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Suppose code like this:

class Base:
    def start(self):
    def stop(self)

class A(Base):
    def start(self):
        ... do something for A
    def stop(self)
        .... do something for A

class B(Base):
    def start(self):

    def stop(self):

a1 = A(); a2 = A()
b1 = B(); b2 = B()

all = [a1, b1, b2, a2,.....]

Now I want to call methods start and stop (maybe also others) for each object in the list all. Is there any elegant way for doing this except of writing a bunch of functions like

def start_all(all):
    for item in all:

def stop_all(all):
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a bunch of function is two function? –  SilentGhost Apr 21 '10 at 10:24
This is unrelated to your question, but there's no obvious reason in your example why you need that base class. Python will be very happy to let you have a list of unrelated objects and so long as they all have 'start' and 'stop' methods you can still iterate through them calling the methods. –  Duncan Apr 21 '10 at 15:13
Your defining Base with useless methods and then defining behaviour in A and B reflects a poor design in Python. Rather than using an abstract base class, you can just define A and B and use them interchangeably insofar as they share an interface. Your current way of doing things creates a useless class, which is just extra stuff you don't need. –  Mike Graham Apr 21 '10 at 17:03
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6 Answers

up vote 3 down vote accepted

The *_all() functions are so simple that for a few methods I'd just write the functions. If you have lots of identical functions, you can write a generic function:

def apply_on_all(seq, method, *args, **kwargs):
    for obj in seq:
         getattr(obj, method)(*args, **kwargs)

Or create a function factory:

def create_all_applier(method, doc=None):
    def on_all(seq, *args, **kwargs):
        for obj in seq:
            getattr(obj, method)(*args, **kwargs)
    on_all.__doc__ = doc
    return on_all

start_all = create_all_applier('start', "Start all instances")
stop_all = create_all_applier('stop', "Stop all instances")
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This doesn't strike me as simpler than writing the for loop directly. –  Mike Graham Apr 21 '10 at 23:42
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This will work

all = [a1, b1, b2, a2,.....]

map(lambda x: x.start(),all)    

simple example

all = ["MILK","BREAD","EGGS"]
map(lambda x:x.lower(),all)
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In Python 3 map returns a map object, not a list like in Python 2. I'm not sure of standard procedure, but I thought I should correct it, so I submitted an edit. So the code should now work as expected and correctly in both Python 2 and Python 3. –  leetNightshade May 3 '13 at 19:16
Also this feels like the more Pythonic answer, it should be the accepted one. map is a good choice, and I've never used lambdas before now, so thanks. –  leetNightshade May 3 '13 at 19:18
haven't used python 3 much, but a more general solution shouldn't hurt (and I dont' think it makes the example any less clear). Actually I haven't had a chance to work with python as much as I'd like over the past year. –  Mark Essel May 6 '13 at 15:45
In Python 3 map() function call will be not enough. It will create a generator object but wont apply lambda on each list element. Lambda will be applied on iterating through the map() result. list(map(...)) will fix the problem. –  dreikanter Aug 7 '13 at 14:21
@dreikanter or just do [x.start() for x in all]? –  endolith Apr 12 at 0:47
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It seems like there would be a more Pythonic way of doing this, but I haven't found it yet.

I use "map" sometimes if I'm calling the same function (not a method) on a bunch of objects:

map(do_something, a_list_of_objects)

This replaces a bunch of code that looks like this:


But can also be achieved with a pedestrian "for" loop:

  for obj in a_list_of_objects:

The downside is that a) you're creating a list as a return value from "map" that's just being throw out and b) it might be more confusing that just the simple loop variant.

You could also use a list comprehension, but that's a bit abusive as well (once again, creating a throw-away list):

  [ do_something(x) for x in a_list_of_objects ]

For methods, I suppose either of these would work (with the same reservations):

map(lambda x: x.method_call(), a_list_of_objects)


[ x.method_call() for x in a_list_of_objects ]

So, in reality, I think the pedestrian (yet effective) "for" loop is probably your best bet.

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My first reaction was map(lambda x: x.member(), list). It felt like a pretty clear one liner –  Mark Essel Feb 3 '12 at 20:48
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The approach

for item in all:

is simple, easy, readable, and concise. This is the main approach Python provides for this operation. You can certainly encapsulate it in a function if that helps something. Defining a special function for this for general use is likely to be less clear than just writing out the for loop.

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maybe map, but since you don't want to make a list, you can write your own...

def call_for_all(f, seq):
    for i in seq:

then you can do:

call_for_all(lamda x: x.start(), all)
call_for_all(lamda x: x.stop(), all)

by the way, all is a built in function, don't overwrite it ;-)

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Taking @Ants Aasmas answer one step further, you can create a wrapper that takes any method call and forwards it to all elements of a given list:

class AllOf:
    def __init__(self, elements):
        self.elements = elements
    def __getattr__(self, attr):
        def on_all(*args, **kwargs):
            for obj in self.elements:
                getattr(obj, attr)(*args, **kwargs)
        return on_all

That class can then be used like this:

class Foo:
    def __init__(self, val="quux!"):
        self.val = val
    def foo(self):
        print "foo: " + self.val

a = [ Foo("foo"), Foo("bar"), Foo()]

Which produces the following output:

foo: foo
foo: bar
foo: quux!

With some work and ingenuity it could probably be enhanced to handle attributes as well (returning a list of attribute values).

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