python dict: get vs setdefault

落花浮王杯 提交于 2019-11-28 05:14:35
agf

Your two examples do the same thing, but that doesn't mean get and setdefault do.

The difference between the two is basically manually setting d[key] to point to the list every time, versus setdefault automatically setting d[key] to the list only when it's unset.

Making the two methods as similar as possible, I ran

from timeit import timeit

print timeit("c = d.get(0, []); c.extend([1]); d[0] = c", "d = {1: []}", number = 1000000)
print timeit("c = d.get(1, []); c.extend([1]); d[0] = c", "d = {1: []}", number = 1000000)
print timeit("d.setdefault(0, []).extend([1])", "d = {1: []}", number = 1000000)
print timeit("d.setdefault(1, []).extend([1])", "d = {1: []}", number = 1000000)

and got

0.794723378711
0.811882272256
0.724429205999
0.722129751973

So setdefault is around 10% faster than get for this purpose.

The get method allows you to do less than you can with setdefault. You can use it to avoid getting a KeyError when the key doesn't exist (if that's something that's going to happen frequently) even if you don't want to set the key.

See Use cases for the 'setdefault' dict method and dict.get() method returns a pointer for some more info about the two methods.

The thread about setdefault concludes that most of the time, you want to use a defaultdict. The thread about get concludes that it is slow, and often you're better off (speed wise) doing a double lookup, using a defaultdict, or handling the error (depending on the size of the dictionary and your use case).

The accepted answer from agf isn't comparing like with like. After:

print timeit("d[0] = d.get(0, []) + [1]", "d = {1: []}", number = 10000)

d[0] contains a list with 10,000 items whereas after:

print timeit("d.setdefault(0, []) + [1]", "d = {1: []}", number = 10000)

d[0] is simply []. i.e. the d.setdefault version never modifies the list stored in d. The code should actually be:

print timeit("d.setdefault(0, []).append(1)", "d = {1: []}", number = 10000)

and in fact is faster than the faulty setdefault example.

The difference here really is because of when you append using concatenation the whole list is copied every time (and once you have 10,000 elements that is beginning to become measurable. Using append the list updates are amortised O(1), i.e. effectively constant time.

Finally, there are two other options not considered in the original question: defaultdict or simply testing the dictionary to see whether it already contains the key.

So, assuming d3, d4 = defaultdict(list), {}

# variant 1 (0.39)
d1[key] = d1.get(key, []) + [val]
# variant 2 (0.003)
d2.setdefault(key, []).append(val)
# variant 3 (0.0017)
d3[key].append(val)
# variant 4 (0.002)
if key in d4:
    d4[key].append(val)
else:
    d4[key] = [val]

variant 1 is by far the slowest because it copies the list every time, variant 2 is the second slowest, variant 3 is the fastest but won't work if you need Python older than 2.5, and variant 4 is just slightly slower than variant 3.

I would say use variant 3 if you can, with variant 4 as an option for those occasional places where defaultdict isn't an exact fit. Avoid both of your original variants.

You might want to look at defaultdict in the collections module. The following is equivalent to your examples.

from collections import defaultdict

data = [('a', 1), ('b', 1), ('b', 2)]

d = defaultdict(list)

for k, v in data:
    d[k].append(v)

There's more here.

1. Explained with a good example here:
http://code.activestate.com/recipes/66516-add-an-entry-to-a-dictionary-unless-the-entry-is-a/

dict.setdefault typical usage
somedict.setdefault(somekey,[]).append(somevalue)

dict.get typical usage
theIndex[word] = 1 + theIndex.get(word,0)


2. More explanation : http://python.net/~goodger/projects/pycon/2007/idiomatic/handout.html

dict.setdefault() is equivalent to get or set & get. Or set if necessary then get. It's especially efficient if your dictionary key is expensive to compute or long to type.

The only problem with dict.setdefault() is that the default value is always evaluated, whether needed or not. That only matters if the default value is expensive to compute. In that case, use defaultdict.


3. Finally the official docs with difference highlighted http://docs.python.org/2/library/stdtypes.html

get(key[, default])
Return the value for key if key is in the dictionary, else default. If default is not given, it defaults to None, so that this method never raises a KeyError.

setdefault(key[, default])
If key is in the dictionary, return its value. If not, insert key with a value of default and return default. default defaults to None.

In [1]: person_dict = {}

In [2]: person_dict['liqi'] = 'LiQi'

In [3]: person_dict.setdefault('liqi', 'Liqi')
Out[3]: 'LiQi'

In [4]: person_dict.setdefault('Kim', 'kim')
Out[4]: 'kim'

In [5]: person_dict
Out[5]: {'Kim': 'kim', 'liqi': 'LiQi'}

In [8]: person_dict.get('Dim', '')
Out[8]: ''

In [5]: person_dict
Out[5]: {'Kim': 'kim', 'liqi': 'LiQi'}

For those who are still struggling in understanding these two term, let me tell you basic difference between get() and setdefault() method -

Scenario-1

root = {}
root.setdefault('A', [])
print(root)

Scenario-2

root = {}
root.get('A', [])
print(root)

In Scenario-1 output will be {'A': []} while in Scenario-2 {}

So setdefault() sets absent keys in the dict while get() only provides you default value but it does not modify the dictionary.

Now let come where this will be useful- Suppose you are searching an element in a dict whose value is a list and you want to modify that list if found otherwise create a new key with that list.

using setdefault()

def fn1(dic, key, lst):
    dic.setdefault(key, []).extend(lst)

using get()

def fn2(dic, key, lst):
    dic[key] = dic.get(key, []) + (lst) #Explicit assigning happening here

Now lets examine timings -

dic = {}
%%timeit -n 10000 -r 4
fn1(dic, 'A', [1,2,3])

Took 288 ns

dic = {}
%%timeit -n 10000 -r 4
fn2(dic, 'A', [1,2,3])

Took 128 s

So there is a very large timing difference between these two approaches.

The logic of dict.get is:

if key in a_dict:
    value = a_dict[key] 
else: 
    value = default_value

Take an example:

In [72]: a_dict = {'mapping':['dict', 'OrderedDict'], 'array':['list', 'tuple']}
In [73]: a_dict.get('string', ['str', 'bytes'])
Out[73]: ['str', 'bytes']
In [74]: a_dict.get('array', ['str', 'byets'])
Out[74]: ['list', 'tuple']

The mechamism of setdefault is:

    levels = ['master', 'manager', 'salesman', 'accountant', 'assistant']
    #group them by the leading letter
    group_by_leading_letter = {}
    # the logic expressed by obvious if condition
    for level in levels:
        leading_letter = level[0]
        if leading_letter not in group_by_leading_letter:
            group_by_leading_letter[leading_letter] = [level]
        else:
            group_by_leading_letter[leading_letter].append(word)
    In [80]: group_by_leading_letter
    Out[80]: {'a': ['accountant', 'assistant'], 'm': ['master', 'manager'], 's': ['salesman']}

The setdefault dict method is for precisely this purpose. The preceding for loop can be rewritten as:

In [87]: for level in levels:
    ...:     leading = level[0]
    ...:     group_by_leading_letter.setdefault(leading,[]).append(level)
Out[80]: {'a': ['accountant', 'assistant'], 'm': ['master', 'manager'], 's': ['salesman']}

It's very simple, means that either a non-null list append an element or a null list append an element.

The defaultdict, which makes this even easier. To create one, you pass a type or function for generating the default value for each slot in the dict:

from collections import defualtdict
group_by_leading_letter = defaultdict(list)
for level in levels:
    group_by_leading_letter[level[0]].append(level)
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