/* Copyright (c) 1997-1999 Miller Puckette. * For information on usage and redistribution, and for a DISCLAIMER OF ALL * WARRANTIES, see the file, "LICENSE.txt," in this distribution. */ #include #include "m_pd.h" #include "s_stuff.h" #include #ifdef HAVE_UNISTD_H #include #endif #ifdef MSW #include #endif #include #include #include struct _binbuf { int b_n; t_atom *b_vec; }; t_binbuf *binbuf_new(void) { t_binbuf *x = (t_binbuf *)t_getbytes(sizeof(*x)); x->b_n = 0; x->b_vec = t_getbytes(0); return (x); } void binbuf_free(t_binbuf *x) { t_freebytes(x->b_vec, x->b_n * sizeof(*x->b_vec)); t_freebytes(x, sizeof(*x)); } t_binbuf *binbuf_duplicate(t_binbuf *y) { t_binbuf *x = (t_binbuf *)t_getbytes(sizeof(*x)); x->b_n = y->b_n; x->b_vec = t_getbytes(x->b_n * sizeof(*x->b_vec)); memcpy(x->b_vec, y->b_vec, x->b_n * sizeof(*x->b_vec)); return (x); } void binbuf_clear(t_binbuf *x) { x->b_vec = t_resizebytes(x->b_vec, x->b_n * sizeof(*x->b_vec), 0); x->b_n = 0; } /* convert text to a binbuf */ void binbuf_text(t_binbuf *x, char *text, size_t size) { char buf[MAXPDSTRING+1], *bufp, *ebuf = buf+MAXPDSTRING; const char *textp = text, *etext = text+size; t_atom *ap; int nalloc = 16, natom = 0; t_freebytes(x->b_vec, x->b_n * sizeof(*x->b_vec)); x->b_vec = t_getbytes(nalloc * sizeof(*x->b_vec)); ap = x->b_vec; x->b_n = 0; while (1) { int type; /* skip leading space */ while ((textp != etext) && (*textp == ' ' || *textp == '\n' || *textp == '\r' || *textp == '\t')) textp++; if (textp == etext) break; if (*textp == ';') SETSEMI(ap), textp++; else if (*textp == ',') SETCOMMA(ap), textp++; else { /* it's an atom other than a comma or semi */ char c; int floatstate = 0, slash = 0, lastslash = 0, dollar = 0; bufp = buf; do { c = *bufp = *textp++; lastslash = slash; slash = (c == '\\'); if (floatstate >= 0) { int digit = (c >= '0' && c <= '9'), dot = (c == '.'), minus = (c == '-'), plusminus = (minus || (c == '+')), expon = (c == 'e' || c == 'E'); if (floatstate == 0) /* beginning */ { if (minus) floatstate = 1; else if (digit) floatstate = 2; else if (dot) floatstate = 3; else floatstate = -1; } else if (floatstate == 1) /* got minus */ { if (digit) floatstate = 2; else if (dot) floatstate = 3; else floatstate = -1; } else if (floatstate == 2) /* got digits */ { if (dot) floatstate = 4; else if (expon) floatstate = 6; else if (!digit) floatstate = -1; } else if (floatstate == 3) /* got '.' without digits */ { if (digit) floatstate = 5; else floatstate = -1; } else if (floatstate == 4) /* got '.' after digits */ { if (digit) floatstate = 5; else if (expon) floatstate = 6; else floatstate = -1; } else if (floatstate == 5) /* got digits after . */ { if (expon) floatstate = 6; else if (!digit) floatstate = -1; } else if (floatstate == 6) /* got 'e' */ { if (plusminus) floatstate = 7; else if (digit) floatstate = 8; else floatstate = -1; } else if (floatstate == 7) /* got plus or minus */ { if (digit) floatstate = 8; else floatstate = -1; } else if (floatstate == 8) /* got digits */ { if (!digit) floatstate = -1; } } if (!lastslash && c == '$' && (textp != etext && textp[0] >= '0' && textp[0] <= '9')) dollar = 1; if (!slash) bufp++; } while (textp != etext && bufp != ebuf && (slash || (*textp != ' ' && *textp != '\n' && *textp != '\r' && *textp != '\t' &&*textp != ',' && *textp != ';'))); *bufp = 0; #if 0 post("binbuf_text: buf %s", buf); #endif if (floatstate == 2 || floatstate == 4 || floatstate == 5 || floatstate == 8) SETFLOAT(ap, atof(buf)); /* LATER try to figure out how to mix "$" and "\$" correctly; here, the backslashes were already stripped so we assume all "$" chars are real dollars. In fact, we only know at least one was. */ else if (dollar) { if (buf[0] != '$') dollar = 0; for (bufp = buf+1; *bufp; bufp++) if (*bufp < '0' || *bufp > '9') dollar = 0; if (dollar) SETDOLLAR(ap, atoi(buf+1)); else SETDOLLSYM(ap, gensym(buf)); } else SETSYMBOL(ap, gensym(buf)); } ap++; natom++; if (natom == nalloc) { x->b_vec = t_resizebytes(x->b_vec, nalloc * sizeof(*x->b_vec), nalloc * (2*sizeof(*x->b_vec))); nalloc = nalloc * 2; ap = x->b_vec + natom; } if (textp == etext) break; } /* reallocate the vector to exactly the right size */ x->b_vec = t_resizebytes(x->b_vec, nalloc * sizeof(*x->b_vec), natom * sizeof(*x->b_vec)); x->b_n = natom; } /* convert a binbuf to text; no null termination. */ void binbuf_gettext(t_binbuf *x, char **bufp, int *lengthp) { char *buf = getbytes(0), *newbuf; int length = 0; char string[MAXPDSTRING]; t_atom *ap; int indx; for (ap = x->b_vec, indx = x->b_n; indx--; ap++) { int newlength; if ((ap->a_type == A_SEMI || ap->a_type == A_COMMA) && length && buf[length-1] == ' ') length--; atom_string(ap, string, MAXPDSTRING); newlength = length + strlen(string) + 1; if (!