Overview
| Comment: | Added mex support for ode2odes: mtt sys ode2odes mexglx. This mex stuff seems to require octave2.1-headers. |
|---|---|
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| SHA3-256: |
20ae5bf7e06cdb4dd9992b3a14170e75 |
| User & Date: | geraint@users.sourceforge.net on 2002-05-08 16:03:32 |
| Other Links: | branch diff | manifest | tags |
Context
|
2002-05-08
| ||
| 21:32:26 | Tidied up $1_ode2odes_*.* targets and renamed dummies as *.stamp. check-in: dc8f84a4a1 user: geraint@users.sourceforge.net tags: origin/master, trunk | |
| 16:03:32 |
Added mex support for ode2odes: mtt sys ode2odes mexglx. This mex stuff seems to require octave2.1-headers. check-in: 20ae5bf7e0 user: geraint@users.sourceforge.net tags: origin/master, trunk | |
| 14:51:04 | Moved matlab/octave data type conversion functions to a separate file. check-in: cdb81663cf user: geraint@users.sourceforge.net tags: origin/master, trunk | |
Changes
Modified mttroot/mtt/bin/mtt from [570aa6b93c] to [7e8ccc92a7].
| ︙ | ︙ | |||
13 14 15 16 17 18 19 20 21 22 23 24 25 26 | # Copyright (C) 2001 by Peter J. Gawthrop ############################################################### ## Version control history ############################################################### ## $Header$ ## $Log$ ## Revision 1.336 2002/05/07 23:50:34 geraint ## Preliminary support for Matlab dynamically linked shared objects: ## invoke with: mtt -cc sys rep mexglx ## ode2odes support is not yet included. ## ## Revision 1.335 2002/05/01 17:30:55 geraint ## Improved pre-processor directives to better accommodate future alternatives (matlab) | > > > | 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 | # Copyright (C) 2001 by Peter J. Gawthrop ############################################################### ## Version control history ############################################################### ## $Header$ ## $Log$ ## Revision 1.337 2002/05/08 14:51:03 geraint ## Moved matlab/octave data type conversion functions to a separate file. ## ## Revision 1.336 2002/05/07 23:50:34 geraint ## Preliminary support for Matlab dynamically linked shared objects: ## invoke with: mtt -cc sys rep mexglx ## ode2odes support is not yet included. ## ## Revision 1.335 2002/05/01 17:30:55 geraint ## Improved pre-processor directives to better accommodate future alternatives (matlab) |
| ︙ | ︙ | |||
2791 2792 2793 2794 2795 2796 2797 2798 2799 2800 2801 2802 2803 2804 |
echo Creating $1_ode2odes.o
${MTT_CXX} ${MTT_CXXFLAGS} ${MTT_CXXINCS} -c $1_ode2odes.cc -DCODEGENTARGET=STANDALONE
$1_ode2odes.oct: $1_ode2odes.cc $1_ode2odes_common.oct $1_ode2odes_${integration_method}.oct $1_ode2odes_${algebraic_solver}.o
touch $1_ode2odes.m
echo Creating $1_ode2odes.oct
$MKOCTFILE -DCODEGENTARGET=OCTAVEDLD $1_ode2odes.cc mtt_${algebraic_solver}.cc mtt_Solver.cc mtt_AlgebraicSolver.cc
$1_ode2odes.cc: $1_def.r $1_sympars.txt\
$1_ode2odes_common.m $1_ode2odes_common.cc\
$1_ode2odes_${integration_method}.m $1_ode2odes_${integration_method}.cc\
mtt_Solver.cc mtt_AlgebraicSolver.cc mtt_${algebraic_solver}.cc mtt_${algebraic_solver}.hh
touch $1_ode2odes.m
make_ode2odes $1 cc $integration_method $algebraic_solver
| > > > > > > > > | 2794 2795 2796 2797 2798 2799 2800 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 2813 2814 2815 |
echo Creating $1_ode2odes.o
${MTT_CXX} ${MTT_CXXFLAGS} ${MTT_CXXINCS} -c $1_ode2odes.cc -DCODEGENTARGET=STANDALONE
$1_ode2odes.oct: $1_ode2odes.cc $1_ode2odes_common.oct $1_ode2odes_${integration_method}.oct $1_ode2odes_${algebraic_solver}.o
touch $1_ode2odes.m
echo Creating $1_ode2odes.oct
$MKOCTFILE -DCODEGENTARGET=OCTAVEDLD $1_ode2odes.cc mtt_${algebraic_solver}.cc mtt_Solver.cc mtt_AlgebraicSolver.cc
$1_ode2odes.mexglx: $1_ode2odes.cc $1_ode2odes_common.o $1_ode2odes_${integration_method}.o $1_ode2odes_${algebraic_solver}.o
touch $1_ode2odes.m
echo Creating $1_ode2odes.mexglx
${MTT_CXX} -DCODEGENTARGET=MATLABMEX -o $1_ode2odes.mexglx $1_ode2odes.cc \
$1_ode2odes_common.o $1_ode2odes_${integration_method}.o $1_ode2odes_${algebraic_solver}.o \
${MTT_MATLAB_FLAGS} ${MTT_CXXINCS} ${MTT_CXXLIBS} ${MTT_CXXFLAGS} \
${MTT_LIB}/cc/mtt_kpathsea.cc ${MTT_LIB}/cc/mtt_matlab_octave.cc
$1_ode2odes.cc: $1_def.r $1_sympars.txt\
$1_ode2odes_common.m $1_ode2odes_common.cc\
