43BSDReno/contrib/isode-beta/dsap/common/llib-lcommon - view

File: [CSRG BSD Unix] / 43BSDReno / contrib / isode-beta / dsap / common / llib-lcommon
Revision 1.1.1.1 (vendor branch): download - view: text, annotated - select for diffs
Tue Apr 24 16:12:56 2018 UTC (8 years, 1 month ago) by root
Branches: MAIN, BSD
CVS tags: HEAD, BSD43reno

BSD 4.3reno

/* llib-lcommon - lint library for QUIPU-common */ /* * $Header: /var/lib/cvsd/repos/CSRG/43BSDReno/contrib/isode-beta/dsap/common/llib-lcommon,v 1.1.1.1 2018/04/24 16:12:56 root Exp $ * * * $Log: llib-lcommon,v $ * Revision 1.1.1.1 2018/04/24 16:12:56 root * BSD 4.3reno * # Revision 7.3 90/07/09 14:34:35 mrose # sync # # Revision 7.2 90/03/15 11:17:35 mrose # quipu-sync # # Revision 7.1 89/12/19 16:19:22 mrose # sync # # Revision 7.0 89/11/23 21:42:20 mrose # Release 6.0 # */ /* * NOTICE * * Acquisition, use, and distribution of this module and related * materials are subject to the restrictions of a license agreement. * Consult the Preface in the User's Manual for the full terms of * this agreement. * */ /* LINTLIBRARY */ #include <signal.h> #include "quipu/util.h" #include "quipu/entry.h" #include "quipu/common.h" #include "quipu/dsargument.h" #include "quipu/list.h" #include "quipu/ds_search.h" #include "quipu/ufn.h" struct acl_info * acl_info_new (x,y,z) register int x,y; struct dn_seq * z; { return (acl_info_new(x,y,z)); } struct acl_info * acl_default () { return (acl_default()); } int acl_cmp (acl1, acl2) struct acl * acl1; struct acl * acl2; { return (acl_cmp(acl1,acl2)); } get_default_acl () { (void) get_default_acl(); } set_default_acl (ai_ptr) struct acl_info * ai_ptr; { (void) set_default_acl(ai_ptr); } test_acl_default (a) struct acl_info * a; { return (test_acl_default (a)); } acl_syntax () { (void) (acl_syntax ()); } as_cmp_comp (a,b) Attr_Sequence a,b; { return (as_cmp_comp(a,b)); } as_cmp (a,b) Attr_Sequence a,b; { return (as_cmp(a,b)); } Attr_Sequence as_comp_cpy (as) Attr_Sequence as; { return (as_comp_cpy(as)); } Attr_Sequence as_cpy (as) Attr_Sequence as; { return (as_cpy(as)); } as_delnext (as) Attr_Sequence as; { (void) as_delnext(as); } Attr_Sequence as_find_type (a,b) Attr_Sequence a; AttributeType b; { return (as_find_type(a,b)); } as_comp_free (as) Attr_Sequence as; { (void) as_comp_free(as); } as_free (as) Attr_Sequence as; { (void) as_free(as); } Attr_Sequence as_merge_aux (a,b) Attr_Sequence a,b; { return (as_merge_aux (a,b)); } Attr_Sequence as_merge (a,b) Attr_Sequence a,b; { return (as_merge(a,b)); } Attr_Sequence as_comp_new (at,as,acl) AttributeType at; AV_Sequence as; struct acl_info * acl; { return (as_comp_new(at,as,acl)); } as_comp_print (ps,as,format) PS ps; Attr_Sequence as; int format; { (void) as_comp_print(ps,as,format); } as_print (ps,as,format) Attr_Sequence as; PS ps; int format; { (void) as_print(ps,as,format); } Attr_Sequence str2as (str) register char * str; { return (str2as(str)); } Attr_Sequence as_combine (as,str) Attr_Sequence as; register char * str; { return (as_combine(as,str)); } oid_table_attr * AttrT_new_aux (name) register char * name; { return (AttrT_new_aux(name)); } AttributeType