#if A_WORKAROUND_REQUIRE_PROPAGATION
-typedef struct {
- UV bits;
- I32 requires;
-} a_hint_t;
-
-STATIC SV *a_tag(pTHX_ UV bits) {
-#define a_tag(B) a_tag(aTHX_ (B))
- SV *tag;
- a_hint_t h;
+#define A_ENCODE_UV(B, U) \
+ len = 0; \
+ while (len < sizeof(UV)) { \
+ (B)[len++] = (U) & 0xFF; \
+ (U) >>= 8; \
+ }
- h.bits = bits;
+#define A_DECODE_UV(U, B) \
+ len = sizeof(UV); \
+ while (len > 0) \
+ (U) = ((U) << 8) | (B)[--len];
- {
- const PERL_SI *si;
- I32 requires = 0;
+#if A_WORKAROUND_REQUIRE_PROPAGATION
+STATIC UV a_require_tag(pTHX) {
+#define a_require_tag() a_require_tag(aTHX)
+ const PERL_SI *si;
- for (si = PL_curstackinfo; si; si = si->si_prev) {
- I32 cxix;
+ for (si = PL_curstackinfo; si; si = si->si_prev) {
+ I32 cxix;
- for (cxix = si->si_cxix; cxix >= 0; --cxix) {
- const PERL_CONTEXT *cx = si->si_cxstack + cxix;
+ for (cxix = si->si_cxix; cxix >= 0; --cxix) {
+ const PERL_CONTEXT *cx = si->si_cxstack + cxix;
- if (CxTYPE(cx) == CXt_EVAL && cx->blk_eval.old_op_type == OP_REQUIRE)
- ++requires;
- }
+ if (CxTYPE(cx) == CXt_EVAL && cx->blk_eval.old_op_type == OP_REQUIRE)
+ return PTR2UV(cx);
}
-
- h.requires = requires;
}
- return newSVpvn((const char *) &h, sizeof h);
+ return PTR2UV(NULL);
+}
+#endif /* A_WORKAROUND_REQUIRE_PROPAGATION */
+
+STATIC SV *a_tag(pTHX_ UV bits) {
+#define a_tag(B) a_tag(aTHX_ (B))
+ SV *hint;
+ const PERL_SI *si;
+ UV cxreq;
+ unsigned char buf[sizeof(UV) * 2];
+ STRLEN len;
+
+ cxreq = a_require_tag();
+ A_ENCODE_UV(buf, cxreq);
+ A_ENCODE_UV(buf + sizeof(UV), bits);
+ hint = newSVpvn(buf, sizeof buf);
+ SvREADONLY_on(hint);
+
+ return hint;
}
STATIC UV a_detag(pTHX_ const SV *hint) {
#define a_detag(H) a_detag(aTHX_ (H))
- const a_hint_t *h;
+ const PERL_SI *si;
+ UV cxreq = 0, bits = 0;
+ unsigned char *buf;
+ STRLEN len;
if (!(hint && SvOK(hint)))
return 0;
- h = (const a_hint_t *) SvPVX(hint);
-
- {
- const PERL_SI *si;
- I32 requires = 0;
+ buf = SvPVX(hint);
- for (si = PL_curstackinfo; si; si = si->si_prev) {
- I32 cxix;
+ A_DECODE_UV(cxreq, buf);
+ if (a_require_tag() != cxreq)
+ return 0;
- for (cxix = si->si_cxix; cxix >= 0; --cxix) {
- const PERL_CONTEXT *cx = si->si_cxstack + cxix;
+ A_DECODE_UV(bits, buf + sizeof(UV));
- if (CxTYPE(cx) == CXt_EVAL && cx->blk_eval.old_op_type == OP_REQUIRE
- && ++requires > h->requires)
- return 0;
- }
- }
- }
-
- return h->bits;
+ return bits;
}
#else /* A_WORKAROUND_REQUIRE_PROPAGATION */
#define A_HINT_MASK (A_HINT_NOTIFY|A_HINT_DO)
/* Only used in op flags */
-#define A_HINT_DEREF 64
+#define A_HINT_ROOT 64
+#define A_HINT_DEREF 128
STATIC U32 a_hash = 0;
