diff options
author | Cyrille Henry <nusmuk@users.sourceforge.net> | 2005-04-12 18:09:20 +0000 |
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committer | Cyrille Henry <nusmuk@users.sourceforge.net> | 2005-04-12 18:09:20 +0000 |
commit | 88b2ec0c703d5c2fb9a34c8b39ab64ab6d4e2d0e (patch) | |
tree | e732960c30ea2d6d8c5e82ae38e36b6aebd95490 /msd/main.cpp | |
parent | a6e8193f42affae14fc1b5091469acdc3f99d8af (diff) |
Nicolas objects...
svn path=/trunk/externals/nusmuk/; revision=2748
Diffstat (limited to 'msd/main.cpp')
-rwxr-xr-x | msd/main.cpp | 753 |
1 files changed, 753 insertions, 0 deletions
diff --git a/msd/main.cpp b/msd/main.cpp new file mode 100755 index 0000000..324ab2d --- /dev/null +++ b/msd/main.cpp @@ -0,0 +1,753 @@ + + +/* + msd - mass spring damper model for Pure Data or Max/MSP + + Written by Nicolas Montgermont for a Master's train in Acoustic, + Signal processing and Computing Applied to Music (ATIAM, Paris 6) + at La Kitchen supervised by Cyrille Henry. + + Based on Pure Data by Miller Puckette and others + Use FLEXT C++ Layer by Thomas Grill (xovo@gmx.net) + Based on pmpd by Cyrille Henry + + + Contact : Nicolas Montgermont, montgermont@la-kitchen.fr + Cyrille Henry, Cyrille.Henry@la-kitchen.fr + + This program is free software; you can redistribute it and/or
+ modify it under the terms of the GNU General Public License
+ as published by the Free Software Foundation; either version 2
+ of the License, or (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + + Version 0.01, 12.04.2005 + +*/ + +// include flext header +#include <flext.h> + +#include <math.h> + +// define constants +#define MSD_VERSION 0.01 +#define nb_max_link 4000
+#define nb_max_mass 4000
+#define Id_length 20 + +// check for appropriate flext version +#if !defined(FLEXT_VERSION) || (FLEXT_VERSION < 401) +#error You need at least flext version 0.4.1 +#endif + +#define max(a,b) ( ((a) > (b)) ? (a) : (b) )
+#define min(a,b) ( ((a) < (b)) ? (a) : (b) ) + +typedef struct _mass {
+ t_symbol *Id; + t_int nbr; + t_int mobile;
+ t_float invM;
+ t_float speedX;
+ t_float posX; + t_float posX2;
+ t_float forceX; + t_float out_forceX; + char Id_string[Id_length];
+} t_mass;
+
+typedef struct _link {
+ t_symbol *Id; + t_int nbr;
+ t_mass *mass1;
+ t_mass *mass2;
+ t_float K1, D1, D2; + t_float longx, longueur; + t_float distance_old; + char Id_string[Id_length];
+} t_link; + +class msd: + public flext_base +{ + FLEXT_HEADER_S(msd,flext_base,setup) //class with setup + +public: + // constructor with no arguments + msd(int argc,t_atom *argv) + { + + nb_link = 0; + nb_mass = 0; + id_mass = 0; + id_link = 0; + + // --- define inlets and outlets --- + AddInAnything("bang, reset, etc."); // default inlet + AddOutAnything("infos on masses"); // outlet for integer count + AddOutAnything("control"); // outlet for bang + } + +protected: + +// --------------------------------------------------------------- RESET + + void m_reset() + { + t_int i; + t_atom sortie[0]; + + for (i=0; i<nb_mass; i++) { + delete mass[i]; + } + for (i=0; i<nb_link; i++) { + delete link[i]; + } + ToOutAnything(1,gensym("Reset"),0,sortie); + nb_link = 0;
+ nb_mass = 0; + id_mass = 0; + id_link = 0; + } + +// -------------------------------------------------------------- COMPUTE + + void m_bang() + { + t_float F=0,Fx=0,distance,vitesse, X_new;
+ t_int i; + struct _mass mass_1, mass_2;
+ + for (i=0; i<nb_link; i++) {
+ // compute link forces + distance = link[i]->mass1->posX-link[i]->mass2->posX; + F = link[i]->K1 * (distance - link[i]->longueur) ; // F = k1(x1-x2) + F += link[i]->D1 * (distance - link[i]->distance_old) ; // F = F + D1(v1-v2) + if (distance != 0) { + Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; + }
+ link[i]->mass1->forceX -= Fx; + link[i]->mass1->forceX -= link[i]->D2*link[i]->mass1->speedX;
+ link[i]->mass2->forceX += Fx; + link[i]->mass2->forceX -= link[i]->D2*link[i]->mass2->speedX; + link[i]->distance_old = distance; + } +
+ for (i=0; i<nb_mass; i++)
+ // compute new masses position only if mobile = 1
+ if (mass[i]->mobile == 1) {
+ X_new = mass[i]->forceX * mass[i]->invM + 2*mass[i]->posX - mass[i]->posX2; + mass[i]->posX2 = mass[i]->posX; + mass[i]->posX = max(min(X_new,Xmax),Xmin); // x = x + v + mass[i]->speedX = mass[i]->posX - mass[i]->posX2; // v = v + F/M + } + + for (i=0; i<nb_mass; i++) {
+ // clear forces + mass[i]->out_forceX = mass[i]->forceX;
+ mass[i]->forceX = 0; + }
+ } + +// -------------------------------------------------------------- MASSES + + void m_mass(int argc,t_atom *argv)
+ // add a mass
+ // Id, nbr, mobile, invM, speedX, posX, forceX
+ { + t_atom sortie[5], aux[2]; + int M; + + mass[nb_mass] = new t_mass; // new pointer
+ mass[nb_mass]->Id = GetASymbol(argv[0]); // ID + mass[nb_mass]->mobile = GetAInt(argv[1]); // mobile + if (GetAInt(argv[2])==0) + M=1; + else M = GetAInt(argv[2]); + mass[nb_mass]->invM = 1/((float)M); // invM + mass[nb_mass]->speedX = 0; // vx
+ mass[nb_mass]->posX = GetAInt(argv[3]); // x + mass[nb_mass]->posX2 = GetAInt(argv[3]); // x
+ mass[nb_mass]->forceX = 0; // Fx + mass[nb_mass]->nbr = id_mass; // id_nbr + SETSYMBOL(aux,GetASymbol(argv[0])); + atom_string(aux,mass[nb_mass]->Id_string,Id_length); + nb_mass++ ; + id_mass++;
+ nb_mass = min ( nb_max_mass -1, nb_mass ); + SETFLOAT(&(sortie[0]),id_mass-1); + SETSYMBOL(&(sortie[1]),GetASymbol(argv[0])); + SETFLOAT(&(sortie[2]),mass[nb_mass-1]->mobile); + SETFLOAT(&(sortie[3]),M); + SETFLOAT(&(sortie[4]),mass[nb_mass-1]->posX); + ToOutAnything(1,gensym("Mass"),5,sortie); + } + + void m_forceX(int argc,t_atom *argv)
