/* hv.c * * Copyright (c) 1991-1997, Larry Wall * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * */ /* * "I sit beside the fire and think of all that I have seen." --Bilbo */ #include "EXTERN.h" #include "perl.h" static void hv_magic_check _((HV *hv, bool *needs_copy, bool *needs_store)); #ifndef PERL_OBJECT static void hsplit _((HV *hv)); static void hfreeentries _((HV *hv)); static HE* more_he _((void)); #endif STATIC HE* new_he(void) { HE* he; if (he_root) { he = he_root; he_root = HeNEXT(he); return he; } return more_he(); } STATIC void del_he(HE *p) { HeNEXT(p) = (HE*)he_root; he_root = p; } STATIC HE* more_he(void) { register HE* he; register HE* heend; he_root = (HE*)safemalloc(1008); he = he_root; heend = &he[1008 / sizeof(HE) - 1]; while (he < heend) { HeNEXT(he) = (HE*)(he + 1); he++; } HeNEXT(he) = 0; return new_he(); } STATIC HEK * save_hek(char *str, I32 len, U32 hash) { char *k; register HEK *hek; New(54, k, HEK_BASESIZE + len + 1, char); hek = (HEK*)k; Copy(str, HEK_KEY(hek), len, char); *(HEK_KEY(hek) + len) = '\0'; HEK_LEN(hek) = len; HEK_HASH(hek) = hash; return hek; } void unshare_hek(HEK *hek) { unsharepvn(HEK_KEY(hek),HEK_LEN(hek),HEK_HASH(hek)); } /* (klen == HEf_SVKEY) is special for MAGICAL hv entries, meaning key slot * contains an SV* */ SV** hv_fetch(HV *hv, char *key, U32 klen, I32 lval) { register XPVHV* xhv; register U32 hash; register HE *entry; SV *sv; if (!hv) return 0; if (SvRMAGICAL(hv)) { if (mg_find((SV*)hv,'P')) { dTHR; sv = sv_newmortal(); mg_copy((SV*)hv, sv, key, klen); Sv = sv; return &Sv; } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { U32 i; for (i = 0; i < klen; ++i) if (isLOWER(key[i])) { char *nkey = strupr(SvPVX(sv_2mortal(newSVpv(key,klen)))); SV **ret = hv_fetch(hv, nkey, klen, 0); if (!ret && lval) ret = hv_store(hv, key, klen, NEWSV(61,0), 0); return ret; } } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) { if (lval #ifdef DYNAMIC_ENV_FETCH /* if it's an %ENV lookup, we may get it on the fly */ || (HvNAME(hv) && strEQ(HvNAME(hv),ENV_HV_NAME)) #endif ) Newz(503,xhv->xhv_array, sizeof(HE*) * (xhv->xhv_max + 1), char); else return 0; } PERL_HASH(hash, key, klen); entry = ((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (; entry; entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; return &HeVAL(entry); } #ifdef DYNAMIC_ENV_FETCH /* %ENV lookup? If so, try to fetch the value now */ if (HvNAME(hv) && strEQ(HvNAME(hv),ENV_HV_NAME)) { char *gotenv; if ((gotenv = ENV_getenv(key)) != Nullch) { sv = newSVpv(gotenv,strlen(gotenv)); SvTAINTED_on(sv); return hv_store(hv,key,klen,sv,hash); } } #endif if (lval) { /* gonna assign to this, so it better be there */ sv = NEWSV(61,0); return hv_store(hv,key,klen,sv,hash); } return 0; } /* returns a HE * structure with the all fields set */ /* note that hent_val will be a mortal sv for MAGICAL hashes */ HE * hv_fetch_ent(HV *hv, SV *keysv, I32 lval, register U32 hash) { register XPVHV* xhv; register char *key; STRLEN klen; register HE *entry; SV *sv; if (!hv) return 0; if (SvRMAGICAL(hv)) { if (mg_find((SV*)hv,'P')) { static HE mh; sv = sv_newmortal(); keysv = sv_2mortal(newSVsv(keysv)); mg_copy((SV*)hv, sv, (char*)keysv, HEf_SVKEY); if (!HeKEY_hek(&mh)) { char *k; New(54, k, HEK_BASESIZE + sizeof(SV*), char); HeKEY_hek(&mh) = (HEK*)k; } HeSVKEY_set(&mh, keysv); HeVAL(&mh) = sv; return &mh; } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { U32 i; key = SvPV(keysv, klen); for (i = 0; i < klen; ++i) if (isLOWER(key[i])) { SV *nkeysv = sv_2mortal(newSVpv(key,klen)); (void)strupr(SvPVX(nkeysv)); entry = hv_fetch_ent(hv, nkeysv, 0, 0); if (!entry && lval) entry = hv_store_ent(hv, keysv, NEWSV(61,0), hash); return entry; } } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) { if (lval #ifdef DYNAMIC_ENV_FETCH /* if it's an %ENV lookup, we may get it on the fly */ || (HvNAME(hv) && strEQ(HvNAME(hv),ENV_HV_NAME)) #endif ) Newz(503,xhv->xhv_array, sizeof(HE*) * (xhv->xhv_max + 1), char); else return 0; } key = SvPV(keysv, klen); if (!hash) PERL_HASH(hash, key, klen); entry = ((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (; entry; entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; return entry; } #ifdef DYNAMIC_ENV_FETCH /* %ENV lookup? If so, try to fetch the value now */ if (HvNAME(hv) && strEQ(HvNAME(hv),ENV_HV_NAME)) { char *gotenv; if ((gotenv = ENV_getenv(key)) != Nullch) { sv = newSVpv(gotenv,strlen(gotenv)); SvTAINTED_on(sv); return hv_store_ent(hv,keysv,sv,hash); } } #endif if (lval) { /* gonna assign to this, so it better be there */ sv = NEWSV(61,0); return hv_store_ent(hv,keysv,sv,hash); } return 0; } static void hv_magic_check (HV *hv, bool *needs_copy, bool *needs_store) { MAGIC *mg = SvMAGIC(hv); *needs_copy = FALSE; *needs_store = TRUE; while (mg) { if (isUPPER(mg->mg_type)) { *needs_copy = TRUE; switch (mg->mg_type) { case 'P': case 'I': case 'S': *needs_store = FALSE; } } mg = mg->mg_moremagic; } } SV** hv_store(HV *hv, char *key, U32 klen, SV *val, register U32 hash) { register XPVHV* xhv; register I32 i; register HE *entry; register HE **oentry; if (!hv) return 0; xhv = (XPVHV*)SvANY(hv); if (SvMAGICAL(hv)) { bool needs_copy; bool needs_store; hv_magic_check (hv, &needs_copy, &needs_store); if (needs_copy) { mg_copy((SV*)hv, val, key, klen); if (!xhv->xhv_array && !needs_store) return 0; #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { SV *sv = sv_2mortal(newSVpv(key,klen)); key = strupr(SvPVX(sv)); hash = 0; } #endif } } if (!hash) PERL_HASH(hash, key, klen); if (!xhv->xhv_array) Newz(505, xhv->xhv_array, sizeof(HE**) * (xhv->xhv_max + 1), char); oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; i = 1; for (entry = *oentry; entry; i=0, entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; SvREFCNT_dec(HeVAL(entry)); HeVAL(entry) = val; return &HeVAL(entry); } entry = new_he(); if (HvSHAREKEYS(hv)) HeKEY_hek(entry) = share_hek(key, klen, hash); else /* gotta do the real thing */ HeKEY_hek(entry) = save_hek(key, klen, hash); HeVAL(entry) = val; HeNEXT(entry) = *oentry; *oentry = entry; xhv->xhv_keys++; if (i) { /* initial entry? */ ++xhv->xhv_fill; if (xhv->xhv_keys > xhv->xhv_max) hsplit(hv); } return &HeVAL(entry); } HE * hv_store_ent(HV *hv, SV *keysv, SV *val, register U32 hash) { register XPVHV* xhv; register char *key; STRLEN klen; register I32 i; register HE *entry; register HE **oentry; if (!hv) return 0; xhv = (XPVHV*)SvANY(hv); if (SvMAGICAL(hv)) { dTHR; bool needs_copy; bool needs_store; hv_magic_check (hv, &needs_copy, &needs_store); if (needs_copy) { bool save_taint = tainted; if (tainting) tainted = SvTAINTED(keysv); keysv = sv_2mortal(newSVsv(keysv)); mg_copy((SV*)hv, val, (char*)keysv, HEf_SVKEY); TAINT_IF(save_taint); if (!xhv->xhv_array && !needs_store) return Nullhe; #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { key = SvPV(keysv, klen); keysv = sv_2mortal(newSVpv(key,klen)); (void)strupr(SvPVX(keysv)); hash = 0; } #endif } } key = SvPV(keysv, klen); if (!hash) PERL_HASH(hash, key, klen); if (!xhv->xhv_array) Newz(505, xhv->xhv_array, sizeof(HE**) * (xhv->xhv_max + 1), char); oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; i = 1; for (entry = *oentry; entry; i=0, entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; SvREFCNT_dec(HeVAL(entry)); HeVAL(entry) = val; return entry; } entry = new_he(); if (HvSHAREKEYS(hv)) HeKEY_hek(entry) = share_hek(key, klen, hash); else /* gotta do the real thing */ HeKEY_hek(entry) = save_hek(key, klen, hash); HeVAL(entry) = val; HeNEXT(entry) = *oentry; *oentry = entry; xhv->xhv_keys++; if (i) { /* initial entry? */ ++xhv->xhv_fill; if (xhv->xhv_keys > xhv->xhv_max) hsplit(hv); } return entry; } SV * hv_delete(HV *hv, char *key, U32 klen, I32 flags) { register XPVHV* xhv; register I32 i; register U32 hash; register HE *entry; register HE **oentry; SV *sv; if (!hv) return Nullsv; if (SvRMAGICAL(hv)) { sv = *hv_fetch(hv, key, klen, TRUE); mg_clear(sv); if (mg_find(sv, 's')) { return Nullsv; /* %SIG elements cannot be deleted */ } else if (mg_find(sv, 'p')) { sv_unmagic(sv, 'p'); /* No longer an element */ return sv; } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { sv = sv_2mortal(newSVpv(key,klen)); key = strupr(SvPVX(sv)); } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) return Nullsv; PERL_HASH(hash, key, klen); oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; entry = *oentry; i = 1; for (; entry; i=0, oentry = &HeNEXT(entry), entry = *oentry) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; *oentry = HeNEXT(entry); if (i && !*oentry) xhv->xhv_fill--; if (flags & G_DISCARD) sv = Nullsv; else sv = sv_mortalcopy(HeVAL(entry)); if (entry == xhv->xhv_eiter) HvLAZYDEL_on(hv); else hv_free_ent(hv, entry); --xhv->xhv_keys; return sv; } return Nullsv; } SV * hv_delete_ent(HV *hv, SV *keysv, I32 flags, U32 hash) { register XPVHV* xhv; register I32 i; register char *key; STRLEN klen; register HE *entry; register HE **oentry; SV *sv; if (!hv) return Nullsv; if (SvRMAGICAL(hv)) { entry = hv_fetch_ent(hv, keysv, TRUE, hash); sv = HeVAL(entry); mg_clear(sv); if (mg_find(sv, 'p')) { sv_unmagic(sv, 'p'); /* No