In the book I'm reading now, Practical Programming - An Introduction to Computer Science Using Python, I've come across an example of code. I can's see what is the reason for the first cycle and the conditional check. As I see it, the second cycle alone is enough to do the same work. I've put the code through the debugger, but still can't figure out the reason for the parts I consider useless.

``````def largest_below_threshold(values, threshold):
'''Find the largest value below a specified threshold. If no value is
found, returns None.'''

result = None
#the first cycle
for v in values:
if v < threshold:
result = v
break

#the conditional check
if result is None:
return None

#the second cycle
for v in values:
if result < v < threshold:
result = v
return result
``````

Thanks!

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For that matter, the code could be `return max([val for val in values if val < threshold] or [None])` or, less clever but arguably more readable `big_enough = [val for val in value if val < threshold]; if big_enough: return max(big_enough); else: return None`. One can also optimize it to take O(1) space by avoiding intermediate lists and working with generators, but it gets very ugly. –  delnan Aug 31 '11 at 20:22
@eryksun: assuming this will only ever be used on arrays of floats, perhaps this is OK; for code that works on any comparable type, however, this won't work (what about strings ordered lexicographically?). –  Patrick87 Aug 31 '11 at 20:40

The reason for having both is that you must first establish the existence of some suitable element, in the general case, before you can ask whether a best one exists. In this code, the first loop establishes the existence of a suitable element, and the second loop can then assume this and simply look for a best one.

To change the second loop so that it does the work of the first, something like this could be done:

``````  def largest_below_threshold(values, threshold):
'''Find the largest value below a specified threshold. If no value is
found, returns None.'''

result = None

#the second cycle
for v in values:
if v < threshold:
if result is None:
result = v
elif result < v:
result = v
return result
``````

Note that to find e.g. the largest integer in a set of integers, you don't need the first pass since it is guaranteed that there will be an integer n such that there aren't any integers bigger than n in the list. Not true here; that there are elements in the list says nothing about whether there will be a solution (except that there might be). Note also that we have similar problems here with defining universally minimal values for comparisons... which, by establishing a baseline candidate, we avoid.

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What if all values are larger than the threshold?

What's an appropriate initial value for `v` in the second cycle?

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That's right, the first cycle is used to determine an initial value for `v` –  F.C. Aug 31 '11 at 20:38