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authorN.N. <nimon@users.sourceforge.net>2005-04-28 15:22:14 +0000
committerN.N. <nimon@users.sourceforge.net>2005-04-28 15:22:14 +0000
commitebbeac04a2f1f57cac1bfd87b6da0f58c033e9a8 (patch)
tree625c01bf592bde50e33fa45fb7630300c7179b31 /msd/main.cpp
parente68340de2b4519bf90bf339256e25cde16db6c4b (diff)
MSD version 0.05
svn path=/trunk/externals/nusmuk/; revision=2846
Diffstat (limited to 'msd/main.cpp')
-rwxr-xr-xmsd/main.cpp344
1 files changed, 186 insertions, 158 deletions
diff --git a/msd/main.cpp b/msd/main.cpp
index f74ba3d..28b3276 100755
--- a/msd/main.cpp
+++ b/msd/main.cpp
@@ -30,7 +30,7 @@
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
- Version 0.04 -- 26.04.2005
+ Version 0.05 -- 28.04.2005
*/
// include flext header
@@ -38,7 +38,7 @@
#include <math.h>
// define constants
-#define MSD_VERSION 0.04
+#define MSD_VERSION 0.05
#define nb_max_link 4000
#define nb_max_mass 4000
#define Id_length 20
@@ -112,13 +112,14 @@ protected:
void m_reset()
{
t_int i;
-// t_atom sortie;
+ t_mass **mi;
+ t_link **li;
- for (i=0; i<nb_mass; i++) {
- delete mass[i];
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
+ delete (*mi);
}
- for (i=0; i<nb_link; i++) {
- delete link[i];
+ for (i=0, li=link; i<nb_link; li++,i++) {
+ delete (*li);
}
ToOutAnything(1,S_Reset,0,NULL);
nb_link = 0;
@@ -134,45 +135,43 @@ protected:
{
t_float F=0,Fx=0,distance,vitesse, X_new;
t_int i;
- struct _mass mass_1, mass_2;
+ t_mass **mi;
+ t_link **li;
-
- for (i=0; i<nb_link; i++) {
+ for (i=0, li=link; i<nb_link; li++,i++) {
// compute link forces
- distance = link[i]->mass1->posX-link[i]->mass2->posX; // L[n] = x1 - x2
+ distance = (*li)->mass1->posX-(*li)->mass2->posX; // L[n] = x1 - x2
if (distance < 0)
distance = -distance; // |L[n]|
- if (distance < link[i]->long_min || distance > link[i]->long_max)
+ if (distance < (*li)->long_min || distance > (*li)->long_max)
Fx = 0;
else { // Lmin < L < Lmax
- F = link[i]->K1 * (distance - link[i]->longueur) ; // F[n] = k1 (L[n] - L[0])
- F += link[i]->D1 * (distance - link[i]->distance_old) ; // F[n] = F[n] + D1 (L[n] - L[n-1])
+ F = (*li)->K1 * (distance - (*li)->longueur) ; // F[n] = k1 (L[n] - L[0])
+ F += (*li)->D1 * (distance - (*li)->distance_old) ; // F[n] = F[n] + D1 (L[n] - L[n-1])
if (distance != 0)
- Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; // Fx = F * Lx[n]/L[n]
+ Fx = F * ((*li)->mass1->posX - (*li)->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]
- link[i]->distance_old = distance; // L[n-1] = L[n]
+ (*li)->mass1->forceX -= Fx; // Fx1[n] = -Fx
+ (*li)->mass1->forceX -= (*li)->D2*(*li)->mass1->speedX; // Fx1[n] = Fx1[n] - D2 * vx1[n-1]
+ (*li)->mass2->forceX += Fx; // Fx2[n] = Fx
+ (*li)->mass2->forceX -= (*li)->D2*(*li)->mass2->speedX; // Fx2[n] = Fx2[n] - D2 * vx2[n-1]
+ (*li)->distance_old = distance; // L[n-1] = L[n]
}
-
-
- for (i=0; i<nb_mass; i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, 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]
- mass[i]->posX = max(min(X_new,Xmax),Xmin); // x[n-1] = x[n]
- mass[i]->speedX = mass[i]->posX - mass[i]->posX2; // vx[n] = x[n] - x[n-1]
+ if ((*mi)->mobile == 1) {
+ X_new = (*mi)->forceX * (*mi)->invM + 2*(*mi)->posX - (*mi)->posX2; // x[n] =Fx[n]/M+2x[n]-x[n-1]
