Find out for yourself! The dis module is great for inspecting this sort of stuff:

```
>>> from dis import dis
>>> def div_by_3(x):
... return x * (1/3.)
...
>>> dis(div_by_3)
2 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (1)
6 LOAD_CONST 2 (3.0)
9 BINARY_DIVIDE
10 BINARY_MULTIPLY
11 RETURN_VALUE
```

As you can see, the `1/3`

calculation happens every time. (Note: I changed `3`

to `3.`

to force float division, otherwise it'd just be 0. You can also enable future-division, which actually changed the behavior, see edit section below).

And your second approach:

```
>>> def db3(x, _ONE_THIRD=1/3.):
... return x * _ONE_THIRD
...
>>> dis(db3)
2 0 LOAD_FAST 0 (x)
3 LOAD_FAST 1 (_ONE_THIRD)
6 BINARY_MULTIPLY
7 RETURN_VALUE
```

More information on the second can be found by inspecting the function object:

```
>>> inspect.getargspec(db3)
ArgSpec(args=['x', '_ONE_THIRD'], varargs=None, keywords=None, defaults=(0.3333333333333333,))
```

You can see the default value is cached in there.

**EDIT**: Turns out this is a little more interesting -- in Python 3 they do get cached (and also in Python 2.7 when you enable `from __future__ import division`

):

```
>>> dis.dis(div_by_3)
2 0 LOAD_FAST 0 (x)
3 LOAD_CONST 3 (0.3333333333333333)
6 BINARY_MULTIPLY
7 RETURN_VALUE
```

Switching to integer division (`//`

) in either Python 3 or 2.7-with-future-division doesn't change this, it just alters the constant to be a `0`

instead of `0.333..`

Also, using integer division directly in 2.7 *without* future-division will cache the `0`

as well.

Learned something new today!