# Floating point modulus problem

I'm having a problem with modulus on a floating point number in Python. This code:

``````...
print '(' + repr(olddir) + ' + ' + repr(self.colsize) + ') % (math.pi*2) = ' + repr((olddir+self.colsize)
...
``````

Prints:

``````(6.281876310240881 + 0.001308996938995747) % (math.pi*2) = 2.9043434324194095e-13
``````

I know floating point numbers aren't precise. But I can't get this to make any sense.

I don't know if it is in any way related but Google Calculator can't handle this calculation either. This is the output from Google Calculator:

``````(6.28187631024 + 0.001308996939) % (pi * 2) = 6.28318531
``````

What is causing this calculation error? And how can I avoid it in my Python program?

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Now that you've edited the values, it's hard to see what the calculation error is supposed to be. What result do you expect? –  Mark Ransom May 13 '11 at 21:10
@Mark: Look at the OP's comments to my answer to understand what the actual problem is. –  Sven Marnach May 13 '11 at 21:12
@Sven, thanks - I've known scientific notation for so long now that it's invisible. I forget how confusing it was at first sight. –  Mark Ransom May 13 '11 at 21:20

Using `str()` to print a floating point number actually prints a rounded version of the number:

``````>>> print repr(math.pi)
3.1415926535897931
>>> print str(math.pi)
3.14159265359
``````

So we can't really reproduce your results, since we don't know the exact values you are doing the computation with. Obviously, the exact value of `olddir+self.colsize` is slightly greater than `2*math.pi`, while the sum of the rounded values you used in Google Calculator is slightly less than `2*math.pi`.

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I've updated my post using `repr()` instead of `str()`. It should be reproduceable now although I can't see why it matters. –  paldepind May 13 '11 at 20:52
@paldepind: Now try in Google with the new values to see why it matters –  Sven Marnach May 13 '11 at 20:58
@paldepind: You realize 2.9e-13 is 0.00000000000029 right? –  dr jimbob May 13 '11 at 21:16
@paldepind: Have a look at the Wikipedia explanation of this notation. –  Sven Marnach May 13 '11 at 21:26
@paldepind, no you're not stupid - just inexperienced. No shame in that. –  Mark Ransom May 13 '11 at 21:44

The difference between `str` and `repr`

``````>>> import scipy
>>> pi = scipy.pi
>>> str(pi)
'3.14159265359'
>>> repr(pi)
'3.1415926535897931'
``````

`str` truncates floating point numbers to 12 digits, where repr gives the internal representation (as a string).

EDIT: So in summary, the problem arose because you rounded prematurely and are calculating the modulus of something via a number that's very close to it. With floating point numbers, rounding is inevitably involved in converting decimal numbers into binary.

First, do an example of how rounding hurts you with actual math (not floating point math). Look at (3.14+3.14) % (3.14+3.14), which is obviously zero. Now what would happen if we rounded the digits to one decimal digit first on one side? Well (3.1+3.1) % (3.14+3.14) = 6.2 % (6.28) = 6.2 (what google gave you). Or if you did round(3.14159,5) + round(3.14159,5) % (3.14159 + 3.14159) = 6.2832 % 6.28318 = 2e-5.

So in by rounding to N digits (by using `str` which effectively rounds the numbers), your calculation is only accurate to less than N digits. To have this work going forward force rounding at some higher digit (keeping two calculated digits for safety) is necessary. E.g., str rounds at digit 12, so maybe we should round at digit 10.

``````>>> round(6.28187631024 + 0.001308996939,10) % (round(pi * 2,10))
0
``````
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Thanks. I've updated my post using `repr`. –  paldepind May 13 '11 at 20:56