Differences between revisions 125 and 153 (spanning 28 versions)
Revision 125 as of 2011-03-17 11:56:14
Size: 10566
Editor: sp137-2-89-86-29-40
Comment: Revert unneeded edition + conversion to 3.x (should do all or nothing IMO)
Revision 153 as of 2019-09-14 01:05:18
Size: 10634
Editor: tadeubas
Comment: Changing code to Python 3 syntax COMPLETED!
Deletions are marked like this. Additions are marked like this.
Line 1: Line 1:
Here are some example simple programs. Please feel free to contribute, but see notice at bottom, please.

These examples assume version 2.4 or above of Python.
You should be able to run them simply by copying/pasting the code into a file and running Python. Or by inserting this line (#!/usr/bin/env python) at the beginning of your file (Unix/Linux), making the file executable (chmod u+x filename.py) and running it (./filename.py).

    ------ 1 line: Output
{{{#!python numbers=disable
Please note that these examples were changed to run under Python 3. The Python2orPython3 page provides advice on how to decide which one will best suit your needs.

Some differences from Python 2 to Python 3:

{{{
# Python 2 syntax
Line 9: Line 8:
}}}

    ------ 2 lines: Input, assignment
{{{#!python numbers=disable
name = raw_input('What is your name?\n')
print 'Hi, %s.' % (name)
}}}

    ------ 3 lines: For loop, built-in enumerate function
{{{#!python numbers=disable
my_list = ['john', 'pat', 'gary', 'michael']
for i, name in enumerate(my_list):
    print "iteration %i is %s" % (i, name)
}}}

    ------ 4 lines: Fibonacci, tuple assignment
{{{#!python numbers=disable
raw_input('What is your name?\n')
self.failUnlessEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7) # Unit testing with unittest
copy[(size - 1) / 2] # access of a list index without casting to int
xrange(BOARD_SIZE) # xrange exists
cmp(1.0, 0.0) # cmp function exists
iteratable.next() # list iteration
itertools.ifilter(prime.__rmod__, iteratable) # itertools.ifilter is filter in Python 3

# Python 3 syntax
print('Hello, World!')
input('What is your name?\n')
self.assertEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7) # Unit testing with unittest, failUnlessEqual deprecated
copy[int((size - 1) / 2)] # access of a list index needs casting to int
range(BOARD_SIZE) # xrange was renamed to range in Python 3
#cmp needs to be implemented!
def cmp(a, b):
     return (a > b) - (a < b)
next(iteratable) # list iteration
filter(prime.__rmod__, iteratable) # is itertools.ifilter in Python 2
}}}
The examples below will increase in number of lines of code and difficulty:

1 line: Output

{{{
print ('Hello, world!')
}}}
----
2 lines: Input, assignment

{{{
name = input('What is your name?\n')
print ('Hi, %s.' % name)
}}}
----
3 lines: For loop, built-in enumerate function, new style formatting

{{{
friends = ['john', 'pat', 'gary', 'michael']
for i, name in enumerate(friends):
    print ("iteration {iteration} is {name}".format(iteration=i, name=name))
}}}
----
4 lines: Fibonacci, tuple assignment

{{{
Line 28: Line 56:
    print 'This generation has %d babies' % babies     print ('This generation has {0} babies'.format(babies))
Line 31: Line 59:

    
------ 5 lines: Functions
{{{#!python numbers=disable
----
5 lines: Functions

{{{
Line 35: Line 64:
    print 'hello', name     print ('Hello', name)
Line 40: Line 70:

    
------ 6 lines: Import, regular expressions
{{{#!python numbers=disable
----
6 lines: Import, regular expressions

{{{
Line 46: Line 77:
        print test_string, 'is a valid US local phone number'         print (test_string, 'is a valid US local phone number')
Line 48: Line 79:
        print test_string, 'rejected'
}}}

    
------ 7 lines: Dictionaries, generator expressions
{{{#!python numbers=disable
        print (test_string, 'rejected')
}}}
----
7 lines: Dictionaries, generator expressions

