lwr_server/lwrserv/matlab/rvctools/robot/@CodeGenerator/genslblockinvdyn.m

%CODEGENERATOR.GENSLBLOCKINVDYN Generate Simulink block for inverse dynamics
%
% cGen.genslblockinvdyn() generates a robot-specific Simulink block to compute
% inverse dynamics.
%
% Notes::
% - Is called by CodeGenerator.geninvdyn if cGen has active flag genslblock
% - The generated Simulink block is composed of previously generated blocks
%   for the inertia matrix, coriolis matrix, vector of gravitational load and 
%   joint friction vector.% The block recombines these components to compute 
%   the forward dynamics.
% - The Simulink blocks are generated and stored in a robot specific block 
%   library cGen.slib in the directory cGen.basepath.
%
% Author::
%  Joern Malzahn
%  2012 RST, Technische Universitaet Dortmund, Germany.
%  http://www.rst.e-technik.tu-dortmund.de
%
% See also CodeGenerator.CodeGenerator, CodeGenerator.geninvdyn.

% Copyright (C) 2012-2013, by Joern Malzahn
%
% This file is part of The Robotics Toolbox for Matlab (RTB).
%
% RTB is free software: you can redistribute it and/or modify
% it under the terms of the GNU Lesser General Public License as published by
% the Free Software Foundation, either version 3 of the License, or
% (at your option) any later version.
%
% RTB is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
% GNU Lesser General Public License for more details.
%
% You should have received a copy of the GNU Leser General Public License
% along with RTB.  If not, see <http://www.gnu.org/licenses/>.
%
% http://www.petercorke.com
%
% The code generation module emerged during the work on a project funded by
% the German Research Foundation (DFG, BE1569/7-1). The authors gratefully 
% acknowledge the financial support.

function [ output_args ] = genslblockinvdyn( CGen )

%% Open or create block library
bdclose('all')                                                              % avoid problems with previously loaded libraries
load_system('simulink');
if ~(exist([CGen.slibpath,simulinkext]) == 2)                                  % Create new block library if none exists
 CGen.createnewblocklibrary;
end
checkexistanceofblocks(CGen);
open_system(CGen.slibpath);
set_param(CGen.slib,'lock','off');



%% Generate Inertia Block
CGen.logmsg([datestr(now),'\tGenerating Simulink Block for the inverse robot dynamics:\n']);
nJoints = CGen.rob.n;

CGen.logmsg([datestr(now),'\t\t... enclosing subsystem ']);
InvDynBlock = [CGen.slib,'/invdyn'];
if ~isempty(find_system(CGen.slib,'Name','invdyn'))                    % Delete previously generated inertia matrix block
    delete_block(InvDynBlock)
end
CGen.logmsg('\t%s\n',' done!');

% Subsystem in which individual rows are concatenated
CGen.logmsg([datestr(now),'\t\t... adding Simulink blocks for all components']);
add_block('built-in/SubSystem',InvDynBlock);                               % Add new inertia matrix block
add_block([CGen.slib,'/inertia'],[InvDynBlock,'/inertia']);
add_block([CGen.slib,'/coriolis'],[InvDynBlock,'/coriolis']);
add_block([CGen.slib,'/gravload'],[InvDynBlock,'/gravload']);
add_block([CGen.slib,'/friction'],[InvDynBlock,'/friction'])
add_block('Simulink/Sources/In1',[InvDynBlock,'/q']);
add_block('Simulink/Sources/In1',[InvDynBlock,'/qd']);
add_block('Simulink/Sources/In1',[InvDynBlock,'/qdd']);
add_block('Simulink/Sinks/Out1',[InvDynBlock,'/tau']);
add_block('built-in/Product',[InvDynBlock,'/inertiaTorque'],'multiplication','Matrix(*)');
add_block('built-in/Product',[InvDynBlock,'/coriolisTorque'],'multiplication','Matrix(*)');
add_block('built-in/Sum',[InvDynBlock,'/Sum'],'inputs','++++');
CGen.logmsg('\t%s\n',' done!');

% Connect individual Simulink blocks
CGen.logmsg([datestr(now),'\t\t... wiring']);
add_line(InvDynBlock,'q/1','inertia/1');
add_line(InvDynBlock,'q/1','coriolis/1');
add_line(InvDynBlock,'q/1','gravload/1');
add_line(InvDynBlock,'qd/1','coriolis/2');
add_line(InvDynBlock,'qd/1','friction/1');
add_line(InvDynBlock,'inertia/1','inertiaTorque/1');
add_line(InvDynBlock,'qdd/1','inertiaTorque/2');
add_line(InvDynBlock,'coriolis/1','coriolisTorque/1');
add_line(InvDynBlock,'qd/1','coriolisTorque/2');
add_line(InvDynBlock,'inertiaTorque/1','Sum/1');
add_line(InvDynBlock,'coriolisTorque/1','Sum/2');
add_line(InvDynBlock,'gravload/1','Sum/3');
add_line(InvDynBlock,'friction/1','Sum/4');
add_line(InvDynBlock,'Sum/1','tau/1');
distributeblocks(InvDynBlock);
CGen.logmsg('\t%s\n',' done!');

CGen.logmsg([datestr(now),'\tInverse dynamics block complete.\n']);

%% Cleanup
% Arrange blocks
distributeblocks(CGen.slib);

% Lock, save and close library
set_param(CGen.slib,'lock','on');
save_system(CGen.slib,CGen.slibpath);
close_system(CGen.slib);

end

function [] = checkexistanceofblocks(CGen)
open_system(CGen.slibpath);
if isempty(find_system(CGen.slib,'SearchDepth',1,'Name','inertia'))
    CGen.logmsg('\t\t%s\n','Inertia block not found! Generating:');
    CGen.genslblockinertia;
    open_system(CGen.slibpath);
end

if isempty(find_system(CGen.slib,'SearchDepth',1,'Name','coriolis'))
    CGen.logmsg('\t\t%s\n','Coriolis block not found! Generating:');
    CGen.genslblockcoriolis;
    open_system(CGen.slibpath);
end

if isempty(find_system(CGen.slib,'SearchDepth',1,'Name','gravload'))
    CGen.logmsg('\t\t%s\n','Gravload block not found! Generating:');
    CGen.genslblockgravload;
    open_system(CGen.slibpath);
end

if isempty(find_system(CGen.slib,'SearchDepth',1,'Name','friction'))
    CGen.logmsg('\t\t%s\n','Friction block not found! Generating:');
    CGen.genslblockfriction;
    open_system(CGen.slibpath);
end

end