0 0] [5] [1]
```

In order to generate that matrix of `1`

's and `0`

's above, you can do this (line break added for readability):

```
= (ROW(INDEX(A:A,1):INDEX(A:A,ROWS(A1:A3)))=
(COLUMN(INDEX(1:1,ROWS(A1:A3)))-COLUMN(INDEX(1:1,1):INDEX(1:1,ROWS(A1:A3)))+1))+0
```

So in the end, the formula to reverse this array would be:

```
= MMULT((ROW(INDEX(A:A,1):INDEX(A:A,ROWS(A1:A3)))=
(COLUMN(INDEX(1:1,ROWS(A1:A3)))-COLUMN(INDEX(1:1,1):INDEX(1:1,ROWS(A1:A3)))+1))+0,A1:A3)
```

This same line of thinking can be used to reverse a horizontal array. For example if `A1:C1`

is `{1,3,5}`

, then:

```
[0 0 1]
[1 3 5] * [0 1 0] = [5 3 1]
[1 0 0]
```

Note how the matrix of `1`

's and `0`

's is the second argument this time instead of the first argument.

Using the same general line of reasoning, you can get to this formula to reverse a horizontal array.

```
= MMULT(A1:C1,(ROW(INDEX(A:A,1):INDEX(A:A,COLUMNS(A1:C1)))=
(COLUMN(INDEX(1:1,COLUMNS(A1:C1)))-COLUMN(INDEX(1:1,1):INDEX(1:1,COLUMNS(A1:C1)))+1))+0)
```

This method has two major disadvantages as compared two the `N(IF(...))`

solution, namely:

It's way longer.

It only works for numbers since `MMULT`

requires numbers, but the other method works if the cells contain anything (e.g. text).

I was using this solution to reverse arrays without helper columns until just recently when I learned about the `N(IF(...))`

alternative.