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I had a quick question about efficiency of searching through LARGE dictionaries in python. I am reading a large comma-separated file and getting a key and value from each line. If my key is already in the dictionary, I'm adding the value to the value listed in the dictionary, if the key doesn't exist in the dictionary, I simply add the value. Previously I was using this:

if key in data_dict.keys():
    add values
    data_dict[key] = value

This starts pretty fast, but as the dictionary grows it becomes slower and slower, to the point where I can't use it at all. I changed the way I search for the key in the dictionary to this:

    # This will fail if key not present
    data_dict[keyStr] = input_data[keyStr] + load_val
    data_dict[keyStr] = load_val

This is infinitely faster, and can read / write over 350,000 lines of code in 3 seconds.

My question was why does the if key in data_dict.keys(): command take sooo much longer than the call to try: data_dict[keyStr]? And why wouldn't python utilize the "try" function when searching for a key in a dictionary?

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In general, you don't want to catch all exceptions, but only the one you 'expect' and will handle when it is found. Here, e.g., use: except KeyError: ... –  askewchan Sep 30 '13 at 22:00
Your example code is confusing. In the first snippet you're checking for the key being in data_dict, but in the second the only thing that would give you a KeyError exception would be if the key wasn't in input_data. This makes it difficult to provide a complete answer... –  martineau Sep 30 '13 at 23:41

8 Answers 8

up vote 15 down vote accepted

The problem is that for every test you're generating a new list of keys with .keys(). As the list of keys gets longer, the time required goes up. Also as noted by dckrooney, the search for the key becomes linear instead of taking advantage of the hash-table structure of the dictionary.

Replace with:

if key in data_dict:
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Hooray for also adding the most appropriate way to do it! –  William Gaul Sep 30 '13 at 21:23
Ahh ok great. I knew that .keys() regenerated the list of keys so I figured that was the issue, but I didn't know that you could just do "if key in dict:". Thanks for the help. –  Brumdog22 Sep 30 '13 at 22:19
for every test you're generating a new list of keys with .keys() So key() function is called every time ? –  Grijesh Chauhan Oct 1 '13 at 12:36
@GrijeshChauhan, it's only called once per if but I assumed the if was called many times. –  Mark Ransom Oct 1 '13 at 13:14
@MarkRansom but suppose if it called in for as for k in d.keys() that time also function will be called once Am I correct? –  Grijesh Chauhan Oct 1 '13 at 14:03

This doesn't answer the question, but rather avoids it. Try using collections.defaultdict. You won't need the if/else or try/except .

from collections import defaultdict

data_dict = defaultdict(list)
for keyStr, load_val in data:
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alternatively - data_dict[keyStr] = input_data.get(keyStr, [load_val]) –  Wayne Werner Sep 30 '13 at 21:23

You can also simply use

if key in data_dict:

instead of

 if key in data_dict.keys():

As mentioned, the first is a direct hash lookup - the intended offset is computed directly, and then checked - it is roughly O(1), whereas the check of keys is a linear search, which is O(n).

In [258]: data_dict = dict([(x, x) for x in range(100000)])

In [259]: %timeit 999999 in data_dict.keys()
100 loops, best of 3: 3.47 ms per loop

In [260]: %timeit 999999 in data_dict
10000000 loops, best of 3: 49.3 ns per loop
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This is because data_dict.keys() returns a list containing the keys in the dictionary (at least in Python 2.x). Which, in order to find if a key is in the list, requires a linear search.

Whereas, trying to access an element of the dict directly takes advantage of the awesome properties of dictionaries so the access is almost instantaneous.

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In python3 data_dict.keys() returns iterator. –  defuz Sep 30 '13 at 21:09
@defuz Did not know that, I still use mainly Python 2.7. Updated answer, thanks! –  William Gaul Sep 30 '13 at 21:21

Back in the old days we used setdefault:

data_dict.setdefault(keyStr, []).append(load_val)
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data_dict.keys() returns an unsorted list of keys in the dictionary. Thus each time you check to see if a given key is in the dictionary, you're doing a linear search across the list of keys (an O(n) operation). The longer your list, the longer it takes to search for a given key.

Contrast this to data_dict[keyStr]. This performs a hash lookup, which is an O(1) operation. It doesn't (directly) depend on the number of keys in the dictionary; even as you add more keys, the time to check if a given key is in the dictionary stays constant.

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There is something akin to the try function that should help you: dict.get(key, default)

data_dict[keyStr] = data_dict.get(keyStr, '') + load_val
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As several others have noted, the problem lies in the fact thatkey data_dict.keys()uses the unorderedlistreturned from thekeys()method (in Python 2.x) which takes linear time O(n) to search through depending on its length, plus just generating the list of keys itself will take longer and longer as the dictionary's size increases.

On the other hand,key in data_dictonly requires constant time O(1), on average, to perform a search regardless of the size of the dictionary because internally it does a hash table look-up. In addition, this hash table already exists since its part of the internal representation of dictionaries, and therefore doesn't have to be generated before using it.

Python doesn't do this automatically because theinoperator only knows the type of its two operands, not their sources, so it can't automatically optimize the first case where all it sees is the key and a list.

However, in this case the issue of search speed can probably be avoided altogether by storing the data in a specialized version of a dictionary called adefaultdictfound in the built-incollections module. Here's how your code might look if you used one:

from collections import defaultdict

input_data = defaultdict(float)  # guessing factory type you'd want...
data_dict[keyStr] = input_data[keyStr] + load_val

When there's no preexisting entry forinput_data[keyStr]one will generated automatically with a default value (0.0forfloatin this example). As you can see, the code is shorter and very likely faster, all without the need for anyiftests or exception handling.

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