# All possible path from starting node to ending node

I have a weighted graph with user defined number of nodes 'n'.I want a code that, given two unique nodes in the graph, that will display all the paths connecting the two nodes . Graph Example

``````wt=zeros(n,n);
while(1)
i=input('enter the starting node:(0 to quit):');
if (i==0)
break;
end
j=input('enter the destination node:');
wt(i,j)=input('Enter the cost: ');
end
for i=1:n
fprintf('           %d',i);
end
for i=1:n
fprintf('\n%d          ',i);
for j=1:n
fprintf('%d          ',wt(i,j));
end
end
1           2           3           4           5
1          0          1          1          0          0
2          0          0          0          0          0
3          1          0          0          1          0
4          0          0          1          0          0
5          0          0          0          0          0
``````

the matrix wt shows the connection between any two given nodes. this means node (1,2) (1,3) (3,4) (4,3) are connected.

``````fprintf('\nEnter the source');
s=input(':');
fprintf('\nEnter the destination');
de=input(':');

for i=1:n
m=s;
if(m~=i)
for j=i:n
if(m~=j)
if(M(m,j)>0)
p(i,j)=j;
m=j;
end
end
if(p(i,j)==de)
d(i)=1;
break;
end
end
if(d(i)~=1)
for k=1:j
p(i,k)=0;
end
m=s;
for k=n : -1 : i
if(M(m,k)>0)
p(i,n-k+2)=k;
m=k;
end
if(p(i,n-k+2)==de)
d(i)=1;
break;
end
end
end
end
end

for i=1:n
j=1;
if(d(i)==1)
for j=1:n
if (j==1)
fprintf('\n path: %d',s);
kk=s;

elseif (p(i,j)>0)
fprintf('->%d',p(i,j));

plot([nodes(kk, 2) nodes(p(i,j), 2)], [nodes(kk, 3) nodes(p(i,j), 3)], 'k.--')
kk=p(i,j);
end
end
end
fprintf('\t\t hopcount of path %d:  %d',i,count);
count=0;
end
``````

This is the code i have written to find the possible paths from the source to destination. 'p' matrix holds the final path from the source to the destination. OUTPUT:

`````` enter the starting node:(0 to quit):1
enter the destination node:2
Enter the cost: 1
enter the starting node:(0 to quit):1
enter the destination node:3
Enter the cost: 1
enter the starting node:(0 to quit):2
enter the destination node:3
Enter the cost: 1
enter the starting node:(0 to quit):0

Enter the source:1

Enter the destination:3

hopcount of path 1:  0
path 2: 1->2->3         hopcount of path 2:  2
path 3: 1->3        hopcount of path 3:  1???
Attempt to reference field of      non-structure array.
``````

if i give my input for source as 3 and destination as 1 the code does not work.

-
Pro tip: get more familiar with MATLAB. There are a lot of commands in its arsenal that can be applied to entire matrices at once, loops are usually not the right way to go. –  Eitan T Mar 20 '13 at 14:41
@EitanT: I am new to matlab. Is there any other way i can implement this? The inputs are entered by the user dynamically. –  Annie Sharon Mar 20 '13 at 14:47
@AnnieSharon If you're new to MATLAB, then I suggest that you introduce yourself to it by taking on a less complicated task first. There are plenty of online tutorials here. I also suggest that you indent your code properly so that everyone can identify nested loops with ease. By the way, why aren't you using the tool that I had suggested to you in my answer to your previous question (the same tool that Griffin has suggest you here)? –  Eitan T Mar 20 '13 at 14:50
@EitanT: in tat code they are working with the co ordinates of the nodes in a 2D graph. The code which you sent for the modified matrix works. That matrix only i have to give as input the loop to find the path. –  Annie Sharon Mar 20 '13 at 15:10

Here's a better-vectorized approach (I'm assuming you can't cross the same node twice). You want to minimize your nested for-loops as much as possible. Use vector-and-matrix operations wherever possible.

The idea is to build a list of all the paths and simultaneously add all possible next nodes onto each element in the list. This function returns a Mx2 cell array where M is the longest (most nodes visited) path. Each cell in the first column contains a matrix where every row is a distinct path of length i. Each cell in the second column contains a column vector with the corresponding costs of each path.

``````function [paths] = allpaths(wt, startnode, endnode)
lastpath = [startnode]; #We begin with the path containing just the startnode
costs = [0]; #The cost of this path is zero because we haven't yet crossed any edges
paths = {zeros(0,1),zeros(0,1)}; #The set of solution paths is empty (I'm assuming startnode!=endnode)
N = size(wt,1); #Obtain the number of nodes in the graph
assert(N==size(wt,2)); #Assert that the adjacency matrix is a square matrix
for i = 2 : N
#Creates a matrix with a row for each path and a 1 in a column where there's a possible move from the last visited node in a path to this column
nextmove = wt(lastpath(:, i - 1), :) != 0;

#Zero out any nodes we've already visited
d = diag(1:size(lastpath,1));
nrows = d * ones(size(lastpath));
inds = sub2ind(size(nextmove), reshape(nrows,[],1), reshape(lastpath,[],1));
nextmove(inds) = false;

# If there are no more available moves we're done
if nextmove == 0
break;
endif

#For each true entry in our nextmove matrix, create a new path from the old one together with the selected next move
nextmoverow = d * nextmove;
nextmovecol = nextmove * diag(1:N);
rowlist = reshape(nonzeros(nextmoverow),[],1);
collist = reshape(nonzeros(nextmovecol),[],1);
nextpath = [lastpath(rowlist,:), collist];

# Compute the costs of the new set of paths by adding the old ones to the cost of each newly traversed edge
inds = sub2ind([N,N],nextpath(:, i-1),nextpath(:,i));
costs = costs(rowlist) + wt(inds);

# For any path finishing on the end node, add it to the return list (and it's corresponding cost)
reachedend = nextpath(:,i) == endnode;
paths = [paths; {nextpath(reachedend, :)},{costs(reachedend)}];

#Then remove it from the list of paths still being explored
lastpath = nextpath(~reachedend, :);
costs = costs(~reachedend);

#If there are no more paths, we're done
if isempty(lastpath)
break;
endif
endfor
endfunction

paths = allpaths(wt, startnode, endnode);
for i = 1:size(paths,1)
mpath = paths{i,1};
mcost = paths{i,2};
for j = 1:length(mcost)
p = mpath(j,:);
first = true;
for n = p
if first
first = false;
else
printf(' -> ');
endif
printf('%d', n);
endfor
printf('  cost: %d\n',mcost(j));
endfor
endfor
``````

EDIT: Added how to print the path

-
how to view the path? –  Annie Sharon Mar 21 '13 at 14:15
I don't know how to graphically display the paths. You can do that however you wish. This is just code to generate a list of all possible paths and their costs. –  dspyz Mar 21 '13 at 20:44
the matrix was not displayed. how to view the elements in the matrix? –  Annie Sharon Mar 23 '13 at 7:24
:i dont want a graph. in this code we have to go to the workspace and view the output right? can we just print the paths in the command window itself? –  Annie Sharon Mar 27 '13 at 7:15
Yes, just don't put a ';' after the function call and it will print out to the command window. I don't understand what the problem is. –  dspyz Mar 27 '13 at 16:23