I ran across this in *Python for Data Analysis* by Wes McKinney as well.

I will show the simplest way of solving this for a 3-dimensional tensor, then describe the general approach that can be used for `n`

-dimensional tensors.

#### Simple 3-dimensional tensor example

Suppose you have the (2,2,4)-tensor

```
[[[ 0 1 2 3]
[ 4 5 6 7]]
[[ 8 9 10 11]
[12 13 14 15]]]
```

If we look at the coordinates of each point, they are as follows:

```
[[[ (0,0,0) (0,0,1) (0,0,2) (0,0,3)]
[ (0,1,0) (0,1,1) (0,1,2) (0,1,3)]]
[[ (1,0,0) (1,0,1) (1,0,2) (0,0,3)]
[ (1,1,0) (1,1,1) (1,1,2) (0,1,3)]]
```

Now suppose that the array above is `example_array`

and we want to perform the operation: `example_array.transpose(1,2,0)`

For the `(1,2,0)`

-transformation, we shuffle the coordinates as follows (note that this particular transformation amounts to a "left-shift":

```
(0,0,0) -> (0,0,0)
(0,0,1) -> (0,1,0)
(0,0,2) -> (0,2,0)
(0,0,3) -> (0,3,0)
(0,1,0) -> (1,0,0)
(0,1,1) -> (1,1,0)
(0,1,2) -> (1,2,0)
(0,1,3) -> (1,3,0)
(1,0,0) -> (0,0,1)
(1,0,1) -> (0,1,1)
(1,0,2) -> (0,2,1)
(0,0,3) -> (0,3,0)
(1,1,0) -> (1,0,1)
(1,1,1) -> (1,1,1)
(1,1,2) -> (1,2,1)
(0,1,3) -> (1,3,0)
```

Now, for each original value, place it into the shifted coordinates in the result matrix.

For instance, the value `10`

has coordinates `(1, 0, 2)`

in the original matrix and will have coordinates `(0, 2, 1)`

in the result matrix. It is placed into the first 2d tensor submatrix in the third row of that submatrix, in the second column of that row.

Hence, the resulting matrix is:

```
array([[[ 0, 8],
[ 1, 9],
[ 2, 10],
[ 3, 11]],
[[ 4, 12],
[ 5, 13],
[ 6, 14],
[ 7, 15]]])
```

#### General n-dimensional tensor approach

For `n`

-dimensional tensors, the algorithm is the same. Consider all of the coordinates of a single value in the original matrix. Shuffle the axes for that individual coordinate. Place the value into the resulting, shuffled coordinates in the result matrix. Repeat for all of the remaining values.

`0`

is first axis,`1`

is second,`2`

is third, etc... The`axes`

parameter to`transpose`

provides the new order you want them arranged in, in your example: first the second, then the first, then the third.