sv_report_used() / do_report_used()
dump all remaining SVs (debugging aid)
- sv_clean_objs() / do_clean_objs(),do_clean_named_objs()
+ sv_clean_objs() / do_clean_objs(),do_clean_named_objs(),
+ do_clean_named_io_objs()
Attempt to free all objects pointed to by RVs,
and, unless DISABLE_DESTRUCTOR_KLUDGE is defined,
try to do the same for all objects indirectly
new_SV(), del_SV(),
- new_XIV(), del_XIV(),
- new_XNV(), del_XNV(),
+ new_XPVNV(), del_XPVGV(),
etc
Public API:
* "A time to plant, and a time to uproot what was planted..."
*/
-void
-Perl_offer_nice_chunk(pTHX_ void *const chunk, const U32 chunk_size)
-{
- dVAR;
- void *new_chunk;
- U32 new_chunk_size;
-
- PERL_ARGS_ASSERT_OFFER_NICE_CHUNK;
-
- new_chunk = (void *)(chunk);
- new_chunk_size = (chunk_size);
- if (new_chunk_size > PL_nice_chunk_size) {
- Safefree(PL_nice_chunk);
- PL_nice_chunk = (char *) new_chunk;
- PL_nice_chunk_size = new_chunk_size;
- } else {
- Safefree(chunk);
- }
-}
-
#ifdef PERL_MEM_LOG
# define MEM_LOG_NEW_SV(sv, file, line, func) \
Perl_mem_log_new_sv(sv, file, line, func)
{
dVAR;
SV* sv;
-
- if (PL_nice_chunk) {
- sv_add_arena(PL_nice_chunk, PL_nice_chunk_size, 0);
- PL_nice_chunk = NULL;
- PL_nice_chunk_size = 0;
- }
- else {
- char *chunk; /* must use New here to match call to */
- Newx(chunk,PERL_ARENA_SIZE,char); /* Safefree() in sv_free_arenas() */
- sv_add_arena(chunk, PERL_ARENA_SIZE, 0);
- }
+ char *chunk; /* must use New here to match call to */
+ Newx(chunk,PERL_ARENA_SIZE,char); /* Safefree() in sv_free_arenas() */
+ sv_add_arena(chunk, PERL_ARENA_SIZE, 0);
uproot_SV(sv);
return sv;
}
: 0
);
sv->sv_debug_inpad = 0;
- sv->sv_debug_cloned = 0;
+ sv->sv_debug_parent = NULL;
sv->sv_debug_file = PL_curcop ? savepv(CopFILE(PL_curcop)): NULL;
sv->sv_debug_serial = PL_sv_serial++;
/* XXX Might want to check arrays, etc. */
}
-/* called by sv_clean_objs() for each live SV */
#ifndef DISABLE_DESTRUCTOR_KLUDGE
+
+/* clear any slots in a GV which hold objects - except IO;
+ * called by sv_clean_objs() for each live GV */
+
static void
do_clean_named_objs(pTHX_ SV *const sv)
{
dVAR;
+ SV *obj;
assert(SvTYPE(sv) == SVt_PVGV);
assert(isGV_with_GP(sv));
- if (GvGP(sv)) {
- if ((
-#ifdef PERL_DONT_CREATE_GVSV
- GvSV(sv) &&
-#endif
- SvOBJECT(GvSV(sv))) ||
- (GvAV(sv) && SvOBJECT(GvAV(sv))) ||
- (GvHV(sv) && SvOBJECT(GvHV(sv))) ||
- /* In certain rare cases GvIOp(sv) can be NULL, which would make SvOBJECT(GvIO(sv)) dereference NULL. */
- (GvIO(sv) ? (SvFLAGS(GvIOp(sv)) & SVs_OBJECT) : 0) ||
- (GvCV(sv) && SvOBJECT(GvCV(sv))) )
- {
- DEBUG_D((PerlIO_printf(Perl_debug_log, "Cleaning named glob object:\n "), sv_dump(sv)));
- SvFLAGS(sv) |= SVf_BREAK;
- SvREFCNT_dec(sv);
- }
+ if (!GvGP(sv))
+ return;
+
+ /* freeing GP entries may indirectly free the current GV;
+ * hold onto it while we mess with the GP slots */
+ SvREFCNT_inc(sv);
+
+ if ( ((obj = GvSV(sv) )) && SvOBJECT(obj)) {
+ DEBUG_D((PerlIO_printf(Perl_debug_log,
+ "Cleaning named glob SV object:\n "), sv_dump(obj)));
+ GvSV(sv) = NULL;
+ SvREFCNT_dec(obj);
+ }
+ if ( ((obj = MUTABLE_SV(GvAV(sv)) )) && SvOBJECT(obj)) {
+ DEBUG_D((PerlIO_printf(Perl_debug_log,
+ "Cleaning named glob AV object:\n "), sv_dump(obj)));
+ GvAV(sv) = NULL;
+ SvREFCNT_dec(obj);
+ }
+ if ( ((obj = MUTABLE_SV(GvHV(sv)) )) && SvOBJECT(obj)) {
+ DEBUG_D((PerlIO_printf(Perl_debug_log,
+ "Cleaning named glob HV object:\n "), sv_dump(obj)));
+ GvHV(sv) = NULL;
+ SvREFCNT_dec(obj);
+ }
+ if ( ((obj = MUTABLE_SV(GvCV(sv)) )) && SvOBJECT(obj)) {
+ DEBUG_D((PerlIO_printf(Perl_debug_log,
+ "Cleaning named glob CV object:\n "), sv_dump(obj)));
+ GvCV(sv) = NULL;
+ SvREFCNT_dec(obj);
}
+ SvREFCNT_dec(sv); /* undo the inc above */
+}
+
+/* clear any IO slots in a GV which hold objects;
+ * called by sv_clean_objs() for each live GV */
+
+static void
+do_clean_named_io_objs(pTHX_ SV *const sv)
+{
+ dVAR;
+ SV *obj;
+ assert(SvTYPE(sv) == SVt_PVGV);
+ assert(isGV_with_GP(sv));
+ if (!GvGP(sv))
+ return;
+
+ SvREFCNT_inc(sv);
+ if ( ((obj = MUTABLE_SV(GvIO(sv)) )) && SvOBJECT(obj)) {
+ DEBUG_D((PerlIO_printf(Perl_debug_log,
+ "Cleaning named glob IO object:\n "), sv_dump(obj)));
+ GvIOp(sv) = NULL;
+ SvREFCNT_dec(obj);
+ }
+ SvREFCNT_dec(sv); /* undo the inc above */
}
#endif
PL_in_clean_objs = TRUE;
visit(do_clean_objs, SVf_ROK, SVf_ROK);
#ifndef DISABLE_DESTRUCTOR_KLUDGE
- /* some barnacles may yet remain, clinging to typeglobs */
+ /* Some barnacles may yet remain, clinging to typeglobs.
