Euclidean Algorithm
Let’s create a Euclidean algorithm for searching x and y for some integers a and b that
ax + by = gcd(a,b),
where gcd() is the greatest common divisor of a and b.
Searching for gcd(a,b)
We’ll use the fact that gcd(a, b) = gcd(b, a-b), where a >= b. Let’s be greedy and subtract each time as much as possible. The result will be:
gcd(a, b) = gcd(b, a%b)
The algorithm of gcd(a, b) stops when b=0, and the answer is a.
Euclidean Algorithm Realization
Let x and y be the solution of equation ax+by = gcd(a,b) and x1 and y1 are soltion for gcd(b, a%b) = b * x1+a%b*y1. After changing we'll get that `gcd(b, a%b) = b * x1+a%by1 = bx1 + (a - b*a//b)y1 = ay1 + b(x1-a//by1).
Since gcd(a,b) = gcd(b, a%b), multipliers near a and b are equal, so:
x = y1
y = x1-a//b*y1.
We'll use this fact in the algorithm.
Swipe to start coding
Complete the Euclidean Algorithm and test it.
Solución
Cambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones¡Gracias por tus comentarios!
Cambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones