+/* -*- mode: C -*- */
+
#define PERL_NO_GET_CONTEXT
#include "EXTERN.h"
#include "XSUB.h"
#include "ppport.h"
+#ifndef PERL_COMBI_VERSION
+#define PERL_COMBI_VERSION (PERL_REVISION * 1000000 + PERL_VERSION * 1000 + \
+ PERL_SUBVERSION)
+#endif
+
/* Not yet in ppport.h */
#ifndef CvISXSUB
# define CvISXSUB(cv) (CvXSUB(cv) ? TRUE : FALSE)
#ifndef SvRV_const
# define SvRV_const(rv) SvRV(rv)
#endif
+#ifndef SvOOK_offset
+# define SvOOK_offset(sv, len) STMT_START { len = SvIVX(sv); } STMT_END
+#endif
+#ifndef SvIsCOW
+# define SvIsCOW(sv) ((SvFLAGS(sv) & (SVf_FAKE | SVf_READONLY)) == \
+ (SVf_FAKE | SVf_READONLY))
+#endif
+#ifndef SvIsCOW_shared_hash
+# define SvIsCOW_shared_hash(sv) (SvIsCOW(sv) && SvLEN(sv) == 0)
+#endif
+#ifndef SvSHARED_HEK_FROM_PV
+# define SvSHARED_HEK_FROM_PV(pvx) \
+ ((struct hek*)(pvx - STRUCT_OFFSET(struct hek, hek_key)))
+#endif
+
+#if PERL_VERSION < 6
+# define PL_opargs opargs
+# define PL_op_name op_name
+#endif
#ifdef _MSC_VER
/* "structured exception" handling is a Microsoft extension to C and C++.
functionality on other platforms. */
# include <excpt.h>
# define TRY_TO_CATCH_SEGV __try
-# define CAUGHT_EXCEPTION __except(EXCEPTION EXCEPTION_EXECUTE_HANDLER)
+# define CAUGHT_EXCEPTION __except(EXCEPTION_EXECUTE_HANDLER)
#else
# define TRY_TO_CATCH_SEGV if(1)
# define CAUGHT_EXCEPTION else
without excessive memory needs. The assumption is that your CPU cache
works :-) (And that we're not going to bust it) */
-#define ALIGN_BITS ( sizeof(void*) >> 1 )
#define BYTE_BITS 3
#define LEAF_BITS (16 - BYTE_BITS)
#define LEAF_MASK 0x1FFF
(and hence hot in the cache) but we can still deal with any unaligned
pointers. */
const size_t cooked_p
- = (raw_p >> ALIGN_BITS) | (raw_p << (bits - BYTE_BITS));
+ = (raw_p >> ALIGN_BITS) | (raw_p << (bits - ALIGN_BITS));
const U8 this_bit = 1 << (cooked_p & 0x7);
U8 **leaf_p;
U8 *leaf;
/* Nodes */
do {
if (tv[i]) {
- free_tracking_at(tv[i], level);
+ free_tracking_at((void **) tv[i], level);
Safefree(tv[i]);
}
} while (i--);
Safefree(st);
}
-static bool sv_size(pTHX_ struct state *, const SV *const, bool recurse);
+/* For now, this is somewhat a compatibility bodge until the plan comes
+ together for fine grained recursion control. total_size() would recurse into
+ hash and array members, whereas sv_size() would not. However, sv_size() is
+ called with CvSTASH() of a CV, which means that if it (also) starts to
+ recurse fully, then the size of any CV now becomes the size of the entire
+ symbol table reachable from it, and potentially the entire symbol table, if
+ any subroutine makes a reference to a global (such as %SIG). The historical
+ implementation of total_size() didn't report "everything", and changing the
+ only available size to "everything" doesn't feel at all useful. */
+
+#define NO_RECURSION 0
+#define SOME_RECURSION 1
+#define TOTAL_SIZE_RECURSION 2
+
+static void sv_size(pTHX_ struct state *, const SV *const, const int recurse);
typedef enum {
OPc_NULL, /* 0 */
OPc_PVOP, /* 9 */
OPc_LOOP, /* 10 */
OPc_COP /* 11 */
+#ifdef OA_CONDOP
+ , OPc_CONDOP /* 12 */
+#endif
+#ifdef OA_GVOP
+ , OPc_GVOP /* 13 */
+#endif
+#ifdef OA_METHOP
+ , OPc_METHOP
+#endif
+#ifdef OA_UNOP_AUX
+ , OPc_UNAUXOP
+#endif
+
} opclass;
static opclass
case OA_SVOP: TAG;
return OPc_SVOP;
+#ifdef OA_PADOP
case OA_PADOP: TAG;
return OPc_PADOP;
+#endif
+
+#ifdef OA_GVOP
+ case OA_GVOP: TAG;
+ return OPc_GVOP;
+#endif
+#ifdef OA_PVOP_OR_SVOP
case OA_PVOP_OR_SVOP: TAG;
/*
* Character translations (tr///) are usually a PVOP, keeping a
*/
return (o->op_private & (OPpTRANS_TO_UTF|OPpTRANS_FROM_UTF))
? OPc_SVOP : OPc_PVOP;
+#endif
case OA_LOOP: TAG;
return OPc_LOOP;
return OPc_BASEOP;
else
return OPc_PVOP;
+
+#ifdef OA_CONDOP
+ case OA_CONDOP: TAG;
+ return OPc_CONDOP;
+#endif
+
+#ifdef OA_METHOP
+ case OA_METHOP: TAG;
+ return OPc_METHOP;
+#endif
+#ifdef OA_UNOP_AUX
+ case OA_UNOP_AUX: TAG;
+ return OPc_UNAUXOP;
+#endif
}
warn("Devel::Size: Can't determine class of operator %s, assuming BASEOP\n",
PL_op_name[o->op_type]);
return OPc_BASEOP;
}
-
-#if !defined(NV)
-#define NV double
-#endif
-
/* Figure out how much magic is attached to the SV and return the
size */
static void
-magic_size(const SV * const thing, struct state *st) {
- MAGIC *magic_pointer;
-
- /* Is there any? */
- if (!SvMAGIC(thing)) {
- /* No, bail */
- return;
- }
-
- /* Get the base magic pointer */
- magic_pointer = SvMAGIC(thing);
+magic_size(pTHX_ const SV * const thing, struct state *st) {
+ MAGIC *magic_pointer = SvMAGIC(thing);
- /* Have we seen the magic pointer? */
+ /* Have we seen the magic pointer? (NULL has always been seen before) */
while (check_new(st, magic_pointer)) {
st->total_size += sizeof(MAGIC);
+ /* magic vtables aren't freed when magic is freed, so don't count them.
