Your approach is fine. An alternative is to use the function `numpy.random.uniform()`

:

```
>>> numpy.random.uniform(-1, 1, size=10)
array([-0.92592953, -0.6045348 , -0.52860837, 0.00321798, 0.16050848,
-0.50421058, 0.06754615, 0.46329675, -0.40952318, 0.49804386])
```

Regarding the probability for the extremes: If it would be idealised, continuous random numbers, the probability to get one of the extremes would be 0. Since floating point numbers are a discretisation of the continuous real numbers, in realitiy there is some positive probability to get some of the extremes. This is some form of discretisation error, and it is almost certain that this error will be dwarved by other errors in your simulation. Stop worrying!