/* dyn~ - dynamical object management for PD Copyright (c)2003-2006 Thomas Grill (gr@grrrr.org) For information on usage and redistribution, and for a DISCLAIMER OF ALL WARRANTIES, see the file, "license.txt," in this distribution. -- this is all a bit hacky, but hey, it's PD! -- */ #define FLEXT_ATTRIBUTES 1 #include #if !defined(FLEXT_VERSION) || (FLEXT_VERSION < 500) #error You need at least flext version 0.5.0 #endif #define DYN_VERSION "0.1.2" #if FLEXT_SYS != FLEXT_SYS_PD #error Sorry, dyn~ works for PD only! #endif #include "flinternal.h" #include #include #ifdef _MSC_VER #pragma warning(disable: 4091 4244) #endif #include "g_canvas.h" class dyn: public flext_dsp { FLEXT_HEADER_S(dyn,flext_dsp,setup) public: dyn(int argc,const t_atom *argv); virtual ~dyn(); void m_reset(); void m_reload(); // refresh objects/abstractions void m_newobj(int argc,const t_atom *argv); void m_newmsg(int argc,const t_atom *argv); void m_newtext(int argc,const t_atom *argv); void m_del(const t_symbol *n); void m_connect(int argc,const t_atom *argv) { ConnDis(true,argc,argv); } void m_disconnect(int argc,const t_atom *argv) { ConnDis(false,argc,argv); } void m_send(int argc,const t_atom *argv); void ms_vis(bool vis) { canvas_vis(canvas,vis?1:0); } void mg_vis(bool &vis) const { vis = canvas && canvas->gl_editor; } protected: virtual void CbClick() { ms_vis(true); } static const t_symbol *k_obj,*k_msg,*k_text; class Obj { public: Obj(t_glist *gl,t_gobj *o): glist(gl),object(o) {} t_glist *AsGlist() const { return pd_class(&object->g_pd) == canvas_class?(t_glist *)object:NULL; } t_glist *glist; t_gobj *object; }; class ObjMap :public TablePtrMap { public: virtual ~ObjMap() { clear(); } virtual void clear() { for(iterator it(*this); it; ++it) delete it.data(); TablePtrMap::clear(); } } root; typedef TablePtrMap GObjMap; class GLstMap :public TablePtrMap { public: virtual ~GLstMap() { clear(); } virtual void clear() { for(iterator it(*this); it; ++it) delete it.data(); TablePtrMap::clear(); } } groot; Obj *Find(const t_symbol *n) { return root.find(n); } t_glist *FindCanvas(const t_symbol *n); Obj *Remove(const t_symbol *n); bool Add(const t_symbol *n,t_glist *gl,t_gobj *o); t_gobj *New(const t_symbol *kind,int _argc_,const t_atom *_argv_,bool add = true); void ConnDis(bool conn,int argc,const t_atom *argv); void DoInit(); void DoExit(); void NewProxies(); void DelProxies(); virtual bool CbMethodResort(int n,const t_symbol *s,int argc,const t_atom *argv); virtual bool CbDsp(); // proxy object class proxy { public: t_object obj; dyn *th; void init(dyn *t) { th = t; } }; // proxy object class sigproxy : public proxy { public: t_sample defsig; int n; t_sample *vec; void init(dyn *t) { proxy::init(t); defsig = 0; n = 0,vec = NULL; } void set(int n,t_sample *vec) { this->n = n; this->vec = vec; } }; // proxy for inbound messages class proxyin: public proxy { public: void init(dyn *t) { proxy::init(t); outlet_new(&obj,&s_anything); } void Message(const t_symbol *s,int argc,const t_atom *argv) { outlet_anything(obj.te_outlet,(t_symbol *)s,argc,(t_atom *)argv); } static void px_method(proxyin *obj,const t_symbol *s,int argc,const t_atom *argv) { obj->Message(s,argc,argv); } }; // proxy for inbound signals class sigproxyin: public sigproxy { public: void init(dyn *t) { sigproxy::init(t); outlet_new(&obj,&s_signal); } static void dsp(sigproxyin *x, t_signal **sp); }; // proxy for outbound messages class proxyout: public proxy { public: void init(dyn *t,int o) { proxy::init(t); outlet = o; } static void px_method(proxyout *obj,const t_symbol *s,int argc,const t_atom *argv) { obj->th->ToOutAnything(obj->outlet,s,argc,argv); } protected: int outlet; }; // proxy for outbound messages class sigproxyout: public sigproxy { public: void init(dyn *t) { sigproxy::init(t); outlet_new(&obj,&s_signal); } static void dsp(sigproxyout *x, t_signal **sp); }; static t_class *pxin_class,*pxout_class; static t_class *pxins_class,*pxouts_class; int s_inlets,m_inlets,s_outlets,m_outlets; sigproxyin **pxsin; proxyin **pxmin; sigproxyout **pxsout; proxyout **pxmout; static t_object *pxin_new() { return (t_object *)pd_new(pxin_class); } static t_object *pxins_new() { return (t_object *)pd_new(pxins_class); } static t_object *pxout_new() { return (t_object *)pd_new(pxout_class); } static t_object *pxouts_new() { return (t_object *)pd_new(pxouts_class); } t_canvas *canvas; bool stripext,canvasmsg,symreuse; private: static void setup(t_classid c); FLEXT_CALLBACK(m_reset) FLEXT_CALLBACK(m_reload) FLEXT_CALLBACK_V(m_newobj) FLEXT_CALLBACK_V(m_newmsg) FLEXT_CALLBACK_V(m_newtext) FLEXT_CALLBACK_S(m_del) FLEXT_CALLBACK_V(m_connect) FLEXT_CALLBACK_V(m_disconnect) FLEXT_CALLBACK_V(m_send) FLEXT_CALLVAR_B(mg_vis,ms_vis) FLEXT_ATTRVAR_B(stripext) FLEXT_ATTRVAR_B(symreuse) FLEXT_ATTRVAR_B(canvasmsg) static const t_symbol *sym_dot,*sym_dynsin,*sym_dynsout,*sym_dynin,*sym_dynout,*sym_dyncanvas; static const t_symbol *sym_vis,*sym_loadbang,*sym_dsp,*sym_pop; }; FLEXT_NEW_DSP_V("dyn~",dyn) t_class *dyn::pxin_class = NULL,*dyn::pxout_class = NULL; t_class *dyn::pxins_class = NULL,*dyn::pxouts_class = NULL; const t_symbol *dyn::k_obj = NULL; const t_symbol *dyn::k_msg = NULL; const t_symbol *dyn::k_text = NULL; const t_symbol *dyn::sym_dot = NULL; const t_symbol *dyn::sym_dynsin = NULL; const t_symbol *dyn::sym_dynsout = NULL; const t_symbol *dyn::sym_dynin = NULL; const t_symbol *dyn::sym_dynout = NULL; const t_symbol *dyn::sym_dyncanvas = NULL; const t_symbol *dyn::sym_vis = NULL; const t_symbol *dyn::sym_loadbang = NULL; const t_symbol *dyn::sym_dsp = NULL; const t_symbol *dyn::sym_pop = NULL; void dyn::setup(t_classid c) { post(""); post("dyn~ %s - dynamic object management, (C)2003-2006 Thomas Grill",DYN_VERSION); post(""); sym_dynsin = MakeSymbol("dyn_in~"); sym_dynsout = MakeSymbol("dyn_out~"); sym_dynin = MakeSymbol("dyn_in"); sym_dynout = MakeSymbol("dyn_out"); sym_dot = MakeSymbol("."); sym_dyncanvas = MakeSymbol(" dyn~-canvas "); // set up proxy class for inbound messages pxin_class = class_new(const_cast(sym_dynin),(t_newmethod)pxin_new,NULL,sizeof(proxyin),0, A_NULL); add_anything(pxin_class,proxyin::px_method); // set