STATIC UV a_hint(pTHX) {
#define a_hint() a_hint(aTHX)
- const SV *hint;
+ SV *hint;
#if A_HAS_PERL(5, 9, 5)
hint = Perl_refcounted_he_fetch(aTHX_ PL_curcop->cop_hints_hash,
NULL,
typedef struct {
OP *(*old_pp)(pTHX);
- const OP *root;
UV flags;
+ void *next;
} a_op_info;
#define PTABLE_NAME ptable_map
STATIC perl_mutex a_op_map_mutex;
#endif
-STATIC void a_map_store(pPTBLMS_ const OP *o, OP *(*old_pp)(pTHX), UV flags) {
-#define a_map_store(O, PP, F) a_map_store(aPTBLMS_ (O), (PP), (F))
- a_op_info *oi;
+STATIC const a_op_info *a_map_fetch(const OP *o, a_op_info *oi) {
+ const a_op_info *val;
#ifdef USE_ITHREADS
MUTEX_LOCK(&a_op_map_mutex);
#endif
+ val = ptable_fetch(a_op_map, o);
+ if (val) {
+ *oi = *val;
+ val = oi;
+ }
+
+#ifdef USE_ITHREADS
+ MUTEX_UNLOCK(&a_op_map_mutex);
+#endif
+
+ return val;
+}
+
+STATIC const a_op_info *a_map_store_locked(pPTBLMS_ const OP *o, OP *(*old_pp)(pTHX), void *next, UV flags) {
+#define a_map_store_locked(O, PP, N, F) a_map_store_locked(aPTBLMS_ (O), (PP), (N), (F))
+ a_op_info *oi;
+
if (!(oi = ptable_fetch(a_op_map, o))) {
oi = PerlMemShared_malloc(sizeof *oi);
ptable_map_store(a_op_map, o, oi);
}
oi->old_pp = old_pp;
- oi->root = NULL;
+ oi->next = next;
oi->flags = flags;
-#ifdef USE_ITHREADS
- MUTEX_UNLOCK(&a_op_map_mutex);
-#endif
+ return oi;
}
-STATIC const a_op_info *a_map_fetch(const OP *o, a_op_info *oi) {
- const a_op_info *val;
+STATIC void a_map_store(pPTBLMS_ const OP *o, OP *(*old_pp)(pTHX), void *next, UV flags) {
+#define a_map_store(O, PP, N, F) a_map_store(aPTBLMS_ (O), (PP), (N), (F))
#ifdef USE_ITHREADS
MUTEX_LOCK(&a_op_map_mutex);
#endif
- val = ptable_fetch(a_op_map, o);
- if (val) {
- *oi = *val;
- val = oi;
- } else
- oi->old_pp = 0;
+ a_map_store_locked(o, old_pp, next, flags);
#ifdef USE_ITHREADS
MUTEX_UNLOCK(&a_op_map_mutex);
#endif
-
- return val;
}
STATIC void a_map_delete(pTHX_ const OP *o) {
#endif
}
-STATIC void a_map_set_root(const OP *root, UV flags) {
+STATIC const OP *a_map_descend(const OP *o) {
+ switch (PL_opargs[o->op_type] & OA_CLASS_MASK) {
+ case OA_BASEOP:
+ case OA_UNOP:
+ case OA_BINOP:
+ case OA_BASEOP_OR_UNOP:
+ return cUNOPo->op_first;
+ case OA_LIST:
+ case OA_LISTOP:
+ return cLISTOPo->op_last;
+ }
+
+ return NULL;
+}
+
+STATIC void a_map_store_root(pPTBLMS_ const OP *root, OP *(*old_pp)(pTHX), UV flags) {
+#define a_map_store_root(R, PP, F) a_map_store_root(aPTBLMS_ (R), (PP), (F))
+ const a_op_info *roi;
a_op_info *oi;
const OP *o = root;
MUTEX_LOCK(&a_op_map_mutex);
#endif
- while (o) {
- if (oi = ptable_fetch(a_op_map, o)) {
- oi->root = root;
