#define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" /* support for Hash::Util::FieldHash, prefix HUF_ */ /* A Perl sub that returns a hashref to the object registry */ #define HUF_OB_REG "Hash::Util::FieldHash::_ob_reg" /* Identifier for PERL_MAGIC_ext magic */ #define HUF_IDCACHE 0x4944 /* For global cache of object registry */ #define MY_CXT_KEY "Hash::Util::FieldHash::_guts" XS_VERSION typedef struct { HV* ob_reg; /* Cache object registry */ } my_cxt_t; START_MY_CXT /* Inquire the object registry (a lexical hash) from perl */ HV * HUF_get_ob_reg(pTHX) { dSP; HV* ob_reg = NULL; I32 items; ENTER; SAVETMPS; PUSHMARK(SP); items = call_pv(HUF_OB_REG, G_SCALAR|G_NOARGS); SPAGAIN; if (items == 1 && TOPs && SvROK(TOPs) && SvTYPE(SvRV(TOPs)) == SVt_PVHV) ob_reg = (HV*)SvRV(POPs); PUTBACK; FREETMPS; LEAVE; if (!ob_reg) Perl_die(aTHX_ "Can't get object registry hash"); return ob_reg; } /* Deal with global context */ #define HUF_INIT 1 #define HUF_CLONE 0 #define HUF_RESET -1 void HUF_global(pTHX_ I32 how) { if (how == HUF_INIT) { MY_CXT_INIT; MY_CXT.ob_reg = HUF_get_ob_reg(aTHX); } else if (how == HUF_CLONE) { MY_CXT_CLONE; MY_CXT.ob_reg = HUF_get_ob_reg(aTHX); } else if (how == HUF_RESET) { dMY_CXT; MY_CXT.ob_reg = HUF_get_ob_reg(aTHX); } } /* Object id */ /* definition of id transformation */ #define HUF_OBJ_ID(x) newSVuv(PTR2UV(x)) SV * HUF_obj_id(pTHX_ SV *obj) { SV *item = SvRV(obj); MAGIC *mg; SV *id; /* Get cached object ID, if it exists */ if (SvTYPE(item) >= SVt_PVMG) { for ( mg = SvMAGIC(item); mg; mg = mg->mg_moremagic ) { if ((mg->mg_type == PERL_MAGIC_ext) && (mg->mg_private == HUF_IDCACHE) ) { return mg->mg_obj; } } } /* Create an object ID, cache it */ id = HUF_OBJ_ID(item); mg = sv_magicext(item, id, PERL_MAGIC_ext, NULL, NULL, 0); mg->mg_private = HUF_IDCACHE; SvREFCNT_dec(id); /* refcnt++ in sv_magicext() */ /* Return the object ID */ return id; } /* set up uvar magic for any sv */ void HUF_add_uvar_magic( pTHX_ SV* sv, /* the sv to enchant, visible to get/set */ I32(* val)(pTHX_ IV, SV*), /* "get" function */ I32(* set)(pTHX_ IV, SV*), /* "set" function */ I32 index, /* get/set will see this */ SV* thing /* any associated info */ ) { struct ufuncs uf; uf.uf_val = val; uf.uf_set = set; uf.uf_index = index; sv_magic(sv, thing, PERL_MAGIC_uvar, (char*)&uf, sizeof(uf)); } /* Fetch the data container of a trigger */ AV * HUF_get_trigger_content(pTHX_ SV *trigger) { MAGIC* mg; if (trigger && (mg = mg_find(trigger, PERL_MAGIC_uvar))) return (AV*)mg->mg_obj; return NULL; } /* Delete an object from all field hashes it may occur in. Also delete * the object's entry from the object registry. This function goes in * the uf_set field of the uvar magic of a trigger. */ I32 HUF_destroy_obj(pTHX_ IV index, SV *trigger) { PERL_UNUSED_ARG(index); /* Do nothing if