Problem with unique command
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Davoud
el 10 de Mzo. de 2019
Comentada: Raghunandan V
el 12 de Mzo. de 2019
Hello guys. I have a problem with unique command in the following simplified code. The problems are in the 4th iteration as the values of G aren't correct, IC values aren't the repetitions of IA and the resulted Good_path1 isn't a 16*4 matrix. However, the problems are resolved if the position of loops of alpha and beta is changed with the loop of s. Sorry for a lenghy code. I really appreciated if someone help me to solve the problem.
n_c_1=1;
thr_Wght=1e-50;
M=2;
TGponts_1=4;
% &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
K1_1 =[0.0552 - 0.1423i, -0.0145 - 0.1465i, -0.0652 - 0.1285i];
K01_1 = 0.0245 - 0.1175i;
% &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
Good_path=[0 0 0 0; 0 0 1 0; 1 0 0 0; 1 0 1 0];
R2=[0.9983 + 0.0000i 0.0047 + 0.0399i 0.0047 - 0.0400i 0.0017 + 0.0000i];
n_c1_1=n_c_1+1; n_c2_1=2*n_c_1;
L_1=2*(n_c1_1);
for n=3:TGponts_1
if n>n_c1_1
Good_path(:,n_c1_1)=[];
Good_path(:,L_1-1)=[];
% Good_path
[Dis_Good_path,IA,IC]=unique(Good_path,'rows','stable');
Dis_R2=zeros(length(IA),1);
for i=1:length(IA)
G=find(IC==IA(i));
G
Dis_R2(i)=sum(R2(G));
end
Good_path=Dis_Good_path
R2=Dis_R2
end
h=size(Good_path);
h1=h(1);
q=0;
nn_1=n-1; nn_2=2*n-2;
s1=M.^2*h1;
if n<=n_c1_1
s2=2*n;
Good_path1=zeros(s1,s2);
else
Good_path1=zeros(s1,L_1);
end
R=zeros(1,s1);
for alpha=0:1
for beta=0:1
for s=1:h1
if (alpha==0 && beta==0) || (alpha==1 && beta==1)
T3=1;
else
Self_int=-(alpha-beta).*(K01_1.*alpha-conj(K01_1).*beta);
%%&&&&&&&&&&&&&&&&&&&&&&&
if n<=n_c1_1
Sum_nlocl_int=0;
for m=n-1:1
a_prim=Good_path(s,m);
b_prim=Good_path(s,n-1+m);
nlocl_int=(K1_1(m).*a_prim-conj(K1_1(m)).*b_prim);
Sum_nlocl_int=Sum_nlocl_int+nlocl_int;
end
else
Sum_nlocl_int=0;
for mm=n_c_1:1
a_prim=Good_path(s,mm);
b_prim=Good_path(s,n_c_1+mm);
nlocl_int=(K1_1(mm).*a_prim-conj(K1_1(mm)).*b_prim);
Sum_nlocl_int=Sum_nlocl_int+nlocl_int;
end
end
Sum_nlocl_int=-(alpha-beta).*Sum_nlocl_int;
T3=exp(Self_int+Sum_nlocl_int);
end
R3=T3*R2(s);
%&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
p=abs(R3);
if p>thr_Wght
q=q+1;
if n<=n_c1_1
Good_path1(q,:)=[alpha,Good_path(s,1:nn_1),beta,Good_path(s,n:nn_2)];
else
Good_path1(q,:)=[alpha,Good_path(s,1:n_c_1),beta,Good_path(s,n_c1_1:n_c2_1)];
end
R(q)=R3;
end
end
end
end
%&&&&&&&&&&&&&&&&&&&&&&&&&&&&
Good_path1(q+1:s1,:)=[];
R(q+1:s1)=[];
Good_path=Good_path1
R2=R;
end
2 comentarios
Geoff Hayes
el 10 de Mzo. de 2019
Davoud - please clarify what you mean by in the 4th iteration as the values of G aren't correct? What are you expecting the values to be?
Respuesta aceptada
Raghunandan V
el 11 de Mzo. de 2019
Hi,
I think there is a confusion between the functions of IA and IC.
lets consider an example
A = [9 2 9 5];
[C, ia, ic] = unique(A,'stable')
the solution is
C = 1×3
9 2 5 (this is the matrix output expected)
ia = 3×1
1 (here 1 refers to the index of the matrix A which is placed in matrix C in index 1)
2 (here 2 refers to the index of the matrix A which is placed in matrix C in index 2)
4 (here 4 refers to the index of the matrix A which is placed in matrix C in index 3)
ic = 4×1
1 (here 1 says that the 1st element of the matrix A is the first element of Matrix C)
2 (here 2 says that the 2nd element of the matrix A is the second element of Matrix C)
1 (here 1 says that the 3rd element of the matrix A is the first element of Matrix C)
3 (here 3 says that the 4th element of the matrix A is the third element of Matrix C)
I am not able to understand what you are doing with the code. The code is very confusing. Please add some comments such that other people can understand.
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