AttrT_new (name) register char * name; { return (AttrT_new(name)); } AttrT_print (ps,x,format) register PS ps; register AttributeType x; register int format; { (void) AttrT_print(ps,x,format); } short add_attribute_syntax (sntx,enc,dec,parse,print,cpy,cmp,sfree,print_pe,approx,multiline) char * sntx; IFP enc,dec,parse,print,cpy,cmp,sfree,approx; char * print_pe; char multiline; { return (add_attribute_syntax(sntx,enc,dec,parse,print,cpy,cmp,sfree,print_pe,approx,multiline)); } set_attribute_syntax (sntx,enc,dec,parse,print,cpy,cmp,sfree,print_pe,approx,multiline) short sntx; IFP enc,dec,parse,print,cpy,cmp,sfree,approx; char * print_pe; char multiline; { (void) set_attribute_syntax(sntx,enc,dec,parse,print,cpy,cmp,sfree,print_pe,approx,multiline); } set_av_pe_print (sntx,print_pe) short sntx; char * print_pe; { (void) set_av_pe_print(sntx,print_pe); } split_attr (as) Attr_Sequence as; { return (split_attr(as)); } IFP approxfn (x) int x; { return (approxfn(x)); } char * syntax2str (sntx) int sntx; { return (syntax2str(sntx)); } short str2syntax (str) char * str; { return (str2syntax(str)); } sntx_table * get_syntax_table (x) short x; { return (get_syntax_table(x)); } AttrV_free (x) register AttributeValue x; { (void) AttrV_free(x); } AttrV_free_aux (x) register AttributeValue x; { (void) AttrV_free_aux(x); } PE grab_pe(av) AttributeValue av; { return (grab_pe(av)); } AttrV_decode(x,y) register AttributeType x; register AttributeValue y; { return (AttrV_decode(x,y)); } str_at2AttrV_aux (str,at,rav) char * str; AttributeType at; AttributeValue rav; { return str_at2AttrV_aux (str,at,rav); } AttributeValue str_at2AttrV (str,at) char * str; AttributeType at; { return str_at2AttrV (str,at); } AttributeValue str2AttrV (str,syntax) register char * str; short syntax; { return (str2AttrV (str,syntax)); } str2AttrV_aux (str,syntax,x) register char * str; short syntax; AttributeValue x; { return str2AttrV_aux(str,syntax,x); } AttributeValue AttrV_cpy (x) register AttributeValue x; { return ( AttrV_cpy (x)); } AttrV_cpy_aux (x,y) register AttributeValue x; register AttributeValue y; { (void) AttrV_cpy_aux (x,y); } AttrV_cmp (x,y) register AttributeValue x,y; { return AttrV_cmp (x,y); } IFP av_cmp_fn (syntax) int syntax; { return av_cmp_fn (syntax); } AttrV_print (ps,x,format) register PS ps; register AttributeValue x; register int format; { (void) AttrV_print (ps,x,format); } avs_cmp (a,b) AV_Sequence a,b; { return (avs_cmp(a,b)); } AV_Sequence avs_comp_cpy (avs) AV_Sequence avs; { return (avs_comp_cpy(avs)); } AV_Sequence avs_cpy (avs) AV_Sequence avs; { return (avs_cpy(avs)); } avs_delnext (avs) AV_Sequence avs; { (void) avs_delnext(avs); } avs_comp_free (avs) AV_Sequence avs; { (void) avs_comp_free(avs); } avs_free (avs) AV_Sequence avs; { (void) avs_free(avs); } AV_Sequence avs_merge (a,b) AV_Sequence a,b; { return (avs_merge(a,b)); } avs_comp_fill (ptr,pe) AV_Sequence ptr; AttributeValue pe; { (void) avs_comp_fill(ptr,pe); } AV_Sequence avs_comp_new (pe) AttributeValue pe; { return (avs_comp_new(pe)); } avs_comp_print (ps,avs,format) AV_Sequence avs; PS ps; int format; { (void) avs_comp_print(ps,avs,format); } avs_print (ps,avs,format) AV_Sequence avs; PS ps; int format; { (void) avs_print(ps,avs,format); } avs_print_aux (ps,avs,format,sep) AV_Sequence avs; PS ps; int format; char * sep; { (void) avs_print_aux(ps,avs,format,sep); } AV_Sequence str2avs (str,at) char * str; AttributeType at; { return (str2avs(str,at)); } boolean_syntax () { (void) boolean_syntax(); } struct common_args * get_ca_ref(dsarg) struct ds_op_arg * dsarg; { return get_ca_ref(dsarg); } cha_loopdetected(cha) struct chain_arg * cha; { return cha_loopdetected(cha); } ti_is_elem(ti, ti_list) struct trace_info * ti; struct trace_info * ti_list; { return ti_is_elem(ti,ti_list); } struct trace_info * ti_cpy(ti) struct trace_info * ti; { return ti_cpy(ti); } correlate_search_results(sr_res) struct ds_search_result * sr_res; { (void) correlate_search_results(sr_res); } merge_search_results(sr_res, sr_tmp) struct ds_search_result * sr_res; struct ds_search_result * sr_tmp; { (void) merge_search_results(sr_res,sr_tmp); } search_result_free(arg) struct ds_search_result * arg; { (void) search_result_free(arg); } dn_append (a,b) DN a,b; { (void) dn_append(a,b); } dn_cmp (a,b) register DN a,b; { return (dn_cmp(a,b)); } dn_cmp_prefix (a,b) register DN a,b; { return (dn_cmp_prefix(a,b)); } DN dn_comp_cpy (dn) register DN dn; { return (dn_comp_cpy(dn)); } DN dn_cpy (dn) register DN dn; { return (dn_cpy(dn)); } dn_comp_free (dn) DN dn; { (void) dn_comp_free(dn); } dn_free (dn) DN dn; { (void) dn_free(dn); } DN dn_comp_new (rdn) RDN rdn; { return (dn_comp_new(rdn)); } dn_print (ps,dn,format) DN dn; PS ps; int format; { (void) dn_print(ps,dn,format); } ufn_dn_print (ps,dn,multiline) PS ps; DN dn; char multiline; { (void) ufn_dn_print (ps,dn,multiline); } ufn_dn_print_aux (ps,dn,marker,multiline) PS ps; DN dn; DN marker; int multiline; { (void) ufn_dn_print_aux (ps,dn,marker,multiline); } ufn_rdn_print (ps,rdn) RDN rdn; PS ps; { (void) ufn_rdn_print (ps,rdn); } char * dn2str(dn) DN dn; { return dn2str(dn); } char * dn2ufn(dn,multiline) DN dn; char multiline; { return dn2ufn(dn,multiline); } dn_seq_free (dnseq) struct dn_seq * dnseq; { (void) dn_seq_free(dnseq); } struct dn_seq * dn_seq_cpy (dnseq) struct dn_seq * dnseq; { return (dn_seq_cpy(dnseq)); } check_dnseq (dnseq,who) struct dn_seq * dnseq; DN who; { return (check_dnseq(dnseq,who)); } dn_seq_cmp (a,b) struct dn_seq * a, * b; { return (dn_seq_cmp(a,b)); } check_dnseq_prefix (dnseq,who) struct dn_seq * dnseq; DN who; { return (check_dnseq_prefix(dnseq,who)); } dn_seq_print (ps,dnseq,format) PS ps; struct dn_seq * dnseq; int format; { (void) dn_seq_print(ps,dnseq,format); } struct dn_seq * str2dnseq (str) register char * str; { return (str2dnseq(str)); } int dn_in_dnseq(dn, dnseq) DN dn; struct dn_seq * dnseq; { return (dn_in_dnseq(dn, dnseq)); } struct dn_seq * dn_seq_push(dn,dnseq) DN dn; struct dn_seq * dnseq; { return dn_seq_push(dn,dnseq); } struct dn_seq * dn_seq_pop(dnseq) struct dn_seq * dnseq; { return dn_seq_pop(dnseq); } DN str2dn (str) register char * str; { return (str2dn(str)); } DN str2dn_aux (str,alias) char * str; char *alias; { return (str2dn_aux(str,alias)); } DN