diff options
Diffstat (limited to 'msd')
| -rw-r--r-- | msd/help-msd.pd | 220 | ||||
| -rwxr-xr-x | msd/main.cpp | 104 |
2 files changed, 214 insertions, 110 deletions
diff --git a/msd/help-msd.pd b/msd/help-msd.pd index 80d792d..e77b750 100644 --- a/msd/help-msd.pd +++ b/msd/help-msd.pd @@ -1,76 +1,170 @@ -#N canvas 0 0 794 877 10; +#N canvas 367 274 570 449 10; +#N canvas 271 52 742 843 masses 1; #X obj 33 821 msd; -#X obj 62 14 cnv 15 610 305 empty empty CREATION 20 12 0 14 -262131 +#X obj 62 154 cnv 15 610 180 empty empty CREATION 20 12 0 14 -262131 -66577 0; -#X msg 79 43 reset; -#X text 249 74 Add a mass; -#X text 335 75 \$1 : Id (symbol); -#X text 334 95 \$2 : fixed or mobile (0/1); -#X text 334 113 \$3 : mass; -#X text 334 151 \$1 : Id (symbol); -#X text 246 151 Add a link; -#X text 333 171 \$2 : creation No of mass1; -#X text 333 189 \$3 : creation No of mass2; -#X text 332 207 \$4 : rigidity; -#X text 251 44 Delete all masses and links; -#X text 332 225 \$5 : viscosity; -#X text 332 242 \$6 : damping; -#X obj 62 324 cnv 15 610 60 empty empty COMPUTATION 20 12 0 14 -261689 +#X msg 79 183 reset; +#X text 249 214 Add a mass; +#X text 335 215 \$1 : Id (symbol); +#X text 334 235 \$2 : fixed or mobile (0/1); +#X text 334 253 \$3 : mass; +#X text 251 184 Delete all masses and links; +#X obj 62 338 cnv 15 610 60 empty empty COMPUTATION 20 12 0 14 -261689 -66577 0; -#X msg 82 353 bang; -#X text 235 353 Compute new masses positions; -#X obj 61 388 cnv 15 610 220 empty empty DYNAMIC_SETTING 20 12 0 14 +#X msg 82 367 bang; +#X text 235 367 Compute new masses positions; +#X obj 61 403 cnv 15 610 210 empty empty DYNAMIC_SETTING 20 12 0 14 -262131 -66577 0; -#X msg 169 410 setD \$1 \$2; -#X text 354 428 \$1 : Id (symbol); -#X text 354 446 \$2 : New value; -#X msg 87 410 setK \$1 \$2; -#X text 350 482 \$1 : Id (symbol); -#X text 350 500 \$2 : New value; -#X text 348 539 \$1 : Id (symbol); -#X text 348 557 \$2 : New value; -#X msg 87 462 posX \$1 \$2; -#X text 350 464 Set position of mass(es); -#X text 347 522 Add force on mass(es); -#X msg 85 521 forceX \$1 \$2; -#X msg 255 410 setD2 \$1 \$2; -#X text 354 410 Set rigidity \, viscosity or damping of link(s); -#X obj 60 617 cnv 15 610 198 empty empty GET_ATTRIBUTES 20 12 0 14 +#X text 350 449 \$1 : Id (symbol); +#X text 350 467 \$2 : New value; +#X text 348 503 \$1 : Id (symbol); +#X text 348 521 \$2 : New value; +#X msg 87 429 posX \$1 \$2; +#X text 350 431 Set position of mass(es); +#X text 347 486 Add force on mass(es); +#X msg 85 485 forceX \$1 \$2; +#X obj 61 617 cnv 15 610 198 empty empty GET_ATTRIBUTES 20 12 0 14 -261689 -66577 0; -#X msg 146 644 massePosL; -#X msg 146 672 masseForcesL; -#X text 247 644 output all masses positions in a list on outlet No +#X msg 147 644 massePosL; +#X msg 147 672 masseForcesL; +#X text 248 644 output all masses positions in a list on outlet No 1; -#X text 246 673 output all masses forces in a list on outlet No 1; -#X msg 145 710 get \$1 \$2; -#X text 248 711 Get specific attribute; -#X text 248 736 \$1 : Attribute type ( massesPos / massesSpeeds / massesForces +#X text 247 673 output all masses forces in a list on outlet No 1; +#X msg 146 710 get \$1 \$2; +#X text 249 711 Get specific attribute; +#X text 249 736 \$1 : Attribute type ( massesPos / massesSpeeds / massesForces / linksPos ); -#X text 248 773 \$2 : Id (symbol or creations numbers); -#X text 334 131 \$4 : position; -#X msg 79 74 mass \$1 \$2 \$3 \$4; -#X msg 76 151 link \$1 \$2 \$3 \$4 \$5 \$6; -#X msg 75 258 deleteMass \$1; -#X text 240 260 Delete a mass and associated links; -#X text 330 277 \$1 : Creation No of mass; -#X msg 74 294 deleteLink \$1; -#X text 239 296 Delete a link; -#X text 340 296 \$1 : Creation No of link; -#X msg 143 793 infosL; -#X text 246 793 Get infos on all masses and links on outlet No 2; -#X msg 84 573 Xmin \$1 \, Xmax \$1; -#X text 347 