概述
Starting with Python 2.4, both list.sort()
and sorted()
added a key parameter to specify a function to be called on each list element prior to making comparisons.
For example, here’s a case-insensitive string comparison:
The value of the key parameter should be a function that takes a single argument and returns a key to use for sorting purposes. This technique is fast because the key function is called exactly once for each input record.
A common pattern is to sort complex objects using some of the object’s indices as keys. For example:
The same technique works for objects with named attributes. For example:
Operator Module Functions
The key-function patterns shown above are very common, so Python provides convenience functions to make accessor functions easier and faster. The operator module has operator.itemgetter()
, operator.attrgetter()
, and starting in Python 2.5 a operator.methodcaller()
function.
Using those functions, the above examples become simpler and faster:
The operator module functions allow multiple levels of sorting. For example, to sort by grade then by age:
The operator.methodcaller()
function makes method calls with fixed parameters for each object being sorted. For example, the str.count()
method could be used to compute message priority by counting the number of exclamation marks in a message:
Ascending and Descending
Both list.sort()
and sorted()
accept a reverse parameter with a boolean value. This is used to flag descending sorts. For example, to get the student data in reverse age order:
Sort Stability and Complex Sorts
Starting with Python 2.2, sorts are guaranteed to be stable. That means that when multiple records have the same key, their original order is preserved.
Notice how the two records for blue retain their original order so that ('blue', 1)
is guaranteed to precede ('blue', 2)
.
This wonderful property lets you build complex sorts in a series of sorting steps. For example, to sort the student data by descending grade and then ascending age, do the age sort first and then sort again using grade:
The Timsort algorithm used in Python does multiple sorts efficiently because it can take advantage of any ordering already present in a dataset.
The Old Way Using Decorate-Sort-Undecorate
This idiom is called Decorate-Sort-Undecorate after its three steps:
- First, the initial list is decorated with new values that control the sort order.
- Second, the decorated list is sorted.
- Finally, the decorations are removed, creating a list that contains only the initial values in the new order.
For example, to sort the student data by grade using the DSU approach:
This idiom works because tuples are compared lexicographically; the first items are compared; if they are the same then the second items are compared, and so on.
It is not strictly necessary in all cases to include the index i in the decorated list, but including it gives two benefits:
- The sort is stable – if two items have the same key, their order will be preserved in the sorted list.
- The original items do not have to be comparable because the ordering of the decorated tuples will be determined by at most the first two items. So for example the original list could contain complex numbers which cannot be sorted directly.
Another name for this idiom is Schwartzian transform, after Randal L. Schwartz, who popularized it among Perl programmers.
For large lists and lists where the comparison information is expensive to calculate, and Python versions before 2.4, DSU is likely to be the fastest way to sort the list. For 2.4 and later, key functions provide the same functionality.
The Old Way Using the cmp Parameter
Many constructs given in this HOWTO assume Python 2.4 or later. Before that, there was no sorted()
builtin and list.sort()
took no keyword arguments. Instead, all of the Py2.x versions supported a cmp parameter to handle user specified comparison functions.
In Python 3, the cmp parameter was removed entirely (as part of a larger effort to simplify and unify the language, eliminating the conflict between rich comparisons and the __cmp__()
magic method).
In Python 2, sort()
allowed an optional function which can be called for doing the comparisons. That function should take two arguments to be compared and then return a negative value for less-than, return zero if they are equal, or return a positive value for greater-than. For example, we can do:
Or you can reverse the order of comparison with:
When porting code from Python 2.x to 3.x, the situation can arise when you have the user supplying a comparison function and you need to convert that to a key function. The following wrapper makes that easy to do:
To convert to a key function, just wrap the old comparison function:
In Python 2.7, the functools.cmp_to_key()
function was added to the
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