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sv.c
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sv.c
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/* sv.c
*
* Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
* 2000, 2001, 2002, 2003, 2004, by Larry Wall and others
*
* You may distribute under the terms of either the GNU General Public
* License or the Artistic License, as specified in the README file.
*
* "I wonder what the Entish is for 'yes' and 'no'," he thought.
*
*
* This file contains the code that creates, manipulates and destroys
* scalar values (SVs). The other types (AV, HV, GV, etc.) reuse the
* structure of an SV, so their creation and destruction is handled
* here; higher-level functions are in av.c, hv.c, and so on. Opcode
* level functions (eg. substr, split, join) for each of the types are
* in the pp*.c files.
*/
#include "EXTERN.h"
#define PERL_IN_SV_C
#include "perl.h"
#include "regcomp.h"
#define FCALL *f
#ifdef __Lynx__
/* Missing proto on LynxOS */
char *gconvert(double, int, int, char *);
#endif
#ifdef PERL_UTF8_CACHE_ASSERT
/* The cache element 0 is the Unicode offset;
* the cache element 1 is the byte offset of the element 0;
* the cache element 2 is the Unicode length of the substring;
* the cache element 3 is the byte length of the substring;
* The checking of the substring side would be good
* but substr() has enough code paths to make my head spin;
* if adding more checks watch out for the following tests:
* t/op/index.t t/op/length.t t/op/pat.t t/op/substr.t
* lib/utf8.t lib/Unicode/Collate/t/index.t
* --jhi
*/
#define ASSERT_UTF8_CACHE(cache) \
STMT_START { if (cache) { assert((cache)[0] <= (cache)[1]); } } STMT_END
#else
#define ASSERT_UTF8_CACHE(cache) NOOP
#endif
/* ============================================================================
=head1 Allocation and deallocation of SVs.
An SV (or AV, HV, etc.) is allocated in two parts: the head (struct sv,
av, hv...) contains type and reference count information, as well as a
pointer to the body (struct xrv, xpv, xpviv...), which contains fields
specific to each type.
Normally, this allocation is done using arenas, which are approximately
1K chunks of memory parcelled up into N heads or bodies. The first slot
in each arena is reserved, and is used to hold a link to the next arena.
In the case of heads, the unused first slot also contains some flags and
a note of the number of slots. Snaked through each arena chain is a
linked list of free items; when this becomes empty, an extra arena is
allocated and divided up into N items which are threaded into the free
list.
The following global variables are associated with arenas:
PL_sv_arenaroot pointer to list of SV arenas
PL_sv_root pointer to list of free SV structures
PL_foo_arenaroot pointer to list of foo arenas,
PL_foo_root pointer to list of free foo bodies
... for foo in xiv, xnv, xrv, xpv etc.
Note that some of the larger and more rarely used body types (eg xpvio)
are not allocated using arenas, but are instead just malloc()/free()ed as
required. Also, if PURIFY is defined, arenas are abandoned altogether,
with all items individually malloc()ed. In addition, a few SV heads are
not allocated from an arena, but are instead directly created as static
or auto variables, eg PL_sv_undef.
The SV arena serves the secondary purpose of allowing still-live SVs
to be located and destroyed during final cleanup.
At the lowest level, the macros new_SV() and del_SV() grab and free
an SV head. (If debugging with -DD, del_SV() calls the function S_del_sv()
to return the SV to the free list with error checking.) new_SV() calls
more_sv() / sv_add_arena() to add an extra arena if the free list is empty.
SVs in the free list have their SvTYPE field set to all ones.
Similarly, there are macros new_XIV()/del_XIV(), new_XNV()/del_XNV() etc
that allocate and return individual body types. Normally these are mapped
to the arena-manipulating functions new_xiv()/del_xiv() etc, but may be
instead mapped directly to malloc()/free() if PURIFY is defined. The
new/del functions remove from, or add to, the appropriate PL_foo_root
list, and call more_xiv() etc to add a new arena if the list is empty.
