915

Today, I came across the dict method get which, given a key in the dictionary, returns the associated value.

For what purpose is this function useful? If I wanted to find a value associated with a key in a dictionary, I can just do dict[key], and it returns the same thing:

dictionary = {"Name": "Harry", "Age": 17}
dictionary["Name"]
dictionary.get("Name")
4
  • 29
    @yosemite_k I may be missing some context here, but dictionary['non-existent key'] or None should and does still raise a KeyError for me (up to v3.6). Can you explain what you mean?
    – nivk
    Dec 31 '18 at 18:41
  • 29
    dictionary.get("Age") is not same as writing dictionary["Age"] or None
    – drakorg
    Sep 30 '20 at 22:16
  • 1
    Wondering about all the upvotes @yosemite_k got: dictionary["Age"] or None absolutely is not the same as dictionary.get("Age"), as the former raises a KeyError. He probably confused this with dictionary.get("Age") or 18, which is similar to dictionary.get("Age", 18): both statements return a default value of 18 if dictionary does not have the key "Age", but the former also does so when the "Age" value evaluates as False. Dec 9 '21 at 15:03
  • @yosemite_k That's incorrect. You're confusing truthiness of the value retrieved and .get() using a fallback value when keys are missing, even if they're falsey. Please delete your misleading comment with +55 (at the time of writing) -- if you run the code you'll see they're not at all equivalent. dictionary["Age"] or None won't handle the KeyError if "Age" is missing, it'll just raise and or None will never execute, unlike dictionary.get("Age").
    – ggorlen
    Dec 18 '21 at 1:32

13 Answers 13

1354

It allows you to provide a default value if the key is missing:

dictionary.get("bogus", default_value)

returns default_value (whatever you choose it to be), whereas

dictionary["bogus"]

would raise a KeyError.

If omitted, default_value is None, such that

dictionary.get("bogus")  # <-- No default specified -- defaults to None

returns None just like

dictionary.get("bogus", None)

would.

8
  • 1
    Would this be the same as dictionary.get("bogus") or my_default? I've seen people use it in some cases and I was wondering if there's any advantage of using one instead of the other (other than readability) Dec 4 '15 at 21:57
  • 39
    @MustafaS: If "bogus" is a key in dictionary and dictionary.get("bogus") returns a value which evaluates to False in a boolean context (i.e. a Falsey value), such as 0 or an empty string, '', then dictionary.get("bogus") or my_default would evaluate to my_default whereas dictionary.get("bogus", my_default) would return the Falsey value. So no, dictionary.get("bogus") or my_default is not equivalent to dictionary.get("bogus", my_default). Which to use depends on the behavior you desire.
    – unutbu
    Dec 4 '15 at 22:22
  • 7
    @MustafaS: For example, suppose x = {'a':0}. Then x.get('a', 'foo') returns 0 but x.get('a') or 'foo' returns 'foo'.
    – unutbu
    Dec 4 '15 at 22:27
  • 8
    One possible caveat when using dictionary.get('key'): It can be confusing if values in the dictionary are None. Without specifying the return value (second optional argument) there is no way to verify if the key didn't exist or if its value is None. In this specific case I would consider using try-except-KeyError. Feb 17 '16 at 10:33
  • 1
    It's worth noting that the expression to specify the default value is evaluated in the "get" call, and is therefore evaluated on each access. A classic alternative (using either a KeyError handler or a predicate) is to evaluate the default value only if the key is missing. This allows a closure/lambda to be created once and evaluated on any missing key. Sep 14 '18 at 19:22
211

What is the dict.get() method?

As already mentioned the get method contains an additional parameter which indicates the missing value. From the documentation

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.

An example can be

>>> d = {1:2,2:3}
>>> d[1]
2
>>> d.get(1)
2
>>> d.get(3)
>>> repr(d.get(3))
'None'
>>> d.get(3,1)
1

Are there speed improvements anywhere?

As mentioned here,

It seems that all three approaches now exhibit similar performance (within about 10% of each other), more or less independent of the properties of the list of words.

