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Say you have some data like this:

AC-057|Ethanol CBOT (Pit) Liq Cont|20050329|0.121|0.123|0.121|0.123|47|233|32|219
AC-057|Ethanol CBOT (Pit) Liq Cont|20050330|0.124|0.124|0.122|0.122|68|233|0|219
AC-057|Ethanol CBOT (Pit) Liq Cont|20050331|0.123|0.123|0.123|0.123|68|246|57|226
AC-057|Ethanol CBOT (Pit) Liq Cont|20050401|0.122|0.122|0.122|0.122|5|241|5|221
AC-057|Ethanol CBOT (Pit) Liq Cont|20050404|0.12|0.12|0.12|0.12|1|240|0|220
AC-057|Ethanol CBOT (Pit) Liq Cont|20050405|0.12|0.12|0.12|0.12|5|241|0|220
AC-057|Ethanol CBOT (Pit) Liq Cont|20050406|0.12|0.12|0.12|0.12|4|241|2|220
AC-057|Ethanol CBOT (Pit) Liq Cont|20050407|0.119|0.119|0.116|0.116|30|233|23|209
AC-057|Ethanol CBOT (Pit) Liq Cont|20050408|0.115|0.115|0.115|0.115|35|217|34|194
AC-057|Ethanol CBOT (Pit) Liq Cont|20050411|0.117|0.117|0.117|0.117|5|217|0|194
AC-057|Ethanol CBOT (Pit) Liq Cont|20050412|0.117|0.117|0.117|0.117|5|217|2|194
AC-057|Ethanol CBOT (Pit) Liq Cont|20050413|0.117|0.117|0.117|0.117|9|217|0|194
AC-057|Ethanol CBOT (Pit) Liq Cont|20050414|0.117|0.117|0.117|0.117|9|217|0|194
AC-057|Ethanol CBOT (Pit) Liq Cont|20050415|0.117|0.117|0.117|0.117|9|218|4|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050418|0.117|0.117|0.117|0.117|5|218|0|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050419|0.119|0.119|0.119|0.119|5|218|5|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050420|0.119|0.119|0.119|0.119|0|218|0|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050421|0.119|0.119|0.119|0.119|5|218|0|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050422|0.119|0.119|0.119|0.119|5|223|0|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050425|0.119|0.119|0.119|0.119|0|223|0|190
AC-057|Ethanol CBOT (Pit) Liq Cont|20050426|0.119|0.119|0.119|0.119|0|223|0|190
SYMBOL|DESCRIPTION                |yyyymmdd|OPEN |HIGH |LOW  |CLOSE|.|.  |.|...

... With all kinds of different symbols.

and a schema like this:

CREATE TABLE IF NOT EXISTS ma (
    id INTEGER PRIMARY KEY AUTOINCREMENT,
    symbol TEXT,
    description TEXT,
    year INTEGER,
    month INTEGER,
    day INTEGER,

    open REAL,
    high REAL,
    low  REAL,
    close REAL
);

CREATE INDEX ma_id_idx  ON ma(id);
CREATE INDEX ma_sym_idx ON ma(symbol);
CREATE INDEX ma_yea_idx ON ma(year);
CREATE INDEX ma_mon_idx ON ma(month);
CREATE INDEX ma_day_idx ON ma(day);

CREATE INDEX ma_open_idx  ON ma(open);
CREATE INDEX ma_high_idx  ON ma(high);
CREATE INDEX ma_low_idx   ON ma(low);
CREATE INDEX ma_close_idx ON ma(close);

and a python script that imports the data into the database like this:

import csv
import sqlite3 as lite

__infile__  = 'ma.csv'
__outfile__ = 'ma3.db'
input = csv.reader(open(__infile__, 'rb'), delimiter='|')
conn  = lite.connect(__outfile__)

ssql = """
    PRAGMA JOURNAL_MODE = MEMORY;

"""

isql = """
    INSERT INTO ma (
        symbol,
        description,
        year,
        month,
        day,
        open,
        high,
        low,
        close
    ) VALUES (
        ?, ?, ?, ?, ?, ?, ?, ?, ?
    )
"""

conn.executescript(ssql)

for row in input:
    year  = row[2][0:4]
    month = row[2][4:6]
    day   = row[2][6:8]
    tup   = (row[0], row[1], year, month, day, row[3], row[4], row[5], row[6])
    conn.execute(isql, tup)

conn.commit()

How would you gather a set of records to generate this schema:

CREATE TABLE trends (
    id INTEGER PRIMARY KEY AUTOINCREMENT,
    symbol TEXT,
    date DATE,
    p1 REAL,
    p20 REAL,
    p50 REAL,
    p100 REAL,
    p200 REAL
);

At each date point for that particular symbol.

