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Storing elements of product in a row matrix and extracting the nonzero elements

4 vues (au cours des 30 derniers jours)
SM
SM le 30 Mai 2022
Commenté : Stephen23 le 30 Mai 2022
I have three row matrices x,y and z and I need to store the product of each element in a row matrix. For eg: x=[x1 x2 x3], y=[y1 y2 y3],z=[z1 z2 z3]. Then n is a matrix such that n=[x1*y1*z1 x1*y1*z2 x1*y1*z3 x1*y2*z1 x1*y2*z2 x1*y2*z3 ...x3*y3*z3]. And then I have to form a row matrix which should store only the nonzero elements of n. I am unable to do this using hte following code. Kindly help:
clc;
clear all;
x=[0 1 0];
y=[ 0.3333 0.6667 0];
z=[0.7667 0.2333 0];
for i=1:3
for j=1:3
for k=1:3
n=x(i).*y(j).*z(k);
n1=reshape(n',1,[])
end
end
end

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Réponses (2)

Johan
Johan le 30 Mai 2022
Ran in:
The problem of your code is that you assign the results of your multiplaction to n, which mean that you will only store the last results of your for loop in n. To fix that you need to assign an array index to n(index) that increases after each loop cycle.
However, dot product directly multiplies matrices element-wise so you don't need for loops here:
a = [1 2 3];
b = [3 2 1];
a.*b
ans = 1×3
3 4 3
To extract nonzero element you can either use logical masking or the nonzeros function:
x=[0 1 0];
y=[ 0.3333 0.6667 0];
z=[0.7667 0.2333 0];
n=x.*y.*z
n = 1×3
0 0.1555 0
n_nozero=nonzeros(n)
n_nozero = 0.1555
  1 commentaire
SM
SM le 30 Mai 2022
Thanks for the input. I used for loops as I need to multiply each element of x with each elemnt of y and z. SO ultimately I need a 1x27 matrix consisting of all the product terms.

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Stephen23
Stephen23 le 30 Mai 2022
Ran in:
x = 1:3;
y = 4:6;
z = 7:9;
[X,Y,Z] = ndgrid(x,y,z);
A = nonzeros(X.*Y.*Z)
A = 27×1
28 56 84 35 70 105 42 84 126 32
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SM
SM le 30 Mai 2022
Thanks alot! but I need the n matrix for some other operations apart from the A(nonzeros matrix)
Stephen23
Stephen23 le 30 Mai 2022
"but I need the n matrix for some other operations apart from the A(nonzeros matrix)"
There is nothing stopping you from keeping both of them:
N = X.*Y.*Z;
N = N(:); % optional
A = nonzeros(N).';

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