If you are aware about the DH parameters for your robot, you can assemble a rigidBodyTree and use the getTransform function on the tree which provides the pose of a rigidBody on the tree with respect to the tree's base body. The tree doesn't limit the number of bodies (links) or joints you can add to it.
The following example in the MathWorks Documentation: https://www.mathworks.com/help/robotics/ug/build-manipulator-robot-using-kinematic-dh-parameters.html goes through this in great detail. Here are some snippets from that example that show how to use the setFixedTransform to specify the DH parameters of a rigidBodyJoint while assembling the rigidBodyTree representing a robot.
robot=rigidBodyTree(DataFormat="row");
dhparams = [0 pi/2 0 0;
0.4318 0 0 0
0.0203 -pi/2 0.15005 0;
0 pi/2 0.4318 0;
0 -pi/2 0 0;
0 0 0 0];
bodies = cell(6,1);
joints = cell(6,1);
for i = 1:6
bodies{i} = rigidBody(['body' num2str(i)]);
joints{i} = rigidBodyJoint(['jnt' num2str(i)],"revolute");
setFixedTransform(joints{i},dhparams(i,:),"dh");
bodies{i}.Joint = joints{i};
if i == 1 % Add first body to base
addBody(robot,bodies{i},"base")
else % Add current body to previous body by name
addBody(robot,bodies{i},bodies{i-1}.Name)
end
end
showdetails(robot)
% Find the pose (4-by-4 homogeneous transformation matrix) of 'body6' with
% respect to the 'base' if the first joint position is pi/2 rad, fifth joint is at -pi/4 rad,
% and the rest are zero radians.
q=[pi/2,0,0,0,-pi/4,0];
disp(q)
Hbase_body6=getTransform(robot,q,'body6');
disp(Hbase_body6)
show(robot,q);