str2dnX (str) register char * str; { return (str2dnX(str)); } DN dn_dec (pe) PE pe; { return dn_dec (pe); } PE dn_enc (dn) DN dn; { return dn_enc (dn); } dn_syntax () { (void) dn_syntax (); } DN dq2dn (designator, qualifier) char *designator, *qualifier; { return (dq2dn(designator,qualifier)); } edbinfo_syntax () { (void) edbinfo_syntax (); } entryinfo_comp_free (a,state) register EntryInfo *a; int state; { (void) entryinfo_comp_free(a,state); } entryinfo_free (a,state) register EntryInfo * a; register int state; { (void) entryinfo_free(a,state); } entryinfo_cpy (a,b) register EntryInfo *a; register EntryInfo *b; { (void) entryinfo_cpy(a,b); } entryinfo_append (a,b) register EntryInfo *a,*b; { (void) entryinfo_append(a,b); } entryinfo_merge (a,b) EntryInfo *a,*b; { (void) entryinfo_merge(a,b); } entryinfo_print (ps,entryinfo,format) PS ps; EntryInfo *entryinfo; int format; { (void) entryinfo_print(ps,entryinfo,format); } fax_syntax () { (void) fax_syntax (); } struct file_syntax * fileattr_cpy (fs) struct file_syntax * fs; { return (fileattr_cpy(fs)); } file_cmp (a,b) struct file_syntax *a, *b; { return (file_cmp(a,b)); } PE grab_filepe (av) AttributeValue av; { return (grab_filepe(av)); } file_decode (x) AttributeValue x; { (void) file_decode (x); } #ifndef SYS5 /* ARGSUSED */ #endif int dflt_attr_file (at,x,full) AttributeType at; AttributeValue x; char full; { return (dflt_attr_file(at,x,full)); } fileattr_print (ps,y,format) PS ps; AttributeValue y; int format; { (void) fileattr_print(ps,y,format); } str2file_aux (str,at,x) char * str; AttributeType at; AttributeValue x; { return (str2file_aux(str,at,x)); } AttributeValue str2file (str,at) char * str; AttributeType at; { return (str2file(str,at)); } file_free (fs) struct file_syntax * fs; { (void) file_free(fs); } filter_free (filt) Filter filt; { (void) filter_free(filt); } filter_append (a,b) Filter a,b; { (void) filter_append(a,b); } Filter strfilter (at,s,type) AttributeType at; char * s; char type; { return strfilter (at,s,type); } Filter ocfilter (s) char * s; { return ocfilter (s); } Filter joinfilter (f, type) Filter f; char type; { return joinfilter (f, type); } print_filter (nps, fi, level) PS nps; register Filter fi; int level; { (void) print_filter (nps, fi, level); } guide_syntax () { (void) guide_syntax (); } integer_syntax () { (void) integer_syntax(); } mailbox_syntax () { (void) mailbox_syntax(); } objectclass * oc_add (oid) OID oid; { return (oc_add(oid)); } objclass_cmp (a,b) objectclass *a, *b; { return objclass_cmp (a,b); } check_in_oc (oid,avs) OID oid; AV_Sequence avs; { return (check_in_oc(oid,avs)); } oc_print (ps,oc,format) PS ps; objectclass * oc; int format; { (void) oc_print (ps,oc,format); } objectclass_syntax () { (void) objectclass_syntax(); } load_oid_table (table) char * table; { (void) load_oid_table(table); } add_entry_aux (a,b,c,d) char * a; caddr_t b; int c; char * d; { (void) add_entry_aux(a,b,c,d); } char * get_oid (str) char * str; { return (get_oid(str)); } oid_table_attr *name2attr(nodename) char * nodename; { return (name2attr(nodename)); } set_heap (x) AttributeType x; { return (set_heap(x)); } oid_table_attr *oid2attr(oid) OID oid; { return (oid2attr(oid)); } objectclass *name2oc(nodename) register char * nodename; { return (name2oc(nodename)); } objectclass *oid2oc(oid) OID oid; { return (oid2oc(oid)); } char *attr2name_aux (oa) register oid_table_attr *oa; { return (attr2name_aux(oa)); } char *attr2name(oa,format) register oid_table_attr *oa; int format; { return (attr2name(oa,format)); } char *oc2name(oc,format) register objectclass *oc; int format; { return (oc2name(oc,format)); } char *oid2name(oid,format) OID oid; int format; { return (oid2name(oid,format)); } OID name2oid (str) register char * str; { return (name2oid(str)); } PE oid2pe (o) OID o; { return (oid2pe(o)); } oidprint (ps,o,format) PS ps; OID o; int format; { (void) oidprint(ps,o,format); } OID dup_prim2oid (pe) PE pe; { return (dup_prim2oid(pe)); } oid_syntax () { (void) oid_syntax(); } want_oc_hierarchy () { (void) want_oc_hierarchy(); } load_obj_hier (sep,newname) char * sep; char * newname; { return load_obj_hier(sep,newname); } void dumpalloid () { dumpalloid(); } objectclass * str2oc (str) char * str; { return (str2oc (str)); } add_oc_macro (buf,ptr) char * buf, *ptr; { (void) add_oc_macro(buf,ptr); } oid_seq_free (ptr) struct oid_seq * ptr; { (void) oid_seq_free(ptr); } struct oid_seq *oid_seq_merge (a,b) struct oid_seq *a; struct oid_seq *b; { return (oid_seq_merge(a,b)); } oid_seq_cmp (a,b) struct oid_seq *a, *b; { return (oid_seq_cmp(a,b)); } struct oid_seq * oid_seq_cpy (a) struct oid_seq * a; { return (oid_seq_cpy(a)); } oid_seq_print (ps,ptr,format) PS ps; register struct oid_seq * ptr; int format; { (void) oid_seq_print(ps,ptr,format); } struct oid_seq * str2oidseq (str) char * str; { return (str2oidseq(str)); } parse_error (a,b) char *a, *b; { (void) parse_error(a,b); } pref_deliv_syntax () { (void) pref_deliv_syntax (); } pe_print (ps, pe, format) register PS ps; register PE pe; int format; { (void) pe_print (ps,pe,format); } PE asn2pe (str) char * str; { return (asn2pe(str)); } char * show_picture (picture,picture_process,len) char *picture; char *picture_process; int len; { return (show_picture(picture,picture_process,len)); } exec_print (ps,av,proc) PS ps; AttributeValue av; char * proc; { (void) exec_print(ps,av,proc); } hide_picture () { (void) hide_picture(); } picture_print (ps,pe,format) PS ps; PE pe; int format; { (void) picture_print(ps,pe,format); } photo_syntax () { (void) photo_syntax(); } post_syntax () { (void) post_syntax(); } psap_free (psap) struct PSAPaddr * psap; { (void) psap_free(psap); } struct PSAPaddr * psap_cpy (a) struct PSAPaddr * a; { return (psap_cpy(a)); } psap_dup (r,a) struct PSAPaddr * r, * a; { (void) psap_dup(r,a); } psap_syntax () { (void) psap_syntax(); } quipu_syntaxes () { (void) quipu_syntaxes(); } rdn_cmp_comp (a,b) RDN a,b; { return (rdn_cmp_comp(a,b)); } rdn_cmp (a,b) register RDN a,b; { return (rdn_cmp(a,b)); } RDN rdn_comp_cpy (rdn) RDN rdn; { return (rdn_comp_cpy(rdn)); } RDN rdn_cpy (rdn) RDN rdn; { return (rdn_cpy(rdn)); } rdn_comp_free (rdn) RDN rdn; { (void) rdn_comp_free(rdn); } rdn_free (rdn) RDN rdn; { (void) rdn_free(rdn); } RDN rdn_merge (a,b) RDN a,b; { return (rdn_merge(a,b)); } RDN rdn_comp_new (at,av) AttributeType at; AttributeValue av; { return (rdn_comp_new(at,av)); } rdn_comp_print (ps,rdn,format) PS ps; RDN rdn; int format; { (void) rdn_comp_print(ps,rdn,format); } rdn_print (ps,rdn,format) RDN rdn; PS ps; int format; { (void) rdn_print(ps,rdn,format); } RDN str2rdn_aux (str) char * str; { return (str2rdn_aux(str)); } RDN str2rdn (str) char * str; { return (str2rdn(str)); } stop_listeners () { (void) stop_listeners(); } soundex_cmp (a,b) register char * a; register char * b; { return (soundex_cmp (a,b)); } soundex_match (fitem,avs) register struct filter_item *fitem; register AV_Sequence avs; { return (soundex_match(fitem,avs)); } standard_syntaxes () { (void) standard_syntaxes(); } char * octparse (str) char * str; { return (octparse(str)); } char * prtparse (str) char * str; { return (prtparse(str)); } sfree (x) char *x; { (void) sfree(x); } pstrcmp (a,b) char * a, *b; { return pstrcmp (a,b); } telcmp (a, b) char *a, *b; { return (telcmp(a,b)); } strprint (ps,str,format) PS ps; char * str; int format; { (void) strprint(ps,str,format); } octprint (ps,str,format) PS ps; char * str; int format; { (void) octprint(ps,str,format); } case_exact_match (sntx) short sntx; { return (case_exact_match(sntx)); } approx_string (sntx) short sntx; { return (approx_string(sntx)); } sub_string (sntx) short sntx; { return (sub_string(sntx)); } string_syntaxes () { (void) string_syntaxes(); } teletex_syntax () { (void) teletex_syntax(); } telex_syntax () { (void) telex_syntax(); } utcprint (ps,time,format) PS ps; char *time; int format; { (void) utcprint (ps,time,format); } time_syntax () { (void) time_syntax(); } schema_syntax () { (void) schema_syntax(); } char * SkipSpace (ptr) register char * ptr; { return (SkipSpace(ptr)); } void StripSpace (b) register char *b; { StripSpace (b); } void StripSpace2 (b) register char *b; { StripSpace2 (b); } char * TidyString (a) register char * a; { return (TidyString(a)); } test_prim_pe (pe,class,id) PE pe; PElementClass class; PElementID id; { return (test_prim_pe(pe,class,id)); } /* VARARGS2 */ ps_printf (ps,fmt) PS ps; char * fmt; { (void) ps_printf(ps,fmt); } fatal (code,fmt) int code; char *fmt; { (void) fatal(code,fmt); } pslog (lp,event,str,func,ptr) LLog * lp; int event; char * str; int (*func) (); caddr_t ptr; { (void) pslog(lp,event,str,func,ptr); } quipu_pe_cmp (a,b) register PE a,b; { return (quipu_pe_cmp(a,b)); } struct acl_info * acl_dflt () { return (acl_dflt()); } /* VARARGS2 */ dsap_init(acptr,avptr) int *acptr; char *** avptr; { (void) dsap_init(acptr,avptr); } dsap_tai (argc, argv) char **argv; { return (dsap_tai (argc, argv)); } tai_args (acptr,avptr) int *acptr; char ***avptr; { (void) tai_args (acptr,avptr); } dsap_tai_init() { return (dsap_tai_init()); } tai_string (str) char * str; { return (tai_string (str)); } ds_error (ps,err) PS ps; struct DSError *err; { (void) ds_error (ps,err); } log_ds_error (err) struct DSError *err; { (void) log_ds_error (err); } ds_error_free (err) struct DSError * err; { (void) ds_error_free (err); } struct subordinate * subord_cpy (x) struct