/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1982-2008 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * David Korn * * * ***********************************************************************/ #pragma prototyped /* * code for tree nodes and name walking * * David Korn * AT&T Labs * */ #include "defs.h" #include "name.h" #include "argnod.h" #include "lexstates.h" struct nvdir { Dt_t *root; Namval_t *hp; Namval_t *table; Namval_t *otable; Namval_t *(*nextnode)(Namval_t*,Dt_t*,Namfun_t*); Namfun_t *fun; struct nvdir *prev; int len; char data[1]; }; char *nv_getvtree(Namval_t*, Namfun_t *); static void put_tree(Namval_t*, const char*, int,Namfun_t*); static char *walk_tree(Namval_t*, Namval_t*, int); static int read_tree(Namval_t* np, Sfio_t *iop, int n, Namfun_t *dp) { Sfio_t *sp; char *cp; int c; if(n>=0) return(-1); while((c = sfgetc(iop)) && isblank(c)); sfungetc(iop,c); sfprintf(sh.strbuf,"%s=%c",nv_name(np),0); cp = sfstruse(sh.strbuf); sp = sfopen((Sfio_t*)0,cp,"s"); sfstack(iop,sp); c=sh_eval(iop,SH_READEVAL); return(c); } static Namval_t *create_tree(Namval_t *np,const char *name,int flag,Namfun_t *dp) { register Namfun_t *fp=dp; while(fp=fp->next) { if(fp->disc && fp->disc->createf) { if(np=(*fp->disc->createf)(np,name,flag,fp)) dp->last = fp->last; return(np); } } return((flag&NV_NOADD)?0:np); } static Namfun_t *clone_tree(Namval_t *np, Namval_t *mp, int flags, Namfun_t *fp){ Namfun_t *dp; if ((flags&NV_MOVE) && nv_type(np)) return(fp); dp = nv_clone_disc(fp,flags); if((flags&NV_COMVAR) && !(flags&NV_RAW)) { walk_tree(np,mp,flags); if((flags&NV_MOVE) && !(fp->nofree&1)) free((void*)fp); } return(dp); } static const Namdisc_t treedisc = { 0, put_tree, nv_getvtree, 0, 0, create_tree, clone_tree ,0,0,0, read_tree }; static char *nextdot(const char *str) { register char *cp; register int c; if(*str=='.') str++; for(cp=(char*)str;c= *cp; cp++) { if(c=='[') { cp = nv_endsubscript((Namval_t*)0,(char*)cp,0); return(*cp=='.'?cp:0); } if(c=='.') return(cp); } return(0); } static Namfun_t *nextdisc(Namval_t *np) { register Namfun_t *fp; if(nv_isref(np)) return(0); for(fp=np->nvfun;fp;fp=fp->next) { if(fp && fp->disc && fp->disc->nextf) return(fp); } return(0); } void *nv_diropen(Namval_t *np,const char *name) { char *next,*last; int c,len=strlen(name); struct nvdir *save, *dp = new_of(struct nvdir,len); Namval_t *nq=0,fake; Namfun_t *nfp=0; if(!dp) return(0); memset((void*)dp, 0, sizeof(*dp)); if(name[len-1]=='*' || name[len-1]=='@') len -= 1; name = memcpy(dp->data,name,len); dp->data[len] = 0; dp->len = len; dp->root = sh.last_root?sh.last_root:sh.var_tree; #if 1 while(1) { dp->table = sh.last_table; sh.last_table = 0; if(*(last=(char*)name)==0) break; if(!