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I'm looking for a way to update dict dictionary1 with the contents of dict update wihout overwriting levelA

dictionary1={'level1':{'level2':{'levelA':0,'levelB':1}}}
update={'level1':{'level2':{'levelB':10}}}
dictionary1.update(update)
print dictionary1
{'level1': {'level2': {'levelB': 10}}}

I know that update deletes the values in level2 because it's updating the lowest key level1.

How could I tackle this, given that dictionary1 and update can have any length?

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Is the nesting always three levels deep or can you have nesting of an arbitrary depth? –  ChristopheD Jul 12 '10 at 23:03
    
It can have any depth/length. –  jay_t Jul 13 '10 at 7:55

4 Answers 4

up vote 65 down vote accepted

@FM's answer has the right general idea, i.e., a recursive solution, but somewhat peculiar coding and at least one bug. I'd recommend, instead:

import collections

def update(d, u):
    for k, v in u.iteritems():
        if isinstance(v, collections.Mapping):
            r = update(d.get(k, {}), v)
            d[k] = r
        else:
            d[k] = u[k]
    return d

The bug shows up when the "update" has a k, v item where v is a dict and k is not originally a key in the dictionary being updated -- @FM's code "skips" this part of the update (because it performs it on an empty new dict which isn't saved or returned anywhere, just lost when the recursive call returns).

My other changes are minor: there is no reason for the if/else construct when .get does the same job faster and cleaner, and isinstance is best applied to abstract base classes (not concrete ones) for generality.

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1  
+1 Good catch on the bug -- doh! I figured someone would would have a better way to handle the isinstance test, but thought I'd take a stab at it. –  FMc Jul 13 '10 at 2:58
    
Hi, This works as a charm, very elegant. I didn't know the existence of collections.Mapping very handy indeed. Thanks, Jay –  jay_t Jul 13 '10 at 23:01
    
@jay_t. you're welcome -- yep, I agree that the collections' module abstract base classes (Mapping etc), which were new in Python 2.6, are really nice (you can also make your own ABCs with module abc!-). –  Alex Martelli Jul 13 '10 at 23:41
1  
Another minor "feature" causes this to raise TypeError: 'int' object does not support item assignment. when you, e.g. update({'k1': 1}, {'k1': {'k2': 2}}). To change this behavior, and instead expand the depth of dictionaries to make room for deeper dictionaries you can add an elif isinstance(d, Mapping): around the d[k] = u[k] and after the isinstance condition. You'll also need to add an else: d = {k: u[k]} to deal with the case that the updating dict is deeper than the original dict. Happy to edit the answer, but don't want to dirty concise code that solves the OP's problem. –  hobs Dec 27 '12 at 1:10
2  
@Matt Yea, or any other mapping-derived object (lists of pairs of things). Makes the function more general and less likely to quietly ignore mapping-derived objects and leave them un-updated (insidious error that the OP might not ever see/catch). You almost always want to use Mapping to find dict types and basestring to find str types. –  hobs Feb 8 '13 at 22:39

Took me a little bit on this one, but thanks to @Alex's post, he filled in the gap I was missing. However, I came across an issue if a value within the recursive dict happens to be a list, so I thought I'd share, and extend his answer.

import collections

def update(orig_dict, new_dict):
    for key, val in new_dict.iteritems():
        if isinstance(val, collections.Mapping):
            tmp = update(orig_dict.get(key, { }), val)
            orig_dict[key] = tmp
        elif isinstance(val, list):
            orig_dict[key] = (orig_dict[key] + val)
        else:
            orig_dict[key] = new_dict[key]
    return orig_dict
share|improve this answer
    
nice, good improvement –  Milimetric Jul 15 at 17:10
    
I think this should probably be (to be a bit safer): orig_dict.get(key, []) + val. –  Andy Hayden Oct 15 at 6:31

Minor improvements to @Alex's answer that enables updating of dictionaries of differing depths as well as limiting the depth that the update dives into the original nested dictionary (but the updating dictionary depth is not limited). Only a few cases have been tested:

def update(d, u, depth=-1):
    """
    Recursively merge or update dict-like objects. 
    >>> update({'k1': {'k2': 2}}, {'k1': {'k2': {'k3': 3}}, 'k4': 4})
    {'k1': {'k2': {'k3': 3}}, 'k4': 4}
    """

    for k, v in u.iteritems():
        if isinstance(v, Mapping) and not depth == 0:
            r = update(d.get(k, {}), v, depth=max(depth - 1, -1))
            d[k] = r
        elif isinstance(d, Mapping):
            d[k] = u[k]
        else:
            d = {k: u[k]}
    return d
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1  
Thanks for this! What use-case might the depth parameter apply to? –  Matt Feb 8 '13 at 17:54
    
@Matt when you have some objects/dicts at a known depth that you don't want merged/updated, just overwritten with new objects (like replacing a dict with a string or float or whatever, deep in your dict) –  hobs Feb 8 '13 at 22:30

That's a bit to the side but do you really need nested dictionaries? Depending on the problem, sometimes flat dictionary may suffice... and look good at it:

>>> dict1 = {('level1','level2','levelA'): 0}
>>> dict1['level1','level2','levelB'] = 1
>>> update = {('level1','level2','levelB'): 10}
>>> dict1.update(update)
>>> print dict1
{('level1', 'level2', 'levelB'): 10, ('level1', 'level2', 'levelA'): 0}
share|improve this answer
2  
The nested structure comes from incoming json datasets, so I would like to keep them intact,... –  jay_t Jul 13 '10 at 7:57

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