up proxy class for inbound signals pxins_class = class_new(const_cast(sym_dynsin),(t_newmethod)pxins_new,NULL,sizeof(sigproxyin),0, A_NULL); add_dsp(pxins_class,sigproxyin::dsp); CLASS_MAINSIGNALIN(pxins_class, sigproxyin, defsig); // set up proxy class for outbound messages pxout_class = class_new(const_cast(sym_dynout),(t_newmethod)pxout_new,NULL,sizeof(proxyout),0, A_NULL); add_anything(pxout_class,proxyout::px_method); // set up proxy class for outbound signals pxouts_class = class_new(const_cast(sym_dynsout),(t_newmethod)pxouts_new,NULL,sizeof(sigproxyout),0, A_NULL); add_dsp(pxouts_class,sigproxyout::dsp); CLASS_MAINSIGNALIN(pxouts_class, sigproxyout, defsig); // set up dyn~ FLEXT_CADDMETHOD_(c,0,"reset",m_reset); FLEXT_CADDMETHOD_(c,0,"reload",m_reload); FLEXT_CADDMETHOD_(c,0,"newobj",m_newobj); FLEXT_CADDMETHOD_(c,0,"newmsg",m_newmsg); FLEXT_CADDMETHOD_(c,0,"newtext",m_newtext); FLEXT_CADDMETHOD_(c,0,"del",m_del); FLEXT_CADDMETHOD_(c,0,"conn",m_connect); FLEXT_CADDMETHOD_(c,0,"dis",m_disconnect); FLEXT_CADDMETHOD_(c,0,"send",m_send); FLEXT_CADDATTR_VAR(c,"vis",mg_vis,ms_vis); FLEXT_CADDATTR_VAR1(c,"stripext",stripext); FLEXT_CADDATTR_VAR1(c,"symreuse",symreuse); FLEXT_CADDATTR_VAR1(c,"canvasmsg",canvasmsg); // set up symbols k_obj = MakeSymbol("obj"); k_msg = MakeSymbol("msg"); k_text = MakeSymbol("text"); sym_vis = MakeSymbol("vis"); sym_loadbang = MakeSymbol("loadbang"); sym_dsp = MakeSymbol("dsp"); sym_pop = MakeSymbol("pop"); } /* There must be a separate canvas for the dynamically created objects as some mechanisms in PD (like copy/cut/paste) get confused otherwise. On the other hand it seems to be possible to create objects without a canvas. They won't receive DSP processing, though, hence it's only possible for message objects. Problems arise when an object is not yet loaded... the canvas environment is then needed to load it.. if there is no canvas, PD currently crashes. How to create the canvas: 1) via direct call to canvas_new() 2) a message to pd_canvasmaker con: does not return a pointer for the created canvas There are two possibilities for the canvas 1) make a sub canvas to the one where dyn~ resides: pro: no problems with environment (abstractions are found and loaded correctly) 2) make a root canvas: pro: it will be in the canvas list per default, hence DSP is processed con: canvas environment must be created manually (is normally done by pd_canvasmaker if there is a directory set, which is again done somewhere else) Enabling DSP on the subcanvas 1) send it a "dsp" message (see rabin~ by K.Czaja)... but, which signal vector should be taken? -> answer: NONE! (just send NULL) 2) add it to the list of _root_ canvases (these will be DSP-processed per default) (for this the canvas_addtolist and canvas_takefromlist functions are used) however, it's not clear if this can lead to problems since it is no root-canvas! In all cases the 1)s have been chosen as the cleaner solution */ dyn::dyn(int argc,const t_atom *argv): canvas(NULL), pxsin(NULL),pxmin(NULL),pxsout(NULL),pxmout(NULL), stripext(false),symreuse(true),canvasmsg(false) { if(argc < 4) { post("%s - Syntax: dyn~ sig-ins msg-ins sig-outs msg-outs",thisName()); InitProblem(); return; } s_inlets = GetAInt(argv[0]); m_inlets = GetAInt(argv[1]); s_outlets = GetAInt(argv[2]); m_outlets = GetAInt(argv[3]); // --- make a sub-canvas for dyn~ ------ t_atom arg[6]; SetInt(arg[0],0); // xpos SetInt(arg[1],0); // ypos SetInt(arg[2],700); // xwidth SetInt(arg[3],520); // xwidth SetSymbol(arg[4],sym_dyncanvas); // canvas name SetInt(arg[5],0); // visible canvas = canvas_new(NULL, NULL, 6, arg); // pop canvas (must do that...) SetInt(arg[0],0); pd_typedmess((t_pd *)canvas,(t_symbol *)sym_pop,1,arg); DoInit(); AddInSignal("Messages (newobj,newmsg,newtext,del,conn,dis)"); AddInSignal(s_inlets); AddInAnything(m_inlets); AddOutSignal(s_outlets); AddOutAnything(m_outlets); } dyn::~dyn() { DoExit(); if(canvas) pd_free((t_pd *)canvas); } void dyn::DoInit() { // add to list of canvases groot.insert(canvas,new GObjMap); NewProxies(); } void dyn::DoExit() { // delete proxies DelProxies(); // remove all objects if(canvas) glist_clear(canvas); // remove all names groot.clear(); root.clear(); } void dyn::NewProxies() { // --- create inlet proxies ------ int i; if(s_inlets) pxsin = new sigproxyin *[s_inlets]; if(m_inlets) pxmin = new proxyin *[m_inlets]; for(i = 0; i < s_inlets+m_inlets; ++i) { t_atom lst[5]; SetInt(lst[0],i*100); SetInt(lst[1],10); SetSymbol(lst[2],sym_dot); SetSymbol(lst[3],sym__); try { if(i < s_inlets) { SetSymbol(lst[4],sym_dynsin); pxsin[i] = (sigproxyin *)New(k_obj,5,lst,false); if(pxsin[i]) pxsin[i]->init(this); } else { int j = i-s_inlets; SetSymbol(lst[4],sym_dynin); pxmin[j] = (proxyin *)New(k_obj,5,lst,false); if(pxmin[j]) pxmin[j]->init(this); } } catch(...) { error("%s - Error creating inlet proxy",thisName()); } } // --- create outlet proxies ------ if(s_outlets) pxsout = new sigproxyout *[s_outlets]; if(m_outlets) pxmout = new proxyout *[m_outlets]; for(i = 0; i < s_outlets+m_outlets; ++i) { t_atom lst[5]; SetInt(lst[0],i*100); SetInt(lst[1],500); SetSymbol(lst[2],sym_dot); SetSymbol(lst[3],sym__); try { if(i < s_outlets) { SetSymbol(lst[4],sym_dynsout); pxsout[i] = (sigproxyout *)New(k_obj,5,lst,false); if(pxsout[i]) pxsout[i]->init(this); } else { int j = i-s_outlets; SetSymbol(lst[4],sym_dynout); pxmout[j] = (proxyout *)New(k_obj,5,lst,false); if(pxmout[j]) pxmout[j]->init(this,i); } } catch(...) { error("%s - Error creating outlet proxy",thisName()); } } } void dyn::DelProxies() { int i; if(pxsin) { for(i = 0; i < s_inlets; ++i) glist_delete(canvas,(t_gobj *)pxsin[i]); delete[] pxsin; pxsin = NULL; } if(pxmin) { for(i = 0; i < m_inlets; ++i) glist_delete(canvas,(t_gobj *)pxmin[i]); delete[] pxmin; pxmin = NULL; } if(pxsout) { for(i = 0; i < s_outlets; ++i) glist_delete(canvas,(t_gobj *)pxsout[i]); delete[] pxsout; pxsout = NULL; } if(pxmout) { for(i = 0; i < m_outlets; ++i) glist_delete(canvas,(t_gobj *)pxmout[i]); delete[] pxmout; pxmout = NULL; } } t_glist *dyn::FindCanvas(const t_symbol *n) { if(n == sym_dot) return canvas; else { Obj *o = Find(n); t_glist *gl = o->AsGlist(); return gl && groot.find(gl)?