+ * Run the non-IO destructors first: they may want to output
+ * error messages, close files etc */
visit(do_clean_named_objs, SVt_PVGV|SVpgv_GP, SVTYPEMASK|SVp_POK|SVpgv_GP);
+ visit(do_clean_named_io_objs, SVt_PVGV|SVpgv_GP, SVTYPEMASK|SVp_POK|SVpgv_GP);
#endif
PL_in_clean_objs = FALSE;
}
I32 cleaned;
PL_in_clean_all = TRUE;
cleaned = visit(do_clean_all, 0,0);
- PL_in_clean_all = FALSE;
return cleaned;
}
while (i--)
PL_body_roots[i] = 0;
- Safefree(PL_nice_chunk);
- PL_nice_chunk = NULL;
- PL_nice_chunk_size = 0;
PL_sv_arenaroot = 0;
PL_sv_root = 0;
}
are decremented to point at the unused 'ghost' memory, knowing that
the pointers are used with offsets to the real memory.
- HE, HEK arenas are managed separately, with separate code, but may
- be merge-able later..
-*/
-
-/* get_arena(size): this creates custom-sized arenas
- TBD: export properly for hv.c: S_more_he().
-*/
-void*
-Perl_get_arena(pTHX_ const size_t arena_size, const svtype bodytype)
-{
- dVAR;
- struct arena_desc* adesc;
- struct arena_set *aroot = (struct arena_set*) PL_body_arenas;
- unsigned int curr;
-
- /* shouldnt need this
- if (!arena_size) arena_size = PERL_ARENA_SIZE;
- */
-
- /* may need new arena-set to hold new arena */
- if (!aroot || aroot->curr >= aroot->set_size) {
- struct arena_set *newroot;
- Newxz(newroot, 1, struct arena_set);
- newroot->set_size = ARENAS_PER_SET;
- newroot->next = aroot;
- aroot = newroot;
- PL_body_arenas = (void *) newroot;
- DEBUG_m(PerlIO_printf(Perl_debug_log, "new arenaset %p\n", (void*)aroot));
- }
-
- /* ok, now have arena-set with at least 1 empty/available arena-desc */
- curr = aroot->curr++;
- adesc = &(aroot->set[curr]);
- assert(!adesc->arena);
-
- Newx(adesc->arena, arena_size, char);
- adesc->size = arena_size;
- adesc->utype = bodytype;
- DEBUG_m(PerlIO_printf(Perl_debug_log, "arena %d added: %p size %"UVuf"\n",
- curr, (void*)adesc->arena, (UV)arena_size));
-
- return adesc->arena;
-}
-
-
-/* return a thing to the free list */
-
-#define del_body(thing, root) \
- STMT_START { \
- void ** const thing_copy = (void **)thing;\
- *thing_copy = *root; \
- *root = (void*)thing_copy; \
- } STMT_END
-
-/*
=head1 SV-Body Allocation
In turn, the new_body_* allocators call S_new_body(), which invokes
new_body_inline macro, which takes a lock, and takes a body off the
-linked list at PL_body_roots[sv_type], calling S_more_bodies() if
+linked list at PL_body_roots[sv_type], calling Perl_more_bodies() if
necessary to refresh an empty list. Then the lock is released, and
the body is returned.
-S_more_bodies calls get_arena(), and carves it up into an array of N
+Perl_more_bodies allocates a new arena, and carves it up into an array of N
bodies, which it strings into a linked list. It looks up arena-size
and body-size from the body_details table described below, thus
supporting the multiple body-types.
If PURIFY is defined, or PERL_ARENA_SIZE=0, arenas are not used, and
the (new|del)_X*V macros are mapped directly to malloc/free.
-*/
-
-/*
-
For each sv-type, struct body_details bodies_by_type[] carries
parameters which control these aspects of SV handling:
+ sizeof (((type*)SvANY((const SV *)0))->last_member)
static const struct body_details bodies_by_type[] = {
- { sizeof(HE), 0, 0, SVt_NULL,
- FALSE, NONV, NOARENA, FIT_ARENA(0, sizeof(HE)) },
+ /* HEs use this offset for their arena. */
+ { 0, 0, 0, SVt_NULL, FALSE, NONV, NOARENA, 0 },
/* The bind placeholder pretends to be an RV for now.
