[PD-cvs] externals/nusmuk/msd2D 03_imsd2Dtest.pd, 1.1, 1.2 help-msd2D.pd, 1.2, 1.3 main.cpp, 1.3, 1.4

Nicolas Montgermont nimon at users.sourceforge.net
Thu Apr 21 16:28:56 CEST 2005


Update of /cvsroot/pure-data/externals/nusmuk/msd2D
In directory sc8-pr-cvs1.sourceforge.net:/tmp/cvs-serv7646/msd2D

Modified Files:
	03_imsd2Dtest.pd help-msd2D.pd main.cpp 
Log Message:
MSD Version 0.03


Index: main.cpp
===================================================================
RCS file: /cvsroot/pure-data/externals/nusmuk/msd2D/main.cpp,v
retrieving revision 1.3
retrieving revision 1.4
diff -C2 -d -r1.3 -r1.4
*** main.cpp	20 Apr 2005 15:33:14 -0000	1.3
--- main.cpp	21 Apr 2005 14:28:54 -0000	1.4
***************
*** 31,35 ****
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  
!  Version 0.02 -- 15.04.2005
  */
  
--- 31,35 ----
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  
!  Version 0.03 -- 21.04.2005
  */
  
***************
*** 39,43 ****
  
  // define constants
! #define MSD2D_VERSION 0.02
  #define nb_max_link   4000
  #define nb_max_mass   4000
--- 39,43 ----
  
  // define constants
! #define MSD2D_VERSION 0.03
  #define nb_max_link   4000
  #define nb_max_mass   4000
***************
*** 75,79 ****
  	t_mass *mass2;
  	t_float K1, D1, D2;
! 	t_float longx, longy, longueur;
  	t_float distance_old;
  } t_link;
--- 75,79 ----
  	t_mass *mass2;
  	t_float K1, D1, D2;
! 	t_float longx, longy, longueur, long_min, long_max;
  	t_float distance_old;
  } t_link;
***************
*** 135,143 ****
  			distance = sqrt(pow(link[i]->mass1->posX-link[i]->mass2->posX,2) + 
  				pow(link[i]->mass1->posY-link[i]->mass2->posY,2));		// L[n] = sqrt( (x1-x2)² +(y1-y2)²)
! 			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 * Lx[n]/L[n]
! 				Fy = F * (link[i]->mass1->posY - link[i]->mass2->posY)/distance; // Fy = F * Ly[n]/L[n]
  			}
  			link[i]->mass1->forceX -= Fx;					// Fx1[n] = -Fx
--- 135,149 ----
  			distance = sqrt(pow(link[i]->mass1->posX-link[i]->mass2->posX,2) + 
  				pow(link[i]->mass1->posY-link[i]->mass2->posY,2));		// L[n] = sqrt( (x1-x2)² +(y1-y2)²)
! 			if (distance < link[i]->long_min || distance > link[i]->long_max)	{	
! 				Fx = 0;
! 				Fy = 0;
! 			}
! 			else	{
! 				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 * Lx[n]/L[n]
! 					Fy = F * (link[i]->mass1->posY - link[i]->mass2->posY)/distance; // Fy = F * Ly[n]/L[n]
! 				}
  			}
  			link[i]->mass1->forceX -= Fx;					// Fx1[n] = -Fx
***************
*** 184,187 ****
--- 190,196 ----
  		t_float M;
  
+ 		if (argc != 5)
+ 			error("mass : Id mobile mass X Y");
+ 
  		mass[nb_mass] = new t_mass;			// new mass
  		mass[nb_mass]->Id = GetSymbol(argv[0]);		// ID
***************
*** 218,221 ****
--- 227,233 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("forceX : Idmass value");
+ 
  		for (i=0; i<nb_mass;i++)
  		{
***************
*** 231,234 ****
--- 243,249 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("forceY : Idmass value");
+ 
  		for (i=0; i<nb_mass;i++)
  		{
***************
*** 244,247 ****
--- 259,265 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("posX : Idmass value");
+ 
  		if (GetFloat(argv[1]) < Xmax && GetFloat(argv[1]) > Xmin)
  			for (i=0; i<nb_mass;i++)
***************
*** 258,261 ****
--- 276,282 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("posY : Idmass value");
+ 
  		if (GetFloat(argv[1]) < Ymax && GetFloat(argv[1]) > Ymin)
  			for (i=0; i<nb_mass;i++)
***************
*** 271,276 ****
  	// set mass No to mobile
  		t_int i,aux;
  		