{{{
Line 59: Line 91:
print 'I owe the grocer $%.2f' % grocery_bill
}}}


    ------
8 lines: Command line arguments, exception handling
{{{#!python numbers=disable
#!/
usr/bin/env python
# This program adds up integers in the command line
print ('I owe the grocer $%.2f' % grocery_bill)
}}}
----
8 lines: Command line arguments, exception handling

{{{
# This program adds up integers that have been passed as arguments in the command line
Line 70: Line 101:
    print 'sum =', total     print ('sum =', total)
Line 72: Line 103:
    print 'Please supply integer arguments'
}}}


    
------ 9 lines: Opening files
{{{#!python numbers=disable
    print ('Please supply integer arguments')
}}}
----
9 lines: Opening files

{{{
Line 82: Line 113:
for fn in sorted(python_files):
    print ' ------', fn
    for line in open(fn):
        print ' ' + line.rstrip()
    print
}}}

    ------ 10 lines: Time, conditionals
{{{#!python numbers=disable
import time
now = time.localtime()
hour = now.tm_hour
if hour < 8: print 'sleeping'
elif hour < 9: print 'commuting'
elif hour < 17: print 'working'
elif hour < 18: print 'commuting'
elif hour < 20: print 'eating'
elif hour < 22: print 'resting'
else: print 'sleeping'
}}}

    ------ 11 lines: Triple-quoted strings, while loop
{{{#!python numbers=disable
for file_name in sorted(python_files):
    print (' ------' + file_name)

    with open(file_name) as f:
        for line in f:
            print (' ' + line.rstrip())

    print()
}}}
----
10 lines: Time, conditionals, from..import, for..else

{{{
from time import localtime

activities = {8: 'Sleeping',
              9: 'Commuting',
              17: 'Working',
              18: 'Commuting',
              20: 'Eating',
              22: 'Resting' }

time_now = localtime()
hour = time_now.tm_hour

for activity_time in sorted(activities.keys()):
    if hour < activity_time:
        print (activities[activity_time])
        break
else:
    print ('Unknown, AFK or sleeping!')
}}}
----
11 lines: Triple-quoted strings, while loop

{{{
Line 111: Line 155:
bottles_of_beer = 99 bottles_of_beer = 9
Line 113: Line 157:
    print REFRAIN % (bottles_of_beer, bottles_of_beer,
        bottles_of_beer - 1)
    print (REFRAIN % (bottles_of_beer, bottles_of_beer,
        bottles_of_beer - 1))
Line 117: Line 161:

   
------ 12 lines: Classes
{{{#!python numbers=disable
----
12 lines: Classes

{{{
Line 130: Line 175:
my_account.withdraw(5)
print my_account.balance
}}}

    
------ 13 lines: Unit testing with unittest
{{{#!python numbers=disable
my_account.withdraw(50)
print (my_account.balance, my_account.overdrawn())
}}}
----
13 lines: Unit testing with unittest

{{{
Line 141: Line 187:
        return copy[(size - 1) / 2]         return copy[int((size - 1) / 2)]
Line 143: Line 189:
        return (copy[size/2 - 1] + copy[size/2]) / 2         return (copy[int(size/2 - 1)] + copy[int(size/2)]) / 2
Line 146: Line 192:
        self.failUnlessEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7)         self.assertEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7)
Line 150: Line 196:


    
------ 14 lines: Doctest-based testing
{{{#!python numbers=disable
----
14 lines: Doctest-based testing

{{{
Line 157: Line 203:
    7     6 #change to 7 in order to pass the test
Line 162: Line 208:
        return copy[(size - 1) / 2]         return copy[int((size - 1) / 2)]
Line 164: Line 210:
        return (copy[size/2 - 1] + copy[size/2]) / 2         return (copy[int(size/2 - 1)] + copy[int(size/2)]) / 2
Line 169: Line 215:

    
------ 15 lines: itertools
{{{#!python numbers=disable
import
itertools
----
15 lines: itertools

{{{
fr
om itertools import groupby
Line 181: Line 228:
for has_chars, frags in itertools.groupby(lines, bool): for has_chars, frags in groupby(lines, bool):
Line 183: Line 230:
        print ' '.join(frags)         print (' '.join(frags))
Line 188: Line 235:

    
------ 16 lines: csv module, tuple unpacking, cmp() built-in
{{{#!python numbers=disable
----
16 lines: csv module, tuple unpacking, cmp() built-in

{{{
Line 193: Line 241:
# need to define cmp function in Python 3
def cmp(a, b):
    return (a > b) - (a < b)
Line 194: Line 246:
writer = csv.writer(open('stocks.csv', 'wb', buffering=0))
writer.writerows([
    (
'GOOG', 'Google, Inc.', 505.24, 0.47, 0.09),
    (
'YHOO', 'Yahoo! Inc.', 27.38, 0.33, 1.22),
    (
'CNET', 'CNET Networks, Inc.', 8.62, -0.13, -1.49)
])
with open('stocks.csv', 'w', newline='') as stocksFileW:
    writer =
csv.writer(stocksFileW)
    writer.writerows
([
        [
'GOOG', 'Google, Inc.', 505.24, 0.47, 0.09],
        [
'YHOO', 'Yahoo! Inc.', 27.38, 0.33, 1.22],
        [
'CNET', 'CNET Networks, Inc.', 8.62, -0.13, -1.4901]
    ]
)
Line 202: Line 255:
stocks = csv.reader(open('stocks.csv', 'rb'))
status_lab
els = {-1: 'down', 0: 'unchanged', 1: 'up'}
for ticker, name, price, change, pct in stocks:
    status = status_labels[cmp(float(change), 0.0)]
    print '%s is %s (%s%%)' % (name, status, pct)
}}}
    ------ 18 lines: 8-Queens Problem (recursion)
{{{#!python numbers=disable
with open('stocks.csv', 'r') as stocksFile:
    
stocks = csv.reader(stocksFile)

    status_la
bels = {-1: 'down', 0: 'unchanged', 1: 'up'}
    for ticker, name, price, change, pct in stocks:
     status = status_labels[cmp(float(change), 0.0)]
        print ('%s is %s (%.2f)' % (name, status, float(pct)))
}}}
----
18 lines: 8-Queens Problem (recursion)

{{{
Line 214: Line 271:
Line 215: Line 273:
        left, right = left-1, right+1         left, right = left - 1, right + 1
Line 221: Line 280:
    if n == 0: return [[]]
    smaller_solutions = solve(n-1)
    if n == 0:
       
return [[]]

    smaller_solutions = solve(n - 1)
Line 227: Line 289:
for answer in solve(BOARD_SIZE): print answer
}}}

    
------ 20 lines: Prime numbers sieve w/fancy generators
{{{#!python numbers=disable
for answer in solve(BOARD_SIZE):
   
print (answer)
}}}
----
20 lines: Prime numbers sieve w/fancy generators

{{{
Line 241: Line 305:
         prime = numbers.next()          prime = next(numbers)
Line 246: Line 310:
         numbers = itertools.ifilter(prime.__rmod__, numbers)          numbers = filter(prime.__rmod__, numbers)
Line 251: Line 315:
    print p
}}}

    
------ 21 lines: XML/HTML parsing (using Python 2.5 or third-party library)
{{{#!python numbers=disable
    print (p)
}}}
----
21 lines: XML/HTML parsing

{{{
Line 264: Line 329:
# In Python 2.5 or from http://effbot.org/zone/element-index.htm # From http://effbot.org/zone/element-index.htm
Line 276: Line 341:
        print "%s: %s %s" % (item.text, amt.text, unit.text)
}}}

    
------ 28 lines: 8-Queens Problem (define your own exceptions)
{{{#!python numbers=disable
        print ("%s: %s %s" % (item.text, amt.text, unit.text))
}}}
----
28 lines: 8-Queens Problem (define your own exceptions)

{{{
Line 307: Line 373:
print queens
print
"\n".join(". "*q + "Q " + ". "*(BOARD_SIZE-q-1) for q in queens)

}}}

    ------
33 lines: "Guess the Number" Game from http://inventwithpython.com
{{{#!python numbers=disable
print (queens)
print (
"\n".join(". "*q + "Q " + ". "*(BOARD_SIZE-q-1) for q in queens))
}}}
----
33 lines (this example is in Python 2 syntax): "Guess the Number" Game (edited) from http://inventwithpython.com

