+#define PERL_NO_GET_CONTEXT
+
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
#include "ppport.h"
+/* Not yet in ppport.h */
+#ifndef CvISXSUB
+# define CvISXSUB(cv) (CvXSUB(cv) ? TRUE : FALSE)
+#endif
+
#ifdef _MSC_VER
/* "structured exception" handling is a Microsoft extension to C and C++.
It's *not* C++ exception handling - C++ exception handling can't capture
# define __attribute__(x)
#endif
-static int regex_whine;
-static int fm_whine;
-static int dangle_whine = 0;
-
#if 0 && defined(DEBUGGING)
#define dbg_printf(x) printf x
#else
#define dbg_printf(x)
#endif
-#define TAG //printf( "# %s(%d)\n", __FILE__, __LINE__ )
+#define TAG /* printf( "# %s(%d)\n", __FILE__, __LINE__ ) */
#define carp puts
-#define ALIGN_BITS ( sizeof(void*) >> 1 )
-#define BIT_BITS 3
-#define BYTE_BITS 14
-#define SLOT_BITS ( sizeof( void*) * 8 ) - ( ALIGN_BITS + BIT_BITS + BYTE_BITS )
-#define BYTES_PER_SLOT 1 << BYTE_BITS
-#define TRACKING_SLOTS 8192 // max. 8192 for 4GB/32-bit machine
+/* The idea is to have a tree structure to store 1 bit per possible pointer
+ address. The lowest 16 bits are stored in a block of 8092 bytes.
+ The blocks are in a 256-way tree, indexed by the reset of the pointer.
+ This can cope with 32 and 64 bit pointers, and any address space layout,
+ without excessive memory needs. The assumption is that your CPU cache
+ works :-) (And that we're not going to bust it) */
-typedef char* TRACKING[ TRACKING_SLOTS ];
+#define ALIGN_BITS ( sizeof(void*) >> 1 )
+#define BYTE_BITS 3
+#define LEAF_BITS (16 - BYTE_BITS)
+#define LEAF_MASK 0x1FFF
+
+struct state {
+ bool regex_whine;
+ bool fm_whine;
+ bool dangle_whine;
+ bool go_yell;
+ /* My hunch (not measured) is that for most architectures pointers will
+ start with 0 bits, hence the start of this array will be hot, and the
+ end unused. So put the flags next to the hot end. */
+ void *tracking[256];
+};
/*
Checks to see if thing is in the bitstring.
notes thing in the segmented bitstring.
*/
static bool
-check_new(TRACKING *tv, const void *const p) {
- unsigned long slot = (unsigned long)p >> (SLOT_BITS + BIT_BITS + ALIGN_BITS);
- unsigned int byte = ((unsigned long)p >> (ALIGN_BITS + BIT_BITS)) & 0x00003fffU;
- unsigned int bit = ((unsigned long)p >> ALIGN_BITS) & 0x00000007U;
- unsigned int nop = (unsigned long)p & 0x3U;
-
- assert(tv);
- if (NULL == p) return FALSE;
+check_new(struct state *st, const void *const p) {
+ unsigned int bits = 8 * sizeof(void*);
+ const size_t raw_p = PTR2nat(p);
+ /* This effectively rotates the value right by the number of low always-0
+ bits in an aligned pointer. The assmption is that most (if not all)
+ pointers are aligned, and these will be in the same chain of nodes
+ (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));
+ const U8 this_bit = 1 << (cooked_p & 0x7);
+ U8 **leaf_p;
+ U8 *leaf;
+ unsigned int i;
+ void **tv_p;
+
+
+ if (NULL == p || NULL == st) return FALSE;
+ tv_p = (void **) (st->tracking);
TRY_TO_CATCH_SEGV {
const char c = *(const char *)p;
}
CAUGHT_EXCEPTION {
- if( dangle_whine )
+ if (st->dangle_whine)
warn( "Devel::Size: Encountered invalid pointer: %p\n", p );
return FALSE;
}
- dbg_printf((
- "address: %p slot: %p byte: %4x bit: %4x nop:%x\n",
- p, slot, byte, bit, nop
- ));
TAG;
- if( slot >= TRACKING_SLOTS ) {
- die( "Devel::Size: Please rebuild D::S with TRACKING_SLOTS > %u\n", slot );
- }
- TAG;
- if( (*tv)[ slot ] == NULL ) {
- Newz( 0xfc0ff, (*tv)[ slot ], BYTES_PER_SLOT, char );
- }
- TAG;
- if( (*tv)[ slot ][ byte ] & ( 1 << bit ) ) {
- return FALSE;
- }
- TAG;
- (*tv)[ slot ][ byte ] |= ( 1 << bit );
