My scenario is as follows: I have a table of data (handful of fields, less than a hundred rows) that I use extensively in my program. I also need this data to be persistent, so I save it as a CSV and load it on start-up. I choose not to use a database because every option (even SQLite) is an overkill for my humble requirement (also - I would like to be able to edit the values offline in a simple way, and nothing is simpler than notepad).

Assume my data looks as follows (in the file it's comma separated without titles, this is just an illustration):

 Row  | Name     | Year   | Priority
 1    | Cat      | 1998   | 1
 2    | Fish     | 1998   | 2
 3    | Dog      | 1999   | 1 
 4    | Aardvark | 2000   | 1
 5    | Wallaby  | 2000   | 1
 6    | Zebra    | 2001   | 3


  1. Row may be a "real" value written to the file or just an auto-generated value that represents the row number. Either way it exists in memory.
  2. Names are unique.

Things I do with the data:

  1. Look-up a row based on either ID (iteration) or name (direct access).
  2. Display the table in different orders based on multiple field: I need to sort it e.g. by Priority and then Year, or Year and then Priority, etc.
  3. I need to count instances based on sets of parameters, e.g. how many rows have their year between 1997 and 2002, or how many rows are in 1998 and priority > 2, etc.

I know this "cries" for SQL...

I'm trying to figure out what's the best choice for data structure. Following are several choices I see:

List of row lists:

a = []
a.append( [1, "Cat", 1998, 1] )
a.append( [2, "Fish", 1998, 2] )
a.append( [3, "Dog", 1999, 1] )

List of column lists (there will obviously be an API for add_row etc):

a = []
a.append( [1, 2, 3, 4, 5, 6] )
a.append( ["Cat", "Fish", "Dog", "Aardvark", "Wallaby", "Zebra"] )
a.append( [1998, 1998, 1999, 2000, 2000, 2001] )
a.append( [1, 2, 1, 1, 1, 3] )

Dictionary of columns lists (constants can be created to replace the string keys):

a = {}
a['ID'] = [1, 2, 3, 4, 5, 6]
a['Name'] = ["Cat", "Fish", "Dog", "Aardvark", "Wallaby", "Zebra"] 
a['Year'] = [1998, 1998, 1999, 2000, 2000, 2001] 
a['Priority'] = [1, 2, 1, 1, 1, 3] 

Dictionary with keys being tuples of (Row, Field):

Create constants to avoid string searching

a[(1, NAME)] = "Cat"
a[(1, YEAR)] = 1998
a[(1, PRIORITY)] = 1
a[(2, NAME)] = "Fish"
a[(2, YEAR)] = 1998
a[(2, PRIORITY)] = 2

And I'm sure there are other ways... However each way has disadvantages when it comes to my requirements (complex ordering and counting).

What's the recommended approach?


To clarify, performance is not a major issue for me. Because the table is so small, I believe almost every operation will be in the range of milliseconds, which is not a concern for my application.

  • 1
    No need to read answers. Your question provided an answer to my question! Thanks a lot for such a great question :) – Gajendra Bagali Aug 4 '16 at 19:17
up vote 71 down vote accepted

Having a "table" in memory that needs lookups, sorting, and arbitrary aggregation really does call out for SQL. You said you tried SQLite, but did you realize that SQLite can use an in-memory-only database?

connection = sqlite3.connect(':memory:')

Then you can create/drop/query/update tables in memory with all the functionality of SQLite and no files left over when you're done. And as of Python 2.5, sqlite3 is in the standard library, so it's not really "overkill" IMO.