Also it's marked as "can't upgrade" to stop anyone using it before it's
SVt_NV, FALSE, HADNV, HASARENA, FIT_ARENA(0, sizeof(NV)) },
/* 8 bytes on most ILP32 with IEEE doubles */
- { sizeof(XPV),
+ { sizeof(XPV) - STRUCT_OFFSET(XPV, xpv_cur),
copy_length(XPV, xpv_len) - STRUCT_OFFSET(XPV, xpv_cur),
+ STRUCT_OFFSET(XPV, xpv_cur),
SVt_PV, FALSE, NONV, HASARENA,
FIT_ARENA(0, sizeof(XPV) - STRUCT_OFFSET(XPV, xpv_cur)) },
-#if 2 *PTRSIZE <= IVSIZE
/* 12 */
- { sizeof(XPVIV),
+ { sizeof(XPVIV) - STRUCT_OFFSET(XPV, xpv_cur),
copy_length(XPVIV, xiv_u) - STRUCT_OFFSET(XPV, xpv_cur),
+ STRUCT_OFFSET(XPV, xpv_cur),
SVt_PVIV, FALSE, NONV, HASARENA,
FIT_ARENA(0, sizeof(XPVIV) - STRUCT_OFFSET(XPV, xpv_cur)) },
- /* 12 */
-#else
- { sizeof(XPVIV),
- copy_length(XPVIV, xiv_u),
- 0,
- SVt_PVIV, FALSE, NONV, HASARENA,
- FIT_ARENA(0, sizeof(XPVIV)) },
-#endif
-#if (2 *PTRSIZE <= IVSIZE) && (2 *PTRSIZE <= NVSIZE)
/* 20 */
- { sizeof(XPVNV),
+ { sizeof(XPVNV) - STRUCT_OFFSET(XPV, xpv_cur),
copy_length(XPVNV, xnv_u) - STRUCT_OFFSET(XPV, xpv_cur),
+ STRUCT_OFFSET(XPV, xpv_cur),
SVt_PVNV, FALSE, HADNV, HASARENA,
FIT_ARENA(0, sizeof(XPVNV) - STRUCT_OFFSET(XPV, xpv_cur)) },
-#else
- /* 20 */
- { sizeof(XPVNV), copy_length(XPVNV, xnv_u), 0, SVt_PVNV, FALSE, HADNV,
- HASARENA, FIT_ARENA(0, sizeof(XPVNV)) },
-#endif
/* 28 */
{ sizeof(XPVMG), copy_length(XPVMG, xnv_u), 0, SVt_PVMG, FALSE, HADNV,
sizeof(regexp),
0,
SVt_REGEXP, FALSE, NONV, HASARENA,
- FIT_ARENA(0, sizeof(regexp) - STRUCT_OFFSET(regexp, xpv_cur))
+ FIT_ARENA(0, sizeof(regexp))
},
/* 48 */
(void *)((char *)S_new_body(aTHX_ sv_type) \
- bodies_by_type[sv_type].offset)
-#define del_body_allocated(p, sv_type) \
- del_body(p + bodies_by_type[sv_type].offset, &PL_body_roots[sv_type])
-
+/* return a thing to the free list */
-#define my_safemalloc(s) (void*)safemalloc(s)
-#define my_safecalloc(s) (void*)safecalloc(s, 1)
-#define my_safefree(p) safefree((char*)p)
+#define del_body(thing, root) \
+ STMT_START { \
+ void ** const thing_copy = (void **)thing; \
+ *thing_copy = *root; \
+ *root = (void*)thing_copy; \
+ } STMT_END
#ifdef PURIFY
-#define new_XNV() my_safemalloc(sizeof(XPVNV))
-#define del_XNV(p) my_safefree(p)
-
-#define new_XPVNV() my_safemalloc(sizeof(XPVNV))
-#define del_XPVNV(p) my_safefree(p)
-
-#define new_XPVAV() my_safemalloc(sizeof(XPVAV))
-#define del_XPVAV(p) my_safefree(p)
+#define new_XNV() safemalloc(sizeof(XPVNV))
+#define new_XPVNV() safemalloc(sizeof(XPVNV))
+#define new_XPVMG() safemalloc(sizeof(XPVMG))
-#define new_XPVHV() my_safemalloc(sizeof(XPVHV))
-#define del_XPVHV(p) my_safefree(p)
-
-#define new_XPVMG() my_safemalloc(sizeof(XPVMG))
-#define del_XPVMG(p) my_safefree(p)
-
-#define new_XPVGV() my_safemalloc(sizeof(XPVGV))
-#define del_XPVGV(p) my_safefree(p)
+#define del_XPVGV(p) safefree(p)
#else /* !PURIFY */
#define new_XNV() new_body_allocated(SVt_NV)
-#define del_XNV(p) del_body_allocated(p, SVt_NV)
-
#define new_XPVNV() new_body_allocated(SVt_PVNV)
-#define del_XPVNV(p) del_body_allocated(p, SVt_PVNV)
-
-#define new_XPVAV() new_body_allocated(SVt_PVAV)
-#define del_XPVAV(p) del_body_allocated(p, SVt_PVAV)
-
-#define new_XPVHV() new_body_allocated(SVt_PVHV)
-#define del_XPVHV(p) del_body_allocated(p, SVt_PVHV)
-
#define new_XPVMG() new_body_allocated(SVt_PVMG)
-#define del_XPVMG(p) del_body_allocated(p, SVt_PVMG)
-#define new_XPVGV() new_body_allocated(SVt_PVGV)
-#define del_XPVGV(p) del_body_allocated(p, SVt_PVGV)
+#define del_XPVGV(p) del_body(p + bodies_by_type[SVt_PVGV].offset, \
+ &PL_body_roots[SVt_PVGV])
#endif /* PURIFY */
/* no arena for you! */
#define new_NOARENA(details) \
- my_safemalloc((details)->body_size + (details)->offset)
+ safemalloc((details)->body_size + (details)->offset)
#define new_NOARENAZ(details) \
- my_safecalloc((details)->body_size + (details)->offset)
+ safecalloc((details)->body_size + (details)->offset, 1)
-STATIC void *
-S_more_bodies (pTHX_ const svtype sv_type)
+void *
+Perl_more_bodies (pTHX_ const svtype sv_type, const size_t body_size,
+ const size_t arena_size)
{
dVAR;
void ** const root = &PL_body_roots[sv_type];
- const struct body_details * const bdp = &bodies_by_type[sv_type];
- const size_t body_size = bdp->body_size;
+ struct arena_desc *adesc;
+ struct arena_set *aroot = (struct arena_set *) PL_body_arenas;
+ unsigned int curr;
char *start;
const char *end;
- const size_t arena_size = Perl_malloc_good_size(bdp->arena_size);
+ const size_t good_arena_size = Perl_malloc_good_size(arena_size);
#if defined(DEBUGGING) && !defined(PERL_GLOBAL_STRUCT_PRIVATE)
static bool done_sanity_check;
}
#endif
- assert(bdp->arena_size);
+ assert(arena_size);
+
+ /* may need new arena-set to hold new arena */
+ if (!aroot || aroot->curr >= aroot->set_size) {
+ struct arena_set *newroot;
+ Newxz(newroot, 1, struct arena_set);
+ newroot->set_size = ARENAS_PER_SET;
+ newroot->next = aroot;
+ aroot = newroot;
+ PL_body_arenas = (void *) newroot;
+ DEBUG_m(PerlIO_printf(Perl_debug_log, "new arenaset %p\n", (void*)aroot));
+ }
+
+ /* ok, now have arena-set with at least 1 empty/available arena-desc */
+ curr = aroot->curr++;
+ adesc = &(aroot->set[curr]);
+ assert(!adesc->arena);
+
+ Newx(adesc->arena, good_arena_size, char);
+ adesc->size = good_arena_size;
+ adesc->utype = sv_type;
+ DEBUG_m(PerlIO_printf(Perl_debug_log, "arena %d added: %p size %"UVuf"\n",
+ curr, (void*)adesc->arena, (UV)good_arena_size));
- start = (char*) Perl_get_arena(aTHX_ arena_size, sv_type);
+ start = (char *) adesc->arena;
- end = start + arena_size - 2 * body_size;
+ /* Get the address of the byte after the end of the last body we can fit.
