You can use Counter
from collections
in combination with defaultdict
.
As the name suggests, the counter counts the same elements, and a defaultdict lets you access non-existing keys by providing a default value (an empty Counter
in this case). Your code then becomes
from collections import Counter, defaultdict
d = defaultdict(Counter)
d['siteA'] = Counter({'00000000': 3, '11111111': 4, '22222222': 5})
d['siteB'] = Counter({'00000000': 1, '11111111': 2, '22222222': 5})
print(d.items())
> dict_items([('siteA', Counter({'22222222': 5, '11111111': 4, '00000000': 3})),
> ('siteB', Counter({'22222222': 5, '11111111': 2, '00000000': 1}))])
# d + e:
d['siteA'].update({'00000000': 5})
print(d.items())
> dict_items([('siteA', Counter({'00000000': 8, '22222222': 5, '11111111': 4})),
> ('siteB', Counter({'22222222': 5, '11111111': 2, '00000000': 1}))])
# d + f
d['siteB'].update({'33333333': 10})
print(d.items())
> dict_items([('siteA', Counter({'00000000': 8, '22222222': 5, '11111111': 4})),
> ('siteB', Counter({'33333333': 10, '22222222': 5, '11111111': 2, '00000000': 1}))])
# d + g
d['siteC'].update({'00000000': 8})
print(d.items())
> dict_items([('siteA', Counter({'00000000': 8, '22222222': 5, '11111111': 4})),
> ('siteB', Counter({'33333333': 10, '22222222': 5, '11111111': 2, '00000000': 1})),
>. ('siteC', Counter({'00000000': 8}))])