+ (They are static structures. Anything that assumes otherwise is buggy.)
+ */
+
TRY_TO_CATCH_SEGV {
- /* Have we seen the magic vtable? */
- if (check_new(st, magic_pointer->mg_virtual)) {
- st->total_size += sizeof(MGVTBL);
- }
+ sv_size(aTHX_ st, magic_pointer->mg_obj, TOTAL_SIZE_RECURSION);
+ if (magic_pointer->mg_len == HEf_SVKEY) {
+ sv_size(aTHX_ st, (SV *)magic_pointer->mg_ptr, TOTAL_SIZE_RECURSION);
+ }
+#if defined(PERL_MAGIC_utf8) && defined (PERL_MAGIC_UTF8_CACHESIZE)
+ else if (magic_pointer->mg_type == PERL_MAGIC_utf8) {
+ if (check_new(st, magic_pointer->mg_ptr)) {
+ st->total_size += PERL_MAGIC_UTF8_CACHESIZE * 2 * sizeof(STRLEN);
+ }
+ }
+#endif
+ else if (magic_pointer->mg_len > 0) {
+ if (check_new(st, magic_pointer->mg_ptr)) {
+ st->total_size += magic_pointer->mg_len;
+ }
+ }
/* Get the next in the chain */
magic_pointer = magic_pointer->mg_moremagic;
TAG;break;
case OPc_UNOP: TAG;
st->total_size += sizeof(struct unop);
- op_size(aTHX_ cUNOPx(baseop)->op_first, st);
+ op_size(aTHX_ ((UNOP *)baseop)->op_first, st);
TAG;break;
case OPc_BINOP: TAG;
st->total_size += sizeof(struct binop);
- op_size(aTHX_ cBINOPx(baseop)->op_first, st);
- op_size(aTHX_ cBINOPx(baseop)->op_last, st);
+ op_size(aTHX_ ((BINOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((BINOP *)baseop)->op_last, st);
TAG;break;
case OPc_LOGOP: TAG;
st->total_size += sizeof(struct logop);
- op_size(aTHX_ cBINOPx(baseop)->op_first, st);
- op_size(aTHX_ cLOGOPx(baseop)->op_other, st);
+ op_size(aTHX_ ((BINOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((LOGOP *)baseop)->op_other, st);
+ TAG;break;
+#ifdef OA_CONDOP
+ case OPc_CONDOP: TAG;
+ st->total_size += sizeof(struct condop);
+ op_size(aTHX_ ((BINOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((CONDOP *)baseop)->op_true, st);
+ op_size(aTHX_ ((CONDOP *)baseop)->op_false, st);
TAG;break;
+#endif
case OPc_LISTOP: TAG;
st->total_size += sizeof(struct listop);
- op_size(aTHX_ cLISTOPx(baseop)->op_first, st);
- op_size(aTHX_ cLISTOPx(baseop)->op_last, st);
+ op_size(aTHX_ ((LISTOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((LISTOP *)baseop)->op_last, st);
TAG;break;
case OPc_PMOP: TAG;
st->total_size += sizeof(struct pmop);
- op_size(aTHX_ cPMOPx(baseop)->op_first, st);
- op_size(aTHX_ cPMOPx(baseop)->op_last, st);
+ op_size(aTHX_ ((PMOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((PMOP *)baseop)->op_last, st);
#if PERL_VERSION < 9 || (PERL_VERSION == 9 && PERL_SUBVERSION < 5)
- op_size(aTHX_ cPMOPx(baseop)->op_pmreplroot, st);
- op_size(aTHX_ cPMOPx(baseop)->op_pmreplstart, st);
- op_size(aTHX_ (OP *)cPMOPx(baseop)->op_pmnext, st);
+ op_size(aTHX_ ((PMOP *)baseop)->op_pmreplroot, st);
+ op_size(aTHX_ ((PMOP *)baseop)->op_pmreplstart, st);
#endif
/* This is defined away in perl 5.8.x, but it is in there for
5.6.x */
#ifdef PM_GETRE
- regex_size(PM_GETRE(cPMOPx(baseop)), st);
+ regex_size(PM_GETRE((PMOP *)baseop), st);
#else
- regex_size(cPMOPx(baseop)->op_pmregexp, st);
+ regex_size(((PMOP *)baseop)->op_pmregexp, st);
#endif
TAG;break;
case OPc_SVOP: TAG;
if (!(baseop->op_type == OP_AELEMFAST
&& baseop->op_flags & OPf_SPECIAL)) {
/* not an OP_PADAV replacement */
- sv_size(aTHX_ st, cSVOPx(baseop)->op_sv, TRUE);
+ sv_size(aTHX_ st, ((SVOP *)baseop)->op_sv, SOME_RECURSION);
}
TAG;break;
+#ifdef OA_PADOP
case OPc_PADOP: TAG;
st->total_size += sizeof(struct padop);
TAG;break;
+#endif
+#ifdef OA_GVOP
+ case OPc_GVOP: TAG;
+ st->total_size += sizeof(struct gvop);
+ sv_size(aTHX_ st, ((GVOP *)baseop)->op_gv, SOME_RECURSION);
+ TAG;break;
+#endif
case OPc_PVOP: TAG;
- check_new_and_strlen(st, cPVOPx(baseop)->op_pv);
+ check_new_and_strlen(st, ((PVOP *)baseop)->op_pv);
TAG;break;
case OPc_LOOP: TAG;
st->total_size += sizeof(struct loop);
- op_size(aTHX_ cLOOPx(baseop)->op_first, st);
