Is there a way to step between 0 and 1 by 0.1?
I thought I could do it like the following, but it failed:
for i in range(0, 1, 0.1):
print i
Instead, it says that the step argument cannot be zero, which I did not expect.
Is there a way to step between 0 and 1 by 0.1? I thought I could do it like the following, but it failed:
Instead, it says that the step argument cannot be zero, which I did not expect. 

You can also use the NumPy library (which isn't part of standard library but is relatively easy to obtain) which has the
as well as the



Building on 'xrange([start], stop[, step])', you can define a generator that accepts and produces any type you choose (stick to types supporting



Python's range() can only do integers, not floating point. In your specific case, you can use a list comprehension instead:
(Replace the call to range with that expression.) For the more general case, you may want to write a custom function or generator. 


Increase the magnitude of
EDIT: I honestly cannot remember why I thought that would work syntactically
That should have the desired output. 





Similar to R's
Results



The range() builtin function returns a sequence of integer values, I'm afraid, so you can't use it to do a decimal step. I'd say just use a while loop:
If you're curious, Python is converting your 0.1 to 0, which is why it's telling you the argument can't be zero. 





in Python 2.7x gives you the result of:
but if you use:
gives you the desired:



Here's a solution using itertools:
Usage Example:
Output:



And if you do this often, you might want to save the generated list



My versions use the original range function to create multiplicative indices for the shift. This allows same syntax to the original range function. I have made two versions, one using float, and one using Decimal, because I found that in some cases I wanted to avoid the roundoff drift introduced by the floating point arithmetic. It is consistent with empty set results as in range/xrange. Passing only a single numeric value to either function will return the standard range output to the integer ceiling value of the input parameter (so if you gave it 5.5, it would return range(6).) Edit: the code below is now available as package on pypi: Franges



This is my solution to get ranges with float steps.
The output is:



You can use this function:



For completeness of boutique, a functional solution:



Add autocorrection for the possibility of an incorrect sign on step:



My solution:



Here is my solution which works fine with float_range(1, 0, 0.01) and works without floating point representation errors. It is not very fast, but works fine:



I am only a beginner, but I had the same problem, when simulating some calculations. Here is how I attempted to work this out, which seems to be working with decimal steps. I am also quite lazy and so I found it hard to write my own range function. Basically what I did is changed my So I decided to test if my solution will work for my range by running a short test:
And it printed True for each. Now, if I'm getting it totally wrong, please let me know. 


This one liner will not clutter your code. The sign of the step parameter is important.



frange(start, stop, precision)



The trick to avoid roundoff problem is to use a separate number to move through the range, that starts and half the step ahead of start.
Alternatively, 


It can be done using Numpy library. arange() function allows steps in float. But, it returns a numpy array which can be converted to list using tolist() for our convenience.



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Would you like to answer one of these unanswered questions instead?
itertools.takewhile
anditertools.count
. It isn't better thandrange
performancewise, though. – Kos Nov 29 '12 at 16:15