+ Remember, this is integer division: */
+ end = start + good_arena_size / body_size * body_size;
/* computed count doesnt reflect the 1st slot reservation */
#if defined(MYMALLOC) || defined(HAS_MALLOC_GOOD_SIZE)
DEBUG_m(PerlIO_printf(Perl_debug_log,
"arena %p end %p arena-size %d (from %d) type %d "
"size %d ct %d\n",
- (void*)start, (void*)end, (int)arena_size,
- (int)bdp->arena_size, sv_type, (int)body_size,
- (int)arena_size / (int)body_size));
+ (void*)start, (void*)end, (int)good_arena_size,
+ (int)arena_size, sv_type, (int)body_size,
+ (int)good_arena_size / (int)body_size));
#else
DEBUG_m(PerlIO_printf(Perl_debug_log,
"arena %p end %p arena-size %d type %d size %d ct %d\n",
(void*)start, (void*)end,
- (int)bdp->arena_size, sv_type, (int)body_size,
- (int)bdp->arena_size / (int)body_size));
+ (int)arena_size, sv_type, (int)body_size,
+ (int)good_arena_size / (int)body_size));
#endif
*root = (void *)start;
- while (start <= end) {
+ while (1) {
+ /* Where the next body would start: */
char * const next = start + body_size;
+
+ if (next >= end) {
+ /* This is the last body: */
+ assert(next == end);
+
+ *(void **)start = 0;
+ return *root;
+ }
+
*(void**) start = (void *)next;
start = next;
}
- *(void **)start = 0;
-
- return *root;
}
/* grab a new thing from the free list, allocating more if necessary.
STMT_START { \
void ** const r3wt = &PL_body_roots[sv_type]; \
xpv = (PTR_TBL_ENT_t*) (*((void **)(r3wt)) \
- ? *((void **)(r3wt)) : more_bodies(sv_type)); \
+ ? *((void **)(r3wt)) : Perl_more_bodies(aTHX_ sv_type, \
+ bodies_by_type[sv_type].body_size,\
+ bodies_by_type[sv_type].arena_size)); \
*(r3wt) = *(void**)(xpv); \
} STMT_END
if (old_type > SVt_IV) {
#ifdef PURIFY
- my_safefree(old_body);
+ safefree(old_body);
#else
/* Note that there is an assumption that all bodies of types that
can be upgraded came from arenas. Only the more complex non-
s = SvPVX_mutable(sv);
if (newlen > SvLEN(sv)) { /* need more room? */
+ STRLEN minlen = SvCUR(sv);
+ minlen += (minlen >> PERL_STRLEN_EXPAND_SHIFT) + 10;
+ if (newlen < minlen)
+ newlen = minlen;
#ifndef Perl_safesysmalloc_size
newlen = PERL_STRLEN_ROUNDUP(newlen);
#endif
const MGVTBL* const vtbl = mg->mg_virtual;
*mgp = mg->mg_moremagic;
if (vtbl && vtbl->svt_free)
- CALL_FPTR(vtbl->svt_free)(aTHX_ sv, mg);
+ vtbl->svt_free(aTHX_ sv, mg);
if (mg->mg_ptr && mg->mg_type != PERL_MAGIC_regex_global) {
if (mg->mg_len > 0)
Safefree(mg->mg_ptr);
/* Give tsv backref magic if it hasn't already got it, then push a
* back-reference to sv onto the array associated with the backref magic.
+ *
+ * As an optimisation, if there's only one backref and it's not an AV,
+ * store it directly in the HvAUX or mg_obj slot, avoiding the need to
+ * allocate an AV. (Whether the slot holds an AV tells us whether this is
+ * active.)
+ *
+ * If an HV's backref is stored in magic, it is moved back to HvAUX.
*/
/* A discussion about the backreferences array and its refcount:
*
* The AV holding the backreferences is pointed to either as the mg_obj of
- * PERL_MAGIC_backref, or in the specific case of a HV, from the
- * xhv_backreferences field of the HvAUX structure. The array is created
- * with a refcount of 2. This means that if during global destruction the
- * array gets picked on before its parent to have its refcount decremented
- * by the random zapper, it won't actually be freed, meaning it's still
- * there for when its parent gets freed.
- * When the parent SV is freed, in the case of magic, the magic is freed,
- * Perl_magic_killbackrefs is called which decrements one refcount, then
- * mg_obj is freed which kills the second count.
- * In the vase of a HV being freed, one ref is removed by S_hfreeentries,
- * the other by Perl_sv_kill_backrefs, which it calls.
+ * PERL_MAGIC_backref, or in the specific case of a HV that has the hv_aux
+ * structure, from the xhv_backreferences field. (A HV without hv_aux will
+ * have the standard magic instead.) The array is created with a refcount
+ * of 2. This means that if during global destruction the array gets
+ * picked on before its parent to have its refcount decremented by the
+ * random zapper, it won't actually be freed, meaning it's still there for
+ * when its parent gets freed.
+ *
+ * When the parent SV is freed, the extra ref is killed by
+ * Perl_sv_kill_backrefs. The other ref is killed, in the case of magic,
+ * by mg_free() / MGf_REFCOUNTED, or for a hash, by Perl_hv_kill_backrefs.
+ *
+ * When a single backref SV is stored directly, it is not reference
+ * counted.