Here is a sample of how one might create and populate the database:

import csv
import sqlite3

db = sqlite3.connect(':memory:')

def init_db(cur):
    cur.execute('''CREATE TABLE foo (
        Row INTEGER,
        Name TEXT,
        Year INTEGER,
        Priority INTEGER)''')

def populate_db(cur, csv_fp):
    rdr = csv.reader(csv_fp)
        INSERT INTO foo (Row, Name, Year, Priority)
        VALUES (?,?,?,?)''', rdr)

cur = db.cursor()
populate_db(cur, open('my_csv_input_file.csv'))

If you'd really prefer not to use SQL, you should probably use a list of dictionaries:

lod = [ ] # "list of dicts"

def populate_lod(lod, csv_fp):
    rdr = csv.DictReader(csv_fp, ['Row', 'Name', 'Year', 'Priority'])

def query_lod(lod, filter=None, sort_keys=None):
    if filter is not None:
        lod = (r for r in lod if filter(r))
    if sort_keys is not None:
        lod = sorted(lod, key=lambda r:[r[k] for k in sort_keys])
        lod = list(lod)
    return lod

def lookup_lod(lod, **kw):
    for row in lod:
        for k,v in kw.iteritems():
            if row[k] != str(v): break
            return row
    return None

Testing then yields:

>>> lod = []
>>> populate_lod(lod, csv_fp)
>>> pprint(lookup_lod(lod, Row=1))
{'Name': 'Cat', 'Priority': '1', 'Row': '1', 'Year': '1998'}
>>> pprint(lookup_lod(lod, Name='Aardvark'))
{'Name': 'Aardvark', 'Priority': '1', 'Row': '4', 'Year': '2000'}
>>> pprint(query_lod(lod, sort_keys=('Priority', 'Year')))
[{'Name': 'Cat', 'Priority': '1', 'Row': '1', 'Year': '1998'},
 {'Name': 'Dog', 'Priority': '1', 'Row': '3', 'Year': '1999'},
 {'Name': 'Aardvark', 'Priority': '1', 'Row': '4', 'Year': '2000'},
 {'Name': 'Wallaby', 'Priority': '1', 'Row': '5', 'Year': '2000'},
 {'Name': 'Fish', 'Priority': '2', 'Row': '2', 'Year': '1998'},
 {'Name': 'Zebra', 'Priority': '3', 'Row': '6', 'Year': '2001'}]
>>> pprint(query_lod(lod, sort_keys=('Year', 'Priority')))
[{'Name': 'Cat', 'Priority': '1', 'Row': '1', 'Year': '1998'},
 {'Name': 'Fish', 'Priority': '2', 'Row': '2', 'Year': '1998'},
 {'Name': 'Dog', 'Priority': '1', 'Row': '3', 'Year': '1999'},
 {'Name': 'Aardvark', 'Priority': '1', 'Row': '4', 'Year': '2000'},
 {'Name': 'Wallaby', 'Priority': '1', 'Row': '5', 'Year': '2000'},
 {'Name': 'Zebra', 'Priority': '3', 'Row': '6', 'Year': '2001'}]
>>> print len(query_lod(lod, lambda r:1997 <= int(r['Year']) <= 2002))
>>> print len(query_lod(lod, lambda r:int(r['Year'])==1998 and int(r['Priority']) > 2))

Personally I like the SQLite version better since it preserves your types better (without extra conversion code in Python) and easily grows to accommodate future requirements. But then again, I'm quite comfortable with SQL, so YMMV.

  • 1
    What's the recommended approach for populating the database in this example? – Roee Adler Jun 24 '09 at 13:13
  • 3
    I have edited the answer to include sample code to populate the database from a CSV file. – Rick Copeland Jun 24 '09 at 13:28
  • 1
    -1: overkill, a list of dictionaries is probably more useful for this application. – S.Lott Jun 24 '09 at 14:02
  • 8
    Lists of dictionaries make the queries, sorting, and aggregation a lot more verbose, even with list comprehensions and sort(..., key=) stuff. So I'd say sqlite in-memory is just about a perfect match, here. To each his own... – Rick Copeland Jun 24 '09 at 14:27
  • 4
    To my mind, "verbose" Python is slightly better than SQL. – S.Lott Jun 24 '09 at 14:34

A very old question I know but...

A pandas DataFrame seems to be the ideal option here.

From the blurb

Two-dimensional size-mutable, potentially heterogeneous tabular data structure with labeled axes (rows and columns). Arithmetic operations align on both row and column labels. Can be thought of as a dict-like container for Series objects. The primary pandas data structure

I personally would use the list of row lists. Because the data for each row is always in the same order, you can easily sort by any of the columns by simply accessing that element in each of the lists. You can also easily count based on a particular column in each list, and make searches as well. It's basically as close as it gets to a 2-d array.

