There are some generic unit handling modules for Python, which could be wrapped in a template tag (no specific order):

Maybe one of them gives you what you need. But I still stand to my earlier comment that if you only need so little functionality, you should not need to bother about reinventing the wheel (or your tiny part thereof).

After a closer look at your code, I found some inconsistencies:

- 1.99999 is returned as 1m (should probably be 2m)
- I assume that you want to keep two significant digits, but 1.2 is returned as 1m or 0.12 as 0m
- The last line needs parentheses around the values tuple

Here is a more consistent and concise version of your function (plus a little wrapping around to test):

```
from math import modf
def old_dist_format(distance):
if distance < 100:
return '%dm' % distance
elif distance < 1000:
return '%.0fm' % round(distance, -1)
else:
m, km = modf(distance / 1000.0)
if m < 0.01:
return '%.0fkm' % km
else:
return '%.1fkm' % (km + round(m, 1))
def dist_format(distance):
rounded = float('%.2g' % distance)
km = modf(rounded / 1000.0)
if km[1]:
return "%gkm" % (km[0] + km[1])
else:
return "%gm" % rounded
if __name__ == "__main__":
while True:
try:
s = raw_input("> ")
try:
d = float(s)
except ValueError:
print "Enter number"
continue
print "%s\t%s" % (dist_format(d), old_dist_format(d))
except KeyboardInterrupt:
print
break
```

The first line in the new `dist_format()`

function always keeps two significant figures. %g leaves out everything from the decimal point if not needed. Caveat: My function will give you exponential notation for (astronomic) distances >= 1000000000.