# Most pythonic form for mapping a series of statements?

This is something that has bugged me for some time. I learnt Haskell before I learnt Python, so I've always been fond of thinking of many computations as a mapping onto a list. This is beautifully expressed by a list comprehension (I'm giving the pythonic version here):

``````result = [ f(x) for x in list ]
``````

In many cases though, we want to execute more than a single statement on x, say:

``````result = [ f(g(h(x))) for x in list ]
``````

This very quickly gets clunky, and difficult to read.

My normal solution to this is to expand this back into a for loop:

``````result = []
for x in list:
x0 = h(x)
x1 = g(x0)
x2 = f(x1)
result.append(x2)
``````

One thing about this that bothers me no end is having to initialize the empty list 'result'. It's a triviality, but it makes me unhappy. I was wondering if there were any alternative equivalent forms. One way may be to use a local function(is that what they're called in Python?)

``````def operation(x):
x0 = h(x)
x1 = g(x0)
x2 = f(x1)
return x2
result = [ operation(x) for x in list ]
``````

Are there any particular advantages/disadvantages to either of the two forms above? Or is there perhaps a more elegant way?

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You can easily do function composition in Python.

Here's a demonstrates of a way to create a new function which is a composition of existing functions.

``````>>> def comp( a, b ):
def compose( args ):
return a( b( args ) )
return compose

>>> def times2(x): return x*2

>>> def plus1(x): return x+1

>>> comp( times2, plus1 )(32)
66
``````

Here's a more complete recipe for function composition. This should make it look less clunky.

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I would not worry about performance; only in case you really see some issue you can try to move to a different style.

``````result = [f(
g(
h(x)
)
)
for x in list]
``````

Use progressive list comprehensions:

``````result = [h(x) for x in list]
result = [g(x) for x in result]
result = [f(x) for x in result]
``````

Again, that's only a matter of style and taste. Pick the one you prefer most, and stick with it :-)

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I love your second bit of code, but the first one's indentation burns my eyes a little. – Patrick Harrington Dec 9 '08 at 14:08
I agree with you - the first one is not so nice. It was mostly a kind of tentative to emulate functional languages within python syntax. – Roberto Liffredo Dec 9 '08 at 17:38
I'd replace the progressive list comprehensions with a pipeline of generator expressions. – ttepasse Jan 2 '09 at 16:40
What about readability? List comprehensions follow a declarative pattern, that is quite easy to read and understand. Generators, although more "elegant", tend to hide details of the implementation far from the original code position. – Roberto Liffredo Jan 3 '09 at 13:16

If this is something you're doing often and with several different statements you could write something like

``````def seriesoffncs(fncs,x):
for f in fncs[::-1]:
x=f(x)
return x
``````

where fncs is a list of functions. so seriesoffncs((f,g,h),x) would return f(g(h(x))). This way if you later in your code need to workout h(q(g(f(x)))) you would simply do seriesoffncs((h,q,g,f),x) rather than make a new operations function for each combination of functions.

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What if f() takes more than one parameter? – Steve Losh Jan 2 '09 at 14:45
replace x with *args. – Autoplectic Jan 2 '09 at 18:16

If your only concerned with the last result, your last answer is the best. It's clear for anyone looking at it what your doing.

I often take any code that starts to get complex and move it to a function. This basically serves as a comment for that block of code. (any complex code probably needs a re-write anyway, and putting it in a function I can go back and work on it later)

``````def operation(x):
x0 = h(x)
x1 = g(x0)
x2 = f(x1)
return x2
result = [ operation(x) for x in list]
``````
-

A variation of dagw.myopenid.com's function:

``````def chained_apply(*args):
val = args[-1]
for f in fncs[:-1:-1]:
val=f(val)
return val
``````

Instead of seriesoffncs((h,q,g,f),x) now you can call:

``````result = chained_apply(foo, bar, baz, x)
``````
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As far as I know there's no built-in/native syntax for composition in Python, but you can write your own function to compose stuff without too much trouble.

``````def compose(*f):
return f[0] if len(f) == 1 else lambda *args: f[0](compose(*f[1:])(*args))

def f(x):
return 'o ' + str(x)

def g(x):
return 'hai ' + str(x)

def h(x, y):
return 'there ' + str(x) + str(y) + '\n'

action = compose(f, g, h)
print [action("Test ", item) for item in [1, 2, 3]]
``````

Composing outside the comprehension isn't required, of course.

``````print [compose(f, g, h)("Test ", item) for item in [1, 2, 3]]
``````

This way of composing will work for any number of functions (well, up to the recursion limit) with any number of parameters for the inner function.

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There are cases where it's best to go back to the for-loop, yes, but more often I prefer one of these approaches:

Use appropriate line breaks and indentation to keep it readable:

``````result = [blah(blah(blah(x)))
for x in list]
``````

Or extract (enough of) the logic into another function, as you mention. But not necessarily local; Python programmers prefer flat to nested structure, if you can see a reasonable way of factoring the functionality out.

I came to Python from the functional-programming world, too, and share your prejudice.

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