lcm
least common (positive) multiple of integers or of polynomials
Syntax
pp = lcm(p) [pp, fact] = lcm(p)
Arguments
- p
matrix of polynomials (type 2), or of decimal or encoded integers (types 1 or 8).
- pp
a polynomial or a decimal integer: Positive Least Common Multiple of
p
components.- fact
matrix of polynomials, or of decimal integers (type 1), with the size of
p
, such thatfact(i)= pp./p(i)
.
Description
pp=lcm(p)
computes the LCM pp
of p
components.
If p
are polynomials, pp
is a polynomial and
fact
is also a matrix of polynomials.
If p
is a set of integers,
- if they are encoded integers, they are then converted into decimal integers before processing.
- Any int64 or uint64 input |integers| > 2^53 will be truncated and lcm() will return a wrong result.
- If some of them are negative, the returned value
pp
of their LCM is always positive.
The least common multiple of an array p
of real numbers can be
obtained by converting it to a polynomial before calling lcm
,
through p = inv_coeff(p, 0)
.
Examples
With polynomials:
s = %s; p = [s , s*(s+1) , s^2-1] [pp, fact] = lcm(p) p .* fact == pp
--> p = [s , s*(s+1) , s^2-1] p = 2 2 s s +s -1 +s --> [pp, fact] = lcm(p) fact = 2 -1 +s -1 +s s pp = 3 -s +s --> p .* fact == pp ans = T T T
With encoded integers:
// Prime numbers: 2 3 5 7 11 13 17 19 23 29 31 37 41 43 47 V = int16([2*3 3*7 ; 7*5 3*5]) [pp, fact] = lcm(V)
--> V = int16([2*3 3*7 ; 7*5 3*5]) V = 6 21 35 15 --> [pp, fact] = lcm(V) pp = 210. fact = 35. 10. 6. 14.
With decimal integers:
V = [2*3 3*7 ; 7*5 3*5] [pp, fact] = lcm(V)
With big integers:
V = [3*2^51 , 3*5] [pp, fact] = lcm(V) // OK
--> V = [3*2^51 , 3*5] V = 6.755D+15 15. --> [pp, fact] = lcm(V) fact = 5. 2.252D+15 pp = 3.378D+16
When the numerical encoding is overflown, truncature occurs and results turn wrong:
V = [3*2^52 , 3*5] [pp, fact] = lcm(V)
--> V = [3*2^52 , 3*5] V = 1.351D+16 15. --> [pp, fact] = lcm(V) fact = 15. 1.351D+16 pp = 2.027D+17
See also
History
バージョン | 記述 |
6.0.1 | For input integers possibly negative, the returned LCM is now always positive. |
6.0.2 |
|
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