Earlier get was considerably slower, However now the speed is almost comparable along with the additional advantage of returning the default value. But to clear all our queries, we can test on a fairly large list (Note that the test includes looking up all the valid keys only)

def getway(d):
    for i in range(100):
        s = d.get(i)

def lookup(d):
    for i in range(100):
        s = d[i]

Now timing these two functions using timeit

>>> import timeit
>>> print(timeit.timeit("getway({i:i for i in range(100)})","from __main__ import getway"))
20.2124660015
>>> print(timeit.timeit("lookup({i:i for i in range(100)})","from __main__ import lookup"))
16.16223979

As we can see the lookup is faster than the get as there is no function lookup. This can be seen through dis

>>> def lookup(d,val):
...     return d[val]
... 
>>> def getway(d,val):
...     return d.get(val)
... 
>>> dis.dis(getway)
  2           0 LOAD_FAST                0 (d)
              3 LOAD_ATTR                0 (get)
              6 LOAD_FAST                1 (val)
              9 CALL_FUNCTION            1
             12 RETURN_VALUE        
>>> dis.dis(lookup)
  2           0 LOAD_FAST                0 (d)
              3 LOAD_FAST                1 (val)
              6 BINARY_SUBSCR       
              7 RETURN_VALUE  

Where will it be useful?

It will be useful whenever you want to provide a default value whenever you are looking up a dictionary. This reduces

 if key in dic:
      val = dic[key]
 else:
      val = def_val

To a single line, val = dic.get(key,def_val)

Where will it be NOT useful?

Whenever you want to return a KeyError stating that the particular key is not available. Returning a default value also carries the risk that a particular default value may be a key too!

Is it possible to have get like feature in dict['key']?

Yes! We need to implement the __missing__ in a dict subclass.

A sample program can be

class MyDict(dict):
    def __missing__(self, key):
        return None

A small demonstration can be

>>> my_d = MyDict({1:2,2:3})
>>> my_d[1]
2
>>> my_d[3]
>>> repr(my_d[3])
'None'
5
  • Playground link with these code
    – Abhijeet
    Apr 7 '17 at 6:24
  • 1
    One more good test would be if k in dict and dict[k]: vs if dict.get(k):. This covers the situation when we need to check if key exists, and if 'yes' - what value?, something like: dict = {1: '', 2: 'some value'}. Sep 16 '17 at 18:05
  • 8
    Please remember that default value gets evaluated regardless of the value being in dictionary, so instead of dictionary.get(value, long_function()) one might consider using dictionary.get(value) or long_function()
    – Kresimir
    May 8 '18 at 10:34
  • 1
    @Kresimir The two methods are not the same, because None or a False-y value would default, while dictionary.get() would return the default value only if it is missing.
    – Anonymous
    Nov 21 '20 at 23:48
  • The collections module also has defaultdict, so no need to write a new class anymore. Sep 21 '21 at 14:46
35

get takes a second optional value. If the specified key does not exist in your dictionary, then this value will be returned.

dictionary = {"Name": "Harry", "Age": 17}
dictionary.get('Year', 'No available data')
>> 'No available data'

If you do not give the second parameter, None will be returned.

If you use indexing as in dictionary['Year'], nonexistent keys will raise KeyError.

0
24

I will give a practical example in scraping web data using python, a lot of the times you will get keys with no values, in those cases you will get errors if you use dictionary['key'], whereas dictionary.get('key', 'return_otherwise') has no problems.

Similarly, I would use ''.join(list) as opposed to list[0] if you try to capture a single value from a list.

hope it helps.

[Edit] Here is a practical example:

Say, you are calling an API, which returns a JOSN file you need to parse. The first JSON looks like following:

{"bids":{"id":16210506,"submitdate":"2011-10-16 15:53:25","submitdate_f":"10\/16\/2011 at 21:53 CEST","submitdate_f2":"p\u0159ed 2 lety","submitdate_ts":1318794805,"users_id":"2674360","project_id":"1250499"}}

The second JOSN is like this:

{"bids":{"id":16210506,"submitdate":"2011-10-16 15:53:25","submitdate_f":"10\/16\/2011 at 21:53 CEST","submitdate_f2":"p\u0159ed 2 lety","users_id":"2674360","project_id":"1250499"}}

Note that the second JSON is missing the "submitdate_ts" key, which is pretty normal in any data structure.

So when you try to access the value of that key in a loop, can you call it with the following:

for item in API_call:
    submitdate_ts = item["bids"]["submitdate_ts"]

You could, but it will give you a traceback error for the second JSON line, because the key simply doesn't exist.

The appropriate way of coding this, could be the following:

for item in API_call:
    submitdate_ts = item.get("bids", {'x': None}).get("submitdate_ts")

{'x': None} is there to avoid the second level getting an error. Of course you can build in more fault tolerance into the code if you are doing scraping. Like first specifying a if condition

3
  • 2
    A good answer, posted before any of the others, which would have been upvoted more, and probably accepted, if you had posted some code examples (+1 from me, though) Mar 3 '16 at 9:49
  • 2
    @Mawg I recently had a scraping project for my research. It was calling an API and parsing JSON files basically. I had my RA do it. One of the key issues he had was calling the key directly, when many keys are actually missing. I will post an example in the text above.
    – kevin
    Aug 13 '16 at 22:06
  • thanks for tackling the multi-dimensional aspect of this! Sounds like you can even just do {} instead of {'x': None}
    – bluppfisk
    Dec 3 '17 at 16:56
21

A gotcha to be aware of when using .get():

If the dictionary contains the key used in the call to .get() and its value is None, the .get() method will return None even if a default value is supplied.