+ (*mi)->posX2 = (*mi)->posX; // x[n-2] = x[n-1]
+ (*mi)->posX = max(min(X_new,Xmax),Xmin); // x[n-1] = x[n]
+ (*mi)->speedX = (*mi)->posX - (*mi)->posX2; // vx[n] = x[n] - x[n-1]
}
- for (i=0; i<nb_mass; i++) {
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
// clear forces
- mass[i]->out_forceX = mass[i]->forceX;
- mass[i]->forceX = 0; // Fx[n] = 0
+ (*mi)->out_forceX = (*mi)->forceX;
+ (*mi)->forceX = 0; // Fx[n] = 0
}
}
@@ -213,43 +212,54 @@ protected:
void m_forceX(int argc,t_atom *argv)
{
- // add a force to mass(es) named Id
+ // add a force to mass(es) named Id or No
t_int i;
- const t_symbol *sym = GetSymbol(argv[0]);
+ const t_symbol *sym = GetASymbol(argv[0]);
+ t_mass **mi;
if (argc != 2)
error("forceX : Idmass value");
- for (i=0; i<nb_mass;i++)
- {
- if (sym == mass[i]->Id)
- mass[i]->forceX += GetFloat(argv[1]);
- }
+ if (sym ==0)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ {
+ if (GetInt(argv[0]) == (*mi)->nbr) {
+ (*mi)->forceX = GetFloat(argv[1]);
+ break;
+ }
+ }
+ else
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ {
+ if (sym == (*mi)->Id)
+ (*mi)->forceX = GetFloat(argv[1]);
+ }
}
void m_posX(int argc,t_atom *argv)
{
- // displace mass(es) named Id to a certain position
+ // displace mass(es) named Id or No to a certain position
t_int i;
const t_symbol *sym = GetASymbol(argv[0]);
+ t_mass **mi;
if (argc != 2)
error("posX : Id/Nomass value");
if (GetFloat(argv[1]) < Xmax && GetFloat(argv[1]) > Xmin)
if (sym ==0)
- for (i=0; i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (GetInt(argv[0]) == mass[i]->nbr) {
- mass[i]->posX = GetFloat(argv[1]);
+ if (GetInt(argv[0]) == (*mi)->nbr) {
+ (*mi)->posX = GetFloat(argv[1]);
break;
}
}
else
- for (i=0; i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (sym == mass[i]->Id)
- mass[i]->posX = GetFloat(argv[1]);
+ if (sym == (*mi)->Id)
+ (*mi)->posX = GetFloat(argv[1]);
}
}
@@ -257,15 +267,16 @@ protected:
{
// set mass No to mobile
t_int i,aux;
+ t_mass **mi;
if (argc != 1)
error("setMobile : Idmass");
aux = GetInt(argv[0]);
- for (i=0; i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (mass[i]->nbr == aux)
- mass[i]->mobile = 1;
+ if ((*mi)->nbr == aux)
+ (*mi)->mobile = 1;
}
}
@@ -274,15 +285,16 @@ protected:
{
// set mass No to fixed
t_int i,aux;
+ t_mass **mi;
if (argc != 1)
error("setFixed : Idmass");
aux = GetInt(argv[0]);
- for (i=0; i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (mass[i]->nbr == aux)
- mass[i]->mobile = 0;
+ if ((*mi)->nbr == aux)
+ (*mi)->mobile = 0;
}
}
@@ -293,14 +305,16 @@ protected:
t_int i,nb_link_delete=0;
t_atom sortie[5];
NEWARR(t_atom,aux,nb_link);
-
+ t_mass **mi;
+ t_link **li;
+
if (argc != 1)
error("deleteMass : Nomass");
// Delete all associated links
- 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);
+ for (i=0, li=link; i<nb_link; li++,i++) {
+ if ((*li)->mass1->nbr == GetAInt(argv[0]) || (*li)->mass2->nbr == GetAInt(argv[0])) {
+ SetFloat((aux[nb_link_delete]),(*li)->nbr);
nb_link_delete++;
}
}
@@ -309,15 +323,15 @@ protected:
m_delete_link(1,&aux[i]);
// Delete mass
- 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]; // copy last mass instead
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ if ((*mi)->nbr == GetAInt(argv[0])) {