I've tried a bunch of things. This last one, in particular is taking forever so I don't know if it's going to work yet. (Well, it's not going to work because it's taken a week of compute time). The original csv data is like, 250 megs now, but in the future it'll grow to 2.5 gigs or more and I'll probably have to use a bigger database.

Here's the other stuff that I've tried (or am trying):

ma.sql
__________________________

    CREATE TABLE symbols (
        id INTEGER PRIMARY KEY AUTOINCREMENT,
        symbol TEXT,
        UNIQUE(symbol) ON CONFLICT IGNORE
    );

    CREATE TABLE descriptions (
        id INTEGER PRIMARY KEY AUTOINCREMENT,
        description TEXT,
        UNIQUE(description) ON CONFLICT IGNORE
    );

    CREATE TABLE dates (
        id INTEGER PRIMARY KEY AUTOINCREMENT,
        entry DATE,
        UNIQUE(entry) ON CONFLICT IGNORE
    );

    CREATE VIEW trend_dates AS
        SELECT
            id AS id,
            entry AS p1,
            date(entry, '-7 day') AS p7,
            date(entry, '-14 day') AS p14,
            date(entry, '-20 day') AS p20,
            date(entry, '-50 day') AS p50,
            date(entry, '-100 day') AS p100,
            date(entry, '-200 day') AS p200, -- LEFT OFF HERE



    CREATE TRIGGER update_entry_format AFTER INSERT ON dates
    BEGIN
        UPDATE dates SET entry =
            (SELECT
                substr(entry, 1, 4) || '-' ||
                substr(entry, 5, 2) || '-' ||
                substr(entry, 7, 2)
            )
            WHERE rowid = new.rowid;
    END;

    CREATE TABLE trends (
        id INTEGER PRIMARY KEY AUTOINCREMENT,
        symbol INTEGER,
        entry INTEGER,
        p1 REAL,
        p20 REAL,
        p50 REAL,
        p100 REAL,
        p200 REAL
    );

    CREATE TABLE master (
        id INTEGER PRIMARY KEY AUTOINCREMENT,
        SYMBOL INTEGER,
        DESCRIPTION INTEGER,
        ENTRY INTEGER,
        OPEN REAL,
        HIGH REAL,
        LOW  REAL,
        CLOSE REAL,
        VOLUME INTEGER,
        OPEN_INTEREST INTEGER,
        CONTRACT_VOLUME INTEGER, 
        CONTRACT_OPEN_INTEREST INTEGER
    );

    CREATE INDEX symbols_index ON symbols(symbol);
    CREATE INDEX descriptions_index ON descriptions(description);
    CREATE INDEX dates_index ON dates(entry);

    CREATE INDEX symbols_index2 ON symbols(id, symbol);
    CREATE INDEX descriptions_index2 ON descriptions(id, description);
    CREATE INDEX dates_index2 ON dates(id, entry);

    CREATE INDEX symbols_index3 ON symbols(id);
    CREATE INDEX descriptions_index3 ON descriptions(id);
    CREATE INDEX dates_index3 ON dates(id);

    CREATE INDEX master_index ON master(
        id,
        SYMBOL,
        DESCRIPTION,
        ENTRY,
        OPEN,
        HIGH,
        LOW,
        CLOSE,
        VOLUME
    );
    CREATE INDEX master_index2 ON master(id);
    CREATE INDEX master_index3 ON master(symbol);
    CREATE INDEX master_index4 ON master(entry);
    CREATE INDEX master_index5 ON master(close);


    CREATE VIEW ma AS SELECT
        master.id,
        symbols.symbol,
        descriptions.description,
        dates.entry,
        master.OPEN,
        master.HIGH,
        master.LOW,
        master.CLOSE,
        master.VOLUME,
        master.OPEN_INTEREST,
        master.CONTRACT_VOLUME,
        master.CONTRACT_OPEN_INTEREST
    FROM master
        INNER JOIN symbols
        INNER JOIN descriptions
        INNER JOIN dates
    WHERE 
        master.SYMBOL = symbols.id AND
        master.DESCRIPTION = descriptions.id AND
        master.entry = dates.id
    ;



    CREATE TRIGGER update_master INSTEAD OF INSERT ON ma
    BEGIN
        INSERT INTO symbols(symbol) VALUES (new.SYMBOL);
        INSERT INTO descriptions(description) VALUES (new.DESCRIPTION);
        INSERT INTO dates(entry) VALUES (new.ENTRY);