(t_glist *)o->object:NULL; } } static t_gobj *GetLast(t_glist *gl) { t_gobj *go = gl->gl_list; if(go) while(go->g_next) go = go->g_next; return go; } bool dyn::Add(const t_symbol *n,t_glist *gl,t_gobj *o) { // remove previous name entry Obj *prv = Remove(n); if(prv) delete prv; // get canvas map GObjMap *gm = groot.find(gl); // if none existing create one if(!gm) return false; // insert object to canvas map Obj *obj = new Obj(gl,o); gm->insert(obj,n); // insert object to object map root.insert(n,obj); t_glist *nl = obj->AsGlist(); if(nl) { FLEXT_ASSERT(!groot.find(nl)); groot.insert(nl,new GObjMap); } return true; } dyn::Obj *dyn::Remove(const t_symbol *n) { // see if there's already an object of the same name Obj *prv = root.remove(n); if(prv) { t_glist *pl = prv->glist; // get canvas map GObjMap *gm = groot.find(pl); FLEXT_ASSERT(gm); // remove object from canvas map gm->remove(prv); // non-NULL if object itself is a glist t_glist *gl = prv->AsGlist(); if(gl) { GObjMap *gm = groot.remove(gl); // if it's a loaded abstraction it need not be in our list if(gm) { // remove all objects in canvas map for(GObjMap::iterator it(*gm); it; ++it) { Obj *r = Remove(it.data()); FLEXT_ASSERT(r); delete r; } // delete canvas map delete gm; } } } return prv; } t_gobj *dyn::New(const t_symbol *kind,int _argc_,const t_atom *_argv_,bool add) { t_gobj *newest = NULL; const char *err = NULL; const t_symbol *name = NULL,*canv = NULL; t_glist *glist = NULL; AtomListStatic<16> args; if(_argc_ >= 4 && CanbeInt(_argv_[0]) && CanbeInt(_argv_[1]) && IsSymbol(_argv_[2]) && IsSymbol(_argv_[3])) { canv = GetSymbol(_argv_[2]); name = GetSymbol(_argv_[3]); args(_argc_-2); SetInt(args[0],GetAInt(_argv_[0])); SetInt(args[1],GetAInt(_argv_[1])); for(int i = 0; i < _argc_; ++i) SetAtom(args[i+2],_argv_[i+4]); } else if(_argc_ >= 3 && IsSymbol(_argv_[0]) && IsSymbol(_argv_[1])) { canv = GetSymbol(_argv_[0]); name = GetSymbol(_argv_[1]); args(_argc_); // random position if not given SetInt(args[0],rand()%600); SetInt(args[1],50+rand()%400); for(int i = 0; i < _argc_-2; ++i) SetAtom(args[i+2],_argv_[i+2]); } if(args.Count()) { if(name == sym_dot) err = ". cannot be redefined"; else if(!symreuse && root.find(name)) err = "Name already in use"; else if(!canv || !(glist = FindCanvas(canv))) err = "Canvas could not be found"; else { // convert abstraction filenames if(stripext && kind == k_obj && args.Count() >= 3 && IsSymbol(args[2])) { const char *c = GetString(args[2]); int l = strlen(c); // check end of string for .pd file extension if(l >= 4 && !memcmp(c+l-3,".pd",4)) { // found -> get rid of it char tmp[64],*t = tmp; if(l > sizeof tmp-1) t = new char[l+1]; memcpy(tmp,c,l-3); tmp[l-3] = 0; SetString(args[2],tmp); if(tmp != t) delete[] t; } } // set selected canvas as current canvas_setcurrent(glist); t_gobj *last = GetLast(glist); pd_typedmess((t_pd *)glist,(t_symbol *)kind,args.Count(),args.Atoms()); newest = GetLast(glist); if(kind == k_obj) { t_object *o = (t_object *)pd_newest(); if(!o) { // PD creates a text object when the