At the time of very final cleanup, sv_free_arenas() is called from
perl_destruct() to physically free all the arenas allocated since the
start of the interpreter. Note that this also clears PL_he_arenaroot,
which is otherwise dealt with in hv.c.
Manipulation of any of the PL_*root pointers is protected by enclosing
LOCK_SV_MUTEX; ... UNLOCK_SV_MUTEX calls which should Do the Right Thing
if threads are enabled.
The function visit() scans the SV arenas list, and calls a specified
function for each SV it finds which is still live - ie which has an SvTYPE
other than all 1's, and a non-zero SvREFCNT. visit() is used by the
following functions (specified as [function that calls visit()] / [function
called by visit() for each SV]):
sv_report_used() / do_report_used()
dump all remaining SVs (debugging aid)
sv_clean_objs() / do_clean_objs(),do_clean_named_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
referenced by typeglobs too. Called once from
perl_destruct(), prior to calling sv_clean_all()
below.
sv_clean_all() / do_clean_all()
SvREFCNT_dec(sv) each remaining SV, possibly
triggering an sv_free(). It also sets the
SVf_BREAK flag on the SV to indicate that the
refcnt has been artificially lowered, and thus
stopping sv_free() from giving spurious warnings
about SVs which unexpectedly have a refcnt
of zero. called repeatedly from perl_destruct()
until there are no SVs left.
=head2 Summary
Private API to rest of sv.c
new_SV(), del_SV(),
new_XIV(), del_XIV(),
new_XNV(), del_XNV(),
etc
Public API:
sv_report_used(), sv_clean_objs(), sv_clean_all(), sv_free_arenas()
=cut
============================================================================ */
/*
* "A time to plant, and a time to uproot what was planted..."
*/
#define plant_SV(p) \
STMT_START { \
SvANY(p) = (void *)PL_sv_root; \
SvFLAGS(p) = SVTYPEMASK; \
PL_sv_root = (p); \
--PL_sv_count; \
} STMT_END
/* sv_mutex must be held while calling uproot_SV() */
#define uproot_SV(p) \
STMT_START { \
(p) = PL_sv_root; \
PL_sv_root = (SV*)SvANY(p); \
++PL_sv_count; \
} STMT_END
/* new_SV(): return a new, empty SV head */
#ifdef DEBUG_LEAKING_SCALARS
/* provide a real function for a debugger to play with */
STATIC SV*
S_new_SV(pTHX)
{
SV* sv;
LOCK_SV_MUTEX;
if (PL_sv_root)
uproot_SV(sv);
else
sv = more_sv();
UNLOCK_SV_MUTEX;
SvANY(sv) = 0;
SvREFCNT(sv) = 1;
SvFLAGS(sv) = 0;
return sv;
}
# define new_SV(p) (p)=S_new_SV(aTHX)
#else
# define new_SV(p) \
STMT_START { \
LOCK_SV_MUTEX; \
if (PL_sv_root) \
uproot_SV(p); \
else \
(p) = more_sv(); \
UNLOCK_SV_MUTEX; \
SvANY(p) = 0; \
SvREFCNT(p) = 1; \
SvFLAGS(p) = 0; \
} STMT_END
#endif
/* del_SV(): return an empty SV head to the free list */
#ifdef DEBUGGING
#define del_SV(p) \
STMT_START { \
LOCK_SV_MUTEX; \
if (DEBUG_D_TEST) \
del_sv(p); \
else \
plant_SV(p); \
UNLOCK_SV_MUTEX; \
} STMT_END
STATIC void
S_del_sv(pTHX_ SV *p)
{
if (DEBUG_D_TEST) {
SV* sva;
SV* sv;
SV* svend;
int ok = 0;
for (sva = PL_sv_arenaroot; sva; sva = (SV *) SvANY(sva)) {
sv = sva + 1;
svend = &sva[SvREFCNT(sva)];
if (p >= sv && p < svend)
ok = 1;
}
if (!ok) {
if (ckWARN_d(WARN_INTERNAL))
Perl_warner(aTHX_ packWARN(WARN_INTERNAL),
"Attempt to free non-arena SV: 0x%"UVxf
pTHX__FORMAT, PTR2UV(p) pTHX__VALUE);
return;
}
}
plant_SV(p);
}
#else /* ! DEBUGGING */
#define del_SV(p) plant_SV(p)
#endif /* DEBUGGING */
/*
=head1 SV Manipulation Functions
=for apidoc sv_add_arena
Given a chunk of memory, link it to the head of the list of arenas,
and split it into a list of free SVs.