+ {
+ // add a force to mass(es) named Id + t_int i,aux; + t_atom atom[2]; + char buffer[Id_length]; + + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, Id_length); + for (i=0; i<nb_mass;i++) + { + aux = strcmp(buffer,mass[i]->Id_string); + if (aux == 0) + mass[i]->forceX += GetAFloat(argv[1]); + } + } + + void m_posX(int argc,t_atom *argv) + {
+ // displace mass(es) named Id to a certain position
+ t_int i,aux; + t_atom atom[2]; + char buffer[Id_length]; + + if (GetAFloat(argv[1]) < Xmax && GetAFloat(argv[1]) > Xmin) + { + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, Id_length); + for (i=0; i<nb_mass;i++) + { + aux = strcmp(buffer,mass[i]->Id_string); + if (aux == 0) + mass[i]->posX = GetAFloat(argv[1]); + } + } + } + + void m_set_mobile(int argc,t_atom *argv) + {
+ // set mass No to mobile
+ t_int i,aux; + + aux = GetAInt(argv[0]); + for (i=0; i<nb_mass;i++) + { + if (mass[i]->nbr == aux) + mass[i]->mobile = 1; + } + + } + + void m_set_fixe(int argc,t_atom *argv) + {
+ // set mass No to fixed
+ t_int i,aux; + + aux = GetAInt(argv[0]); + for (i=0; i<nb_mass;i++) + { + if (mass[i]->nbr == aux) + mass[i]->mobile = 0; + } + + } + + void m_delete_mass(int argc,t_atom *argv) + { + // Delete mass + t_int i,nb_link_delete=0; + t_atom sortie[5], aux[nb_link]; + + for (i=0; i<nb_link;i++) { + if (link[i]->mass1->nbr == GetAInt(argv[0]) || link[i]->mass2->nbr == GetAInt(argv[0])) { + SETFLOAT(&(aux[nb_link_delete]),link[i]->nbr); + nb_link_delete++; + } + } + + for (i=0; i<nb_link_delete;i++) + m_delete_link(1,&aux[i]); + + for (i=0; i<nb_mass;i++) + if (mass[i]->nbr == GetAInt(argv[0])) { + SETFLOAT(&(sortie[0]),mass[i]->nbr); + SETSYMBOL(&(sortie[1]),mass[i]->Id); + SETFLOAT(&(sortie[2]),mass[i]->mobile); + SETFLOAT(&(sortie[3]),1/mass[i]->invM); + SETFLOAT(&(sortie[4]),mass[i]->posX); + delete mass[i]; + mass[i] = mass[nb_mass-1]; + nb_mass--; + ToOutAnything(1,gensym("Mass deleted"),5,sortie); + break; + } + + } + + + void m_Xmax(int argc,t_atom *argv) + {
+ // set damping of link(s) named Id + Xmax = GetAFloat(argv[0]); + } + + void m_Xmin(int argc,t_atom *argv) + {
+ // set damping of link(s) named Id + Xmin = GetAFloat(argv[0]); + } + +// -------------------------------------------------------------- LINKS + + void m_link(int argc,t_atom *argv) + // add a link
+ // Id, nbr, *mass1, *mass2, K1, D1
+ {
+ t_atom sortie[7], aux[2]; + t_int i; + + link[nb_link] = new t_link; + link[nb_link]->Id = GetASymbol(argv[0]); + for (i=0; i<nb_mass;i++) + if (mass[i]->nbr==GetAInt(argv[1])) + link[nb_link]->mass1 = mass[i]; + else if(mass[i]->nbr==GetAInt(argv[2])) + link[nb_link]->mass2 = mass[i]; + link[nb_link]->K1 = GetAFloat(argv[3]);
+ link[nb_link]->D1 = GetAFloat(argv[4]); + link[nb_link]->D2 = GetAFloat(argv[5]); + link[nb_link]->longx = link[nb_link]->mass1->posX - link[nb_link]->mass2->posX; + link[nb_link]->longueur = link[nb_link]->longx ; + link[nb_link]->nbr = id_link; + link[nb_link]->distance_old = link[nb_link]->longueur; + SETSYMBOL(aux,GetASymbol(argv[0])); + atom_string(aux,(link[nb_link]->Id_string),Id_length); + nb_link++; + id_link++;
+ nb_link = min ( nb_max_link -1, nb_link ); + SETFLOAT(&(sortie[0]),id_link-1); + SETSYMBOL(&(sortie[1]),link[nb_link-1]->Id); + SETFLOAT(&(sortie[2]),GetAInt(argv[1])); + SETFLOAT(&(sortie[3]),GetAInt(argv[2])); + SETFLOAT(&(sortie[4]),link[nb_link-1]->K1); + SETFLOAT(&(sortie[5]),link[nb_link-1]->D1); + SETFLOAT(&(sortie[6]),link[nb_link-1]->D2); + ToOutAnything(1,gensym("Link"),7,sortie);
+ } + + void m_ilink(int argc,t_atom *argv) + // add interactor link
+ // Id, nbr, Id masses1, Id masses2, K1, D1
+ {
+ t_atom aux[2], arglist[6]; + t_int i,j, strvalue, strvalue2, imass1[nb_mass], nbmass1=0, imass2[nb_mass], nbmass2=0; + char buffer[Id_length], buffer2[Id_length]; + + ToOutAnything(1,gensym("iLink"),0,aux); + SETSYMBOL(aux,GetASymbol(argv[1])); + atom_string(aux, buffer, Id_length); + SETSYMBOL(aux,GetASymbol(argv[2])); + atom_string(aux, buffer2, Id_length); + + for (i=0;i<nb_mass;i++) { + strvalue=strcmp(buffer,mass[i]->Id_string); + strvalue2=strcmp(buffer2,mass[i]->Id_string); + if (strvalue ==0) { + imass1[nbmass1]=i; + nbmass1++; + } + if (strvalue2 ==0) { + imass2[nbmass2]=i; + nbmass2++; + } + } + + for(i=0;i<nbmass1;i++) + for(j=0;j<nbmass2;j++) + if (imass1[i] != imass2[j]) { + SETSYMBOL(&(arglist[0]),GetASymbol(argv[0])); + SETFLOAT(&(arglist[1]),mass[imass1[i]]->nbr); + SETFLOAT(&(arglist[2]),mass[imass2[j]]->nbr); + SETFLOAT(&(arglist[3]),GetAInt(argv[3])); + SETFLOAT(&(arglist[4]),GetAFloat(argv[4])); + SETFLOAT(&(arglist[5]),GetAFloat(argv[5])); + m_link(6,arglist); + } + } + + void m_setK(int argc,t_atom *argv) + {
+ // set rigidity of link(s) named Id + t_int i,aux; + t_atom atom[2]; + char buffer[Id_length]; + + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, Id_length); + for (i=0; i<nb_link;i++) + { + aux = strcmp(buffer,link[i]->Id_string); + if (aux == 0) + link[i]->K1 = GetAFloat(argv[1]); + } + } + + void m_setD(int argc,t_atom *argv) + {
+ // set damping of link(s) named Id + t_int i,aux; + t_atom atom[2]; + char buffer[Id_length]; + + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, Id_length); + for (i=0; i<nb_link;i++) + { + aux = strcmp(buffer,link[i]->Id_string); + if (aux == 0) + link[i]->D1 = GetAFloat(argv[1]); + } + } + + void m_setD2(int argc,t_atom *argv) + {