For example, the following returns None, not 'alt_value' as may be expected:

d = {'key': None}
assert None is d.get('key', 'alt_value')

.get()'s second value is only returned if the key supplied is NOT in the dictionary, not if the return value of that call is None.

2
  • 3
    This one got me :\ One way to solve this is to have d.get('key') or 'alt_value' if you know it might be None Nov 8 '19 at 14:55
  • 2
    More like a getcha' Oct 26 '21 at 17:13
19

The purpose is that you can give a default value if the key is not found, which is very useful

dictionary.get("Name",'harry')
10

For what purpose is this function useful?

One particular usage is counting with a dictionary. Let's assume you want to count the number of occurrences of each element in a given list. The common way to do so is to make a dictionary where keys are elements and values are the number of occurrences.

fruits = ['apple', 'banana', 'peach', 'apple', 'pear']
d = {}
for fruit in fruits:
    if fruit not in d:
        d[fruit] = 0
    d[fruit] += 1

Using the .get() method, you can make this code more compact and clear:

for fruit in fruits:
    d[fruit] = d.get(fruit, 0) + 1
1
  • 2
    While this is true, bear in mind that d = defaultdict(int) is even cleaner. Inner loop becomes d[fruit] += 1. Then again, probably collections.Counter is better still than the defaultdict version. The .get version may still be useful if you don't want to convert a Counter or defaultdict back to a dict or something like that.
    – ggorlen
    Dec 19 '20 at 4:06
5

Why dict.get(key) instead of dict[key]?

0. Summary

Comparing to dict[key], dict.get provides a fallback value when looking up for a key.

1. Definition

get(key[, default]) 4. Built-in Types — Python 3.6.4rc1 documentation

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.

d = {"Name": "Harry", "Age": 17}
In [4]: d['gender']
KeyError: 'gender'
In [5]: d.get('gender', 'Not specified, please add it')
Out[5]: 'Not specified, please add it'

2. Problem it solves.

If without default value, you have to write cumbersome codes to handle such an exception.

def get_harry_info(key):
    try:
        return "{}".format(d[key])
    except KeyError:
        return 'Not specified, please add it'
In [9]: get_harry_info('Name')
Out[9]: 'Harry'
In [10]: get_harry_info('Gender')
Out[10]: 'Not specified, please add it'

As a convenient solution, dict.get introduces an optional default value avoiding above unwiedly codes.

3. Conclusion

dict.get has an additional default value option to deal with exception if key is absent from the dictionary

5

One difference, that can be an advantage, is that if we are looking for a key that doesn't exist we will get None, not like when we use the brackets notation, in which case we will get an error thrown:

print(dictionary.get("address")) # None
print(dictionary["address"]) # throws KeyError: 'address'

Last thing that is cool about the get method, is that it receives an additional optional argument for a default value, that is if we tried to get the score value of a student, but the student doesn't have a score key we can get a 0 instead.

So instead of doing this (or something similar):

score = None
try:
    score = dictionary["score"]
except KeyError:
    score = 0

We can do this:

score = dictionary.get("score", 0)
# score = 0
4

One other use-case that I do not see mentioned is as the key argument for functions like sorted, max and min. The get method allows for keys to be returned based on their values.

>>> ages = {"Harry": 17, "Lucy": 16, "Charlie": 18}
>>> print(sorted(ages, key=ages.get))
['Lucy', 'Harry', 'Charlie']
>>> print(max(ages, key=ages.get))
Charlie
>>> print(min(ages, key=ages.get))
Lucy

Thanks to this answer to a different question for providing this use-case!

1

Other answers have clearly explained the difference between dict bracket keying and .get and mentioned a fairly innocuous pitfall when None or the default value is also a valid key.

Given this information, it may be tempting conclude that .get is somehow safer and better than bracket indexing and should always be used instead of bracket lookups, as argued in Stop Using Square Bracket Notation to Get a Dictionary's Value in Python, even in the common case when they expect the lookup to succeed (i.e. never raise a KeyError).

The author of the blog post argues that .get "safeguards your code":

Notice how trying to reference a term that doesn't exist causes a KeyError. This can cause major headaches, especially when dealing with unpredictable business data.

