A collection of Python convenience functions
from mtools import *
depth = mgraph.directed.depth(my_networkx_graph)
mplot, mlang and mdb must be manually imported
from random import random
from mtools import mplot
mplot.one.p("test.eps", [random() for i in range(0, 100)], sliding=10)
- mdb - MySQL convenience functions (depends on python-mysqldb)
- mfile - File management functions
- mgraph - Graph functions to use with networkx (depends on networkx)
- mgroup - List and dictionary convenience functions
- mlang - NLP convenience functions (depends on nltk)
- mplot - Chart plotting convenience functions (depends on matplotlib)
- mstring - String manipulation functions
Supports ActiveRecord-style chained queries
from mtools import mdb
db = mdb.mysql.MMySQL('my_database', host='my_host', username='my_username', password='my_password')
# Get a single row
print db.users_table.select('name').where(id=10).first()
# Get multiple rows
for user in db.users_table.select('id', 'location').where(location='SF').order_by('age DESC').limit(100):
print user
# Get everything
for user in db.users_table:
print user
# Count the number of distinct ids in a table
print db.users_table.count('DISTINCT id').where(location='NY').first()
# Chain whichever way you want
db.users_table.limit(2).select('id').order_by('name', 'id DESC').where(location='SF').select('name', 'location')
# Insert without duplicates
db.users_table.insert_if_not_exists(username='john', email='[email protected]')
Regular queries are also supported
# Use db.q if you want to get everything at once
users = db.q('SELECT * FROM users WHERE location = %s AND age > %s', (some_location, some_age))
# Use db.i if you want an iterator instead
for user in db.i('SELECT * FROM users'):
print user
Remember to commit your changes if you modify the database!
db.commit()
Plot two lines with different scales
from mtools import mplot
xylist1 = [0, 1, 2]
xylist2 = [100, 200, 300]
mplot.two.scales('my_output_file.eps', xylist1, xylist2, xlabel='X Axis', ylabel='Y Axis', labels['First Plot', 'Second Plot'])
MPlot understands several input formats
xylist = [0, 1, 2, 3] # MPlot assumes these are y values and will add indices for the x values
xylist = {1: 500, 2: 600, 3: 900}
xylist = [(1, 500), (2, 600), (3, 900)]
xylist = [[1, 2, 3], [500, 600, 900]]
MPlot can also do sliding window averages
mplot.one.loglog('my_output_file.png', xylist, sliding=10)
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