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I have this function inside another function:

def _sum(k):
        return sum([(-1) ** v * fractions.Fraction(str(bin_coeff(k, v))) * fractions.Fraction((n + v) ** m, k + 1) for v in xrange(k + 1)])

When i call fractions.Fraction on bin_coeff it reports me this error:

ValueError: Invalid literal for Fraction: '1.05204948186e+12'

How can can I convert a float in that form into a Fraction object?

Is there a better solution than:

fractions.Fraction(*bin_coeff(k, v).as_integer_ratio())

Thank you,
rubik

P.S. bin_coeff always returns a float

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2 Answers 2

up vote 1 down vote accepted

I cannot reproduce your error in py3k, but you could pass your float straight to from_float class method:

>>> fractions.Fraction.from_float(1.05204948186e+12)
Fraction(1052049481860, 1)
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I'm running Python 2.6: fractions.Fraction('1.05204948186e+12') ValueError: Invalid literal for Fraction: '1.05204948186e+12' but from_float works, thanks –  rubik Oct 20 '10 at 13:16
    
@rubik: you still could use from_float method –  SilentGhost Oct 20 '10 at 13:19
    
Ok, I will use that. Thanks! –  rubik Oct 20 '10 at 13:22
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If you're curious, this is due (as you might expect) to the Fraction regex in fractions.py:

_RATIONAL_FORMAT = re.compile(r"""
    \A\s*                      # optional whitespace at the start, then
    (?P<sign>[-+]?)            # an optional sign, then
    (?=\d|\.\d)                # lookahead for digit or .digit
    (?P<num>\d*)               # numerator (possibly empty)
    (?:                        # followed by an optional
       /(?P<denom>\d+)         # / and denominator
    |                          # or
       \.(?P<decimal>\d*)      # decimal point and fractional part
    )?
    \s*\Z                      # and optional whitespace to finish
""", re.VERBOSE)

which doesn't match floats in scientific notation. This was changed in Python 2.7 (the following is from 3.1 because I don't have 2.7 installed):

_RATIONAL_FORMAT = re.compile(r"""
    \A\s*                      # optional whitespace at the start, then
    (?P<sign>[-+]?)            # an optional sign, then
    (?=\d|\.\d)                # lookahead for digit or .digit
    (?P<num>\d*)               # numerator (possibly empty)
    (?:                        # followed by
       (?:/(?P<denom>\d+))?    # an optional denominator
    |                          # or
       (?:\.(?P<decimal>\d*))? # an optional fractional part
       (?:E(?P<exp>[-+]?\d+))? # and optional exponent
    )
    \s*\Z                      # and optional whitespace to finish
""", re.VERBOSE | re.IGNORECASE)
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Thank you! It's very interesting! –  rubik Oct 20 '10 at 13:52
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