I am using the arange function to define my for loop iterations and getting unexpected results.

i = arange(7.8,8.4,0.05)
print i

yeilds the following:

[ 7.8   7.85  7.9   7.95  8.    8.05  8.1   8.15  8.2   8.25  8.3   8.35 8.4 ]

yet using the stop value of 8.35 as follows

i = arange(7.8,8.35,0.05)

yields the following

[ 7.8   7.85  7.9   7.95  8.    8.05  8.1   8.15  8.2   8.25  8.3 ]

But I want my range to end at 8.35! I know I can use the stop value of > 8.35 and < 8.4 to achieve my result, but why is it different and in my mind, inconsistent?

Edit: I am using version 2.7

  • Which version of Python are you using? – Brendan Wood Apr 4 '12 at 13:07
  • I am using 2.7! – smashtastic Apr 4 '12 at 14:57
  • A simply way to escape these problems is to use arrange=(7.8,8.351,0.05) – Thiru Jan 30 '13 at 7:04

Perhaps it has to do with limitations on floating point numbers. Due to machine precision, it is not possible to store every conceivable value perfectly as a floating point. For example:

>>> 8.4
>>> 8.35

So, 8.4 as a floating point is slightly greater than the actual value of 8.4, while 8.35 as a floating point is a tiny bit less.

  • 1
    this seems to output with python 2.6 but with 2.7, >>>8.4 comes out as 8.4 – avasal Apr 4 '12 at 13:02
  • 4
    So it does, that's interesting. It looks like they've changed how floats are printed, though the underlying number of still the same (slightly incorrect), which you can see by comparing the hex values for the floats in Python 2.6 and 2.7. – Brendan Wood Apr 4 '12 at 13:10
  • I guess this explains what I am seeing - thanks! – smashtastic Apr 4 '12 at 15:02
  • numpy.arange isn't able to handle this correctly in Python 2.7 either. – marbel Jun 2 '17 at 15:50

I'm guessing that you're seeing the effects of floating point rounding.

numpy.arange does the same thing as python's range: It doesn't include the "endpoint". (e.g. range(0, 4, 2) will yield [0,2] instead of [0,2,4])

However, for floating point steps, the rounding errors are accumulate, and occasionally the last value will actually include the endpoint.

As noted in the documentation for arange:

When using a non-integer step, such as 0.1, the results will often not be consistent. It is better to use linspace for these cases.

numpy.linspace generates a specified number of points between a starting and ending point. Incidentally, it does include the endpoints by default.

  • hi - I have tried to find the help docs online for linspace but it is strangely blank ... do you have a suitable link? – smashtastic Apr 4 '12 at 14:59
  • 1
    docs.scipy.org/doc/numpy-1.6.0/reference/generated/… Alternately, you can just do pydoc numpy.linspace or if you're in a python interpreter help(numpy.linspace), or in ipython, it's just numpy.linspace?. – Joe Kington Apr 4 '12 at 15:13
  • that's clear in the docs, but it doesn't make numpy.arange useful does it? – marbel Jun 2 '17 at 15:50

the help of arange function says

    For floating point arguments, the length of the result is
    ``ceil((stop - start)/step)``.  Because of floating point overflow,
    this rule may result in the last element of `out` being greater
    than `stop`.

for python 2.7, Conversions between floating-point numbers and strings are now correctly rounded on most platforms.

in 2.7

>>> float(repr(2.3))

in 2.6

>>> float(repr(2.3))

I had the same problem and I implemented my own function to correct for this rounding issue with numpy.arange :

import numpy as np
def my_arange(a, b, dr, decimals=6):
    res = [a]
    k = 1
    while res[-1] < b:
        tmp = round(a + k*dr,decimals)
        if tmp > b:

    return np.asarray(res)

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