# matlab draw a graph from the incidence matrix

Is there a way to draw a graph from the Incidence matrix. By graph I mean http://en.wikipedia.org/wiki/Graph_(mathematics) not a plot.

Up till now I found only how to convert incidence matrix to a adjacency matrix. In R this is possible with an `igraph` library. So is there an easy way to do it in matlab

You may use `gplot`:

``````k = 1:30;
[B,XY] = bucky;
gplot(B(k,k),XY(k,:),'-*')
axis square
``````

This function is commonly used in machine learning problems. While searching up I've seen an implementation for weighted graph plotting. http://www.mathworks.com/help/matlab/ref/gplot.html

EDIT:

``````dt = 2*pi/10;
t = dt:dt:2*pi;
x = cos(t); y = sin(t);
A = ones(10);
gplot(A,[x' y']);
A = ones(3,3);
gplot(A,[x' y']);
a = [0 1 1; 1 0 0; 1 1 0];
gplot(a,[x' y'] ,'-*');
``````

All you have to do is make sure the `XY` plane has sufficient (x,y) pairs for each node in your graph.

Here is A's `gplot`: GRAPHS WITH ARROWS

All the previous replies are dealing with graphs without taking into account if the graph is direct or not. I mean, it is possible that if there is an edge (i,j) the edge (j,i) is not there. To take into account this, through the following code:

``````% This figure will be used to plot the structure of the graph represented
% by the current A matrix.
figure

dt = 2*pi/N_robots;
t = dt:dt:2*pi;
x = cos(t); y = sin(t);

agents=[       2    2.5;
0.5  2.0;
0.5  1.0;
2.0  0.5;
3.5  1.0;
3.5  2.0;];

agents = p0;

agents = [x' y'];

% plot(agents(:,1),agents(:,2),'s','MarkerSize', 20, 'MarkerFaceColor', [1 0 1])
grid on
%xlim([0 4])
%ylim([0 3])
hold on
index=1;
% The following prints the non-directed graph corresponding to the A matrix
for i=1:N_robots
for j=index:N_robots
if A(i,j) == 1
arrowline(agents([i j],1),agents([i j],2),'arrowsize',600);
%             plot(agents([i j],1),agents([i j],2),'--','LineWidth',2.5);
end
end
end
set(gca,'FontSize',fontsize2)

title('Structure of the Graph','interpreter', 'latex','FontSize', 18)
``````

You can have the following result: This is working for sure for 6 agents for now. I didn't have time to test for a generic number of agents, but in principle it should work. You could use a different agents vector to do that.

Here is a solutionthat uses a matrix like your a

``````% Define a matrix A.
A = [0 1 1 0 ; 1 0 0 1 ; 1 0 0 1 ; 0 1 1 0];

% Draw a picture showing the connected nodes.
cla
subplot(1,2,1);
gplot(A,[0 1;1 1;0 0;1 0],'.-');
text([-0.2, 1.2 -0.2, 1.2],[1.2, 1.2, -.2, -.2],('1234')', ...
'HorizontalAlignment','center')
axis([-1 2 -1 2],'off')

% Draw a picture showing the adjacency matrix.
subplot(1,2,2);
xtemp=repmat(1:4,1,4);
ytemp=reshape(repmat(1:4,4,1),16,1)';
text(xtemp-.5,ytemp-.5,char('0'+A(:)),'HorizontalAlignment','center');
line([.25 0 0 .25 NaN 3.75 4 4 3.75],[0 0 4 4 NaN 0 0 4 4])
axis off tight
``````