I agree with Jerry's suggestion of words or units. This program can do words or SI prefixes, and rounds to exponent multiples of 3 (engineering notation). The million/billion uses US convention, but it's easy to just edit the `units`

structure.

```
units = { 18: ('exa','E','quintillion'),
15: ('peta','P','quadrillion'),
12: ('tera','T','trillion',),
9: ('giga','G','billion',),
6: ('mega','M','million',),
3: ('kilo','k','thousand'),
0: ('','',''),
-3: ('milli','m','thousandths'),
-6: ('micro','u','millionths'),
-9: ('nano','n','billionths'),
-12:('pico','p','trillionths'),
-15:('femto','f','quadrillionths'),
-18:('atto','a','quintillionths') }
def format_eng(n,sigfigs,divisor=3,dpchar='.'):
"""Use %e interpolation to get requested number of significant
figures, then adjust exponent to be engineering notation (multiple
of divisor, normally 3). Return the mantissa as a string (to keep
correct number of digits) and exponent as an int."""
fmt_e = "%%.0%ie" % (sigfigs-1)
numstr = fmt_e % n
mantissa,exponent = numstr.split('e')
exponent = int(exponent)
emod = exponent % divisor
prefix = exponent - emod
digits = list(mantissa)
try:
dp = digits.index(dpchar)
digits.remove(dpchar)
# ensure that len(mantissa) >= 1 + emod
padding = emod + 1 - len(digits)
if padding > 0:
digits.extend("0"*padding)
move = dp + emod
if dp+emod < len(digits): # don't insert dp at the end
digits.insert(dp+emod,dpchar)
numpart = "".join(digits)
except ValueError: # no decimal point, pad zeros if needed
numpart = mantissa + emod * "0"
return (numpart,prefix)
def desiderize(x,unit=None,sigfigs=3,base=10,spacer=" "):
numstr,prefix = format_eng(x,sigfigs)
if len(unit) > 1 and int(float(numstr) != 1):
plural = "s"
else:
plural = ""
if abs(prefix) > max(units.keys()):
# don't have a good unit, number too big or small, just use scientific
return numstr + ("e%i" % prefix) + spacer + unit + plural
if not unit:
unit = ''
unit_index = 2
elif len(unit) > 1:
unit_index = 0
else:
unit_index = 1
return numstr + spacer + units[prefix][unit_index] + unit + plural
nums = [123456,1234.456,123.456,12.345,1.234,
1.0001,0.123,0.0001234,
12349349034890349083408348903489034890]
for n in nums:
for sf in (1,3,5):
print("%i significant figures" % sf)
for u in ('','m','meter'):
print("%12s => %-10s" % (n,desiderize(n,unit=u,sigfigs=sf)))
```

The output is:

```
1 significant figures
123456 => 100 thousand
123456 => 100 km
123456 => 100 kilometers
3 significant figures
123456 => 123 thousand
123456 => 123 km
123456 => 123 kilometers
5 significant figures
123456 => 123.46 thousand
123456 => 123.46 km
123456 => 123.46 kilometers
1 significant figures
1234.456 => 1 thousand
1234.456 => 1 km
1234.456 => 1 kilometer
3 significant figures
1234.456 => 1.23 thousand
1234.456 => 1.23 km
1234.456 => 1.23 kilometers
5 significant figures
1234.456 => 1.2345 thousand
1234.456 => 1.2345 km
1234.456 => 1.2345 kilometers
1 significant figures
123.456 => 100
123.456 => 100 m
123.456 => 100 meters
3 significant figures
123.456 => 123
123.456 => 123 m
123.456 => 123 meters
5 significant figures
123.456 => 123.46
123.456 => 123.46 m
123.456 => 123.46 meters
1 significant figures
12.345 => 10
12.345 => 10 m
12.345 => 10 meters
3 significant figures
12.345 => 12.3
12.345 => 12.3 m
12.345 => 12.3 meters
5 significant figures
12.345 => 12.345
12.345 => 12.345 m
12.345 => 12.345 meters
1 significant figures
1.234 => 1
1.234 => 1 m
1.234 => 1 meter
3 significant figures
1.234 => 1.23
1.234 => 1.23 m
1.234 => 1.23 meters
5 significant figures
1.234 => 1.2340
1.234 => 1.2340 m
1.234 => 1.2340 meters
1 significant figures
1.0001 => 1
1.0001 => 1 m
1.0001 => 1 meter
3 significant figures
1.0001 => 1.00
1.0001 => 1.00 m
1.0001 => 1.00 meter
5 significant figures
1.0001 => 1.0001
1.0001 => 1.0001 m
1.0001 => 1.0001 meters
1 significant figures
0.123 => 100 thousandths
0.123 => 100 mm
0.123 => 100 millimeters
3 significant figures
0.123 => 123 thousandths
0.123 => 123 mm
0.123 => 123 millimeters
5 significant figures
0.123 => 123.00 thousandths
0.123 => 123.00 mm
0.123 => 123.00 millimeters
1 significant figures
0.0001234 => 100 millionths
0.0001234 => 100 um
0.0001234 => 100 micrometers
3 significant figures
0.0001234 => 123 millionths
0.0001234 => 123 um
0.0001234 => 123 micrometers
5 significant figures
0.0001234 => 123.40 millionths
0.0001234 => 123.40 um
0.0001234 => 123.40 micrometers
1 significant figures
12349349034890349083408348903489034890 => 10e36
12349349034890349083408348903489034890 => 10e36 m
12349349034890349083408348903489034890 => 10e36 meters
3 significant figures
12349349034890349083408348903489034890 => 12.3e36
12349349034890349083408348903489034890 => 12.3e36 m
12349349034890349083408348903489034890 => 12.3e36 meters
5 significant figures
12349349034890349083408348903489034890 => 12.349e36
12349349034890349083408348903489034890 => 12.349e36 m
12349349034890349083408348903489034890 => 12.349e36 meters
```