longer an element */ return sv; } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { key = SvPV(keysv, klen); keysv = sv_2mortal(newSVpv(key,klen)); (void)strupr(SvPVX(keysv)); hash = 0; } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) return Nullsv; key = SvPV(keysv, klen); if (!hash) PERL_HASH(hash, key, klen); oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; entry = *oentry; i = 1; for (; entry; i=0, oentry = &HeNEXT(entry), entry = *oentry) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; *oentry = HeNEXT(entry); if (i && !*oentry) xhv->xhv_fill--; if (flags & G_DISCARD) sv = Nullsv; else sv = sv_mortalcopy(HeVAL(entry)); if (entry == xhv->xhv_eiter) HvLAZYDEL_on(hv); else hv_free_ent(hv, entry); --xhv->xhv_keys; return sv; } return Nullsv; } bool hv_exists(HV *hv, char *key, U32 klen) { register XPVHV* xhv; register U32 hash; register HE *entry; SV *sv; if (!hv) return 0; if (SvRMAGICAL(hv)) { if (mg_find((SV*)hv,'P')) { dTHR; sv = sv_newmortal(); mg_copy((SV*)hv, sv, key, klen); magic_existspack(sv, mg_find(sv, 'p')); return SvTRUE(sv); } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { sv = sv_2mortal(newSVpv(key,klen)); key = strupr(SvPVX(sv)); } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) return 0; PERL_HASH(hash, key, klen); entry = ((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (; entry; entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; return TRUE; } return FALSE; } bool hv_exists_ent(HV *hv, SV *keysv, U32 hash) { register XPVHV* xhv; register char *key; STRLEN klen; register HE *entry; SV *sv; if (!hv) return 0; if (SvRMAGICAL(hv)) { if (mg_find((SV*)hv,'P')) { dTHR; /* just for SvTRUE */ sv = sv_newmortal(); keysv = sv_2mortal(newSVsv(keysv)); mg_copy((SV*)hv, sv, (char*)keysv, HEf_SVKEY); magic_existspack(sv, mg_find(sv, 'p')); return SvTRUE(sv); } #ifdef ENV_IS_CASELESS else if (mg_find((SV*)hv,'E')) { key = SvPV(keysv, klen); keysv = sv_2mortal(newSVpv(key,klen)); (void)strupr(SvPVX(keysv)); hash = 0; } #endif } xhv = (XPVHV*)SvANY(hv); if (!xhv->xhv_array) return 0; key = SvPV(keysv, klen); if (!hash) PERL_HASH(hash, key, klen); entry = ((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (; entry; entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != klen) continue; if (memNE(HeKEY(entry),key,klen)) /* is this it? */ continue; return TRUE; } return FALSE; } STATIC void hsplit(HV *hv) { register XPVHV* xhv = (XPVHV*)SvANY(hv); I32 oldsize = (I32) xhv->xhv_max + 1; /* sic(k) */ register I32 newsize = oldsize * 2; register I32 i; register HE **a; register HE **b; register HE *entry; register HE **oentry; #ifndef STRANGE_MALLOC I32 tmp; #endif a = (HE**)xhv->xhv_array; nomemok = TRUE; #ifdef STRANGE_MALLOC Renew(a, newsize, HE*); #else i = newsize * sizeof(HE*); #define MALLOC_OVERHEAD 16 tmp = MALLOC_OVERHEAD; while (tmp - MALLOC_OVERHEAD < i) tmp += tmp; tmp -= MALLOC_OVERHEAD; tmp /= sizeof(HE*); assert(tmp >= newsize); New(2,a, tmp, HE*); Copy(xhv->xhv_array, a, oldsize, HE*); if (oldsize >= 64) { offer_nice_chunk(xhv->xhv_array, oldsize * sizeof(HE*) * 2 - MALLOC_OVERHEAD); } else Safefree(xhv->xhv_array); #endif nomemok = FALSE; Zero(&a[oldsize], oldsize, HE*); /* zero 2nd half*/ xhv->xhv_max = --newsize; xhv->xhv_array = (char*)a; for (i=0; ixhv_fill++; *b = entry; continue; } else oentry = &HeNEXT(entry); } if (!