{{{
Line 316: Line 382:
guessesTaken = 0

print 'Hello! What is your name?'
myName = raw_input(
)
guesses_made = 0

name = input('Hello! What is your name?\n')
Line 322: Line 387:
print 'Well, ' + myName + ', I am thinking of a number between 1 and 20.'

while guessesTaken < 6:
    print 'Take a guess.'
    guess = input()
    #fyi:
input() is for numbers. raw_input() is for strings.

    guessesTaken = guessesTaken + 1
print ('Well, {0}, I am thinking of a number between 1 and 20.'.format(name))

while guesses_made < 6:

    guess = int(input('Take a guess: '))

    guesses_made += 1
Line 332: Line 396:
        print 'Your guess is too low.'         print ('Your guess is too low.')
Line 335: Line 399:
        print 'Your guess is too high.'         print ('Your guess is too high.')
Line 341: Line 405:
    guessesTaken = str(guessesTaken)
    print 'Good job, ' + myName + '! You guessed my number in ' + guessesTaken + ' guesses!'

if guess != number:
    print 'Nope. The number I was thinking of was ' + str(number)

}}}

    ------

Hi, I started this page in May 2007, and I provided the first 10+ or so examples (which may have changed since then). -- SteveHowell

All code on this page is open source, of course, with the standard Python license.

Minor cleanups are welcome, but if you want to do major restructuring of this page, please run them by the folks on the Python mailing list, or if you are impatient for a response, please just make your own copy of this page. Thanks, and I hope this code is useful for you!

Some goals for this page:

 1. All examples should be simple.
 2. There should be a gentle progression through Python concepts.
    print ('Good job, {0}! You guessed my number in {1} guesses!'.format(name, guesses_made))
else:
    print ('Nope. The number I was thinking of was {0}'.format(number))
}}}

Please note that these examples were changed to run under Python 3. The Python2orPython3 page provides advice on how to decide which one will best suit your needs.

Some differences from Python 2 to Python 3:

# Python 2 syntax
print 'Hello, world!'
raw_input('What is your name?\n')
self.failUnlessEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7) # Unit testing with unittest
copy[(size - 1) / 2] # access of a list index without casting to int
xrange(BOARD_SIZE) # xrange exists
cmp(1.0, 0.0) # cmp function exists
iteratable.next() # list iteration
itertools.ifilter(prime.__rmod__, iteratable) # itertools.ifilter is filter in Python 3

# Python 3 syntax
print('Hello, World!')
input('What is your name?\n')
self.assertEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7) # Unit testing with unittest, failUnlessEqual deprecated
copy[int((size - 1) / 2)] # access of a list index needs casting to int
range(BOARD_SIZE) # xrange was renamed to range in Python 3
#cmp needs to be implemented!
def cmp(a, b):
     return (a > b) - (a < b)
next(iteratable) # list iteration
filter(prime.__rmod__, iteratable) # is itertools.ifilter in Python 2

The examples below will increase in number of lines of code and difficulty:

1 line: Output

print ('Hello, world!')


2 lines: Input, assignment

name = input('What is your name?\n')
print ('Hi, %s.' % name)


3 lines: For loop, built-in enumerate function, new style formatting

friends = ['john', 'pat', 'gary', 'michael']
for i, name in enumerate(friends):
    print ("iteration {iteration} is {name}".format(iteration=i, name=name))


4 lines: Fibonacci, tuple assignment

parents, babies = (1, 1)
while babies < 100:
    print ('This generation has {0} babies'.format(babies))
    parents, babies = (babies, parents + babies)


5 lines: Functions

def greet(name):
    print ('Hello', name)

greet('Jack')
greet('Jill')
greet('Bob')


6 lines: Import, regular expressions

import re
for test_string in ['555-1212', 'ILL-EGAL']:
    if re.match(r'^\d{3}-\d{4}$', test_string):
        print (test_string, 'is a valid US local phone number')
    else:
        print (test_string, 'rejected')