        INSERT OR REPLACE INTO MASTER(
            SYMBOL,
            DESCRIPTION,
            ENTRY,
            OPEN,
            HIGH,
            LOW,
            CLOSE,
            VOLUME,
            OPEN_INTEREST,
            CONTRACT_VOLUME,
            CONTRACT_OPEN_INTEREST
        )
        VALUES(
            coalesce(
                (   SELECT id FROM symbols
                    WHERE symbol = new.SYMBOL
                ),
                    new.SYMBOL
                ),

            coalesce(
                (   SELECT id FROM descriptions
                    WHERE description = new.DESCRIPTION
                ),
                    new.DESCRIPTION
                ),

            coalesce(
                (   SELECT id FROM dates
                    WHERE entry = new.ENTRY
                ),
                    new.ENTRY
                ),

            new.OPEN,
            new.HIGH,
            new.LOW,
            new.CLOSE,
            new.VOLUME,
            new.OPEN_INTEREST,
            new.CONTRACT_VOLUME,
            new.CONTRACT_OPEN_INTEREST
        );
    END;

CREATE VIEW sma
    AS SELECT
        a.ENTRY,
        a.CLOSE,
        AVG(b.close)
    FROM
        ma AS a
        JOIN ma AS b
            ON a.ENTRY >= b.ENTRY
            AND b.ENTRY >= date(a.CLOSE, '-20 day')
        GROUP BY a.ENTRY, a.CLOSE
        ORDER BY 1
    ;

ma.py
----------------------  
import sqlite3 as lite
import csv
import glob;
print 'connecting...'
conn = lite.connect('MA.db')
infile = csv.reader(open('MA.CSV', 'rb'), delimiter='|', quotechar=r'"')
conn.execute('BEGIN TRANSACTION')
conn.execute('PRAGMA JOURNAL_MODE = MEMORY')


isql = 'insert into ma(SYMBOL, DESCRIPTION, ENTRY, OPEN, HIGH, LOW, CLOSE, VOLUME, OPEN_INTEREST, CONTRACT_VOLUME, CONTRACT_OPEN_INTEREST) values (?,?,?,?,?,?,?,?,?,?,?)'

print 'inserting data...'
for row in infile:
    conn.execute(isql, row)

conn.commit()

conn.close()

import sqlite3 as lite
conn = lite.connect('ma.db')

tsql = 'SELECT close FROM master WHERE symbol = ? AND entry = ?'
cur1 = conn.cursor()
cur2 = conn.cursor()
cur3 = conn.cursor()
cur4 = conn.cursor()
cur5 = conn.cursor()
dcur = conn.cursor()
scur = conn.cursor()

dcur.execute('SELECT id FROM dates ORDER BY entry DESC')
scur.execute('SELECT id FROM symbols ORDER BY symbol ASC')

dates = dcur.fetchall()
symbols = scur.fetchall()

print 'building trends...'
conn.execute('PRAGMA synchronous=OFF')
conn.execute('PRAGMA journal_mode=MEMORY')
conn.execute('BEGIN TRANSACTION')

while len(dates) > 0:
    for symbol in symbols:
        try:
            cur1.execute(tsql, (symbol[0], dates[0][0]))
            cur2.execute(tsql, (symbol[0], dates[20][0]))
            cur3.execute(tsql, (symbol[0], dates[50][0]))
            cur4.execute(tsql, (symbol[0], dates[100][0]))
            cur5.execute(tsql, (symbol[0], dates[200][0]))
        except Exception, e:
            print repr(e)
            pass

        try:
            p1 = cur1.fetchone()[0]
            p2 = cur2.fetchone()[0]
            p3 = cur3.fetchone()[0]
            p4 = cur4.fetchone()[0]
            p5 = cur5.fetchone()[0]
            conn.execute('INSERT INTO trends(symbol, entry, p1, p20, p50, p100, p200) VALUES(?, ?, ?, ?, ?, ?, ?)', (symbol[0], dates[0][0], p1, p2, p3, p4, p5))   
            #print "(" + repr(dates[0][0]) + ", " + repr(symbol[0]) + "): " + repr(p1) + " " + repr(p2) + " " + repr(p3) + " " + repr(p4) + " " + repr(p5)
        except Exception, e:
            #print repr(e)
            pass

    print "done: " + repr(dates[0][0])  
    dates.remove(dates[0])

conn.commit()
conn.close()

Thanks!


tl;dr: For each entry in the original list, I want to get the 7, 14, 20, 50, 100, 200 day prices for each symbol at each date, using the close price. And put that into a table. I'd prefer to do it in pure SQL but, python will work too.

share|improve this question

1 Answer 1

up vote 3 down vote accepted

You might be relieved to know that there is already a python library that is optimized for rolling financial calculations... it is called pandas.