the weakref wasn't undef'd. Also don't bother * during global destruction. (MY_CXT.ob_reg is sometimes funny there) */ if (!SvROK(trigger) && (!PL_in_clean_all)) { dMY_CXT; AV* cont = HUF_get_trigger_content(aTHX_ trigger); SV* ob_id = *av_fetch(cont, 0, 0); HV* field_tab = (HV*) *av_fetch(cont, 1, 0); HE* ent; hv_iterinit(field_tab); while ((ent = hv_iternext(field_tab))) { SV* field_ref = HeVAL(ent); SV* field = SvRV(field_ref); (void) hv_delete_ent((HV*)field, ob_id, 0, 0); } /* make it safe in case we must run in global clenaup, after all */ if (PL_in_clean_all) HUF_global(aTHX_ HUF_RESET); /* shoudn't be needed */ (void) hv_delete_ent(MY_CXT.ob_reg, ob_id, 0, 0); } return 0; } /* Create a trigger for an object. The trigger is a magical SV * that holds a weak ref to the object. The magic fires when the object * expires and takes care of garbage collection in registred hashes. * For that purpose, the magic structure holds the original id of * the object, and a list (a hash, really) of hashes from which the * object may * have to be deleted. The trigger is stored in the * object registry and is also deleted when the object expires. */ SV * HUF_new_trigger(pTHX_ SV *obj, SV *ob_id) { dMY_CXT; SV* trigger = sv_rvweaken(newRV_inc(SvRV(obj))); AV* cont = newAV(); sv_2mortal((SV*)cont); av_store(cont, 0, SvREFCNT_inc(ob_id)); av_store(cont, 1, (SV*)newHV()); HUF_add_uvar_magic(aTHX_ trigger, NULL, &HUF_destroy_obj, 0, (SV*)cont); (void) hv_store_ent(MY_CXT.ob_reg, ob_id, trigger, 0); return trigger; } /* retrieve a trigger for obj if one exists, return NULL otherwise */ SV * HUF_ask_trigger(pTHX_ SV *ob_id) { dMY_CXT; HE* ent; if ((ent = hv_fetch_ent(MY_CXT.ob_reg, ob_id, 0, 0))) return HeVAL(ent); return NULL; } /* get the trigger for an object, creating it if necessary */ SV * HUF_get_trigger0(pTHX_ SV *obj, SV *ob_id) { SV* trigger; if (!(trigger = HUF_ask_trigger(aTHX_ ob_id))) trigger = HUF_new_trigger(aTHX_ obj, ob_id); return trigger; } SV * HUF_get_trigger(pTHX_ SV *obj, SV *ob_id) { SV* trigger = HUF_ask_trigger(aTHX_ ob_id); if (!trigger) trigger = HUF_new_trigger(aTHX_ obj, ob_id); return( trigger); } /* mark an object (trigger) as having been used with a field (a clenup-liability) */ void HUF_mark_field(pTHX_ SV *trigger, SV *field) { AV* cont = HUF_get_trigger_content(aTHX_ trigger); HV* field_tab = (HV*) *av_fetch(cont, 1, 0); SV* field_ref = newRV_inc(field); UV field_addr = PTR2UV(field); (void) hv_store(field_tab, (char *)&field_addr, sizeof(field_addr), field_ref, 0); } /* Determine, from the value of action, whether this call may create a new * hash key */ #define HUF_WOULD_CREATE_KEY(x) ((x) != HV_DELETE && ((x) & (HV_FETCH_ISSTORE | HV_FETCH_LVALUE))) /* The key exchange functions. They communicate with S_hv_magic_uvar_xkey * in hv.c */ I32 