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Suppose I have a function like the following:

bigrams=[(k,v) for (k,v) in dict_bigrams.items()
         if k[:pos_qu]==selection[:pos_qu]
         and (k[pos_qu+1:]==selection[pos_qu+1:] if pos_qu!=1)
         and k[pos_qu] not in alphabet.values()]

I want to make the second condition, namely k[pos_qu+1:]==selection[pos_qu+1:] dependent from another if statement, if pos_qu!=1. I tried (as shown above) by including the two together into parentheses but python flags a syntax error at the parentheses

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Just a comment, it's not very pythonic to have this complicated of a list comprehension. Why not just write it out as a standard for and list.append()? Also, parenthesis aren't valid in a python if statement – Brian Cray Dec 7 '12 at 23:33
parens are valid and regularly used to group stuff ... however are not required ... (at least in py2) – Joran Beasley Dec 7 '12 at 23:39
@BrianCray: And technically speaking, there is no if statement in this example, just an if clause in a list comprehension, which has a similar but different syntax. – abarnert Dec 7 '12 at 23:41
Another alternative to writing this out as a loop is to extract the condition out into a function, and write [(k,v) for (k,v) in dict_bigrams.items() if isMyKindOfKey(k)]. This lets you use full multi-statement syntax, instead of just expression syntax, for the condition, and also lets you give it a good name (hopefully something better than isMyKindOfKey…), while still letting you use comprehension syntax for the trivial part. – abarnert Dec 7 '12 at 23:43
@abarnert you should submit that as an answer. – Mark Ransom Dec 7 '12 at 23:46
up vote 2 down vote accepted

If I understand your requirement correctly, you only want to check k[pos_qu+1:]==selection[pos_qu+1:] if the condition pos_qu!=1 is also met. You can rephrase that as the following condition:

pos_qu==1 or k[pos_qu+1:]==selection[pos_qu+1:]

Putting this into your comprehension:

bigrams=[(k,v) for (k,v) in dict_bigrams.items()
         if k[:pos_qu]==selection[:pos_qu]
         and (pos_qu==1 or k[pos_qu+1:]==selection[pos_qu+1:])
         and k[pos_qu] not in alphabet.values()]
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Whenever you find yourself with a complex list comprehension, trying to figure out how to do something complicated and not knowing how, the answer is usually to break things up. Expression syntax is inherently more limited than full statement (or multi-statement suite) syntax in Python, to prevent you from writing things that you won't be able to read later. Usually, that's a good thing—and, even when it isn't, you're better off going along with it than trying to fight it.

In this case, you've got a trivial comprehension, except for the if clause, which you don't know how to write as an expression. So, I'd turn the condition into a separate function:

def isMyKindOfKey(k):
    … condition here
[(k,v) for (k,v) in dict_bigrams.items() if isMyKindOfKey(k)]

This lets you use full multi-statement syntax for the condition. It also lets you give the condition a name (hopefully something better than isMyKindOfKey); makes the parameters, local values captured by the closure, etc. more explicit; lets you test the function separately or reuse it; etc.

In cases where the loop itself is the non-trivial part (or there's just lots of nesting), it usually makes more sense to break up the entire comprehension into an explicit for loop and append, but I don't think that's necessary here.

It's worth noting that in this case—as in general—this doesn't magically solve your problem, it just gives you more flexibility in doing so. For example, you can use the same transformation from postfix if to infix or that F.J suggests, but you can also leave it as an if, e.g., like this:

def isMyKindOfKey(k):
    retval = k[:pos_qu]==selection[:pos_qu]
    if pos_qu!=1:
        retval = retval and (k[pos_qu+1:]==selection[pos_qu+1:])
    retval = retval and (k[pos_qu] not in alphabet.values())
    return retval

That probably isn't actually the way I'd write this, but you can see how this is a trivial way to transform what's in your head into code, which would be very hard to do in an expression.

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just change the order

bigrams=[(k,v) for (k,v) in dict_bigrams.items()
     if k[:pos_qu]==selection[:pos_qu] #evaluated first
     and  pos_qu!=1 #if true continue and evaluate this next
     and (k[pos_qu+1:]==selection[pos_qu+1:]) #if pos_qu != 1 lastly eval this

as the comment mentions this is not a very pythonic list comprehension and would be much more readable as a standard for loop..

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