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function [port_bonds, status] = abg2cbg(system_name, ...
system_type, full_name, ...
port_bonds,infofile)
% abg2cbg - acausal to causal bg conversion
%
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %%%%% Model Transformation Tools %%%%%
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Matlab function abg2cbg.m
% Acausal bond graph to causal bond graph: mfile format
% [bonds,status] = abg2cbg(system_name, system_type, full_name, port_bonds, infofile)
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %% Version control history
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %% $Id$
% %% $Log$
% %% Revision 1.8 1996/08/26 10:04:25 peterg
% %% Fixed error due to a line wrap.
% %%
% %%Revision 1.7 1996/08/16 12:58:58 peter
% %% Now does preferred causality of I and C.
% %% Revision 1.6 1996/08/09 08:27:29 peter
% %% Added a few deguging lines
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function [port_bonds, status] = abg2cbg(system_name, ...
system_type, full_name, ...
port_bonds, typefile, infofile)
% abg2cbg - acausal to causal bg conversion
%
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %%%%% Model Transformation Tools %%%%%
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Matlab function abg2cbg.m
% Acausal bond graph to causal bond graph: mfile format
% [bonds,status] = abg2cbg(system_name, system_type, full_name, port_bonds, infofile)
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %% Version control history
% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% %% $Id$
% %% $Log$
% %% Revision 1.9 1996/08/30 12:55:40 peter
% %% More heirachical stuff added.
% %%
% %% Revision 1.8 1996/08/26 10:04:25 peterg
% %% Fixed error due to a line wrap.
% %%
% %%Revision 1.7 1996/08/16 12:58:58 peter
% %% Now does preferred causality of I and C.
% %% Revision 1.6 1996/08/09 08:27:29 peter
% %% Added a few deguging lines
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if nargin<4
port_bonds = [];
end;
if nargin<5
infofile = 'stdout';
end;
% Create the (full) system name
if length(full_name)==0
full_name = system_name;
system_type = system_name;
else
full_name = [full_name, '_', system_name];
end;
fun_name = [system_type, '_abg']
% If no such function - then there is nothing to be done.
if exist(fun_name)~=2
mtt_info(['m-file ', fun_name, ' does not exist'], infofile);
bonds = [];
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if nargin<4
port_bonds = [];
end;
if nargin<5
infofile = 'stdout';
end;
% Create a file to contain shell commands which map subsystem types
% onto components
if strcmp(full_name, '') % Then at top level
fprintf(typefile, '# Commands to map types onto subsystems\n');
fprintf(typefile, '# File %s_type.sh\n', system_name);
fprintf(typefile, '# Generated by MTT on %s\n\n', date);
end;
full_name
length(full_name)
% Create the (full) system name
if strcmp(full_name, '')
full_name = system_name;
system_type = system_name;
else
full_name = [full_name, '_', system_name];
end;
% Add to file to contain shell commands which map subsystem types
% onto components
fprintf(typefile, '$1%s$2%s$3\n', system_type, full_name);
fun_name = [system_type, '_abg']
% If no such function - then there is nothing to be done.
if exist(fun_name)~=2
mtt_info(['m-file ', fun_name, ' does not exist'], infofile);
bonds = [];
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[n_port_bonds,columns] = size(port_bonds);
% Check compatibility - if ok copy port bonds to the internal bonds list.
if n_port_bonds~=n_ports
mtt_info(sprintf('%1.0f port bonds incompatible with %1.0f ports', ...
n_port_bonds, n_ports), infofile);
else % Copy the port bonds
for i = 1:n_ports
bonds(i,:) = port_bonds(i,:);
end;
end;
% Set initial status
status = -ones(n_components,1);
total = 2*n_bonds;
done = sum(sum(abs(bonds)))/total*100;
% Outer while loop sets preferred causality
ci_index=1;
while ci_index>0
old_done = inf;
% Inner loop propogates causality
while done~=old_done
disp(sprintf('Causality is %3.0f%s complete.', done, pc));
old_done = done;
for i = 1:n_components
if status(i) ~= 0 % only do this if causality not yet complete
comp = nozeros(components(i,:));
bond_list = abs(comp);
direction = sign(comp)'*[1 1];
% Convert from arrow orientated to component orientated causality
comp_bonds = bonds(bond_list,:).*direction;
eval([ '[comp_type,name,cr,arg] = ', system_type, '_cmp(i);' ]);
% change name of 0 and 1 components -- matlab doesn't like numbers here
if strcmp(comp_type,'0')
comp_type = 'zero';
end;
if strcmp(comp_type,'1')
comp_type = 'one';
end;
% Component causality procedure name
cause_name = [comp_type, '_cause'];
infofile);
status(i)=max(abs(s));
else % its a simple component
disp(['---', name, ' (', cause_name, ') ---']);
% comp_bonds
eval([ '[comp_bonds,status(i)] = ', cause_name, '(comp_bonds);' ]);
% comp_bonds
end;
% Update the full bonds list
% and convert from component orientated to arrow orientated causality
bonds(bond_list,:) = comp_bonds.*direction;
end;
end;
done = sum(sum(abs(bonds)))/total*100;
% mtt_info(sprintf('Causality is %3.0f%s complete.', done, pc), infofile);
end;
% Set causality of C and I which is not set
[ci_index,prefered] = getdynamic(status,system_type);
if ci_index>0
bond_index = components(ci_index,1) % its a one port
bonds(bond_index,1) = prefered;
bonds(bond_index,2) = prefered;
end;
end;
% Print final causality
final_done = (sum(status==zeros(n_components,1))/n_components)*100;;
mtt_info(sprintf('Final causality is %3.0f%s complete.', final_done, pc), infofile);
% List overcausal bonds
[over_causal_bonds,n] = getindex(status,1);
if n>0
for i=over_causal_bonds'
eval([ '[comp_type,name] = ', system_type, '_cmp(i);' ]);
mtt_info(sprintf('Component %s (%s) is overcausal', name, comp_type), ...