*/
void
Perl_sv_add_backref(pTHX_ SV *const tsv, SV *const sv)
{
dVAR;
- AV *av;
+ SV **svp;
+ AV *av = NULL;
+ MAGIC *mg = NULL;
PERL_ARGS_ASSERT_SV_ADD_BACKREF;
- if (SvTYPE(tsv) == SVt_PVHV) {
- AV **const avp = Perl_hv_backreferences_p(aTHX_ MUTABLE_HV(tsv));
+ /* find slot to store array or singleton backref */
- av = *avp;
- if (!av) {
- av = newAV();
- AvREAL_off(av);
- SvREFCNT_inc_simple_void(av); /* see discussion above */
- *avp = av;
+ if (SvTYPE(tsv) == SVt_PVHV) {
+ svp = (SV**)Perl_hv_backreferences_p(aTHX_ MUTABLE_HV(tsv));
+
+ if (!*svp) {
+ if ((mg = mg_find(tsv, PERL_MAGIC_backref))) {
+ /* Aha. They've got it stowed in magic instead.
+ * Move it back to xhv_backreferences */
+ *svp = mg->mg_obj;
+ /* Stop mg_free decreasing the reference count. */
+ mg->mg_obj = NULL;
+ /* Stop mg_free even calling the destructor, given that
+ there's no AV to free up. */
+ mg->mg_virtual = 0;
+ sv_unmagic(tsv, PERL_MAGIC_backref);
+ mg = NULL;
+ }
}
} else {
- const MAGIC *const mg
- = SvMAGICAL(tsv) ? mg_find(tsv, PERL_MAGIC_backref) : NULL;
- if (mg)
- av = MUTABLE_AV(mg->mg_obj);
- else {
- av = newAV();
- AvREAL_off(av);
- sv_magic(tsv, MUTABLE_SV(av), PERL_MAGIC_backref, NULL, 0);
- /* av now has a refcnt of 2; see discussion above */
+ if (! ((mg =
+ (SvMAGICAL(tsv) ? mg_find(tsv, PERL_MAGIC_backref) : NULL))))
+ {
+ sv_magic(tsv, NULL, PERL_MAGIC_backref, NULL, 0);
+ mg = mg_find(tsv, PERL_MAGIC_backref);
}
+ svp = &(mg->mg_obj);
}
+
+ /* create or retrieve the array */
+
+ if ( (!*svp && SvTYPE(sv) == SVt_PVAV)
+ || (*svp && SvTYPE(*svp) != SVt_PVAV)
+ ) {
+ /* create array */
+ av = newAV();
+ AvREAL_off(av);
+ SvREFCNT_inc_simple_void(av);
+ /* av now has a refcnt of 2; see discussion above */
+ if (*svp) {
+ /* move single existing backref to the array */
+ av_extend(av, 1);
+ AvARRAY(av)[++AvFILLp(av)] = *svp; /* av_push() */
+ }
+ *svp = (SV*)av;
+ if (mg)
+ mg->mg_flags |= MGf_REFCOUNTED;
+ }
+ else
+ av = MUTABLE_AV(*svp);
+
+ if (!av) {
+ /* optimisation: store single backref directly in HvAUX or mg_obj */
+ *svp = sv;
+ return;
+ }
+ /* push new backref */
+ assert(SvTYPE(av) == SVt_PVAV);
if (AvFILLp(av) >= AvMAX(av)) {
av_extend(av, AvFILLp(av)+1);
}
Perl_sv_del_backref(pTHX_ SV *const tsv, SV *const sv)
{
dVAR;
- AV *av = NULL;
- SV **svp;
+ SV **svp = NULL;
I32 i;
PERL_ARGS_ASSERT_SV_DEL_BACKREF;
- if (SvTYPE(tsv) == SVt_PVHV) {
- if (SvOOK(tsv)) {
- /* SvOOK: We must avoid creating the hv_aux structure if its
- * not already there, as that is stored in the main HvARRAY(),
- * and hfreentries assumes that no-one reallocates HvARRAY()
- * while it is running. */
- av = *Perl_hv_backreferences_p(aTHX_ MUTABLE_HV(tsv));
- }
+ if (SvTYPE(tsv) == SVt_PVHV && SvOOK(tsv)) {
+ svp = (SV**)Perl_hv_backreferences_p(aTHX_ MUTABLE_HV(tsv));
}
- else {
- const MAGIC *const mg
+ if (!svp || !*svp) {
+ MAGIC *const mg
= SvMAGICAL(tsv) ? mg_find(tsv, PERL_MAGIC_backref) : NULL;
- if (mg)
- av = MUTABLE_AV(mg->mg_obj);
+ svp = mg ? &(mg->mg_obj) : NULL;
}
- if (!av)
+ if (!svp || !*svp)
Perl_croak(aTHX_ "panic: del_backref");
- assert(!SvIS_FREED(av));
-
- svp = AvARRAY(av);
- /* We shouldn't be in here more than once, but for paranoia reasons lets
- not assume this. */
- for (i = AvFILLp(av); i >= 0; i--) {
- if (svp[i] == sv) {
- const SSize_t fill = AvFILLp(av);
- if (i != fill) {
- /* We weren't the last entry.
- An unordered list has this property that you can take the
- last element off the end to fill the hole, and it's still
- an unordered list :-)
- */
- svp[i] = svp[fill];
+ if (SvTYPE(*svp) == SVt_PVAV) {
+ int count = 0;
+ AV * const av = (AV*)*svp;
+ assert(!SvIS_FREED(av));
+ svp = AvARRAY(av);
+ for (i = AvFILLp(av); i >= 0; i--) {
+ if (svp[i] == sv) {
+ const SSize_t fill = AvFILLp(av);
+ if (i != fill) {
+ /* We weren't the last entry.