7 lines: Dictionaries, generator expressions

prices = {'apple': 0.40, 'banana': 0.50}
my_purchase = {
    'apple': 1,
    'banana': 6}
grocery_bill = sum(prices[fruit] * my_purchase[fruit]
                   for fruit in my_purchase)
print ('I owe the grocer $%.2f' % grocery_bill)


8 lines: Command line arguments, exception handling

# This program adds up integers that have been passed as arguments in the command line
import sys
try:
    total = sum(int(arg) for arg in sys.argv[1:])
    print ('sum =', total)
except ValueError:
    print ('Please supply integer arguments')


9 lines: Opening files

# indent your Python code to put into an email
import glob
# glob supports Unix style pathname extensions
python_files = glob.glob('*.py')
for file_name in sorted(python_files):
    print ('    ------' + file_name)

    with open(file_name) as f:
        for line in f:
            print ('    ' + line.rstrip())

    print()


10 lines: Time, conditionals, from..import, for..else

from time import localtime

activities = {8: 'Sleeping',
              9: 'Commuting',
              17: 'Working',
              18: 'Commuting',
              20: 'Eating',
              22: 'Resting' }

time_now = localtime()
hour = time_now.tm_hour

for activity_time in sorted(activities.keys()):
    if hour < activity_time:
        print (activities[activity_time])
        break
else:
    print ('Unknown, AFK or sleeping!')


11 lines: Triple-quoted strings, while loop

REFRAIN = '''
%d bottles of beer on the wall,
%d bottles of beer,
take one down, pass it around,
%d bottles of beer on the wall!
'''
bottles_of_beer = 9
while bottles_of_beer > 1:
    print (REFRAIN % (bottles_of_beer, bottles_of_beer,
        bottles_of_beer - 1))
    bottles_of_beer -= 1


12 lines: Classes

class BankAccount(object):
    def __init__(self, initial_balance=0):
        self.balance = initial_balance
    def deposit(self, amount):
        self.balance += amount
    def withdraw(self, amount):
        self.balance -= amount
    def overdrawn(self):
        return self.balance < 0
my_account = BankAccount(15)
my_account.withdraw(50)
print (my_account.balance, my_account.overdrawn())


13 lines: Unit testing with unittest

import unittest
def median(pool):
    copy = sorted(pool)
    size = len(copy)
    if size % 2 == 1:
        return copy[int((size - 1) / 2)]
    else:
        return (copy[int(size/2 - 1)] + copy[int(size/2)]) / 2
class TestMedian(unittest.TestCase):
    def testMedian(self):
        self.assertEqual(median([2, 9, 9, 7, 9, 2, 4, 5, 8]), 7)
if __name__ == '__main__':
    unittest.main()


14 lines: Doctest-based testing

def median(pool):
    '''Statistical median to demonstrate doctest.
    >>> median([2, 9, 9, 7, 9, 2, 4, 5, 8])
    6 #change to 7 in order to pass the test
    '''
    copy = sorted(pool)
    size = len(copy)
    if size % 2 == 1:
        return copy[int((size - 1) / 2)]
    else:
        return (copy[int(size/2 - 1)] + copy[int(size/2)]) / 2
if __name__ == '__main__':
    import doctest
    doctest.testmod()


15 lines: itertools

from itertools import groupby
lines = '''
This is the
first paragraph.

This is the second.
'''.splitlines()
# Use itertools.groupby and bool to return groups of
# consecutive lines that either have content or don't.
for has_chars, frags in groupby(lines, bool):
    if has_chars:
        print (' '.join(frags))
# PRINTS:
# This is the first paragraph.
# This is the second.


16 lines: csv module, tuple unpacking, cmp() built-in

import csv

# need to define cmp function in Python 3
def cmp(a, b):
    return (a > b) - (a < b)

# write stocks data as comma-separated values
with open('stocks.csv', 'w', newline='') as stocksFileW:
    writer = csv.writer(stocksFileW)
    writer.writerows([
        ['GOOG', 'Google, Inc.', 505.24, 0.47, 0.09],
        ['YHOO', 'Yahoo! Inc.', 27.38, 0.33, 1.22],
        ['CNET', 'CNET Networks, Inc.', 8.62, -0.13, -1.4901]
    ])