+ SetFloat((sortie[0]),(*mi)->nbr);
+ SetSymbol((sortie[1]),(*mi)->Id);
+ SetFloat((sortie[2]),(*mi)->mobile);
+ SetFloat((sortie[3]),1/(*mi)->invM);
+ SetFloat((sortie[4]),(*mi)->posX);
+ delete (*mi);
+ (*mi) = mass[nb_mass-1]; // copy last mass instead
nb_mass--;
ToOutAnything(1,S_Mass_deleted,5,sortie);
break;
@@ -354,18 +368,20 @@ protected:
t_int i;
t_mass *mass1 = NULL;
t_mass *mass2 = NULL;
-
+ t_mass **mi;
+
+
if (argc < 6 || argc > 8)
error("link : Id Nomass1 Nomass2 K D1 D2 (Lmin Lmax)");
// check for existence of link masses:
- for (i=0; i<nb_mass;i++)
- if (mass[i]->nbr==GetInt(argv[1])) // pointer to mass1
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ if ((*mi)->nbr==GetInt(argv[1])) // pointer to mass1
// we found mass1
- mass1 = mass[i];
- else if (mass[i]->nbr==GetInt(argv[2])) // pointer to mass2
+ mass1 = (*mi);
+ else if ((*mi)->nbr==GetInt(argv[2])) // pointer to mass2
// ... and mass2
- mass2 = mass[i];
+ mass2 = (*mi);
if (mass1 and mass2)
{
@@ -422,6 +438,7 @@ protected:
NEWARR(t_int,imass1,nb_mass);
NEWARR(t_int,imass2,nb_mass);
t_symbol *Id1, *Id2;
+ t_mass **mi;
if (argc < 6 || argc > 8)
error("ilink : Id Idmass1 Idmass2 K D1 D2 (Lmin Lmax)");
@@ -430,12 +447,12 @@ protected:
Id2 = GetSymbol(argv[2]);
ToOutAnything(1,S_iLink,0,aux);
- for (i=0;i<nb_mass;i++) {
- if (Id1 == mass[i]->Id) {
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
+ if (Id1 == (*mi)->Id) {
imass1[nbmass1]=i;
nbmass1++;
}
- if (Id2 == mass[i]->Id) {
+ if (Id2 == (*mi)->Id) {
imass2[nbmass2]=i;
nbmass2++;
}
@@ -471,14 +488,15 @@ protected:
// set rigidity of link(s) named Id
t_int i;
const t_symbol *sym = GetSymbol(argv[0]);
+ t_link **li;
if (argc != 2)
error("setK : IdLink Value");
- for (i=0; i<nb_link;i++)
+ for (i=0, li=link; i<nb_link; li++,i++)
{
- if (sym == link[i]->Id)
- link[i]->K1 = GetFloat(argv[1]);
+ if (sym == (*li)->Id)
+ (*li)->K1 = GetFloat(argv[1]);
}
}
@@ -487,14 +505,15 @@ protected:
// set damping of link(s) named Id
t_int i;
const t_symbol *sym = GetSymbol(argv[0]);
+ t_link **li;
if (argc != 2)
error("setD : IdLink Value");
- for (i=0; i<nb_link;i++)
+ for (i=0, li=link; i<nb_link; li++,i++)
{
- if (sym == link[i]->Id)
- link[i]->D1 = GetFloat(argv[1]);
+ if (sym == (*li)->Id)
+ (*li)->D1 = GetFloat(argv[1]);
}
}
@@ -503,14 +522,15 @@ protected:
// set damping of link(s) named Id
t_int i;
const t_symbol *sym = GetSymbol(argv[0]);
+ t_link **li;
if (argc != 2)
error("setD2 : IdLink Value");
- for (i=0; i<nb_link;i++)
+ for (i=0, li=link; i<nb_link; li++,i++)
{
- if (sym == link[i]->Id)
- link[i]->D2 = GetFloat(argv[1]);
+ if (sym == (*li)->Id)
+ (*li)->D2 = GetFloat(argv[1]);
}
}
@@ -519,21 +539,22 @@ protected:
// Delete link
t_int i;
t_atom sortie[7];
+ t_link **li;
if (argc != 1)
error("deleteLink : NoLink");
- for (i=0; i<nb_link;i++)
- if (link[i]->nbr == GetInt(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]; // copy last link instead
+ for (i=0, li=link; i<nb_link; li++,i++)
+ if ((*li)->nbr == GetInt(argv[0])) {
+ SetFloat((sortie[0]),(*li)->nbr);
+ SetSymbol((sortie[1]),(*li)->Id);
+ SetFloat((sortie[2]),(*li)->mass1->nbr);
+ SetFloat((sortie[3]),(*li)->mass2->nbr);
+ SetFloat((sortie[4]),(*li)->K1);
