I think you have a very good idea here. Think about the underlying block of memory used to represent the data in `points`

. We tell numpy to regard that block as representing an array of shape (10,2) with dtype `int32`

(32-bit integers), but it is almost costless to tell numpy to regard that same block of memory as representing an array of shape (10,) with dtype `c8`

(64-bit complex).

So the only real cost is calling `np.unique`

, followed by another virtually costless call to `view`

and `reshape`

:

```
import numpy as np
np.random.seed(1)
points = np.random.randint(0, 5, (10,2))
print(points)
print(len(points))
```

yields

```
[[3 4]
[0 1]
[3 0]
[0 1]
[4 4]
[1 2]
[4 2]
[4 3]
[4 2]
[4 2]]
10
```

while

```
cpoints = points.view('c8')
cpoints = np.unique(cpoints)
points = cpoints.view('i4').reshape((-1,2))
print(points)
print(len(points))
```

yields

```
[[0 1]
[1 2]
[3 0]
[3 4]
[4 2]
[4 3]
[4 4]]
7
```

If you don't need the result to be sorted, wim's method is faster (You might want to consider accepting his answer...)

```
import numpy as np
np.random.seed(1)
N=10000
points = np.random.randint(0, 5, (N,2))
def using_unique():
cpoints = points.view('c8')
cpoints = np.unique(cpoints)
return cpoints.view('i4').reshape((-1,2))
def using_set():
return np.vstack([np.array(u) for u in set([tuple(p) for p in points])])
```

yields these benchmarks:

```
% python -mtimeit -s'import test' 'test.using_set()'
100 loops, best of 3: 18.3 msec per loop
% python -mtimeit -s'import test' 'test.using_unique()'
10 loops, best of 3: 40.6 msec per loop
```

`numpy.vstack([numpy.array(u) for u in set([tuple(p) for p in points])])`

is not fast enough? – wim Nov 3 '11 at 3:50