As of Python `v3.6`

, `random.choices`

could be used to return a `list`

of elements of specified size from the given population with optional weights.

`random.choices(population, weights=None, *, cum_weights=None, k=1)`

*population* : `list`

containing unique observations. (If empty, raises `IndexError`

)

*weights* : More precisely relative weights required to make selections.

*cum_weights* : cumulative weights required to make selections.

*k* : size(`len`

) of the `list`

to be outputted. (Default `len()=1`

)

*Few Caveats:*

1) It makes use of weighted sampling with replacement so the drawn items would be later replaced. The values in the weights sequence in itself do not matter, but their relative ratio does.

Unlike `np.random.choice`

which can only take on probabilities as weights and also which must ensure summation of individual probabilities upto 1 criteria, there are no such regulations here. As long as they belong to numeric types (`int/float/fraction`

except `Decimal`

type) , these would still perform.

```
>>> import random
# weights being integers
>>> random.choices(["white", "green", "red"], [12, 12, 4], k=10)
['green', 'red', 'green', 'white', 'white', 'white', 'green', 'white', 'red', 'white']
# weights being floats
>>> random.choices(["white", "green", "red"], [.12, .12, .04], k=10)
['white', 'white', 'green', 'green', 'red', 'red', 'white', 'green', 'white', 'green']
# weights being fractions
>>> random.choices(["white", "green", "red"], [12/100, 12/100, 4/100], k=10)
['green', 'green', 'white', 'red', 'green', 'red', 'white', 'green', 'green', 'green']
```

2) If neither *weights* nor *cum_weights* are specified, selections are made with equal probability. If a *weights* sequence is supplied, it must be the same length as the *population* sequence.

Specifying both *weights* and *cum_weights* raises a `TypeError`

.

```
>>> random.choices(["white", "green", "red"], k=10)
['white', 'white', 'green', 'red', 'red', 'red', 'white', 'white', 'white', 'green']
```

3) *cum_weights* are typically a result of `itertools.accumulate`

function which are really handy in such situations.

_{ From the documentation linked: }

Internally, the relative weights are converted to cumulative weights
before making selections, so supplying the cumulative weights saves
work.

So, either supplying `weights=[12, 12, 4]`

or `cum_weights=[12, 24, 28]`

for our contrived case produces the same outcome and the latter seems to be more faster / efficient.

`random.choice`

can do that too. – n1000 Feb 9 '16 at 20:25`numpy.random.choice`

, not`random.choice`

. – user2357112 Jul 5 '17 at 15:02`random.choices`

(note the plural) can be passed weights (doc) – Ciprian Tomoiagă Dec 15 '17 at 12:41