*a) /* everything moved */ xhv->xhv_fill--; } } void hv_ksplit(HV *hv, IV newmax) { register XPVHV* xhv = (XPVHV*)SvANY(hv); I32 oldsize = (I32) xhv->xhv_max + 1; /* sic(k) */ register I32 newsize; register I32 i; register I32 j; register HE **a; register HE *entry; register HE **oentry; newsize = (I32) newmax; /* possible truncation here */ if (newsize != newmax || newmax <= oldsize) return; while ((newsize & (1 + ~newsize)) != newsize) { newsize &= ~(newsize & (1 + ~newsize)); /* get proper power of 2 */ } if (newsize < newmax) newsize *= 2; if (newsize < newmax) return; /* overflow detection */ a = (HE**)xhv->xhv_array; if (a) { nomemok = TRUE; #ifdef STRANGE_MALLOC Renew(a, newsize, HE*); #else i = newsize * sizeof(HE*); j = MALLOC_OVERHEAD; while (j - MALLOC_OVERHEAD < i) j += j; j -= MALLOC_OVERHEAD; j /= sizeof(HE*); assert(j >= newsize); New(2, a, j, HE*); Copy(xhv->xhv_array, a, oldsize, HE*); if (oldsize >= 64) { offer_nice_chunk(xhv->xhv_array, oldsize * sizeof(HE*) * 2 - MALLOC_OVERHEAD); } else Safefree(xhv->xhv_array); #endif nomemok = FALSE; Zero(&a[oldsize], newsize-oldsize, HE*); /* zero 2nd half*/ } else { Newz(0, a, newsize, HE*); } xhv->xhv_max = --newsize; xhv->xhv_array = (char*)a; if (!xhv->xhv_fill) /* skip rest if no entries */ return; for (i=0; ixhv_fill++; a[j] = entry; continue; } else oentry = &HeNEXT(entry); } if (!*a) /* everything moved */ xhv->xhv_fill--; } } HV * newHV(void) { register HV *hv; register XPVHV* xhv; hv = (HV*)NEWSV(502,0); sv_upgrade((SV *)hv, SVt_PVHV); xhv = (XPVHV*)SvANY(hv); SvPOK_off(hv); SvNOK_off(hv); #ifndef NODEFAULT_SHAREKEYS HvSHAREKEYS_on(hv); /* key-sharing on by default */ #endif xhv->xhv_max = 7; /* start with 8 buckets */ xhv->xhv_fill = 0; xhv->xhv_pmroot = 0; (void)hv_iterinit(hv); /* so each() will start off right */ return hv; } void hv_free_ent(HV *hv, register HE *entry) { if (!entry) return; if (isGV(HeVAL(entry)) && GvCVu(HeVAL(entry)) && HvNAME(hv)) sub_generation++; /* may be deletion of method from stash */ SvREFCNT_dec(HeVAL(entry)); if (HeKLEN(entry) == HEf_SVKEY) { SvREFCNT_dec(HeKEY_sv(entry)); Safefree(HeKEY_hek(entry)); } else if (HvSHAREKEYS(hv)) unshare_hek(HeKEY_hek(entry)); else Safefree(HeKEY_hek(entry)); del_he(entry); } void hv_delayfree_ent(HV *hv, register HE *entry) { if (!entry) return; if (isGV(HeVAL(entry)) && GvCVu(HeVAL(entry)) && HvNAME(hv)) sub_generation++; /* may be deletion of method from stash */ sv_2mortal(HeVAL(entry)); /* free between statements */ if (HeKLEN(entry) == HEf_SVKEY) { sv_2mortal(HeKEY_sv(entry)); Safefree(HeKEY_hek(entry)); } else if (HvSHAREKEYS(hv)) unshare_hek(HeKEY_hek(entry)); else Safefree(HeKEY_hek(entry)); del_he(entry); } void hv_clear(HV *hv) { register