$1_ode2odes_${integration_method}.m $1_ode2odes_${integration_method}.cc\
mtt_Solver.cc mtt_AlgebraicSolver.cc mtt_${algebraic_solver}.cc mtt_${algebraic_solver}.hh
touch $1_ode2odes.m
make_ode2odes $1 cc $integration_method $algebraic_solver
|
| ︙ | ︙ |
Modified mttroot/mtt/bin/trans/make_ode2odes from [1c01822bdf] to [e5d0e1820f].
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 |
#! /bin/sh
######################################
##### Model Transformation Tools #####
######################################
###############################################################
## Version control history
###############################################################
## $Id$
## $Log$
## Revision 1.75 2002/05/07 13:48:42 geraint
## Improved clarity of code generated for -cc and -oct (except ode2odes).
## Octave DEFUN_DLDs now call (rather than replace) their .cc equivalents.
##
## Revision 1.74 2002/05/01 17:30:56 geraint
## Improved pre-processor directives to better accommodate future alternatives (matlab)
## if necessary.
| > > > | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 |
#! /bin/sh
######################################
##### Model Transformation Tools #####
######################################
###############################################################
## Version control history
###############################################################
## $Id$
## $Log$
## Revision 1.76 2002/05/08 14:14:55 geraint
## Tidied up ode2odes code - reduced interweaving of STANDALONE/OCTAVEDLD sections
##
## Revision 1.75 2002/05/07 13:48:42 geraint
## Improved clarity of code generated for -cc and -oct (except ode2odes).
## Octave DEFUN_DLDs now call (rather than replace) their .cc equivalents.
##
## Revision 1.74 2002/05/01 17:30:56 geraint
## Improved pre-processor directives to better accommodate future alternatives (matlab)
## if necessary.
|
| ︙ | ︙ | |||
438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 |
esac
cat <<EOF > $filename
// Code generation directives
#define STANDALONE 0
#define OCTAVEDLD 1
#if (! defined (CODEGENTARGET))
#define CODEGENTARGET STANDALONE
#endif // (! defined (CODEGENTARGET))
#include <octave/oct.h>
#include <octave/lo-mappers.h>
#include <octave/variables.h>
#if (CODEGENTARGET == OCTAVEDLD)
#include <octave/${feval_header}>
#endif // (CODEGENTARGET == OCTAVEDLD)
#include "${sys}_def.h"
#include "${sys}_sympar.h"
#include "mtt_${algebraic_solver}.hh"
#include <fstream>
| > | | 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 |
esac
cat <<EOF > $filename
// Code generation directives
#define STANDALONE 0
#define OCTAVEDLD 1
#define MATLABMEX 2
#if (! defined (CODEGENTARGET))
#define CODEGENTARGET STANDALONE
#endif // (! defined (CODEGENTARGET))
#include <octave/oct.h>
#include <octave/lo-mappers.h>
#include <octave/variables.h>
#if (CODEGENTARGET == OCTAVEDLD)
#include <octave/${feval_header}>
#endif // (CODEGENTARGET == OCTAVEDLD)
#include "${sys}_def.h"
#include "${sys}_sympar.h"
#include "mtt_${algebraic_solver}.hh"
#include <fstream>
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
extern ColumnVector ${sys}_ae (
ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par);
|
| ︙ | ︙ | |||
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const ColumnVector &open_switches);
EOF
;;
esac
cat <<EOF >> $filename
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const ColumnVector &open_switches);
EOF
;;
esac
cat <<EOF >> $filename
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
ColumnVector
mtt_ae (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_ae(x,u,t,par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_ae", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_input (ColumnVector &x,
ColumnVector &y,
const double &t,
ColumnVector &par)
{
static MTT::${algebraic_solver} ae(MTTNPAR,MTTNU,MTTNX,MTTNY,MTTNYZ);
static ColumnVector u (MTTNU);
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
u = ${sys}_input (x, y, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (y);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_input", args, 1);
u = f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
if (MTTNYZ == 0)
{
return u;
}
else
{
return ae.solve(x,u,t,par);
}
}
inline ColumnVector