=cut
*/
void
Perl_sv_add_arena(pTHX_ char *ptr, U32 size, U32 flags)
{
SV* sva = (SV*)ptr;
register SV* sv;
register SV* svend;
/* The first SV in an arena isn't an SV. */
SvANY(sva) = (void *) PL_sv_arenaroot; /* ptr to next arena */
SvREFCNT(sva) = size / sizeof(SV); /* number of SV slots */
SvFLAGS(sva) = flags; /* FAKE if not to be freed */
PL_sv_arenaroot = sva;
PL_sv_root = sva + 1;
svend = &sva[SvREFCNT(sva) - 1];
sv = sva + 1;
while (sv < svend) {
SvANY(sv) = (void *)(SV*)(sv + 1);
SvREFCNT(sv) = 0;
SvFLAGS(sv) = SVTYPEMASK;
sv++;
}
SvANY(sv) = 0;
SvFLAGS(sv) = SVTYPEMASK;
}
/* make some more SVs by adding another arena */
/* sv_mutex must be held while calling more_sv() */
STATIC SV*
S_more_sv(pTHX)
{
register SV* sv;
if (PL_nice_chunk) {
sv_add_arena(PL_nice_chunk, PL_nice_chunk_size, 0);
PL_nice_chunk = Nullch;
PL_nice_chunk_size = 0;
}
else {
char *chunk; /* must use New here to match call to */
New(704,chunk,1008,char); /* Safefree() in sv_free_arenas() */
sv_add_arena(chunk, 1008, 0);
}
uproot_SV(sv);
return sv;
}
/* visit(): call the named function for each non-free SV in the arenas
* whose flags field matches the flags/mask args. */
STATIC I32
S_visit(pTHX_ SVFUNC_t f, U32 flags, U32 mask)
{
SV* sva;
SV* sv;
register SV* svend;
I32 visited = 0;
for (sva = PL_sv_arenaroot; sva; sva = (SV*)SvANY(sva)) {
svend = &sva[SvREFCNT(sva)];
for (sv = sva + 1; sv < svend; ++sv) {
if (SvTYPE(sv) != SVTYPEMASK
&& (sv->sv_flags & mask) == flags
&& SvREFCNT(sv))
{
(FCALL)(aTHX_ sv);
++visited;
}
}
}
return visited;
}
#ifdef DEBUGGING
/* called by sv_report_used() for each live SV */
static void
do_report_used(pTHX_ SV *sv)
{
if (SvTYPE(sv) != SVTYPEMASK) {
PerlIO_printf(Perl_debug_log, "****\n");
sv_dump(sv);
}
}
#endif
/*
=for apidoc sv_report_used
Dump the contents of all SVs not yet freed. (Debugging aid).