intended object could not be created t_gobj *trash = GetLast(glist); // Test for newly created object.... if(trash && last != trash) { // Delete it! glist_delete(glist,trash); } newest = NULL; } else newest = &o->te_g; } // look for latest created object if(newest) { // add to database if(add) { bool ok = Add(name,glist,newest); FLEXT_ASSERT(ok); } // send loadbang (if it is an abstraction) if(pd_class(&newest->g_pd) == canvas_class) { // hide the sub-canvas pd_vmess((t_pd *)newest,const_cast(sym_vis),"i",0); // loadbang the abstraction pd_vmess((t_pd *)newest,const_cast(sym_loadbang),""); } // restart dsp - that's necessary because ToCanvas is called manually canvas_update_dsp(); } else if(!err) err = "Could not create object"; // pop the current canvas canvas_unsetcurrent(glist); } } else if(!err) err = "new name object [args]"; if(err) throw err; return newest; } void dyn::m_reset() { int dsp = canvas_suspend_dsp(); DoExit(); DoInit(); canvas_resume_dsp(dsp); } void dyn::m_reload() { post("%s - reload: not implemented yet",thisName()); } void dyn::m_newobj(int argc,const t_atom *argv) { try { New(k_obj,argc,argv); } catch(const char *err) { post("%s - %s",thisName(),err); } catch(...) { post("%s - unknown error",thisName()); } } void dyn::m_newmsg(int argc,const t_atom *argv) { try { New(k_msg,argc,argv); } catch(const char *err) { post("%s - %s",thisName(),err); } catch(...) { post("%s - unknown error",thisName()); } } void dyn::m_newtext(int argc,const t_atom *argv) { try { New(k_text,argc,argv); } catch(const char *err) { post("%s - %s",thisName(),err); } catch(...) { post("%s - unknown error",thisName()); } } void dyn::m_del(const t_symbol *n) { Obj *obj = Remove(n); if(obj) { glist_delete(obj->glist,obj->object); delete obj; } else post("%s - del: object not found",thisName()); } void dyn::ConnDis(bool conn,int argc,const t_atom *argv) { const t_symbol *s_n = NULL,*d_n = NULL; int s_x,d_x; if(argc == 4 && IsSymbol(argv[0]) && CanbeInt(argv[1]) && IsSymbol(argv[2]) && CanbeInt(argv[3])) { s_n = GetSymbol(argv[0]); s_x = GetAInt(argv[1]); d_n = GetSymbol(argv[2]); d_x = GetAInt(argv[3]); } else if(argc == 3 && CanbeInt(argv[0]) && IsSymbol(argv[1]) && CanbeInt(argv[2])) { s_n = NULL; s_x = GetAInt(argv[0]); d_n = GetSymbol(argv[1]); d_x = GetAInt(argv[2]); } else if(argc == 3 && IsSymbol(argv[0]) && CanbeInt(argv[1]) && CanbeInt(argv[2])) { s_n = GetSymbol(argv[0]); s_x = GetAInt(argv[1]); d_n = NULL; d_x = GetAInt(argv[2]); } else if(argc == 2 && CanbeInt(argv[0]) && CanbeInt(argv[1])) { // direct connection from proxy-in to proxy-out s_n = NULL; s_x = GetAInt(argv[0]); d_n = NULL; d_x = GetAInt(argv[1]); } else { post("%s - connect: [src-name] src-slot [dst-name] dst-slot",thisName()); return; } t_text *s_obj,*d_obj; t_glist *s_cnv,*d_cnv; if(s_n) { Obj *s_o = Find(s_n); if(!s_o) { post("%s - connect: source \"%s\" not found",thisName(),GetString(s_n)); return; } s_obj = (t_text *)s_o->object; s_cnv = s_o->glist; } else if(s_x < 0 && s_x >= s_inlets+m_inlets) { post("%s - connect: inlet %i out of range (0..