clear clc city_coord=[60 50; 40 30; 35 15; 80 50; 10 10]; if_path=[0 1 0 0 0; 1 0 1 0 1; 0 1 0 1 1; 0 0 1 0 0; 0 1 1 0 0]; cities={'1' '2' '3' '4' '5'}; s=size(city_coord,1); distances=zeros(s); for i=1:s for j=1:s distances(i,j)=sqrt((city_coord(i,1)-city_coord(j,1))^2+(city_coord(i,2)-city_coord(j,2))^2); end end dist_matr=round(distances); % dist_matr=round(10*distances); from_city=input('Start town (1-5): '); to_city=input('End town (1-5): '); if from_city == to_city disp(' ') disp('Start city = Destination city, no need to travel.') disp(' ') return end current_distance = dist_matr(from_city,to_city); current_city = from_city; travel_path=[current_city]; % travel_path_cities=[cities(current_city)]; step_counter=0; % dist_so_far=0; while (current_distance ~= 0 && step_counter~=8) step_counter=step_counter+1; x=find(if_path(current_city,:)); y=[]; for i=1:numel(x) p=dist_matr(x(i),to_city); y=[y p]; end [a b]=min(y); % dist_so_far=dist_so_far+dist_matr(current_city,x); current_city=x(b); current_distance=dist_matr(current_city,to_city); travel_path=[travel_path,current_city]; % travel_path_cities=[travel_path_cities, cities(current_city)]; end travel_path if step_counter==8 disp(' ') disp('I am too greedy to find a solution.') disp(' ') end