File mttroot/mtt/bin/trans/csm2sm_r artifact d62d77923d part of check-in 5c4767b05b


#! /bin/sh

     ###################################### 
     ##### Model Transformation Tools #####
     ######################################

# Bourne shell script: csm2sm_r
# Constrained-state equation to linear constrained-state matrices conversion
# P.J.Gawthrop  6th September 1991, May 1994
# Copyright (c) P.J.Gawthrop, 1991, 1994, 1996

###############################################################
## Version control history
###############################################################
## $Id$
## $Log$
## Revision 1.1  2000/12/28 12:24:03  peterg
## Put under RCS
##
## Revision 1.2  1996/08/25 10:11:32  peter
## Added END in output file.
## Error handling.
##
## Revision 1.1  1996/08/19 15:06:16  peter
## Initial revision
##
###############################################################

optimise=''; optimise_msg=''
while [ -n "`echo $1 | grep '^-'`" ]; do
    case $1 in
	-optimise)
	    optimise='-optimise'
	    optimise_msg=' with optimisation' ;;
	*)
	    echo "$1 is an invalid argument - ignoring" ;;
    esac
    shift
done

# Create the reduce output code
def2write_r $optimise $1 $2

# Inform user
echo Creating $1_$2.r $optimise_msg

case $2 in
    sm)
        rep=csm;
        ;;
    ssm)
        rep=scsm
        ;;
    *)
        echo Representation must be sm or ssm
esac

# Remove the old log file
rm -f csm2sm_r.log

# Use reduce to accomplish the transformation
$SYMBOLIC >csm2sm_r.log << EOF

in "$1_def.r";
in "$1_$rep.r";
in "$1_cr.r";
%%in "$1_sympar.r";

OFF Echo;
OFF Nat;

% Find MTTA and MTTB : the A and B matrices

MTTinvE := MTTE^(-1);
MTTA := MTTinvE*MTTA;
MTTB := MTTinvE*MTTB;

% Create the matrix declarations
OUT "$1_$2.r1";
write "MATRIX MTTA(", MTTNx, ",", MTTNx, ")$"; 
write "MATRIX MTTB(", MTTNx, ",", MTTNu, ")$"; 
write "MATRIX MTTC(", MTTNy, ",", MTTNx, ")$"; 
write "MATRIX MTTD(", MTTNy, ",", MTTNu, ")$"; 
SHUT "$1_$2.r1";

%Create the output file
OUT "$1_$2.r2";
write "%File: $1_ode.r";

write "% New constants";
write "MTTNx := ", MTTNx, ";";
write "MTTNy := ", MTTNy, ";";

in ("$1_sm_write.r");

%Write out the matrices.
% IF MTTNx>0 THEN
% BEGIN
%   write "matrix MTTA(", MTTNx, ",", MTTNx, ");";
%   FOR i := 1:MTTNx DO
%    FOR j := 1:MTTNx DO IF MTTA(i,j) NEQ 0 THEN
%       write "MTTA(", i, ",", j, ") := ", MTTA(i,j);
% END;

% IF MTTNx>0 THEN
% IF MTTNu>0 THEN
% BEGIN
%   write "matrix MTTB(", MTTNx, ",", MTTNu, ");";
%   FOR i := 1:MTTNx DO
%    FOR j := 1:MTTNu DO IF MTTB(i,j) NEQ 0 THEN
%       write "MTTB(", i, ",", j, ") := ", MTTB(i,j);
% END;

% %Write it out
% IF MTTNy>0 THEN
% IF MTTNx>0 THEN
% BEGIN
%   write "matrix MTTC(", MTTNy, ",", MTTNx, ");";
%   FOR i := 1:MTTNy DO
%     FOR j := 1:MTTNx DO IF MTTC(i,j) NEQ 0 THEN
%       write "MTTC(", i, ",", j, ") := ", MTTC(i,j);
% END;

% IF MTTNy>0 THEN IF MTTNu>0 THEN 
% BEGIN
%   write "matrix MTTD(", MTTNy, ",", MTTNu, ");";
%   FOR i := 1:MTTNy DO
%     FOR j := 1:MTTNu DO IF MTTD(i,j) NEQ 0 THEN
%       write "MTTD(", i, ",", j, ") := ", MTTD(i,j);
% END;

write "END;";

SHUT "$1_$2.r2";
quit;

EOF

cat $1_$2.r1 $1_$2.r2 > $1_$2.r

# Now invoke the standard error handling.
mtt_error_r csm2sm_r.log


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