# read stocks data, print status messages
with open('stocks.csv', 'r') as stocksFile:
    stocks = csv.reader(stocksFile)

    status_labels = {-1: 'down', 0: 'unchanged', 1: 'up'}
    for ticker, name, price, change, pct in stocks:
        status = status_labels[cmp(float(change), 0.0)]
        print ('%s is %s (%.2f)' % (name, status, float(pct)))


18 lines: 8-Queens Problem (recursion)

BOARD_SIZE = 8

def under_attack(col, queens):
    left = right = col

    for r, c in reversed(queens):
        left, right = left - 1, right + 1

        if c in (left, col, right):
            return True
    return False

def solve(n):
    if n == 0:
        return [[]]

    smaller_solutions = solve(n - 1)

    return [solution+[(n,i+1)]
        for i in range(BOARD_SIZE)
            for solution in smaller_solutions
                if not under_attack(i+1, solution)]
for answer in solve(BOARD_SIZE):
    print (answer)


20 lines: Prime numbers sieve w/fancy generators

import itertools

def iter_primes():
     # an iterator of all numbers between 2 and +infinity
     numbers = itertools.count(2)

     # generate primes forever
     while True:
         # get the first number from the iterator (always a prime)
         prime = next(numbers)
         yield prime

         # this code iteratively builds up a chain of
         # filters...slightly tricky, but ponder it a bit
         numbers = filter(prime.__rmod__, numbers)

for p in iter_primes():
    if p > 1000:
        break
    print (p)


21 lines: XML/HTML parsing

dinner_recipe = '''<html><body><table>
<tr><th>amt</th><th>unit</th><th>item</th></tr>
<tr><td>24</td><td>slices</td><td>baguette</td></tr>
<tr><td>2+</td><td>tbsp</td><td>olive oil</td></tr>
<tr><td>1</td><td>cup</td><td>tomatoes</td></tr>
<tr><td>1</td><td>jar</td><td>pesto</td></tr>
</table></body></html>'''

# From http://effbot.org/zone/element-index.htm
import xml.etree.ElementTree as etree
tree = etree.fromstring(dinner_recipe)

# For invalid HTML use http://effbot.org/zone/element-soup.htm
# import ElementSoup, StringIO
# tree = ElementSoup.parse(StringIO.StringIO(dinner_recipe))

pantry = set(['olive oil', 'pesto'])
for ingredient in tree.getiterator('tr'):
    amt, unit, item = ingredient
    if item.tag == "td" and item.text not in pantry:
        print ("%s: %s %s" % (item.text, amt.text, unit.text))


28 lines: 8-Queens Problem (define your own exceptions)

BOARD_SIZE = 8

class BailOut(Exception):
    pass

def validate(queens):
    left = right = col = queens[-1]
    for r in reversed(queens[:-1]):
        left, right = left-1, right+1
        if r in (left, col, right):
            raise BailOut

def add_queen(queens):
    for i in range(BOARD_SIZE):
        test_queens = queens + [i]
        try:
            validate(test_queens)
            if len(test_queens) == BOARD_SIZE:
                return test_queens
            else:
                return add_queen(test_queens)
        except BailOut:
            pass
    raise BailOut

queens = add_queen([])
print (queens)
print ("\n".join(". "*q + "Q " + ". "*(BOARD_SIZE-q-1) for q in queens))


33 lines (this example is in Python 2 syntax): "Guess the Number" Game (edited) from http://inventwithpython.com

import random

guesses_made = 0

name = input('Hello! What is your name?\n')

number = random.randint(1, 20)
print ('Well, {0}, I am thinking of a number between 1 and 20.'.format(name))

while guesses_made < 6:

    guess = int(input('Take a guess: '))

    guesses_made += 1

    if guess < number:
        print ('Your guess is too low.')

    if guess > number:
        print ('Your guess is too high.')

    if guess == number:
        break

if guess == number:
    print ('Good job, {0}! You guessed my number in {1} guesses!'.format(name, guesses_made))
else:
    print ('Nope. The number I was thinking of was {0}'.format(number))


CategoryDocumentation

SimplePrograms (last edited 2019-11-09 23:29:53 by FrancesHocutt)

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