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gcd
Greatest Common Divisor
Calling Sequence
[pgcd, U] = gcd(p)
Arguments
- p
a polynomial row vector
p = [p1, ..., pn]
(type equal to 2) or an integer row vector (type equal to 1 or 8).- pgcd
vector of the same type as
p
- U
matrix of the same type as
p
Description
[pgcd, U] = gcd(p)
computes the gcd of components of p
(pgcd
) and a
unimodular matrix (with polynomial inverse) U
, with minimal degree such that
p*U = [0 ... 0 pgcd]
.
In mathematics, a unimodular matrix
U
is a square integer matrix having
determinant +1
or -1
.
The greatest common divisor of an array p
of real numbersof real numbers can be obtained by
converting it to a polynomial before calling gcd
, through p = inv_coeff(p, 0)
.
If p
is given as an integer double (type 1), then it is treated as an int32
.
Examples
// Polynomial case s = %s; p = [s s*(s+1)^2 2*s^2+s^3]; [pgcd,u] = gcd(p); p*u // Integer case V = int32([2^2*3^5 2^3*3^2 2^2*3^4*5]); [thegcd,U] = gcd(V) V*U // Double case V = [2^2*3^5 2^3*3^2 2^2*3^4*5]; [thegcd,U] = gcd(V) V*U gcd(uint8([15 20])) gcd([iconvert(15, 4) iconvert(20, 4)]) gcd(iconvert([15 20], 4))
See Also
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