+ // set damping of link(s) named Id + t_int i,aux; + t_atom atom[2]; + char buffer[Id_length]; + + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, Id_length); + for (i=0; i<nb_link;i++) + { + aux = strcmp(buffer,link[i]->Id_string); + if (aux == 0) + link[i]->D2 = GetAFloat(argv[1]); + } + } + + void m_delete_link(int argc,t_atom *argv) + { + // Delete link + t_int i; + t_atom sortie[7]; + + for (i=0; i<nb_link;i++) + if (link[i]->nbr == GetAInt(argv[0])) { + SETFLOAT(&(sortie[0]),link[i]->nbr); + SETSYMBOL(&(sortie[1]),link[i]->Id); + SETFLOAT(&(sortie[2]),link[i]->mass1->nbr); + SETFLOAT(&(sortie[3]),link[i]->mass2->nbr); + SETFLOAT(&(sortie[4]),link[i]->K1); + SETFLOAT(&(sortie[5]),link[i]->D1); + SETFLOAT(&(sortie[6]),link[i]->D2); + delete link[i]; + link[i]=link[nb_link-1]; + nb_link--; + ToOutAnything(1,gensym("Link deleted"),7,sortie); + break; + } + } + + +// -------------------------------------------------------------- GET + + void m_get(int argc,t_atom *argv) + // get attributes + { + t_int i,j, auxstring1, auxstring2, auxstring3, aux; + t_symbol *auxarg; + t_atom sortie[4],atom[2]; + char buffer[Id_length],masses[]="massesPos",buffer2[Id_length], forces[] = "massesForces", links[] = "linksPos"; + + SETSYMBOL(atom,GetASymbol(argv[0])); + atom_string(atom, buffer, 20); + auxstring1 = strcmp(buffer,masses); //auxstring1 : 0 masses, 1 else + auxstring2 = strcmp(buffer,forces); //auxstring2 : 0 forces, 1 else + auxstring3 = strcmp(buffer,links); //auxstring2 : 0 links, 1 else + auxarg = GetASymbol(argv[1]); //auxarg : & symbol, 0 else + if (argc == 1) + { + if (auxstring1 == 0)// get all masses positions + for (i=0; i<nb_mass; i++) + { atom_string(atom, buffer, Id_length); + SETFLOAT(&sortie[0],mass[i]->posX); + ToOutAnything(0,gensym("massesPos"),1,sortie); + } + else if (auxstring2 == 0)// get all masses forces + for (i=0; i<nb_mass; i++) + { + SETFLOAT(&sortie[0],mass[i]->out_forceX); + ToOutAnything(0,gensym("massesForces"),1,sortie); + } + else if (auxstring3 == 0)// get all links positions + for (i=0; i<nb_link; i++) + { + SETFLOAT(&sortie[0],link[i]->mass1->posX); + SETFLOAT(&sortie[2],link[i]->mass2->posX); + ToOutAnything(0,gensym("linksPos"),2,sortie); + } + else // get all masses speeds + for (i=0; i<nb_mass; i++) + { + SETFLOAT(&sortie[0],mass[i]->speedX); + ToOutAnything(0,gensym("massesSpeeds"),1,sortie); + } + } + else if (auxstring1 == 0) // get mass positions + { + if (auxarg == 0) // No + { + for (j = 1; j<argc; j++) + for (i=0;i<nb_mass;i++) + if (mass[i]->nbr==GetAInt(argv[j])) + { + SETFLOAT(&sortie[0],mass[i]->posX); + ToOutAnything(0,gensym("massesPosNo"),1,sortie); + } + } + else //strin FLEXT_CADDMETHOD_(c,0,"Xmin",m_Xmin);g + { + for (j = 1; j<argc; j++) + { + SETSYMBOL(&atom[1],GetASymbol(argv[j])); + atom_string(&atom[1], buffer2, Id_length); + for (i=0;i<nb_mass;i++) + { + + aux = strcmp(buffer2,mass[i]->Id_string); + if (aux==0) + { + SETFLOAT(&sortie[0],mass[i]->posX); + ToOutAnything(0,gensym("massesPosId"),1,sortie); + } + } + } + } + } + else