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I find that in lots of different projects I'm writing a lot of code where I need to evaluate a (moderately complex, possibly costly-to-evaluate) expression and then do something with it (e.g. use it for string formatting), but only if the expression is True/non-None.

For example in lots of places I end up doing something like the following:

result += '%s '%( <complexExpressionForGettingX> ) if <complexExpressionForGettingX> else ''

... which I guess is basically a special-case of the more general problem of wanting to return some function of an expression, but only if that expression is True, i.e.:

f( e() ) if e() else somedefault

but without re-typing the expression (or re-evaluating it, in case it's a costly function call).

Obviously the required logic can be achieved easily enough in various long-winded ways (e.g. by splitting the expression into multiple statements and assigning the expression to a temporary variable), but that's a bit grungy and since this seems like quite a generic problem, and since python is pretty cool (especially for functional stuff) I wondered if there's a nice, elegant, concise way to do it?

My current best options are either defining a short-lived lambda to take care of it (better than multiple statements, but a bit hard to read):

(lambda e: '%s ' % e if e else '')( <complexExpressionForGettingX> )

or writing my own utility function like:

def conditional(expr, formatStringIfTrue, default='')

... but since I'm doing this in lots of different code-bases I'd much rather use a built-in library function or some clever python syntax if such a thing exists

share|improve this question
How about result += '%s '%( <complexExpressionForGettingX> or '')? – wim Jan 15 '13 at 12:03
@wim - returns ' ' for negative expression. OP wants '' – eumiro Jan 15 '13 at 12:07
Ah, you're right, whoops. – wim Jan 15 '13 at 12:08

I like one-liners, definitely. But sometimes they are the wrong solution.

In professional software development, if the team size is > 2, you spent more time on understanding code someone else wrote than on writing new code. The one-liners presented here are definitely confusing, so just do two lines (even though you mentioned multiple statements in your post):

X = <complexExpressionForGettingX>
result += '%s '% X  if X else ''

This is clear, concise, and everybody immediately understands what's going on here.

share|improve this answer
-1: hmmm yes sometimes they're the wrong thing, but other times (specially when you need to do it many times within a function) it's a lot clearer to do stuff in a single expression than to introduce a spurious short-term variable (e.g. X) into the namespace and take up two lines of the source file to do a single operation (even imho for 'professional software development'!) - I think in my case that approach would impede readability, especially by comparison to defining a helper function to tackle this common case. Also I did make clear in my question that I'd considered this approach. – Ben Spiller Jan 23 '13 at 14:11
Perhaps a meaningful variable name would improve this strategy. In that case, the extra line is almost a comment. – kd8azz Oct 28 '13 at 16:36
Yes, you're definitely right! I chose X only because of the choice of OP, and because of a lack of context what X could be. Sometimes I even define variable for a number like 1, just for reasons of documentation, e.g., correction_for_offset = 1. This makes code much easier to understand and maintain. – Thorsten Kranz Nov 5 '13 at 6:57

Python doesn't have expression scope (Is there a Python equivalent of the Haskell 'let'), presumably because the abuses and confusion of the syntax outweigh the advantages.

If you absolutely have to use an expression scope, the least worst option is to abuse a generator comprehension:

result += next('%s '%(e) if e else '' for e in (<complexExpressionForGettingX>,))
share|improve this answer
+1. While I think that it is more complex than the lambda stuff provided by the OP, it is a valid and nice alternative worth considering in more complex circumstances. – glglgl Jan 15 '13 at 12:25
-1: This is better than thinking up a name for the intermediate result? This is confusing and twisty, and requires you to think up a name anyway. Just split it into two statements. – Ned Batchelder Jan 15 '13 at 13:33
@NedBatchelder adding a statement doesn't always make sense e.g. if the scoped expression is itself embedded in a conditional. Of course in that case refactoring is likely to be a good idea anyway. – ecatmur Jan 15 '13 at 15:30
although I'm not convinced this use of comprehensions is as clear as my original lambda expression, +1 for the important and useful observation that python doesn't have expression-level scope (only classes and functions define scope, plus stuff like lambdas/comprehensions that is kindof a function behind the scenes). This explains why in Python there's no just no way to do what I want other than defining a function (or lambda function). – Ben Spiller Jan 23 '13 at 14:08

You could define a conditional formatting function once, and use it repeatedly:

def cond_format(expr, form, alt):
    if expr:
        return form % expr
        return alt


result += cond_format(<costly_expression>, '%s ', '')
share|improve this answer
yep true, I'll give you +1 for writing it out, though I did suggest this possible approach already in my question. I also added a more complete and fully-featured condFormat method as my answer to the question – Ben Spiller Jan 23 '13 at 14:19
up vote 1 down vote accepted

After hearing the responses (thanks guys!) I'm now convinced there's no way to achieve what I want in Python without defining a new function (or lambda function) since that's the only way to introduce a new scope.

For best clarity I decided this needed to be implemented as a reusable function (not lambda) so for the benefit of others, I thought I'd share the function I finally came up with - which is flexible enough to cope with multiple additional format string arguments (in addition to the main argument used to decide whether it's to do the formatting at all); it also comes with pythondoc to show correctness and illustrate usage (if you're not sure how the **kwargs thing works just ignore it, it's just an implementation detail and was the only way I could see to implement an optional defaultValue= kwarg following the variable list of format string arguments).

def condFormat(formatIfTrue, expr, *otherFormatArgs, **kwargs):
""" Helper for creating returning the result of string.format() on a 
specified expression if the expressions's bool(expr) is True 
(i.e. it's not None, an empty list  or an empty string or the number zero), 
or return a default string (typically '') if not. 

For more complicated cases where the operation on expr is more complicated 
than a format string, or where a different condition is required, use:
(lambda e=myexpr: '' if not e else '%s ' % e)

formatIfTrue -- a format string suitable for use with string.format(), e.g. 
    "{}, {}" or "{1}, {0:d}". 
expr -- the expression to evaluate. May be of any type. 
defaultValue -- set this keyword arg to override

>>> 'x' + condFormat(', {}.', 'foobar')
'x, foobar.'

>>> 'x' + condFormat(', {}.', [])

>>> condFormat('{}; {}', 123, 456, defaultValue=None)
'123; 456'

>>> condFormat('{0:,d}; {2:d}; {1:d}', 12345, 678, 9, defaultValue=None)
'12,345; 9; 678'

>>> condFormat('{}; {}; {}', 0, 678, 9, defaultValue=None) == None

defaultValue = kwargs.pop('defaultValue','')
assert not kwargs, 'unexpected kwargs: %s'%kwargs
if not bool(expr): return defaultValue

if otherFormatArgs:
    return formatIfTrue.format( *((expr,)+otherFormatArgs) )
    return formatIfTrue.format(expr)
share|improve this answer

Presumably, you want to do this repeatedly to build up a string. With a more global view, you might find that filter (or itertools.ifilter) does what you want to the collection of values.

You'll wind up with something like this:

' '.join(map(str, filter(None, <iterable of <complexExpressionForGettingX>>)))

Using None as the first argument for filter indicates to accept any true value. As a concrete example with a simple expression:

>>> ' '.join(map(str, filter(None, range(-3, 3))))
'-3 -2 -1 1 2'

Depending on how you're calculating the values, it may be that an equivalent list or generator comprehension would be more readable.

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