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I am looking to create a simple "lookup" mechanism in python, and wanted to make sure there wasn't already something somewhere hidden in the vast libraries in python that doesn't already do this before creating it.

I am looking to take a dict that is formatted something like this

my_dict = { 
  "root": { 
    "secondary": { 
      "user1": { 
          "name": "jim", 
          "age": 24 
      }, 
      "user2": { 
        "name": "fred", 
        "age": 25 
      } 
    } 
  } 
}

and I am trying to have a way to access the data by using a decimal notation that would be something similar to

root.secondary.user2

and return that resulting dict back as a response. I am thinking that there must be something that does this and I could write one without much difficulty but I want to make sure I am not recreating something I might be missing from the documentation. Thanks

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Are you looking for syntactic sugar (mydict.root.secondary.user2) or just lookup via a string? –  Andrew Jaffe Feb 16 '12 at 23:40

3 Answers 3

up vote 19 down vote accepted

There's nothing in the standard library for this purpose, but it is rather easy to code this yourself:

>>> key = "root.secondary.user2"
>>> reduce(dict.get, key.split("."), my_dict)
{'age': 25, 'name': 'fred'}

This exploits the fact that the look-up for the key k in the dictionary d can be written as dict.get(d, k). Applying this iteratively using reduce() leads to the desired result.

Edit: For completeness three functions to get, set or delete dictionary keys using this method:

def get_key(my_dict, key):
    return reduce(dict.get, key.split("."), my_dict)

def set_key(my_dict, key, value):
    key = key.split(".")
    my_dict = reduce(dict.get, key[:-1], my_dict)
    my_dict[key[-1]] = value

def del_key(my_dict, key):
    key = key.split(".")
    my_dict = reduce(dict.get, key[:-1], my_dict)
    del my_dict[key[-1]]
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This works great for retrieving, but any idea about actually updating a field in that dict using the same method –  Tanerax Feb 16 '12 at 23:20
    
+1 for a reduce() answer; although I also really just plain like the answer, wish i could +2. –  IfLoop Feb 16 '12 at 23:39
    
@Tanerax: To update, split off the last component of the key and retrieve the containing dictionary using the leading components. Added example code to the answer. –  Sven Marnach Feb 16 '12 at 23:41
    
What happens in get_key if key doesn't exist? –  Randy Jan 3 '13 at 20:38
    
@Randy, it will raise a KeyError. –  Augusto Men Feb 14 '13 at 11:49

You can have that. You can subclass dict, add the key lookup (and even retain the name dict) by using code similar to the one below. The {...} form however will still use the builtin dict class (now called orig_dict), so you have to enclose it, like so: Dict({...}). This implementation recursively converts dictionaries to the new form, so you don't have to use the method above for any dictionary entries that are plain dictionaries themselves.

orig_dict = dict
class Dict(orig_dict):
    def __init__(self, *args, **kwargs):
        super(Dict, self).__init__(*args, **kwargs)
        for k, v in self.iteritems():
            if type(v) == orig_dict and not isinstance(v, Dict):
                super(Dict, self).__setitem__(k, Dict(v))
    def __getattribute__(self, k):
        try: return super(Dict, self).__getattribute__(k)
        except: return self.__getitem__(k)
    def __setattr__(self, k, v):
        if self.has_key(k): self.__setitem__(k, v)
        else: return super(Dict, self).__setattr__(k, v)
    def __delattr__(self, k):
        try: self.__delitem__(k)
        except: super(Dict, self).__delattr__(k)
    def __setitem__(self, k, v):
        toconvert = type(v) == orig_dict and not isinstance(v, Dict)
        super(Dict, self).__setitem__(k, Dict(v) if toconvert else v)

# dict = Dict  <-- you can even do this but I advise against it

# testing:
b = Dict(a=1, b=Dict(c=2, d=3))
c = Dict({'a': 1, 'b': {'c': 2, 'd': 3}})
d = Dict(a=1, b={'c': 2, 'd': {'e': 3, 'f': {'g': 4}}})

b.a = b.b
b.b = 1
d.b.d.f.g = 40
del d.b.d.e
d.b.c += d.b.d.f.g
c.b.c += c.a
del c.a
print b
print c
print d
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Recursion still works.

def walk_into( dict, key ):
    head, _, tail = key.partition('.')
    if tail:
        return walk_into( dict[head], tail )
    return dict, key
d, k = walk_into( my_dict, "root.secondary.user2" )

d[k] can be used for getting or putting a new value.

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