- oi->flags = flags;
+ roi = a_map_store_locked(o, old_pp, (OP *) root, flags | A_HINT_ROOT);
+
+ while (o->op_flags & OPf_KIDS) {
+ o = a_map_descend(o);
+ if (!o)
+ break;
+ if ((oi = ptable_fetch(a_op_map, o))) {
+ oi->flags &= ~A_HINT_ROOT;
+ oi->next = (a_op_info *) roi;
+ break;
}
+ }
+
+#ifdef USE_ITHREADS
+ MUTEX_UNLOCK(&a_op_map_mutex);
+#endif
+
+ return;
+}
+
+STATIC void a_map_update_flags_topdown(const OP *root, UV flags) {
+ a_op_info *oi;
+ const OP *o = root;
+
+#ifdef USE_ITHREADS
+ MUTEX_LOCK(&a_op_map_mutex);
+#endif
+
+ flags &= ~A_HINT_ROOT;
+
+ do {
+ if ((oi = ptable_fetch(a_op_map, o)))
+ oi->flags = (oi->flags & A_HINT_ROOT) | flags;
if (!(o->op_flags & OPf_KIDS))
break;
- switch (PL_opargs[o->op_type] & OA_CLASS_MASK) {
- case OA_BASEOP:
- case OA_UNOP:
- case OA_BINOP:
- case OA_BASEOP_OR_UNOP:
- o = cUNOPo->op_first;
- break;
- case OA_LIST:
- case OA_LISTOP:
- o = cLISTOPo->op_last;
- break;
- default:
- goto done;
- }
+ o = a_map_descend(o);
+ } while (o);
+
+#ifdef USE_ITHREADS
+ MUTEX_UNLOCK(&a_op_map_mutex);
+#endif
+
+ return;
+}
+
+#define a_map_cancel(R) a_map_update_flags_topdown((R), 0)
+
+STATIC void a_map_update_flags_bottomup(const OP *o, UV flags, UV rflags) {
+ a_op_info *oi;
+
+#ifdef USE_ITHREADS
+ MUTEX_LOCK(&a_op_map_mutex);
+#endif
+
+ flags &= ~A_HINT_ROOT;
+ rflags |= A_HINT_ROOT;
+
+ oi = ptable_fetch(a_op_map, o);
+ while (!(oi->flags & A_HINT_ROOT)) {
+ oi->flags = flags;
+ oi = oi->next;
}
+ oi->flags = rflags;
-done:
#ifdef USE_ITHREADS
MUTEX_UNLOCK(&a_op_map_mutex);
#endif
return;
}
+/* ... Decide whether this expression should be autovivified or not ........ */
+
+STATIC UV a_map_resolve(const OP *o, a_op_info *oi) {
+ UV flags = 0, rflags;
+ const OP *root;
+ a_op_info *roi = oi;
+
+ while (!(roi->flags & A_HINT_ROOT))
+ roi = roi->next;
+ if (!roi)
+ goto cancel;
+
+ rflags = roi->flags & ~A_HINT_ROOT;
+ if (!rflags)
+ goto cancel;
+
+ root = roi->next;
+ if (root->op_flags & OPf_MOD) {
+ if (rflags & A_HINT_STORE)
+ flags = (A_HINT_STORE|A_HINT_DEREF);
+ } else if (rflags & A_HINT_FETCH)
+ flags = (A_HINT_FETCH|A_HINT_DEREF);
+
+ if (!flags) {
+cancel:
+ a_map_update_flags_bottomup(o, 0, 0);
+ return 0;
+ }
+
+ flags |= (rflags & A_HINT_NOTIFY);
+ a_map_update_flags_bottomup(o, flags, 0);
+
+ return oi->flags & A_HINT_ROOT ? 0 : flags;
+}
+
/* ... Lightweight pp_defined() ............................................ */
STATIC bool a_defined(pTHX_ SV *sv) {
/* --- PP functions -------------------------------------------------------- */
+/* Be aware that we restore PL_op->op_ppaddr from the pointer table old_pp