if (auxstring2 == 0) // get mass forces + { + if (auxarg == 0) // No + { + for (j = 1; j<argc; j++) + for (i=0;i<nb_mass;i++) + if (mass[i]->nbr==GetAInt(argv[j])) + { + SETFLOAT(&sortie[0],mass[i]->out_forceX); + ToOutAnything(0,gensym("massesForcesNo"),1,sortie); + } + } + else //string + { + for (j = 1; j<argc; j++) + { + SETSYMBOL(&atom[1],GetASymbol(argv[j])); + atom_string(&atom[1], buffer2, Id_length); + for (i=0;i<nb_mass;i++) + { + + aux = strcmp(buffer2,mass[i]->Id_string); + if (aux==0) + { + SETFLOAT(&sortie[0],mass[i]->out_forceX); + ToOutAnything(0,gensym("massesForcesId"),1,sortie); + } + } + } + } + } + else if (auxstring3 == 0) // get links positions + { + if (auxarg == 0) // No + { + for (j = 1; j<argc; j++) + for (i=0;i<nb_link;i++) + if (link[i]->nbr==GetAInt(argv[j])) + { + SETFLOAT(&sortie[0],link[i]->mass1->posX); + SETFLOAT(&sortie[2],link[i]->mass2->posX); + ToOutAnything(0,gensym("linksPosNo"),2,sortie); + } + } + else //string + { + for (j = 1; j<argc; j++) + { + SETSYMBOL(&atom[1],GetASymbol(argv[j])); + atom_string(&atom[1], buffer2, Id_length); + for (i=0;i<nb_link;i++) + { + + aux = strcmp(buffer2,link[i]->Id_string); + if (aux==0) + { + SETFLOAT(&sortie[0],link[i]->mass1->posX); + SETFLOAT(&sortie[2],link[i]->mass2->posX); + ToOutAnything(0,gensym("linksPosId"),2,sortie); + } + } + } + } + } + else // get mass speeds + { + if (auxarg == 0) // No + { + for (j = 1; j<argc; j++) + for (i=0;i<nb_mass;i++) + if (mass[i]->nbr==GetAInt(argv[j])) + { + SETFLOAT(&sortie[0],mass[i]->speedX); + ToOutAnything(0,gensym("massesSpeedsNo"),1,sortie); + } + } + else //string + { + for (j = 1; j<argc; j++) + { + SETSYMBOL(&atom[1],GetASymbol(argv[j])); + atom_string(&atom[1], buffer2, Id_length); + for (i=0;i<nb_mass;i++) + { + + aux = strcmp(buffer2,mass[i]->Id_string); + if (aux==0) + { + SETFLOAT(&sortie[0],mass[i]->speedX); + ToOutAnything(0,gensym("massesSpeedsId"),1,sortie); + } + } + } + } + } + + + } + + void m_mass_dumpl() + // List of masses positions on first outlet + { + t_atom sortie[nb_mass]; + t_int i; + + for (i=0; i<nb_mass; i++) { + SETFLOAT(&(sortie[i]),mass[i]->posX); + } + ToOutAnything(0, gensym("massesPosL"), nb_mass, sortie); + } + + void m_force_dumpl() + // List of masses positions on first outlet + { + t_atom sortie[nb_mass]; + t_int i; + + for (i=0; i<nb_mass; i++) { + SETFLOAT(&(sortie[i]),mass[i]->out_forceX); + } + ToOutAnything(0, gensym("massesForcesL"), nb_mass, sortie); + } + + void m_info_dumpl() + // List of masses positions on first outlet + { + t_atom sortie[7]; + t_int i; + + for (i=0; i<nb_mass; i++) { + SETFLOAT(&(sortie[0]),mass[i]->nbr); + SETSYMBOL(&(sortie[1]),mass[i]->Id); + SETFLOAT(&(sortie[2]),mass[i]->mobile); + SETFLOAT(&(sortie[3]),1/mass[i]->invM); + SETFLOAT(&(sortie[4]),mass[i]->posX); + ToOutAnything(1, gensym("Mass"), 