576 Set minimimum and maximum X of masses; -#X text 347 593 \$1 : Value; +#X text 249 773 \$2 : Id (symbol or creations numbers); +#X msg 79 214 mass \$1 \$2 \$3 \$4; +#X msg 79 290 deleteMass \$1; +#X text 248 292 Delete a mass and associated links; +#X text 338 309 \$1 : Creation No of mass; +#X msg 144 793 infosL; +#X text 247 793 Get infos on all masses and links on outlet No 2; +#X msg 84 535 Xmin \$1 \, Xmax \$1; +#X text 347 538 Set minimimum and maximum X of masses; +#X text 347 555 \$1 : Value; +#X text 73 22 MASSES :; +#X text 66 69 They got only one physical parameter \, the value of +their; +#X text 67 83 mass. They can be mobile or fixed \, in this case forces +; +#X text 67 54 The msd masses are the principals objects of the model. +; +#X text 66 97 applied on them automatically \, by links \, or manually +\, by; +#X text 67 112 messages \, don't do anything.; +#X msg 81 574 setMobile \$1 \, setFixed \$1; +#X text 345 578 Change mobile parameter; +#X text 345 594 \$1 : Creation No of mass; +#X text 334 271 \$4 : initial position; #X connect 2 0 0 0; +#X connect 9 0 0 0; #X connect 16 0 0 0; +#X connect 19 0 0 0; +#X connect 21 0 0 0; #X connect 22 0 0 0; -#X connect 27 0 0 0; +#X connect 25 0 0 0; +#X connect 29 0 0 0; #X connect 30 0 0 0; -#X connect 34 0 0 0; +#X connect 33 0 0 0; #X connect 35 0 0 0; -#X connect 38 0 0 0; -#X connect 43 0 0 0; #X connect 44 0 0 0; -#X connect 45 0 0 0; -#X connect 48 0 0 0; -#X connect 51 0 0 0; +#X restore 281 323 pd masses; +#N canvas 222 83 808 841 links 0; +#X obj 33 821 msd; +#X obj 62 250 cnv 15 610 305 empty empty CREATION 20 12 0 14 -262131 +-66577 0; +#X msg 79 279 reset; +#X text 338 308 \$1 : Id (symbol); +#X text 250 308 Add a link; +#X text 337 328 \$2 : creation No of mass1; +#X text 337 346 \$3 : creation No of mass2; +#X text 336 364 \$4 : rigidity; +#X text 251 280 Delete all masses and links; +#X text 336 382 \$5 : viscosity; +#X text 336 399 \$6 : damping; +#X obj 61 561 cnv 15 610 82 empty empty DYNAMIC_SETTING 20 12 0 14 +-262131 -66577 0; +#X msg 172 583 setD \$1 \$2; +#X text 354 601 \$1 : Id (symbol); +#X text 354 619 \$2 : New value; +#X msg 87 583 setK \$1 \$2; +#X msg 255 583 setD2 \$1 \$2; +#X text 354 583 Set rigidity \, viscosity or damping of link(s); +#X obj 60 650 cnv 15 610 140 empty empty GET_ATTRIBUTES 20 12 0 14 +-261689 -66577 0; +#X msg 75 679 get \$1 \$2; +#X text 237 680 Get specific attribute; +#X text 237 705 \$1 : Attribute type ( massesPos / massesSpeeds / massesForces +/ linksPos ); +#X text 237 742 \$2 : Id (symbol or creations numbers); +#X msg 78 308 link \$1 \$2 \$3 \$4 \$5 \$6; +#X msg 74 532 deleteLink \$1; +#X text 239 534 Delete a link; +#X text 340 534 \$1 : Creation No of link; +#X msg 73 762 infosL; +#X text 236 762 Get infos on all masses and links on outlet No 2; +#X msg 73 423 iLink \$1 \$2 \$3 \$4 \$5 \$6; +#X text 338 308 \$1 : Id (symbol); +#X text 250 308 Add a link; +#X text 337 328 \$2 : creation No of mass1; +#X text 337 346 \$3 : creation No of mass2; +#X text 336 364 \$4 : rigidity; +#X text 336 382 \$5 : viscosity; +#X text 336 399 \$6 : damping; +#X text 410 422 \$1 : Id (symbol); +#X text 409 478 \$4 : rigidity; +#X text 409 496 \$5 : viscosity; +#X text 409 513 \$6 : damping; +#X text 410 422 \$1 : Id (symbol); +#X text 409 478 \$4 : rigidity; +#X text 409 496 \$5 : viscosity; +#X text 409 513 \$6 : damping; +#X text 248 423 Add an interactor link; +#X text 94 52 LINKS :; +#X text 71 91 parameters : length \, rigidity \, viscosity and damping. +; +#X text 72 78 Links connect masses two by two. They got 4 physicals +; +#X text 70 134 the two masses at the creation.; +#X text 71 120 message. The lenght is initialised to the distance between +; +#X text 71 106 Rigidity \, viscosity and damping are defined by the +creation; +#X text 409 442 \$2 : Id (symbol) of masses type 1; +#X text 