I'm using the following function in Python 2.7.3 and Kivy 1.8.0 to fade-in a Grid widget:

def __init__(self, **kwargs):
     # ...Init parent class here...
     self.grid.opacity = 0.0
     Clock.schedule_interval(self.show, 1 / 10)

def show(self, value):
    if self.grid.opacity == 1.0:
        return False
        self.grid.opacity += 0.1

show() is executed infinitely, self.grid.opacity == 1.0 always returs False, so the scheduler never removes the function.

I thought, and the documentation says, that opacity is a NumericProperty which defaults to 1.0, but I'm changing its value right before show() is called.

This is what I've tried:

if self.grid.opacity == NumericProperty(1.0):

if float(self.grid.opacity) == 1.0:

It doesn't work. Also, I'm sure self.grid.opacity is 1.0 and type() retrieves float right before I make the comparison.

This works:

if str(self.grid.opacity) == "1.0":

But obviously I don't like this solution.

Any ideas?

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    There are so many resources explaining floating point numbers and their inexactness. Did you search SO (or even use google)? – PaulMcKenzie Aug 5 '14 at 20:45
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    That doesn't mean 0.1 + 0.1 + 0.1 ... == 1.0 – Mark Whitfield Aug 5 '14 at 20:47
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    I think this is marked as the wrong duplicate. stackoverflow.com/questions/5595425/… is much more relevant here. Also no one has mentioned epsilon in Python for either question. – Selali Adobor Aug 5 '14 at 20:49
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    @cdonts: you're probably getting confused because you're looking at str(somenumber) instead of repr(somenumber). Try print(repr(self.grid.opacity), self.grid.opacity-1) to convince yourself you're looking at 0.9999999999999999 instead. – DSM Aug 5 '14 at 20:50

As others have stated, the problem is due to the way floating point numbers are stored. While you could try to use workarounds, there's a better way to do this: Animation.

In __init__:

self.grid.opacity = 0
anim = Animation(opacity=1)

It is probably not Python specific. Read What Every Programmer Should Know About Floating-Point Arithmetic.

0.1 is not exactly representable as a IEEE754 double-precision floating point. So I guess that the floating point (parsed from) 0.1 (which is not exactly one tenth) is not converted as a string "0.1"


Might be a float comparison issue. I don't know the application, but float's are never exact, so testing them for equality can cause problems. You can try something like:

if abs(float(self.grid.opacity) - 1.0) < .001:

An example of funny float behavior, at least on my setup:

>>> .1 + .1 + .1 == .3
>>> .1 + .1 == .2

This is your problem:

>>> q=0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1+0.1
>>> str(q)
>>> q
>>> q==1

Bottom line never compare floats with ==, period.

  • So what is the alternative solution? – Anand Nov 28 '18 at 13:38

@Basile Starynkevitch answers why this is happening, the nature of floating point numbers is at work here. The general form for doing this kind of comparison is:

abs(numberA - numberB) <= SOMEEPSILON

where SOMEEPSILON is a number you deem to be an acceptable margin.

If you're working with smaller numbers and not worried about a rounding error you can sys.float_info.epsilon

So as I commented by combining the two you get:

abs(self.grid.opacity- 1.0) <= sys.float_info.epsilon

The definition of epsilon's value in the docs is:

difference between 1 and the least value greater than 1 that is representable as a float

Which is a another way of saying, the smallest value between 1 and the number right before it.

So for example, if python could only represent numbers up to 2 decimal places, epsilon would be the difference between 1.00 and 0.99 (in reality the value is much smaller than that)

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