(next=nextdot(last))) break; *next = 0; np = nv_open(name, dp->root, NV_NOFAIL); *next = '.'; if(!np || !nv_istable(np)) break; dp->root = nv_dict(np); name = next+1; } #else dp->table = sh.last_table; sh.last_table = 0; last = dp->data; #endif if(*name) { fake.nvname = (char*)name; if(dp->hp = (Namval_t*)dtprev(dp->root,&fake)) { char *cp = nv_name(dp->hp); c = strlen(cp); if(memcmp(name,cp,c) || name[c]!='[') dp->hp = (Namval_t*)dtnext(dp->root,dp->hp); else { np = dp->hp; last = 0; } } } else dp->hp = (Namval_t*)dtfirst(dp->root); while(1) { if(!last) next = 0; else if(next= nextdot(last)) { c = *next; *next = 0; } if(!np) { if(nfp && nfp->disc && nfp->disc->createf) { np = (*nfp->disc->createf)(nq,last,0,nfp); if(*nfp->last == '[') { nv_endsubscript(np,nfp->last,NV_NOADD); if(nq = nv_opensub(np)) np = nq; } } else np = nv_search(last,dp->root,0); } if(next) *next = c; if(np==dp->hp && !next) dp->hp = (Namval_t*)dtnext(dp->root,dp->hp); if(np && ((nfp=nextdisc(np)) || nv_istable(np))) { if(!(save = new_of(struct nvdir,0))) return(0); *save = *dp; dp->prev = save; if(nv_istable(np)) dp->root = nv_dict(np); else dp->root = (Dt_t*)np; if(nfp) { dp->nextnode = nfp->disc->nextf; dp->table = np; dp->otable = sh.last_table; dp->fun = nfp; dp->hp = (*dp->nextnode)(np,(Dt_t*)0,nfp); } else dp->nextnode = 0; } else break; if(!next || next[1]==0) break; last = next+1; nq = np; np = 0; } return((void*)dp); } static Namval_t *nextnode(struct nvdir *dp) { if(dp->nextnode) return((*dp->nextnode)(dp->hp,dp->root,dp->fun)); if(dp->len && memcmp(dp->data, dp->hp->nvname, dp->len)) return(0); return((Namval_t*)dtnext(dp->root,dp->hp)); } char *nv_dirnext(void *dir) { register struct nvdir *save, *dp = (struct nvdir*)dir; register Namval_t *np, *last_table; register char *cp; Namfun_t *nfp; Namval_t *nq; while(1) { while(np=dp->hp) { #if 0 char *sptr; #endif if(nv_isarray(np)) nv_putsub(np,(char*)0, ARRAY_UNDEF); dp->hp = nextnode(dp); if(nv_isnull(np) && !nv_isarray(np)) continue; last_table = sh.last_table; #if 0 if(dp->table && dp->otable && !nv_isattr(dp->table,NV_MINIMAL)) { sptr = dp->table->nvenv; dp->table->nvenv = (char*)dp->otable; } #endif sh.last_table = dp->table; cp = nv_name(np); #if 0 if(dp->table && dp->otable && !nv_isattr(dp->table,NV_MINIMAL)) dp->table->nvenv = sptr; #endif if(dp->nextnode && !dp->hp && (nq = (Namval_t*)dp->table)) { Namarr_t *ap = nv_arrayptr(nq); if(ap && (ap->nelem&ARRAY_SCAN) && nv_nextsub(nq)) dp->hp = (*dp->nextnode)(np,(Dt_t*)0,dp->fun); } sh.last_table = last_table; if(!dp->len || memcmp(cp,dp->data,dp->len)==0) { if((nfp=nextdisc(np)) && (nfp->disc->getval||nfp->disc->getnum) && nv_isvtree(np) && strcmp(cp,dp->data)) nfp = 0; if(nfp || nv_istable(np)) { Dt_t *root; if(nv_istable(np)) root = nv_dict(np); else root = (Dt_t*)np; /* check for recursive walk */ for(save=dp; save; save=save->prev) { if(save->root==root) break; } if(save) return(cp); if(!