#! /bin/sh
######################################
##### Model Transformation Tools #####
######################################
# Bourne shell script: mtt
# Usage: mtt system_name representation_name
# E.g.:
# mtt dc mtf
# converts dc to matlab transfer function form.
#
# P.J.Gawthrop Oct 1989, Dec 1989, 1990, 1991, Oct 1993, Dec 1993, Jan 1994, Dec 95
# Copyright (c) P.J.Gawthrop, 1989, 1990, 1991, 1993, 1994, 1995, 1996.
###############################################################
## Version control history
###############################################################
## $Header$
## $Log$
## Revision 1.1 1996/08/04 17:29:42 peter
## Initial revision
##
###############################################################
echo " ###################################################"
echo " ###### MTT (Model Transformation Tools) V2.0 ######"
echo " ###################################################"
make -s -f - $1_$2.$3 << EOF
#Create PostScript version of abg fig file
$1_abg.ps: $1_abg.fig
echo Creating $1_abg.ps
fig2dev -Lps $1_abg.fig >$1_abg.ps
#Create PostScript version of cbg fig file
$1_cbg.ps: $1_cbg.fig
echo Creating $1_cbg.ps
fig2dev -Lps $1_cbg.fig >$1_cbg.ps
#Create empty files (with titles) if not already there
$1_lbl.txt:
echo Creating $1_lbl.txt
( \
echo "%% Label file ($1_lbl.txt)"; \
echo "%% Each line should be of one of the following forms:"; \
echo "% a comment (ie starting with %)"; \
echo "% Component-name CR_name arg1,arg2,..argn"; \
echo "% blank"; \
)> $1_lbl.txt
$1_cr.r:
makecr $1
$1_sympar.r:
echo Creating $1_sympar.r
( \
echo "%% Symbolic parameter file ($1_sympar.r)"; \
echo "%% Change the following line to reflect the number of variables"; \
echo "MTTNVar := 0;"; \
echo "IF MTTNVar>0 THEN MATRIX MTTVar(MTTNVar,1);"; \
echo "%% Add a statement here for each variable"; \
)> $1_sympar.r
$1_simp.r:
echo Creating $1_simp.r
( \
echo "%% Reduce comands to simplify output ($1_simp.r)"; \
)> $1_simp.r
$1_numpar.m:
echo Creating $1_numpar.m
( \
echo "%% Numerical parameter file ($1_numpar.m)"; \
)> $1_numpar.m
$1_sspar.r:
echo Creating $1_sspar.r
echo "%% Reduce steady-state parameter file ($1_sspar.r)" > $1_sspar.r
#Raw bond graph: fig file to mfile
$1_rbg.m: $1_abg.fig $1_lbl.txt
rbg_fig2m $1
$1_cmp.m: $1_rbg.m
$1_fig.fig: $1_rbg.m
#Bond graph conversions using matlab
#Raw bond graph to acausal bond graph: mfile
$1_abg.m: $1_rbg.m
rbg2abg_m $1
#Causal bond graph: mfile to fig conversion
$1_cbg.fig: $1_cbg.m $1_rbg.m $1_fig.fig
cbg_m2fig $1
#Causal bond graph: xfig display
#$1_cbg.view: $1_cbg.fig
# echo "Creating view of $1_cbg"; xfig $1_cbg.fig &
#Acausal bond graph to causal bond graph: mfile
$1_cbg.m: $1_abg.m
abg2cbg_m $1
#LaTex system summary
$1_sum.tex: $1_abg.pl
abg2sum_pl2tex $1; latex_tidy $1_sum.tex
#Elementary system equations + definitions
$1_ese.r: $1_cbg.m
cbg2ese_m2r $1
$1_def.r: $1_ese.r
#Differential-algebraic equations
$1_dae.r: $1_ese.r $1_cr.r $1_sympar.r
ese2dae_r $1; tidy $1_dae.r
$1_dae.m: $1_def.r $1_dae.r $1_sympar.r
dae_r2m $1; matlab_tidy $1_dae.m
