1

I need to make computations in the highest possible precision, regardless if the arguments passed are integers, floats or whatever numbers. One way I can think of this is:

import numpy as np
def foo(x, y, z)
a = (np.float64)0
a = x + y * z

I can see a couple of problems with this: 1) I think I need to convert the inputs, not the result for this to work 2)looks ugly (the first operation is a superfluous C-style declaration).

How can I pythonically perform all calculations in the highest available precision, and then store the results in the highest available precision (which is IMO numpy.float64)?

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  • @Ashwini Chaudhary, woops, so my example won't work at all! So how should I doit, then? – Vorac Jun 3 '13 at 8:34
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    If x, y and z are integers, you get an integer back. That's the highest precision. If x, y and z are (Python) floats, you get a float back, which is the highest precision (and, in fact, a C double, so 64bit float). There is no need to declare/convert to a precision, because Python does that for you. – user707650 Jun 3 '13 at 8:38
  • @Evert, results in integers in unacceptable. I know I can multiply everything by 1.0 to get floating point precision. I am looking for a better way. – Vorac Jun 3 '13 at 8:42
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    Why are result in integers unacceptable? You input integers, so you'd get integers back, which, I'd say, have unlimited precision (and multiplying everything by 1.0 lowers the precision). I don't understand your use case, but I think your actual question is different than the one above. – user707650 Jun 3 '13 at 9:36
2

To me the obvious answer is Decimal, unless the function needs to be very fast.

import decimal
# set the precision to double that of float64.. or whatever you want.
decimal.setcontext(decimal.Context(prec=34))
def foo(x, y, z)
    x,y,z = [decimal.Decimal(v) for v in (x,y,z)] 
    a = x + y * z
    return a  # you forgot this line in the original code.

If you want a conventional 64bit float, you can just convert the return value to that: return float(a)

1

You can declare variable but You can try to force it to be expected type

import numpy as np
def foo(*args):
    x, y, z = map(np.longdouble, args)
    return x + y * z

foo(0.000001,0.000001, 0.00000000001)
  • It needs to be clarified that float128 is not reliable. It may produce 128-bit precision, or only 64bit precision, according to the platform and the exact operation. – kampu Jun 3 '13 at 9:31
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    also longdouble is the preferred name and leads to less headaches. On Linux it's equiv to float128, on Windows it's equivalent to float96 (on Windows, float128 has problems.) – kampu Jun 3 '13 at 9:42

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