+ An unordered list has this property that you can take the
+ last element off the end to fill the hole, and it's still
+ an unordered list :-)
+ */
+ svp[i] = svp[fill];
+ }
+ svp[fill] = NULL;
+ AvFILLp(av) = fill - 1;
+ count++;
+#ifndef DEBUGGING
+ break; /* should only be one */
+#endif
}
- svp[fill] = NULL;
- AvFILLp(av) = fill - 1;
}
+ assert(count == 1);
}
+ else {
+ /* optimisation: only a single backref, stored directly */
+ if (*svp != sv)
+ Perl_croak(aTHX_ "panic: del_backref");
+ *svp = NULL;
+ }
+
}
-int
+void
Perl_sv_kill_backrefs(pTHX_ SV *const sv, AV *const av)
{
- SV **svp = AvARRAY(av);
+ SV **svp;
+ SV **last;
+ bool is_array;
PERL_ARGS_ASSERT_SV_KILL_BACKREFS;
- PERL_UNUSED_ARG(sv);
- if (svp) {
- SV *const *const last = svp + AvFILLp(av);
+ if (!av)
+ return;
+ is_array = (SvTYPE(av) == SVt_PVAV);
+ if (is_array) {
assert(!SvIS_FREED(av));
+ svp = AvARRAY(av);
+ if (svp)
+ last = svp + AvFILLp(av);
+ }
+ else {
+ /* optimisation: only a single backref, stored directly */
+ svp = (SV**)&av;
+ last = svp;
+ }
+
+ if (svp) {
while (svp <= last) {
if (*svp) {
SV *const referrer = *svp;
SvSETMAGIC(referrer);
} else if (SvTYPE(referrer) == SVt_PVGV ||
SvTYPE(referrer) == SVt_PVLV) {
+ assert(SvTYPE(sv) == SVt_PVHV); /* stash backref */
/* You lookin' at me? */
assert(GvSTASH(referrer));
assert(GvSTASH(referrer) == (const HV *)sv);
GvSTASH(referrer) = 0;
- } else if (SvTYPE(referrer) == SVt_PVCV) {
- /* You lookin' at me? */
- assert(CvSTASH(referrer));
- assert(CvSTASH(referrer) == (const HV *)sv);
- CvSTASH(referrer) = 0;
+ } else if (SvTYPE(referrer) == SVt_PVCV ||
+ SvTYPE(referrer) == SVt_PVFM) {
+ if (SvTYPE(sv) == SVt_PVHV) { /* stash backref */
+ /* You lookin' at me? */
+ assert(CvSTASH(referrer));
+ assert(CvSTASH(referrer) == (const HV *)sv);
+ CvSTASH(referrer) = 0;
+ }
+ else {
+ assert(SvTYPE(sv) == SVt_PVGV);
+ /* You lookin' at me? */
+ assert(CvGV(referrer));
+ assert(CvGV(referrer) == (const GV *)sv);
+ anonymise_cv_maybe(MUTABLE_GV(sv),
+ MUTABLE_CV(referrer));
+ }
+
} else {
Perl_croak(aTHX_
"panic: magic_killbackrefs (flags=%"UVxf")",
(UV)SvFLAGS(referrer));
}
- *svp = NULL;
+ if (is_array)
+ *svp = NULL;
}
svp++;
}
+ }
+ if (is_array) {
AvFILLp(av) = -1;
+ SvREFCNT_dec(av); /* remove extra count added by sv_add_backref() */
}
- SvREFCNT_dec(av); /* remove extra count added by sv_add_backref() */
- return 0;
+ return;
}
/*
del_SV(nsv);
}
+/* We're about to free a GV which has a CV that refers back to us.
+ * If that CV will outlive us, make it anonymous (i.e. fix up its CvGV
+ * field) */
+
+STATIC void
+S_anonymise_cv_maybe(pTHX_ GV *gv, CV* cv)
+{
+ char *stash;
+ SV *gvname;
+ GV *anongv;
+
+ PERL_ARGS_ASSERT_ANONYMISE_CV_MAYBE;
+
+ /* be assertive! */
+ assert(SvREFCNT(gv) == 0);
+ assert(isGV(gv) && isGV_with_GP(gv));
+ assert(GvGP(gv));
+ assert(!CvANON(cv));
+ assert(CvGV(cv) == gv);
+
+ /* will the CV shortly be freed by gp_free() ? */
+ if (GvCV(gv) == cv && GvGP(gv)->gp_refcnt < 2 && SvREFCNT(cv) < 2) {
+ SvANY(cv)->xcv_gv = NULL;
+ return;
+ }
+
+ /* if not, anonymise: */
+ stash = GvSTASH(gv) ? HvNAME(GvSTASH(gv)) : NULL;
+ gvname = Perl_newSVpvf(aTHX_ "%s::__ANON__",
+ stash ? stash : "__ANON__");
+ anongv = gv_fetchsv(gvname, GV_ADDMULTI, SVt_PVCV);
+ SvREFCNT_dec(gvname);
+
+ CvANON_on(cv);
+ CvCVGV_RC_on(cv);
+ SvANY(cv)->xcv_gv = MUTABLE_GV(SvREFCNT_inc(anongv));
+}
+
+
/*
=for apidoc sv_clear
if (PL_last_swash_hv == (const HV *)sv) {
PL_last_swash_hv = NULL;
}
+ Perl_hv_kill_backrefs(aTHX_ MUTABLE_HV(sv));
hv_undef(MUTABLE_HV(sv));
break;
case SVt_PVAV:
&PL_body_roots[type]);
}
else if (sv_type_details->body_size) {
- my_safefree(SvANY(sv));
+ safefree(SvANY(sv));
}
}
}
SvPOK_only(sv);
- SvCUR_set(sv,0);
+ if (!append) {
+ SvCUR_set(sv,0);
+ }
if (PerlIO_isutf8(fp))
SvUTF8_on(sv);
string. You are responsible for ensuring that the source string is at least
C<len> bytes long. If the C<s> argument is NULL the new SV will be undefined.
Currently the only flag bits accepted are C<SVf_UTF8> and C<SVs_TEMP>.
-If C<SVs_TEMP> is set, then C<sv2mortal()> is called on the result before
+If C<SVs_TEMP> is set, then C<sv_2mortal()> is called on the result before
returning. If C<SVf_UTF8> is set, C<s> is considered to be in UTF-8 and the
C<SVf_UTF8> flag will be set on the new SV.