(save = new_of(struct nvdir,0))) return(0); *save = *dp; dp->prev = save; dp->root = root; dp->len = 0; if(nfp && np->nvfun) { #if 0 Namarr_t *ap = nv_arrayptr(np); if(ap && (ap->nelem&ARRAY_UNDEF)) nv_putsub(np,(char*)0,ARRAY_SCAN); #endif dp->nextnode = nfp->disc->nextf; dp->otable = dp->table; dp->table = np; dp->fun = nfp; dp->hp = (*dp->nextnode)(np,(Dt_t*)0,nfp); } else dp->nextnode = 0; } return(cp); } } if(!(save=dp->prev)) break; *dp = *save; free((void*)save); } return(0); } void nv_dirclose(void *dir) { struct nvdir *dp = (struct nvdir*)dir; if(dp->prev) nv_dirclose((void*)dp->prev); free(dir); } static void outtype(Namval_t *np, Namfun_t *fp, Sfio_t* out, const char *prefix) { char *type=0; Namval_t *tp = fp->type; if(!tp && fp->disc && fp->disc->typef) tp = (*fp->disc->typef)(np,fp); for(fp=fp->next;fp;fp=fp->next) { if(fp->type || (fp->disc && fp->disc->typef &&(*fp->disc->typef)(np,fp))) { outtype(np,fp,out,prefix); break; } } if(prefix && *prefix=='t') type = "-T"; else if(!prefix) type = "type"; if(type) { char *cp=tp->nvname; if(cp=strrchr(cp,'.')) cp++; else cp = tp->nvname; sfprintf(out,"%s %s ",type,cp); } } /* * print the attributes of name value pair give by */ void nv_attribute(register Namval_t *np,Sfio_t *out,char *prefix,int noname) { register const Shtable_t *tp; register char *cp; register unsigned val,mask,attr; char *ip=0; Namfun_t *fp=0; Namval_t *typep=0; for(fp=np->nvfun;fp;fp=fp->next) { if((typep=fp->type) || (fp->disc && fp->disc->typef && (typep=(*fp->disc->typef)(np,fp)))) break; } if(!fp && !nv_isattr(np,~(NV_MINIMAL|NV_NOFREE))) { if(prefix && *prefix) { if(nv_isvtree(np)) sfprintf(out,"%s -C ",prefix); else if(!np->nvalue.cp && nv_isattr(np,~NV_NOFREE)==NV_MINIMAL && strcmp(np->nvname,"_")) sfputr(out,prefix,' '); } return; } if ((attr=nv_isattr(np,~NV_NOFREE)) || fp) { if((attr&NV_NOPRINT|NV_INTEGER)==NV_NOPRINT) attr &= ~NV_NOPRINT; if(!attr && !fp) return; if(fp) { prefix = Empty; attr &= NV_RDONLY|NV_ARRAY; if(nv_isattr(np,NV_REF|NV_TAGGED)==(NV_REF|NV_TAGGED)) attr |= (NV_REF|NV_TAGGED); if(typep) { char *cp = typep->nvname; if(cp = strrchr(cp,'.')) cp++; else cp = typep->nvname; sfputr(out,cp,' '); fp = 0; } } else if(prefix && *prefix) sfputr(out,prefix,' '); for(tp = shtab_attributes; *tp->sh_name;tp++) { val = tp->sh_number; mask = val; if(fp && (val&NV_INTEGER)) break; /* * the following test is needed to prevent variables * with E attribute from being given the F * attribute as well */ if(val==NV_DOUBLE && (attr&(NV_EXPNOTE|NV_HEXFLOAT))) continue; if(val&NV_INTEGER) mask |= NV_DOUBLE; else if(val&NV_HOST) mask = NV_HOST; if((attr&mask)==val) { if(val==NV_ARRAY) { Namarr_t *ap = nv_arrayptr(np); char **xp=0; if(ap && array_assoc(ap)) { if(tp->sh_name[1]!