Really the only disadvantage here is that you have to know in what order the data is in, and if you change that ordering, you'll have to change your search/sorting routines to match.

Another thing you can do is have a list of dictionaries.

rows = []
rows.append({"ID":"1", "name":"Cat", "year":"1998", "priority":"1"})

This would avoid needing to know the order of the parameters, so you can look through each "year" field in the list.

  • 6
    +1: Lists of dictionaries work REALLY well, and are compatible with reading and writing JSON or CSV files. – S.Lott Jun 24 '09 at 14:01

Have a Table class whose rows is a list of dict or better row objects

In table do not directly add rows but have a method which update few lookup maps e.g. for name if you are not adding rows in order or id are not consecutive you can have idMap too e.g.

class Table(object):
    def __init__(self):
        self.rows =  []# list of row objects, we assume if order of id
        self.nameMap = {} # for faster direct lookup for row by name

    def addRow(self, row):
        self.nameMap[row['name']] = row

    def getRow(self, name):
        return self.nameMap[name]

table = Table()

First, given that you have a complex data retrieval scenario, are you sure even SQLite is overkill?

You'll end up having an ad hoc, informally-specified, bug-ridden, slow implementation of half of SQLite, paraphrasing Greenspun's Tenth Rule.

That said, you are very right in saying that choosing a single data structure will impact one or more of searching, sorting or counting, so if performance is paramount and your data is constant, you could consider having more than one structure for different purposes.

Above all, measure what operations will be more common and decide which structure will end up costing less.

I personally wrote a lib for pretty much that quite recently, it is called BD_XML

as its most fundamental reason of existence is to serve as a way to send data back and forth between XML files and SQL databases.

It is written in Spanish (if that matters in a programming language) but it is very simple.

from BD_XML import Tabla

It defines an object called Tabla (Table), it can be created with a name for identification an a pre-created connection object of a pep-246 compatible database interface.

Table = Tabla('Animals') 

Then you need to add columns with the agregar_columna (add_column) method, with can take various key word arguments:

  • campo (field): the name of the field

  • tipo (type): the type of data stored, can be a things like 'varchar' and 'double' or name of python objects if you aren't interested in exporting to a data base latter.

  • defecto (default): set a default value for the column if there is none when you add a row

  • there are other 3 but are only there for database tings and not actually functional


Table.agregar_columna(campo='Name', tipo='str')
Table.agregar_columna(campo='Year', tipo='date')
#declaring it date, time, datetime or timestamp is important for being able to store it as a time object and not only as a number, But you can always put it as a int if you don't care for dates
Table.agregar_columna(campo='Priority', tipo='int')

Then you add the rows with the += operator (or + if you want to create a copy with an extra row)

Table += ('Cat', date(1998,1,1), 1)
Table += {'Year':date(1998,1,1), 'Priority':2, Name:'Fish'}
#The condition for adding is that is a container accessible with either the column name or the position of the column in the table

Then you can generate XML and write it to a file with exportar_XML (export_XML) and escribir_XML (write_XML):

file = os.path.abspath(os.path.join(os.path.dirname(__file__), 'Animals.xml'))

And then import it back with importar_XML (import_XML) with the file name and indication that you are using a file and not an string literal:

Table.importar_xml(file, tipo='archivo')
#archivo means file


This are ways you can use a Tabla object in a SQL manner.

#UPDATE <Table> SET Name = CONCAT(Name,' ',Priority), Priority = NULL WHERE id = 2
for row in Table:
    if row['id'] == 2:
        row['Name'] += ' ' + row['Priority']
        row['Priority'] = None

#DELETE FROM <Table> WHERE MOD(id,2) = 0 LIMIT 1
n = 0
nmax = 1
for row in Table:
    if row['id'] % 2 == 0:
        del Table[row]
        n += 1
        if n >= nmax: break

this examples assume a column named 'id' but can be replaced width row.pos for your example.

if row.pos == 2:

The file can be download from:

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