I don't think pandas will read from SQL yet; however, pandas will read from a csv... I took the liberty of using csv data (which it seems you have stored in ma.csv)... once you have done that, getting a rolling 7-day average on your CLOSE is as simple as...

>>> import pandas as pn
>>> from datetime import date
>>> df = pn.read_csv('fut.csv', index_col=2, parse_dates=[2])
>>> pn.rolling_mean(df['CLOSE'], window=7)
yyyymmdd
2005-03-29         NaN
2005-03-30         NaN
2005-03-31         NaN
2005-04-01         NaN
2005-04-04         NaN
2005-04-05         NaN
2005-04-06    0.121429
2005-04-07    0.120429
2005-04-08    0.119429
2005-04-11    0.118571
2005-04-12    0.117857
2005-04-13    0.117429
2005-04-14    0.117000
2005-04-15    0.116571
2005-04-18    0.116714
2005-04-19    0.117286
2005-04-20    0.117571
2005-04-21    0.117857
2005-04-22    0.118143
2005-04-25    0.118429
2005-04-26    0.118714
>>>
>>> pn.rolling_mean(df['CLOSE'], window=7)[date(2005,4,26)]
0.11871428571428572
>>>

df above is a pandas DataFrame, which is a specialized structure for holding tables of time-indexed values associated with an object... in this case, the DataFrame holds your HIGH, LOW, CLOSE, etc...

Besides making your job much easier, pandas also offloads most of the heaving lifting to Cython, which makes running thousands of these calculations rather fast.


fut.csv

SYMBOL,DESCRIPTION,yyyymmdd,OPEN,HIGH,LOW,CLOSE,tmp1,tmp2,tmp3,tmp4
AC-057,Ethanol CBOT (Pit) Liq Cont,20050329,0.121,0.123,0.121,0.123,47,233,32,219
AC-057,Ethanol CBOT (Pit) Liq Cont,20050330,0.124,0.124,0.122,0.122,68,233,0,219
AC-057,Ethanol CBOT (Pit) Liq Cont,20050331,0.123,0.123,0.123,0.123,68,246,57,226
AC-057,Ethanol CBOT (Pit) Liq Cont,20050401,0.122,0.122,0.122,0.122,5,241,5,221
AC-057,Ethanol CBOT (Pit) Liq Cont,20050404,0.12,0.12,0.12,0.12,1,240,0,220
AC-057,Ethanol CBOT (Pit) Liq Cont,20050405,0.12,0.12,0.12,0.12,5,241,0,220
AC-057,Ethanol CBOT (Pit) Liq Cont,20050406,0.12,0.12,0.12,0.12,4,241,2,220
AC-057,Ethanol CBOT (Pit) Liq Cont,20050407,0.119,0.119,0.116,0.116,30,233,23,209
AC-057,Ethanol CBOT (Pit) Liq Cont,20050408,0.115,0.115,0.115,0.115,35,217,34,194
AC-057,Ethanol CBOT (Pit) Liq Cont,20050411,0.117,0.117,0.117,0.117,5,217,0,194
AC-057,Ethanol CBOT (Pit) Liq Cont,20050412,0.117,0.117,0.117,0.117,5,217,2,194
AC-057,Ethanol CBOT (Pit) Liq Cont,20050413,0.117,0.117,0.117,0.117,9,217,0,194
AC-057,Ethanol CBOT (Pit) Liq Cont,20050414,0.117,0.117,0.117,0.117,9,217,0,194
AC-057,Ethanol CBOT (Pit) Liq Cont,20050415,0.117,0.117,0.117,0.117,9,218,4,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050418,0.117,0.117,0.117,0.117,5,218,0,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050419,0.119,0.119,0.119,0.119,5,218,5,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050420,0.119,0.119,0.119,0.119,0,218,0,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050421,0.119,0.119,0.119,0.119,5,218,0,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050422,0.119,0.119,0.119,0.119,5,223,0,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050425,0.119,0.119,0.119,0.119,0,223,0,190
AC-057,Ethanol CBOT (Pit) Liq Cont,20050426,0.119,0.119,0.119,0.119,0,223,0,190
share|improve this answer
    
That's actually really helpful. I didn't realize these other math libraries existed. Maybe you could add some input as to other libraries and perhaps add a few comments about the SQL code? There's some set logic involved here that I'd really like to get a solution to. –  alvonellos Nov 24 '12 at 14:00
    
I guess I'm not sure what else I can say about your SQL other than you might consider using hdf5 since it's more optimized for seeks on a range of dates when compared to SQL. As for the set logic, perhaps it's better to ask another Stack Overflow question because we try to scope questions to a single topic. –  Mike Pennington Nov 24 '12 at 17:41

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