='A') continue; } else if(tp->sh_name[1]=='A') continue; if(ap && (ap->nelem&ARRAY_TREE)) { if(prefix && *prefix) sfwrite(out,"-C ",3); } if(ap && !array_assoc(ap) && (xp=(char**)(ap+1)) && *xp) ip = nv_namptr(*xp,0)->nvname; } if(prefix) { if(*tp->sh_name=='-') sfprintf(out,"%.2s ",tp->sh_name); if(ip) { sfprintf(out,"[%s] ",ip); ip = 0; } } else sfputr(out,tp->sh_name+2,' '); if ((val&(NV_LJUST|NV_RJUST|NV_ZFILL)) && !(val&NV_INTEGER) && val!=NV_HOST) sfprintf(out,"%d ",nv_size(np)); if(val==(NV_REF|NV_TAGGED)) attr &= ~(NV_REF|NV_TAGGED); } if(val==NV_INTEGER && nv_isattr(np,NV_INTEGER)) { if(nv_size(np) != 10) { if(nv_isattr(np, NV_DOUBLE)== NV_DOUBLE) cp = "precision"; else cp = "base"; if(!prefix) sfputr(out,cp,' '); sfprintf(out,"%d ",nv_size(np)); } break; } } if(fp) outtype(np,fp,out,prefix); if(noname) return; sfputr(out,nv_name(np),'\n'); } } struct Walk { Sfio_t *out; Dt_t *root; int noscope; int indent; int nofollow; int array; int flags; }; void nv_outnode(Namval_t *np, Sfio_t* out, int indent, int special) { char *fmtq,*ep,*xp; Namval_t *mp; Namarr_t *ap = nv_arrayptr(np); int tabs=0,c,more,associative = 0; if(ap) { if(!(ap->nelem&ARRAY_SCAN)) nv_putsub(np,NIL(char*),ARRAY_SCAN); sfputc(out,'('); if(indent>=0) { sfputc(out,'\n'); tabs=1; } if(!(associative =(array_assoc(ap)!=0))) { if(array_elem(ap) < nv_aimax(np)+1) associative=1; } } mp = nv_opensub(np); while(1) { if(mp && special && nv_isvtree(mp)) { if(!nv_nextsub(np)) break; mp = nv_opensub(np); continue; } if(tabs) sfnputc(out,'\t',++indent); tabs=0; if(associative||special) { if(!(fmtq = nv_getsub(np))) break; sfprintf(out,"[%s]",sh_fmtq(fmtq)); sfputc(out,'='); } if(mp && nv_isarray(mp)) { nv_outnode(mp, out, indent+(indent>=0),0); if(indent>0) sfnputc(out,'\t',indent); sfputc(out,')'); sfputc(out,indent>=0?'\n':' '); more = nv_nextsub(np); goto skip; } if(mp && nv_isvtree(mp)) nv_onattr(mp,NV_EXPORT); ep = nv_getval(mp?mp:np); xp = 0; if(!ap && nv_isattr(np,NV_INTEGER|NV_LJUST)==NV_LJUST) { xp = ep+nv_size(np); while(--xp>ep && *xp==' '); if(xp>ep || *xp!=' ') xp++; if(xp < (ep+nv_size(np))) *xp = 0; else xp = 0; } if(mp && nv_isvtree(mp)) fmtq = ep; else if(!(fmtq = sh_fmtq(ep))) fmtq = ""; else if(!associative && (ep=strchr(fmtq,'='))) { char *qp = strchr(fmtq,'\''); if(!qp || qp>ep) { sfwrite(out,fmtq,ep-fmtq); sfputc(out,'\\'); fmtq = ep; } } more = nv_nextsub(np); c = '\n'; if(indent<0) { c = ';'; if(ap) c = more?' ':-1; } sfputr(out,fmtq,c); if(xp) *xp = ' '; skip: if(!more) return; mp = nv_opensub(np); if(indent>0 && !(mp && special && nv_isvtree(mp))) sfnputc(out,'\t',indent); } } static void outval(char *name, const char *vname, struct Walk *wp) { register Namval_t *np, *nq; register Namfun_t *fp; int isarray=0, special=0,mode=0; if(*name!='.' || vname[strlen(vname)-1]==']') mode = NV_ARRAY; if(!