If the permutations of the columns are enumerable, then you could do this:

```
import itertools as IT
import numpy as np
def using_perms(array):
nrows, ncols = array.shape
perms = np.array(list(IT.permutations(range(ncols))))
choices = np.random.randint(len(perms), size=nrows)
i = np.arange(nrows).reshape(-1, 1)
return array[i, perms[choices]]
N = 10**7
array = np.tile(np.arange(1,4), (N,1))
print(using_perms(array))
```

yields (something like)

```
[[3 2 1]
[3 1 2]
[2 3 1]
[1 2 3]
[3 1 2]
...
[1 3 2]
[3 1 2]
[3 2 1]
[2 1 3]
[1 3 2]]
```

Here is a benchmark comparing it to

```
def using_shuffle(array):
map(numpy.random.shuffle, array)
return array
In [151]: %timeit using_shuffle(array)
1 loops, best of 3: 7.17 s per loop
In [152]: %timeit using_perms(array)
1 loops, best of 3: 2.78 s per loop
```

Edit: CT Zhu's method is faster than mine:

```
def using_Zhu(array):
nrows, ncols = array.shape
all_perm = np.array((list(itertools.permutations(range(ncols)))))
b = all_perm[np.random.randint(0, all_perm.shape[0], size=nrows)]
return (array.flatten()[(b+3*np.arange(nrows)[...,np.newaxis]).flatten()]
).reshape(array.shape)
In [177]: %timeit using_Zhu(array)
1 loops, best of 3: 1.7 s per loop
```

Here is a slight variation of Zhu's method which may be even a bit faster:

```
def using_Zhu2(array):
nrows, ncols = array.shape
all_perm = np.array((list(itertools.permutations(range(ncols)))))
b = all_perm[np.random.randint(0, all_perm.shape[0], size=nrows)]
return array.take((b+3*np.arange(nrows)[...,np.newaxis]).ravel()).reshape(array.shape)
In [201]: %timeit using_Zhu2(array)
1 loops, best of 3: 1.46 s per loop
```

`numpy.apply_along_axis(numpy.random.shuffle, 1, array)`

might be a bit faster. I haven't timed it. – user2357112 Jan 9 '14 at 3:10`shuffle`

is in place, so you need to use`permutation`

instead). – PythonNut Jan 9 '14 at 3:14