%SUMMARY cr generic CR
%DESCRIPTION Argument is an algebraic expression with no embeddedwhite space
%DESCRIPTION Only available for one ports just now
%DESCRIPTION effort (or integrated effort) variable must be called mtt_e
%DESCRIPTION flow (or integrated flow) variable must be called mtt_f
%DESCRIPTION For example:
%DESCRIPTION mtt_e=k*mtt_f
%DESCRIPTION mtt_f=mtt_e/r
% $Log$
% Revision 1.4 2000/12/28 09:18:38 peterg
% put under RCS
%
% Revision 1.3 2000/10/05 10:13:00 peterg
% New eqn2ass function.
% Started extension to multiports
%
% Revision 1.2 2000/10/03 18:35:04 peterg
% Removed comment bug
%
% Revision 1.1 2000/10/03 18:34:00 peterg
% Initial revision
%
%Copyright (C) 2000 by Peter J. Gawthrop
% Function to convert equation to assignment
OPERATOR eqn2ass;
FOR ALL comp_type, eqn,outlist,inputs
LET eqn2ass(eqn,outlist,inputs) =
BEGIN
ass := {}; mtt_ports := 0;
solutions := solve(eqn,outlist);
FOR EACH solution IN solutions DO
BEGIN
mtt_ports := mtt_ports + 1;
rh := RHS(solution);
FOR EACH input IN inputs DO
rh := sub(input,rh);
ass := APPEND(ass,{rh});
END;
IF mtt_ports EQ 1 THEN
RETURN FIRST(ass)
ELSE
RETURN ass;
%return sub(input,rhs(first(solve(eqn,outlist))));
% Needs multiplicity warning
END;
OPERATOR cr;
% Version for one-port components
% We need four versions so that state does not need to be explicitly
% mentioned.
% At the moment, assume only one solution (in fact the first is
% chosen)
%%%% This is the Equation version
% Flow input
FOR ALL comp_type, mtt_cr, input, out_cause
LET cr(comp_type,mtt_cr,out_cause, 1, input, flow, 1)
= eqn2ass(mtt_cr,mtt_e,{mtt_f=input});
% Effort input
FOR ALL comp_type, mtt_cr, input, out_cause
LET cr(comp_type,mtt_cr,out_cause, 1, input, effort, 1)
= eqn2ass(mtt_cr,mtt_f,{mtt_e=input});
% Effort output
FOR ALL comp_type, mtt_cr, input, in_cause
LET cr(comp_type,mtt_cr,effort, 1, input, in_cause, 1)
= eqn2ass(mtt_cr,mtt_e,{mtt_f=input});
% Flow output
FOR ALL comp_type, mtt_cr, input, in_cause
LET cr(comp_type,mtt_cr,flow, 1, input, in_cause, 1)
= eqn2ass(mtt_cr,mtt_f,{mtt_e=input});
%%%% This is the assignment version
% Flow input
FOR ALL comp_type, mtt_cr_e,mtt_cr_f, input, out_cause
LET cr(comp_type,mtt_cr_e,mtt_cr_f,out_cause, 1, input, flow, 1)
= sub(mtt_f=input,mtt_cr_f);
% Effort input
FOR ALL comp_type, mtt_cr_e,mtt_cr_f, input, out_cause
LET cr(comp_type,mtt_cr_e,mtt_cr_f,out_cause, 1, input, effort, 1)
= sub(mtt_e=input,mtt_cr_e);
% Effort output
FOR ALL comp_type, mtt_cr_e,mtt_cr_f, input, in_cause
LET cr(comp_type,mtt_cr_e,mtt_cr_f,effort, 1, input, in_cause, 1)
= sub(mtt_f=input,mtt_cr_f);
% Flow output
FOR ALL comp_type, mtt_cr_e,mtt_cr_f, input, in_cause
LET cr(comp_type,mtt_cr_e,mtt_cr_f,flow, 1, input, in_cause, 1)
= sub(mtt_e=input,mtt_cr_e);
%%% Q&D FMR 2 port.
FOR ALL comp_type, mtt_cr_e,mtt_cr_f,input_1,input_2
LET cr(comp_type,mtt_cr_e,mtt_cr_f,flow,1,
input_1,effort,1,
input_2,flow,2
) = sub(mtt_mod=input_2,sub(mtt_e=input_1,mtt_cr_e));
END;