- op_size(aTHX_ cLOOPx(baseop)->op_last, st);
- op_size(aTHX_ cLOOPx(baseop)->op_redoop, st);
- op_size(aTHX_ cLOOPx(baseop)->op_nextop, st);
- op_size(aTHX_ cLOOPx(baseop)->op_lastop, st);
+ op_size(aTHX_ ((LOOP *)baseop)->op_first, st);
+ op_size(aTHX_ ((LOOP *)baseop)->op_last, st);
+ op_size(aTHX_ ((LOOP *)baseop)->op_redoop, st);
+ op_size(aTHX_ ((LOOP *)baseop)->op_nextop, st);
+ op_size(aTHX_ ((LOOP *)baseop)->op_lastop, st);
TAG;break;
case OPc_COP: TAG;
{
#endif
#ifdef USE_ITHREADS
check_new_and_strlen(st, basecop->cop_file);
+#if PERL_VERSION < 17 || (PERL_VERSION == 17 && PERL_SUBVERSION == 0)
+ /* This pointer is owned by the COP, and freed with it. */
check_new_and_strlen(st, basecop->cop_stashpv);
#else
- sv_size(aTHX_ st, (SV *)basecop->cop_stash, TRUE);
- sv_size(aTHX_ st, (SV *)basecop->cop_filegv, TRUE);
+ /* A per-interpreter pointer for this stash is allocated in
+ PL_stashpad. */
+ if (check_new(st, PL_stashpad + basecop->cop_stashoff))
+ st->total_size += sizeof(PL_stashpad[basecop->cop_stashoff]);
+#endif
+#else
+ sv_size(aTHX_ st, (SV *)basecop->cop_filegv, SOME_RECURSION);
#endif
}
TAG;break;
+#ifdef OA_METHOP
+ case OPc_METHOP: TAG;
+ st->total_size += sizeof(struct methop);
+ if (baseop->op_type == OP_METHOD)
+ op_size(aTHX_ ((UNOP *)baseop)->op_first, st);
+ else
+ sv_size(aTHX_ st, cMETHOPx_meth(baseop), SOME_RECURSION);
+#if PERL_VERSION*1000+PERL_SUBVERSION >= 21007
+ if (baseop->op_type == OP_METHOD_REDIR || baseop->op_type == OP_METHOD_REDIR_SUPER) {
+ SV *rclass = cMETHOPx_rclass(baseop);
+ if(SvTYPE(rclass) != SVt_PVHV)
+ sv_size(aTHX_ st, rclass, SOME_RECURSION);
+ }
+#endif
+ TAG;break;
+#endif
+#ifdef OA_UNOP_AUX
+ case OPc_UNAUXOP: TAG;
+ st->total_size += sizeof(struct unop_aux) + sizeof(UNOP_AUX_item) * (cUNOP_AUXx(baseop)->op_aux[-1].uv+1);
+ op_size(aTHX_ ((UNOP *)baseop)->op_first, st);
+ if (baseop->op_type == OP_MULTIDEREF) {
+ UNOP_AUX_item *items = cUNOP_AUXx(baseop)->op_aux;
+ UV actions = items->uv;
+ bool last = 0;
+ bool is_hash = 0;
+ while (!last) {
+ switch (actions & MDEREF_ACTION_MASK) {
+ case MDEREF_reload:
+ actions = (++items)->uv;
+ continue;
+ case MDEREF_HV_padhv_helem:
+ case MDEREF_HV_gvhv_helem:
+ case MDEREF_HV_gvsv_vivify_rv2hv_helem:
+ case MDEREF_HV_padsv_vivify_rv2hv_helem:
+ is_hash = 1;
+ case MDEREF_AV_padav_aelem:
+ case MDEREF_AV_gvav_aelem:
+ case MDEREF_AV_gvsv_vivify_rv2av_aelem:
+ case MDEREF_AV_padsv_vivify_rv2av_aelem:
+ ++items;
+ goto do_elem;
+ case MDEREF_HV_pop_rv2hv_helem:
+ case MDEREF_HV_vivify_rv2hv_helem:
+ is_hash = 1;
+ case MDEREF_AV_pop_rv2av_aelem:
+ case MDEREF_AV_vivify_rv2av_aelem:
+ do_elem:
+ switch (actions & MDEREF_INDEX_MASK) {
+ case MDEREF_INDEX_none:
+ last = 1;
+ break;
+ case MDEREF_INDEX_const:
+ ++items;
+ if (is_hash) {
+#ifdef USE_ITHREADS
+ SV *key = PAD_SVl(items->pad_offset);
+#else
+ SV *key = items->sv;
+#endif
+ sv_size(aTHX_ st, key, SOME_RECURSION);
+ }
+ break;
+ case MDEREF_INDEX_padsv:
+ case MDEREF_INDEX_gvsv:
+ ++items;
+ break;
+ }
+ if (actions & MDEREF_FLAG_last)
+ last = 1;
+ is_hash = 0;
+ break;
+ default:
+ last = 1;
+ break;
+ }
+ actions >>= MDEREF_SHIFT;
+ }
+ }
+ TAG;break;
+#endif
default:
TAG;break;
}
}
}
-#if PERL_VERSION > 9 || (PERL_VERSION == 9 && PERL_SUBVERSION > 2)
-# define NEW_HEAD_LAYOUT
+static void
+hek_size(pTHX_ struct state *st, HEK *hek, U32 shared)
+{
+ /* Hash keys can be shared. Have we seen this before? */
+ if (!check_new(st, hek))
+ return;
+ st->total_size += HEK_BASESIZE + hek->hek_len
+#if PERL_VERSION < 8
+ + 1 /* No hash key flags prior to 5.8.0 */
+#else
+ + 2
#endif
+ ;
+ if (shared) {
+#if PERL_VERSION < 10
+ st->total_size += sizeof(struct he);
+#else
+ st->total_size += STRUCT_OFFSET(struct shared_he, shared_he_hek);
+#endif
+ }
+}
-static bool
