|
Size: 5355
Comment:
|
Size: 5266
Comment: The word "huge" starts with a consonant sound so it should be preceded by a, not an. The h is not silent.
|
| Deletions are marked like this. | Additions are marked like this. |
| Line 6: | Line 6: |
| Line 8: | Line 9: |
| ''For'' loops are traditionally used when you have a piece of code which you want to repeat ''n'' number of times. As an alternative, there is the WhileLoop, however, ''while'' is used when a condition is to be met, or if you want a piece of code to repeat forever, for example - | ''For'' loops are traditionally used when you have a piece of code which you want to repeat ''n'' number of times. As an alternative, there is the [[WhileLoop|WhileLoop]], however, ''while'' is used when a condition is to be met, or if you want a piece of code to repeat forever, for example - |
| Line 11: | Line 14: |
| {{{#!python numbers=disable for x in range(0,3): print 'We\'re on time %d' % (x) }}} |
{{{ for x in range(0, 3): print "We're on time %d" % (x) }}} |
| Line 16: | Line 26: |
| {{{#!python numbers=disable | {{{ |
| Line 23: | Line 37: |
| As you can see, they serve different purposes. The ''for'' loop runs for a fixed amount - in this case, 3, while the ''while'' loop theoretically runs forever. You could use a ''for'' loop with an huge number in order to gain the same effect as a ''while'' loop, but what's the point of doing that when you have a construct that already exists? As the old saying goes, "why try to reinvent the wheel?". | As you can see, they serve different purposes. The ''for'' loop runs for a fixed amount - in this case, 3, while the ''while'' loop theoretically runs forever. You could use a ''for'' loop with a huge number in order to gain the same effect as a ''while'' loop, but what's the point of doing that when you have a construct that already exists? As the old saying goes, "why try to reinvent the wheel?". |
| Line 27: | Line 44: |
| Line 29: | Line 47: |
| Line 31: | Line 50: |
| Line 33: | Line 53: |
| Line 35: | Line 56: |
| Line 37: | Line 59: |
| Line 39: | Line 62: |
| Line 41: | Line 65: |
| Line 43: | Line 68: |
| Line 45: | Line 71: |
| ''Nested loops'' {{{#!python numbers=disable for x in xrange(1,11): for y in xrange(1,11): print '%d * %d = %d' % (x,y,x*y) }}} |
''Nested loops'' {{{ for x in xrange(1, 11): for y in xrange(1, 11): print '%d * %d = %d' % (x, y, x*y) }}} |
| Line 53: | Line 86: |
| {{{#!python numbers=disable | {{{ |
| Line 55: | Line 92: |
| if x==1: | if x == 1: |
| Line 59: | Line 96: |
| Line 60: | Line 99: |
| {{{#!python numbers=disable | {{{ |
| Line 67: | Line 110: |
| Line 68: | Line 113: |
| {{{#!python numbers=disable | {{{ |
| Line 74: | Line 123: |
| Line 75: | Line 126: |
| {{{#!python numbers=disable collection = ['hey',5,'d'] |
{{{ collection = ['hey', 5, 'd'] |
| Line 81: | Line 136: |
| Line 82: | Line 139: |
| {{{#!python numbers=disable | {{{ |
| Line 88: | Line 149: |
| Line 89: | Line 153: |
| {{{#!python numbers=disable | {{{ |
| Line 107: | Line 175: |
| Line 108: | Line 178: |
| {{{#!python numbers=disable | {{{ |
| Line 125: | Line 199: |
| print stop - start }}} ''Time on small ranges'' {{{ import time #use time.time() on Linux start = time.clock() for x in range(1000): pass stop = time.clock() |
|
| Line 126: | Line 223: |
| }}} ''Time on small ranges'' {{{#!python numbers=disable import time #use time.time() on Linux start = time.clock() for x in range(1000): |
start = time.clock() for x in xrange(1000): |
| Line 142: | Line 230: |
start = time.clock() for x in xrange(1000): pass stop = time.clock() print stop-start }}} |
}}} |
| Line 152: | Line 235: |
| {{{#!python numbers=disable | {{{ |
| Line 154: | Line 241: |
| while start<=end: | while start <= end: |
| Line 158: | Line 245: |
| for x in my_range(1,10,0.5): print x }}} |
for x in my_range(1, 10, 0.5): print x }}} |
For loops
Usage in Python
- When do I use for loops?
