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I have time series data that I am currently storing in a dictionary where the dictionary 'keys' are datetime.datetime objects. Something along the lines of:


The question I have is: What is the best way to find the closest two times (before and after) a specified time? I need this function to be as fast a possible because it is called (~10,000) inside a loop that is linearly interpolating between the two closest points.

I currently have one method working which takes a ridiculously long time because it searches through all the keys (~50,000):

def findTime(time):
    for key in keys:
        if abs(dt)<bdt and dt>0:
        elif abs(dt)<adt and dt<0:
    return minKey,maxKey

My attempt at using bisect:

def findTime(time):
    l,r = bisect.bisect_left(time,keys), bisect.bisect_right(time,keys)
    return l,r

Unfortunately, this produces an error:

TypeError: 'datetime.datetime' object does not support indexing

Any help would be appreciated.

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I'm not sure if you can sort dictionaries based on datetime objects, but have you tried that? Then you would be able to assign an index to the key you're looking up and just add/subtract the index by 1 to find the nearest times. – Cryptite May 14 '12 at 19:59
Can you convert the datetime dates into second offsets from a certain time? Then you can just use a float or an integer. – dawg May 14 '12 at 20:01
You can sort a dictionary by datetime objects. The problem is that the time that I want is not necessarily a key in the dictionary – Onlyjus May 14 '12 at 20:03
I agree with drewk you should just use a timestamp instead of a datetime object – Joran Beasley May 14 '12 at 20:06

3 Answers 3

up vote 3 down vote accepted

The bisect functions take as their first argument a sorted array (or list, or really, anything that can be indexed). keys is an unsorted array, and you're passing it as the second argument.

This should work:

def findTime(time):
    keys = sorted(data.keys())
    return bisect.bisect_left(keys, time), bisect.bisect_right(keys, time)

although you should keep the sorted copy around for repeated searches that have not altered the data, rather than re-sorting every time.

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Thanks! Worked like a charm! now my algorithm is ~20 times faster. – Onlyjus May 14 '12 at 20:28

You are far better off using a different key for your dict.

Two are obvious.

1) You can use ISO 8601 date format as a string. This is essentially YYYY-MM-DD format. You can also use YYYY-MM-DD:HH:MM:SS format. A property of ISO 8601 is is lexical sorting, so in a sorted list of keys just take the two sorted keys above and below the insertion point.

2) You can use a float representation of the dates with the integer part being a day offset from a millennium mark and the float being the fraction of the day which is then easily converted to HH:MM:SS. Excel and Windows and Unix use this approach.

Example of 1):

>>> datetime.datetime.fromtimestamp(time.time()).isoformat()
'2012-05-14T13:55:22.142548'  # a hashable, sortable dict key based on time

Example of 2):

>>> time.time()               # That is days and fraction of day since 1/1/1970 
1337028447.499273             # THAT is you dict key
>>> datetime.datetime.fromtimestamp(time.time()).timetuple()
time.struct_time(tm_year=2012, tm_mon=5, tm_mday=14, tm_hour=13, tm_min=52, tm_sec=13, tm_wday=0, tm_yday=135, tm_isdst=-1)

In either case, Python would be able to manage a data structure of 50,000 elements in milliseconds.

Convert the time stamp to a datetime object as needed.

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Create an index based on bisect module seems to be a valuable idea to dig into. However, by looking at the documentation, you will see that bisect functions take a sorted list as a first argument and not in second argument.


bisect.bisect_left(keys,time), bisect.bisect_right(keys,time)

Also, you can try to optimize your code by constructing the keys object outside of your findTime function. If you data dictionary is not modified through your sequence of findTime calls, you will pay the construction of the sorted list only once.

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