-sv_size(pTHX_ struct state *const st, const SV * const orig_thing,
- const bool recurse) {
- const SV *thing = orig_thing;
-
- if(!check_new(st, thing))
- return FALSE;
-
- st->total_size += sizeof(SV);
- switch (SvTYPE(thing)) {
- /* Is it undef? */
- case SVt_NULL: TAG;
- TAG;break;
- /* Just a plain integer. This will be differently sized depending
- on whether purify's been compiled in */
- case SVt_IV: TAG;
-#ifndef NEW_HEAD_LAYOUT
-# ifdef PURIFY
- st->total_size += sizeof(sizeof(XPVIV));
-# else
- st->total_size += sizeof(IV);
-# endif
+#if PERL_VERSION < 8 || PERL_SUBVERSION < 9
+# define SVt_LAST 16
#endif
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- TAG;break;
- /* Is it a float? Like the int, it depends on purify */
- case SVt_NV: TAG;
+
#ifdef PURIFY
- st->total_size += sizeof(sizeof(XPVNV));
+# define MAYBE_PURIFY(normal, pure) (pure)
+# define MAYBE_OFFSET(struct_name, member) 0
#else
- st->total_size += sizeof(NV);
+# define MAYBE_PURIFY(normal, pure) (normal)
+# define MAYBE_OFFSET(struct_name, member) STRUCT_OFFSET(struct_name, member)
#endif
- TAG;break;
-#if (PERL_VERSION < 11)
- /* Is it a reference? */
- case SVt_RV: TAG;
-#ifndef NEW_HEAD_LAYOUT
- st->total_size += sizeof(XRV);
+
+const U8 body_sizes[SVt_LAST] = {
+#if PERL_VERSION < 9
+ 0, /* SVt_NULL */
+ MAYBE_PURIFY(sizeof(IV), sizeof(XPVIV)), /* SVt_IV */
+ MAYBE_PURIFY(sizeof(NV), sizeof(XPVNV)), /* SVt_NV */
+ sizeof(XRV), /* SVt_RV */
+ sizeof(XPV), /* SVt_PV */
+ sizeof(XPVIV), /* SVt_PVIV */
+ sizeof(XPVNV), /* SVt_PVNV */
+ sizeof(XPVMG), /* SVt_PVMG */
+ sizeof(XPVBM), /* SVt_PVBM */
+ sizeof(XPVLV), /* SVt_PVLV */
+ sizeof(XPVAV), /* SVt_PVAV */
+ sizeof(XPVHV), /* SVt_PVHV */
+ sizeof(XPVCV), /* SVt_PVCV */
+ sizeof(XPVGV), /* SVt_PVGV */
+ sizeof(XPVFM), /* SVt_PVFM */
+ sizeof(XPVIO) /* SVt_PVIO */
+#elif PERL_VERSION == 10 && PERL_SUBVERSION == 0
+ 0, /* SVt_NULL */
+ 0, /* SVt_BIND */
+ 0, /* SVt_IV */
+ MAYBE_PURIFY(sizeof(NV), sizeof(XPVNV)), /* SVt_NV */
+ 0, /* SVt_RV */
+ MAYBE_PURIFY(sizeof(xpv_allocated), sizeof(XPV)), /* SVt_PV */
+ MAYBE_PURIFY(sizeof(xpviv_allocated), sizeof(XPVIV)),/* SVt_PVIV */
+ sizeof(XPVNV), /* SVt_PVNV */
+ sizeof(XPVMG), /* SVt_PVMG */
+ sizeof(XPVGV), /* SVt_PVGV */
+ sizeof(XPVLV), /* SVt_PVLV */
+ MAYBE_PURIFY(sizeof(xpvav_allocated), sizeof(XPVAV)),/* SVt_PVAV */
+ MAYBE_PURIFY(sizeof(xpvhv_allocated), sizeof(XPVHV)),/* SVt_PVHV */
+ MAYBE_PURIFY(sizeof(xpvcv_allocated), sizeof(XPVCV)),/* SVt_PVCV */
+ MAYBE_PURIFY(sizeof(xpvfm_allocated), sizeof(XPVFM)),/* SVt_PVFM */
+ sizeof(XPVIO), /* SVt_PVIO */
+#elif PERL_VERSION == 10 && PERL_SUBVERSION == 1
+ 0, /* SVt_NULL */
+ 0, /* SVt_BIND */
+ 0, /* SVt_IV */
+ MAYBE_PURIFY(sizeof(NV), sizeof(XPVNV)), /* SVt_NV */
+ 0, /* SVt_RV */
+ sizeof(XPV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PV */
+ sizeof(XPVIV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PVIV */
+ sizeof(XPVNV), /* SVt_PVNV */
+ sizeof(XPVMG), /* SVt_PVMG */
+ sizeof(XPVGV), /* SVt_PVGV */
+ sizeof(XPVLV), /* SVt_PVLV */
+ sizeof(XPVAV) - MAYBE_OFFSET(XPVAV, xav_fill), /* SVt_PVAV */
+ sizeof(XPVHV) - MAYBE_OFFSET(XPVHV, xhv_fill), /* SVt_PVHV */
+ sizeof(XPVCV) - MAYBE_OFFSET(XPVCV, xpv_cur), /* SVt_PVCV */
+ sizeof(XPVFM) - MAYBE_OFFSET(XPVFM, xpv_cur), /* SVt_PVFM */
+ sizeof(XPVIO) /* SVt_PVIO */
+#elif PERL_VERSION < 13
+ 0, /* SVt_NULL */
+ 0, /* SVt_BIND */
+ 0, /* SVt_IV */
+ MAYBE_PURIFY(sizeof(NV), sizeof(XPVNV)), /* SVt_NV */
+ sizeof(XPV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PV */
+ sizeof(XPVIV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PVIV */
+ sizeof(XPVNV), /* SVt_PVNV */
+ sizeof(XPVMG), /* SVt_PVMG */
+ sizeof(regexp) - MAYBE_OFFSET(regexp, xpv_cur), /* SVt_REGEXP */
+ sizeof(XPVGV), /* SVt_PVGV */
+ sizeof(XPVLV), /* SVt_PVLV */
