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# what is the most efficient way to calculate the least common multiple of two integers

what is the most efficient way to calculate the least common multiple of two integers

I just came up with this, it definitely leaves something to be desired

``````    int n = 7, m = 4, n1=n, m1=m;

while (m1 != n1) {
if (m1 > n1)n1 += n;
else m1 += m;
}

System.out.println("lcm is " + m1);
``````
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The least common multiple of a and b is the product divided by the greatest common divisor. I.e. lcm(a, b) = ab/gcd(a, b). So the question becomes how to find the gcd. The Euclidean algorithm is generally how the gcd is computed. The direct implementation of the classic algorithm is efficient, but there are variations that take advantage of binary arithmetic to do a little better. See Knuth TAOCP volume 2, Seminumerical Algorithms.

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Yes, LCM using GCD is fast and easy to code. One small but important detail: in order to avoid overflows, calculate the final result like this: `lcm = a / gcd * b` instead of `lcm = a * b / gcd`. – Bolo Jul 1 '10 at 1:41
@Bolo - if you are "worried" about overflow, you should be using `long` or in other circumstance even `BigInteger`. The LCM of two `int` values may be a `long`. – Stephen C Jul 1 '10 at 1:47
@Stephen C With Bolo's approach the LCM can be computed without overflow if it can be represented. There is no need to use a bigger and slower number type just for the multiplication. – starblue Jul 1 '10 at 4:39
@Stephen C It may happen that the two input integers are of order O(N) and their LCM is of order O(N). In the original approach the intermediate result is of order O(N^2), while in the modified one it's only O(N). Example: p = 2^31 - 1 = 2147483647, m = 2*p, n = 3*p. Their LCM = 6*p, these are not very large numbers (`long` can represent integers up to 2^63 - 1 = 9223372036854775807), but the original approach will overflow anyway (the intermediate value is 6*p*p). A simple reordering can greatly improve the algorithm's applicability, regardless of the type (`short`, `int`, or `long`). – Bolo Jul 1 '10 at 9:55
@Stephen C Of course for fixed size integers the result of most operations can overflow. That's a given and one always has to choose an appropriately sized number type so that overflow doesn't occur. The point is that with Bolo's approach the internal computation for the LCM doesn't overflow. – starblue Jul 1 '10 at 11:45

I think that the approach of "reduction by the greatest common divider" should be faster. Start by calculating the GCD (e.g. using Euclid's algorithm), then divide the product of the two numbers by the GCD.

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Remember The least common multiple is the least whole number that is a multiple of each of two or more numbers.

If you are trying to figure out the LCM of three integers, follow these steps:

``````  **Find the LCM of 19, 21, and 42.**
``````

Write the prime factorization for each number. 19 is a prime number. You do not need to factor 19.

``````21 = 3 × 7
42 = 2 × 3 × 7
19
``````

Repeat each prime factor the greatest number of times it appears in any of the prime factorizations above.

2 × 3 × 7 × 19 = 798

The least common multiple of 21, 42, and 19 is 798.

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very good if you already need the prime factorization for other calculations – Dean Brown Apr 28 at 16:35

Take successive multiples of the larger of the two numbers until the result is a multiple of the smaller.

this might work..

``````   public int LCM(int x, int y)
{
int larger  = x>y? x: y,
smaller = x>y? y: x,
candidate = larger ;
while (candidate % smaller  != 0) candidate += larger ;
return candidate;
}
``````
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This will work okay for small values of x and y, it will have difficulty scaling. – andand Jul 1 '10 at 3:12

First of all, you have to find the greatest common divisor

``````for(int = 1; i <= a && i <= b; i++) {

if (i % a == 0 && i % b == 0)
{
gcm = i;
}

}
``````

After that, using the GCM you can easily find the least common multiple like this

``````lcm = a / gcm * b;
``````
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I don't know whether it is optimized or not, but probably the easiest one:

``````public void lcm(int a, int b)
{
if (a > b)
{
min = b;
max = a;
}
else
{
min = a;
max = b;
}
for (i = 1; i < max; i++)
{
if ((min*i)%max == 0)
{
res = min*i;
break;
}
}
Console.Write("{0}", res);
}
``````
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