For loops are traditionally used when you have a piece of code which you want to repeat n number of times. As an alternative, there is the WhileLoop, however, while is used when a condition is to be met, or if you want a piece of code to repeat forever, for example -
For loop from 0 to 2, therefore running 3 times.
for x in range(0, 3):
print "We're on time %d" % (x)While loop from 1 to infinity, therefore running infinity times.
x = 1
while True:
print "To infinity and beyond! We're getting close, on %d now!" % (x)
x += 1As you can see, they serve different purposes. The for loop runs for a fixed amount - in this case, 3, while the while loop theoretically runs forever. You could use a for loop with a huge number in order to gain the same effect as a while loop, but what's the point of doing that when you have a construct that already exists? As the old saying goes, "why try to reinvent the wheel?".
- How do they work?
If you've done any programming before, there's no doubt you've come across a for loop or an equivalent to it. In Python, they work a little differently. Basically, any object with an iterable method can be used in a for loop in Python. Even strings, despite not having an iterable method - but we'll not get on to that here. Having an iterable method basically means that the data can be presented in list form, where there's multiple values in an orderly fashion. You can define your own iterables by creating an object with next() and iter() methods. This means that you'll rarely be dealing with raw numbers when it comes to for loops in Python - great for just about anyone!
- Nested loops
When you have a piece of code you want to run x number of times, then code within that code which you want to run y number of times, you use what is known as a "nested loop". In Python, these are heavily used whenever someone has a list of lists - an iterable object within an iterable object.
- Early exits
Like the while loop, the for loop can be made to exit before the given object is finished. This is done using the break keyword, which will stop the code from executing any further. You can also have an optional else clause, which will run should the for loop exit cleanly - I.E., without breaking.
Things to remember
- range vs xrange
The range function creates a list containing numbers defined by the input. The xrange function creates a number generator. You will often see that xrange is used much more frequently than range. This is for one reason only - resource usage. The range function generates a list of numbers all at once, where as xrange generates them as needed. This means that less memory is used, and should the for loop exit early, there's no need to waste time creating the unused numbers. This effect is tiny in smaller lists, but increases rapidly in larger lists as you can see in the examples below.
Examples
Nested loops
for x in xrange(1, 11):
for y in xrange(1, 11):
print '%d * %d = %d' % (x, y, x*y)Early exit
for x in xrange(3):
if x == 1:
breakFor..Else
for x in xrange(3):
print x
else:
print 'Final x = %d' % (x)Strings as an iterable
string = "Hello World"
for x in string:
print xLists as an iterable
collection = ['hey', 5, 'd']
for x in collection:
print xLists of lists
list_of_lists = [ [1, 2, 3], [4, 5, 6], [7, 8, 9]]
for list in list_of_lists:
for x in list:
print xCreating your own iterable
class Iterable(object):
def __init__(self,values):
self.values = values
self.location = 0
def __iter__(self):
return self
def next(self):
if self.location == len(self.values):
raise StopIteration
value = self.values[self.location]
self.location += 1
return valuerange vs xrange
import time
#use time.time() on Linux
start = time.clock()
for x in range(10000000):
pass
stop = time.clock()
print stop - start
start = time.clock()
for x in xrange(10000000):
pass
stop = time.clock()
print stop - startTime on small ranges
import time
#use time.time() on Linux
start = time.clock()
for x in range(1000):
pass
stop = time.clock()
print stop-start
start = time.clock()
for x in xrange(1000):
pass
stop = time.clock()
print stop-startYour own range generator using yield
def my_range(start, end, step):
while start <= end:
yield start
start += step
for x in my_range(1, 10, 0.5):
print x