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What would be the difference between using a copy and a defaultdict approach for the below?

base_data = {...}

for item in iterable:

    # approach 1 <-- why wouldn't this work?
    data = defaultdict(lambda: base_data)

    # approach 2
    data = deepcopy(base_data)

    ...

It seems the first method is the wrong object type for this, but could someone clarify what the difference is between the two approaches, and why that wouldn't work?

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    that is not really the usecase of defaultdict, so use deepcopy – azro Oct 29 '20 at 17:08
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    I'm not really sure what you are asking. The two are creating completely different data. The first is a dictionary of infinitely many base_datas (each being the same object, by the way), the second is just the equivalent of a single base_data. – MisterMiyagi Oct 29 '20 at 17:10
  • I am honestly have a hard time understanding what you are asking. These do totally different things. – juanpa.arrivillaga Oct 29 '20 at 17:12
  • @juanpa.arrivillaga I see -- want to put together an answer showing the difference and then I'll accept that. I'm probably confused myself on when to use which. – David542 Oct 29 '20 at 17:13
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  1. deepcopy makes a brand new deep copy of the original dict; the new copy is entirely separated from the original, so subsequent modifications to one do not affect the other at all.

  2. defaultdict(lambda: base_data) makes a dict that, whenever a bracketed lookup for a key fails, inserts that key with a value that's an alias of base_data (so modifying any value would modify all of them, the same way b = a followed by a mutating operation on a or b affects both).

    defaultdict's default "constructor" should always return an immutable type (aliases okay since they can't be mutated) or a brand new freestanding mutable type (e.g. for base_data with immutable values, a shallow copy with defaultdict(base_dict.copy) works; for base_data with mutable values, you'd need a deep copy to keep them independent, defaultdict(lambda: copy.deepcopy(base_data)), or just copying the literal that defined base_data into the lambda if it's short enough).

#1 has a use case (making an entirely independent copy that can be updated without affecting other copies).

#2, as you wrote it, just doesn't; many aliases of a mutable type shared between all keys is essentially useless; you'd need copying or fresh construction to default to a mutable value to make a useful defaultdict.

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  • I see, so defaultdict only has one object and any mutations to that affect all objects that reference it? Even if that lookup occurred before it was changed? – David542 Oct 29 '20 at 17:18
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    @David542: It's because you used a lambda that returned a single existing object without copying it in any way, rather than making a new one; it's the same as doing a = b, you make aliases, not copies. Useful cases for defaultdict either: 1) Return an immutable value (so it would be replaced when changed, not modified in place) or 2) Construct a new value on demand. defaultdict(base_dict.copy) would be fine if base_dict's values were all immutable; if not, you'd use defaultdict(lambda: copy.deepcopy(base_dict)) to ensure each value is new and disconnected from the others. – ShadowRanger Oct 29 '20 at 17:21
  • Ah, ok that's a great explanation -- thank you! Would you want to add that comment-part into your answer and I'll go ahead and accept it? – David542 Oct 29 '20 at 17:23
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    @David542: Done (with rephrasing). – ShadowRanger Oct 29 '20 at 17:33
  • thanks, in a way it's almost like I'm instantiating a crude class using the copy(base_dict) each time. Maybe I should just turn that into a class? – David542 Oct 29 '20 at 17:38

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