! 		aux = GetAInt(argv[0]);	
  		for (i=0; i<nb_mass;i++)
  			{
--- 292,300 ----
  	// set mass No to mobile
  		t_int i,aux;
+ 	
+ 		if (argc != 1)
+ 			error("setMobile : Idmass");
  		
! 		aux = GetInt(argv[0]);	
  		for (i=0; i<nb_mass;i++)
  			{
***************
*** 286,289 ****
--- 310,316 ----
  		t_int i,aux;
  		
+ 		if (argc != 1)
+ 			error("setFixed : Idmass");
+ 		
  		aux = GetAInt(argv[0]);	
  		for (i=0; i<nb_mass;i++)
***************
*** 298,330 ****
  	{
  	// Delete mass
! 	t_int i,nb_link_delete=0;
! 	t_atom sortie[6], aux[nb_link];
  	
! 	// Delete associated links
! 	for (i=0; i<nb_link;i++)	{
! 		if (link[i]->mass1->nbr == GetInt(argv[0]) || link[i]->mass2->nbr == GetInt(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]);
  
! 	// 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);
! 			SetFloat((sortie[5]),mass[i]->posY);
! 			delete mass[i];
! 			mass[i] = mass[nb_mass-1];
! 			nb_mass--;
! 			ToOutAnything(1,S_Mass_deleted,6,sortie);
! 			break;
! 		}
  	}
  
--- 325,360 ----
  	{
  	// Delete mass
! 		t_int i,nb_link_delete=0;
! 		t_atom sortie[6], aux[nb_link];
! 
! 		if (argc != 1)
! 			error("deleteMass : Nomass");
  	
! 		// Delete associated links
! 		for (i=0; i<nb_link;i++)	{
! 			if (link[i]->mass1->nbr == GetInt(argv[0]) || link[i]->mass2->nbr == GetInt(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]);
  
! 		// 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);
! 				SetFloat((sortie[5]),mass[i]->posY);
! 				delete mass[i];
! 				mass[i] = mass[nb_mass-1];
! 				nb_mass--;
! 				ToOutAnything(1,S_Mass_deleted,6,sortie);
! 				break;
! 			}
  	}
  
***************
*** 333,343 ****
  	{
  	// set X max
! 	Xmax = GetFloat(argv[0]);
! 	}
! 
! 	void m_Ymax(int argc,t_atom *argv) 
! 	{
! 	// set Y max
! 	Ymax = GetFloat(argv[0]);
  	}
  
--- 363,369 ----
  	{
  	// set X max
! 		if (argc != 1)
! 			error("Xmax : Value");
! 		Xmax = GetFloat(argv[0]);
  	}
  
***************
*** 345,349 ****
  	{
  	// set X min
! 	Xmin = GetFloat(argv[0]);
  	}
  
--- 371,384 ----
  	{
  	// set X min
! 		if (argc != 1)
! 			error("Xmin : Value");
! 		Xmin = GetFloat(argv[0]);
! 	}
! 	void m_Ymax(int argc,t_atom *argv) 
! 	{
! 	// set Y max
! 		if (argc != 1)
! 			error("Ymax : Value");
! 		Ymax = GetFloat(argv[0]);
  	}
  
***************
*** 351,355 ****
  	{
  	// set Y min
! 	Ymin = GetFloat(argv[0]);
  	}
  
--- 386,392 ----
  	{
  	// set Y min
! 		if (argc != 1)
! 			error("Ymin : Value");
! 		Ymin = GetFloat(argv[0]);
  	}
  