%i)",thisName(),s_x,s_inlets+m_inlets-1); return; } else { s_obj = s_x < s_inlets?&pxsin[s_x]->obj:&pxmin[s_x-s_inlets]->obj; s_cnv = canvas; s_x = 0; // always 0 for proxy } if(d_n) { Obj *d_o = Find(d_n); if(!d_o) { post("%s - connect: destination \"%s\" not found",thisName(),GetString(d_n)); return; } d_obj = (t_text *)d_o->object; d_cnv = d_o->glist; } else if(d_x < 0 && d_x >= s_outlets+m_outlets) { post("%s - connect: outlet %i out of range (0..%i)",thisName(),d_x,s_outlets+m_outlets-1); return; } else { d_obj = d_x < s_outlets?&pxsout[d_x]->obj:&pxmout[d_x-s_outlets]->obj; d_cnv = canvas; d_x = 0; // always 0 for proxy } if(s_cnv != d_cnv) { post("%s - connect: objects \"%s\" and \"%s\" are not on same canvas",thisName(),GetString(s_n),GetString(d_n)); return; } #ifndef NO_VIS int s_oix = canvas_getindex(s_cnv,&s_obj->te_g); int d_oix = canvas_getindex(d_cnv,&d_obj->te_g); #endif if(conn) { if(!canvas_isconnected(s_cnv,(t_text *)s_obj,s_x,(t_text *)d_obj,d_x)) { #ifdef NO_VIS if(!obj_connect(s_obj, s_x, d_obj, d_x)) post("%s - connect: connection could not be made",thisName()); #else canvas_connect(s_cnv,s_oix,s_x,d_oix,d_x); #endif } } else { #ifdef NO_VIS obj_disconnect(s_obj, s_x, d_obj, d_x); #else canvas_disconnect(s_cnv,s_oix,s_x,d_oix,d_x); #endif } } bool dyn::CbMethodResort(int n,const t_symbol *s,int argc,const t_atom *argv) { if(n == 0) // messages into inlet 0 are for dyn~ return flext_base::m_method_(n,s,argc,argv); else { // all other messages are forwarded to proxies (and connected objects) if(n >= s_inlets) pxmin[n-s_inlets-1]->Message(s,argc,argv); else post("%s - message to signal inlet",thisName()); return true; } } void dyn::m_send(int argc,const t_atom *argv) { if(argc < 2 || !IsSymbol(argv[0])) post("%s - Syntax: send name message [args]",thisName()); else { Obj *o = Find(GetSymbol(argv[0])); if(!o) post("%s - send: object \"%s\" not found",thisName(),GetString(argv[0])); else if(!canvasmsg && o->AsGlist()) post("%s - send: object \"%s\" is an abstraction, please create proxy",thisName(),GetString(argv[0])); else if(IsSymbol(argv[1])) // has a tag symbol pd_typedmess((t_pd *)o->object,(t_symbol *)GetSymbol(argv[1]),argc-2,(t_atom *)argv+2); else // assume it's a list pd_forwardmess((t_pd *)o->object,argc-1,(t_atom *)argv+1); } } void dyn::sigproxyin::dsp(sigproxyin *x,t_signal **sp) { FLEXT_ASSERT(x->vec && x->n); int n = sp[0]->s_n; if(n != x->n) { post("dyn~ proxyin - blocksize doesn't match!"); } else dsp_add_copy(x->vec,sp[0]->s_vec,n); } void dyn::sigproxyout::dsp(sigproxyout *x,t_signal **sp) { FLEXT_ASSERT(x->vec && x->n); int n = sp[0]->s_n; if(n != x->n) { post("dyn~ proxyout - blocksize doesn't match!"); } else dsp_add_copy(sp[0]->s_vec,x->vec,n); } bool dyn::CbDsp() { int n = Blocksize(); t_sample *const *in = InSig(),*const *out = OutSig(); int i; for(i = 0; i < s_inlets; ++i) pxsin[i]->set(n,in[i+1]); for(i = 0; i < s_outlets; ++i) pxsout[i]->set(n,out[i]); // add sub canvas to dsp list (no signal vector to borrow from .. set it to NULL) mess1((t_pd *)canvas,const_cast(sym_dsp),NULL); return false; }