Update of /cvsroot/pure-data/externals/nusmuk/msd
In directory sc8-pr-cvs1.sourceforge.net:/tmp/cvs-serv7919/nusmuk/msd
Modified Files:
main.cpp
Log Message:
some small changes for Windows compilation
Index: main.cpp
===================================================================
RCS file: /cvsroot/pure-data/externals/nusmuk/msd/main.cpp,v
retrieving revision 1.5
retrieving revision 1.6
diff -C2 -d -r1.5 -r1.6
*** main.cpp 25 Apr 2005 16:18:38 -0000 1.5
--- main.cpp 26 Apr 2005 11:39:49 -0000 1.6
***************
*** 40,45 ****
// define constants
#define MSD_VERSION 0.03
! #define nb_max_link 4000
! #define nb_max_mass 4000
#define Id_length 20
--- 40,45 ----
// define constants
#define MSD_VERSION 0.03
! #define nb_max_link 4000
! #define nb_max_mass 4000
#define Id_length 20
***************
*** 49,72 ****
#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;
! } 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, long_min, long_max;
--- 49,80 ----
#endif
! #define max(a,b) ( ((a) > (b)) ? (a) : (b) )
#define min(a,b) ( ((a) < (b)) ? (a) : (b) )
! #ifdef _MSC_VER
! #define NEWARR(type,var,size) type *var = new type[size]
! #define DELARR(var) delete[] var
! #else
! #define NEWARR(type,var,size) type var[size]
! #define DELARR(var) ((void)0)
! #endif
!
! 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;
! } 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, long_min, long_max;
***************
*** 75,79 ****
-
class msd:
public flext_base
--- 83,86 ----
***************
*** 106,110 ****
{
t_int i;
! t_atom sortie[0];
for (i=0; i<nb_mass; i++) {
--- 113,117 ----
{
t_int i;
! // t_atom sortie;
for (i=0; i<nb_mass; i++) {
***************
*** 114,119 ****
delete link[i];
}
! ToOutAnything(1,S_Reset,0,sortie);
! nb_link = 0;
nb_mass = 0;
id_mass = 0;
--- 121,126 ----
delete link[i];
}
! ToOutAnything(1,S_Reset,0,NULL);
! nb_link = 0;
nb_mass = 0;
id_mass = 0;
***************
*** 126,134 ****
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; // L[n] = x1 - x2
--- 133,141 ----
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; // L[n] = x1 - x2
***************
*** 142,148 ****
if (distance != 0)
Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; // Fx = F * Lx[n]/L[n]
! }
link[i]->mass1->forceX -= Fx; // Fx1[n] = -Fx
! link[i]->mass1->forceX -= link[i]->D2*link[i]->mass1->speedX; // Fx1[n] = Fx1[n] - D2 * vx1[n-1]
link[i]->mass2->forceX += Fx; // Fx2[n] = Fx
link[i]->mass2->forceX -= link[i]->D2*link[i]->mass2->speedX; // Fx2[n] = Fx2[n] - D2 * vx2[n-1]
--- 149,155 ----
if (distance != 0)
Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; // Fx = F * Lx[n]/L[n]
! }
link[i]->mass1->forceX -= Fx; // Fx1[n] = -Fx
! link[i]->mass1->forceX -= link[i]->D2*link[i]->mass1->speedX; // Fx1[n] = Fx1[n] - D2 * vx1[n-1]
link[i]->mass2->forceX += Fx; // Fx2[n] = Fx
link[i]->mass2->forceX -= link[i]->D2*link[i]->mass2->speedX; // Fx2[n] = Fx2[n] - D2 * vx2[n-1]
***************
*** 151,158 ****
}
!
! 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; // x[n] =Fx[n]/M+2x[n]-x[n-1]
mass[i]->posX2 = mass[i]->posX; // x[n-2] = x[n-1]
--- 158,165 ----
}
!
! 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; // x[n] =Fx[n]/M+2x[n]-x[n-1]
mass[i]->posX2 = mass[i]->posX; // x[n-2] = x[n-1]
***************
*** 161,176 ****
}
! for (i=0; i<nb_mass; i++) {
// clear forces
! mass[i]->out_forceX = mass[i]->forceX;
mass[i]->forceX = 0; // Fx[n] = 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];
--- 168,183 ----
}
! for (i=0; i<nb_mass; i++) {
// clear forces
! mass[i]->out_forceX = mass[i]->forceX;
mass[i]->forceX = 0; // Fx[n] = 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];
***************
*** 180,184 ****
error("mass : Id mobile mass X");
! mass[nb_mass] = new t_mass; // new mass
mass[nb_mass]->Id = GetSymbol(argv[0]); // ID
mass[nb_mass]->mobile = GetInt(argv[1]); // mobile
--- 187,191 ----
error("mass : Id mobile mass X");
! mass[nb_mass] = new t_mass; // new mass
mass[nb_mass]->Id = GetSymbol(argv[0]); // ID
mass[nb_mass]->mobile = GetInt(argv[1]); // mobile
***************
*** 187,197 ****
else M = GetFloat(argv[2]);
mass[nb_mass]->invM = 1/(M); // 1/M
! mass[nb_mass]->speedX = 0; // vx[n]
mass[nb_mass]->posX = GetFloat(argv[3]); // x[n]
! mass[nb_mass]->posX2 = GetFloat(argv[3]); // x[n-1]
mass[nb_mass]->forceX = 0; // Fx[n]
mass[nb_mass]->nbr = id_mass; // id number
nb_mass++ ;
! id_mass++;
nb_mass = min ( nb_max_mass -1, nb_mass );
SetFloat((sortie[0]),id_mass-1);
--- 194,204 ----
else M = GetFloat(argv[2]);
mass[nb_mass]->invM = 1/(M); // 1/M
! mass[nb_mass]->speedX = 0; // vx[n]
mass[nb_mass]->posX = GetFloat(argv[3]); // x[n]
! mass[nb_mass]->posX2 = GetFloat(argv[3]); // x[n-1]
mass[nb_mass]->forceX = 0; // Fx[n]
mass[nb_mass]->nbr = id_mass; // id number
nb_mass++ ;
! id_mass++;
nb_mass = min ( nb_max_mass -1, nb_mass );
SetFloat((sortie[0]),id_mass-1);
***************
*** 203,208 ****
}
! void m_forceX(int argc,t_atom *argv)
! {
// add a force to mass(es) named Id
t_int i;
--- 210,215 ----
}
! void m_forceX(int argc,t_atom *argv)
! {
// add a force to mass(es) named Id
t_int i;
***************
*** 220,225 ****
void m_posX(int argc,t_atom *argv)
! {
! // displace mass(es) named Id to a certain position
t_int i;
const t_symbol *sym = GetASymbol(argv[0]);
--- 227,232 ----
void m_posX(int argc,t_atom *argv)
! {
! // displace mass(es) named Id to a certain position
t_int i;
const t_symbol *sym = GetASymbol(argv[0]);
***************
*** 246,251 ****
void m_set_mobile(int argc,t_atom *argv)
! {
! // set mass No to mobile
t_int i,aux;
--- 253,258 ----
void m_set_mobile(int argc,t_atom *argv)
! {
! // set mass No to mobile
t_int i,aux;
***************
*** 263,268 ****
void m_set_fixe(int argc,t_atom *argv)
! {
! // set mass No to fixed
t_int i,aux;
--- 270,275 ----
void m_set_fixe(int argc,t_atom *argv)
! {
! // set mass No to fixed
t_int i,aux;
***************
*** 283,287 ****
// Delete mass
t_int i,nb_link_delete=0;
! t_atom sortie[5], aux[nb_link];
if (argc != 1)
--- 290,295 ----
// Delete mass
t_int i,nb_link_delete=0;
! t_atom sortie[5];
! NEWARR(t_atom,aux,nb_link);
if (argc != 1)
***************
*** 313,321 ****
break;
}
}
void m_Xmax(int argc,t_atom *argv)
! {
// set X max
if (argc != 1)
--- 321,331 ----
break;
}
+
+ DELARR(aux);
}
void m_Xmax(int argc,t_atom *argv)
! {
// set X max
if (argc != 1)
***************
*** 325,329 ****
void m_Xmin(int argc,t_atom *argv)
! {
// set X min
if (argc != 1)
--- 335,339 ----
void m_Xmin(int argc,t_atom *argv)
! {
// set X min
if (argc != 1)
***************
*** 336,342 ****
void m_link(int argc,t_atom *argv)
! // add a link
! // Id, *mass1, *mass2, K1, D1, D2, (Lmin,Lmax)
! {
t_atom sortie[7], aux[2];
t_int i;
--- 346,352 ----
void m_link(int argc,t_atom *argv)
! // add a link
! // Id, *mass1, *mass2, K1, D1, D2, (Lmin,Lmax)
! {
t_atom sortie[7], aux[2];
t_int i;
***************
*** 351,355 ****
else if(mass[i]->nbr==GetAInt(argv[2])) // pointer to mass2
link[nb_link]->mass2 = mass[i];
! link[nb_link]->K1 = GetFloat(argv[3]); // K1
link[nb_link]->D1 = GetFloat(argv[4]); // D1
link[nb_link]->D2 = GetFloat(argv[5]); // D2
--- 361,365 ----
else if(mass[i]->nbr==GetAInt(argv[2])) // pointer to mass2
link[nb_link]->mass2 = mass[i];
! link[nb_link]->K1 = GetFloat(argv[3]); // K1
link[nb_link]->D1 = GetFloat(argv[4]); // D1
link[nb_link]->D2 = GetFloat(argv[5]); // D2
***************
*** 376,380 ****
}
nb_link++;
! id_link++;
nb_link = min ( nb_max_link -1, nb_link );
SetFloat((sortie[0]),id_link-1);
--- 386,390 ----
}
nb_link++;
! id_link++;
nb_link = min ( nb_max_link -1, nb_link );
SetFloat((sortie[0]),id_link-1);
***************
*** 385,397 ****
SetFloat((sortie[5]),link[nb_link-1]->D1);
SetFloat((sortie[6]),link[nb_link-1]->D2);
! ToOutAnything(1,S_Link,7,sortie);
}
void m_ilink(int argc,t_atom *argv)
! // add interactor link
! // Id, Id masses1, Id masses2, K1, D1, D2, (Lmin, Lmax)
! {
t_atom aux[2], arglist[8];
! t_int i,j, imass1[nb_mass], nbmass1=0, imass2[nb_mass], nbmass2=0;
t_symbol *Id1, *Id2;
--- 395,409 ----
SetFloat((sortie[5]),link[nb_link-1]->D1);
SetFloat((sortie[6]),link[nb_link-1]->D2);
! ToOutAnything(1,S_Link,7,sortie);
}
void m_ilink(int argc,t_atom *argv)
! // add interactor link
! // Id, Id masses1, Id masses2, K1, D1, D2, (Lmin, Lmax)
! {
t_atom aux[2], arglist[8];
! t_int i,j,nbmass1=0,nbmass2=0;
! NEWARR(t_int,imass1,nb_mass);
! NEWARR(t_int,imass2,nb_mass);
t_symbol *Id1, *Id2;
***************
*** 434,441 ****
m_link(argc,arglist);
}
}
void m_setK(int argc,t_atom *argv)
! {
// set rigidity of link(s) named Id
t_int i;
--- 446,456 ----
m_link(argc,arglist);
}
+
+ DELARR(imass1);
+ DELARR(imass2);
}
void m_setK(int argc,t_atom *argv)
! {
// set rigidity of link(s) named Id
t_int i;
***************
*** 453,457 ****
void m_setD(int argc,t_atom *argv)
! {
// set damping of link(s) named Id
t_int i;
--- 468,472 ----
void m_setD(int argc,t_atom *argv)
! {
// set damping of link(s) named Id
t_int i;
***************
*** 469,473 ****
void m_setD2(int argc,t_atom *argv)
! {
// set damping of link(s) named Id
t_int i;
--- 484,488 ----
void m_setD2(int argc,t_atom *argv)
! {
// set damping of link(s) named Id
t_int i;
***************
*** 657,661 ****
if (auxarg2==mass[i]->Id)
{
! SETFLOAT(&sortie[0],mass[i]->speedX);
ToOutAnything(0,S_massesSpeedsId,1,sortie);
}
--- 672,676 ----
if (auxarg2==mass[i]->Id)
{
! SetFloat(sortie[0],mass[i]->speedX);
ToOutAnything(0,S_massesSpeedsId,1,sortie);
}
***************
*** 671,675 ****
// List of masses positions on first outlet
{
! t_atom sortie[nb_mass];
t_int i;
--- 686,690 ----
// List of masses positions on first outlet
{
! NEWARR(t_atom,sortie,nb_mass);
t_int i;
***************
*** 678,681 ****
--- 693,697 ----
}
ToOutAnything(0, S_massesPosL, nb_mass, sortie);
+ DELARR(sortie);
}
***************
*** 683,687 ****
// List of masses forces on first outlet
{
! t_atom sortie[nb_mass];
t_int i;
--- 699,703 ----
// List of masses forces on first outlet
{
! NEWARR(t_atom,sortie,nb_mass);
t_int i;
***************
*** 690,693 ****
--- 706,710 ----
}
ToOutAnything(0, S_massesForcesL, nb_mass, sortie);
+ DELARR(sortie);
}
***************
*** 724,728 ****
// -----------------------------------------------------------------------------------
! t_link * link[nb_max_link]; // Pointer table on links
t_mass * mass[nb_max_mass]; // Pointer table on masses
t_float Xmin, Xmax; // Limit values
--- 741,745 ----
// -----------------------------------------------------------------------------------
! t_link * link[nb_max_link]; // Pointer table on links
t_mass * mass[nb_max_mass]; // Pointer table on masses
t_float Xmin, Xmax; // Limit values