***************
*** 359,382 ****
  	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;			// new link
! 		link[nb_link]->Id = GetSymbol(argv[0]);
  		for (i=0; i<nb_mass;i++)
! 			if (mass[i]->nbr==GetAInt(argv[1]))	// pointer on mass 1
  				link[nb_link]->mass1 = mass[i];
! 			else if(mass[i]->nbr==GetAInt(argv[2]))	// pointer on mass 2
  				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
! 		link[nb_link]->longx = link[nb_link]->mass1->posX - link[nb_link]->mass2->posX;		// Lx[0]
! 		link[nb_link]->longy = link[nb_link]->mass1->posY - link[nb_link]->mass2->posY;		// Ly[0]
! 		link[nb_link]->longueur = sqrt( pow(link[nb_link]->longx,2) + pow(link[nb_link]->longy,2)); // L[0] = sq( Lx[0]²+Ly[0]²)
  		link[nb_link]->nbr = id_link;			// id number
! 		link[nb_link]->distance_old = link[nb_link]->longueur;// L[n-1]
  		nb_link++;
  		id_link++;
--- 396,437 ----
  	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;
  
! 		if (argc < 6 || argc > 8)
! 			error("link : Id Nomass1 Nomass2 K D1 D2 (Lmin Lmax)");
! 		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]))	// pointer to mass1
  				link[nb_link]->mass1 = mass[i];
! 			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
! 		link[nb_link]->longx = link[nb_link]->mass1->posX - link[nb_link]->mass2->posX;	// Lx[0]
! 		if (link[nb_link]->longx < 0)
! 			link[nb_link]->longueur = -link[nb_link]->longx;
! 		else
! 			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]
! 		switch (argc)	{
! 			case 6 :	
! 				link[nb_link]->long_max = 32768;
! 				link[nb_link]->long_min = 0;
! 				break;
! 			case 7 :	
! 				link[nb_link]->long_min = GetFloat(argv[6]);
! 				link[nb_link]->long_max = 32768;
! 				break;
! 			case 8 :	
! 				link[nb_link]->long_min = GetFloat(argv[6]);
! 				link[nb_link]->long_max = GetFloat(argv[7]);
! 				break;	
! 		}
  		nb_link++;
  		id_link++;
***************
*** 384,389 ****
  		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);
--- 439,444 ----
  		SetFloat((sortie[0]),id_link-1);
  		SetSymbol((sortie[1]),link[nb_link-1]->Id);
! 		SetFloat((sortie[2]),GetInt(argv[1]));
! 		SetFloat((sortie[3]),GetInt(argv[2]));
  		SetFloat((sortie[4]),link[nb_link-1]->K1);
  		SetFloat((sortie[5]),link[nb_link-1]->D1);
***************
*** 394,403 ****
  	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, imass1[nb_mass], nbmass1=0, imass2[nb_mass], nbmass2=0;
  		t_symbol *Id1, *Id2;
  
  		Id1 = GetSymbol(argv[1]);
  		Id2 = GetSymbol(argv[2]);
--- 449,461 ----
  	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;
  
+ 		if (argc < 6 || argc > 8)
+ 			error("ilink : Id Idmass1 Idmass2 K D1 D2 (Lmin Lmax)");
+ 
  		Id1 = GetSymbol(argv[1]);
  		Id2 = GetSymbol(argv[2]);
***************
*** 424,428 ****
  					SetFloat((arglist[4]),GetFloat(argv[4]));
  					SetFloat((arglist[5]),GetFloat(argv[5]));
! 					m_link(6,arglist);
  				}
  	}
--- 482,495 ----
  					SetFloat((arglist[4]),GetFloat(argv[4]));
  					SetFloat((arglist[5]),GetFloat(argv[5]));
! 					switch (argc)	{
! 						case 7 :	
! 							SetFloat(arglist[6],GetFloat(argv[6]));
! 							break;
! 						case 8 :	
! 							SetFloat(arglist[6],GetFloat(argv[6]));
! 							SetFloat(arglist[7],GetFloat(argv[7]));
! 							break;	
! 					}
! 					m_link(argc,arglist);
  				}
  	}
***************
*** 434,437 ****
--- 501,507 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("setK : IdLink Value");
+ 
  		for (i=0; i<nb_link;i++)
  		{
***************
*** 443,450 ****
  	void m_setD(int argc,t_atom *argv) 
  	{
! 	// set viscosity of link(s) named Id
  		t_int i;
  		const t_symbol *sym = GetSymbol(argv[0]);
  
  		for (i=0; i<nb_link;i++)
  		{
--- 513,523 ----
  	void m_setD(int argc,t_atom *argv) 
  	{
! 	// set damping of link(s) named Id
  		t_int i;
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("setD : IdLink Value");
+ 
  		for (i=0; i<nb_link;i++)
  		{
***************
*** 460,463 ****
--- 533,539 ----
  		const t_symbol *sym = GetSymbol(argv[0]);
  