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[n_port_bonds,columns] = size(port_bonds);
% Check compatibility - if ok copy port bonds to the internal bonds list.
if n_port_bonds~=n_ports
mtt_info(sprintf('%1.0f port bonds incompatible with %1.0f ports', ...
n_port_bonds, n_ports), infofile);
else % Copy the port bonds
for i = 1:n_ports % The port SSs come first
j = abs(components(i,1)); % Get the bonds attached to the ports
direction = -sign(components(i,1));
bonds(j,:) = direction*port_bonds(i,:);
end;
end;
% Set initial status
status = -ones(n_components,1);
total = 2*n_bonds;
done = sum(sum(abs(bonds)))/total*100;
% Outer while loop sets preferred causality
ci_index=1;
while( ci_index>0)
old_done = inf;
% Inner loop propogates causality
while done~=old_done
disp(sprintf('Causality is %3.0f%s complete.', done, pc));
old_done = done;
for i = 1:n_components
if status(i) ~= 0 % only do this if causality not yet complete
% Get the bonds on this component
comp = nozeros(components(i,:));
bond_list = abs(comp);
direction = sign(comp)'*[1 1];
% Convert from arrow orientated to component orientated causality
comp_bonds = bonds(bond_list,:).*direction;
% Get the component details
eval([ '[comp_type,name,cr,arg] = ', system_type, '_cmp(i);' ]);
% Change name of 0 and 1 components -- matlab doesn't like numbers here
if strcmp(comp_type,'0')
comp_type = 'zero';
end;
if strcmp(comp_type,'1')
comp_type = 'one';
end;
% Component causality procedure name
cause_name = [comp_type, '_cause'];
% Invoke the appropriate causality procedure
if exist(cause_name)~=2 % Try a compound component
[comp_bonds,s] = abg2cbg(name, comp_type, full_name, comp_bonds, ...
typefile, infofile);
% Create a single status from the status vector s
if max(abs(s)) == 0 % Causal
status(i) = 0;
else
if max(s) == 1 % At least one component is overcausal
status(i) = 1;
else % no component is overcausal but some are undercausal
status(i) = -1;
end;
end;
else % its a simple component
disp(['---', name, ' (', cause_name, ') ---']);
% comp_bonds
eval([ '[comp_bonds,status(i)] = ', cause_name, '(comp_bonds);' ]);
% comp_bonds
end;
% Update the full bonds list
% and convert from component orientated to arrow orientated causality
bonds(bond_list,:) = comp_bonds.*direction;
end;
end;
done = sum(sum(abs(bonds)))/total*100;
% mtt_info(sprintf('Causality is %3.0f%s complete.', done, pc), infofile);
end;
% Set causality of a C or I which is not already set
[ci_index,prefered] = getdynamic(status,system_type);
if ci_index>0
bond_index = components(ci_index,1) % its a one port
bonds(bond_index,1) = prefered;
bonds(bond_index,2) = prefered;
end;
end;
% Print final causality
final_done = (sum(status==zeros(n_components,1))/n_components)*100;;
mtt_info(sprintf('Final causality of %s is %3.0f%s complete.', ...
full_name, final_done, pc), infofile);
% List overcausal bonds
[over_causal_bonds,n] = getindex(status,1);
if n>0
for i=over_causal_bonds'
eval([ '[comp_type,name] = ', system_type, '_cmp(i);' ]);
mtt_info(sprintf('Component %s (%s) is overcausal', name, comp_type), ...
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for i=under_causal_bonds'
eval([ '[comp_type,name] = ', system_type, '_cmp(i);' ]);
mtt_info(sprintf('Component %s (%s) is undercausal', name, comp_type), ...
infofile);
end;
end;
file_name = [full_name, '_', system_type]
write_cbg(file_name,bonds,status);
% Return the port bonds
for i = 1:n_ports
port_bonds(i,:) = bonds(i,:);
end;
disp('----------------------');
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for i=under_causal_bonds'
eval([ '[comp_type,name] = ', system_type, '_cmp(i);' ]);
mtt_info(sprintf('Component %s (%s) is undercausal', name, comp_type), ...
infofile);
end;
end;
% $$$ file_name = [full_name, '_', system_type]
file_name = full_name;
write_cbg(file_name,system_type,bonds,status);
% Return the port bonds
for i = 1:n_ports % The port SSs come first
j = abs(components(i,1)); % Get the bonds attached to the ports
direction = -sign(components(i,1));
port_bonds(i,:) = direction*bonds(j,:);
end;
disp('----------------------');
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