1

Question

Suppose that I have a list which contains two element tuples, which comprise of either further nested tuples, lists of tuples, or strings.

samp = [('coor', [('test', 'correlation'), 
        [('another', [('nest', 'one')]), ('tags', 'list')], ('threshold', 'foo')])]

>>> samp
[('coor',
  [('test', 'correlation'),
   [('another', [('nest', 'one')]), ('tags', 'list')],
   ('threshold', 'foo')])]

I also have a class, Foo, that can only properly accept a list which doesn't contain any nested lists, but can contain other Foo's.

class Foo:
    def __init__(self, li):
        self.l = li
    def __repr__(self):
        return 'Foo<{0}>'.format(str(self.l))

I want to convert my nested structure samp into one giant valid Foo, so in this case it would look like

>>> big_foo
Foo<[('coor', 
      Foo<[('test', 'correlation'), 
           Foo<[('another', 
                 Foo<[('nest', 'one')]>), 
                 ('tags', 'list')]>, 
           ('threshold', 'foo')]>
      )]>

How can I do this effectively?


My thoughts

Obviously I'm going to have to build the Foo objects going inside-out from the deepest-nesting lists. I know I can check if an element is a tuple or a list with

def is_seq(el):
    return isinstance(el, collections.abc.Sequence) and not isinstance(el, str)

and I could check if any iterable contains a list at some level of nesting with something recursive like

def contains_list(it):
    return any(isinstance(el, list) or (isinstance(el, tuple) and contains_list(el))
                for el in it)

What I'm struggling with is how I will build my new structure effectively, as tuples are immutable. Recursively building the structure inside-out doesn't seem possible because tuples, and so I'm really lost for a good approach. If there's some abstraction or module which can simplify this problem for me, I would gladly accept it.


Motivation

I'm trying to wrap an R library with pyRserve, and need a serializable Python representation of nested named member lists in R. The only similar thing that pyRserve can serialize is a TaggedList which doesn't support nesting upon construction, and so now I'm left with this problem.

0
2

How about something like:

class Foo:
    def __init__(self, li):
        self.l = li
    def __repr__(self):
        return 'Foo<{0}>'.format(str(self.l))


def make_Foo(obj):
    if isinstance(obj, list):
        return Foo([make_Foo(item) for item in obj])
    elif isinstance(obj, tuple):
        return tuple(make_Foo(item) for item in obj)
    elif isinstance(obj, str):
        return obj
    else:
        raise Exception("Not implemented for type {}".format(type(obj)))

samp = [('coor', [('test', 'correlation'), 
        [('another', [('nest', 'one')]), ('tags', 'list')], ('threshold', 'foo')])]

x = make_Foo(samp)
print(x)

Output:

Foo<[('coor', Foo<[('test', 'correlation'), Foo<[('another', Foo<[('nest', 'one')]>), ('tags', 'list')]>, ('threshold', 'foo')]>)]>

Which, if you add some whitespace...

Foo<[('coor', 
    Foo<[('test', 'correlation'), 
        Foo<[('another', 
            Foo<[('nest', 'one')]>), 
            ('tags', 'list')]>, 
        ('threshold', 'foo')]>
    )]>

Closely resembles your desired output.

1
  • Ahh, this looks great. The tuple generator I was completely overlooking. Thank you Kevin! Feb 28 '17 at 21:03

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.