17

In python 3.5, we can merge dicts by using double-splat unpacking

>>> d1 = {1: 'one', 2: 'two'}
>>> d2 = {3: 'three'}
>>> {**d1, **d2}
{1: 'one', 2: 'two', 3: 'three'}

Cool. It doesn't seem to generalise to dynamic use cases, though:

>>> ds = [d1, d2]
>>> {**d for d in ds}
SyntaxError: dict unpacking cannot be used in dict comprehension

Instead we have to do reduce(lambda x,y: {**x, **y}, ds, {}), which seems a lot uglier. Why the "one obvious way to do it" is not allowed by the parser, when there doesn't seem to be any ambiguity in that expression?

  • 1
    You can't do that in any other *- or **-unpacking context either. I.e., you can't do some_function(*x for x in list_lists). The unpacking stars aren't real operators and can't occur in expressions. – BrenBarn Jun 2 '16 at 6:49
  • 3
    {k: v for d in [d1, d2] for k, v in d.items()} would be an alternative to your reduce(), though "uglier" still. – Ilja Everilä Jun 2 '16 at 7:07
  • 2
    I believe yet another alternative is dict(ChainMap(d2, d1)) which I personally don't like because who the hell knows what a ChainMap is anyway? – machine yearning Jun 2 '16 at 7:12
  • 2
    Actually, just ChainMap(*ds) seems to be good enough on its own! Nice, you should add that as an answer. – wim Jun 2 '16 at 7:15
  • 2
    also, you need to reverse the arguments to ChainMap (first found is used) – Antti Haapala Jun 2 '16 at 7:46
15

It's not exactly an answer to your question but I'd consider using ChainMap to be an idiomatic and elegant way to do what you propose (merging dictionaries in-line):

>>> d1 = {1: 'one', 2: 'two'}
>>> d2 = {3: 'three'}
>>> ds = [d1, d2]
>>> dict(ChainMap(*ds))
{1: 'one', 2: 'two', 3: 'three'}

Although it's not a particularly transparent solution, since many programmers might not know exactly how a ChainMap works. Note that (as @AnttiHaapala points out) "first found is used" so, depending on your intentions you might need to make a call to reversed before passing your dicts into ChainMap.

>>> d2 = {3: 'three', 2:'LOL'}
>>> dict(ChainMap(*ds))
{1: 'one', 2: 'two', 3: 'three'}

>>> dict(ChainMap(*reversed(ds)))
{1: 'one', 2: 'LOL', 3: 'three'}
8

To me, the obvious way is:

d_out = {}
for d in ds:
    d_out.update(d)

This is quick and probably quite performant. I don't know that I can speak for the python developers, but I don't know that your expected version is more easy to read. For example, your comprehension looks more like a set-comprehension to me due to the lack of a :. FWIW, I don't think there is any technical reason (e.g. parser ambiguity) that they couldn't add that form of comprehension unpacking.

Apparently, these forms were proposed, but didn't have universal enough support to warrant implementing them (yet).

  • By making it an expression instead of a statement, the possible use-cases are increased for functional styles. If the for loop was always better, there would be no reason to add the merging expression at all - my question is more about why it was intentionally limited to a known predetermined number of operands? – wim Jun 2 '16 at 7:04
  • @wim -- If you really want a to do this in a functional approach, just wrap this in a function :-). As discussed in the relevant PEP, the reason that it was intentionally limited was because there wasn't strong enough consensus in the community about what syntax to use. Perhaps it will be revisited at some time in the future, but for now, it was omitted so that the parts that everyone did agree on could be scheduled for implemenation. – mgilson Jun 2 '16 at 7:09
  • Funnily enough the comprehension syntax was part of the implementation and got actively removed. – norok2 Jun 12 at 16:56
1
final = {}
for data in [d1, d2]:
    final = {**final,**data}
  • 4
    Please add some comments to your answer – Robson May 2 at 11:18

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