XPVHV* xhv; if (!hv) return; xhv = (XPVHV*)SvANY(hv); hfreeentries(hv); xhv->xhv_fill = 0; xhv->xhv_keys = 0; if (xhv->xhv_array) (void)memzero(xhv->xhv_array, (xhv->xhv_max + 1) * sizeof(HE*)); if (SvRMAGICAL(hv)) mg_clear((SV*)hv); } STATIC void hfreeentries(HV *hv) { register HE **array; register HE *entry; register HE *oentry = Null(HE*); I32 riter; I32 max; if (!hv) return; if (!HvARRAY(hv)) return; riter = 0; max = HvMAX(hv); array = HvARRAY(hv); entry = array[0]; for (;;) { if (entry) { oentry = entry; entry = HeNEXT(entry); hv_free_ent(hv, oentry); } if (!entry) { if (++riter > max) break; entry = array[riter]; } } (void)hv_iterinit(hv); } void hv_undef(HV *hv) { register XPVHV* xhv; if (!hv) return; xhv = (XPVHV*)SvANY(hv); hfreeentries(hv); Safefree(xhv->xhv_array); if (HvNAME(hv)) { Safefree(HvNAME(hv)); HvNAME(hv) = 0; } xhv->xhv_array = 0; xhv->xhv_max = 7; /* it's a normal hash */ xhv->xhv_fill = 0; xhv->xhv_keys = 0; if (SvRMAGICAL(hv)) mg_clear((SV*)hv); } I32 hv_iterinit(HV *hv) { register XPVHV* xhv; HE *entry; if (!hv) croak("Bad hash"); xhv = (XPVHV*)SvANY(hv); entry = xhv->xhv_eiter; #ifdef DYNAMIC_ENV_FETCH /* set up %ENV for iteration */ if (HvNAME(hv) && strEQ(HvNAME(hv), ENV_HV_NAME)) prime_env_iter(); #endif if (entry && HvLAZYDEL(hv)) { /* was deleted earlier? */ HvLAZYDEL_off(hv); hv_free_ent(hv, entry); } xhv->xhv_riter = -1; xhv->xhv_eiter = Null(HE*); return xhv->xhv_fill; /* should be xhv->xhv_keys? May change later */ } HE * hv_iternext(HV *hv) { register XPVHV* xhv; register HE *entry; HE *oldentry; MAGIC* mg; if (!hv) croak("Bad hash"); xhv = (XPVHV*)SvANY(hv); oldentry = entry = xhv->xhv_eiter; if (SvRMAGICAL(hv) && (mg = mg_find((SV*)hv,'P'))) { SV *key = sv_newmortal(); if (entry) { sv_setsv(key, HeSVKEY_force(entry)); SvREFCNT_dec(HeSVKEY(entry)); /* get rid of previous key */ } else { char *k; HEK *hek; xhv->xhv_eiter = entry = new_he(); /* one HE per MAGICAL hash */ Zero(entry, 1, HE); Newz(54, k, HEK_BASESIZE + sizeof(SV*), char); hek = (HEK*)k; HeKEY_hek(entry) = hek; HeKLEN(entry) = HEf_SVKEY; } magic_nextpack((SV*) hv,mg,key); if (SvOK(key)) { /* force key to stay around until next time */ HeSVKEY_set(entry, SvREFCNT_inc(key)); return entry; /* beware, hent_val is not set */ } if (HeVAL(entry)) SvREFCNT_dec(HeVAL(entry)); Safefree(HeKEY_hek(entry)); del_he(entry); xhv->xhv_eiter = Null(HE*); return Null(HE*); } if (!xhv->xhv_array) Newz(506,xhv->xhv_array, sizeof(HE*) * (xhv->xhv_max + 1), char); if (entry) entry = HeNEXT(entry); while (!entry) { ++xhv->xhv_riter; if (xhv->xhv_riter > xhv->xhv_max) { xhv->xhv_riter = -1; break; } entry = ((HE**)xhv->xhv_array)[xhv->xhv_riter]; } if (oldentry && HvLAZYDEL(hv)) { /* was deleted earlier? */ HvLAZYDEL_off(hv); hv_free_ent(hv, oldentry); } xhv->xhv_eiter = entry; return entry; } char * hv_iterkey(register HE *entry, I32 *retlen) { if (HeKLEN(entry) == HEf_SVKEY) { STRLEN len; char *p = SvPV(HeKEY_sv(entry), len); *retlen = len; return p; } else { *retlen = HeKLEN(entry); return HeKEY(entry); } } /* unlike