function [eqn,insigs,innames] = junction_seqn (jun_type,Name, outsig, \ insigs, innames) ## usage: [eqn,insigs] = junction_seqn (jun_type,Name, outport, outsig, \ ## insigs) ## ## ## Junctions ## Sanity check N = mtt_check_sigs (outsig,insigs); outport = outsig(3); ## Setup up causality corresponding to junction if jun_type=="0" i_jun_type = 1; elseif jun_type=="1" i_jun_type = -1; else error("Junction type %s unknown", jun_type) endif ## Is output same causality as junction? same_type = outsig(2)==i_jun_type; ## LHS eqn = sprintf("%s :=", varname(Name, abs(outsig(1)), outsig(2))); ## Find the input bond of the same causality as junction one = ones(N,1); inport = find(insigs(:,2)==i_jun_type*one); ##RHS if same_type insig = insigs(inport,:); inname = innames(inport,:); eqn = sprintf("%s\n\t%s", eqn, varname(Name, abs(insigs(inport,1)),i_jun_type)); else insig=[]; inname=""; inports = []; out_dir = sign(insigs(inport,1)); for i=1:N if i!=inport in_dir = sign(insigs(i,1)); plusminus = sign2name(-in_dir*out_dir); eqn = sprintf("%s\n\t%s%s", eqn, plusminus, varname(Name, \ abs(insigs(i,1)), -i_jun_type)); insig = [insig; insigs(i,:)]; inname = [inname; innames(i,:)]; endif endfor endif eqn = sprintf("%s;", eqn); insigs = insig; innames = inname; endfunction