=cut
*/
void
Perl_sv_report_used(pTHX)
{
#ifdef DEBUGGING
visit(do_report_used, 0, 0);
#endif
}
/* called by sv_clean_objs() for each live SV */
static void
do_clean_objs(pTHX_ SV *sv)
{
SV* rv;
if (SvROK(sv) && SvOBJECT(rv = SvRV(sv))) {
DEBUG_D((PerlIO_printf(Perl_debug_log, "Cleaning object ref:\n "), sv_dump(sv)));
if (SvWEAKREF(sv)) {
sv_del_backref(sv);
SvWEAKREF_off(sv);
SvRV(sv) = 0;
} else {
SvROK_off(sv);
SvRV(sv) = 0;
SvREFCNT_dec(rv);
}
}
/* XXX Might want to check arrays, etc. */
}
/* called by sv_clean_objs() for each live SV */
#ifndef DISABLE_DESTRUCTOR_KLUDGE
static void
do_clean_named_objs(pTHX_ SV *sv)
{
if (SvTYPE(sv) == SVt_PVGV && GvGP(sv)) {
if ( SvOBJECT(GvSV(sv)) ||
(GvAV(sv) && SvOBJECT(GvAV(sv))) ||
(GvHV(sv) && SvOBJECT(GvHV(sv))) ||
(GvIO(sv) && SvOBJECT(GvIO(sv))) ||
(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);
}
}
}
#endif
/*
=for apidoc sv_clean_objs
Attempt to destroy all objects not yet freed
=cut
*/
void
Perl_sv_clean_objs(pTHX)
{
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 */
visit(do_clean_named_objs, SVt_PVGV, SVTYPEMASK);
#endif
PL_in_clean_objs = FALSE;
}
/* called by sv_clean_all() for each live SV */
static void
do_clean_all(pTHX_ SV *sv)
{
DEBUG_D((PerlIO_printf(Perl_debug_log, "Cleaning loops: SV at 0x%"UVxf"\n", PTR2UV(sv)) ));
SvFLAGS(sv) |= SVf_BREAK;
SvREFCNT_dec(sv);
}
/*
=for apidoc sv_clean_all
Decrement the refcnt of each remaining SV, possibly triggering a
cleanup. This function may have to be called multiple times to free
SVs which are in complex self-referential hierarchies.
=cut
*/
I32
Perl_sv_clean_all(pTHX)
{
I32 cleaned;
PL_in_clean_all = TRUE;
cleaned = visit(do_clean_all, 0,0);
PL_in_clean_all = FALSE;
return cleaned;
}
/*
=for apidoc sv_free_arenas
Deallocate the memory used by all arenas. Note that all the individual SV
heads and bodies within the arenas must already have been freed.
=cut
*/
void
Perl_sv_free_arenas(pTHX)
{
SV* sva;
SV* svanext;
XPV *arena, *arenanext;
/* Free arenas here, but be careful about fake ones. (We assume
contiguity of the fake ones with the corresponding real ones.) */
for (sva = PL_sv_arenaroot; sva; sva = svanext) {
svanext = (SV*) SvANY(sva);
while (svanext && SvFAKE(svanext))
svanext = (SV*) SvANY(svanext);
if (!SvFAKE(sva))
Safefree((void *)sva);
}
for (arena = PL_xiv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xiv_arenaroot = 0;
PL_xiv_root = 0;
for (arena = PL_xnv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xnv_arenaroot = 0;
PL_xnv_root = 0;
for (arena = PL_xrv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xrv_arenaroot = 0;
PL_xrv_root = 0;
for (arena = PL_xpv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpv_arenaroot = 0;
PL_xpv_root = 0;
for (arena = (XPV*)PL_xpviv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpviv_arenaroot = 0;
PL_xpviv_root = 0;
for (arena = (XPV*)PL_xpvnv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvnv_arenaroot = 0;
PL_xpvnv_root = 0;
for (arena = (XPV*)PL_xpvcv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvcv_arenaroot = 0;
PL_xpvcv_root = 0;
for (arena = (XPV*)PL_xpvav_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvav_arenaroot = 0;
PL_xpvav_root = 0;
for (arena = (XPV*)PL_xpvhv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvhv_arenaroot = 0;
PL_xpvhv_root = 0;
for (arena = (XPV*)PL_xpvmg_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvmg_arenaroot = 0;
PL_xpvmg_root = 0;
for (arena = (XPV*)PL_xpvlv_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvlv_arenaroot = 0;
PL_xpvlv_root = 0;
for (arena = (XPV*)PL_xpvbm_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_xpvbm_arenaroot = 0;
PL_xpvbm_root = 0;
for (arena = (XPV*)PL_he_arenaroot; arena; arena = arenanext) {
arenanext = (XPV*)arena->xpv_pv;
Safefree(arena);
}
PL_he_arenaroot = 0;
PL_he_root = 0;
if (PL_nice_chunk)
Safefree(PL_nice_chunk);
PL_nice_chunk = Nullch;
PL_nice_chunk_size = 0;
PL_sv_arenaroot = 0;
PL_sv_root = 0;
}
/*
=for apidoc report_uninit
Print appropriate "Use of uninitialized variable" warning
=cut
*/
void
Perl_report_uninit(pTHX)
{
if (PL_op)
Perl_warner(aTHX_ packWARN(WARN_UNINITIALIZED), PL_warn_uninit,
" in ", OP_DESC(PL_op));
else
Perl_warner(aTHX_ packWARN(WARN_UNINITIALIZED), PL_warn_uninit, "", "");
}
/* grab a new IV body from the free list, allocating more if necessary */
STATIC XPVIV*
S_new_xiv(pTHX)
{
IV* xiv;
LOCK_SV_MUTEX;
if (!PL_xiv_root)
more_xiv();
xiv = PL_xiv_root;
/*
* See comment in more_xiv() -- RAM.