While we could wrap our statement in a try/except or if statement, this much care for a dictionary term will quickly pile up.

It's true that in the uncommon case for null (None)-coalescing or otherwise filling in a missing value to handle unpredictable dynamic data, a judiciously-deployed .get is a useful and Pythonic shorthand tool for ungainly if key in dct: and try/except blocks that only exist to set default values when the key might be missing as part of the behavioral specification for the program.

However, replacing all bracket dict lookups, including those that you assert must succeed, with .get is a different matter. This practice effectively downgrades a class of runtime errors that help reveal bugs into silent illegal state scenarios that tend to be harder to identify and debug.

A common mistake among programmers is to think exceptions cause headaches and attempt to suppress them, using techniques like wrapping code in try ... except: pass blocks. They later realize the real headache is never seeing the breach of application logic at the point of failure and deploying a broken application. Better programming practice is to embrace assertions for all program invariants such as keys that must be in a dictionary.

The hierarchy of error safety is, broadly:

Error category Relative ease of debugging
Compile-time error Easy; go to the line and fix the problem
Runtime exception Medium; control needs to flow to the error and it may be due to unanticipated edge cases or hard-to-reproduce state like a race condition between threads, but at least we get a clear error message and stack trace when it does happen.
Silent logical error Difficult; we may not even know it exists, and when we do, tracking down state that caused it can be very challenging due to lack of locality and potential for multiple assertion breaches.

When programming language designers talk about program safety, a major goal is to surface, not suppress, genuine errors by promoting runtime errors to compile-time errors and promote silent logical errors to either runtime exceptions or (ideally) compile-time errors.

Python, by design as an interpreted language, relies heavily on runtime exceptions instead of compiler errors. Missing methods or properties, illegal type operations like 1 + "a" and out of bounds or missing indices or keys raise by default.

Some languages like JS, Java, Rust and Go use the fallback behavior for their maps by default (and in many cases, don't provide a throw/raise alternative), but Python throws by default, along with other languages like C#. Perl/PHP issue an uninitialized value warning.

Indiscriminate application of .get to all dict accesses, even those that aren't expected to fail and have no fallback for dealing with None (or whatever default is used) running amok through the code, pretty much tosses away Python's runtime exception safety net for this class of errors, silencing or adding indirection to potential bugs.

Other supporting reasons to prefer bracket lookups (with the occasional, well-placed .get where a default is expected):

  • Prefer writing standard, idiomatic code using the tools provided by the language. Python programmers usually (correctly) prefer brackets for the exception safety reasons given above and because it's the default behavior for Python dicts.
  • Always using .get forfeits intent by making cases when you expect to provide a default None value indistinguishable from a lookup you assert must succeed.
  • Testing increases in complexity in proportion to the new "legal" program paths permitted by .get. Effectively, each lookup is now a branch that can succeed or fail -- both cases must be tested to establish coverage, even if the default path is effectively unreachable by specification (ironically leading to additional if val is not None: or try for all future uses of the retrieved value; unnecessary and confusing for something that should never be None in the first place).
  • .get is a bit slower.
  • .get is harder to type and uglier to read (compare Java's tacked-on-feel ArrayList syntax to native-feel C# Lists or C++ vector code). Minor.

Some languages like C++ and Ruby offer alternate methods (at and fetch, respectively) to opt-in to throwing an error on a bad access, while C# offers opt-in fallback value TryGetValue similar to Python's get.

Since JS, Java, Ruby, Go and Rust bake the fallback approach of .get into all hash lookups by default, it can't be that bad, one might think. It's true that this isn't the largest issue facing language designers and there are plenty of use cases for the no-throw access version, so it's unsurprising that there's no consensus across languages.

But as I've argued, Python (along with C#) has done better than these languages by making the assert option the default. It's a loss of safety and expressivity to opt-out of using it to report contract violations at the point of failure by indiscriminately using .get across the board.

0

It allow you to provide a default value, instead of get an error when the value is not found. persuedocode like this :

class dictionary():
    def get(self,key,default):
         if self[key] is not found : 
               return default
         else:
               return self[key]
-2

Based on usage should use this get method.

Example1

In [14]: user_dict = {'type': False}

In [15]: user_dict.get('type', '')

Out[15]: False

In [16]: user_dict.get('type') or ''

Out[16]: ''

Example2

In [17]: user_dict = {'type': "lead"}

In [18]: user_dict.get('type') or ''

Out[18]: 'lead'

In [19]: user_dict.get('type', '')

Out[19]: 'lead'
0

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