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Say I have the following variables and its corresponding values which represents a record.

name = 'abc'
age = 23
weight = 60
height = 174

Please note that the value could be of different types (string, integer, float, reference-to-any-other-object, etc).

There will be many records (at least >100,000). Each and every record will be unique when all these four variables (actually its values) are put together. In other words, there exists no record with all 4 values are the same.

I am trying to find an efficient data structure in Python which will allow me to (store and) retrieve records based on any one of these variables in log(n) time complexity.

For example:

def retrieve(name=None,age=None,weight=None,height=None) 
    if name is not None and age is None and weight is None and height is None:
        /* get all records with the given name */
    if name is None and age is not None and weight is None and height is None:
        /* get all records with the given age */
    return records

The way the retrieve should be called is as follows:


The above should return [{name:'abc', age:23, wight:50, height=175}, {name:'abc', age:28, wight:55, height=170}, etc]


The above should return [{name:'abc', age:23, wight:50, height=175}, {name:'def', age:23, wight:65, height=180}, etc]

And, I may need to add one or two more variables to this record in future. For example, say, sex = 'm'. So, the retrieve function must be scalable.

So in short: Is there a data structure in Python which will allow storing a record with n number of columns (name, age, sex, weigh, height, etc) and retrieving records based on any (one) of the column in logarithmic (or ideally constant - O(1) look-up time) complexity?

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Could you please justify the -1? It is a genuine programming question. –  Sangeeth Saravanaraj Mar 14 '13 at 19:27
Maybe this will help you - wiki.python.org/moin/TimeComplexity ? –  kgr Mar 14 '13 at 19:35
Why not using sql for this? Seems more appropiate. Python has builtin support for sqlite. –  Manuel Gutierrez Mar 14 '13 at 19:40
SQL will be slow, given OP mentions time complexity, he's probably not very happy about being tied by I/O. –  kgr Mar 14 '13 at 19:50
Is this question about providing an implementation of such data structure, or is it about whether or not a ready-to-use implementation exists? –  moooeeeep Mar 14 '13 at 19:55

4 Answers 4

up vote 2 down vote accepted

There isn't single data structure built into Python that does everything you want, but it's fairly easy to use a combination of the ones that are to achieve your goals.

Say your input was the following data in a comma-separated-value file called employees.csv with field names defined on the first line:

Bob Barker,25,175,6ft 2in
Ted Kingston,28,163,5ft 10in
Mary Manson,27,140,5ft 6in
Sue Sommers,27,132,5ft 8in
Alice Toklas,24,124,5ft 6in

The following is working code which illustrates how to read and store this data into a list of records, and automatically create separate lookup tables for finding records associated with the values of contained in the fields each of these record.

The records are instances of a class created by namedtuple which is a very memory efficient because each one lacks a __dict__ attribute that class instances normally contain. Using them will make it possible to access the fields of each by name using dot syntax, like record.fieldname.

The lookup tables are defaultdict(list) instances, which provide dictionary-like O(1) lookup times on average, and also allow multiple values to be associated with each one. So the lookup key is the value of the field value being sought and the data associated with it will be a list of the integer indices of the Person records stored in the employees list with that value -- so they'll all be relatively small.

Note that most of the code is data-driven and, except for the actual retrieve() calls, doesn't contain hardcoded field names which instead are taken from the first row of data input file when it's read in.

from collections import defaultdict, namedtuple
import csv

class DataBase(object):
    def __init__(self, csv_filename, recordname):
        with open(csv_filename, 'rb') as inputfile:
            csv_reader = csv.reader(inputfile, delimiter=',')
            self.fields = csv_reader.next()  # read header row
            self.Record = namedtuple(recordname, self.fields)
            self.records = [self.Record(*row) for row in csv_reader]
            self.valid_fieldnames = set(self.fields)

        # create a lookup table with one entry per field name which maps each of their
        # values to a list of the indices of matching records in records list
        self.lookup_table = {field: defaultdict(list) for field in self.fields}
        for index, record in enumerate(self.records):
            for field in self.fields:
                value = getattr(record, field)

    def retrieve(self, **kwargs):
        """ return list of records with a field name with value supplied
                   as keyword arg or None if there aren't any. """
        if len(kwargs) != 1:
            raise ValueError('Exactly one fieldname/keyword argument required for function '
                             '(%s specified)' % ', '.join([repr(k) for k in kwargs.keys()]))
        keyword, value = kwargs.items()[0]  # get only keyword arg and value
        if keyword not in self.valid_fieldnames:
            raise TypeError('%r is an invalid fieldname' % keyword)
        matches = [self.records[index]
                    for index in self.lookup_table[keyword].get(value, [])]
        return matches if matches else None