+ * value, another extension might have saved our pp replacement as the ppaddr
+ * for this op, so this doesn't ensure that our function will never be called
+ * again. That's why we don't remove the op info from our map, so that it can
+ * still run correctly if required. */
+
/* ... pp_rv2av ............................................................ */
STATIC OP *a_pp_rv2av(pTHX) {
a_op_info oi;
- UV hint;
+ UV flags;
dSP;
- if (!SvOK(TOPs)) {
- /* We always need to push an empty array to fool the pp_aelem() that comes
- * later. */
- SV *av;
- POPs;
- av = sv_2mortal((SV *) newAV());
- PUSHs(av);
- RETURN;
- }
-
a_map_fetch(PL_op, &oi);
+ flags = oi.flags;
+
+ if (flags & A_HINT_DEREF) {
+ if (!SvOK(TOPs)) {
+ /* We always need to push an empty array to fool the pp_aelem() that comes
+ * later. */
+ SV *av;
+ POPs;
+ av = sv_2mortal((SV *) newAV());
+ PUSHs(av);
+ RETURN;
+ }
+ } else {
+ PL_op->op_ppaddr = oi.old_pp;
+ }
return CALL_FPTR(oi.old_pp)(aTHX);
}
/* ... pp_rv2hv ............................................................ */
+STATIC OP *a_pp_rv2hv_simple(pTHX) {
+ a_op_info oi;
+ UV flags;
+ dSP;
+
+ a_map_fetch(PL_op, &oi);
+ flags = oi.flags;
+
+ if (flags & A_HINT_DEREF) {
+ if (!SvOK(TOPs))
+ RETURN;
+ } else {
+ PL_op->op_ppaddr = oi.old_pp;
+ }
+
+ return CALL_FPTR(oi.old_pp)(aTHX);
+}
+
STATIC OP *a_pp_rv2hv(pTHX) {
a_op_info oi;
- UV hint;
+ UV flags;
dSP;
a_map_fetch(PL_op, &oi);
+ flags = oi.flags;
- if (!SvOK(TOPs)) {
- if (oi.root->op_flags & OPf_MOD) {
+ if (flags & A_HINT_DEREF) {
+ if (!SvOK(TOPs)) {
SV *hv;
POPs;
hv = sv_2mortal((SV *) newHV());
PUSHs(hv);
+ RETURN;
}
- RETURN;
+ } else {
+ PL_op->op_ppaddr = oi.old_pp;
}
return CALL_FPTR(oi.old_pp)(aTHX);
/* ... pp_deref (aelem,helem,rv2sv,padsv) .................................. */
-STATIC const char a_msg_forbidden[] = "Reference vivification forbidden";
-STATIC const char a_msg_impossible[] = "Can't vivify reference";
-
STATIC OP *a_pp_deref(pTHX) {
a_op_info oi;
UV flags;
SPAGAIN;
if (!SvOK(TOPs)) {
if (flags & A_HINT_STRICT)
- croak(a_msg_forbidden);
+ croak("Reference vivification forbidden");
else if (flags & A_HINT_WARN)
- warn(a_msg_forbidden);
+ warn("Reference was vivified");
else /* A_HINT_STORE */
- croak(a_msg_impossible);
+ croak("Can't vivify reference");
}
}
return o;
- } else if (flags && (PL_op->op_private & OPpDEREF || PL_op == oi.root)) {
- oi.flags = flags & A_HINT_NOTIFY;
+ } else if ((flags & ~A_HINT_ROOT)
+ && (PL_op->op_private & OPpDEREF || flags & A_HINT_ROOT)) {
+ /* Decide if the expression must autovivify or not.
