One nice way is with a structured array. This gives all the advantages of numpy arrays, but a convenient access structure.

All you need to do to make your numpy array a "structured" one is to give it the `dtype`

argument. This gives each "field" a name and type. They can even have more complex shapes and hierarchies if you wish, but here's how I keep my x-y data:

```
In [175]: import numpy as np
In [176]: x = np.random.random(10)
In [177]: y = np.random.random(10)
In [179]: zip(x,y)
Out[179]:
[(0.27432965895978034, 0.034808254176554643),
(0.10231729328413885, 0.3311112896885462),
(0.87724361175443311, 0.47852682944121905),
(0.24291769332378499, 0.50691735432715967),
(0.47583427680221879, 0.04048957803763753),
(0.70710641602121627, 0.27331443495117813),
(0.85878694702522784, 0.61993945461613498),
(0.28840423235739054, 0.11954319357707233),
(0.22084849730366296, 0.39880927226467255),
(0.42915612628398903, 0.19197320645915561)]
In [180]: data = np.array( zip(x,y), dtype=[('x',float),('y',float)])
In [181]: data['x']
Out[181]:
array([ 0.27432966, 0.10231729, 0.87724361, 0.24291769, 0.47583428,
0.70710642, 0.85878695, 0.28840423, 0.2208485 , 0.42915613])
In [182]: data['y']
Out[182]:
array([ 0.03480825, 0.33111129, 0.47852683, 0.50691735, 0.04048958,
0.27331443, 0.61993945, 0.11954319, 0.39880927, 0.19197321])
In [183]: data[0]
Out[183]: (0.27432965895978034, 0.03480825417655464)
```

Others will probably suggest using pandas, but if your data is relatively simple, plain numpy might be easier.

You can add hierarchy if you wish, but often it's more complicated than necessary.

For example:

```
In [200]: t = np.arange(10)
In [202]: dt = np.dtype([('t',int),('pos',[('x',float),('y',float)])])
In [203]: alldata = np.array(zip(t, zip(x,y)), dtype=dt)
In [204]: alldata
Out[204]:
array([(0, (0.27432965895978034, 0.03480825417655464)),
(1, (0.10231729328413885, 0.3311112896885462)),
(2, (0.8772436117544331, 0.47852682944121905)),
(3, (0.242917693323785, 0.5069173543271597)),
(4, (0.4758342768022188, 0.04048957803763753)),
(5, (0.7071064160212163, 0.27331443495117813)),
(6, (0.8587869470252278, 0.619939454616135)),
(7, (0.28840423235739054, 0.11954319357707233)),
(8, (0.22084849730366296, 0.39880927226467255)),
(9, (0.429156126283989, 0.1919732064591556))],
dtype=[('t', '<i8'), ('pos', [('x', '<f8'), ('y', '<f8')])])
In [205]: alldata['t']
Out[205]: array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9])
In [206]: alldata['pos']
Out[206]:
array([(0.27432965895978034, 0.03480825417655464),
(0.10231729328413885, 0.3311112896885462),
(0.8772436117544331, 0.47852682944121905),
(0.242917693323785, 0.5069173543271597),
(0.4758342768022188, 0.04048957803763753),
(0.7071064160212163, 0.27331443495117813),
(0.8587869470252278, 0.619939454616135),
(0.28840423235739054, 0.11954319357707233),
(0.22084849730366296, 0.39880927226467255),
(0.429156126283989, 0.1919732064591556)],
dtype=[('x', '<f8'), ('y', '<f8')])
In [207]: alldata['pos']['x']
Out[207]:
array([ 0.27432966, 0.10231729, 0.87724361, 0.24291769, 0.47583428,
0.70710642, 0.85878695, 0.28840423, 0.2208485 , 0.42915613])
```

`[x for x in range(0,10)]`

is identical to simply`range(10)`

– askewchan Apr 4 '13 at 16:10