+ sizeof(XPVAV) - MAYBE_OFFSET(XPVAV, xav_fill), /* SVt_PVAV */
+ sizeof(XPVHV) - MAYBE_OFFSET(XPVHV, xhv_fill), /* SVt_PVHV */
+ sizeof(XPVCV) - MAYBE_OFFSET(XPVCV, xpv_cur), /* SVt_PVCV */
+ sizeof(XPVFM) - MAYBE_OFFSET(XPVFM, xpv_cur), /* SVt_PVFM */
+ sizeof(XPVIO) /* SVt_PVIO */
+#else
+ 0, /* SVt_NULL */
+ 0, /* SVt_BIND */
+ 0, /* SVt_IV */
+ MAYBE_PURIFY(sizeof(NV), sizeof(XPVNV)), /* SVt_NV */
+ sizeof(XPV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PV */
+ sizeof(XPVIV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PVIV */
+ sizeof(XPVNV) - MAYBE_OFFSET(XPV, xpv_cur), /* SVt_PVNV */
+ sizeof(XPVMG), /* SVt_PVMG */
+ sizeof(regexp), /* SVt_REGEXP */
+ sizeof(XPVGV), /* SVt_PVGV */
+ sizeof(XPVLV), /* SVt_PVLV */
+ sizeof(XPVAV), /* SVt_PVAV */
+ sizeof(XPVHV), /* SVt_PVHV */
+ sizeof(XPVCV), /* SVt_PVCV */
+ sizeof(XPVFM), /* SVt_PVFM */
+ sizeof(XPVIO) /* SVt_PVIO */
#endif
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- TAG;break;
+};
+
+#if PERL_COMBI_VERSION < 5008001
+typedef AV PADLIST;
#endif
- /* How about a plain string? In which case we need to add in how
- much has been allocated */
- case SVt_PV: TAG;
- st->total_size += sizeof(XPV);
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- TAG;break;
- /* A string with an integer part? */
- case SVt_PVIV: TAG;
- st->total_size += sizeof(XPVIV);
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- if(SvOOK(thing)) {
- st->total_size += SvIVX(thing);
+
+static void
+padlist_size(pTHX_ struct state *const st, const PADLIST * const padl,
+ const int recurse) {
+
+#if PERL_VERSION*1000+PERL_SUBVERSION >= 21007
+/* This is, as ever, excessively nosey with the implementation, and hence
+ fragile. */
+ SSize_t i;
+ const PADNAMELIST *pnl;
+
+ if (!check_new(st, padl))
+ return;
+ st->total_size += sizeof(PADLIST);
+
+ st->total_size += sizeof(PADNAMELIST);
+ pnl = PadlistNAMES(padl);
+ st->total_size += pnl->xpadnl_max * sizeof(PADNAME *);
+ i = PadnamelistMAX(pnl) + 1;
+ while (--i) {
+ const PADNAME *const pn =
+ PadnamelistARRAY(pnl)[i];
+ if (!pn || pn == &PL_padname_undef || pn == &PL_padname_const)
+ continue;
+ if (!check_new(st, pn))
+ continue;
+ st->total_size += STRUCT_OFFSET(struct padname_with_str, xpadn_str[0])
+ + PadnameLEN(pn) + 1;
}
- TAG;break;
- /* A scalar/string/reference with a float part? */
- case SVt_PVNV: TAG;
- st->total_size += sizeof(XPVNV);
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- TAG;break;
- case SVt_PVMG: TAG;
- st->total_size += sizeof(XPVMG);
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- magic_size(thing, st);
- TAG;break;
-#if PERL_VERSION <= 8
- case SVt_PVBM: TAG;
- st->total_size += sizeof(XPVBM);
- if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- magic_size(thing, st);
- TAG;break;
+
+ i = PadlistMAX(padl) + 1;
+ st->total_size += sizeof(PAD*) * i;
+ while (--i)
+ sv_size(aTHX_ st, (SV*)PadlistARRAY(padl)[i], recurse);
+
+#elif defined PadlistNAMES
+
+ SSize_t i;
+ if (!check_new(st, padl))
+ return;
+ st->total_size += sizeof(PADLIST);
+ sv_size(aTHX_ st, (SV*)PadlistNAMES(padl), TOTAL_SIZE_RECURSION);
+ i = PadlistMAX(padl) + 1;
+ st->total_size += sizeof(PAD*) * i;
+ while (--i)
+ sv_size(aTHX_ st, (SV*)PadlistARRAY(padl)[i], recurse);
+
+#else
+
+ sv_size(aTHX_ st, (SV*)padl, recurse);
+
+#endif
+}
+
+static void
+sv_size(pTHX_ struct state *const st, const SV * const orig_thing,
+ const int recurse) {
+ const SV *thing = orig_thing;
+ U32 type;
+
+ if(!check_new(st, thing))
+ return;
+
+ type = SvTYPE(thing);
+ if (type > SVt_LAST) {
+ warn("Devel::Size: Unknown variable type: %d encountered\n", type);
+ return;
+ }
+ st->total_size += sizeof(SV) + body_sizes[type];
+
+ if (SvMAGICAL(thing)) {
+ magic_size(aTHX_ thing, st);
+ }
+
+ switch (type) {
+#if (PERL_VERSION < 11)
+ /* Is it a reference? */
+ case SVt_RV: TAG;
+#else
+ case SVt_IV: TAG;
#endif
- case SVt_PVLV: TAG;
- st->total_size += sizeof(XPVLV);
if(recurse && SvROK(thing))
- sv_size(aTHX_ st, SvRV_const(thing), TRUE);
- else
- st->total_size += SvLEN(thing);
- magic_size(thing, st);
+ sv_size(aTHX_ st, SvRV_const(thing), recurse);
TAG;break;
- /* How much space is dedicated to the array? Not counting the
- elements in the array, mind, just the array itself */
+
case SVt_PVAV: TAG;
- st->total_size += sizeof(XPVAV);
/* Is there anything in the array? */
if (AvMAX(thing) != -1) {
/* an array with 10 slots has AvMax() set to 9 - te 2007-04-22 */
st->total_size += sizeof(SV *) * (AvMAX(thing) + 1);
dbg_printf(("total_size: %li AvMAX: %li av_len: $i\n", st->total_size, AvMAX(thing), av_len((AV*)thing)));
+
+ if (recurse >= TOTAL_SIZE_RECURSION) {
+ SSize_t i = AvFILLp(thing) + 1;
+
+ while (i--)
+ sv_size(aTHX_ st, AvARRAY(thing)[i], recurse);
+ }
}
/* Add in the bits on the other side of the beginning */
Post 5.9.something this is stored in magic, so will be found there,
and Perl_av_arylen_p() takes a non-const AV*, hence compilers rightly
complain about AvARYLEN() passing thing to it. */
- sv_size(aTHX_ st, AvARYLEN(thing), TRUE);
+ sv_size(aTHX_ st, AvARYLEN(thing), recurse);
#endif
- magic_size(thing, st);
TAG;break;
case SVt_PVHV: TAG;
- /* First the base struct */
- st->total_size += sizeof(XPVHV);
/* Now the array of buckets */
st->total_size += (sizeof(HE *) * (HvMAX(thing) + 1));
/* Now walk the bucket chain */
cur_entry = *(HvARRAY(thing) + cur_bucket);
while (cur_entry) {
st->total_size += sizeof(HE);
- if (cur_entry->hent_hek) {
- /* Hash keys can be shared. Have we seen this before? */
- if (check_new(st, cur_entry->hent_hek)) {
- st->total_size += HEK_BASESIZE + cur_entry->hent_hek->hek_len + 2;
- }
- }
+ hek_size(aTHX_ st, cur_entry->hent_hek, HvSHAREKEYS(thing));
+ if (recurse >= TOTAL_SIZE_RECURSION)
+ sv_size(aTHX_ st, HeVAL(cur_entry), recurse);
cur_entry = cur_entry->hent_next;
}
}
}
- magic_size(thing, st);
- TAG;break;
- case SVt_PVCV: TAG;
- st->total_size += sizeof(XPVCV);
- magic_size(thing, st);
-
- st->total_size += ((XPVIO *) SvANY(thing))->xpv_len;
- sv_size(aTHX_ st, (SV *)CvSTASH(thing), TRUE);
- sv_size(aTHX_ st, (SV *)SvSTASH(thing), TRUE);
- sv_size(aTHX_ st, (SV *)CvGV(thing), TRUE);
- sv_size(aTHX_ st, (SV *)CvPADLIST(thing), TRUE);
- sv_size(aTHX_ st, (SV *)CvOUTSIDE(thing), TRUE);
- if (CvISXSUB(thing)) {
- sv_size(aTHX_ st, cv_const_sv((CV *)thing), TRUE);
- } else {
- op_size(aTHX_ CvSTART(thing), st);
- op_size(aTHX_ CvROOT(thing), st);
- }
-
- TAG;break;
- case SVt_PVGV: TAG;
- magic_size(thing, st);
- st->total_size += sizeof(XPVGV);
- st->total_size += GvNAMELEN(thing);
-#ifdef GvFILE
- /* Is there a file? */
- check_new_and_strlen(st, GvFILE(thing));
-#endif
- /* Is there something hanging off the glob? */
- if (GvGP(thing)) {
- if (check_new(st, GvGP(thing))) {
- st->total_size += sizeof(GP);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_sv), TRUE);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_form), TRUE);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_av), TRUE);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_hv), TRUE);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_egv), TRUE);
- sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_cv), TRUE);
- }
+#ifdef HvAUX
+ if (SvOOK(thing)) {
+ /* This direct access is arguably "naughty": */
+ struct mro_meta *meta = HvAUX(thing)->xhv_mro_meta;
+#if PERL_VERSION > 13 || PERL_SUBVERSION > 8
+ /* As is this: */
+ I32 count = HvAUX(thing)->xhv_name_count;
+
+ if (count) {
+ HEK **names = HvAUX(thing)->xhv_name_u.xhvnameu_names;
+ if (count < 0)
+ count = -count;
+ while (--count)
+ hek_size(aTHX_ st, names[count], 1);
