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Suppose you have several dictionaries that keep track of three float values per key (in a sub-dict). You want to be able to merge these dictionaries in a way that adds the values of keys that exist in multiple dicts.

With an ordinary dict update, values are overwritten, so you subclass dict():

class StatementDict(dict):
    def add(self, statement):
        ann_id = statement[0]
        lvl_dict = statement[1]
        if ann_id in self:
            self[ann_id]['skill'] += lvl_dict['skill']
            self[ann_id]['knowledge'] += lvl_dict['knowledge']
            self[ann_id]['interest'] += lvl_dict['interest']
        else:
            self[ann_id] = lvl_dict

    def update(self, statement_dict):
        for statement in statement_dict.iteritems():
            self.add(statement)

Then you place the dicts you would like to merge/add into an ordinary dict's keys:

# Small example data that reproduces the error
few_statements = {}
few_statements['linkedin'] = {u'Homerun': {u'skill': 14.0,
                                           u'knowledge': 34.0,
                                           u'interest': 20.0}}
few_statements['tudelft'] = {u'Presentation': {u'skill': 14.0,
                                               u'knowledge': 34.0,
                                               u'interest': 20.0},
                             u'Future': {u'skill': 16.0,
                                         u'knowledge': 25.33,
                                         u'interest': 2.0},
                             u'Visual_perception': {u'skill': 20.46,
                                                    u'knowledge': 28.35,
                                                    u'interest': 4.0}}
few_statements['website'] = {u'Homerun': {u'skill': 1.0,
                                          u'knowledge': 3.0,
                                          u'interest': 2.0}}

few_statements['shareworks'] = {u'Presentation': {u'skill': 8.0,
                                                  u'knowledge': 20.0,
                                                  u'interest': 12.0},
                                u'Future': {u'skill': 17.0,
                                            u'knowledge': 26.33,
                                            u'interest': 3.0},
                                u'Visual_perception': {u'skill': 2.0,
                                                       u'knowledge': 3.0,
                                                       u'interest': 6.0}}

Now we should be able to add these key, value pairs to a StatementDict() one-by-one, or use the StatementDict.update() method. The order in which the source dicts are added to the StatementDict should not matter for the outcome.

# First we try updating in one order
small_test1a = StatementDict()
for origin in ("tudelft", "website", "linkedin", "shareworks"):
    for st in few_statements[origin].iteritems():
        small_test1a.add(st)

# And then in another order
small_test2 = StatementDict()
for origin in ("linkedin", "shareworks", "tudelft", "website"):
    for st in few_statements[origin].iteritems():
        small_test2.add(st)

print "Different order, same result?", small_test1a == small_test2
                                                # False, but why?
for key in small_test1a:
    print "Desired:", key, small_test1a[key]
    print "Unexpected:", key, small_test2[key]

Alas, the order in which dicts are added does influence the outcome. But why, and what has happened with the unexpected outcome?

Desired: Future {u'skill': 33.0, u'knowledge': 51.66, u'interest': 5.0}
Unexpected: Future {u'skill': 50.0, u'knowledge': 77.99, u'interest': 8.0}
Desired: Presentation {u'skill': 22.0, u'knowledge': 54.0, u'interest': 32.0}
Unexpected: Presentation {u'skill': 30.0, u'knowledge': 74.0, u'interest': 44.0}
Desired: Homerun {u'skill': 15.0, u'knowledge': 37.0, u'interest': 22.0}
Unexpected: Homerun {u'skill': 29.0, u'knowledge': 71.0, u'interest': 42.0}
Desired: Visual_perception {u'skill': 22.46, u'knowledge': 31.35, u'interest': 10.0}
Unexpected: Visual_perception {u'skill': 24.46, u'knowledge': 34.35, u'interest': 16.0}

Adding the dicts in the second order seems to double the values (adds them twice?) of the dict that was placed first. I don't understand why this happens. How do I get the desired addition behavior to occur reliably, independent of the order of addition?

Another thing I don't understand: why do the values of small_test1a change when I make a new StatementDict() and fill it with the same values?

Running the following lines causes small_test1a to change in the final iteration of the loop:

small_test1b = StatementDict()
for origin in ("tudelft", "website", "linkedin", "shareworks"):
    small_test1b.update(few_statements[origin])
print "\nDoes .update() function?", small_test1a == small_test1b
print small_test1a

P.S. Using my actual data, no addition happens at all. Instead, the first placed values are kept. This is not the same as updating an ordinary dict, where values are overwritten. Unfortunately, I was not able to reproduce this behavior with small test data.

share|improve this question

1 Answer 1

up vote 1 down vote accepted

When you do this:

self[ann_id] = lvl_dict

you make self[ann_id] another name for that particular dictionary (e.g., the one for "tudelft"). Then, when you do a subsequent:

self[ann_id]['skill'] += lvl_dict['skill']

you modify the previous lvl_dict based on the current one (i.e., in this case, change the one for "tudelft" based on the one for "website").

A minimal fix for this is to copy the first dictionary. However, I might try working with collections.defaultdict, so that you can eliminate the if ann_id in self: test entirely. When defaultdict creates a new dictionary it will be a new instance and hence not modify any existing one.


An example using defaultdict and the lambda function in your comment below:

from collections import defaultdict

class StatementDict(defaultdict):
    def __init__(self):
        defaultdict.__init__(self,
            lambda: {'skill': 0.0, 'knowledge': 0.0, 'interest': 0.0})

    def add(self, statement):
        ... as before ...
share|improve this answer
    
Thanks for reminding me to copy! I've made this mistake several times before with dictionaries, so I'm a bit disappointed in myself for not having caught on by now. Working with collections.defaultdict however seems less straightforward. I tried to subclass it as StatementDict(defaultdict(lvl_dict_factory)), where lvl_dict_factory = lambda: {'skill': 0.0, 'knowledge': 0.0, 'interest':0.0}, but that's apparently not how it's done. –  AliOli Jul 15 '13 at 0:30
    
Ah, that's the wrong way to invoke it. If you have class StatementDict(defaultdict) you create an instance with, e.g., small_test1a = StatementDict(lvl_dict_factory). Or, provide your own __init__, which might look/feel cleaner to you; I'll edit in an example. –  torek Jul 15 '13 at 1:12

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