HUF_watch_key_safe(pTHX_ IV action, SV* field) { MAGIC* mg = mg_find(field, PERL_MAGIC_uvar); SV* keysv; if (mg && (keysv = mg->mg_obj)) { if (SvROK(keysv)) { /* ref key */ SV* ob_id = HUF_obj_id(aTHX_ keysv); mg->mg_obj = ob_id; /* key replacement */ if (HUF_WOULD_CREATE_KEY(action)) { SV* trigger = HUF_get_trigger(aTHX_ keysv, ob_id); HUF_mark_field(aTHX_ trigger, field); } } else if (HUF_WOULD_CREATE_KEY(action)) { /* string key */ /* registered as object id? */ SV* trigger; if (( trigger = HUF_ask_trigger(aTHX_ keysv))) HUF_mark_field(aTHX_ trigger, field); } } else { Perl_die(aTHX_ "Rogue call of 'HUF_watch_key_safe'"); } return 0; } I32 HUF_watch_key_id(pTHX_ IV action, SV* field) { MAGIC* mg = mg_find(field, PERL_MAGIC_uvar); SV* keysv; PERL_UNUSED_ARG(action); if (mg && (keysv = mg->mg_obj)) { if (SvROK(keysv)) /* ref key */ mg->mg_obj = HUF_obj_id(aTHX_ keysv); /* key replacement */ } else { Perl_die(aTHX_ "Rogue call of 'HUF_watch_key_id'"); } return 0; } int HUF_func_2mode( I32(* val)(pTHX_ IV, SV*)) { int ans = 0; if (val == &HUF_watch_key_id) ans = 1; if (val == &HUF_watch_key_safe) ans = 2; return(ans); } I32(* HUF_mode_2func( int mode))(pTHX_ IV, SV*) { I32(* ans)(pTHX_ IV, SV*) = NULL; switch (mode) { case 1: ans = &HUF_watch_key_id; break; case 2: ans = &HUF_watch_key_safe; break; } return(ans); } /* see if something is a field hash */ int HUF_get_status(pTHX_ HV *hash) { int ans = 0; if (hash && (SvTYPE(hash) == SVt_PVHV)) { MAGIC* mg; struct ufuncs* uf; if ((mg = mg_find((SV*)hash, PERL_MAGIC_uvar)) && (uf = (struct ufuncs *)mg->mg_ptr) && (uf->uf_set == NULL) ) { ans = HUF_func_2mode(uf->uf_val); } } return ans; } /* Thread support. These routines are called by CLONE (and nothing else) */ /* Fix entries for one object in all field hashes */ void HUF_fix_trigger(pTHX_ SV *trigger, SV *new_id) { AV* cont = HUF_get_trigger_content(aTHX_ trigger); HV* field_tab = (HV*) *av_fetch(cont, 1, 0); HV* new_tab = newHV(); HE* ent; SV* old_id = *av_fetch(cont, 0, 0); hv_iterinit(field_tab); while ((ent = hv_iternext(field_tab))) { SV* field_ref = HeVAL(ent); HV* field = (HV*)SvRV(field_ref); UV field_addr = PTR2UV(field); SV* val; /* recreate field tab entry */ (void) hv_store(new_tab, (char *)&field_addr, sizeof(field_addr), SvREFCNT_inc(field_ref), 0); /* recreate field entry, if any */ if ((val = hv_delete_ent(field, old_id, 0, 0))) (void) hv_store_ent(field, new_id, SvREFCNT_inc(val), 0); } /* update the trigger */ av_store(cont, 0, SvREFCNT_inc(new_id)); av_store(cont, 1, (SV*)new_tab); } /* Go over object registry and fix all objects. Also fix the object * registry. */ void HUF_fix_objects(pTHX) { dMY_CXT; I32 i, len; HE* ent; AV* oblist = (AV*)sv_2mortal((SV*)newAV()); hv_iterinit(MY_CXT.ob_reg); while((ent = hv_iternext(MY_CXT.ob_reg))) av_push(oblist, SvREFCNT_inc(hv_iterkeysv(ent))); len = av_len(oblist); for (i = 0; i <= len; ++i) { SV* old_id = *av_fetch(oblist, i, 0); SV* trigger = hv_delete_ent(MY_CXT.ob_reg, old_id, 0, 0); SV* obj = SvRV(trigger); MAGIC *mg; SV* new_id = HUF_OBJ_ID(obj); /* Replace cached object ID with this new one */ for (mg = SvMAGIC(obj); mg; mg = mg->mg_moremagic) { if ((mg->mg_type == PERL_MAGIC_ext) && (mg->mg_private == HUF_IDCACHE) ) { mg->mg_obj = new_id; } } HUF_fix_trigger(aTHX_ trigger, new_id); (void) hv_store_ent(MY_CXT.ob_reg, new_id, SvREFCNT_inc(trigger), 0); } } /* test support (not needed for functionality) */ static SV* counter; I32 HUF_inc_var(pTHX_ IV index, SV* which) { PERL_UNUSED_ARG(index); PERL_UNUSED_ARG(which); sv_setiv(counter, 1 + SvIV(counter)); return 0; } MODULE = Hash::Util::FieldHash PACKAGE = Hash::Util::FieldHash BOOT: { HUF_global(aTHX_ HUF_INIT); /* create variables */ } int _fieldhash(SV* href, int mode) PROTOTYPE: $$ CODE: HV* field; RETVAL = 0; if (mode && href && SvROK(href) && (field = (HV*)SvRV(href)) && SvTYPE(field) == SVt_PVHV ) { HUF_add_uvar_magic( aTHX_ SvRV(href), HUF_mode_2func(mode), NULL, 0, NULL ); RETVAL = HUF_get_status(aTHX_ field); } OUTPUT: RETVAL void id(SV* ref) PROTOTYPE: $ PPCODE: if (SvROK(ref)) { XPUSHs(HUF_obj_id(aTHX_ ref)); } else { XPUSHs(ref); } SV* id_2obj(SV* id) PROTOTYPE: $ CODE: SV* obj = HUF_ask_trigger(aTHX_ id); if (obj) { RETVAL = newRV_inc(SvRV(obj)); } else { RETVAL = &PL_sv_undef; } OUTPUT: RETVAL SV* register(SV* obj, ...) PROTOTYPE: $@ CODE: SV* trigger; int i; RETVAL = NULL; if (!SvROK(obj)) { Perl_die(aTHX_ "Attempt to register a non-ref"); } else { RETVAL = newRV_inc(SvRV(obj)); } trigger = HUF_get_trigger(aTHX_ obj, HUF_obj_id(aTHX_ obj)); for (i = 1; i < items; ++ i) { SV* field_ref = POPs; if (SvROK(field_ref) && (SvTYPE(SvRV(field_ref)) == SVt_PVHV)) { HUF_mark_field(aTHX_ trigger, SvRV(field_ref)); } } OUTPUT: RETVAL void CLONE(char* classname) CODE: if (0 == strcmp(classname, "Hash::Util::FieldHash")) { HUF_global(aTHX_ HUF_CLONE); HUF_fix_objects(aTHX); } void _active_fields(SV* obj) PPCODE: if (SvROK(obj)) { SV* ob_id = HUF_obj_id(aTHX_ obj); SV* trigger = HUF_ask_trigger(aTHX_ ob_id); if (trigger) { AV* cont = HUF_get_trigger_content(aTHX_ trigger); HV* field_tab = (HV*) *av_fetch(cont, 1, 0); HE* ent; hv_iterinit(field_tab); while ((ent = hv_iternext(field_tab))) { HV* field = (HV*)SvRV(HeVAL(ent)); if (hv_exists_ent(field, ob_id, 0)) XPUSHs(sv_2mortal(newRV_inc((SV*)field))); } } } void _test_uvar_get(SV* svref, SV* countref) ALIAS: _test_uvar_get = 1 _test_uvar_set = 2 _test_uvar_same = 3 CODE: if (SvROK(svref) && SvROK(countref)) { counter = SvRV(countref); sv_setiv(counter, 0); HUF_add_uvar_magic( aTHX_ SvRV(svref), ix & 1 ? &HUF_inc_var : 0, ix & 2 ? &HUF_inc_var : 0, 0, SvRV(countref) ); }