+ SetFloat((sortie[5]),(*li)->D1);
+ SetFloat((sortie[6]),(*li)->D2);
+ delete (*li);
+ (*li)=link[nb_link-1]; // copy last link instead
nb_link--;
ToOutAnything(1,S_Link_deleted,7,sortie);
break;
@@ -550,37 +571,40 @@ protected:
t_int i,j;
t_symbol *auxarg,*auxarg2, *auxtype;
t_atom sortie[3];
+ t_mass **mi;
+ t_link **li;
+
auxtype = GetSymbol(argv[0]);
auxarg = GetASymbol(argv[1]); //auxarg : & symbol, 0 else
if (argc == 1)
{
if (auxtype == S_massesPos) // get all masses positions
- for (i=0; i<nb_mass; i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->posX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->posX);
ToOutAnything(0,S_massesPos,2,sortie);
}
else if (auxtype == S_massesForces) // get all masses forces
- for (i=0; i<nb_mass; i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->out_forceX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->out_forceX);
ToOutAnything(0,S_massesForces,2,sortie);
}
else if (auxtype == S_linksPos) // get all links positions
- for (i=0; i<nb_link; i++)
+ for (i=0, li=link; i<nb_link; li++,i++)
{
- SetFloat(sortie[0],link[i]->nbr);
- SetFloat(sortie[1],link[i]->mass1->posX);
- SetFloat(sortie[2],link[i]->mass2->posX);
+ SetFloat(sortie[0],(*li)->nbr);
+ SetFloat(sortie[1],(*li)->mass1->posX);
+ SetFloat(sortie[2],(*li)->mass2->posX);
ToOutAnything(0,S_linksPos,3,sortie);
}
else // get all masses speeds
- for (i=0; i<nb_mass; i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->speedX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->speedX);
ToOutAnything(0,S_massesSpeeds,2,sortie);
}
}
@@ -589,11 +613,11 @@ protected:
if (auxarg == 0) // No
{
for (j = 1; j<argc; j++)
- for (i=0;i<nb_mass;i++)
- if (mass[i]->nbr==GetInt(argv[j]))
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ if ((*mi)->nbr==GetInt(argv[j]))
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->posX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->posX);
ToOutAnything(0,S_massesPosNo,2,sortie);
}
}
@@ -602,12 +626,12 @@ protected:
for (j = 1; j<argc; j++)
{
auxarg2 = GetSymbol(argv[j]);
- for (i=0;i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (auxarg2==mass[i]->Id)
+ if (auxarg2==(*mi)->Id)
{
- SetSymbol(sortie[0],mass[i]->Id);
- SetFloat(sortie[1],mass[i]->posX);
+ SetSymbol(sortie[0],(*mi)->Id);
+ SetFloat(sortie[1],(*mi)->posX);
ToOutAnything(0,S_massesPosId,2,sortie);
}
}
@@ -619,11 +643,11 @@ protected:
if (auxarg == 0) // No
{
for (j = 1; j<argc; j++)
- for (i=0;i<nb_mass;i++)
- if (mass[i]->nbr==GetInt(argv[j]))
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ if ((*mi)->nbr==GetInt(argv[j]))
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->out_forceX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->out_forceX);
ToOutAnything(0,S_massesForcesNo,2,sortie);
}
}
@@ -632,12 +656,12 @@ protected:
for (j = 1; j<argc; j++)
{
auxarg2 = GetSymbol(argv[j]);
- for (i=0;i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (auxarg2==mass[i]->Id)
+ if (auxarg2==(*mi)->Id)
{
- SetSymbol(sortie[0],mass[i]->Id);
- SetFloat(sortie[1],mass[i]->out_forceX);
+ SetSymbol(sortie[0],(*mi)->Id);
+ SetFloat(sortie[1],(*mi)->out_forceX);
ToOutAnything(0,S_massesForcesId,2,sortie);
}
}
@@ -649,12 +673,12 @@ protected:
if (auxarg == 0) // No
