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In the following code, if x0 == x1 and y0 == y1, then it should tell me so. In the example I'm using, they are. However, Python is only saying the x values are equal, not the y.

Here's the code:

print "arc2x0 = ", arc2x0, ", arc2x1 = ", arc2x1
print "arc2y0 = ", arc2y0, ", arc2y1 = ", arc2y1

if arc2x0 == arc2x1:
    print "x0 == x1"
    print "x0 != x1"

if arc2y0 == arc2y1:
    print "y0 == y1"
    print "y0 != y1"

And here's the output:

arc2x0 =  5 , arc2x1 =  5.0
arc2y0 =  -4.16026900507 , arc2y1 =  -4.16026900507
x0 == x1
y0 != y1

Any idea why the y values are testing as equal? These values are calculated in the same way. Maybe there's more precision beyond what I'm seeing that isn't equal? Any way to print that precision or any other ideas on how to debug this?

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use decimal.Decimal –  bradley.ayers Mar 30 '11 at 2:51
print "arc2y0 = %r, arc2y1 = %r"%(arc2y0, arc2y1) you will see that the numbers you have are not exactly equal –  John La Rooy - AKA gnibbler Mar 30 '11 at 3:19

3 Answers 3

up vote 5 down vote accepted

Yes there is more precision beyond what you're seeing. The problem is that the == operator should not usually be used with floats. Floating point numbers have limited precision and accumulate rounding error, and imprecision from not being able to store all decimal values precisely. e.g.

>>> print '%.18f' % 0.1

>>> 0.4 - 0.3 == 0.1

The best way to compare floats for equality is to compare if they are nearly equal:

def nearly_equal(x, y, epsilon=1e-7):
    return abs(x - y) < epsilon

By comparing if the difference between floats is less than an epsilon value, which indicates how close is considered close enough to be equal.

You can always use the decimal.Decimal type to avoid these problems.

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See here.

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This is due to how floating point works,you should manually truncate the numbers to force the precision to the figures you want:


figures =9
a=round(a*(10**figures))/(10**figures) # truncates the digits
print a

But i think the best way would be to use decimal:

from decimal import *
a = Decimal ('your number as a string')
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You get similar problems when comparing floats no matter what the precision. If you are advocating the use of numpy because it has greater precision floating point numbers then that would be wrong. –  Paddy3118 Mar 30 '11 at 5:54
@Paddy3118 I just checked and you are right, I can't find where i read that Numpy had that, anyway i edited the answer –  P2bM Mar 30 '11 at 7:00

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