In Python, `a // b`

is defined as floor(a/b), as opposed to most other languages where integer division is defined as trunc(a/b). There is a corresponding difference in the interpretation of `a % b`

= `a - (a // b) * b`

.

The *reason* for this is that Python's definition of the `%`

operator (and `divmod`

) is generally more useful than that of other languages. For example:

```
def time_of_day(seconds_since_epoch):
minutes, seconds = divmod(seconds_since_epoch, 60)
hours, minutes = divmod(minutes, 60)
days, hours = divmod(hours, 24)
return '%02d:%02d:%02d' % (hours, minutes, seconds)
```

With this function, `time_of_day(12345)`

returns `'03:25:45'`

, as you would expect.

But what time is it 12345 seconds *before* the epoch? With Python's definition of `divmod`

, `time_of_day(-12345)`

correctly returns `'20:34:15'`

.

What if we redefine `divmod`

to use the C definition of `/`

and `%`

?

```
def divmod(a, b):
q = int(a / b) # I'm using 3.x
r = a - b * q
return (q, r)
```

Now, `time_of_day(-12345)`

returns `'-3:-25:-45'`

, which isn't a valid time of day. If the standard Python `divmod`

function were implemented this way, you'd have to write special-case code to handle negative inputs. But with floor-style division, like my first example, it Just Works.