44

Importing from JSON can get very complex and nested structures. For example:

{u'body': [{u'declarations': [{u'id': {u'name': u'i',
                                       u'type': u'Identifier'},
                               u'init': {u'type': u'Literal', u'value': 2},
                               u'type': u'VariableDeclarator'}],
            u'kind': u'var',
            u'type': u'VariableDeclaration'},
           {u'declarations': [{u'id': {u'name': u'j',
                                       u'type': u'Identifier'},
                               u'init': {u'type': u'Literal', u'value': 4},
                               u'type': u'VariableDeclarator'}],
            u'kind': u'var',
            u'type': u'VariableDeclaration'},
           {u'declarations': [{u'id': {u'name': u'answer',
                                       u'type': u'Identifier'},
                               u'init': {u'left': {u'name': u'i',
                                                   u'type': u'Identifier'},
                                         u'operator': u'*',
                                         u'right': {u'name': u'j',
                                                    u'type': u'Identifier'},
                                         u'type': u'BinaryExpression'},
                               u'type': u'VariableDeclarator'}],
            u'kind': u'var',
            u'type': u'VariableDeclaration'}],
 u'type': u'Program'}

What is the recommended way to walk complex structures like the above?

Apart of a few list there are mostly dictionaries, the structure can become even more imbricated so I need a general solution.

  • 1
    What are you trying to do with the dictionary? – nneonneo Sep 20 '12 at 6:42
  • 1
    What do you mean by "walk"? – Torsten Engelbrecht Sep 20 '12 at 6:56
44

You can use a recursive generator for converting your dictionary to flat lists.

def dict_generator(indict, pre=None):
    pre = pre[:] if pre else []
    if isinstance(indict, dict):
        for key, value in indict.items():
            if isinstance(value, dict):
                for d in dict_generator(value, [key] + pre):
                    yield d
            elif isinstance(value, list) or isinstance(value, tuple):
                for v in value:
                    for d in dict_generator(v, [key] + pre):
                        yield d
            else:
                yield pre + [key, value]
    else:
        yield indict

It returns

[u'body', u'kind', u'var']
[u'init', u'declarations', u'body', u'type', u'Literal']
[u'init', u'declarations', u'body', u'value', 2]
[u'declarations', u'body', u'type', u'VariableDeclarator']
[u'id', u'declarations', u'body', u'type', u'Identifier']
[u'id', u'declarations', u'body', u'name', u'i']
[u'body', u'type', u'VariableDeclaration']
[u'body', u'kind', u'var']
[u'init', u'declarations', u'body', u'type', u'Literal']
[u'init', u'declarations', u'body', u'value', 4]
[u'declarations', u'body', u'type', u'VariableDeclarator']
[u'id', u'declarations', u'body', u'type', u'Identifier']
[u'id', u'declarations', u'body', u'name', u'j']
[u'body', u'type', u'VariableDeclaration']
[u'body', u'kind', u'var']
[u'init', u'declarations', u'body', u'operator', u'*']
[u'right', u'init', u'declarations', u'body', u'type', u'Identifier']
[u'right', u'init', u'declarations', u'body', u'name', u'j']
[u'init', u'declarations', u'body', u'type', u'BinaryExpression']
[u'left', u'init', u'declarations', u'body', u'type', u'Identifier']
[u'left', u'init', u'declarations', u'body', u'name', u'i']
[u'declarations', u'body', u'type', u'VariableDeclarator']
[u'id', u'declarations', u'body', u'type', u'Identifier']
[u'id', u'declarations', u'body', u'name', u'answer']
[u'body', u'type', u'VariableDeclaration']
[u'type', u'Program']
  • 1
    Of all the Solutions I am reading this is the easiest and works well :-) Thanks Bryukhanov Valentin – Md. Mohsin Oct 14 '14 at 0:32
  • 2
    I wish I could give you 10+, lol :-) – Md. Mohsin Oct 14 '14 at 1:00
  • 5
    Great solution but you have an error, "[key] + pre" should be "pre + [key]". Otherwise your returned lists jumble the path. – Paul Kenjora Jun 23 '17 at 16:59
46

If you only need to walk the dictionary, I'd suggest using a recursive walk function that takes a dictionary and then recursively walks through its elements. Something like this:

def walk(node):
    for key, item in node.items():
        if item is a collection:
            walk(item)
        else:
            It is a leaf, do your thing

If you also want to search for elements, or query several elements that pass certain criteria, have a look at the jsonpath module.