$1_dae.c: $1_def.r $1_dae.r $1_sympar.r
dae_r2c $1; c_tidy $1_dae.c
$1_dae.tex: $1_dae.r $1_simp.r
dae_r2tex $1; latex_tidy $1_dae.tex
#Constrained-state equations
$1_cse.r: $1_dae.r $1_def.r $1_sympar.r
dae2cse_r $1; tidy $1_cse.r
$1_cse.m: $1_def.r $1_cse.r $1_sympar.r
cse_r2m $1; matlab_tidy $1_cse.m
$1_cse.tex: $1_cse.r $1_sympar.r
cse_r2tex $1; latex_tidy $1_cse.tex
#Ordinary differential equations
$1_ode.r: $1_cse.r $1_def.r $1_sympar.r
cse2ode_r $1; tidy $1_ode.r
$1_ode.m: $1_def.r $1_ode.r $1_sympar.r
ode_r2m $1; matlab_tidy $1_ode.m
$1_ode.tex: $1_ode.r $1_sympar.r $1_simp.r
ode_r2tex $1; latex_tidy $1_ode.tex
#Observer functions for GPC
$1_obs.r: $1_ode.r $1_def.r $1_sympar.r
ode2obs_r $1; tidy $1_obs.r
$1_obs.m: $1_def.r $1_obs.r $1_sympar.r
obs_r2m $1; matlab_tidy $1_obs.m
$1_obs.tex: $1_obs.r $1_sympar.r $1_simp.r
obs_r2tex $1; latex_tidy $1_obs.tex
#Robot-form equations
$1_rfe.r: $1_cse.r $1_csm.r $1_def.r $1_sympar.r
cse2rfe_r $1; tidy $1_rfe.r
$1_rfe.tex: $1_rfe.r $1_sympar.r
rfe_r2tex $1; latex_tidy $1_rfe.tex
#Steady-states
$1_ss.r: $1_def.r $1_sspar.r $1_sympar.r $1_cr.r $1_dae.r
sspar2ss_r $1; tidy $1_ss.r
$1_ss.m: $1_def.r $1_sympar.r $1_ss.r
ss_r2m $1; matlab_tidy $1_ss.m
$1_ss.tex: $1_def.r $1_ss.r $1_sympar.r $1_simp.r
ss_r2tex $1; latex_tidy $1_ss.tex
#Linearised system: descriptor matrices
$1_dm.r: $1_dae.r $1_def.r $1_cr.r $1_ss.r $1_sympar.r
dae2dm_r $1; tidy $1_dm.r
$1_dm.m: $1_def.r $1_dm.r $1_sympar.r
dm_r2m $1; matlab_tidy $1_dm.m
$1_dm.tex: $1_dm.r $1_sympar.r $1_simp.r
dm_r2tex $1; latex_tidy $1_dm.tex
#Linearised system: constrained-state matrices
$1_csm.r: $1_cse.r $1_def.r $1_cr.r $1_ss.r $1_sympar.r
cse2csm_r $1; tidy $1_csm.r
$1_csm.m: $1_def.r $1_csm.r
csm_r2m $1; matlab_tidy $1_csm.m
$1_csm.tex: $1_csm.r $1_sympar.r $1_simp.r
csm_r2tex $1; latex_tidy $1_csm.tex
#Linearised system: transfer function
$1_tf.r: $1_dm.r $1_sympar.r
dm2tf_r $1; tidy $1_tf.r
$1_tf.m: $1_def.r $1_tf.r
tf_r2m $1; matlab_tidy $1_tf.m
$1_tf.tex: $1_def.r $1_tf.r $1_sympar.r $1_simp.r
tf_r2tex $1; latex_tidy $1_tf.tex
#Partially-known system indentification structure matrices
$1_pkim.r: $1_tf.r $1_sympar.r
tf2pkim_r $1; tidy $1_pki.r
$1_pkim.tex: $1_def.r $1_pkim.r $1_sympar.r
pkim_r2tex $1; latex_tidy $1_pkim.tex
#Generic conversion of Latex to visual image
$1_$2.view: $1_$2.tex
echo Creating view of $1_$2
showtex $1 $2>$1_$2_view.log
#Report generation
$1_rep.tex: $1_sum.tex $1_dae.tex $1_lbl.txt $1_sympar.r $1_cr.r \
$1_abg.ps
echo Creating $1_rep.tex
make_report $1 > $1_rep.tex
$1_rep.dvi: $1_rep.tex
echo Creating $1_rep.dvi
latex $1_rep; latex $1_rep
$1_rep.ps: $1_rep.dvi
echo Creating $1_rep.ps
dvips -o $1_rep.ps $1_rep
$1_rep.html: $1_rep.dvi
echo Creating $1_rep.html
latex2html $1_rep.tex
# Clean up all intermediate files
$1_clean.:
echo Cleaning up system $1
rm -f *.log *.old *.met *.dvi *.aux *.f2bd
rm -f $1_abg.pl $1_cbg.pl $1_ese.r $1_def.r \
$1_tf.r \
$1_dae.r \
$1_cse.r $1_dm.r $1_csm.r \
$1_*_rep.tex \
$1_rbg.m $1_abg.m $1_cbg.m $1_cbg.fig $1_cbg?.fig
EOF