How to get the Least common multiple of a fractional number
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for example:
>> lcm(8,20)
ans =
40
works
>> lcm(1.6,1)
doesn't work :(
2 commentaires
Réponses (4)
Kaixiang Wang
le 23 Août 2015
Inspired by one of the comments, actually you could do this with Symbolic toolbox.
x=sym(1.6);
y=sym(1);
lcm(x,y) % should give you the answer you want
2 commentaires
Walter Roberson
le 17 Mai 2017
Yes, sym() of a double precision value by default tries to represent the value as a rational value, looking for a good approximation -- for example it is able to figure out pi/2 as a multiple of sym('pi') . And once you have rational form then you can proceed towards lcm()
John D'Errico
le 13 Nov 2013
Modifié(e) : John D'Errico
le 13 Nov 2013
Actually, no, you cannot get that result.
The real problem is that MATLAB does not actually represent 1.6 as 1.6. Using my HPF tool, we find that 1.6 is actually stored as
hpf(1.6,60)
ans =
1.60000000000000008881784197001252323389053344726562500000000
Yep. Not exactly 1.6. Floating point storage in a binary form prevents storing most decimal numbers exactly.
In turn, this means that any algorithm that yields a LCM that works on integers will fail when looking for exact multiples of real numbers.
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Martin Grden
le 1 Mar 2024
A solution for more than two numbers. You need to split the fractions into two input vectors.
function result=lcm_e(numeratorVector,denominatorVector)
% horiz. vector args req.
z=denominatorVector;
if length(z)==2
lcmDenominatorVector=lcm(z(1),z(2));
else
lcmDenominatorVector=lcm(z(1), ilcm_e(z(2:end)));
end
z=(lcmDenominatorVector./denominatorVector).*numeratorVector;
if length(z)==2
lcmNumeratorVector=lcm(z(1),z(2));
else
lcmNumeratorVector=lcm(z(1), ilcm_e(z(2:end)));
end
result=lcmNumeratorVector/gcd(lcmNumeratorVector,lcmDenominatorVector);
function ierg=ilcm_e(z)
if length(z)==2
ierg=lcm(z(1),z(2));
else
ierg=lcm(z(1),ilcm_e(z(2:end)));
end
end
end
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