The idea is to give here something that can likely be used with minor adaptations to the questions listed above, which may also serve as a reference for future related questions.

The essential functions to be used are `INDEX`

or `OFFSET`

. The pros and cons of each one will be given after explicit examples, with reference to the figure. It shows several ranges with their defined names (in *italics* in the following).
All defined names can be replaced by direct absolute references to the corresponding cells.

**1. Column to matrix**

The *span* (in C1) gives the number of columns. Then *matrix_data_top_left* (D1 here) contains

```
=INDEX(col_data,(ROW()-ROW(matrix_data_top_left))*span+(COLUMN()-COLUMN(matrix_data_top_left)+1),1)
```

which is then copied into the rest of *matrix_data*.
Note that copying also into D5 gives an error, since the resulting formula refers to a cell outside *col_data* (A1:A16).
The same result is obtained in *matrix_data2_top_left* (I1) with

```
=OFFSET(col_data_top,(ROW()-ROW(matrix_data2_top_left))*span+(COLUMN()-COLUMN(matrix_data2_top_left)),0)
```

and copying similarly into *matrix_data2*.
Note that copying also into I5 returns `0`

, not an error.

`OFFSET`

has the advantage of requiring only one cell to be used as a base reference (*col_data_top*), so extending the source data range with further data does not need redefining the source data range in the formula, one has only to copy-paste into an extended target range.
On the other hand, extending the source data range using `INDEX`

requires first updating it in the formula (changing the range if used explicitly), and then copy-paste into an extended target range. Using a defined name is more versatile for this purpose, as redefining *col_data* suffices here (and it can be done after extending the target range).
Due to this same property, `INDEX`

provides a kind of automatic bounds checking on the source range, which `OFFSET`

does not.

**2. Matrix to column**

*col_data2_top* contains

```
=INDEX(matrix_data2,INT((ROW()-ROW(col_data2_top))/span)+1,MOD(ROW()-ROW(col_data2_top),span)+1)
```

and *col_data3_top*

```
=OFFSET(matrix_data2_top_left,INT((ROW()-ROW(col_data3_top))/span),MOD(ROW()-ROW(col_data3_top),span))
```

Both formulas are copied downwards.
The same differences between `INDEX`

and `OFFSET`

exist.

**3. Matrix to row**

Since `OFFSET`

does not give errors, the remaining formulas will use it. Adapting for `INDEX`

along the lines shown above is easy.
*row_data_left* contains

```
=OFFSET(matrix_data_top_left,INT((COLUMN()-COLUMN(row_data_left))/span),MOD(COLUMN()-COLUMN(row_data_left),span))
```

then copied to the right.

**4. Column to row**

*row_data2_left* contains

```
=OFFSET(col_data_top,COLUMN()-COLUMN(row_data2_left),0)
```

again copied to the right.

PS: The formula `=TRANSPOSE(...`

works for this case, and it should be entered as an array formula (with `ctrl`+`shift`+`enter`). Nevertheles, it might be desirable to avoid array formulas.

**5/6. Row to column/matrix**

It is very easy to obtain along these lines.
E.g., *col_data_top* contains

```
=OFFSET(row_data_left,0,ROW()-ROW(col_data_top))
```

and copy down.

**7. Matrix transpose**

To get in *matrix_data3* (not shown in the fig.) the transpose of *matrix_data2*, one only needs to use *matrix_data3_top_left*, with the formula

```
=OFFSET(matrix_data2_top_left,COLUMN()-COLUMN(matrix_data3_top_left),ROW()-ROW(matrix_data3_top_left))
```

and copied to a suitable target range.

**8. Matrix reshape**

We want to reshape a matrix into a wider one:
*matrix_data4*, with *N4* rows and *M4* columns (*width4*), into
*matrix_data5*, with *N5*=*N4/R* rows and *M5*=*M4xR* columns (*width5*), with *R* (*rep5*) the number of repeats
(matrices not shown in the fig.) Then use

```
=OFFSET(matrix_data4_top_left,(ROW()-ROW(matrix_data5_top_left))*rep5+INT((COLUMN()-COLUMN(matrix_data5_top_left))/width4),MOD((COLUMN()-COLUMN(matrix_data5_top_left)),width4))
```

Now we want to reshape a matrix into a narrower one:
*matrix_data4*, with *N4* rows and *M4* columns (*width4*), into
*matrix_data6*, with *N6*=*N4xS* rows and *M6*=*M4/S* columns (*width6*), with *S* (*split6*) the number of splits
(matrices not shown in the fig.) Then use

```
=OFFSET(matrix_data4_top_left,INT((ROW()-ROW(matrix_data6_top_left))/split6),MOD((ROW()-ROW(matrix_data6_top_left)),split6)*width4+(COLUMN()-COLUMN(matrix_data6_top_left)))
```

`=TRANSPOSE()`

or after a copy&paste); i don´t think that there is a "toMatrix" formula....you probably need to use VB or combine a lot of other formulars... – user3116916 Dec 27 '13 at 12:42`=TRANSPOSE()`

(which requires an array formula), 2) VBA, 3) Paste special, 4) "a lot" of other formulas. – sancho.s Dec 28 '13 at 16:05