(newbuf = resizebytes(buf, length, newlength))) break; buf = newbuf; strcpy(buf + length, string); length = newlength; if (ap->a_type == A_SEMI) buf[length-1] = '\n'; else buf[length-1] = ' '; } if (length && buf[length-1] == ' ') { if (newbuf = t_resizebytes(buf, length, length-1)) { buf = newbuf; length--; } } *bufp = buf; *lengthp = length; } /* LATER improve the out-of-space behavior below. Also fix this so that writing to file doesn't buffer everything together. */ void binbuf_add(t_binbuf *x, int argc, t_atom *argv) { int newsize = x->b_n + argc, i; t_atom *ap; if (ap = t_resizebytes(x->b_vec, x->b_n * sizeof(*x->b_vec), newsize * sizeof(*x->b_vec))) x->b_vec = ap; else { error("binbuf_addmessage: out of space"); return; } #if 0 startpost("binbuf_add: "); postatom(argc, argv); endpost(); #endif for (ap = x->b_vec + x->b_n, i = argc; i--; ap++) *ap = *(argv++); x->b_n = newsize; } #define MAXADDMESSV 100 void binbuf_addv(t_binbuf *x, char *fmt, ...) { va_list ap; t_atom arg[MAXADDMESSV], *at =arg; int nargs = 0; char *fp = fmt; va_start(ap, fmt); while (1) { if (nargs >= MAXADDMESSV) { error("binbuf_addmessv: only %d allowed", MAXADDMESSV); break; } switch(*fp++) { case 'i': SETFLOAT(at, va_arg(ap, int)); break; case 'f': SETFLOAT(at, va_arg(ap, double)); break; case 's': SETSYMBOL(at, va_arg(ap, t_symbol *)); break; case ';': SETSEMI(at); break; case ',': SETCOMMA(at); break; default: goto done; } at++; nargs++; } done: va_end(ap); binbuf_add(x, nargs, arg); } /* add a binbuf to another one for saving. Semicolons and commas go to symbols ";", "'",; the symbol ";" goes to "\;", etc. */ void binbuf_addbinbuf(t_binbuf *x, t_binbuf *y) { t_binbuf *z = binbuf_new(); int i; t_atom *ap; binbuf_add(z, y->b_n, y->b_vec); for (i = 0, ap = z->b_vec; i < z->b_n; i++, ap++) { char tbuf[MAXPDSTRING]; switch (ap->a_type) { case A_FLOAT: break; case A_SEMI: SETSYMBOL(ap, gensym(";")); break; case A_COMMA: SETSYMBOL(ap, gensym(",")); break; case A_DOLLAR: sprintf(tbuf, "$%d", ap->a_w.w_index); SETSYMBOL(ap, gensym(tbuf)); break; case A_DOLLSYM: atom_string(ap, tbuf, MAXPDSTRING); SETSYMBOL(ap, gensym(tbuf)); break; case A_SYMBOL: /* FIXME make this general */ if (!strcmp(ap->a_w.w_symbol->s_name, ";")) SETSYMBOL(ap, gensym(";")); else if (!strcmp(ap->a_w.w_symbol->s_name, ",")) SETSYMBOL(ap, gensym(",")); break; default: bug("binbuf_addbinbuf"); } } binbuf_add(x, z->b_n, z->b_vec); } void binbuf_addsemi(t_binbuf *x) { t_atom a; SETSEMI(&a); binbuf_add(x, 1, &a); } /* Supply atoms to a binbuf from a message, making the opposite changes from binbuf_addbinbuf. The symbol ";" goes to a semicolon, etc. */ void binbuf_restore(t_binbuf *x, int argc, t_atom *argv) { int newsize = x->b_n + argc, i; t_atom *ap; if (ap = t_resizebytes(x->b_vec, x->b_n * sizeof(*x->b_vec), newsize * sizeof(*x->b_vec))) x->b_vec = ap; else { error("binbuf_addmessage: out of space"); return; } for (ap = x->b_vec + x->b_n, i = argc; i--; ap++) { if (argv->a_type == A_SYMBOL) { char *str = argv->a_w.w_symbol->s_name, *str2; if (!strcmp(str, ";")) SETSEMI(ap); else if (!strcmp(str, ",")) SETCOMMA(ap); else if ((str2 = strchr(str, '$')) && str2[1] >= '0' && str2[1] <= '9') { int dollsym = 0; if (*str != '$') dollsym = 1; else for (str2 = str + 1; *str2; str2++) if (*str2 < '0' || *str2 > '9') { dollsym = 1; break; } if (dollsym) SETDOLLSYM(ap, gensym(str)); else { int dollar = 0; sscanf(argv->a_w.w_symbol->s_name + 1, "%d", &dollar); SETDOLLAR(ap, dollar); } } else *ap = *argv; argv++; } else *ap = *(argv++); } x->b_n = newsize; } void binbuf_print(t_binbuf *x) { int i, startedpost = 0, newline = 1; for (i = 0; i < x->b_n; i++) { if (newline) { if (startedpost) endpost(); startpost(""); startedpost = 1; } postatom(1, x->b_vec + i); if (x->b_vec[i].a_type == A_SEMI) newline = 1; else newline = 0; } if (startedpost) endpost(); } int binbuf_getnatom(t_binbuf *x) { return (x->b_n); } t_atom *binbuf_getvec(t_binbuf *x) { return (x->b_vec); } int canvas_getdollarzero( void); /* JMZ: * s points to the first character after the $ * (e.g. if the org.symbol is "$1-bla", then s will point to "1-bla") * (e.g. org.symbol="hu-$1mu", s="1mu") * LATER: think about more complex $args, like ${$1+3} * * the return value holds the length of the $arg (in most cases: 1) * buf holds the expanded $arg * * if some error occured, "-1" is returned * * e.g. "$1-bla" with list "10 20 30" * s="1-bla" * buf="10" * return value = 1; (s+1=="-bla") */ int binbuf_expanddollsym(char*s, char*buf,t_atom dollar0, int ac, t_atom *av, int tonew) { int argno=atol(s); int arglen=0; char*cs=s; char c=*cs; *buf=0; while(c&&(c>='0')&&(c<='9')){ c=*cs++; arglen++; } if (cs==s) { /* invalid $-expansion (like "$bla") */ sprintf(buf, "$"); return 0; } else if (argno < 0 || argno > ac) /* undefined argument */ { if(!tonew)return 0; sprintf(buf, "$%d", argno); } else if (argno == 0){ /* $0 */ atom_string(&dollar0, buf, MAXPDSTRING/2-1); } else{ /* fine! */ atom_string(av+(argno-1), buf, MAXPDSTRING/2-1); } return (arglen-1); } /* LATER remove the dependence on the current canvas for $0; should be another argument. */ t_symbol *binbuf_realizedollsym(t_symbol *s, int ac, t_atom *av, int tonew) { char buf[MAXPDSTRING]; char buf2[MAXPDSTRING]; char*str=s->s_name; char*substr; int next=0, i=MAXPDSTRING; t_atom dollarnull; SETFLOAT(&dollarnull, canvas_getdollarzero()); while(i--)buf2[i]=0; #if 1 /* JMZ: currently, a symbol is detected to be A_DOLLSYM if it starts with '$' * the leading $ is stripped and the rest stored in "s" * i would suggest to NOT strip the leading $ * and make everything a A_DOLLSYM that contains(!) a $ * * whenever this happened, enable this code */ substr=strchr(str, '$'); if (!substr || substr-str >= MAXPDSTRING) return (s); strncat(buf2, str, (substr-str)); str=substr+1; #endif while((next=binbuf_expanddollsym(str, buf, dollarnull, ac, av, tonew))>=0) { /* * JMZ: i am not sure what this means, so i might have broken it * it seems like that if "tonew" is set and the $arg cannot be expanded * (or the dollarsym is in reality a A_DOLLAR) * 0 is returned from binbuf_realizedollsym * this happens, when expanding in a message-box, but does not happen * when the A_DOLLSYM is the name of a subpatch */ if(!tonew&&(0==next)&&(0==*buf)) { return 0; /* JMZ: this should mimick the original behaviour */ } strncat(buf2, buf, MAXPDSTRING/2-1); str+=next; substr=strchr(str, '$'); if(substr) { strncat(buf2, str, (substr-str)); str=substr+1; } else { strcat(buf2, str); goto done; } } done: return (gensym(buf2)); } #define SMALLMSG 5 #define HUGEMSG 1000 #ifdef MSW #include #else #include #endif #if HAVE_ALLOCA #define ATOMS_ALLOCA(x, n) ((x) = (t_atom *)((n) < HUGEMSG ? \ alloca((n) * sizeof(t_atom)) : getbytes((n) * sizeof(t_atom)))) #define ATOMS_FREEA(x, n) ( \ ((n) < HUGEMSG || (freebytes((x), (n) * sizeof(t_atom)), 0))) #else #define ATOMS_ALLOCA(x, n) ((x) = (t_atom *)getbytes((n) * sizeof(t_atom))) #define ATOMS_FREEA(x, n) (freebytes((x), (n) * sizeof(t_atom))) #endif void binbuf_eval(t_binbuf *x, t_pd *target, int argc, t_atom *argv) { t_atom smallstack[SMALLMSG], *mstack, *msp; t_atom *at = x->b_vec; int ac = x->b_n; int nargs, maxnargs = 0; if (ac <= SMALLMSG) mstack = smallstack; else { #if 1 /* count number of args in biggest message. The wierd treatment of "pd_objectmaker" is because when the message goes out to objectmaker, commas and semis are passed on as regular args (see below). We're tacitly assuming here that the pd_objectmaker target can't come up via a named destination in the message, only because the original "target" points there. */ if (target == &pd_objectmaker) maxnargs = ac; else { int i, j = (target ? 