(np=nv_open(vname,wp->root,mode|NV_VARNAME|NV_NOADD|NV_NOASSIGN|NV_NOFAIL|wp->noscope))) return; fp = nv_hasdisc(np,&treedisc); if(*name=='.') { if(nv_isattr(np,NV_BINARY)) return; if(fp && np->nvalue.cp && np->nvalue.cp!=Empty) { nv_local = 1; fp = 0; } if(fp) return; if(nv_isarray(np)) return; } if(!special && fp && !nv_isarray(np)) { Namfun_t *xp; if(!wp->out) { fp = nv_stack(np,fp); if(fp = nv_stack(np,NIL(Namfun_t*))) free((void*)fp); np->nvfun = 0; return; } for(xp=fp->next; xp; xp = xp->next) { if(xp->disc && (xp->disc->getval || xp->disc->getnum)) break; } if(!xp) return; } if((nv_isnull(np) || np->nvalue.cp==Empty) && !nv_isarray(np)) return; if(special || (nv_isarray(np) && nv_arrayptr(np))) { isarray=1; if(array_elem(nv_arrayptr(np))==0) isarray=2; else nq = nv_putsub(np,NIL(char*),ARRAY_SCAN|(wp->out?ARRAY_NOCHILD:0)); } if(!wp->out) { _nv_unset(np,NV_RDONLY); nv_close(np); #if 0 if(sh.subshell==0 && !(wp->flags&NV_RDONLY) && !nv_isattr(np,NV_MINIMAL|NV_NOFREE)) nv_delete(np,wp->root,0); #endif return; } if(isarray==1 && !nq) { sfputc(wp->out,'('); if(wp->indent>=0) sfputc(wp->out,'\n'); return; } if(isarray==0 && nv_isarray(np) && nv_isnull(np)) /* empty array */ isarray = 2; special |= wp->nofollow; if(!wp->array && wp->indent>0) sfnputc(wp->out,'\t',wp->indent); if(!special) { if(*name!='.') nv_attribute(np,wp->out,"typeset",'='); nv_outname(wp->out,name,-1); if(np->nvalue.cp || nv_isattr(np,~(NV_MINIMAL|NV_NOFREE)) || nv_isvtree(np)) sfputc(wp->out,(isarray==2?'\n':'=')); if(isarray==2) return; } fp = np->nvfun; if(*name=='.' && !isarray) np->nvfun = 0; nv_outnode(np, wp->out, wp->indent, special); if(*name=='.' && !isarray) np->nvfun = fp; if(isarray && !special) { if(wp->indent>0) { sfnputc(wp->out,'\t',wp->indent); sfwrite(wp->out,")\n",2); } else sfwrite(wp->out,");",2); } } /* * format initialization list given a list of assignments */ static char **genvalue(char **argv, const char *prefix, int n, struct Walk *wp) { register char *cp,*nextcp,*arg; register Sfio_t *outfile = wp->out; register int m,r,l; if(n==0) m = strlen(prefix); else if(cp=nextdot(prefix)) m = cp-prefix; else m = strlen(prefix)-1; m++; if(outfile && !wp->array) { sfputc(outfile,'('); if(wp->indent>=0) { wp->indent++; sfputc(outfile,'\n'); } } for(; arg= *argv; argv++) { cp = arg + n; if(n==0 && cp[m-1]!='.') continue; if(n && cp[m-1]==0) break; if(n==0 || strncmp(arg,prefix-n,m+n)==0) { cp +=m; r = 0; if(*cp=='.') cp++,r++; if(nextcp=nextdot(cp)) { if(outfile) { Namval_t *np,*tp; *nextcp = 0; np=nv_open(arg,wp->root,NV_VARNAME|NV_NOADD|NV_NOASSIGN|NV_NOFAIL|wp->noscope); if(!np || (nv_isarray(np) && (!(tp=nv_opensub(np)) || !nv_isvtree(tp)))) { *nextcp = '.'; continue; } if(wp->indent>=0) sfnputc(outfile,'\t',wp->indent); if(*cp!