mtt_logic (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_logic (x, u, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_logic", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_numpar (void)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_numpar ();
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
f = feval ("${sys}_numpar", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_simpar (void)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_simpar ();
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
f = feval ("${sys}_simpar", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_state (ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_state (par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (par);
f = feval ("${sys}_state", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_rate (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_${ode} (x, u, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_${ode}", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_output (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_${odeo} (x, u, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_${odeo}", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
EOF
case "$method" in
"implicit")
cat <<EOF >> $filename
inline ColumnVector
mtt_implicit (ColumnVector &x,
ColumnVector &dx,
Matrix &AA,
ColumnVector &AAx,
const double &ddt,
const int &nx,
const ColumnVector &open_switches)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return Fmtt_implicit (x, dx, AA, AAx, ddt, nx, open_switches);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (dx);
args (2) = octave_value (AA);
args (3) = octave_value (AAx);
args (4) = octave_value (ddt);
args (5) = octave_value ((double)nx);
args (6) = octave_value (open_switches);
f = feval ("mtt_implicit", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline Matrix
mtt_smxa (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_smxa (x, u, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_smxa", args, 1);
return f(0).matrix_value ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
inline ColumnVector
mtt_smxax (ColumnVector &x,
ColumnVector &u,
const double &t,
ColumnVector &par)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return ${sys}_smxax (x, u, t, par);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
f = feval ("${sys}_smxax", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
EOF
;;
"dassl")
cat <<EOF >> $filename
inline ColumnVector
mtt_dassl (ColumnVector &x,
const ColumnVector &u,
const double &t,
const ColumnVector &par,
const ColumnVector &dx,
const double &ddt,
const int &nx,
const int &nyz,
const ColumnVector &open_switches)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return Fmtt_dassl (x, u, t, par, dx, ddt, nx, nyz, open_switches);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (u);
args (2) = octave_value (t);
args (3) = octave_value (par);
args (4) = octave_value (dx);
args (5) = octave_value (ddt);
args (6) = octave_value (static_cast<double> (nx));
args (7) = octave_value (static_cast<double> (nyz));
args (8) = octave_value (open_switches);
f = feval ("mtt_dassl", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
ColumnVector
mtt_residual (const ColumnVector &X,
const ColumnVector &DX,
double t,
int &ires)
{
#elif (CODEGENTARGET == OCTAVEDLD)
DEFUN_DLD (mtt_residual, args, , "mtt_residual")
{
static ColumnVector X (MTTNX+MTTNYZ);
static ColumnVector DX (MTTNX+MTTNYZ);
static double t;
static int &ires;
X = args(0).${vector_value} ();
DX = args(1).${vector_value} ();
t = args(2).double_value ();
ires = static_cast<int>(args(3).double_value ());
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
static ColumnVector residual (MTTNX+MTTNYZ);
static ColumnVector U (MTTNU+MTTNYZ);
static ColumnVector u (MTTNU);
static ColumnVector y (MTTNY,0.0);
static ColumnVector par (MTTNPAR);
static ColumnVector dx(MTTNX);
static ColumnVector yz(MTTNYZ);
static ColumnVector x (MTTNX);
static ColumnVector ui (MTTNYZ);
static octave_value_list new_args;
x = X.extract (0,MTTNX-1);
if (MTTNYZ > 0)
ui = X.extract (MTTNX,MTTNX+MTTNYZ-1);
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
par = ${sys}_numpar();
u = ${sys}_input(x,y,t,par);
#elif (CODEGENTARGET == OCTAVEDLD)
par = feval ("${sys}_numpar", new_args, 1)(0).${vector_value} ();
