2

Python have some great structures to model data. Here are some :

              +-------------------+-----------------------------------+
              | indexed by int    | no-indexed by int                 |
+-------------+-------------------+-----------------------------------+
| no-indexed  | [1, 2, 3]         | {1, 2, 3}                         |
| by key      | or                | or                                |
|             | [x+1 in range(3)] | {x+1 in range(3)}                 |
+-------------+-------------------+-----------------------------------+
| indexed     |                   | {'a': 97, 'c': 99, 'b': 98}       |
| by key      |                   | or                                |
|             |                   | {chr(x):x for x in range(97,100)} |
+-------------+-------------------+-----------------------------------+

Why python does not include by default a structure indexed by key+int (like a PHP Array) ? I know there is a library that emulate this object ( http://docs.python.org/3/library/collections.html#ordereddict-objects). But here is the representation of a "orderedDict" taken from the documentation :

OrderedDict([('pear', 1), ('apple', 4), ('orange', 2), ('banana', 3)])

Wouldn't it be better to have a native type that should logically be writen like this:

['a': 97, 'b': 98, 'c': 99]

And same logic for orderedDict comprehension :

[chr(x):x for x in range(97,100)]

Does it make sense to fill the table cell like this in the python design? It is there any particular reason for this to not be implemented yet?

5
  • I looked at the source and it says Big-O running times for all methods are the same as regular dictionaries.. I'm not sure why they don't do this by default.
    – Blender
    Nov 13, 2012 at 3:38
  • 5
    A "list" is not an "ordered set"--sets have unique elements. An "ordered set" does not exist as a native datatype either. Nov 13, 2012 at 3:41
  • 2
    set : list :: dict : list of tuples (such that index-0 of the tuples is unique). But if you really want to avoid doing that (as I suspect any sane person would), then you should opt to from collections import ordereddict; myOrderedDict = ordereddict() Nov 13, 2012 at 3:44
  • 1
    Dicts can be indexed by int--they can be indexed by any immutable type. This table is not really a good model to think about Python datatypes. Nov 13, 2012 at 4:17
  • A simply syntax for ordered dicts would be nice though. However, I believe that the grammar fora [key:value, ..]-style syntax (including ordereddict-comprehensions) would be non-trivial. Nov 13, 2012 at 6:33

4 Answers 4

17

Python's dictionaries are implemented as hash tables. Those are inherently unordered data structures. While it is possible to add extra logic to keep track of the order (as is done in collections.OrderedDict in Python 2.7 and 3.1+), there's a non-trivial overhead involved.

For instance, the recipe that the collections documentation suggest for use in Python 2.4-2.6 requires more than twice as much work to complete many basic dictionary operations (such as adding and removing values). This is because it must maintain a doubly-linked list to use for ordered iteration, and it needs an extra dictionary to help maintain the list. While its operations are still O(1), the constant terms are larger.

Since Python uses dict instances everywhere (for all variable lookups, for instance), they need to be very fast or every part of every program will suffer. Since ordered iteration is not needed very often, it makes sense to avoid the overhead it requires in the general case. If you need an ordered dictionary, use the one in the standard library (or the recipe it suggests, if you're using an earlier version of Python).

4

Your question appears to be "why does Python not have native PHP-style arrays with ordered keys?"

Python has three core non-scalar datatypes: list, dict, and tuple. Dicts and tuples are absolutely essential for implementing the language itself: they are used for assignment, argument unpacking, attribute lookup, etc. Although not really used for the core language semantics, lists are pretty essential for data and programs in Python. All three must be extremely lightweight, have very well-understood semantics, and be as fast as possible.

PHP-style arrays are none of these things. They are not fast or lightweight, have poorly defined runtime complexity, and they have confused semantics since they can be used for so many different things--look at the array functions. They are actually a terrible datatype for almost every use case except the very narrow one for which they were created: representing x-www-form-encoded data. Even for this use case a failing is that earlier keys overwrite the value of later keys: in PHP ?a=1&a=2 results in array('a'=>2). (A common structure for dealing with this in Python is the MultiDict, which has ordered keys and values, and each key can have multiple values.)

PHP has one datatype that must be used for pretty much every use case without being great for any of them. Python has many different datatypes (some core, many more in external libraries) which excel at much more narrow use cases.

2
  • I'm the last guy to defend PHP's poor design decisions, but claiming that ordered hashmaps are "terrible" choice for a core type of a dynamic language could use an example of "terribleness" more solid than "they don't act like Python's non-core MultiDict".
    – lafor
    Jun 7, 2014 at 10:59
  • @lafor I was actually giving a example of a use case where PHP's arrays are the least terrible. "For this one use case where PHP arrays are not too bad, they are almost as good as MultiDict." :) Jun 7, 2014 at 22:46
1

Adding a new answer with updated information: As of CPython3.6, dicts preserve order. Though still not index-accessible. Most likely because integer-based item-lookup is ambiguous since dict keys can be int's. (Some custom use cases exist.)

Unfortunately, the documentation for dict hasn't been updated to reflect this (yet) and still says "Keys and values are iterated over in an arbitrary order which is non-random". Ironically, the collections.OrderedDict docs mention the new behaviour:

Changed in version 3.6: With the acceptance of PEP 468, order is retained for keyword arguments passed to the OrderedDict constructor and its update() method.

And here's an article mentioning some more details about it:

A minor but useful internal improvement: Python 3.6 preserves the order of elements for more structures. Keyword arguments passed to a function, attribute definitions in a class, and dictionaries all preserve the order of elements as they were defined.

So if you're only writing code for Py36 onwards, you shouldn't need collections.OrderedDict unless you're using popitem, move_to_end or order-based equality.

Example, in Python 2.7:

>>> d = {'a': 1, 'b': 2, 'c': 3, 'd': 4, 0: None}
>>> d
{'a': 1, 0: None, 'c': 3, 'b': 2, 'd': 4}

And in Python 3.6:

>>> d = {'a': 1, 'b': 2, 'c': 3, 'd': 4, 0: None}
>>> d
{'a': 1, 'b': 2, 'c': 3, 'd': 4, 0: None}
>>> d['new'] = 'really?'
>>> d[None]= None
>>> d
{'a': 1, 'b': 2, 'c': 3, 'd': 4, 0: None, 'new': 'really?', None: None}
>>> d['a'] = 'aaa'
>>> d
{'a': 'aaa', 'b': 2, 'c': 3, 'd': 4, 0: None, 'new': 'really?', None: None}
>>> 
>>> # equality is not order-based
>>> d1 = {'a': 1, 'b': 2, 'c': 3, 'd': 4, 0: None}
... d2 = {'b': 2, 'a': 1, 'd': 4, 'c': 3, 0: None}
>>> d2
{'b': 2, 'a': 1, 'd': 4, 'c': 3, 0: None}
>>> d1 == d2
True
1
  • 1
    The CPython developers decided not to make the new orderedness of the normal dict part of the language definition, rather, it's just an implementation detail that other interpreters are not required to follow. The only places where the ordered behavior is now required are the dictionaries for **kwargs (which must be in the same order the keyword arguments were passed) and class attributes (which must be in the same order as the definitions in the class body. Other interpreters could use an OrderedDict for those cases, and keep their normal dicts unordered.
    – Blckknght
    Feb 15, 2017 at 5:22
1

As of python 3.7 this is now a default behavior for dictionaries, it was an implementation detail in 3.6 that was adopted as of June 2018 :')

the insertion-order preservation nature of dict objects has been declared to be an official part of the Python language spec.

https://docs.python.org/3/whatsnew/3.7.html

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