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Is there any way of compiling Python's interpretter in such a way that it could use a native (c) arbitrary precision library so that Python could use arbitrary precision as if it was a normal number instead of having to use the decimal class?

EG.

>>0.00000001 + 1
1.00000001
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1  
Even if it is possible, you shouldn't do this. Code which depends on this to work correctly (or rather, accurately enough - decimals have limited precision as well) breaks when run on any other Python installation in the world. Code that doesn't just runs (a bit to quite a lot) slower while producing about the same results. –  delnan Jul 20 '11 at 15:01
    
@delnan: Very well stated. :) –  EOL Jul 22 '11 at 7:33

2 Answers 2

up vote 0 down vote accepted

Don't. Do. That.

All the other Python programmers who have to maintain your program will hate you.

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It would be useful if you spelled out some of the reasons for your judgment (even though I essentially agree with you). –  EOL Jul 21 '11 at 12:56
    
@EOL: Modifying the built-in data type assumption for a literal isn't absolutely show-stoppingly bad? It changes the essential definition of the language. What more needs to be said? What additional kids of "reasons" are there than "It creates a new language that's superficially similar but essentially different"? I'm not sure what you'd like to see. Can you expand on what "reasons" you think are important? –  S.Lott Jul 21 '11 at 12:59
    
I can't agree more. The details that you just added make your answer certainly more illuminating to some people. –  EOL Jul 21 '11 at 13:08
    
@EOL: Thanks. I'm baffled as to how that's not obvious, since I'm just repeating what's in the question. But if it helps, I guess that's good. –  S.Lott Jul 21 '11 at 15:18
    
If I can explain: the fact that you justify your judgment with something is indeed helpful, whether the justification is mentioned in the original question or not. In this case, it is now clear that your reasoning uses a point mentioned in the original question instead of something else that you might have had in mind (nobody could know). –  EOL Jul 22 '11 at 7:30

If you're unsatisfied with the builtin decimal, you can try several libraries that implement higher precision floating point numbers. Most of them, however, are not exactly "native" - you might clarify what you mean by that and why you need it.

  1. mpmath - it provides a pure-Python implementation of high-precision floating point numbers, but it can automatically switch to GNU MP if support for it is available on the system, it has an extensive set of features
  2. gmpy - it provides a wrapper for the GNU MP library
  3. bigfloat - it provides a wrapper for the GNU MPFR library (which is based on GNU MP; wrapper doesn't look very promising since it uses ctypes)
  4. You can use Cython and use any of the above-mentioned libraries (e.g. GNU MP) directly, if it is required for a given performance-critical section. You can also make an ad-hoc Cython wrapper for your use case.
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I am aware of the different options I have for arbitrary precision from libraries, however the problem is more about whether I can use them without as if they were normal Python floats, but precise. –  Jim Jeffries Jul 20 '11 at 15:05
    
You can't do that (without modifying Python itself); why do you want to do this, what do you expect to gain from it? –  Rosh Oxymoron Jul 20 '11 at 15:07
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I am trying to find a way of using arbitrary precision without complicating the code more (an aim from management who don't really understand fp precision) –  Jim Jeffries Jul 20 '11 at 15:21
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@jamesj: Management is not the issue. Maintainability is the issue. Explicit is better than implicit. –  S.Lott Jul 20 '11 at 19:07

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