C<newSVpvn_utf8()> is a convenience wrapper for this function, defined as
case SVt_PVFM: return "FORMAT";
case SVt_PVIO: return "IO";
case SVt_BIND: return "BIND";
- case SVt_REGEXP: return "REGEXP";
+ case SVt_REGEXP: return "REGEXP";
default: return "UNKNOWN";
}
}
Newxz(parser, 1, yy_parser);
ptr_table_store(PL_ptr_table, proto, parser);
- parser->yyerrstatus = 0;
- parser->yychar = YYEMPTY; /* Cause a token to be read. */
-
/* XXX these not yet duped */
parser->old_parser = NULL;
parser->stack = NULL;
for (; mg; mg = mg->mg_moremagic) {
MAGIC *nmg;
+
+ if ((param->flags & CLONEf_JOIN_IN)
+ && mg->mg_type == PERL_MAGIC_backref)
+ /* when joining, we let the individual SVs add themselves to
+ * backref as needed. */
+ continue;
+
Newx(nmg, 1, MAGIC);
*mgprev_p = nmg;
mgprev_p = &(nmg->mg_moremagic);
}
else
*/
- if(nmg->mg_type == PERL_MAGIC_backref) {
- /* The backref AV has its reference count deliberately bumped by
- 1. */
- nmg->mg_obj
- = SvREFCNT_inc(av_dup_inc((const AV *) nmg->mg_obj, param));
- }
- else {
- nmg->mg_obj = (nmg->mg_flags & MGf_REFCOUNTED)
- ? sv_dup_inc(nmg->mg_obj, param)
- : sv_dup(nmg->mg_obj, param);
- }
+ nmg->mg_obj = (nmg->mg_flags & MGf_REFCOUNTED)
+ ? nmg->mg_type == PERL_MAGIC_backref
+ /* The backref AV has its reference
+ * count deliberately bumped by 1 */
+ ? SvREFCNT_inc(av_dup_inc((const AV *)
+ nmg->mg_obj, param))
+ : sv_dup_inc(nmg->mg_obj, param)
+ : sv_dup(nmg->mg_obj, param);
if (nmg->mg_ptr && nmg->mg_type != PERL_MAGIC_regex_global) {
if (nmg->mg_len > 0) {
nmg->mg_ptr = (char*)sv_dup_inc((const SV *)nmg->mg_ptr, param);
}
if ((nmg->mg_flags & MGf_DUP) && nmg->mg_virtual && nmg->mg_virtual->svt_dup) {
- CALL_FPTR(nmg->mg_virtual->svt_dup)(aTHX_ nmg, param);
+ nmg->mg_virtual->svt_dup(aTHX_ nmg, param);
}
}
return mgret;
PERL_ARGS_ASSERT_RVPV_DUP;
if (SvROK(sstr)) {
- SvRV_set(dstr, SvWEAKREF(sstr)
- ? sv_dup(SvRV_const(sstr), param)
- : sv_dup_inc(SvRV_const(sstr), param));
-
+ if (SvWEAKREF(sstr)) {
+ SvRV_set(dstr, sv_dup(SvRV_const(sstr), param));
+ if (param->flags & CLONEf_JOIN_IN) {
+ /* if joining, we add any back references individually rather
+ * than copying the whole backref array */
+ Perl_sv_add_backref(aTHX_ SvRV(dstr), dstr);
+ }
+ }
+ else
+ SvRV_set(dstr, sv_dup_inc(SvRV_const(sstr), param));
}
else if (SvPVX_const(sstr)) {
/* Has something there */
something that is bad **/
if (SvTYPE(sstr) == SVt_PVHV) {
const HEK * const hvname = HvNAME_HEK(sstr);
- if (hvname)
+ if (hvname) {
/** don't clone stashes if they already exist **/
- return MUTABLE_SV(gv_stashpvn(HEK_KEY(hvname), HEK_LEN(hvname), 0));
+ dstr = MUTABLE_SV(gv_stashpvn(HEK_KEY(hvname), HEK_LEN(hvname), 0));
+ ptr_table_store(PL_ptr_table, sstr, dstr);
+ return dstr;
+ }
}
}
dstr->sv_debug_optype = sstr->sv_debug_optype;
dstr->sv_debug_line = sstr->sv_debug_line;
dstr->sv_debug_inpad = sstr->sv_debug_inpad;
- dstr->sv_debug_cloned = 1;
+ dstr->sv_debug_parent = (SV*)sstr;
dstr->sv_debug_file = savepv(sstr->sv_debug_file);
#endif
else
LvTARG(dstr) = sv_dup_inc(LvTARG(dstr), param);
case SVt_PVGV:
+ /* non-GP case already handled above */
if(isGV_with_GP(sstr)) {
GvNAME_HEK(dstr) = hek_dup(GvNAME_HEK(dstr), param);
/* Don't call sv_add_backref here as it's going to be
/* Danger Will Robinson - GvGP(dstr) isn't initialised
at the point of this comment. */
GvSTASH(dstr) = hv_dup(GvSTASH(dstr), param);
- if(param->flags & CLONEf_JOIN_IN) {
- const HEK * const hvname
- = HvNAME_HEK(GvSTASH(dstr));
- if( hvname
- && GvSTASH(dstr) == gv_stashpvn(
- HEK_KEY(hvname), HEK_LEN(hvname), 0
- )
- )
- Perl_sv_add_backref(
- aTHX_ MUTABLE_SV(GvSTASH(dstr)), dstr
- );
- }
+ if (param->flags & CLONEf_JOIN_IN)
+ Perl_sv_add_backref(aTHX_ MUTABLE_SV(GvSTASH(dstr)), dstr);
GvGP(dstr) = gp_dup(GvGP(sstr), param);
(void)GpREFCNT_inc(GvGP(dstr));
- } else
- Perl_rvpv_dup(aTHX_ dstr, sstr, param);
+ }
break;
case SVt_PVIO:
/* PL_parser->rsfp_filters entries have fake IoDIRP() */
cBOOL(HvSHAREKEYS(sstr)), param) : 0;
/* backref array needs refcnt=2; see sv_add_backref */
daux->xhv_backreferences =
- saux->xhv_backreferences
- ? MUTABLE_AV(SvREFCNT_inc(
- sv_dup_inc((const SV *)saux->xhv_backreferences, param)))
+ (param->flags & CLONEf_JOIN_IN)
+ /* when joining, we let the individual GVs and
+ * CVs add themselves to backref as
+ * needed. This avoids pulling in stuff
+ * that isn't required, and simplifies the
+ * case where stashes aren't cloned back
+ * if they already exist in the parent
+ * thread */
+ ? NULL
+ : saux->xhv_backreferences
+ ? (SvTYPE(saux->xhv_backreferences) == SVt_PVAV)
+ ? MUTABLE_AV(SvREFCNT_inc(
+ sv_dup_inc((const SV *)
+ saux->xhv_backreferences, param)))
+ : MUTABLE_AV(sv_dup((const SV *)
+ saux->xhv_backreferences, param))
: 0;
daux->xhv_mro_meta = saux->xhv_mro_meta
case SVt_PVFM:
/* NOTE: not refcounted */
CvSTASH(dstr) = hv_dup(CvSTASH(dstr), param);
- if(param->flags & CLONEf_JOIN_IN && CvSTASH(dstr)) {
- const HEK * const hvname
- = HvNAME_HEK(CvSTASH(dstr));
- if( hvname
- && CvSTASH(dstr) == gv_stashpvn(
- HEK_KEY(hvname), HEK_LEN(hvname), 0
- )
- )
- Perl_sv_add_backref(
- aTHX_ MUTABLE_SV(CvSTASH(dstr)), dstr
- );
- }
+ if ((param->flags & CLONEf_JOIN_IN) && CvSTASH(dstr))
+ Perl_sv_add_backref(aTHX_ MUTABLE_SV(CvSTASH(dstr)), dstr);
OP_REFCNT_LOCK;
if (!CvISXSUB(dstr))
CvROOT(dstr) = OpREFCNT_inc(CvROOT(dstr));
}
/* don't dup if copying back - CvGV isn't refcounted, so the
* duped GV may never be freed. A bit of a hack! DAPM */
- CvGV(dstr) = (param->flags & CLONEf_JOIN_IN) ?
