Is it possible to make a `for` loop without an iterator variable? (How can I make code loop a set number of times?)

Question

Is it possible to do following without the i?

for i in range(some_number):
    # do something

If you just want to do something N amount of times and don't need the iterator.

Answer 1

Off the top of my head, no.

I think the best you could do is something like this:

def loop(f,n):
    for i in xrange(n): f()

loop(lambda: <insert expression here>, 5)

But I think you can just live with the extra i variable.

Here is the option to use the _ variable, which in reality, is just another variable.

for _ in range(n):
    do_something()

Note that _ is assigned the last result that returned in an interactive python session:

>>> 1+2
3
>>> _
3

For this reason, I would not use it in this manner. I am unaware of any idiom as mentioned by Ryan. It can mess up your interpreter.

>>> for _ in xrange(10): pass
...
>>> _
9
>>> 1+2
3
>>> _
9

And according to Python grammar, it is an acceptable variable name:

identifier ::= (letter|"_") (letter | digit | "_")*

Answer 2

You may be looking for

for _ in itertools.repeat(None, times): ...

this is THE fastest way to iterate times times in Python.

Answer 3

The general idiom for assigning to a value that isn't used is to name it _.

for _ in range(times):
    do_stuff()

Answer 4

What everyone suggesting you to use _ isn't saying is that _ is frequently used as a shortcut to one of the gettext functions, so if you want your software to be available in more than one language then you're best off avoiding using it for other purposes.

import gettext
gettext.bindtextdomain('myapplication', '/path/to/my/language/directory')
gettext.textdomain('myapplication')
_ = gettext.gettext
# ...
print _('This is a translatable string.')

Answer 5

Here's a random idea that utilizes (abuses?) the data model (Py3 link).

class Counter(object):
    def __init__(self, val):
        self.val = val

    def __nonzero__(self):
        self.val -= 1
        return self.val >= 0
    __bool__ = __nonzero__  # Alias to Py3 name to make code work unchanged on Py2 and Py3

x = Counter(5)
while x:
    # Do something
    pass

I wonder if there is something like this in the standard libraries?

Answer 6

You can use _11 (or any number or another invalid identifier) to prevent name-colision with gettext. Any time you use underscore + invalid identifier you get a dummy name that can be used in for loop.

Answer 7

May be answer would depend on what problem you have with using iterator? may be use

i = 100
while i:
    print i
    i-=1

or

def loop(N, doSomething):
    if not N:
        return
    print doSomething(N)
    loop(N-1, doSomething)

loop(100, lambda a:a)

but frankly i see no point in using such approaches

Answer 8

I generally agree with solutions given above. Namely with:

1. Using underscore in for-loop (2 and more lines)
2. Defining a normal while counter (3 and more lines)
3. Declaring a custom class with __nonzero__ implementation (many more lines)

If one is to define an object as in #3 I would recommend implementing protocol for with keyword or apply contextlib.

Further I propose yet another solution. It is a 3 liner and is not of supreme elegance, but it uses itertools package and thus might be of an interest.

from itertools import (chain, repeat)

times = chain(repeat(True, 2), repeat(False))
while next(times):
    print 'do stuff!'

In these example 2 is the number of times to iterate the loop. chain is wrapping two repeat iterators, the first being limited but the second is infinite. Remember that these are true iterator objects, hence they do not require infinite memory. Obviously this is much slower then solution #1. Unless written as a part of a function it might require a clean up for times variable.

Answer 9

We have had some fun with the following, interesting to share so:

class RepeatFunction:
    def __init__(self,n=1): self.n = n
    def __call__(self,Func):
        for i in xrange(self.n):
            Func()
        return Func


#----usage
k = 0

@RepeatFunction(7)                       #decorator for repeating function
def Job():
    global k
    print k
    k += 1

print '---------'
Job()

Results:

0
1
2
3
4
5
6
---------
7

Answer 10

If do_something is a simple function or can be wrapped in one, a simple map() can do_something range(some_number) times:

# Py2 version - map is eager, so it can be used alone
map(do_something, xrange(some_number))

# Py3 version - map is lazy, so it must be consumed to do the work at all;
# wrapping in list() would be equivalent to Py2, but if you don't use the return
# value, it's wastefully creating a temporary, possibly huge, list of junk.
# collections.deque with maxlen 0 can efficiently run a generator to exhaustion without
# storing any of the results; the itertools consume recipe uses it for that purpose.
from collections import deque

deque(map(do_something, range(some_number)), 0)

If you want to pass arguments to do_something, you may also find the itertools repeatfunc recipe reads well:

To pass the same arguments:

from collections import deque
from itertools import repeat, starmap

args = (..., my args here, ...)

# Same as Py3 map above, you must consume starmap (it's a lazy generator, even on Py2)
deque(starmap(do_something, repeat(args, some_number)), 0)

To pass different arguments:

argses = [(1, 2), (3, 4), ...]

deque(starmap(do_something, argses), 0)

Answer 11

Instead of an unneeded counter, now you have an unneeded list. Best solution is to use a variable that starts with "_", that tells syntax checkers that you are aware you are not using the variable.

x = range(5)
while x:
  x.pop()
  print "Work!"

Answer 12

We can use the while & yield, we can create our own loop function like this. Here you can refer to the official documentation.

def my_loop(start,n,step = 1):
    while start < n:
        yield start
        start += step

for x in my_loop(0,15):
    print(x)

Answer 13

In an answer to a related question, @japs timed four approaches at doing do_something() N times: a throwaway variable (standard), an underscore, itertools.repeat() (loopiter), and map(do_something, itertools.repeat()) (loopiter2). This yielded this comparison with clear differences:

standard:  0.8398549720004667
underscore:  0.8413165839992871
loopiter:  0.7110594899968419
loopiter2:  0.5891903560004721

I decided to loop inside do_something() so that it actually takes some time. This yielded this comparison:

standard: 8.756060799933039
underscore: 8.730245499988087
loopiter: 8.643029399914667
loopiter2: 8.489477000082843

My conclusion is that the cost of looping pales in comparison with the cost of doing something. The moral of this story is its better to focus on optimizing what you do instead of how you loop.

Answer 14

The simplest way I've know is del:

for i in range(some_number):
    del i
    # do something

del simply deletes the variable from memory. No warnings, etc.

Answer 15

If you really want to avoid putting something with a name (either an iteration variable as in the OP, or unwanted list or unwanted generator returning true the wanted amount of time) you could do it if you really wanted:

for type('', (), {}).x in range(somenumber):
    dosomething()

The trick that's used is to create an anonymous class type('', (), {}) which results in a class with empty name, but NB that it is not inserted in the local or global namespace (even if a nonempty name was supplied). Then you use a member of that class as iteration variable which is unreachable since the class it's a member of is unreachable.

Answer 16

What about:

while range(some_number):
    #do something