409 460 \$3 : Id (symbol) of masses type 2; +#X text 70 148 Interactor links are links between mutiples masses \, +instead; +#X text 70 161 of creation number \, the masses linked are defined +with; +#X text 69 175 their Id.; +#X connect 2 0 0 0; +#X connect 15 0 0 0; +#X connect 19 0 0 0; +#X connect 23 0 0 0; +#X connect 24 0 0 0; +#X connect 27 0 0 0; +#X connect 29 0 0 0; +#X restore 283 353 pd links; +#X text 135 323 HELP on masses --->; +#X text 134 354 HELP on links --->; +#X text 154 34 MSD : mass - spring - damper model; +#X text 75 79 MSD is the 1D object of the msd objects collection.; +#X text 73 128 There are 4 types of messages for msd :; +#X text 74 92 It is designed to implement particules physical model +in PD.The model is based on two elements type : mass and link.; +#X obj 73 143 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577 +0; +#X obj 73 176 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577 +0; +#X obj 73 209 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577 +0; +#X obj 73 242 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577 +0; +#X text 76 150 CREATION : To create the model masses and links.; +#X text 76 215 DYNAMIC SETTING : To set the model parameters dynamically. +; +#X text 76 248 ATTRIBUTES : To get the model parameters.; +#X text 76 177 COMPUTATION : To compute the new model state based on +previous instant.; diff --git a/msd/main.cpp b/msd/main.cpp index b01bc5e..a9aad8a 100755 --- a/msd/main.cpp +++ b/msd/main.cpp @@ -101,7 +101,7 @@ public: protected: // --------------------------------------------------------------- RESET - +// ---------------------------------------------------------------------- void m_reset() { t_int i; @@ -121,6 +121,7 @@ protected: } // -------------------------------------------------------------- COMPUTE +// ----------------------------------------------------------------------- void m_bang() { @@ -130,37 +131,37 @@ protected: 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) + distance = link[i]->mass1->posX-link[i]->mass2->posX; // L[n] = x1 - x2 + 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]) if (distance != 0) { - Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; + Fx = F * (link[i]->mass1->posX - link[i]->mass2->posX)/distance; // Fx = F * Lx[n]/L[n] }
- 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; + 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] } 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 + 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] } for (i=0; i<nb_mass; i++) {
// clear forces mass[i]->out_forceX = mass[i]->forceX;
- mass[i]->forceX = 0; + 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
@@ -168,18 +169,18 @@ protected: t_atom sortie[5], aux[2]; t_float M; - mass[nb_mass] = new t_mass; // new pointer
- mass[nb_mass]->Id = GetSymbol(argv[0]); // ID + mass[nb_mass] = new t_mass; // new mass
+ mass[nb_mass]->Id = GetSymbol(argv[0]); // ID mass[nb_mass]->mobile = GetInt(argv[1]); // mobile if (GetFloat(argv[2])==0) M=1; else M = GetFloat(argv[2]); - mass[nb_mass]->invM = 1/(M); // invM - mass[nb_mass]->speedX = 0; // vx
- mass[nb_mass]->posX = GetFloat(argv[3]); // x - mass[nb_mass]->posX2 = GetFloat(argv[3]); // x
- mass[nb_mass]->forceX = 0; // Fx - mass[nb_mass]->nbr = id_mass; // id_nbr + 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 ); @@ -252,6 +253,8 @@ protected: t_int i,nb_link_delete=0; t_atom sortie[5], aux[nb_link]; + + // 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); @@ -261,7 +264,8 @@ protected: for (i=0; i<nb_link_delete;i++) 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); @@ -270,7 +274,7 @@ protected: SetFloat((sortie[3]),1/mass[i]->invM); SetFloat((sortie[4]),mass[i]->posX); delete mass[i]; - mass[i] = mass[nb_mass-1]; + mass[i] = mass[nb_mass-1]; // copy last mass instead nb_mass--; ToOutAnything(1,S_Mass_deleted,5,sortie); break; @@ -281,17 +285,18 @@ protected: void m_Xmax(int argc,t_atom *argv) {
