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Cardano Triplets

I really don't know how to write this correctly. This is how I tried:

def is_cardano_triplet(a, b, c):
    f = lambda x: x ** 1. / 2
    g = lambda x: x ** 1. / 3
    return g(a + b*f(c)) + g(a - b*f(c)) == 1

print is_cardano_triplet(2,1,5) # I should get True

I should get True for 2, 1, 5, but I'm not. What's wrong with my function?

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2 Answers 2

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Doing a few calculations, I found out that:

lolz

and therefore:

lolzz

Now, due to floating point arithmetic being imprecise on binary-based systems for known reasons, the first formula is pretty hard to compute precisely. However, the second one is much easier to compute without floating point precision errors since that it doesn't involve irrational functions and a, b and c are integers.

Here's the smart solution:

def is_cardano_triplet(a, b, c):
    return (a + 1)**2 * (8*a - 1) - 27*b**2*c == 0

>>> is_cardano_triplet(2, 1, 5)
True
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  • Of course, to solve the Project Euler problem, generating triplets and testing whether they're Cardano triplets would still be unworkably inefficient. You might try iterating over possible values of (a + 1) / 3 (as a must be congruent to 2 mod 3) and considering factors of (a + 1) / 3 and square factors of (8*a - 1) / 3 to generate valid b values, from which the corresponding c immediately follows. Apr 19, 2016 at 21:12
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The power operator (**) has a higher priority than the division one (/). So you need to set parentheses:

f = lambda x: x ** (1./3)

Still, floating point operations are not exact, so you have to compare with some small uncertainty:

def is_cardano_triplet(a, b, c):
    f = lambda x: x ** (1. / 2)
    g = lambda x: x ** (1. / 3)
    return abs(g(a + b*f(c)) + g(a - b*f(c)) - 1) < 1e-10

Now you get the problem, that negative numbers are only allowed for roots of odd numbers, but floating points aren't exact, so you have to handle negative numbers by hand:

def is_cardano_triplet(a, b, c):
    f = lambda x: x ** (1. / 2)
    g = lambda x: (-1 if x<0 else 1) * abs(x) ** (1. / 3)
    return abs(g(a + b*f(c)) + g(a - b*f(c)) - 1) < 1e-10

Now

print is_cardano_triplet(2,1,5)

results in True.

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  • while this is part of it, the function still returns False because of floating point rounding, see Is floating point math broken?. Apr 19, 2016 at 19:47
  • print is_cardano_triplet(2,1,5) gives: ValueError: negative number cannot be raised to a fractional power for me. Apr 19, 2016 at 19:52
  • 2
    Comparing with a tolerance will just produce different wrong results. You'll get false positives for inputs that aren't Cardano triplets. Apr 19, 2016 at 19:52

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