+ 		if (argc != 2)
+ 			error("setD2 : IdLink Value");
+ 
  		for (i=0; i<nb_link;i++)
  		{
***************
*** 470,490 ****
  	{
  	// Delete link
! 	t_int i;
! 	t_atom sortie[7];
  
! 	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
! 			nb_link--;
! 			ToOutAnything(1,S_Link_deleted,7,sortie);
! 			break;
  		}
  	}
--- 546,569 ----
  	{
  	// Delete link
! 		t_int i;
! 		t_atom sortie[7];
  
! 		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
! 				nb_link--;
! 				ToOutAnything(1,S_Link_deleted,7,sortie);
! 				break;
  		}
  	}

Index: help-msd2D.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/nusmuk/msd2D/help-msd2D.pd,v
retrieving revision 1.2
retrieving revision 1.3
diff -C2 -d -r1.2 -r1.3
*** help-msd2D.pd	20 Apr 2005 15:33:14 -0000	1.2
--- help-msd2D.pd	21 Apr 2005 14:28:54 -0000	1.3
***************
*** 1,4 ****
  #N canvas 0 0 478 397 10;
! #N canvas 271 52 742 843 masses 1;
  #X obj 62 154 cnv 15 610 180 empty empty CREATION 20 12 0 14 -262131
  -66577 0;
--- 1,4 ----
  #N canvas 0 0 478 397 10;
! #N canvas 271 52 742 843 masses 0;
  #X obj 62 154 cnv 15 610 180 empty empty CREATION 20 12 0 14 -262131
  -66577 0;
***************
*** 74,89 ****
  #X connect 48 0 46 0;
  #X restore 221 312 pd masses;
  #N canvas 222 83 808 841 links 0;
! #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;
--- 74,112 ----
  #X connect 48 0 46 0;
  #X restore 221 312 pd masses;
+ #X text 75 312 HELP on masses --->;
+ #X text 74 343 HELP on links --->;
+ #X text 13 117 There are 4 types of messages for msd :;
+ #X text 14 81 It is designed to implement particules physical model
+ in PD.The model is based on two elements type : mass and link.;
+ #X obj 13 132 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577
+ 0;
+ #X obj 13 165 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577
+ 0;
+ #X obj 13 198 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577
+ 0;
+ #X obj 13 231 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577
+ 0;
+ #X text 16 139 CREATION : To create the model masses and links.;
+ #X text 16 204 DYNAMIC SETTING : To set the model parameters dynamically.
+ ;
+ #X text 16 237 ATTRIBUTES : To get the model parameters.;
+ #X text 16 166 COMPUTATION : To compute the new model state based on
+ previous instant.;
+ #X text 94 23 MSD2D : mass - spring - damper model;
+ #X text 15 68 MSD2D is the 2D object of the msd objects collection.
+ ;
  #N canvas 222 83 808 841 links 0;
! #X obj 33 821 msd;
! #X obj 62 192 cnv 15 610 360 empty empty CREATION 20 12 0 14 -262131
  -66577 0;
! #X msg 79 221 reset;
! #X text 402 247 \$1 : Id (symbol);
! #X text 314 247 Add a link;
! #X text 401 267 \$2 : creation No of mass1;
! #X text 401 285 \$3 : creation No of mass2;
! #X text 400 303 \$4 : rigidity;
! #X text 251 222 Delete all masses and links;
! #X text 400 321 \$5 : viscosity;
! #X text 400 338 \$6 : damping;
  #X obj 61 561 cnv 15 610 82 empty empty DYNAMIC_SETTING 20 12 0 14
  -262131 -66577 0;
***************
*** 101,127 ****
  / 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.
--- 124,148 ----
  / linksPos );