{
for (j = 1; j<argc; j++)
- for (i=0;i<nb_link;i++)
- if (link[i]->nbr==GetInt(argv[j]))
+ for (i=0, li=link; i<nb_link; li++,i++)
+ if ((*li)->nbr==GetInt(argv[j]))
{
- SetFloat(sortie[0],link[i]->nbr);
- SetFloat(sortie[1],link[i]->mass1->posX);
- SetFloat(sortie[2],link[i]->mass2->posX);
+ SetFloat(sortie[0],(*li)->nbr);
+ SetFloat(sortie[1],(*li)->mass1->posX);
+ SetFloat(sortie[2],(*li)->mass2->posX);
ToOutAnything(0,S_linksPosNo,3,sortie);
}
}
@@ -663,13 +687,13 @@ protected:
for (j = 1; j<argc; j++)
{
auxarg2 = GetSymbol(argv[j]);
- for (i=0;i<nb_link;i++)
+ for (i=0, li=link; i<nb_link; li++,i++)
{
- if (auxarg2==link[i]->Id)
+ if (auxarg2==(*li)->Id)
{
- SetSymbol(sortie[0],link[i]->Id);
- SetFloat(sortie[1],link[i]->mass1->posX);
- SetFloat(sortie[2],link[i]->mass2->posX);
+ SetSymbol(sortie[0],(*li)->Id);
+ SetFloat(sortie[1],(*li)->mass1->posX);
+ SetFloat(sortie[2],(*li)->mass2->posX);
ToOutAnything(0,S_linksPosId,3,sortie);
}
}
@@ -681,11 +705,11 @@ protected:
if (auxarg == 0) // No
{
for (j = 1; j<argc; j++)
- for (i=0;i<nb_mass;i++)
- if (mass[i]->nbr==GetInt(argv[j]))
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
+ if ((*mi)->nbr==GetInt(argv[j]))
{
- SetFloat(sortie[0],mass[i]->nbr);
- SetFloat(sortie[1],mass[i]->speedX);
+ SetFloat(sortie[0],(*mi)->nbr);
+ SetFloat(sortie[1],(*mi)->speedX);
ToOutAnything(0,S_massesSpeedsNo,2,sortie);
}
}
@@ -694,12 +718,12 @@ protected:
for (j = 1; j<argc; j++)
{
auxarg2 = GetSymbol(argv[j]);
- for (i=0;i<nb_mass;i++)
+ for (i=0, mi=mass; i<nb_mass; mi++, i++)
{
- if (auxarg2==mass[i]->Id)
+ if (auxarg2==(*mi)->Id)
{
- SetSymbol(sortie[0],mass[i]->Id);
- SetFloat(sortie[1],mass[i]->speedX);
+ SetSymbol(sortie[0],(*mi)->Id);
+ SetFloat(sortie[1],(*mi)->speedX);
ToOutAnything(0,S_massesSpeedsId,2,sortie);
}
}
@@ -715,9 +739,10 @@ protected:
{
NEWARR(t_atom,sortie,nb_mass);
t_int i;
+ t_mass **mi;
- for (i=0; i<nb_mass; i++) {
- SetFloat((sortie[i]),mass[i]->posX);
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
+ SetFloat((sortie[i]),(*mi)->posX);
}
ToOutAnything(0, S_massesPosL, nb_mass, sortie);
DELARR(sortie);
@@ -728,9 +753,10 @@ protected:
{
NEWARR(t_atom,sortie,nb_mass);
t_int i;
+ t_mass **mi;
- for (i=0; i<nb_mass; i++) {
- SetFloat((sortie[i]),mass[i]->out_forceX);
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
+ SetFloat((sortie[i]),(*mi)->out_forceX);
}
ToOutAnything(0, S_massesForcesL, nb_mass, sortie);
DELARR(sortie);
@@ -741,24 +767,26 @@ protected:
{
t_atom sortie[7];
t_int i;
+ t_mass **mi;
+ t_link **li;
- 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);
+ for (i=0, mi=mass; i<nb_mass; mi++, i++) {
+ SetFloat((sortie[0]),(*mi)->nbr);
+ SetSymbol((sortie[1]),(*mi)->Id);
+ SetFloat((sortie[2]),(*mi)->mobile);
+ SetFloat((sortie[3]),1/(*mi)->invM);
+ SetFloat((sortie[4]),(*mi)->posX);
ToOutAnything(1, S_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);
+ for (i=0, li=link; i<nb_link; li++,i++) {
+ SetFloat((sortie[0]),(*li)->nbr);
+ SetSymbol((sortie[1]),(*li)->Id);
+ SetFloat((sortie[2]),(*li)->mass1->nbr);
+ SetFloat((sortie[3]),(*li)->mass2->nbr);
+ SetFloat((sortie[4]),(*li)->K1);
+ SetFloat((sortie[5]),(*li)->D1);
+ SetFloat((sortie[6]),(*li)->D2);
ToOutAnything(1, S_Link, 7, sortie);
}