You can also trigger a `FloatingPointError`

within `numpy`

, by setting the appropriate `numpy.seterr`

(or `numpy.errstate`

context manager) flag. For an example taken from the documentation:

```
>>> np.sqrt(-1)
nan
>>> with np.errstate(invalid='raise'):
... np.sqrt(-1)
Traceback (most recent call last):
File "<stdin>", line 2, in <module>
FloatingPointError: invalid value encountered in sqrt
```

Interestingly, it also raises `FloatingPointError`

when all operands are integers:

```
>>> old_settings = np.seterr(all='warn', over='raise')
>>> np.int16(32000) * np.int16(3)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
FloatingPointError: overflow encountered in short_scalars
```

The documentation notes the conditions under which the `FloatingPointError`

will be raised:

The floating-point exceptions are defined in the IEEE 754 standard [1]:

- Division by zero: infinite result obtained from finite numbers.
- Overflow: result too large to be expressed.
- Underflow: result so close to zero that some precision was lost.
- Invalid operation: result is not an expressible number, typically indicates that a NaN was produced.

`1.0/0.0`

for example will raise an exception (divide by zero)! – sascha Dec 19 '16 at 13:42`ZeroDivisionError`

error though. – Ma0 Dec 19 '16 at 13:43`fpectl.turnon_sigfpe`

to intercept floating point arithmetic "Division by Zero, Overflow, or Invalid Operation" are (or may) be turned into`FloatingPointError`

. – MSeifert Dec 19 '16 at 13:57