- // set damping of link(s) named Id + // set X max Xmax = GetFloat(argv[0]); } void m_Xmin(int argc,t_atom *argv) {
- // set damping of link(s) named Id + // set X min Xmin = GetFloat(argv[0]); } // -------------------------------------------------------------- LINKS +// --------------------------------------------------------------------- void m_link(int argc,t_atom *argv) // add a link
@@ -300,20 +305,20 @@ protected: t_atom sortie[7], aux[2]; t_int i; - link[nb_link] = new t_link; - link[nb_link]->Id = GetSymbol(argv[0]); + link[nb_link] = new t_link; // New pointer + link[nb_link]->Id = GetSymbol(argv[0]); // ID for (i=0; i<nb_mass;i++) - if (mass[i]->nbr==GetAInt(argv[1])) + if (mass[i]->nbr==GetAInt(argv[1])) // pointer to mass1 link[nb_link]->mass1 = mass[i]; - else if(mass[i]->nbr==GetAInt(argv[2])) + else if(mass[i]->nbr==GetAInt(argv[2])) // pointer to mass2 link[nb_link]->mass2 = mass[i]; - link[nb_link]->K1 = GetFloat(argv[3]);
- link[nb_link]->D1 = GetFloat(argv[4]); - link[nb_link]->D2 = GetFloat(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; + link[nb_link]->K1 = GetFloat(argv[3]); // K1
+ link[nb_link]->D1 = GetFloat(argv[4]); // D1 + link[nb_link]->D2 = GetFloat(argv[5]); // D2 + link[nb_link]->longx = link[nb_link]->mass1->posX - link[nb_link]->mass2->posX; // Lx[0] + link[nb_link]->longueur = link[nb_link]->longx ;// L[0] + link[nb_link]->nbr = id_link; // id number + link[nb_link]->distance_old = link[nb_link]->longueur; // L[n-1] nb_link++; id_link++;
nb_link = min ( nb_max_link -1, nb_link ); @@ -356,7 +361,7 @@ protected: SetSymbol((arglist[0]),GetSymbol(argv[0])); SetFloat((arglist[1]),mass[imass1[i]]->nbr); SetFloat((arglist[2]),mass[imass2[j]]->nbr); - SetFloat((arglist[3]),GetInt(argv[3])); + SetFloat((arglist[3]),GetFloat(argv[3])); SetFloat((arglist[4]),GetFloat(argv[4])); SetFloat((arglist[5]),GetFloat(argv[5])); m_link(6,arglist); @@ -418,7 +423,7 @@ protected: SetFloat((sortie[5]),link[i]->D1); SetFloat((sortie[6]),link[i]->D2); delete link[i]; - link[i]=link[nb_link-1]; + link[i]=link[nb_link-1]; // copy last link instead nb_link--; ToOutAnything(1,S_Link_deleted,7,sortie); break; @@ -427,6 +432,7 @@ protected: // -------------------------------------------------------------- GET +// ------------------------------------------------------------------- void m_get(int argc,t_atom *argv) // get attributes @@ -595,7 +601,7 @@ protected: } void m_force_dumpl() - // List of masses positions on first outlet + // List of masses forces on first outlet { t_atom sortie[nb_mass]; t_int i; @@ -607,7 +613,7 @@ protected: } void m_info_dumpl() - // List of masses positions on first outlet + // List of masses and links infos on first outlet { t_atom sortie[7]; t_int i; @@ -636,16 +642,19 @@ protected: // -------------------------------------------------------------- PROTECTED VARIABLES +// ----------------------------------------------------------------------------------- - t_link * link[nb_max_link];
- t_mass * mass[nb_max_mass]; - t_float Xmin, Xmax, Ymin, Ymax; + 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 int nb_link, nb_mass, id_mass, id_link; // -------------------------------------------------------------- SETUP +// --------------------------------------------------------------------- private: + // Static symbols const static t_symbol *S_Reset; const static t_symbol *S_Mass; const static t_symbol *S_Link; @@ -721,7 +730,8 @@ private: FLEXT_CALLBACK_V(m_delete_link) FLEXT_CALLBACK_V(m_delete_mass) }; - +// -------------------------------------------------------------- STATIC VARIABLES +// ------------------------------------------------------------------------------- const t_symbol *msd::S_Reset = MakeSymbol("Reset"); const t_symbol *msd::S_Mass = MakeSymbol("Mass"); |