hv_iterval(), this always returns a mortal copy of the key */ SV * hv_iterkeysv(register HE *entry) { if (HeKLEN(entry) == HEf_SVKEY) return sv_mortalcopy(HeKEY_sv(entry)); else return sv_2mortal(newSVpv((HeKLEN(entry) ? HeKEY(entry) : ""), HeKLEN(entry))); } SV * hv_iterval(HV *hv, register HE *entry) { if (SvRMAGICAL(hv)) { if (mg_find((SV*)hv,'P')) { SV* sv = sv_newmortal(); if (HeKLEN(entry) == HEf_SVKEY) mg_copy((SV*)hv, sv, (char*)HeKEY_sv(entry), HEf_SVKEY); else mg_copy((SV*)hv, sv, HeKEY(entry), HeKLEN(entry)); return sv; } } return HeVAL(entry); } SV * hv_iternextsv(HV *hv, char **key, I32 *retlen) { HE *he; if ( (he = hv_iternext(hv)) == NULL) return NULL; *key = hv_iterkey(he, retlen); return hv_iterval(hv, he); } void hv_magic(HV *hv, GV *gv, int how) { sv_magic((SV*)hv, (SV*)gv, how, Nullch, 0); } char* sharepvn(char *sv, I32 len, U32 hash) { return HEK_KEY(share_hek(sv, len, hash)); } /* possibly free a shared string if no one has access to it * len and hash must both be valid for str. */ void unsharepvn(char *str, I32 len, U32 hash) { register XPVHV* xhv; register HE *entry; register HE **oentry; register I32 i = 1; I32 found = 0; /* what follows is the moral equivalent of: if ((Svp = hv_fetch(strtab, tmpsv, FALSE, hash))) { if (--*Svp == Nullsv) hv_delete(strtab, str, len, G_DISCARD, hash); } */ xhv = (XPVHV*)SvANY(strtab); /* assert(xhv_array != 0) */ oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (entry = *oentry; entry; i=0, oentry = &HeNEXT(entry), entry = *oentry) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != len) continue; if (memNE(HeKEY(entry),str,len)) /* is this it? */ continue; found = 1; if (--HeVAL(entry) == Nullsv) { *oentry = HeNEXT(entry); if (i && !*oentry) xhv->xhv_fill--; Safefree(HeKEY_hek(entry)); del_he(entry); --xhv->xhv_keys; } break; } if (!found) warn("Attempt to free non-existent shared string"); } /* get a (constant) string ptr from the global string table * string will get added if it is not already there. * len and hash must both be valid for str. */ HEK * share_hek(char *str, I32 len, register U32 hash) { register XPVHV* xhv; register HE *entry; register HE **oentry; register I32 i = 1; I32 found = 0; /* what follows is the moral equivalent of: if (!(Svp = hv_fetch(strtab, str, len, FALSE))) hv_store(strtab, str, len, Nullsv, hash); */ xhv = (XPVHV*)SvANY(strtab); /* assert(xhv_array != 0) */ oentry = &((HE**)xhv->xhv_array)[hash & (I32) xhv->xhv_max]; for (entry = *oentry; entry; i=0, entry = HeNEXT(entry)) { if (HeHASH(entry) != hash) /* strings can't be equal */ continue; if (HeKLEN(entry) != len) continue; if (memNE(HeKEY(entry),str,len)) /* is this it? */ continue; found = 1; break; } if (!found) { entry = new_he(); HeKEY_hek(entry) = save_hek(str, len, hash); HeVAL(entry) = Nullsv; HeNEXT(entry) = *oentry; *oentry = entry; xhv->xhv_keys++; if (i) { /* initial entry? */ ++xhv->xhv_fill; if (xhv->xhv_keys > xhv->xhv_max) hsplit(strtab); } } ++HeVAL(entry); /* use value slot as REFCNT */ return HeKEY_hek(entry); }