Python — list comprehension with try/exception and nested conditional

This code should find the mode of a list in O(n) linear time. I want to turn this into a list comprehension because I'm teaching myself Python, and am trying to improve my list comprehension skills.
These were informative but don't really answer my question:

Convert nested loops and conditions to a list comprehension

`elif` in list comprehension conditionals

Nested list comprehension equivalent

The problem that I'm running into is nesting the if's and the try/except. I'm sure this is simple question so a junior Python programmer might have the answer quickly.

``````def mode(L):
d = {}; mode = 0; freq = 0
for j in L:
try:
d[j] += 1
if d[j] > freq:
mode = j; freq = d[j]
except(KeyError): d[j] = 1
return mode
``````

Note that `L` parameter is a list of ints like this:

``````L = [3,4,1,20,102,3,5,67,39,10,1,4,34,1,6,107,99]
``````

I was thinking something like:

``````[try (d[j] += 1) if d[j] > freq (mode = j; freq = d[j]) except(KeyError): d[j] = 1 for j in L]
``````

But I don't have enough duct tape to fix how badly the syntax is off with that thing.

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`import this`. Read 1-7. Those are the best lessons I learned from Python. –  joemaller Dec 31 '13 at 19:47

I know you're learning comprehensions, but you can do this with a default dictionary, or a Counter too.

``````import collections
def mode(L):
d = collections.defaultdict(lambda: 1); mode = 0; freq = 0
for j in L:
d[j] += 1
if d[j] > freq:
mode = j; freq = d[j]
return mode
``````

Better still, when you are not trying to learn comprehensions:

``````import collections
def mode(L):
collections.Counter(L).most_common(1)[0][0]
``````
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Counter is the right answer to the problem. DefaultDict is similarly cumbersome. Upvote. –  Slater Tyranus Dec 31 '13 at 19:52

While it might not be possible directly do this within a list comprehension, there's also no reason to. You only really want to be checking for errors when you're actually retrieving the results. As such, you really want to use a `generator` instead of a list comprehension.

Syntax is largely the same, just using parens instead instead of brackets, so you would do something like this:

``````generator = (do something)
try:
for thing in generator
except KeyError:
etc...
``````

That said, you really don't want to do this for you particular application. You want to use a counter:

``````from collections import Counter
d = Counter(L)
mode = Counter.most_common(1)[0]
``````
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You can't incorporate `try: except:` in a list comprehension. However, you can get around it by refactoring into a `dict` comprehension:

``````d = {i: L.count(i) for i in L}
``````

You can then determine the maximum and corresponding key in a separate test. However, this would be `O(n**2)`.

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It's not possible to use `try-except` expressions in list comprenhension.

It is not possible to handle exceptions in a list comprehension for a list comprehension is an expression containing other expression, nothing more (i.e., no statements, and only statements can catch/ignore/handle exceptions).

Edit 1:

What you could do instead of using the `try-except` clause, is use the `get` method from the dictionary:

``````def mode(L):
d = {}
mode = 0
freq = 0
for j in L:
d[j] = d.get(j, 0) + 1
if d[j] > freq:
mode = j
freq = d[j]
return mode
``````

From Python docs:

get(key[, default]): Return the value for key if key is in the dictionary, else default. If default is not given, it defaults to None, so that this method never raises a KeyError.

Edit 2:

This is my list comprenhension approach, not very efficient, just for fun:

``````r2 = max(zip(L, [L.count(e) for e in L]), key = lambda x: x[1])[0]
``````
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I think you want `d[j] = d.get(j, 0) + 1`, with a default of zero rather than one. –  Blckknght Dec 31 '13 at 19:55
Thanks for pointing it out. Edited. –  Christian Dec 31 '13 at 19:56
Can you post a list comprehension of your solution? LC is really what I'm trying to improve skills on, and why I posted originally. –  stackuser Dec 31 '13 at 21:43
I don't really know much about list comprenhension, but I cannot think in a way to do this with a list comprenhension (I mean in a similar way of the code you gave). Instead I tried another solution, not the most efficient. See edit. –  Christian Dec 31 '13 at 22:36

Since you're trying to find the value that appears most often, an easy way to do that is with `max`:

``````def mode(L):
return max(L, key=L.count)
``````

This is a bit less efficient than the other answers that suggest using `collections.Counter` (it is `O(N^2)` rather than `O(N)`), but for a modest sized list it will probably be fast enough.

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