5, sortie); + } + + for (i=0; i<nb_link; i++) { + SETFLOAT(&(sortie[0]),link[i]->nbr); + SETSYMBOL(&(sortie[1]),link[i]->Id); + SETFLOAT(&(sortie[2]),link[i]->mass1->nbr); + SETFLOAT(&(sortie[3]),link[i]->mass2->nbr); + SETFLOAT(&(sortie[4]),link[i]->K1); + SETFLOAT(&(sortie[5]),link[i]->D1); + SETFLOAT(&(sortie[6]),link[i]->D2); + ToOutAnything(1, gensym("Link"), 7, sortie); + } + + } + + +// -------------------------------------------------------------- GLOBAL VARIABLES + + t_link * link[nb_max_link];
+ t_mass * mass[nb_max_mass]; + t_float Xmin, Xmax, Ymin, Ymax; + int nb_link, nb_mass, id_mass, id_link; + +// -------------------------------------------------------------- SETUP + +private: + + static void setup(t_classid c) + { + // --- set up meth(i=0; i<nb_link;i++)ods (class scope) --- + + // register a bang method to the default inlet (0) + FLEXT_CADDBANG(c,0,m_bang); + + // set up tagged methods for the default inlet (0) + // the underscore _ after CADDMETHOD indicates that a message tag is used + // no, variable list or anything and all single arguments are recognized automatically, ... + FLEXT_CADDMETHOD_(c,0,"reset",m_reset); + FLEXT_CADDMETHOD_(c,0,"forceX",m_forceX); + FLEXT_CADDMETHOD_(c,0,"posX",m_posX); + FLEXT_CADDMETHOD_(c,0,"Xmax",m_Xmax); + FLEXT_CADDMETHOD_(c,0,"Xmin",m_Xmin); + FLEXT_CADDMETHOD_(c,0,"setMobile",m_set_mobile); + FLEXT_CADDMETHOD_(c,0,"setFixed",m_set_fixe); + FLEXT_CADDMETHOD_(c,0,"setK",m_setK); + FLEXT_CADDMETHOD_(c,0,"setD",m_setD); + FLEXT_CADDMETHOD_(c,0,"setD2",m_setD2); + FLEXT_CADDMETHOD_(c,0,"mass",m_mass); + FLEXT_CADDMETHOD_(c,0,"link",m_link); + FLEXT_CADDMETHOD_(c,0,"iLink",m_ilink); + FLEXT_CADDMETHOD_(c,0,"get",m_get); + FLEXT_CADDMETHOD_(c,0,"deleteLink",m_delete_link); + FLEXT_CADDMETHOD_(c,0,"deleteMass",m_delete_mass); + FLEXT_CADDMETHOD_(c,0,"massesPosL",m_mass_dumpl); + FLEXT_CADDMETHOD_(c,0,"infosL",m_info_dumpl); + FLEXT_CADDMETHOD_(c,0,"massesForcesL",m_force_dumpl); + } + + // for every registered method a callback has to be declared + FLEXT_CALLBACK(m_bang) + FLEXT_CALLBACK(m_mass_dumpl) + FLEXT_CALLBACK(m_info_dumpl) + FLEXT_CALLBACK(m_force_dumpl) + FLEXT_CALLBACK(m_reset) + FLEXT_CALLBACK_V(m_set_mobile) + FLEXT_CALLBACK_V(m_set_fixe) + FLEXT_CALLBACK_V(m_mass) + FLEXT_CALLBACK_V(m_link) + FLEXT_CALLBACK_V(m_ilink) + FLEXT_CALLBACK_V(m_Xmax) + FLEXT_CALLBACK_V(m_Xmin) + FLEXT_CALLBACK_V(m_setK) + FLEXT_CALLBACK_V(m_setD) + FLEXT_CALLBACK_V(m_setD2) + FLEXT_CALLBACK_V(m_forceX) + FLEXT_CALLBACK_V(m_posX) + FLEXT_CALLBACK_V(m_get) + FLEXT_CALLBACK_V(m_delete_link) + FLEXT_CALLBACK_V(m_delete_mass) +}; + +// instantiate the class (constructor has a variable argument list) +FLEXT_NEW_V("msd",msd) + + |