I've heard from many Pythonists that they prefer list comprehensions because they can do everything you can do using high order functions such as filter and reduce, and more. So this question address them: what is a solid example of something you can do with them, that is tricky to do with HOFs?
The answer is that there is no such example. Everything you can do with list comprehensions has a mechanical translation to higher-order functions. In fact, this is how Haskell implements list comprehensions: it desugars them to higher-order functions.
Given a list comprehension like this:
Haskell desugars it to:
Similarly, if you put in predicates like:
... then that desugars to:
In fact, this desugaring is part of the Haskell specification, which you can find here.
As has been said, everything you can do with list comprehensions can be desugared into higher-order functions, but a large part of the problem with doing this in Python is that Python lacks support for the kind of point-free programming you can use with
Let's take this Python code:
All it does is print this out:
Here's the equivalent version with filter:
I hope you'll agree with me that it's a lot uglier. There isn't really much you can do to make it less ugly without defining a separate function.
But let's look at the equivalent version in Haskell:
Okay, pretty much as good as the Python list comprehension version. What about the equivalent filter version?
Okay, we had to do an import, but the code is (imo) a lot clearer once you understand what it does, although some people might still prefer
In Haskell, list comprehensions are 'syntactic sugar' for conditionals and functions (or can trivially be translated into do notation and then desugared monadically). Here's the 'official' guide to translating them: http://www.haskell.org/onlinereport/haskell2010/haskellch3.html#x8-420003.11
Hence, since list comprehensions can be translated mechanically and straightforwardly into equivalent code using simply higher order functions, there is by definition nothing you can do with them that is difficult to do without them.
The others are correct; list comprehensions do not provide any better manipulation of sequences, per se, compared to functions like map, reduce, filter, etc. They did not really address your question as to why Python programmers trump list comprehensions over higher order functions, though.
The reason Python advocates it and Python programmers use them is because according to Guido, the language creator, list comprehensions (and set comprehensions and dict compressions and generator expressions) are easier to read and to write than functional expressions. Python's philosophy is that readability trumps all.
Guido dislikes functional programming constructs in general, and was wary about adding
For more details, here is a proposal by Guido to remove
He sums it up as follows, though:
The first is obviously more readable. You asked "tricky", not "impossible". And with
So whenever there's an LC formulation, it is preferred IMO, just for the readability of it. Haskell's LC syntax is especially succinct and clear, clearer than Python's IMO (less noise). Shame not to use it. :)