- NULL : gv_dup(CvGV(dstr), param) ;
+ SvANY(MUTABLE_CV(dstr))->xcv_gv =
+ CvCVGV_RC(dstr)
+ ? gv_dup_inc(CvGV(sstr), param)
+ : (param->flags & CLONEf_JOIN_IN)
+ ? NULL
+ : gv_dup(CvGV(sstr), param);
+
CvPADLIST(dstr) = padlist_dup(CvPADLIST(sstr), param);
CvOUTSIDE(dstr) =
CvWEAKOUTSIDE(sstr)
case CXt_LOOP_LAZYIV:
case CXt_LOOP_PLAIN:
if (CxPADLOOP(ncx)) {
- ncx->blk_loop.oldcomppad
+ ncx->blk_loop.itervar_u.oldcomppad
= (PAD*)ptr_table_fetch(PL_ptr_table,
- ncx->blk_loop.oldcomppad);
+ ncx->blk_loop.itervar_u.oldcomppad);
} else {
- ncx->blk_loop.oldcomppad
- = (PAD*)gv_dup((const GV *)ncx->blk_loop.oldcomppad,
- param);
+ ncx->blk_loop.itervar_u.gv
+ = gv_dup((const GV *)ncx->blk_loop.itervar_u.gv,
+ param);
}
break;
case CXt_FORMAT:
TOPPTR(nss,ix) = sv_dup_inc(sv, param);
/* fall through */
case SAVEt_ITEM: /* normal string */
+ case SAVEt_GVSV: /* scalar slot in GV */
case SAVEt_SV: /* scalar reference */
sv = (const SV *)POPPTR(ss,ix);
TOPPTR(nss,ix) = sv_dup_inc(sv, param);
PL_parser = NULL;
Zero(&PL_debug_pad, 1, struct perl_debug_pad);
# ifdef DEBUG_LEAKING_SCALARS
- PL_sv_serial = (((U32)my_perl >> 2) & 0xfff) * 1000000;
+ PL_sv_serial = (((UV)my_perl >> 2) & 0xfff) * 1000000;
# endif
#else /* !DEBUGGING */
Zero(my_perl, 1, PerlInterpreter);
PL_body_arenas = NULL;
Zero(&PL_body_roots, 1, PL_body_roots);
- PL_nice_chunk = NULL;
- PL_nice_chunk_size = 0;
PL_sv_count = 0;
PL_sv_objcount = 0;
PL_sv_root = NULL;
/* switches */
PL_minus_c = proto_perl->Iminus_c;
PL_patchlevel = sv_dup_inc(proto_perl->Ipatchlevel, param);
+ PL_apiversion = sv_dup_inc(proto_perl->Iapiversion, param);
PL_localpatches = proto_perl->Ilocalpatches;
PL_splitstr = proto_perl->Isplitstr;
PL_minus_n = proto_perl->Iminus_n;
PL_regex_pad = AvARRAY(PL_regex_padav);
/* shortcuts to various I/O objects */
- PL_ofsgv = gv_dup(proto_perl->Iofsgv, param);
+ PL_ofsgv = gv_dup_inc(proto_perl->Iofsgv, param);
PL_stdingv = gv_dup(proto_perl->Istdingv, param);
PL_stderrgv = gv_dup(proto_perl->Istderrgv, param);
PL_defgv = gv_dup(proto_perl->Idefgv, param);
/* Pluggable optimizer */
PL_peepp = proto_perl->Ipeepp;
+ PL_rpeepp = proto_perl->Irpeepp;
/* op_free() hook */
PL_opfreehook = proto_perl->Iopfreehook;
void
Perl_clone_params_del(CLONE_PARAMS *param)
{
- PerlInterpreter *const was = PERL_GET_THX;
+ /* This seemingly funky ordering keeps the build with PERL_GLOBAL_STRUCT
+ happy: */
PerlInterpreter *const to = param->new_perl;
dTHXa(to);
+ PerlInterpreter *const was = PERL_GET_THX;
PERL_ARGS_ASSERT_CLONE_PARAMS_DEL;
CLONE_PARAMS *
Perl_clone_params_new(PerlInterpreter *const from, PerlInterpreter *const to)
{
+ dVAR;
/* Need to play this game, as newAV() can call safesysmalloc(), and that
does a dTHX; to get the context from thread local storage.
FIXME - under PERL_CORE Newx(), Safefree() and friends should expand to
https://perl5.git.perl.org / perl5.git / blobdiff