Different answers for the same algorithm

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farah fadel am 20 Mär. 2020

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Kommentiert: farah fadel am 28 Mär. 2020

I am getting different values of the width upon calling the findwidth function or writing its algorithm (exactly the same) in the main script. Is there a reason to justify that and know what is true?

The main script looks like this:

for i=1:10
    :
for j=1:13
for p=1:length(c1)
     : 
  
  P1new=[P11(concavev(i):n,:);P11(1:c1(p),:)];
    width(i,j,p)=findwidth(P1new)
end
end
end
%the width function :
function width=findwidth(P11)
[k,av] = convhull(P11);
CP=[P11(k,1),P11(k,2)];
for x=1:(length(CP)-1)
   z=1:(length(CP)-1);
   for  z=1:(length(CP)-1); 
  D(x,z)=Seg_point_dis(CP(z,:),CP(z+1,:),CP(x,:))
   end
  end
  D1=max(D,[],2)    
width=min(D1);
end

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farah fadel am 23 Mär. 2020

Bearbeitet: farah fadel am 26 Mär. 2020

%The purpose of this code is to decompose a polygon into two polygones
P11=[0.45 0.75;2.37 1.49;4.15 0.32;3.63 1.48;5.58 1.78;7.45 3.21;6.12 3.58;4.75 6.15;4.32 5.94;3.75 4.55;2.45 6.44;1.55 5.45;2.51 3.67;0.45 0.75]
n=length(P11)-1;%closed polygon
[ncc,concavev]=CheckConcavity(P11);%check the number of convex polygons(ncc) and their location (concavev)
%in the above given polygon ncc=5,n=13,concavev=[2;4;7;10;13]
for i=1:ncc %iterate over the number of concave vertices
    for j=1:n%iterate over all the edges
     
    e(j,:)=P11(j,:)-P11(j+1,:);%calcualting the edges of the polygon
    a(j)=e(j,2)/e(j,1);%slope of the edges
    b(j)=bin(P11(concavev(i),1),P11(concavev(i),2),a(j)) ;%intercept of the edges
    pp = [a(j),b(j)]; %1st line represent an edge
        % 2nd line represent the drawn from the concave vertex, and parallel to the edge
        for k=setdiff(1:n,[concavev(i),(concavev(i)-1)]) 
        x2 = [P11(k) P11(k+1)];
        y2 = [P11(k,2) P11(k+1,2)];
        %fit linear polynomial
        p2= polyfit(x2,y2,1);
        %calculate intersection of the twolines
        x_intersect(k) = fzero(@(x) polyval(pp-p2,x),1);
        y_intersect(k) = polyval(p2,x_intersect(k));
        %these intersections are the possible options to decompose the polygon at
        xi(j,k)=x_intersect(k);  yi(j,k)=y_intersect(k);
        end
       
        [n1,c1] =find(xi(j,:))%finding the nonzero terms, place where intersection took place  
        for p=1:length(c1)%number of intersection per edge
        P1(p,:)=[xi(j,c1(p)),yi(j,c1(p))];
          if c1(p)<concavev(i)
            P1new=[P11(concavev(i):n,:);P11(1:c1(p),:);P1(p,:);P11(concavev(i),:)];%decompsed polygon
          end
  %now we need to calculate the width of all possible polygons we could get to choose the one with min width 
[k1,av] = convhull(P1new);%calculate the convexhull of the pollygon
CP=[P1new(k1,1),P1new(k1,2)];%define the new convex polygon
for x=1:(size(CP,2)-1)%vertex
   for  z=1:(size(CP,2)-1) %edge
  D(x,z)=Seg_point_dis(CP(z,:),CP(z+1,:),CP(x,:));
  %finding all the possible distances between the vertices and the edges combination
   end
end
  D1=max(D,[],2) ;%The maximum dis btwn vertex and edge spans the polygon
width1=min(D1);% the width will be the maximum Span
          
            widthmethod2(i,j,p)=width1%from script
            widthmethod1(i,j,p)=findwidth(P1new)%from function
        end
    end
end

farah fadel am 27 Mär. 2020

Done, thank you

Guillaume am 27 Mär. 2020

I've only checked the first few lines of your code and stopped at CheckConc.

You're still using length on a 2-column matrix (both in the script and in CheckConc. I recommend that you never use length. For a vector, use numel. For a matrix, use size and explicitly specify which dimension you want to know the size of, rather than assuming that length will return the size of the dimension you are hoping for. So, use size(P1, 1) and size(v, 1)

The reason I stopped at CheckConc is that the function is wrong. It only performs N-1 checks for a N sided polygon so is missing one vertex in the concavity check. I've not tried to understand the math you're doing. There are more efficient algorithm to check that concavity. See stackoverflow and math.stackexhange. If you're guaranteed that your polygon is not self-intersecting that latter one would be best. It can be implemented without any loop in matlab.

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Antworten (1)

Aditya Patil am 27 Mär. 2020

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Direkter Link zu dieser Antwort

https://de.mathworks.com/matlabcentral/answers/511945-different-answers-for-the-same-algorithm#answer_422280

Inside findwidth function, you have modified the variable D, which is a global variable. This creates the issue.

Instead, pass D as a parameter to the function, as follows ( parameter named E in the code below)

function width=findwidth(P11,ncc, E) 
    if ncc~=0 
        [k1,av] = convhull(P11); 
        CP=[P11(k1,1),P11(k1,2)]; 
    else 
        CP=P11; 
    end 
    for q=1:(length(CP)-1)%:(length(CP)-1) 
        for  z=1:(length(CP)-1)  
            E(q,z)=Seg_point_dis(CP(z,:),CP(z+1,:),CP(q,:)); 
        end 
    end 
    D1=max(E,[],2) ; 
    width=min(D1); 
end 