if __name__ == '__main__':
    empdb = DataBase('employees.csv', 'Person')
    print "retrieve(name='Ted Kingston'):", empdb.retrieve(name='Ted Kingston')
    print "retrieve(age='27'):", empdb.retrieve(age='27')
    print "retrieve(weight='150'):", empdb.retrieve(weight='150')
        print "retrieve(hight='5ft'):", empdb.retrieve(hight='5ft')
    except TypeError as e:
        print '{!r} raised as expected'.format(e)
        raise type('NoExceptionError', (Exception,), {})(
            'Expected TypeError not raised from "retrieve(hight=\'5ft\')" call.')


retrieve(name='Ted Kingston'): [Person(name='Ted Kingston', age='28',
                                        weight='163', height='5ft 10in')]
retrieve(age='27'): [Person(name='Mary Manson', age='27', weight='140',
                      height='5ft 6in'), Person(name='Sue Sommers', age='27',
                      weight='132', height='5ft 8in')]
retrieve(weight='150'): None
retrieve(hight='5ft'): TypeError("'hight' is an invalid fieldname",) raised as expected
share|improve this answer

Is there a data structure in Python which will allow storing a record with n number of columns (name, age, sex, weigh, height, etc) and retrieving records based on any (one) of the column in logarithmic (or ideally constant - O(1) look-up time) complexity?

No, there is none. But you could try to implement one on the basis of one dictionary per value dimension. As long as your values are hashable of course. If you implement a custom class for your records, each dictionary will contain references to the same objects. This will save you some memory.

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Given http://wiki.python.org/moin/TimeComplexity how about this:

  • Have a dictionary for every column you're interested in - AGE, NAME, etc.
  • Have the keys of that dictionaries (AGE, NAME) be possible values for given column (35 or "m").
  • Have a list of lists representing values for one "collection", e.g. VALUES = [ [35, "m"], ...]
  • Have the value of column dictionaries (AGE, NAME) be lists of indices from the VALUES list.
  • Have a dictionary which maps column name to index within lists in VALUES so that you know that first column is age and second is sex (you could avoid that and use dictionaries, but they introduce large memory footrpint and with over 100K objects this may or not be a problem).

Then the retrieve function could look like this:

def retrieve(column_name, column_value):
    if column_name == "age":
        return [VALUES[index] for index in AGE[column_value]]      
    elif ...: # repeat for other "columns"

Then, this is what you get

VALUES = [[35, "m"], [20, "f"]]
AGE = {35:[0], 20:[1]}
SEX = {"m":[0], "f":[1]}
KEYS = ["age", "sex"]

retrieve("age", 35)
# [[35, 'm']]

If you want a dictionary, you can do the following:

[dict(zip(KEYS, values)) for values in retrieve("age", 35)]
# [{'age': 35, 'sex': 'm'}]

but again, dictionaries are a little heavy on the memory side, so if you can go with lists of values it might be better.

Both dictionary and list retrieval are O(1) on average - worst case for dictionary is O(n) - so this should be pretty fast. Maintaining that will be a little bit of pain, but not so much. To "write", you'd just have to append to the VALUES list and then append the index in VALUES to each of the dictionaries.

Of course, then best would be to benchmark your actual implementation and look for potential improvements, but hopefully this make sense and will get you going :)


Please note that as @moooeeeep said, this will only work if your values are hashable and therefore can be used as dictionary keys.

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You could achieve logarithmic time complexity in a relational database using indexes (O(log(n)**k) with single column indexes). Then to retrieve data just construct appropriate SQL:

names = {'name', 'age', 'weight', 'height'}

def retrieve(c, **params):
    if not (params and names.issuperset(params)):
        raise ValueError(params)
    where = ' and '.join(map('{0}=:{0}'.format, params))
    return c.execute('select * from records where ' + where, params)


import sqlite3

c = sqlite3.connect(':memory:')
c.row_factory = sqlite3.Row # to provide key access

# create table
c.execute("""create table records
             (name text, age integer, weight real, height real)""")

# insert data
records = (('abc', 23, 60, 174+i) for i in range(2))
c.executemany('insert into records VALUES (?,?,?,?)', records)

# create indexes
for name in names:
    c.execute("create index idx_{0} on records ({0})".format(name))

    retrieve(c, naame='abc')
except ValueError:
    assert 0

for record in retrieve(c, name='abc', weight=60):


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