From ae5c64be35653c67533176657bdb16f471fcf50f Mon Sep 17 00:00:00 2001 From: Cyrille Henry Date: Mon, 8 Apr 2013 22:57:39 +0000 Subject: code refactorisation, and few new fonctionalities copied from pmpd3d svn path=/trunk/externals/pmpd/; revision=17073 --- pmpd2d_deprecated.c | 704 ++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 704 insertions(+) create mode 100644 pmpd2d_deprecated.c (limited to 'pmpd2d_deprecated.c') diff --git a/pmpd2d_deprecated.c b/pmpd2d_deprecated.c new file mode 100644 index 0000000..8a3c33a --- /dev/null +++ b/pmpd2d_deprecated.c @@ -0,0 +1,704 @@ +void pmpd2d_massesPosL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_mass]; + + for (i=0; i < x->nb_mass; i++) + { + SETFLOAT(&(pos_list[2*i] ),x->mass[i].posX); + SETFLOAT(&(pos_list[2*i+1]),x->mass[i].posY); + } + outlet_anything(x->main_outlet, gensym("massesPosL"),2*x->nb_mass , pos_list); +} + +void pmpd2d_massesForcesL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[2*i] ),x->mass[i].forceX); + SETFLOAT(&(pos_list[2*i+1]),x->mass[i].forceY); + } + outlet_anything(x->main_outlet, gensym("massesForcesL"),2*x->nb_mass , pos_list); +} + +void pmpd2d_massesSpeedsL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[2*i] ),x->mass[i].speedX); + SETFLOAT(&(pos_list[2*i+1]),x->mass[i].speedY); + } + outlet_anything(x->main_outlet, gensym("massesSpeedsL"),2*x->nb_mass , pos_list); +} + +void pmpd2d_massesPosXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i < x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].posX); + } + outlet_anything(x->main_outlet, gensym("massesPosXL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesForcesXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].forceX); + } + outlet_anything(x->main_outlet, gensym("massesForcesXL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesSpeedsXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].speedX); + } + outlet_anything(x->main_outlet, gensym("massesSpeedsXL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesPosYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i < x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].posY); + } + outlet_anything(x->main_outlet, gensym("massesPosYL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesForcesYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].forceY); + } + outlet_anything(x->main_outlet, gensym("massesForcesYL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesSpeedsYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),x->mass[i].speedY); + } + outlet_anything(x->main_outlet, gensym("massesSpeedsYL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesPosNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i < x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),sqrt(sqr(x->mass[i].posX)+sqr(x->mass[i].posY))); + } + outlet_anything(x->main_outlet, gensym("massesPosNormL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesForcesNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),sqrt(sqr(x->mass[i].forceX)+sqr(x->mass[i].forceY))); + } + outlet_anything(x->main_outlet, gensym("massesForcesNormL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesSpeedsNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_mass]; + + for (i=0; i< x->nb_mass; i++) + { + SETFLOAT(&(pos_list[i]),sqrt(sqr(x->mass[i].speedX)+sqr(x->mass[i].speedY))); + } + outlet_anything(x->main_outlet, gensym("massesSpeedsNormL"),x->nb_mass , pos_list); +} + +void pmpd2d_massesPosMean(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_atom mean[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].posX; + sommeY += x->mass[i].posY; + somme += sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY)); // distance au centre + j++; + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].posX; + sommeY += x->mass[i].posY; + somme += sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY)); // distance au centre + j++; + } + } + + sommeX /= j; + sommeY /= j; + somme /= j; + + SETFLOAT(&(mean[0]),sommeX); + SETFLOAT(&(mean[1]),sommeY); + SETFLOAT(&(mean[2]),somme); + + outlet_anything(x->main_outlet, gensym("massesPosMean"),3 , mean); +} + +void pmpd2d_massesPosStd(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_float stdX, stdY,std; + t_atom std_out[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + stdX = 0; + stdY = 0; + std = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].posX; + sommeY += x->mass[i].posY; + somme += sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY)); // distance au centre + j++; + } + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + stdX += sqr(x->mass[i].posX-sommeX); + stdY += sqr(x->mass[i].posY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY))-somme); + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].posX; + sommeY += x->mass[i].posY; + somme += sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY)); // distance au centre + j++; + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + stdX += sqr(x->mass[i].posX-sommeX); + stdY += sqr(x->mass[i].posY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].posX) + sqr(x->mass[i].posY))-somme); + } + } + + stdX = sqrt(stdX/j); + stdY = sqrt(stdY/j); + std = sqrt(std /j); + + SETFLOAT(&(std_out[0]),stdX); + SETFLOAT(&(std_out[1]),stdY); + SETFLOAT(&(std_out[2]),std); + + outlet_anything(x->main_outlet, gensym("massesPosStd"),3 , std_out); +} + +void pmpd2d_massesForcesMean(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_atom mean[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].forceX; + sommeY += x->mass[i].forceY; + somme += sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY)); // distance au centre + j++; + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].forceX; + sommeY += x->mass[i].forceY; + somme += sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY)); // distance au centre + j++; + } + } + + sommeX /= j; + sommeY /= j; + somme /= j; + + SETFLOAT(&(mean[0]),sommeX); + SETFLOAT(&(mean[1]),sommeY); + SETFLOAT(&(mean[2]),somme); + + outlet_anything(x->main_outlet, gensym("massesForcesMean"),3 , mean); +} + +void pmpd2d_massesForcesStd(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_float stdX, stdY,std; + t_atom std_out[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + stdX = 0; + stdY = 0; + std = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].forceX; + sommeY += x->mass[i].forceY; + somme += sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY)); // distance au centre + j++; + } + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + stdX += sqr(x->mass[i].forceX-sommeX); + stdY += sqr(x->mass[i].forceY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY))-somme); + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].forceX; + sommeY += x->mass[i].forceY; + somme += sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY)); // distance au centre + j++; + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + stdX += sqr(x->mass[i].forceX-sommeX); + stdY += sqr(x->mass[i].forceY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].forceX) + sqr(x->mass[i].forceY))-somme); + } + } + + stdX = sqrt(stdX/j); + stdY = sqrt(stdY/j); + std = sqrt(std /j); + + SETFLOAT(&(std_out[0]),stdX); + SETFLOAT(&(std_out[1]),stdY); + SETFLOAT(&(std_out[2]),std); + + outlet_anything(x->main_outlet, gensym("massesForcesStd"),3 , std_out); +} + +void pmpd2d_massesSpeedsMean(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_atom mean[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].speedX; + sommeY += x->mass[i].speedY; + somme += sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY)); // distance au centre + j++; + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].speedX; + sommeY += x->mass[i].speedY; + somme += sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY)); // distance au centre + j++; + } + } + + sommeX /= j; + sommeY /= j; + somme /= j; + + SETFLOAT(&(mean[0]),sommeX); + SETFLOAT(&(mean[1]),sommeY); + SETFLOAT(&(mean[2]),somme); + + outlet_anything(x->main_outlet, gensym("massesSpeedsMean"),3 , mean); +} + +void pmpd2d_massesSpeedsStd(t_pmpd2d *x, t_symbol *s, int argc, t_atom *argv) +{ + t_float sommeX, sommeY, somme; + t_int i,j; + t_float stdX, stdY,std; + t_atom std_out[3]; + + sommeX = 0; + sommeY = 0; + somme = 0; + stdX = 0; + stdY = 0; + std = 0; + j = 0; + + if ( (argc >= 1) && (argv[0].a_type == A_SYMBOL) ) + { + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + sommeX += x->mass[i].speedX; + sommeY += x->mass[i].speedY; + somme += sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY)); // distance au centre + j++; + } + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + if (atom_getsymbolarg(0,argc,argv) == x->mass[i].Id) + { + stdX += sqr(x->mass[i].speedX-sommeX); + stdY += sqr(x->mass[i].speedY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY))-somme); + } + } + } + else + { + for (i=0; i< x->nb_mass; i++) + { + sommeX += x->mass[i].speedX; + sommeY += x->mass[i].speedY; + somme += sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY)); // distance au centre + j++; + } + sommeX /= j; + sommeY /= j; + somme /= j; + for (i=0; i< x->nb_mass; i++) + { + stdX += sqr(x->mass[i].speedX-sommeX); + stdY += sqr(x->mass[i].speedY-sommeY); + std += sqr(sqrt(sqr(x->mass[i].speedX) + sqr(x->mass[i].speedY))-somme); + } + } + + stdX = sqrt(stdX/j); + stdY = sqrt(stdY/j); + std = sqrt(std /j); + + SETFLOAT(&(std_out[0]),stdX); + SETFLOAT(&(std_out[1]),stdY); + SETFLOAT(&(std_out[2]),std); + + outlet_anything(x->main_outlet, gensym("massesSpeedsStd"),3 , std_out); +} + +// -------------------------------------------- + +void pmpd2d_linksPosL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[2*i] ),(x->link[i].mass2->posX + x->link[i].mass1->posX)/2); + SETFLOAT(&(pos_list[2*i+1]),(x->link[i].mass2->posY + x->link[i].mass1->posY)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosL"),2*x->nb_link , pos_list); +} + +void pmpd2d_linksLengthL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[2*i] ),x->link[i].mass2->posX - x->link[i].mass1->posX); + SETFLOAT(&(pos_list[2*i+1]),x->link[i].mass2->posY - x->link[i].mass1->posY); + } + outlet_anything(x->main_outlet, gensym("linksLengthL"),2*x->nb_link , pos_list); +} + +void pmpd2d_linksPosSpeedL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[2*i] ),(x->link[i].mass2->speedX + x->link[i].mass1->speedX)/2); + SETFLOAT(&(pos_list[2*i+1]),(x->link[i].mass2->speedY + x->link[i].mass1->speedY)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosSpeedL"),3*x->nb_link , pos_list); +} + +void pmpd2d_linksLengthSpeedL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[2*x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[2*i] ),x->link[i].mass2->speedX - x->link[i].mass1->speedX); + SETFLOAT(&(pos_list[2*i+1]),x->link[i].mass2->speedY - x->link[i].mass1->speedY); + } + outlet_anything(x->main_outlet, gensym("linksLengthSpeedL"),2*x->nb_link , pos_list); +} + +void pmpd2d_linksPosXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),(x->link[i].mass1->posX + x->link[i].mass2->posX)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosXL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),x->link[i].mass2->posX - x->link[i].mass1->posX); + } + outlet_anything(x->main_outlet, gensym("linksLengthXL"),x->nb_link , pos_list); +} + +void pmpd2d_linksPosSpeedXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),(x->link[i].mass1->speedX + x->link[i].mass2->speedX)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosSpeedXL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthSpeedXL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),x->link[i].mass2->speedX - x->link[i].mass1->speedX); + } + outlet_anything(x->main_outlet, gensym("linksLengthSpeedXL"),x->nb_link , pos_list); +} + +void pmpd2d_linksPosYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),(x->link[i].mass1->posY + x->link[i].mass2->posY)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosYL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),x->link[i].mass2->posY - x->link[i].mass1->posY); + } + outlet_anything(x->main_outlet, gensym("linksLengthYL"),x->nb_link , pos_list); +} + +void pmpd2d_linksPosSpeedYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),(x->link[i].mass1->speedY + x->link[i].mass2->speedY)/2); + } + outlet_anything(x->main_outlet, gensym("linksPosSpeedYL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthSpeedYL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),x->link[i].mass2->speedY - x->link[i].mass1->speedY); + } + outlet_anything(x->main_outlet, gensym("linksLengthSpeedYL"),x->nb_link , pos_list); +} + +void pmpd2d_linksPosNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),sqrt( \ + sqr((x->link[i].mass1->posX + x->link[i].mass2->posX)/2) + \ + sqr((x->link[i].mass1->posY + x->link[i].mass2->posY)/2) )); + } + outlet_anything(x->main_outlet, gensym("linksPosNormL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),sqrt( \ + sqr(x->link[i].mass2->posX - x->link[i].mass1->posX) + \ + sqr(x->link[i].mass2->posY - x->link[i].mass1->posY) )); + } + outlet_anything(x->main_outlet, gensym("linksLengthNormL"),x->nb_link , pos_list); +} + +void pmpd2d_linksPosSpeedNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),sqrt( \ + sqr((x->link[i].mass1->speedX + x->link[i].mass2->speedX)/2) + \ + sqr((x->link[i].mass1->speedY + x->link[i].mass2->speedY)/2) )); + } + outlet_anything(x->main_outlet, gensym("linksPosSpeedNormL"),x->nb_link , pos_list); +} + +void pmpd2d_linksLengthSpeedNormL(t_pmpd2d *x) +{ + int i; + t_atom pos_list[x->nb_link]; + + for (i=0; i < x->nb_link; i++) + { + SETFLOAT(&(pos_list[i]),sqrt( \ + sqr(x->link[i].mass2->speedX - x->link[i].mass1->speedX) + \ + sqr(x->link[i].mass2->speedY - x->link[i].mass1->speedY) )); + } + outlet_anything(x->main_outlet, gensym("linksLengthSpeedNormL"),x->nb_link , pos_list); +} + -- cgit v1.2.1