combining matlab code to simulink

Question

Nkenna Amadi il 28 Lug 2018

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https://it.mathworks.com/matlabcentral/answers/412529-combining-matlab-code-to-simulink

Risposto: Aquatris il 30 Lug 2018

hi i have the following code. i want to be able to combine it with a simulink model, where the simulink model would provide a source to be connected to this code, the value from the source would be the variable called HCEx(which is already defined in the code as a random number) but i want to replace this value with a value from the simulink model.

Lx = 51; % Defines the size of the lattice . 
Ly = 51;
HCEx=120;
pt =HC7;
IM = zeros(Ly,Lx); % Initialization of the lattice
% IM(i,j)=2
nstop=0;
t =1;
tend =1; % Number of "time steps".
k = 1; % Counting index for front propagation . 
q = 1; % Counting index for image writing .
% Initial step. The invader starts from a "point" or a channel 
%IM(Ly,50)=1; % Point IP
IM(Ly,10)=1; % Channel IP
% Finds the indices of the largest element in a given row in pt and invades (=1) the corresponding element in IM
%Defining the Trap spill point
while tend==1 && nstop==0  
% Check if there are trapped clusters
IM=bwlabel(IM-1,4); % Labels defending clusters , by setting invader sites = 0.
IM=IM+1; % Keeps the labeling , and puts the invader sites = 1.
for i = 1:Ly
s = sort(IM(i,1:end)); % Sorts the ith row in ascending order. 
if s(1)==1 % Tests if the ith row contains an invader site .
for j = 1:Lx
bin = front(i-1,j, IM,Lx,Ly); % If the ith row contains an invader site , all the elements in the ith row are being tested in the function front to see if they are part of the front .
if bin==1
% pfront is the front matrix where the first column
% contains the probability and the second and third
% columns contain the corresponding indices for this front site.
pfront(k,1) = pt(i-1,j); 
pfront(k,2) = i-1; 
pfront(k,3) = j;
k = k+1;
end
end
end
end
% Probability  y-coordinate xcoordinate.
% Finds the row index of the smallest probability in pfront and invades (=1) the corresponding element in IM
e = find(pfront(:,1)==min(pfront(:,1))); 
IM(pfront(e,2),pfront(e,3)) = 1;
clear pfront 
k = 1;
% Put invader sites = 1, and defending sites = 0.
IM(IM~= 1)=0;
% The following lines saves the image for each iteration .
imagesc(IM),colorbar,drawnow
% The following lines saves the image for each iteration.
Vol=numel(IM==1);
if Vol>HCEx
    nstop=1
end
end
%Computes the total volume
function [bin] = front(a,b,IM,Lx,Ly)
% The site is part of the front if one of the neighboring sites is an invader.
if IM(a,b)~=IM(1,1) % Takes trapped clusters into account If the site % tested is not part of the large defending cluster it should not be counted as a front site .
bin=0;
elseif (b+1)==(Lx+1)
if (IM(a+1,b)==1)||(IM(a-1,b)==1)||(IM(a,b-1)==1) 
    bin = 1;
else
bin = 0;
end
elseif (b-1)==(1-1)
if (IM(a+1,b)==1)||(IM(a-1,b)==1)||(IM(a,b+1)==1)
    bin = 1;
else
bin = 0;
end
elseif (a+1)==(Ly+1)
if (IM(a-1,b)==1)||(IM(a,b+1)==1)||(IM(a,b-1)==1)
    bin = 1;
else
bin = 0;
end
elseif (a-1)==(1-1)
if (IM(a+1,b)==1)||(IM(a,b+1)==1)||(IM(a,b-1)==1) 
    bin = 1;
else
bin = 0;
end
else
if (IM(a+1,b)==1)||(IM(a-1,b)==1)||(IM(a,b+1)==1)||(IM(a,b-1)==1) 
    bin = 1;
else
bin = 0;
end
end
end