*/
PL_xiv_root = *(IV**)xiv;
UNLOCK_SV_MUTEX;
return (XPVIV*)((char*)xiv - STRUCT_OFFSET(XPVIV, xiv_iv));
}
/* return an IV body to the free list */
STATIC void
S_del_xiv(pTHX_ XPVIV *p)
{
IV* xiv = (IV*)((char*)(p) + STRUCT_OFFSET(XPVIV, xiv_iv));
LOCK_SV_MUTEX;
*(IV**)xiv = PL_xiv_root;
PL_xiv_root = xiv;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of IV bodies */
STATIC void
S_more_xiv(pTHX)
{
register IV* xiv;
register IV* xivend;
XPV* ptr;
New(705, ptr, 1008/sizeof(XPV), XPV);
ptr->xpv_pv = (char*)PL_xiv_arenaroot; /* linked list of xiv arenas */
PL_xiv_arenaroot = ptr; /* to keep Purify happy */
xiv = (IV*) ptr;
xivend = &xiv[1008 / sizeof(IV) - 1];
xiv += (sizeof(XPV) - 1) / sizeof(IV) + 1; /* fudge by size of XPV */
PL_xiv_root = xiv;
while (xiv < xivend) {
*(IV**)xiv = (IV *)(xiv + 1);
xiv++;
}
*(IV**)xiv = 0;
}
/* grab a new NV body from the free list, allocating more if necessary */
STATIC XPVNV*
S_new_xnv(pTHX)
{
NV* xnv;
LOCK_SV_MUTEX;
if (!PL_xnv_root)
more_xnv();
xnv = PL_xnv_root;
PL_xnv_root = *(NV**)xnv;
UNLOCK_SV_MUTEX;
return (XPVNV*)((char*)xnv - STRUCT_OFFSET(XPVNV, xnv_nv));
}
/* return an NV body to the free list */
STATIC void
S_del_xnv(pTHX_ XPVNV *p)
{
NV* xnv = (NV*)((char*)(p) + STRUCT_OFFSET(XPVNV, xnv_nv));
LOCK_SV_MUTEX;
*(NV**)xnv = PL_xnv_root;
PL_xnv_root = xnv;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of NV bodies */
STATIC void
S_more_xnv(pTHX)
{
register NV* xnv;
register NV* xnvend;
XPV *ptr;
New(711, ptr, 1008/sizeof(XPV), XPV);
ptr->xpv_pv = (char*)PL_xnv_arenaroot;
PL_xnv_arenaroot = ptr;
xnv = (NV*) ptr;
xnvend = &xnv[1008 / sizeof(NV) - 1];
xnv += (sizeof(XPVIV) - 1) / sizeof(NV) + 1; /* fudge by sizeof XPVIV */
PL_xnv_root = xnv;
while (xnv < xnvend) {
*(NV**)xnv = (NV*)(xnv + 1);
xnv++;
}
*(NV**)xnv = 0;
}
/* grab a new struct xrv from the free list, allocating more if necessary */
STATIC XRV*
S_new_xrv(pTHX)
{
XRV* xrv;
LOCK_SV_MUTEX;
if (!PL_xrv_root)
more_xrv();
xrv = PL_xrv_root;
PL_xrv_root = (XRV*)xrv->xrv_rv;
UNLOCK_SV_MUTEX;
return xrv;
}
/* return a struct xrv to the free list */
STATIC void
S_del_xrv(pTHX_ XRV *p)
{
LOCK_SV_MUTEX;
p->xrv_rv = (SV*)PL_xrv_root;
PL_xrv_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xrv */
STATIC void
S_more_xrv(pTHX)
{
register XRV* xrv;
