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# Copyright (C) 2000 by Peter J. Gawthrop
###############################################################
## Version control history
###############################################################
## $Header$
## $Log$
## Revision 1.276 2000/10/15 09:30:31 peterg
## *** empty log message ***
##
## Revision 1.275 2000/10/12 18:38:47 peterg
## New method of sympar generation implemented - uses mtt_make_sympar
## Check/update of numpar.txt is forced.
##
## Revision 1.274 2000/10/12 15:11:54 peterg
## Added the update function for numpar only
##
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sympar_txt2c $1
#SUMMARY sympar symbolic parameters (tex)
# txt to tex (LaTeX) sympar conversion
$1_sympar.tex: $1_sympar.txt
sympar_txt2tex $1
#SUMMARY logic Dynamic switch logic (txt)
$1_logic.txt:
echo Creating $1_logic.txt
( \
echo '# -*-octave-*- Put Emacs into octave-mode'; \
echo "# Simulation parameters for system $1 ($1_logic.txt)"; \
echo "# Generated by MTT on" `date`.; \
cat $MTTPATH/trans/rcs_header.sh; \
echo ;\
)> $1_logic.txt
#SUMMARY logic Dynamic switch logic (tex)
#SUMMARY logic Dynamic switch logic (view)
$1_logic.tex: $1_logic.txt
txt2tex $1 logic txt
#SUMMARY switch Dynamic switch information (txt)
$1_switch.txt: $1_struc.txt
struc2switch_txt $1
$1_switchopen.m: $1_switch.txt $1_sympars.txt $1_logic.txt
switch_txt2m $1
#$1_switchopen.m: $1_switch.txt $1_sympars.txt $1_logic.txt
# switch_txt2m $1
#SUMMARY sympars sympar + dynamic switch information (txt)
$1_sympars.txt: $1_sympar.txt $1_switch.txt
echo Creating $1_sympars.txt
cat $1_sympar.txt $1_switch.txt > $1_sympars.txt
#SUMMARY simp simplification information (r)
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mtt_update $1 numpar update
else
mtt_update $1 numpar
endif
#SUMMARY state numerical state declaration -- default (txt)
$1_state.txt : FORCE
mtt -q $1 struc txt
mtt -q $1 sympar txt
ifeq ($target,$1_state.txt)
mtt_update $1 state update
else
mtt_update $1 state
endif
#SUMMARY state numerical state declaration -- default (txt)
$1_input.txt : FORCE
mtt -q $1 struc txt
mtt -q $1 sympar txt
ifeq ($target,$1_input.txt)
mtt_update $1 input update
else
mtt_update $1 input
endif
#SUMMARY logic Dynamic switch logic (txt)
$1_logic.txt : FORCE
mtt -q $1 struc txt
mtt -q $1 sympar txt
ifeq ($target,$1_logic.txt)
mtt_update $1 logic update
else
mtt_update $1 logic
endif
# Dummy target
FORCE:
#SUMMARY numpar numerical parameter declaration (m)
$1_numpar.m: $1_numpar.txt $1_sympars.txt
mtt_txt2m $1 numpar
#SUMMARY numpar numerical parameter declaration (c)
#SUMMARY numpar numerical parameter declaration (view)
$1_numpar.c: $1_numpar.txt $1_sympar.c
txt2c $1 numpar
#SUMMARY input numerical input declaration -- default (txt)
ifeq ($steadystate_computation,yes)
$1_input.txt:
mtt -q $mtt_switches $1 ss r
mtt -q $mtt_switches $1 struc txt
mtt -q $mtt_switches $1 switch txt
struc2input_txt2txt -ss $1
#'ifeq ($steadystate_computation,yes)
#$1_input.txt:
# mtt -q $mtt_switches $1 ss r
# mtt -q $mtt_switches $1 struc txt
# mtt -q $mtt_switches $1 switch txt
# struc2input_txt2txt -ss $1
#$1_state.txt:
# mtt -q $mtt_switches $1 ss r
# mtt -q $mtt_switches $1 struc txt
# struc2state_txt2txt -ss $1
else
$1_input.txt:
mtt -q $mtt_switches $1 struc txt
mtt -q $mtt_switches $1 switch txt
struc2input_txt2txt $1
#else
#$1_input.txt:
# mtt -q $mtt_switches $1 struc txt
# mtt -q $mtt_switches $1 switch txt
# struc2input_txt2txt $1
#$1_state.txt:
# mtt -q $mtt_switches $1 struc txt
# struc2state_txt2txt $1
endif
#endif
#ifeq ($switches,0)
#$1_input.txt:
# mtt $mtt_switches $1 struc txt;
# mtt $mtt_switches $1 ss r;
# struc2input_txt2txt $1
#endif
#ifeq ($switches,1)
#$1_input.txt:
# mtt $mtt_switches -q -u $1 struc txt;
# mtt $mtt_switches $1 ss r;
# mtt $mtt_switches -q -u $1 switch txt;
# struc2input_txt2txt -s $1
#endif
#SUMMARY input numerical input declaration (m)
$1_input.m: $1_input.txt $1_sympars.txt
mtt_txt2m $1 input
#SUMMARY input numerical input declaration (m)
$1_logic.m: $1_logic.txt $1_switch.txt
mtt_txt2m $1 logic
#SUMMARY state state declaration -- default (txt)
#$1_state.txt:
# mtt $mtt_switches $1 struc txt;
# mtt $mtt_switches $1 ss r;
# struc2state_txt2txt $1
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$1_ode.tex: $1_ode.r $1_sympar.r $1_simp.r
ode_r2tex $1; latex_tidy $1_ode.tex
# The main simulation programme
ifeq ($integration_method,implicit)
$1_ode2odes.m : $1_def.r $1_sympars.txt $1_smxa.$m $1_smxax.$m\
$1_simpar.m $1_numpar.m $1_state.m $1_input.m \
$1_csex.$m $1_cseo.$m $1_switchopen.m
$1_csex.$m $1_cseo.$m $1_logic.m
make_ode2odes $1 $integration_method
endif
ifeq ($integration_method,euler)
$1_ode2odes.m : $1_def.r $1_sympars.txt\
$1_simpar.m $1_numpar.m $1_state.m $1_input.m \
$1_ode.$m $1_odeo.$m $1_switchopen.m
$1_ode.$m $1_odeo.$m $1_logic.m
make_ode2odes $1 $integration_method
endif
#Conversion of m to p to c
#SUMMARY ode ordinary differential equations (c)
#SUMMARY ode ordinary differential equations (p)
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mtt_m2p $1_cseo.m
$1_smx.p : $1_def.r $1_smx.m
mtt_m2p $1_smx.m
$1_smxa.p : $1_def.r $1_smxa.m
mtt_m2p $1_smxa.m
$1_smxax.p : $1_def.r $1_smxax.m
mtt_m2p $1_smxax.m
$1_switchopen.p : $1_def.r $1_switchopen.m
mtt_m2p $1_switchopen.m
$1_logic.p : $1_def.r $1_logic.m
mtt_m2p $1_logic.m
ifeq ($integration_method,implicit)
$1_ode2odes.p : $1_ode2odes.m $1_def.r $1_smxa.p $1_smxax.p\
$1_simpar.p $1_numpar.p $1_state.p $1_input.p \
$1_csex.p $1_cseo.p $1_switchopen.p
$1_csex.p $1_cseo.p $1_logic.p
mtt_m2p $1_ode2odes.m $integration_method $stdin
endif
ifeq ($integration_method,euler)
$1_ode2odes.p : $1_ode2odes.m $1_def.r\
$1_simpar.p $1_numpar.p $1_state.p $1_input.p \
$1_ode.p $1_odeo.p $1_switchopen.p
$1_ode.p $1_odeo.p $1_logic.p
mtt_m2p $1_ode2odes.m $integration_method $stdin
endif
$1_ode2odes.c: $1_ode2odes.p
mtt_p2c $info_switch $1 ode2odes
#SUMMARY sim Octave simulation function (m)
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m2dat $1_sro
1_odes.c: $1_ode.c $1_def.r $1_sympar.r
ode2odes_r2c $1
$1_sms.c: $1_sm.c $1_def.r $1_sympar.r
sm2sms_r2c $1
ifeq ($computation,octave)
$1_odes.dat2: $1_ode2odes.m $1_ode.m $1_odeo.m $1_numpar.m $1_switchopen.m \
$1_odes.dat2: $1_ode2odes.m $1_ode.m $1_odeo.m $1_numpar.m $1_logic.m \
$1_def.m $1_input.m $1_state.m $1_simpar.m
time octave_ode2odes $1
endif
ifeq ($computation,c)
$1_ode2odes.out: $1_ode2odes.c
echo Creating $1_odes.out
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