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I'm having a little problem, take a look:

>>> import math
>>> math.sin(math.pi)
1.2246467991473532e-16

This is not what I learnt in my Calculus class (It was 0, actually)

So, now, my question:

I need to perform some heavy trigonometric calculus with Python. What library can I use to get correct values?

Can I use Decimal?

EDIT:

Sorry, What I mean is other thing.

What I want is some way to do:

>>> awesome_lib.sin(180)
0

or this:

>>> awesome_lib.sin(Decimal("180"))
0

I need a libraray that performs good trigonometric calculus. Everybody knows that sin 180° is 0, I need a library that can do that too.

share|improve this question
2  
"Can I use Decimal?" No. Pi is irrational. – Ignacio Vazquez-Abrams Jun 1 '12 at 16:42
3  
The relevant question is: what, exactly, are you planning to use this library for? That will determine whether you actually need symbolic calculation, or whether there is some less heavyweight way to do what you want. You really should read the "What Every Computer Scientist Should Know About Floating Point Arithmetic" link on @Zhenya's answer. – comingstorm Jun 1 '12 at 16:58
    
Actually, the answer you get is correct because math.pi is the closest floating point number to pi, but not pi itself! You should read the link on floating point arithmetic again if needed. – jorgeca Jun 1 '12 at 20:06
1  
This question is referenced in msmvps.com/blogs/jon_skeet/archive/2009/11/02/… – user502144 Jun 1 '12 at 22:10
1  
What good would it do you to have a library that returned the values of trigonometric functions of arguments in degrees? Although sine(180º) is zero, only a few special arguments have trigonometric values that are rational (and representable in floating-point). Almost every sine of a representable floating-point value is not a representable floating-point value. So you are going to have small errors, as you observed for sine of (almost) pi, even when you use degrees. So we need to know more about what you are trying to accomplish before we can give you good answers. – Eric Postpischil Jun 2 '12 at 2:14
up vote 13 down vote accepted

1.2246467991473532e-16 is close to 0 -- there are 16 zeroes between the decimal point and the first significant digit -- much as 3.1415926535897931 (the value of math.pi) is close to pi. The answer is correct to sixteen decimal places!

So if you want sin(pi) to equal 0, simply round it to a reasonable number of decimal places. 15 looks good to me and should be plenty for any application:

print round(math.sin(math.pi), 15)
share|improve this answer
    
I forgot to thank you for your answer. You're soooo right. If PI is not an "exact" value, how could I wait sin(PI) to be an exact value? Sorry seems like I am too dumb. Thanks for your answer! – santiagobasulto Sep 10 '13 at 22:39

Pi is an irrational number so it can't be represented exactly using a finite number of bits. However, you can use some library for symbolic computation such as sympy.

>>> sympy.sin(sympy.pi)
0

Regarding the second part of you question, if you want to use degrees instead of radians you can define a simple conversion function

def radians(x):
    return x * sympy.pi / 180

and use it as follows:

>>> sympy.sin(radians(180))
0
share|improve this answer
    
Thanks for this. It's useful. I updated my question. – santiagobasulto Jun 1 '12 at 16:47
    
That's pretty slick, I didn't know sympy could do that. – kindall Jun 1 '12 at 16:53

If you find the result unexpected, I dare suggesting that you have a look at this text: What Every Computer Scientist Should Know About Floating-Point Arithmetic

It's really worth it.

share|improve this answer
    
I've read it. Thanks! I already know the problems involving floating-points numbers. That's why i'm asking this. – santiagobasulto Jun 1 '12 at 16:50

you can also try gmpy or real

in gmpy you can specify the precision explicitly:

    gmpy.pi(256) 

in real.py you could use the pa() function:

    from real import pa,pi
    pa(pi)
share|improve this answer
1  
Using a more precise value for pi will give a more precise result, but it won't necessarily lead to an accurate result. – Ignacio Vazquez-Abrams Jun 1 '12 at 17:11

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