+ }
+ else
+#endif
+ {
+ hek_size(aTHX_ st, HvNAME_HEK(thing), 1);
+ }
+
+ st->total_size += sizeof(struct xpvhv_aux);
+ if (meta) {
+ st->total_size += sizeof(struct mro_meta);
+ sv_size(aTHX_ st, (SV *)meta->mro_nextmethod, TOTAL_SIZE_RECURSION);
+#if PERL_VERSION > 10 || (PERL_VERSION == 10 && PERL_SUBVERSION > 0)
+ sv_size(aTHX_ st, (SV *)meta->isa, TOTAL_SIZE_RECURSION);
+#endif
+#if PERL_VERSION > 10
+ sv_size(aTHX_ st, (SV *)meta->mro_linear_all, TOTAL_SIZE_RECURSION);
+ sv_size(aTHX_ st, meta->mro_linear_current, TOTAL_SIZE_RECURSION);
+#else
+ sv_size(aTHX_ st, (SV *)meta->mro_linear_dfs, TOTAL_SIZE_RECURSION);
+ sv_size(aTHX_ st, (SV *)meta->mro_linear_c3, TOTAL_SIZE_RECURSION);
+#endif
+ }
}
+#else
+ check_new_and_strlen(st, HvNAME_get(thing));
+#endif
TAG;break;
+
+
case SVt_PVFM: TAG;
- st->total_size += sizeof(XPVFM);
- magic_size(thing, st);
- st->total_size += ((XPVIO *) SvANY(thing))->xpv_len;
- sv_size(aTHX_ st, (SV *)CvPADLIST(thing), TRUE);
- sv_size(aTHX_ st, (SV *)CvOUTSIDE(thing), TRUE);
+ if (PERL_VERSION*1000+PERL_SUBVERSION < 21006 || !CvISXSUB(thing))
+ padlist_size(aTHX_ st, CvPADLIST(thing), SOME_RECURSION);
+ sv_size(aTHX_ st, (SV *)CvOUTSIDE(thing), recurse);
if (st->go_yell && !st->fm_whine) {
carp("Devel::Size: Calculated sizes for FMs are incomplete");
st->fm_whine = 1;
}
- TAG;break;
- case SVt_PVIO: TAG;
- st->total_size += sizeof(XPVIO);
- magic_size(thing, st);
- if (check_new(st, (SvPVX_const(thing)))) {
- st->total_size += ((XPVIO *) SvANY(thing))->xpv_cur;
+ goto freescalar;
+
+ case SVt_PVCV: TAG;
+ sv_size(aTHX_ st, (SV *)CvSTASH(thing), SOME_RECURSION);
+ sv_size(aTHX_ st, (SV *)SvSTASH(thing), SOME_RECURSION);
+ sv_size(aTHX_ st, (SV *)CvGV(thing), SOME_RECURSION);
+ if (PERL_VERSION*1000+PERL_SUBVERSION < 21006 || !CvISXSUB(thing))
+ padlist_size(aTHX_ st, CvPADLIST(thing), SOME_RECURSION);
+ sv_size(aTHX_ st, (SV *)CvOUTSIDE(thing), recurse);
+ if (CvISXSUB(thing)) {
+ sv_size(aTHX_ st, cv_const_sv((CV *)thing), recurse);
+ } else if (CvROOT(thing)) {
+ op_size(aTHX_ CvSTART(thing), st);
+ op_size(aTHX_ CvROOT(thing), st);
}
+ goto freescalar;
+
+ case SVt_PVIO: TAG;
/* Some embedded char pointers */
check_new_and_strlen(st, ((XPVIO *) SvANY(thing))->xio_top_name);
check_new_and_strlen(st, ((XPVIO *) SvANY(thing))->xio_fmt_name);
check_new_and_strlen(st, ((XPVIO *) SvANY(thing))->xio_bottom_name);
/* Throw the GVs on the list to be walked if they're not-null */
- sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_top_gv, TRUE);
- sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_bottom_gv, TRUE);
- sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_fmt_gv, TRUE);
+ sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_top_gv, recurse);
+ sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_bottom_gv, recurse);
+ sv_size(aTHX_ st, (SV *)((XPVIO *) SvANY(thing))->xio_fmt_gv, recurse);
/* Only go trotting through the IO structures if they're really
trottable. If USE_PERLIO is defined we can do this. If
/* Dig into xio_ifp and xio_ofp here */
warn("Devel::Size: Can't size up perlio layers yet\n");
#endif
+ goto freescalar;
+
+ case SVt_PVLV: TAG;
+#if (PERL_VERSION < 9)
+ goto freescalar;
+#endif
+
+ case SVt_PVGV: TAG;
+ if(isGV_with_GP(thing)) {
+#ifdef GvNAME_HEK
+ hek_size(aTHX_ st, GvNAME_HEK(thing), 1);
+#else
+ st->total_size += GvNAMELEN(thing);
+#endif
+#ifdef GvFILE_HEK
+ hek_size(aTHX_ st, GvFILE_HEK(thing), 1);
+#elif defined(GvFILE)
+# if !defined(USE_ITHREADS) || (PERL_VERSION > 8 || (PERL_VERSION == 8 && PERL_SUBVERSION > 8))
+ /* With itreads, before 5.8.9, this can end up pointing to freed memory
+ if the GV was created in an eval, as GvFILE() points to CopFILE(),
+ and the relevant COP has been freed on scope cleanup after the eval.