0 : -1); for (i = 0; i < ac; i++) { if (at[i].a_type == A_SEMI) j = -1; else if (at[i].a_type == A_COMMA) j = 0; else if (++j > maxnargs) maxnargs = j; } } if (maxnargs <= SMALLMSG) mstack = smallstack; else ATOMS_ALLOCA(mstack, maxnargs); #else /* just pessimistically allocate enough to hold everything at once. This turned out to run slower in a simple benchmark I tried, perhaps because the extra memory allocation hurt the cache hit rate. */ maxnargs = ac; ATOMS_ALLOCA(mstack, maxnargs); #endif } msp = mstack; while (1) { t_pd *nexttarget; /* get a target. */ while (!target) { t_symbol *s; while (ac && (at->a_type == A_SEMI || at->a_type == A_COMMA)) ac--, at++; if (!ac) break; if (at->a_type == A_DOLLAR) { if (at->a_w.w_index <= 0 || at->a_w.w_index > argc) { error("$%d: not enough arguments supplied", at->a_w.w_index); goto cleanup; } else if (argv[at->a_w.w_index-1].a_type != A_SYMBOL) { error("$%d: symbol needed as message destination", at->a_w.w_index); goto cleanup; } else s = argv[at->a_w.w_index-1].a_w.w_symbol; } else if (at->a_type == A_DOLLSYM) { if (!(s = binbuf_realizedollsym(at->a_w.w_symbol, argc, argv, 0))) { error("$%s: not enough arguments supplied", at->a_w.w_symbol->s_name); goto cleanup; } } else s = atom_getsymbol(at); if (!(target = s->s_thing)) { error("%s: no such object", s->s_name); cleanup: do at++, ac--; while (ac && at->a_type != A_SEMI); /* LATER eat args until semicolon and continue */ continue; } else { at++, ac--; break; } } if (!ac) break; nargs = 0; nexttarget = target; while (1) { t_symbol *s9; if (!ac) goto gotmess; switch (at->a_type) { case A_SEMI: /* semis and commas in new message just get bashed to a symbol. This is needed so you can pass them to "expr." */ if (target == &pd_objectmaker) { SETSYMBOL(msp, gensym(";")); break; } else { nexttarget = 0; goto gotmess; } case A_COMMA: if (target == &pd_objectmaker) { SETSYMBOL(msp, gensym(",")); break; } else goto gotmess; case A_FLOAT: case A_SYMBOL: *msp = *at; break; case A_DOLLAR: if (at->a_w.w_index > 0 && at->a_w.w_index <= argc) *msp = argv[at->a_w.w_index-1]; else if (at->a_w.w_index == 0) SETFLOAT(msp, canvas_getdollarzero()); else { if (target == &pd_objectmaker) SETFLOAT(msp, 0); else { error("$%d: argument number out of range", at->a_w.w_index); SETFLOAT(msp, 0); } } break; case A_DOLLSYM: s9 = binbuf_realizedollsym(at->a_w.w_symbol, argc, argv, target == &pd_objectmaker); if (!s9) { error("%s: argument number out of range", at->a_w.w_symbol->s_name); SETSYMBOL(msp, at->a_w.w_symbol); } else SETSYMBOL(msp, s9); break; default: bug("bad item in binbuf"); goto broken; } msp++; ac--; at++; nargs++; } gotmess: if (nargs) { switch (mstack->a_type) { case A_SYMBOL: typedmess(target, mstack->a_w.w_symbol, nargs-1, mstack+1); break; case A_FLOAT: if (nargs == 1) pd_float(target, mstack->a_w.w_float); else pd_list(target, 0, nargs, mstack); break; } } msp = mstack; if (!ac) break; target = nexttarget; at++; ac--; } broken: if (maxnargs > SMALLMSG) ATOMS_FREEA(mstack, maxnargs); } static int binbuf_doopen(char *s, int mode) { char namebuf[MAXPDSTRING]; #ifdef MSW mode |= O_BINARY; #endif sys_bashfilename(s, namebuf); return (open(namebuf, mode)); } static FILE *binbuf_dofopen(char *s, char *mode) { char namebuf[MAXPDSTRING]; sys_bashfilename(s, namebuf); return (fopen(namebuf, mode)); } int binbuf_read(t_binbuf *b, char *filename, char *dirname, int crflag) { long length; int fd; int readret; char *buf; char namebuf[MAXPDSTRING]; namebuf[0] = 0; if (*dirname) strcat(namebuf, dirname), strcat(namebuf, "/"); strcat(namebuf, filename); if ((fd = binbuf_doopen(namebuf, 0)) < 0) { fprintf(stderr, "open: "); perror(namebuf); return (1); } if ((length = lseek(fd, 0, SEEK_END)) < 0 || lseek(fd, 0, SEEK_SET) < 0 || !(buf = t_getbytes(length))) { fprintf(stderr, "lseek: "); perror(namebuf); close(fd); return(1); } if ((readret = read(fd, buf, length)) < length) { fprintf(stderr, "read (%d %ld) -> %d\n", fd, length, readret); perror(namebuf); close(fd); t_freebytes(buf, length); return(1); } /* optionally map carriage return to semicolon */ if (crflag) { int i; for (i = 0; i < length; i++) if (buf[i] == '\n') buf[i] = ';'; } binbuf_text(b, buf, length); #if 0 startpost("binbuf_read "); postatom(b->b_n, b->b_vec); endpost(); #endif t_freebytes(buf, length); close(fd); return (0); } /* read a binbuf from a file, via the search patch of a canvas */ int binbuf_read_via_canvas(t_binbuf *b, char *filename, t_canvas *canvas, int crflag) { int filedesc; char buf[MAXPDSTRING], *bufptr; if ((filedesc = canvas_open(canvas, filename, "", buf, &bufptr, MAXPDSTRING, 0)) < 0) { error("%s: can't open", filename); return (1); } else close (filedesc); if (binbuf_read(b, bufptr, buf, crflag)) return (1); else return (0); } /* old version */ int binbuf_read_via_path(t_binbuf *b, char *filename, char *dirname, int crflag) { int filedesc; char buf[MAXPDSTRING], *bufptr; if ((filedesc = open_via_path( dirname, filename, "", buf, &bufptr, MAXPDSTRING, 0)) < 0) { error("%s: can't open", filename); return (1); } else close (filedesc); if (binbuf_read(b, bufptr, buf, crflag)) return (1); else return (0); } #define WBUFSIZE 4096 static t_binbuf *binbuf_convert(t_binbuf *oldb, int maxtopd); /* write a binbuf to a text file. If "crflag" is set we suppress semicolons. */ int binbuf_write(t_binbuf *x, char *filename, char *dir, int crflag) { FILE *f = 0; char sbuf[WBUFSIZE], fbuf[MAXPDSTRING], *bp = sbuf, *ep = sbuf + WBUFSIZE; t_atom *ap; int indx, deleteit = 0; int ncolumn = 0; fbuf[0] = 0; if (*dir) strcat(fbuf, dir), strcat(fbuf, "/"); strcat(fbuf, filename); if (!strcmp(filename + strlen(filename) - 4, ".pat") || !strcmp(filename + strlen(filename) - 4, ".mxt")) { x = binbuf_convert(x, 0); deleteit = 1; } if (!(f = binbuf_dofopen(fbuf, "w"))) { fprintf(stderr, "open: "); sys_unixerror(fbuf); goto fail; } for (ap = x->b_vec, indx = x->b_n; indx--; ap++) { int length; /* estimate how many characters will be needed. Printing out symbols may need extra characters for inserting backslashes. */ if (ap->a_type == A_SYMBOL || ap->a_type == A_DOLLSYM) length = 80 + strlen(ap->a_w.w_symbol->s_name); else length = 40; if (ep - bp < length) { if (fwrite(sbuf, bp-sbuf, 1, f) < 1) { sys_unixerror(fbuf); goto fail; } bp = sbuf; } if ((ap->a_type == A_SEMI || ap->a_type == A_COMMA) && bp > sbuf && bp[-1] == ' ') bp--; if (!crflag || ap->a_type != A_SEMI) { atom_string(ap, bp, (ep-bp)-2); length = strlen(bp); bp += length; ncolumn += length; } if (ap->a_type == A_SEMI || (!crflag && ncolumn > 65)) { *bp++ = '\n'; ncolumn = 0; } else { *bp++ = ' '; ncolumn++; } } if (fwrite(sbuf, bp-sbuf, 1, f) < 1) { sys_unixerror(fbuf); goto fail; } if (fflush(f) != 0) { sys_unixerror(fbuf); goto fail; } if (deleteit) binbuf_free(x); fclose(f); return (0); fail: if (deleteit) binbuf_free(x); if (f) fclose(f); return (1); } /* The following routine attempts to convert from max to pd or back. The max to pd direction is working OK but you will need to make lots of abstractions for objects like "gate" which don't exist in Pd. conversion from Pd to Max hasn't been tested for patches with subpatches yet! */ #define MAXSTACK 1000 #define ISSYMBOL(a, b) ((a)->a_type == A_SYMBOL && \ !strcmp((a)->a_w.w_symbol->s_name, (b))) static t_binbuf *binbuf_convert(t_binbuf *oldb, int maxtopd) { t_binbuf *newb = binbuf_new(); t_atom *vec = oldb->b_vec; t_int n = oldb->b_n, nextindex, stackdepth = 0, stack[MAXSTACK], nobj = 0, i, gotfontsize = 0; t_atom outmess[MAXSTACK], *nextmess; t_float fontsize = 10; if (!maxtopd) binbuf_addv(newb, "ss;", gensym("max"), gensym("v2")); for (nextindex = 0; nextindex < n; ) { int endmess, natom; char *first, *second, *third; for (endmess = nextindex; endmess < n && vec[endmess].a_type != A_SEMI; endmess++) ; if (endmess == n) break; if (endmess == nextindex || endmess == nextindex + 1 || vec[nextindex].a_type != A_SYMBOL || vec[nextindex+1].a_type != A_SYMBOL) { nextindex = endmess + 1; continue; } natom = endmess - nextindex; if (natom > MAXSTACK-10) natom = MAXSTACK-10; nextmess = vec + nextindex; first = nextmess->a_w.w_symbol->s_name; second = (nextmess+1)->a_w.w_symbol->s_name; if (maxtopd) { /* case 1: importing a ".pat" file into Pd. */ /* dollar signs in file translate to symbols */ for (i = 0; i < natom; i++) { if (nextmess[i].a_type == A_DOLLAR) { char buf[100]; sprintf(buf, "$%d", nextmess[i].a_w.w_index); SETSYMBOL(nextmess+i, gensym(buf)); } else if (nextmess[i].a_type == A_DOLLSYM) { char buf[100]; sprintf(buf, "%s", nextmess[i].a_w.w_symbol->s_name); SETSYMBOL(nextmess+i, gensym(buf)); } } if (!strcmp(first, "#N")) { if (!strcmp(second, "vpatcher")) { if (stackdepth >= MAXSTACK) { error("stack depth exceeded: too many embedded patches"); return (newb); } stack[stackdepth] = nobj; stackdepth++; nobj = 0; binbuf_addv(newb, "ssfffff;", gensym("#N"), gensym("canvas"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(4, natom, nextmess) - atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(5, natom, nextmess) - atom_getfloatarg(3, natom, nextmess), (t_float)sys_defaultfont); } } if (!strcmp(first, "#P")) { /* drop initial "hidden" flag */ if (!strcmp(second, "hidden")) { nextmess++; natom--; second = (nextmess+1)->a_w.w_symbol->s_name; } if (natom >= 7 && !strcmp(second, "newobj") && (ISSYMBOL(&nextmess[6], "patcher") || ISSYMBOL(&nextmess[6], "p"))) { binbuf_addv(newb, "ssffss;", gensym("#X"), gensym("restore"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym("pd"), atom_getsymbolarg(7, natom, nextmess)); if (stackdepth) stackdepth--; nobj = stack[stackdepth]; nobj++; } else if (!strcmp(second, "newex") || !strcmp(second, "newobj")) { t_symbol *classname = atom_getsymbolarg(6, natom, nextmess); if (classname == gensym("trigger") || classname == gensym("t")) { for (i = 7; i < natom; i++) if (nextmess[i].a_type == A_SYMBOL && nextmess[i].a_w.w_symbol == gensym("i")) nextmess[i].a_w.w_symbol = gensym("f"); } if (classname == gensym("table")) classname = gensym("TABLE"); SETSYMBOL(outmess, gensym("#X")); SETSYMBOL(outmess + 1, gensym("obj")); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; SETSYMBOL(outmess+4, classname); for (i = 7; i < natom; i++) outmess[i-2] = nextmess[i]; SETSEMI(outmess + natom - 2); binbuf_add(newb, natom - 1, outmess); nobj++; } else if (!strcmp(second, "message") || !strcmp(second, "comment")) { SETSYMBOL(outmess, gensym("#X")); SETSYMBOL(outmess + 1, gensym( (strcmp(second, "message") ? "text" : "msg"))); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; for (i = 6; i < natom; i++) outmess[i-2] = nextmess[i]; SETSEMI(outmess + natom - 2); binbuf_add(newb, natom - 1, outmess); nobj++; } else if (!strcmp(second, "button")) { binbuf_addv(newb, "ssffs;", gensym("#X"), gensym("obj"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym("bng")); nobj++; } else if (!strcmp(second, "number") || !strcmp(second, "flonum")) { binbuf_addv(newb, "ssff;", gensym("#X"), gensym("floatatom"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess)); nobj++; } else if (!strcmp(second, "slider")) { t_float inc = atom_getfloatarg(7, natom, nextmess); if (inc <= 0) inc = 1; binbuf_addv(newb, "ssffsffffffsssfffffffff;", gensym("#X"), gensym("obj"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym("vsl"), atom_getfloatarg(4, natom, nextmess), atom_getfloatarg(5, natom, nextmess), atom_getfloatarg(6, natom, nextmess), atom_getfloatarg(6, natom, nextmess) + (atom_getfloatarg(5, natom, nextmess) - 1) * inc, 0., 0., gensym("empty"), gensym("empty"), gensym("empty"), 0., -8., 0., 8., -262144., -1., -1., 0., 1.); nobj++; } else if (!strcmp(second, "toggle")) { binbuf_addv(newb, "ssffs;", gensym("#X"), gensym("obj"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym("tgl")); nobj++; } else if (!strcmp(second, "inlet")) { binbuf_addv(newb, "ssffs;", gensym("#X"), gensym("obj"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym((natom > 5 ? "inlet~" : "inlet"))); nobj++; } else if (!strcmp(second, "outlet")) { binbuf_addv(newb, "ssffs;", gensym("#X"), gensym("obj"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), gensym((natom > 5 ? "outlet~" : "outlet"))); nobj++; } else if (!strcmp(second, "user")) { third = (nextmess+2)->a_w.w_symbol->s_name; if (!strcmp(third, "hslider")) { t_float range = atom_getfloatarg(7, natom, nextmess); t_float multiplier = atom_getfloatarg(8, natom, nextmess); t_float offset = atom_getfloatarg(9, natom, nextmess); binbuf_addv(newb, "ssffsffffffsssfffffffff;", gensym("#X"), gensym("obj"), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(4, natom, nextmess), gensym("hsl"), atom_getfloatarg(6, natom, nextmess), atom_getfloatarg(5, natom, nextmess), offset, range + offset, 0., 0., gensym("empty"), gensym("empty"), gensym("empty"), 0., -8., 0., 8., -262144., -1., -1., 0., 1.); } else if (!strcmp(third, "uslider")) { t_float range = atom_getfloatarg(7, natom, nextmess); t_float multiplier = atom_getfloatarg(8, natom, nextmess); t_float offset = atom_getfloatarg(9, natom, nextmess); binbuf_addv(newb, "ssffsffffffsssfffffffff;", gensym("#X"), gensym("obj"), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(4, natom, nextmess), gensym("vsl"), atom_getfloatarg(5, natom, nextmess), atom_getfloatarg(6, natom, nextmess), offset, range + offset, 0., 0., gensym("empty"), gensym("empty"), gensym("empty"), 0., -8., 0., 8., -262144., -1., -1., 0., 1.); } else binbuf_addv(newb, "ssffs;", gensym("#X"), gensym("obj"), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(4, natom, nextmess), atom_getsymbolarg(2, natom, nextmess)); nobj++; } else if (!strcmp(second, "connect")|| !strcmp(second, "fasten")) { binbuf_addv(newb, "ssffff;", gensym("#X"), gensym("connect"), nobj - atom_getfloatarg(2, natom, nextmess) - 1, atom_getfloatarg(3, natom, nextmess), nobj - atom_getfloatarg(4, natom, nextmess) - 1, atom_getfloatarg(5, natom, nextmess)); } } } else /* Pd to Max */ { if (!strcmp(first, "#N")) { if (!strcmp(second, "canvas")) { t_float x, y; if (stackdepth >= MAXSTACK) { error("stack depth exceeded: too many embedded patches"); return (newb); } stack[stackdepth] = nobj; stackdepth++; nobj = 0; if(!gotfontsize) { /* only the first canvas sets the font size */ fontsize = atom_getfloatarg(6, natom, nextmess); gotfontsize = 1; } x = atom_getfloatarg(2, natom, nextmess); y = atom_getfloatarg(3, natom, nextmess); binbuf_addv(newb, "ssffff;", gensym("#N"), gensym("vpatcher"), x, y, atom_getfloatarg(4, natom, nextmess) + x, atom_getfloatarg(5, natom, nextmess) + y); } } if (!strcmp(first, "#X")) { if (natom >= 5 && !strcmp(second, "restore") && (ISSYMBOL (&nextmess[4], "pd"))) { binbuf_addv(newb, "ss;", gensym("#P"), gensym("pop")); SETSYMBOL(outmess, gensym("#P")); SETSYMBOL(outmess + 1, gensym("newobj")); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; SETFLOAT(outmess + 4, 50.*(natom-5)); SETFLOAT(outmess + 5, fontsize); SETSYMBOL(outmess + 6, gensym("p")); for (i = 5; i < natom; i++) outmess[i+2] = nextmess[i]; SETSEMI(outmess + natom + 2); binbuf_add(newb, natom + 3, outmess); if (stackdepth) stackdepth--; nobj = stack[stackdepth]; nobj++; } else if (!strcmp(second, "obj")) { t_symbol *classname = atom_getsymbolarg(4, natom, nextmess); if (classname == gensym("inlet")) binbuf_addv(newb, "ssfff;", gensym("#P"), gensym("inlet"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), 10. + fontsize); else if (classname == gensym("inlet~")) binbuf_addv(newb, "ssffff;", gensym("#P"), gensym("inlet"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), 10. + fontsize, 1.); else if (classname == gensym("outlet")) binbuf_addv(newb, "ssfff;", gensym("#P"), gensym("outlet"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), 10. + fontsize); else if (classname == gensym("outlet~")) binbuf_addv(newb, "ssffff;", gensym("#P"), gensym("outlet"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), 10. + fontsize, 1.); else if (classname == gensym("bng")) binbuf_addv(newb, "ssffff;", gensym("#P"), gensym("button"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(5, natom, nextmess), 0.); else if (classname == gensym("tgl")) binbuf_addv(newb, "ssffff;", gensym("#P"), gensym("toggle"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(5, natom, nextmess), 0.); else if (classname == gensym("vsl")) binbuf_addv(newb, "ssffffff;", gensym("#P"), gensym("slider"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(5, natom, nextmess), atom_getfloatarg(6, natom, nextmess), (atom_getfloatarg(8, natom, nextmess) - atom_getfloatarg(7, natom, nextmess)) / (atom_getfloatarg(6, natom, nextmess) == 1? 1 : atom_getfloatarg(6, natom, nextmess) - 1), atom_getfloatarg(7, natom, nextmess)); else if (classname == gensym("hsl")) { t_float slmin = atom_getfloatarg(7, natom, nextmess); t_float slmax = atom_getfloatarg(8, natom, nextmess); binbuf_addv(newb, "sssffffffff;", gensym("#P"), gensym("user"), gensym("hslider"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), atom_getfloatarg(6, natom, nextmess), atom_getfloatarg(5, natom, nextmess), slmax - slmin + 1, /* range */ 1., /* multiplier */ slmin, /* offset */ 0.); } else if ( (classname == gensym("trigger")) || (classname == gensym("t")) ) { t_symbol *arg; SETSYMBOL(outmess, gensym("#P")); SETSYMBOL(outmess + 1, gensym("newex")); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; SETFLOAT(outmess + 4, 50.