how to overcome error: Index in position 1 is invalid. Array indices must be positive integers or logical values.
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Putri Basenda Tarigan
on 26 Nov 2020
Commented: Pier Giorgio Petrolini
on 26 Nov 2020
Hello everyone
Seems I can't fix my problem
I have code like this:
alpha=0.1:0.1:1;
a=[1 2 3 4 5 6];
u=[1 3 3 3 2 1];
op=[3 3 3 3 3 3];
act=numel(a);
d=cumsum(u);
n=length(alpha)*d(act);
o=3;
B=zeros(n,(3+(o*max(op)))); % I want to store all my result in this matrix
then I have calculation like:
for z=alpha
for i=1:act
for j=1:u(i)
options=zeros(1,o*(op(i))); % I want to store the result of my calculation for each iteration in this matrix
for k=1:op(i)
r=a(i)-(u(i)-j+1)*op(i)+k;
t=1;
c=2;
q=3; % t,c,q is my calculation. actually it was so long, so I just simplify it here
options(1,((o*(k-1)+1):(o*k)))=[t c q];
end
e=z*10
e=e*d(act)-d(act)+d(i)-u(i)+j;
B(e,1)=z;
B(e,2)=i;
B(e,3)=j;
B(e,4:end)=options;
end
end
end
B
I want to get matrix B.
but for this code, I got error for
Index in position 1 is invalid. Array indices must be positive integers or logical values.
Error in (line 27)
B(e,1)=z;
it stops when the alpha is 0.3
Please help.
Thank you
0 Comments
Accepted Answer
Pier Giorgio Petrolini
on 26 Nov 2020
Hello, the problem is basically that the variable "e" after calculations has some decimals (zeros), and you can't use it as it is for indexing because index should be integers.
Try to rewrite the code by adding the command "int64" as follow:
....
e=z*10
e=int64(e*d(act)-d(act)+d(i)-u(i)+j);
B(e,1)=z;
....
I hope it helps, let me know!
Kind regards,
PGP
2 Comments
More Answers (1)
Walter Roberson
on 26 Nov 2020
alpha=0.1:0.1:1;
When you multiply by 10 you do not always get integers. 0.1 does not have an exact representation in finite binary, and the error adds up.
You can round(e) but there are better ways.
2 Comments
Walter Roberson
on 26 Nov 2020
for zidx = 1 : numel(alpha)
z = alpha(zidx);
for i=1:act
for j=1:u(i)
options=zeros(1,o*(op(i))); % I want to store the result of my calculation for each iteration in this matrix
for k=1:op(i)
r=a(i)-(u(i)-j+1)*op(i)+k;
t=1;
c=2;
q=3; % t,c,q is my calculation. actually it was so long, so I just simplify it here
options(1,((o*(k-1)+1):(o*k)))=[t c q];
end
e = zidx;
e=e*d(act)-d(act)+d(i)-u(i)+j;
B(e,1)=z;
B(e,2)=i;
B(e,3)=j;
B(e,4:end)=options;
end
end
end
B
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