+ * This branch should be called only once by expression. */
+ flags = a_map_resolve(PL_op, &oi);
- if ((oi.root->op_flags & (OPf_MOD|OPf_REF)) != (OPf_MOD|OPf_REF)) {
- if (flags & A_HINT_FETCH)
- oi.flags |= (A_HINT_FETCH|A_HINT_DEREF);
- } else if (flags & A_HINT_STORE)
- oi.flags |= (A_HINT_STORE|A_HINT_DEREF);
+ /* We need the updated flags value in the deref branch. */
+ if (flags & A_HINT_DEREF)
+ goto deref;
+ }
- if (PL_op == oi.root)
- oi.flags &= ~A_HINT_DEREF;
+ /* This op doesn't need to skip autovivification, so restore the original
+ * state. */
+ PL_op->op_ppaddr = oi.old_pp;
- /* We will need the updated flags value in the deref part */
- flags = oi.flags;
+ return CALL_FPTR(oi.old_pp)(aTHX);
+}
- if (flags & A_HINT_DEREF)
- goto deref;
+/* ... pp_root (exists,delete,keys,values) ................................. */
- /* This op doesn't need to skip autovivification, so restore the original
- * state. Be aware that another extension might have saved a_pp_deref as the
- * ppaddr for this op, so restoring PL_op->op_ppaddr doesn't ensure that this
- * function will never be called again. That's why we don't remove the op info
- * from our map and we reset oi.flags to 0, so that it can still run correctly
- * if required. */
- oi.flags = 0;
- PL_op->op_ppaddr = oi.old_pp;
+STATIC OP *a_pp_root_unop(pTHX) {
+ a_op_info oi;
+ dSP;
+
+ if (!a_defined(TOPs)) {
+ POPs;
+ /* Can only be reached by keys or values */
+ if (GIMME_V == G_SCALAR) {
+ dTARGET;
+ PUSHi(0);
+ }
+ RETURN;
}
+ a_map_fetch(PL_op, &oi);
+
return CALL_FPTR(oi.old_pp)(aTHX);
}
-/* ... pp_root (exists,delete) ............................................. */
-
-STATIC OP *a_pp_root(pTHX) {
+STATIC OP *a_pp_root_binop(pTHX) {
a_op_info oi;
dSP;
/* --- Check functions ----------------------------------------------------- */
+STATIC void a_recheck_rv2xv(pTHX_ OP *o, OPCODE type, OP *(*new_pp)(pTHX)) {
+#define a_recheck_rv2xv(O, T, PP) a_recheck_rv2xv(aTHX_ (O), (T), (PP))
+ a_op_info oi;
+
+ if (o->op_type == type && o->op_ppaddr != new_pp
+ && cUNOPo->op_first->op_type != OP_GV
+ && a_map_fetch(o, &oi)) {
+ a_map_store(o, o->op_ppaddr, oi.next, oi.flags);
+ o->op_ppaddr = new_pp;
+ }
+
+ return;
+}
+
/* ... ck_pad{any,sv} ...................................................... */
/* Sadly, the PADSV OPs we are interested in don't trigger the padsv check
hint = a_hint();
if (hint & A_HINT_DO) {
a_pp_padsv_save();
- a_map_store(o, a_pp_padsv_saved, hint);
+ a_map_store_root(o, a_pp_padsv_saved, hint);
} else
a_map_delete(o);
hint = a_hint();
if (hint & A_HINT_DO) {
- a_map_store(o, o->op_ppaddr, hint);
+ a_map_store_root(o, o->op_ppaddr, hint);
o->op_ppaddr = a_pp_deref;
} else
a_map_delete(o);
/* ... ck_deref (aelem,helem,rv2sv) ........................................ */
+/* Those ops appear both at the root and inside an expression but there's no
+ * way to distinguish both situations. Worse, we can't even know if we are in a