register XRV* xrvend;
XPV *ptr;
New(712, ptr, 1008/sizeof(XPV), XPV);
ptr->xpv_pv = (char*)PL_xrv_arenaroot;
PL_xrv_arenaroot = ptr;
xrv = (XRV*) ptr;
xrvend = &xrv[1008 / sizeof(XRV) - 1];
xrv += (sizeof(XPV) - 1) / sizeof(XRV) + 1;
PL_xrv_root = xrv;
while (xrv < xrvend) {
xrv->xrv_rv = (SV*)(xrv + 1);
xrv++;
}
xrv->xrv_rv = 0;
}
/* grab a new struct xpv from the free list, allocating more if necessary */
STATIC XPV*
S_new_xpv(pTHX)
{
XPV* xpv;
LOCK_SV_MUTEX;
if (!PL_xpv_root)
more_xpv();
xpv = PL_xpv_root;
PL_xpv_root = (XPV*)xpv->xpv_pv;
UNLOCK_SV_MUTEX;
return xpv;
}
/* return a struct xpv to the free list */
STATIC void
S_del_xpv(pTHX_ XPV *p)
{
LOCK_SV_MUTEX;
p->xpv_pv = (char*)PL_xpv_root;
PL_xpv_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xpv */
STATIC void
S_more_xpv(pTHX)
{
register XPV* xpv;
register XPV* xpvend;
New(713, xpv, 1008/sizeof(XPV), XPV);
xpv->xpv_pv = (char*)PL_xpv_arenaroot;
PL_xpv_arenaroot = xpv;
xpvend = &xpv[1008 / sizeof(XPV) - 1];
PL_xpv_root = ++xpv;
while (xpv < xpvend) {
xpv->xpv_pv = (char*)(xpv + 1);
xpv++;
}
xpv->xpv_pv = 0;
}
/* grab a new struct xpviv from the free list, allocating more if necessary */
STATIC XPVIV*
S_new_xpviv(pTHX)
{
XPVIV* xpviv;
LOCK_SV_MUTEX;
if (!PL_xpviv_root)
more_xpviv();
xpviv = PL_xpviv_root;
PL_xpviv_root = (XPVIV*)xpviv->xpv_pv;
UNLOCK_SV_MUTEX;
return xpviv;
}
/* return a struct xpviv to the free list */
STATIC void
S_del_xpviv(pTHX_ XPVIV *p)
{
LOCK_SV_MUTEX;
p->xpv_pv = (char*)PL_xpviv_root;
PL_xpviv_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xpviv */
STATIC void
S_more_xpviv(pTHX)
{
register XPVIV* xpviv;
register XPVIV* xpvivend;
New(714, xpviv, 1008/sizeof(XPVIV), XPVIV);
xpviv->xpv_pv = (char*)PL_xpviv_arenaroot;
PL_xpviv_arenaroot = xpviv;
xpvivend = &xpviv[1008 / sizeof(XPVIV) - 1];
PL_xpviv_root = ++xpviv;
while (xpviv < xpvivend) {
xpviv->xpv_pv = (char*)(xpviv + 1);
xpviv++;
}
xpviv->xpv_pv = 0;
}
/* grab a new struct xpvnv from the free list, allocating more if necessary */
STATIC XPVNV*
S_new_xpvnv(pTHX)
{
XPVNV* xpvnv;
LOCK_SV_MUTEX;
if (!PL_xpvnv_root)
more_xpvnv();
xpvnv = PL_xpvnv_root;
PL_xpvnv_root = (XPVNV*)xpvnv->xpv_pv;
UNLOCK_SV_MUTEX;
return xpvnv;
}
/* return a struct xpvnv to the free list */
STATIC void
S_del_xpvnv(pTHX_ XPVNV *p)