  #X text 237 742 \$2 : Id (symbol or creations numbers);
! #X msg 74 533 deleteLink \$1;
! #X text 239 535 Delete a link;
! #X text 340 535 \$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 text 402 247 \$1 : Id (symbol);
! #X text 314 247 Add a link;
! #X text 401 267 \$2 : creation No of mass1;
! #X text 401 285 \$3 : creation No of mass2;
! #X text 400 303 \$4 : rigidity;
! #X text 400 321 \$5 : viscosity;
! #X text 400 338 \$6 : damping;
! #X text 463 392 \$1 : Id (symbol);
! #X text 462 448 \$4 : rigidity;
! #X text 462 466 \$5 : viscosity;
! #X text 462 483 \$6 : damping;
! #X text 463 392 \$1 : Id (symbol);
! #X text 462 448 \$4 : rigidity;
! #X text 462 466 \$5 : viscosity;
! #X text 462 483 \$6 : damping;
! #X text 301 393 Add an interactor link;
  #X text 94 52 LINKS :;
  #X text 71 91 parameters : length \, rigidity \, viscosity and damping.
***************
*** 132,139 ****
  #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;
--- 153,158 ----
  #X text 71 120 message. The lenght is initialised to the distance between
  ;
! #X text 71 107 Rigidity \, viscosity and damping are defined by the
  creation;
  #X text 70 148 Interactor links are links between mutiples masses \,
  instead;
***************
*** 141,173 ****
  with;
  #X text 69 175 their Id.;
! #X obj 33 821 msd2D;
! #X connect 1 0 56 0;
! #X connect 14 0 56 0;
! #X connect 18 0 56 0;
! #X connect 22 0 56 0;
! #X connect 23 0 56 0;
! #X connect 26 0 56 0;
! #X connect 28 0 56 0;
! #X restore 223 342 pd links;
! #X text 75 312 HELP on masses --->;
! #X text 74 343 HELP on links --->;
! #X text 13 117 There are 4 types of messages for msd :;
! #X text 14 81 It is designed to implement particules physical model
! in PD.The model is based on two elements type : mass and link.;
! #X obj 13 132 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577
! 0;
! #X obj 13 165 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577
! 0;
! #X obj 13 198 cnv 15 420 30 empty empty empty 20 12 0 14 -262131 -66577
! 0;
! #X obj 13 231 cnv 15 420 30 empty empty empty 20 12 0 14 -261689 -66577
! 0;
! #X text 16 139 CREATION : To create the model masses and links.;
! #X text 16 204 DYNAMIC SETTING : To set the model parameters dynamically.
! ;
! #X text 16 237 ATTRIBUTES : To get the model parameters.;
! #X text 16 166 COMPUTATION : To compute the new model state based on
! previous instant.;
! #X text 94 23 MSD2D : mass - spring - damper model;
! #X text 15 68 MSD2D is the 2D object of the msd objects collection.
! ;
--- 160,177 ----
  with;
  #X text 69 175 their Id.;
! #X text 397 356 ($7) : minimum lenght of link;
! #X text 397 373 ($8) : maximum lenght of link;
! #X msg 78 247 link \$1 \$2 \$3 \$4 \$5 \$6 ($7 \$8);
! #X text 462 412 \$2 : Id (symbol) of masses 1;
! #X text 462 430 \$3 : Id (symbol) of masses 2;
! #X msg 73 393 iLink \$1 \$2 \$3 \$4 \$5 \$6 ($7 \$8);
! #X text 458 500 ($7) : minimum lenght of links;
! #X text 458 517 ($8) : maximum lenght of links;
! #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 26 0 0 0;
! #X connect 55 0 0 0;
! #X connect 58 0 0 0;
! #X restore 224 340 pd links;