  • 14
    This only works for directly nested dictionaries. In the example data structure, there were several dictionary values that were lists of other dictionaries. Some extra logic will be required to handle those (such as recursing inside a list comprehension or generator expression). To make things work right, you probably need to use your knowledge of the meaning of the data, such as the fact that all the dictionaries have a "type" key. – Blckknght Sep 20 '12 at 23:14
  • You should also be careful to check for cycles. e.g.: foo = {}; foo['bar'] = foo will blow you up. Your walk function should keep a list of, and not descend, objects it has seen. (you could pass the list to each successive call) – Cory Mar 25 '15 at 7:18
8

Instead of writing your own parser, depending on the task, you could extend encoders and decoders from the standard library json module.

I recommend this especially if you need to encode objects belonging to custom classes into the json. If you have to do some operation which could be done also on a string representation of the json, consider also iterating JSONEncoder().iterencode

For both the reference is http://docs.python.org/2/library/json.html#encoders-and-decoders

5

If you know the meaning of the data, you might want to create a parse function to turn the nested containers into a tree of objects of custom types. You'd then use methods of those custom objects to do whatever you need to do with the data.

For your example data structure, you might create Program, VariableDeclaration, VariableDeclarator, Identifier, Literal and BinaryExpression classes, then use something like this for your parser:

def parse(d):
    t = d[u"type"]

    if t == u"Program":
        body = [parse(block) for block in d[u"body"]]
        return Program(body)

    else if t == u"VariableDeclaration":
        kind = d[u"kind"]
        declarations = [parse(declaration) for declaration in d[u"declarations"]]
        return VariableDeclaration(kind, declarations)

    else if t == u"VariableDeclarator":
        id = parse(d[u"id"])
        init = parse(d[u"init"])
        return VariableDeclarator(id, init)

    else if t == u"Identifier":
        return Identifier(d[u"name"])

    else if t == u"Literal":
        return Literal(d[u"value"])

    else if t == u"BinaryExpression":
        operator = d[u"operator"]
        left = parse(d[u"left"])
        right = parse(d[u"right"])
        return BinaryExpression(operator, left, right)

    else:
        raise ValueError("Invalid data structure.")
4

Maybe can help:

def walk(d):
    global path
      for k,v in d.items():
          if isinstance(v, str) or isinstance(v, int) or isinstance(v, float):
            path.append(k)
            print "{}={}".format(".".join(path), v)
            path.pop()
          elif v is None:
            path.append(k)
            ## do something special
            path.pop()
          elif isinstance(v, dict):
            path.append(k)
            walk(v)
            path.pop()
          else:
            print "###Type {} not recognized: {}.{}={}".format(type(v), ".".join(path),k, v)

mydict = {'Other': {'Stuff': {'Here': {'Key': 'Value'}}}, 'root1': {'address': {'country': 'Brazil', 'city': 'Sao', 'x': 'Pinheiros'}, 'surname': 'Fabiano', 'name': 'Silos', 'height': 1.9}, 'root2': {'address': {'country': 'Brazil', 'detail': {'neighbourhood': 'Central'}, 'city': 'Recife'}, 'surname': 'My', 'name': 'Friend', 'height': 1.78}}

path = []
walk(mydict)

Will produce output like this:

Other.Stuff.Here.Key=Value 
root1.height=1.9 
root1.surname=Fabiano 
root1.name=Silos 
root1.address.country=Brazil 
root1.address.x=Pinheiros 
root1.address.city=Sao 
root2.height=1.78 
root2.surname=My 
root2.name=Friend 
root2.address.country=Brazil 
root2.address.detail.neighbourhood=Central 
root2.address.city=Recife 
1

Some addition to solution above (to handle json including lists)

#!/usr/bin/env python

import json

def walk(d):
   global path
   for k,v in d.items():
      if isinstance(v, str) or isinstance(v, int) or isinstance(v, float):
         path.append(k)
         print("{}={}".format(".".join(path), v)) 
         path.pop()
      elif v is None:
         path.append(k)
         # do something special
         path.pop()
      elif isinstance(v, list):
         path.append(k)
         for v_int in v:
            walk(v_int)
         path.pop()
      elif isinstance(v, dict):
         path.append(k)
         walk(v)
         path.pop()
      else:
         print("###Type {} not recognized: {}.{}={}".format(type(v), ".".join(path),k, v))

with open('abc.json') as f:
   myjson = json.load(f)

path = []
walk(myjson)

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