# Programming-Idioms

# 75
Implementation
C#

Be concise.

Be useful.

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Instead of changing the code of the snippet, consider creating another C# implementation.

Other implementations
import "math/big"
gcd.GCD(nil, nil, a, b)
x.Div(a, gcd).Mul(x, b)
from fractions import gcd
x = (a*b)//gcd(a, b)
extern crate num;

use num::Integer;
use num::bigint::BigInt;
let x = a.lcm(&b);
x = lcm(a, b);

int lcm(int a, int b) => (a * b) ~/ gcd(a, b);

int gcd(int a, int b) {
while (b != 0) {
var t = b;
b = a % t;
a = t;
}
return a;
}
x = a.lcm(b)
defmodule BasicMath do
def gcd(a, 0), do: a
def gcd(0, b), do: b
def gcd(a, b), do: gcd(b, rem(a,b))

def lcm(0, 0), do: 0
def lcm(a, b), do: (a*b)/gcd(a,b)
end
x = lcm a b
import std.numeric: gcd
uint x = (a * b) / gcd(a, b);
gcd(A,B) when A == 0; B == 0 -> 0;
gcd(A,B) when A == B -> A;
gcd(A,B) when A > B -> gcd(A-B, B);
gcd(A,B) -> gcd(A, B-A).

lcm(A,B) -> (A*B) div gcd(A, B).
const gcd = (a, b) => b === 0 ? a : gcd (b, a % b)
let x = (a * b) / gcd(a, b)
(setf x (lcm a b))
sub gcd {
my (\$x, \$y) = @_;
while (\$x) { (\$x, \$y) = (\$y % \$x, \$x) }
\$y
}

sub lcm {
my (\$x, \$y) = @_;
(\$x && \$y) and \$x / gcd(\$x, \$y) * \$y or 0
}
sub lcm {
use integer;
my (\$x, \$y) = @_;
my (\$f, \$s) = @_;
while (\$f != \$s) {
(\$f, \$s, \$x, \$y) = (\$s, \$f, \$y, \$x) if \$f > \$s;
\$f = \$s / \$x * \$x;
\$f += \$x if \$f < \$s;
}
\$f
}
#include <gmp.h>
mpz_t _a, _b, _x;
mpz_init_set_str(_a, "123456789", 10);
mpz_init_set_str(_b, "987654321", 10);
mpz_init(_x);

mpz_lcm(_x, _a, _b);
gmp_printf("%Zd\n", _x);
extension=gmp
\$gcd = gmp_lcm(\$a, \$b);
echo gmp_strval(\$gcd);
#include <numeric>
auto x = std::lcm(a, b);
import java.math.BigInteger;
BigInteger a = new BigInteger("123456789");
BigInteger b = new BigInteger("987654321");
BigInteger x = a.multiply(b).divide(a.gcd(b));