='[' && (tp = nv_type(np))) { char *sp; if(sp = strrchr(tp->nvname,'.')) sp++; else sp = tp->nvname; sfputr(outfile,sp,' '); } nv_outname(outfile,cp,nextcp-cp); sfputc(outfile,'='); *nextcp = '.'; } else { outval(cp,arg,wp); continue; } argv = genvalue(argv,cp,n+m+r,wp); if(wp->indent>=0) sfputc(outfile,'\n'); if(*argv) continue; break; } else if(outfile && !wp->nofollow && argv[1] && memcmp(arg,argv[1],l=strlen(arg))==0 && argv[1][l]=='[') { Namval_t *np = nv_open(arg,wp->root,NV_VARNAME|NV_NOADD|NV_NOASSIGN|wp->noscope); if(!np) continue; wp->array = nv_isarray(np); if(wp->indent>0) sfnputc(outfile,'\t',wp->indent); nv_attribute(np,outfile,"typeset",1); nv_close(np); sfputr(outfile,arg+m+r+(n?n:0),'='); wp->nofollow=1; argv = genvalue(argv,cp,cp-arg ,wp); sfputc(outfile,wp->indent<0?';':'\n'); } else if(outfile && *cp=='[') { if(wp->indent) sfnputc(outfile,'\t',wp->indent); sfputr(outfile,cp,'='); argv = genvalue(++argv,cp,cp-arg ,wp); sfputc(outfile,'\n'); } else { outval(cp,arg,wp); if(wp->array) { if(wp->indent>=0) wp->indent++; else sfputc(outfile,' '); wp->array = 0; } } } else break; wp->nofollow = 0; } wp->array = 0; if(outfile) { int c = prefix[m-1]; cp = (char*)prefix; if(c=='.') cp[m-1] = 0; outval(".",prefix-n,wp); if(c=='.') cp[m-1] = c; if(wp->indent>0) sfnputc(outfile,'\t',--wp->indent); sfputc(outfile,')'); } return(--argv); } /* * walk the virtual tree and print or delete name-value pairs */ static char *walk_tree(register Namval_t *np, Namval_t *xp, int flags) { static Sfio_t *out; struct Walk walk; Sfio_t *outfile; int len, savtop = staktell(); char *savptr = stakfreeze(0); register struct argnod *ap=0; struct argnod *arglist=0; char *name,*cp, **argv; char *subscript=0; void *dir; int n=0, noscope=(flags&NV_NOSCOPE); Namarr_t *arp = nv_arrayptr(np); Dt_t *save_tree = sh.var_tree; Namval_t *mp=0; Shell_t *shp = sh_getinterp(); char *xpname = xp?stakcopy(nv_name(xp)):0; if(xp) { shp->last_root = shp->prev_root; shp->last_table = shp->prev_table; } if(shp->last_table) shp->last_root = nv_dict(shp->last_table); if(shp->last_root) shp->var_tree = shp->last_root; stakputs(nv_name(np)); if(arp && !(arp->nelem&ARRAY_SCAN) && (subscript = nv_getsub(np))) { mp = nv_opensub(np); stakputc('['); stakputs(subscript); stakputc(']'); stakputc('.'); } else if(*stakptr(staktell()-1) == ']') mp = np; name = stakfreeze(1); len = strlen(name); shp->last_root = 0; dir = nv_diropen(mp,name); walk.root = shp->last_root?shp->last_root:shp->var_tree; if(subscript) name[strlen(name)-1] = 0; while(cp = nv_dirnext(dir)) { if(cp[len]!