You can make changes to dictionaries, lists, and sets. Tuples cannot be "changed" without making a copy.
A dictionary, like a set, has no inherent conceptual order to it. This is in contrast to lists and tuples, which do have an order. The order for the items in a dict or a set is abstracted away from the programmer, meaning that if element A comes before B in a
for k in mydata loop, you shouldn't (and can't generally) rely on A being before B once you start making changes to
mydata. If you iterate over
mydata twice in a row it'll be in the same order, but this is more a convenient feature of the mechanics of python, and not really a part of the
set abstract data type. Lists and tuples do guarantee order though, especially tuples which are immutable.
Also note the following, which I will bring up below.
One "item" per "element":
Two "items" per "element":
I'd say that lists and tuples are the closest of the data types you describe, since from what I understand a tuple is an immutable "freeze-frame" version of a list. This makes lists useful for data sets that will be changing over time (since you don't have to copy a list to modify it) but tuples useful for things like dictionary keys (which must be immutable types).
Isn't a dictionary just a list of tuples with a particular uniqueness
No, there are several differences. Dictionaries have no inherent order, which is different from a list, which does.
Also, a dictionary has a key and a value for each "element". A tuple, on the other hand, can have an arbitrary number of elements, but each with only a value.
Most importantly, though, dictionaries can be changed, while tuples cannot.
Isn't a list just a set with a different kind of uniqueness
Again, I'd stress that sets have no inherent ordering, while lists do. This makes lists much more useful for representing things like stacks and queues, where you want to be able to remember the order in which you appended items. Sets offer no such guarantee.
There are now named tuples -- starting to feel more like a special-case dictionary. There are now ordered dictionaries -- starting to feel more like a list. And I just saw a recipe for ordered sets. I can picture this going on and on ... what about unique lists, etc.
To some degree I agree with you. However throughout my experience coding in python I have often found myself coding up custom solutions to represent data cases that were more elegantly represented by, for example, ordered dictionaries. I think that adding libraries to support common use-cases for already well-established data structures could be a very good thing; as long as it doesn't get out of hand, and we can still see the unique usefulness in each solution.
A great example is the Counter() class. This specialized dictionary has been of use to me more times than I can count (badoom-tshhhhh!) and it has saved me the effort of coding up a custom solution. I'd much rather have a solution that the community is helping me to develop and keep with proper python best-practices than something that sits around in my custom data structures folder and only gets used once or twice a year.