new_args(0) = octave_value (x);
new_args(1) = octave_value (u);
new_args(2) = octave_value (t);
new_args(3) = octave_value (par);
u = feval ("${sys}_input", new_args, 1)(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
U.insert (u,0);
if (MTTNYZ > 0)
U.insert (ui,MTTNU);
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
dx = ${sys}_${ode} (x,U,t,par);
yz = ${sys}_ae (x,U,t,par);
#elif (CODEGENTARGET == OCTAVEDLD)
new_args(1) = octave_value (U);
dx = feval ("${sys}_${ode}", new_args, 1)(0).${vector_value} ();
yz = feval ("${sys}_ae", new_args, 1)(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
for (register int i = 0; i < MTTNX; i++)
residual (i) = dx(i) - DX(i);
if (MTTNYZ > 0)
{
residual.insert (yz,MTTNX);
|
| ︙ | ︙ | |||
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}
else
step = t;
for (register int i = MTTNX; i < MTTNX+MTTNYZ; i++)
residual(i) += X(i) - DX(i)*step;
}
| | | | | | 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 |
}
else
step = t;
for (register int i = MTTNX; i < MTTNX+MTTNYZ; i++)
residual(i) += X(i) - DX(i)*step;
}
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return residual;
#elif (CODEGENTARGET == OCTAVEDLD)
return octave_value (residual);
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
EOF
;;
"euler" | "rk4" | *)
cat <<EOF >> $filename
inline ColumnVector
mtt_euler (ColumnVector &x,
const ColumnVector &dx,
const double &ddt,
const int &nx,
const ColumnVector &open_switches)
{
#if ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
return Fmtt_euler (x, dx, ddt, nx, open_switches);
#elif (CODEGENTARGET == OCTAVEDLD)
static octave_value_list args, f;
args (0) = octave_value (x);
args (1) = octave_value (dx);
args (2) = octave_value (ddt);
args (3) = octave_value ((double)nx);
args (4) = octave_value (open_switches);
f = feval ("mtt_euler", args, 1);
return f(0).${vector_value} ();
#endif // ((CODEGENTARGET == STANDALONE) || (CODEGENTARGET == MATLABMEX))
}
EOF
;;
esac
cat <<EOF >> $filename
|
| ︙ | ︙ | |||
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#if (CODEGENTARGET == STANDALONE)
file << "# name: mtt_dump" << std::endl
<< "# type: matrix" << std::endl
<< "# rows: " << data.rows () << std::endl
<< "# columns: " << data.columns () << std::endl
<< data;
file.flush ();
| | | 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 |
#if (CODEGENTARGET == STANDALONE)
file << "# name: mtt_dump" << std::endl
<< "# type: matrix" << std::endl
<< "# rows: " << data.rows () << std::endl
<< "# columns: " << data.columns () << std::endl
<< data;
file.flush ();
#elif ((CODEGENTARGET == OCTAVEDLD) || (CODEGENTARGET == MATLABMEX))
set_global_value ("MTT_data", data);
#endif // (CODEGENTARGET == STANDALONE)
row = 0;
fcputime.close();
}
}
|
| ︙ | ︙ | |||
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error("aborting.");
}
${sys}_ode2odes (state0, numpar, simpar);
retval = octave_value (get_global_value ("MTT_data"));
return (retval);
}
#endif // (CODEGENTARGET == STANDALONE)
EOF
}
case ${lang} in
| > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > | 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 |
error("aborting.");
}
${sys}_ode2odes (state0, numpar, simpar);
retval = octave_value (get_global_value ("MTT_data"));
return (retval);
}
#elif (CODEGENTARGET == MATLABMEX)
#include <mtt_matlab_octave.hh>
extern "C" {
void
mexFunction (int nlhs, mxArray *plhs[],
int nrhs, const mxArray *prhs[])
{
static ColumnVector state0 (MTTNX);
static ColumnVector numpar (MTTNPAR);
static ColumnVector simpar (8);
initialize_symbol_tables ();
switch (nrhs)
{
case 3:
simpar = mtt_ColumnVector (prhs[2]);
numpar = mtt_ColumnVector (prhs[1]);
state0 = mtt_ColumnVector (prhs[0]);
break;
case 2:
simpar = mtt_simpar ();
numpar = mtt_ColumnVector (prhs[1]);
state0 = mtt_ColumnVector (prhs[0]);
break;
case 1:
simpar = mtt_simpar ();
numpar = mtt_numpar ();
state0 = mtt_ColumnVector (prhs[0]);
break;
case 0:
simpar = mtt_simpar ();
numpar = mtt_numpar ();
state0 = mtt_state (numpar);
break;
default:
std::cerr << "usage: ${sys}_ode2odes (x par simpar)" << std::endl;
return;
}
${sys}_ode2odes (state0, numpar, simpar);
plhs[0] = mtt_mxArray (get_global_value ("MTT_data").matrix_value ());
}
}
#endif // (CODEGENTARGET == STANDALONE)
EOF
}
case ${lang} in
|
| ︙ | ︙ |