='.') continue; if(xp) { Dt_t *dp = shp->var_tree; Namval_t *nq, *mq; if(strlen(cp)<=len) continue; nq = nv_open(cp,walk.root,NV_VARNAME|NV_NOADD|NV_NOASSIGN|NV_NOFAIL); if(!nq && (flags&NV_MOVE)) nq = nv_search(cp,walk.root,NV_NOADD); stakseek(0); stakputs(xpname); stakputs(cp+len); stakputc(0); shp->var_tree = save_tree; mq = nv_open(stakptr(0),save_tree,NV_VARNAME|NV_NOASSIGN|NV_NOFAIL); shp->var_tree = dp; if(nq && mq) { nv_clone(nq,mq,flags|NV_RAW); if(flags&NV_MOVE) nv_delete(nq,walk.root,0); } continue; } stakseek(ARGVAL); stakputs(cp); ap = (struct argnod*)stakfreeze(1); ap->argflag = ARG_RAW; ap->argchn.ap = arglist; n++; arglist = ap; } nv_dirclose(dir); if(xp) { shp->var_tree = save_tree; return((char*)0); } argv = (char**)stakalloc((n+1)*sizeof(char*)); argv += n; *argv = 0; for(; ap; ap=ap->argchn.ap) *--argv = ap->argval; if(flags&1) outfile = 0; else if(!(outfile=out)) outfile = out = sfnew((Sfio_t*)0,(char*)0,-1,-1,SF_WRITE|SF_STRING); else sfseek(outfile,0L,SEEK_SET); walk.out = outfile; walk.indent = (flags&NV_EXPORT)?-1:0; walk.nofollow = 0; walk.noscope = noscope; walk.array = 0; walk.flags = flags; genvalue(argv,name,0,&walk); stakset(savptr,savtop); shp->var_tree = save_tree; if(!outfile) return((char*)0); sfputc(out,0); return((char*)out->_data); } Namfun_t *nv_isvtree(Namval_t *np) { if(np) return(nv_hasdisc(np,&treedisc)); return(0); } /* * get discipline for compound initializations */ char *nv_getvtree(register Namval_t *np, Namfun_t *fp) { int flags=0; for(; fp && fp->next; fp=fp->next) { if(fp->next->disc && (fp->next->disc->getnum || fp->next->disc->getval)) return(nv_getv(np,fp)); } if(nv_isattr(np,NV_BINARY) && !nv_isattr(np,NV_RAW)) return(nv_getv(np,fp)); if(nv_isattr(np,NV_ARRAY) && !nv_type(np) && nv_arraychild(np,(Namval_t*)0,0)==np) return(nv_getv(np,fp)); if(flags = nv_isattr(np,NV_EXPORT)) nv_offattr(np,NV_EXPORT); return(walk_tree(np,(Namval_t*)0,flags)); } /* * put discipline for compound initializations */ static void put_tree(register Namval_t *np, const char *val, int flags,Namfun_t *fp) { struct Namarray *ap; int nleft = 0; if(!val && !fp->next && nv_isattr(np,NV_NOFREE)) return; if(!nv_isattr(np,(NV_INTEGER|NV_BINARY))) { Shell_t *shp = sh_getinterp(); Namval_t *last_table = shp->last_table; Dt_t *last_root = shp->last_root; Namval_t *mp = val?nv_open(val,shp->var_tree,NV_VARNAME|NV_NOADD|NV_NOASSIGN|NV_NOFAIL):0; if(mp && nv_isvtree(mp)) { shp->prev_table = shp->last_table; shp->prev_root = shp->last_root; shp->last_table = last_table; shp->last_root = last_root; if(!(flags&NV_APPEND)) walk_tree(np,(Namval_t*)0,(flags&NV_NOSCOPE)|1); nv_clone(mp,np,NV_COMVAR); return; } walk_tree(np,(Namval_t*)0,(flags&NV_NOSCOPE)|1); } nv_putv(np, val, flags,fp); if(val && nv_isattr(np,(NV_INTEGER|NV_BINARY))) return; if(ap= nv_arrayptr(np)) nleft = array_elem(ap); if(nleft==0) { fp = nv_stack(np,fp); if(fp = nv_stack(np,NIL(Namfun_t*))) free((void*)fp); } } /* * Insert discipline to cause $x to print current tree */ void nv_setvtree(register Namval_t *np) { register Namfun_t *nfp; if(sh.subshell) sh_assignok(np,1); if(nv_hasdisc(np, &treedisc)) return; nfp = newof(NIL(void*),Namfun_t,1,0); nfp->disc = &treedisc; nv_stack(np, nfp); }