subordinate * x; { return (subord_cpy(x)); } cache_list (ptr, prob,dn,sizelimit) struct subordinate *ptr; int prob; DN dn; int sizelimit; { (void) cache_list (ptr,prob,dn,sizelimit); } delete_list_cache (adn) DN adn; { (void) delete_list_cache (adn); } struct list_cache *find_list_cache (dn,sizelimit) DN dn; int sizelimit; { return (find_list_cache(dn,sizelimit)); } cache_entry (ptr, complete, vals) EntryInfo *ptr; char complete; char vals; { (void) cache_entry (ptr, complete, vals); } delete_cache (adn) DN adn; { (void) delete_cache(adn); } Entry local_find_entry (object,deref) DN object; char deref; { return (local_find_entry(object,deref)); } DN get_copy_dn (entryptr) Entry entryptr; { return (get_copy_dn(entryptr)); } unravel_attribute (eptr,error,decode) Entry eptr; struct DSError * error; char decode; { return (unravel_attribute(eptr,error,decode)); } check_schema (eptr,as,error,decode) Entry eptr; Attr_Sequence as; struct DSError * error; char decode; { return (check_schema(eptr,as,error,decode)); } char * new_version () { return new_version(); } directory_free (directory) Entry directory; { (void) directory_free(directory); } entry_free (entryptr) Entry entryptr; { (void) entry_free(entryptr); } Entry entry_cpy (entryptr) register Entry entryptr; { return (entry_cpy(entryptr)); } Entry get_default_entry (parent) Entry parent; { return (get_default_entry(parent)); } check_known_oids () { (void) check_known_oids(); } char * getline (file) FILE * file; { return getline (file); } Attr_Sequence get_attributes_aux (file) FILE * file; { return (get_attributes_aux(file)); } Attr_Sequence get_attributes (file) FILE * file; { return (get_attributes(file)); } Entry get_entry_aux (file,parent,dtype) FILE * file; Entry parent; int dtype; { return (get_entry_aux(file,parent,dtype)); } Entry get_entry (file,parent,dtype) FILE * file; Entry parent; int dtype; { return (get_entry(file,parent,dtype)); } Entry new_constructor (parent) Entry parent; { return (new_constructor(parent)); } Entry make_path (dn) DN dn; { return (make_path(dn)); } DNS DNS_append (a,b) DNS a, b; { return DNS_append (a,b); } dnSelect (s,dlist,interact,el) char * s; DNS *dlist; DNS (* interact) (); DNS el; { return dnSelect (s,dlist,interact,el); } ufn_search (base, subtree, filt, res, s, interact, el) DN base; char subtree; Filter filt; DNS * res; char * s; DNS (* interact) (); DNS el; { return ufn_search (base, subtree, filt, res, s, interact, el); } envlist read_envlist() { return read_envlist(); } ufn_match (c,v,interact,result,el) int c; char ** v; DNS (* interact) (); DNS * result; envlist el; { return ufn_match (c,v,interact,result,el); } ufn_init () { return ufn_init (); } aet_match (c,v,interact,result,el,context) int c; char ** v; DNS *result; DNS (* interact) (); envlist el; char * context; { return aet_match (c,v,interact,result,el,context); } set_lookup_ufn (flag) char flag; { return set_lookup_ufn (flag); } set_lookup_dap (flag) char flag; { return set_lookup_dap (flag); }

This archive runs on limited infrastructure. Preserving old code on modern bandwidth. Automated agents are requested to crawl responsibly.