+ * modifying context, so the expression can't be resolved yet. It will be at the
+ * first invocation of a_pp_deref() for this expression. */
+
STATIC OP *(*a_old_ck_aelem)(pTHX_ OP *) = 0;
STATIC OP *(*a_old_ck_helem)(pTHX_ OP *) = 0;
STATIC OP *(*a_old_ck_rv2sv)(pTHX_ OP *) = 0;
STATIC OP *a_ck_deref(pTHX_ OP *o) {
OP * (*old_ck)(pTHX_ OP *o) = 0;
- UV hint;
+ UV hint = a_hint();
switch (o->op_type) {
- case OP_AELEM: old_ck = a_old_ck_aelem; break;
- case OP_HELEM: old_ck = a_old_ck_helem; break;
- case OP_RV2SV: old_ck = a_old_ck_rv2sv; break;
+ case OP_AELEM:
+ old_ck = a_old_ck_aelem;
+ if ((hint & A_HINT_DO) && !(hint & A_HINT_STRICT))
+ a_recheck_rv2xv(cUNOPo->op_first, OP_RV2AV, a_pp_rv2av);
+ break;
+ case OP_HELEM:
+ old_ck = a_old_ck_helem;
+ if ((hint & A_HINT_DO) && !(hint & A_HINT_STRICT))
+ a_recheck_rv2xv(cUNOPo->op_first, OP_RV2HV, a_pp_rv2hv_simple);
+ break;
+ case OP_RV2SV:
+ old_ck = a_old_ck_rv2sv;
+ break;
}
o = CALL_FPTR(old_ck)(aTHX_ o);
- hint = a_hint();
if (hint & A_HINT_DO) {
- a_map_store(o, o->op_ppaddr, hint);
+ a_map_store_root(o, o->op_ppaddr, hint);
o->op_ppaddr = a_pp_deref;
- a_map_set_root(o, hint);
} else
a_map_delete(o);
/* ... ck_rv2xv (rv2av,rv2hv) .............................................. */
+/* Those ops also appear both inisde and at the root, hence the caveats for
+ * a_ck_deref() still apply here. Since a padsv/rv2sv must appear before a
+ * rv2[ah]v, resolution is handled by the first call to a_pp_deref() in the
+ * expression. */
+
STATIC OP *(*a_old_ck_rv2av)(pTHX_ OP *) = 0;
STATIC OP *(*a_old_ck_rv2hv)(pTHX_ OP *) = 0;
switch (o->op_type) {
case OP_RV2AV: old_ck = a_old_ck_rv2av; new_pp = a_pp_rv2av; break;
- case OP_RV2HV: old_ck = a_old_ck_rv2hv; new_pp = a_pp_rv2hv; break;
+ case OP_RV2HV: old_ck = a_old_ck_rv2hv; new_pp = a_pp_rv2hv_simple; break;
}
o = CALL_FPTR(old_ck)(aTHX_ o);
+ if (cUNOPo->op_first->op_type == OP_GV)
+ return o;
+
hint = a_hint();
+ if (hint & A_HINT_DO && !(hint & A_HINT_STRICT)) {
+ a_map_store_root(o, o->op_ppaddr, hint);
+ o->op_ppaddr = new_pp;
+ } else
+ a_map_delete(o);
+
+ return o;
+}
+
+/* ... ck_xslice (aslice,hslice) ........................................... */
+
+/* I think those are only found at the root, but there's nothing that really
+ * prevent them to be inside the expression too. We only need to update the
+ * root so that the rest of the expression will see the right context when
+ * resolving. That's why we don't replace the ppaddr. */
+
+STATIC OP *(*a_old_ck_aslice)(pTHX_ OP *) = 0;
+STATIC OP *(*a_old_ck_hslice)(pTHX_ OP *) = 0;
+
+STATIC OP *a_ck_xslice(pTHX_ OP *o) {
+ OP * (*old_ck)(pTHX_ OP *o) = 0;
+ UV hint = a_hint();
+
+ switch (o->op_type) {
+ case OP_ASLICE:
+ old_ck = a_old_ck_aslice;
+ break;
+ case OP_HSLICE:
+ old_ck = a_old_ck_hslice;
+ if (hint & A_HINT_DO)
+ a_recheck_rv2xv(cUNOPo->op_first->op_sibling, OP_RV2HV, a_pp_rv2hv);
+ break;
+ }
+ o = CALL_FPTR(old_ck)(aTHX_ o);
+
if (hint & A_HINT_DO) {