Index: 03_imsd2Dtest.pd
===================================================================
RCS file: /cvsroot/pure-data/externals/nusmuk/msd2D/03_imsd2Dtest.pd,v
retrieving revision 1.1
retrieving revision 1.2
diff -C2 -d -r1.1 -r1.2
*** 03_imsd2Dtest.pd	12 Apr 2005 16:34:04 -0000	1.1
--- 03_imsd2Dtest.pd	21 Apr 2005 14:28:54 -0000	1.2
***************
*** 25,32 ****
  0;
  #X msg 82 442 forceX mob 100;
- #X msg 85 383 setD souple 0.01;
- #X msg 216 384 setK souple 1;
- #X msg 85 403 setD souple 1;
- #X msg 216 404 setK souple 2;
  #X msg 208 443 forceY mob 100;
  #X text 351 396 SET RIGIDITY AND VISCOSITY OF LINKS;
--- 25,28 ----
***************
*** 151,191 ****
  #X text 292 313 COMPUTE AND GET ALL LINKS POSITIONS;
  #X text 260 572 DISPLAY LINKS WITH GEM;
! #X connect 0 0 40 0;
  #X connect 3 0 2 0;
  #X connect 4 0 5 0;
  #X connect 6 0 2 0;
! #X connect 7 0 46 0;
  #X connect 7 1 1 0;
  #X connect 9 0 7 0;
! #X connect 10 0 40 0;
  #X connect 11 0 9 0;
! #X connect 13 0 34 1;
  #X connect 14 0 9 0;
  #X connect 15 0 9 0;
  #X connect 17 0 18 0;
! #X connect 18 0 47 0;
  #X connect 20 0 7 0;
  #X connect 21 0 7 0;
! #X connect 22 0 7 0;
! #X connect 23 0 7 0;
! #X connect 24 0 7 0;
! #X connect 25 0 7 0;
! #X connect 34 0 36 0;
! #X connect 34 0 37 0;
! #X connect 35 0 34 0;
! #X connect 36 0 7 0;
! #X connect 37 0 7 0;
! #X connect 39 0 9 0;
! #X connect 40 0 41 0;
! #X connect 40 1 44 0;
! #X connect 40 2 13 0;
! #X connect 40 2 15 0;
! #X connect 40 3 42 0;
! #X connect 40 4 14 0;
! #X connect 40 5 11 0;
! #X connect 41 0 9 0;
! #X connect 42 0 39 0;
! #X connect 44 0 9 0;
! #X connect 45 0 5 1;
! #X connect 46 0 30 0;
  #X connect 47 0 7 0;
--- 147,191 ----
  #X text 292 313 COMPUTE AND GET ALL LINKS POSITIONS;
  #X text 260 572 DISPLAY LINKS WITH GEM;
! #X msg 85 383 setD inter 0;
! #X msg 84 403 setD2 inter 0;
! #X msg 216 384 setK inter 1;
! #X msg 216 404 setK inter 2;
! #X connect 0 0 36 0;
  #X connect 3 0 2 0;
  #X connect 4 0 5 0;
  #X connect 6 0 2 0;
! #X connect 7 0 42 0;
  #X connect 7 1 1 0;
  #X connect 9 0 7 0;
! #X connect 10 0 36 0;
  #X connect 11 0 9 0;
! #X connect 13 0 30 1;
  #X connect 14 0 9 0;
  #X connect 15 0 9 0;
  #X connect 17 0 18 0;
! #X connect 18 0 43 0;
  #X connect 20 0 7 0;
  #X connect 21 0 7 0;
! #X connect 30 0 32 0;
! #X connect 30 0 33 0;
! #X connect 31 0 30 0;
! #X connect 32 0 7 0;
! #X connect 33 0 7 0;
! #X connect 35 0 9 0;
! #X connect 36 0 37 0;
! #X connect 36 1 40 0;
! #X connect 36 2 13 0;
! #X connect 36 2 15 0;
! #X connect 36 3 38 0;
! #X connect 36 4 14 0;
! #X connect 36 5 11 0;
! #X connect 37 0 9 0;
! #X connect 38 0 35 0;
! #X connect 40 0 9 0;
! #X connect 41 0 5 1;
! #X connect 42 0 26 0;
! #X connect 43 0 7 0;
! #X connect 46 0 7 0;
  #X connect 47 0 7 0;
+ #X connect 48 0 7 0;
+ #X connect 49 0 7 0;





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