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Best to use an example to describe the problem. Lets say I have a decimal value 100.227273.

100.227273 * X = Y

I need to find the smallest positive integer X that gives integer Y.

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Do you really mean decimal, or floating point? – Andrew Jaffe Mar 12 '10 at 16:26
Representation doesn't matter, at least not to me. – Davorin Mar 15 '10 at 7:45

5 Answers 5

up vote 14 down vote accepted

If the 100.227273 is just an approximation and you want to get the best rational approximation, use continued fractions.

Take 100.227273 as example.

  1. Take the integer part (100) away. Now you get 100.227273 = 100 + 0.227273.
  2. Invert 0.227273 to get 4.39999 (4.4?).
  3. Repeat step 1 until you are satisfied with the error.

So you get

100.227273 = 100 + —————————
                   4 + —————
                       2 + —

Simplify this expression to get 2205/22.

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+1 for trying to go past what the questioner asked, to what they're most likely actually trying to do. – Steve Jessop Mar 12 '10 at 16:19
+1 for continued fractions. IIRC there is a simple algorithm that uses only 3 state variables to go arbitrarily deep. – phkahler Mar 12 '10 at 18:31

1000000/gcd(1000000,227273). Also known as lcm(1000000,227273)/227273. In this case, 1 million.

What you want to do, is turn 0.227273 into a fraction in simplest form. The number you're looking for is then the denominator of that fraction. Since 227273/1000000 is already in simplest form, you're done. But if your input was 100.075, then 75/1000 is not in simplest form. The simplest form is 3/40, so the solution for X is 40.

As an optimisation, you can simplify the calculation because you know that the starting denominator is a power of 10, so its only prime factors are 2 and 5. So all you need to look for in the numerator is divisibility by 2 and 5, which is easier than Euclid's algorithm. Of course if you already have an implementation of gcd and/or lcm, then this is more effort on your part, not less.

Bear in mind when you get the result, that floating-point numbers cannot in general represent decimal fractions precisely. So once you have the mathematically correct answer, it will not necessarily give you an integer answer when you do a floating-point multiplication. The flip side of this is that of course the question only applies if there is a finite decimal expression of the number you're interested in.

If you have the number as a quotient in the first place, then you need to find the denominator of its simplest form directly, not by converting it to decimal and truncating it. For example, to solve this problem for the number "6 and one third", the answer is 3, not any power of 10. If the input is "the square root of 2", then there is no solution for X.

Well, actually, the smallest integer X with the property you require is 0, but I assume you don't mean that ;-)

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and OP means positive integer. – phaedrus Mar 12 '10 at 16:06
Of course. Giving the "right but wrong" answer is just my little way of pointing out the imprecision in the question. – Steve Jessop Mar 12 '10 at 16:10
No, -10,000,000,000 is much smaller than 0. ;) – kennytm Mar 12 '10 at 16:12
No, it is not. It is less than 0, but it is not smaller. It's a "large negative value". Anyway, that is the only sense I've ever seen "smaller" used for the whole set of integers, by anyone who was mindful the two different possible interpretations as they were saying it ;-). If you want the minimum value of a set of integers, say "least", not "smallest". – Steve Jessop Mar 12 '10 at 16:20
Should I edit the question? I didn't really think about all the mathematical details (also, English is my second language). – Davorin Mar 15 '10 at 7:50

I've got a feeling you actually mean this:

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After some examination I think this is exactly what I'll use :) – Davorin Mar 16 '10 at 11:46

If your positive decimal value D has n digits to the right of the decimal point, then D * 10^n is an integer and X = 10^n / gcf(10^n, D * 10^n) = lcm(10^n, D * 10^n) is the smallest positive integer X.

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Except that it looks like he doesn't know how many digits long the fractional part is beforehand. – David R Tribble Mar 12 '10 at 16:30

I am assuming that the input decimal r is a positive rational number r with a terminating decimal representation.

Let d be the number of digits after the decimal point (assume that we have trimmed all extraneous zeros from the decmial representation of r). Then note that 10^d * r is an integer m. Let g = gcd(10^d, m). Then 10^d / g * r = m / g is an integer p. Let q = 10^d / g. I claim that q is the smallest such positive integer.

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