- if (!(hint & A_HINT_STRICT)) {
- a_map_store(o, o->op_ppaddr, hint);
- o->op_ppaddr = new_pp;
- }
- a_map_set_root(o, hint);
+ a_map_store_root(o, 0, hint);
} else
a_map_delete(o);
return o;
}
-/* ... ck_root (exists,delete) ............................................. */
+/* ... ck_root (exists,delete,keys,values) ................................. */
+
+/* Those ops are only found at the root of a dereferencing expression. We can
+ * then resolve at compile time if vivification must take place or not. */
STATIC OP *(*a_old_ck_exists)(pTHX_ OP *) = 0;
STATIC OP *(*a_old_ck_delete)(pTHX_ OP *) = 0;
+STATIC OP *(*a_old_ck_keys) (pTHX_ OP *) = 0;
+STATIC OP *(*a_old_ck_values)(pTHX_ OP *) = 0;
STATIC OP *a_ck_root(pTHX_ OP *o) {
OP * (*old_ck)(pTHX_ OP *o) = 0;
+ OP * (*new_pp)(pTHX) = 0;
bool enabled = FALSE;
UV hint = a_hint();
switch (o->op_type) {
case OP_EXISTS:
old_ck = a_old_ck_exists;
+ new_pp = a_pp_root_binop;
enabled = hint & A_HINT_EXISTS;
break;
case OP_DELETE:
old_ck = a_old_ck_delete;
+ new_pp = a_pp_root_binop;
enabled = hint & A_HINT_DELETE;
break;
+ case OP_KEYS:
+ old_ck = a_old_ck_keys;
+ new_pp = a_pp_root_unop;
+ enabled = hint & A_HINT_FETCH;
+ break;
+ case OP_VALUES:
+ old_ck = a_old_ck_values;
+ new_pp = a_pp_root_unop;
+ enabled = hint & A_HINT_FETCH;
+ break;
}
o = CALL_FPTR(old_ck)(aTHX_ o);
- if (enabled) {
- a_map_set_root(o, hint | A_HINT_DEREF);
- a_map_store(o, o->op_ppaddr, hint);
- o->op_ppaddr = a_pp_root;
- } else {
- a_map_set_root(o, 0);
- }
+ if (hint & A_HINT_DO) {
+ if (enabled) {
+ a_map_update_flags_topdown(o, hint | A_HINT_DEREF);
+ a_map_store_root(o, o->op_ppaddr, hint);
+ o->op_ppaddr = new_pp;
+ } else {
+ a_map_cancel(o);
+ }
+ } else
+ a_map_delete(o);
return o;
}
PL_check[OP_PADANY] = MEMBER_TO_FPTR(a_ck_padany);
a_old_ck_padsv = PL_check[OP_PADSV];
PL_check[OP_PADSV] = MEMBER_TO_FPTR(a_ck_padsv);
+
a_old_ck_aelem = PL_check[OP_AELEM];
PL_check[OP_AELEM] = MEMBER_TO_FPTR(a_ck_deref);
a_old_ck_helem = PL_check[OP_HELEM];
PL_check[OP_HELEM] = MEMBER_TO_FPTR(a_ck_deref);
a_old_ck_rv2sv = PL_check[OP_RV2SV];
PL_check[OP_RV2SV] = MEMBER_TO_FPTR(a_ck_deref);
+
a_old_ck_rv2av = PL_check[OP_RV2AV];
PL_check[OP_RV2AV] = MEMBER_TO_FPTR(a_ck_rv2xv);
a_old_ck_rv2hv = PL_check[OP_RV2HV];
PL_check[OP_RV2HV] = MEMBER_TO_FPTR(a_ck_rv2xv);
+
+ a_old_ck_aslice = PL_check[OP_ASLICE];
+ PL_check[OP_ASLICE] = MEMBER_TO_FPTR(a_ck_xslice);
+ a_old_ck_hslice = PL_check[OP_HSLICE];
+ PL_check[OP_HSLICE] = MEMBER_TO_FPTR(a_ck_xslice);
+
a_old_ck_exists = PL_check[OP_EXISTS];
PL_check[OP_EXISTS] = MEMBER_TO_FPTR(a_ck_root);
a_old_ck_delete = PL_check[OP_DELETE];
PL_check[OP_DELETE] = MEMBER_TO_FPTR(a_ck_root);
+ a_old_ck_keys = PL_check[OP_KEYS];
+ PL_check[OP_KEYS] = MEMBER_TO_FPTR(a_ck_root);
+ a_old_ck_values = PL_check[OP_VALUES];
+ PL_check[OP_VALUES] = MEMBER_TO_FPTR(a_ck_root);
stash = gv_stashpvn(__PACKAGE__, __PACKAGE_LEN__, 1);
newCONSTSUB(stash, "A_HINT_STRICT", newSVuv(A_HINT_STRICT));