+ 5.8.9 adds a binary compatible fudge that catches the vast majority
+ of cases. 5.9.something added a proper fix, by converting the GP to
+ use a shared hash key (porperly reference counted), instead of a
+ char * (owned by who knows? possibly no-one now) */
+ check_new_and_strlen(st, GvFILE(thing));
+# endif
+#endif
+ /* Is there something hanging off the glob? */
+ if (check_new(st, GvGP(thing))) {
+ st->total_size += sizeof(GP);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_sv), recurse);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_form), recurse);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_av), recurse);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_hv), recurse);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_egv), recurse);
+ sv_size(aTHX_ st, (SV *)(GvGP(thing)->gp_cv), recurse);
+ }
+#if (PERL_VERSION >= 9)
+ TAG; break;
+#endif
+ }
+#if PERL_VERSION <= 8
+ case SVt_PVBM: TAG;
+#endif
+ case SVt_PVMG: TAG;
+ case SVt_PVNV: TAG;
+ case SVt_PVIV: TAG;
+ case SVt_PV: TAG;
+ freescalar:
+ if(recurse && SvROK(thing))
+ sv_size(aTHX_ st, SvRV_const(thing), recurse);
+ else if (SvIsCOW_shared_hash(thing))
+ hek_size(aTHX_ st, SvSHARED_HEK_FROM_PV(SvPVX(thing)), 1);
+ else
+ st->total_size += SvLEN(thing);
+
+ if(SvOOK(thing)) {
+ STRLEN len;
+ SvOOK_offset(thing, len);
+ st->total_size += len;
+ }
TAG;break;
- default:
- warn("Devel::Size: Unknown variable type: %d encountered\n", SvTYPE(thing) );
+
}
- return TRUE;
+ return;
}
static struct state *
{
SV *warn_flag;
struct state *st;
+
Newxz(st, 1, struct state);
st->go_yell = TRUE;
if (NULL != (warn_flag = perl_get_sv("Devel::Size::warn", FALSE))) {
check_new(st, &PL_sv_undef);
check_new(st, &PL_sv_no);
check_new(st, &PL_sv_yes);
+#if PERL_VERSION > 8 || (PERL_VERSION == 8 && PERL_SUBVERSION > 0)
+ check_new(st, &PL_sv_placeholder);
+#endif
return st;
}
UV
size(orig_thing)
SV *orig_thing
+ALIAS:
+ total_size = TOTAL_SIZE_RECURSION
CODE:
{
SV *thing = orig_thing;
/* If they passed us a reference then dereference it. This is the
only way we can check the sizes of arrays and hashes */
-#if (PERL_VERSION < 11)
- if (SvOK(thing) && SvROK(thing)) {
- thing = SvRV(thing);
- }
-#else
if (SvROK(thing)) {
thing = SvRV(thing);
}
-#endif
-
- sv_size(aTHX_ st, thing, FALSE);
- RETVAL = st->total_size;
- free_state(st);
-}
-OUTPUT:
- RETVAL
-
-
-UV
-total_size(orig_thing)
- SV *orig_thing
-CODE:
-{
- SV *thing = orig_thing;
- /* Array with things we still need to do */
- AV *pending_array;
- IV size = 0;
- struct state *st = new_state(aTHX);
-
- /* Size starts at zero */
- RETVAL = 0;
-
- pending_array = newAV();
-
- /* If they passed us a reference then dereference it.
- This is the only way we can check the sizes of arrays and hashes. */
- if (SvROK(thing)) {
- thing = SvRV(thing);
- }
-
- /* Put it on the pending array */
- av_push(pending_array, thing);
-
- /* Now just yank things off the end of the array until it's done */
- while (av_len(pending_array) >= 0) {
- thing = av_pop(pending_array);
- /* Process it if we've not seen it */
- if (sv_size(aTHX_ st, thing, TRUE)) {
- dbg_printf(("# Found type %i at %p\n", SvTYPE(thing), thing));
- switch (SvTYPE(thing)) {
- /* fix for bug #24846 (Does not correctly recurse into references in a PVNV-type scalar) */
- case SVt_PVNV: TAG;
- if (SvROK(thing))
- {
- av_push(pending_array, SvRV(thing));
- }
- TAG;break;
-#if (PERL_VERSION < 11)
- case SVt_RV: TAG;
-#else
- case SVt_IV: TAG;
-#endif
- dbg_printf(("# Found RV\n"));
- if (SvROK(thing)) {
- dbg_printf(("# Found RV\n"));
- av_push(pending_array, SvRV(thing));
- }
- TAG;break;
-
- case SVt_PVAV: TAG;
- {
- AV *tempAV = (AV *)thing;
- SV **tempSV;
-
- dbg_printf(("# Found type AV\n"));
- /* Quick alias to cut down on casting */
-
- /* Any elements? */
- if (av_len(tempAV) != -1) {
- IV index;
- /* Run through them all */
- for (index = 0; index <= av_len(tempAV); index++) {
- /* Did we get something? */
- if ((tempSV = av_fetch(tempAV, index, 0))) {
- /* Was it undef? */
- if (*tempSV != &PL_sv_undef) {
- /* Apparently not. Save it for later */
- av_push(pending_array, *tempSV);
- }
- }
- }
- }
- }
- TAG;break;
-
- case SVt_PVHV: TAG;
- dbg_printf(("# Found type HV\n"));
- /* Is there anything in here? */
- if (hv_iterinit((HV *)thing)) {
- HE *temp_he;
- while ((temp_he = hv_iternext((HV *)thing))) {
- av_push(pending_array, hv_iterval((HV *)thing, temp_he));
- }
- }
- TAG;break;
-
- case SVt_PVGV: TAG;
- dbg_printf(("# Found type GV\n"));
- /* Run through all the pieces and push the ones with bits */
- if (GvSV(thing)) {
- av_push(pending_array, (SV *)GvSV(thing));
- }
- if (GvFORM(thing)) {
- av_push(pending_array, (SV *)GvFORM(thing));
- }
- if (GvAV(thing)) {
- av_push(pending_array, (SV *)GvAV(thing));
- }
- if (GvHV(thing)) {
- av_push(pending_array, (SV *)GvHV(thing));
- }
- if (GvCV(thing)) {
- av_push(pending_array, (SV *)GvCV(thing));
- }
- TAG;break;
- default:
- TAG;break;
- }
- } else {
- /* check_new() returned false: */
-#ifdef DEVEL_SIZE_DEBUGGING
- if (SvOK(sv)) printf("# Ignore ref copy 0x%x\n", sv);
- else printf("# Ignore non-sv 0x%x\n", sv);
-#endif
- }
- } /* end while */
+ sv_size(aTHX_ st, thing, ix);
RETVAL = st->total_size;
free_state(st);
- SvREFCNT_dec(pending_array);
}
OUTPUT:
RETVAL
-