*(natom-4)); SETFLOAT(outmess + 5, fontsize); outmess[6] = nextmess[4]; for (i = 5; i < natom; i++) { arg = atom_getsymbolarg(i, natom, nextmess); if (arg == gensym("a")) SETSYMBOL(outmess + i + 2, gensym("l")); else if (arg == gensym("anything")) SETSYMBOL(outmess + i + 2, gensym("l")); else if (arg == gensym("bang")) SETSYMBOL(outmess + i + 2, gensym("b")); else if (arg == gensym("float")) SETSYMBOL(outmess + i + 2, gensym("f")); else if (arg == gensym("list")) SETSYMBOL(outmess + i + 2, gensym("l")); else if (arg == gensym("symbol")) SETSYMBOL(outmess + i + 2, gensym("s")); else outmess[i+2] = nextmess[i]; } SETSEMI(outmess + natom + 2); binbuf_add(newb, natom + 3, outmess); } else { SETSYMBOL(outmess, gensym("#P")); SETSYMBOL(outmess + 1, gensym("newex")); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; SETFLOAT(outmess + 4, 50.*(natom-4)); SETFLOAT(outmess + 5, fontsize); for (i = 4; i < natom; i++) outmess[i+2] = nextmess[i]; if (classname == gensym("osc~")) SETSYMBOL(outmess + 6, gensym("cycle~")); SETSEMI(outmess + natom + 2); binbuf_add(newb, natom + 3, outmess); } nobj++; } else if (!strcmp(second, "msg") || !strcmp(second, "text")) { SETSYMBOL(outmess, gensym("#P")); SETSYMBOL(outmess + 1, gensym( (strcmp(second, "msg") ? "comment" : "message"))); outmess[2] = nextmess[2]; outmess[3] = nextmess[3]; SETFLOAT(outmess + 4, 50.*(natom-4)); SETFLOAT(outmess + 5, fontsize); for (i = 4; i < natom; i++) outmess[i+2] = nextmess[i]; SETSEMI(outmess + natom + 2); binbuf_add(newb, natom + 3, outmess); nobj++; } else if (!strcmp(second, "floatatom")) { t_float width = atom_getfloatarg(4, natom, nextmess)*fontsize; if(width<8) width = 150; /* if pd width=0, set it big */ binbuf_addv(newb, "ssfff;", gensym("#P"), gensym("flonum"), atom_getfloatarg(2, natom, nextmess), atom_getfloatarg(3, natom, nextmess), width); nobj++; } else if (!strcmp(second, "connect")) { binbuf_addv(newb, "ssffff;", gensym("#P"), gensym("connect"), nobj - atom_getfloatarg(2, natom, nextmess) - 1, atom_getfloatarg(3, natom, nextmess), nobj - atom_getfloatarg(4, natom, nextmess) - 1, atom_getfloatarg(5, natom, nextmess)); } } } nextindex = endmess + 1; } if (!maxtopd) binbuf_addv(newb, "ss;", gensym("#P"), gensym("pop")); #if 0 binbuf_write(newb, "import-result.pd", "/tmp", 0); #endif return (newb); } /* function to support searching */ int binbuf_match(t_binbuf *inbuf, t_binbuf *searchbuf, int wholeword) { int indexin, nmatched; for (indexin = 0; indexin <= inbuf->b_n - searchbuf->b_n; indexin++) { for (nmatched = 0; nmatched < searchbuf->b_n; nmatched++) { t_atom *a1 = &inbuf->b_vec[indexin + nmatched], *a2 = &searchbuf->b_vec[nmatched]; if (a1->a_type == A_SEMI || a1->a_type == A_COMMA) { if (a2->a_type != a1->a_type) goto nomatch; } else if (a1->a_type == A_FLOAT || a1->a_type == A_DOLLAR) { if (a2->a_type != a1->a_type || a1->a_w.w_float != a2->a_w.w_float) goto nomatch; } else if (a1->a_type == A_SYMBOL || a1->a_type == A_DOLLSYM) { if ((a2->a_type != A_SYMBOL && a2->a_type != A_DOLLSYM) || (wholeword && a1->a_w.w_symbol != a2->a_w.w_symbol) || (!wholeword && !strstr(a1->a_w.w_symbol->s_name, a2->a_w.w_symbol->s_name))) goto nomatch; } } return (1); nomatch: ; } return (0); } void pd_doloadbang(void); /* LATER make this evaluate the file on-the-fly. */ /* LATER figure out how to log errors */ void binbuf_evalfile(t_symbol *name, t_symbol *dir) { t_binbuf *b = binbuf_new(); int import = !strcmp(name->s_name + strlen(name->s_name) - 4, ".pat") || !strcmp(name->s_name + strlen(name->s_name) - 4, ".mxt"); /* set filename so that new canvases can pick them up */ int dspstate = canvas_suspend_dsp(); glob_setfilename(0, name, dir); if (binbuf_read(b, name->s_name, dir->s_name, 0)) { perror(name->s_name); } else { if (import) { t_binbuf *newb = binbuf_convert(b, 1); binbuf_free(b); b = newb; } binbuf_eval(b, 0, 0, 0); } glob_setfilename(0, &s_, &s_); binbuf_free(b); canvas_resume_dsp(dspstate); } t_pd *glob_evalfile(t_pd *ignore, t_symbol *name, t_symbol *dir) { t_pd *x = 0; /* even though binbuf_evalfile appears to take care of dspstate, we have to do it again here, because canvas_startdsp() assumes that all toplevel canvases are visible. LATER check if this is still necessary -- probably not. */ int dspstate = canvas_suspend_dsp(); binbuf_evalfile(name, dir); while ((x != s__X.s_thing) && s__X.s_thing) { x = s__X.s_thing; vmess(x, gensym("pop"), "i", 1); } pd_doloadbang(); canvas_resume_dsp(dspstate); return x; }