{
LOCK_SV_MUTEX;
p->xpv_pv = (char*)PL_xpvnv_root;
PL_xpvnv_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xpvnv */
STATIC void
S_more_xpvnv(pTHX)
{
register XPVNV* xpvnv;
register XPVNV* xpvnvend;
New(715, xpvnv, 1008/sizeof(XPVNV), XPVNV);
xpvnv->xpv_pv = (char*)PL_xpvnv_arenaroot;
PL_xpvnv_arenaroot = xpvnv;
xpvnvend = &xpvnv[1008 / sizeof(XPVNV) - 1];
PL_xpvnv_root = ++xpvnv;
while (xpvnv < xpvnvend) {
xpvnv->xpv_pv = (char*)(xpvnv + 1);
xpvnv++;
}
xpvnv->xpv_pv = 0;
}
/* grab a new struct xpvcv from the free list, allocating more if necessary */
STATIC XPVCV*
S_new_xpvcv(pTHX)
{
XPVCV* xpvcv;
LOCK_SV_MUTEX;
if (!PL_xpvcv_root)
more_xpvcv();
xpvcv = PL_xpvcv_root;
PL_xpvcv_root = (XPVCV*)xpvcv->xpv_pv;
UNLOCK_SV_MUTEX;
return xpvcv;
}
/* return a struct xpvcv to the free list */
STATIC void
S_del_xpvcv(pTHX_ XPVCV *p)
{
LOCK_SV_MUTEX;
p->xpv_pv = (char*)PL_xpvcv_root;
PL_xpvcv_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xpvcv */
STATIC void
S_more_xpvcv(pTHX)
{
register XPVCV* xpvcv;
register XPVCV* xpvcvend;
New(716, xpvcv, 1008/sizeof(XPVCV), XPVCV);
xpvcv->xpv_pv = (char*)PL_xpvcv_arenaroot;
PL_xpvcv_arenaroot = xpvcv;
xpvcvend = &xpvcv[1008 / sizeof(XPVCV) - 1];
PL_xpvcv_root = ++xpvcv;
while (xpvcv < xpvcvend) {
xpvcv->xpv_pv = (char*)(xpvcv + 1);
xpvcv++;
}
xpvcv->xpv_pv = 0;
}
/* grab a new struct xpvav from the free list, allocating more if necessary */
STATIC XPVAV*
S_new_xpvav(pTHX)
{
XPVAV* xpvav;
LOCK_SV_MUTEX;
if (!PL_xpvav_root)
more_xpvav();
xpvav = PL_xpvav_root;
PL_xpvav_root = (XPVAV*)xpvav->xav_array;
UNLOCK_SV_MUTEX;
return xpvav;
}
/* return a struct xpvav to the free list */
STATIC void
S_del_xpvav(pTHX_ XPVAV *p)
{
LOCK_SV_MUTEX;
p->xav_array = (char*)PL_xpvav_root;
PL_xpvav_root = p;
UNLOCK_SV_MUTEX;
}
/* allocate another arena's worth of struct xpvav */
STATIC void
S_more_xpvav(pTHX)
{
register XPVAV* xpvav;
register XPVAV* xpvavend;
New(717, xpvav, 1008/sizeof(XPVAV), XPVAV);
xpvav->xav_array = (char*)PL_xpvav_arenaroot;
PL_xpvav_arenaroot = xpvav;
xpvavend = &xpvav[1008 / sizeof(XPVAV) - 1];
PL_xpvav_root = ++xpvav;
while (xpvav < xpvavend) {
xpvav->xav_array = (char*)(xpvav + 1);
xpvav++;
}
xpvav->xav_array = 0;
}
/* grab a new struct xpvhv from the free list, allocating more if necessary */