# What's the most elegant way to write this for loop in Python?

Basically I want to go from -1 to 1 in `n` steps, including -1 and 1:

``````x = -1.0
n = 21

for i in range(n):
print x
x += 0.01

-1.0 -0.9 -0.8 ... 0.8 0.9 1.0
``````

How can I write this in the most elegant, simplest way for any `n` value?

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related question: stackoverflow.com/questions/8652006 –  juliomalegria Jan 2 '12 at 3:37

``````startValue = -1.0
intervalLength = 2.0
numberOfSteps = 14
increasePerStep = intervalLength / numberOfSteps

print startValue

x = startValue
for i in range (numberOfSteps):
x += increasePerStep
print x

-1.0
-0.857142857143
-0.714285714286
-0.571428571429
-0.428571428571
-0.285714285714
-0.142857142857
-2.22044604925e-16
0.142857142857
0.285714285714
0.428571428571
0.571428571429
0.714285714286
0.857142857143
1.0
``````
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Michael, why did you delete this one? I use this one and it seems to work. Is there a potential problem with this one? :O –  Joan Venge Jan 2 '12 at 3:54
@JoanVenge I thought I saw a problem, and then rechecked it a minute ago and found there was no problem, so I undeleted it. –  Michael Berkowski Jan 2 '12 at 3:55
Thanks man, I like this kind of cool simple tricks. –  Joan Venge Jan 2 '12 at 3:58
how is this more elegant than the one proposed by @JoanVenge? both have magic numbers (`0.01` and `2.0`) –  juliomalegria Jan 2 '12 at 4:12
"both have magic numbers (0.01 and 2.0)" still more magic is `14` –  joaquin Jan 2 '12 at 9:31

There is no built-in solution, but probably a good way to solve it is to define your own `range` function:

``````def my_range(start, end, how_many):
incr = float(end - start)/(how_many - 1)
return [start + i*incr for i in range(how_many)]
``````

And you can use it in a for-loop:

``````>>> for i in my_range(-1, 1, 10):
...   print i
...
-1.0
-0.777777777778
-0.555555555556
-0.333333333333
-0.111111111111
0.111111111111
0.333333333333
0.555555555556
0.777777777778
1
``````

EDIT: As @NiklasBaumstark suggested, if your brand new `my_range` function is going to handle a big quantity of numbers it is probably a good idea to use generators. For that purpose, we'll do just a little modification:

``````def my_xrange(start, end, how_many):
incr = float(end - start)/(how_many - 1)
return (start + i*incr for i in xrange(how_many))
``````
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You should really use a generator there instead of creating a temporary list. –  Niklas B. Jan 2 '12 at 3:38
@NiklasBaumstark: you're totally right, I'll add it to my answer –  juliomalegria Jan 2 '12 at 4:00

If it's OK to use `numpy`, this works fine:

``````import numpy as np
n = 21

for i in np.linspace(-1, 1, n):
print i
``````
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I would go with

``````for x in xrange(n):
print float(2*x)/(n-1) - 1
``````

Two things of interest: `xrange` is more efficient than `range`, and there's no need to have two separate iterator variables.

You could wrap this in a function if you find it frequently useful:

``````def linspace1(n):
for x in xrange(n):
yield float(2*x)/(n-1) - 1
``````

although you'd probably want to make the lower and upper limits parameters as well, as in julio.alegria's answer.

-

You said you had your answer, but I feel that this is an elegant solution. It also eliminates the possibility of weird floating-point issues (at least, from the defined range). It combines the power and flexibility of generators along with string formatting and floating-point values. Alternatively, you could avoid much of this if you elected to go with the `Decimal` module - but that would require a bit more tweaking.

``````def decimal_stepper(start, end, step=0.1):
while start <= end:
yield float(start)
start = float(('%' + str(step) + 'f') % (start+step))
``````

An example run:

``````myVals = decimal_stepper(-1, 1)
for x in myVals:
print x
``````

Which outputs:

``````-1.0
-0.9
-0.8
-0.7
-0.6
-0.5
-0.4
-0.3
-0.2
-0.1
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
``````
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