# Best way to incrementally convert microseconds to their respective conversions in python?

I currently have a pre-defined dictionary (ignore the letters). I want the conversions to be more robust, though. Say 33000000 microseconds gets inputted and knows to convert to 33 seconds. Then any microsecond input over a minute, but under an hour shows as minutes, etc. Is it possible to get this coded without needing this pre-defined dictionary? Preferably a function that takes in a microsecond input and then outputs the proper conversion.

``````'A100.txt'                          :'100 us',
'B500.txt'                          :'500 us',
'C1000.txt'                         :'1 ms',
'D4000.txt'                         :'4 ms',
'E5000.txt'                         :'10 ms',
'F30000.txt'                        :'30 ms',
'G100000.txt'                       :'100 ms',
'H300000.txt'                       :'300 ms',
'I1000000.txt'                      :'1 sec',
'J3000000.txt'                      :'3 secs',
'K10000000.txt'                     :'10 secs',
'L30000000.txt'                     :'30 secs',
'M60000000.txt'                     :'1 min',
'N180000000.txt'                    :'3 mins',
'O600000000.txt'                    :'10 mins',
'P1800000000.txt'                   :'30  mins',
'Q3600000000.txt'                   :'1 hr',
'R7200000000.txt'                   :'2 hrs',
'S14400000000.txt'                  :'4 hrs'}
``````
• Instead of explicitly defining each possible value, separate it in ranges that you want to convert to each unit. For example, 1 to 999 keep in microseconds, 1000 to 999999 convert to milliseconds, etc. Then using some algebra you can calculate the new converted value. – Bobbyrogers Jul 6 '15 at 16:59

This can be accomplished with a long string of `if` statements. Since there is no `switch` statement in Python, and a dictionary cannot be used for `>` and `<`, this is the best solution.

Something you might make would be:

``````def convert(text):
t = int(text)
if t<1000: #millisecond
return str(t)+' us'
elif t<1000000: #second
return str(int(t/1000))+' ms'
elif t==1000000: #is a second
return '1 sec'
#etc.
``````

Alternate Solution:

``````units = [("us", 1), ("ms", 1000), ("sec", 1000000)...]
for string, divisor in units:
if t==divisor:
return "1 "+string
elif t>divisor:
if round(float(t)/divisor)==1:
return "1 "+string
else:
return str(int(round(float(t)/divisor)))+string+"s"
``````

Hopefully this will be a better trade off between compactness, scalability, and readability.

• Hey, thanks! I like this way. Was trying to get someone to help me look at this a little differently and you did just that! – Ryan Jul 6 '15 at 17:03
• @rern Improved my answer. Please take a look. Not so blobby anymore. – bcdan Jul 8 '15 at 3:42
• Let's say `t=2000`, your alternate solution will return "2000uss". You'd have to traverse your units in reverse order for the logic to work. – chthonicdaemon Jul 8 '15 at 5:35

This allows you to add conversions in a relatively natural way for strictly ascending unit stacks. It's a little more generic than big block of ifs.

``````units = [[1000, 'us'],
[1000, 'ms'],
[60, 's'],
[60, 'min'],
[24, 'h'],
[365, 'day'],
[None, 'year']]

def convert(quantity):
divisor = 1
for factor, name in units:
if factor is None or quantity < divisor*factor:
return "{} {}".format(quantity/divisor, name)
divisor *= factor
``````

@Bcdan says "this is about as compact as possible". Challenge accepted.

``````>>> l = [("micro",1),("milli",1000),("s",1000),("m",60),("h",60)]
>>> d = {"micro":33000000}
>>> for i in range(1,len(l)): d[l[i][0]],d[l[i-1][0]] = divmod(d[l[i-1][0]],l[i][1])
>>> d
{'m': 0, 's': 33, 'h': 0, 'milli': 0, 'micro': 0}
``````

Don't know how useful that is to you, but I think it's neat. Not that it's readable or makes any sense...

• @MarkRansom I didn't know about that site! Thanks for the heads up, it looks fun. – Sam Jul 6 '15 at 19:24
• @rern look what you started codegolf.stackexchange.com/questions/52684/… – Sam Jul 6 '15 at 20:58
• @Sam ahhaha, that's hilarious. – Ryan Jul 6 '15 at 22:38
• Also, my solution can be implemented as a separate utility module. Readability is important, too!! ;) – bcdan Jul 8 '15 at 3:15
• I found the code golf independently and those are always so convoluted and silly pieces of code!! – bcdan Jul 8 '15 at 3:26