+
+ bits -= 8;
+ /* bits now 24 (32 bit pointers) or 56 (64 bit pointers) */
+
+ /* First level is always present. */
+ do {
+ i = (unsigned int)((cooked_p >> bits) & 0xFF);
+ if (!tv_p[i])
+ Newxz(tv_p[i], 256, void *);
+ tv_p = (void **)(tv_p[i]);
+ bits -= 8;
+ } while (bits > LEAF_BITS + BYTE_BITS);
+ /* bits now 16 always */
+#if !defined(MULTIPLICITY) || PERL_VERSION > 8 || (PERL_VERSION == 8 && PERL_SUBVERSION > 8)
+ /* 5.8.8 and early have an assert() macro that uses Perl_croak, hence needs
+ a my_perl under multiplicity */
+ assert(bits == 16);
+#endif
+ leaf_p = (U8 **)tv_p;
+ i = (unsigned int)((cooked_p >> bits) & 0xFF);
+ if (!leaf_p[i])
+ Newxz(leaf_p[i], 1 << LEAF_BITS, U8);
+ leaf = leaf_p[i];
+
TAG;
+
+ i = (unsigned int)((cooked_p >> BYTE_BITS) & LEAF_MASK);
+
+ if(leaf[i] & this_bit)
+ return FALSE;
+
+ leaf[i] |= this_bit;
return TRUE;
}
static void
-free_tracking(TRACKING *tv)
+free_tracking_at(void **tv, int level)
{
- int i;
- /* Clean up after ourselves */
- for( i = 0; i < TRACKING_SLOTS; ++i ) {
- if( (*tv)[ i ] )
- Safefree( (*tv)[ i ] );
- }
- Safefree( tv );
+ int i = 255;
+
+ if (--level) {
+ /* Nodes */
+ do {
+ if (tv[i]) {
+ free_tracking_at(tv[i], level);
+ Safefree(tv[i]);
+ }
+ } while (i--);
+ } else {
+ /* Leaves */
+ do {
+ if (tv[i])
+ Safefree(tv[i]);
+ } while (i--);
+ }
+}
+
+static void
+free_state(struct state *st)
+{
+ const int top_level = (sizeof(void *) * 8 - LEAF_BITS - BYTE_BITS) / 8;
+ free_tracking_at((void **)st->tracking, top_level);
+ Safefree(st);
}
-UV thing_size(const SV *const, TRACKING *);
+static UV thing_size(pTHX_ const SV *const, struct state *);
typedef enum {
OPc_NULL, /* 0 */
OPc_BASEOP, /* 1 */
#define NV double
#endif
-static int go_yell = 1;
-
/* Figure out how much magic is attached to the SV and return the
size */
-IV magic_size(const SV * const thing, TRACKING *tv) {
+IV magic_size(const SV * const thing, struct state *st) {
IV total_size = 0;
MAGIC *magic_pointer;
magic_pointer = SvMAGIC(thing);
/* Have we seen the magic pointer? */
- while (magic_pointer && check_new(tv, magic_pointer)) {
+ while (magic_pointer && check_new(st, magic_pointer)) {
total_size += sizeof(MAGIC);
TRY_TO_CATCH_SEGV {
/* Have we seen the magic vtable? */
if (magic_pointer->mg_virtual &&
- check_new(tv, magic_pointer->mg_virtual)) {
+ check_new(st, magic_pointer->mg_virtual)) {
total_size += sizeof(MGVTBL);
}
- /* Get the next in the chain */ // ?try
+ /* Get the next in the chain */
magic_pointer = magic_pointer->mg_moremagic;
}
CAUGHT_EXCEPTION {
- if( dangle_whine )
+ if (st->dangle_whine)
warn( "Devel::Size: Encountered bad magic at: %p\n", magic_pointer );
}
}
return total_size;
}
-UV regex_size(const REGEXP * const baseregex, TRACKING *tv) {
+UV regex_size(const REGEXP * const baseregex, struct state *st) {
UV total_size = 0;
total_size += sizeof(REGEXP);
total_size += sizeof(I32) * SvANY(baseregex)->nparens * 2;
/*total_size += strlen(SvANY(baseregex)->subbeg);*/
#endif
- if (go_yell && !regex_whine) {
+ if (st->go_yell && !st->regex_whine) {
carp("Devel::Size: Calculated sizes for compiled regexes are incompatible, and probably always will be");
- regex_whine = 1;
+ st->regex_whine = 1;
}
return total_size;
}
-UV op_size(const OP * const baseop, TRACKING *tv) {
+static UV
+op_size(pTHX_ const OP * const baseop, struct state *st) {
UV total_size = 0;
TRY_TO_CATCH_SEGV {
TAG;
- if (check_new(tv, baseop->op_next)) {
- total_size += op_size(baseop->op_next, tv);
+ if (check_new(st, baseop->op_next)) {
+ total_size += op_size(aTHX_ baseop->op_next, st);
}
TAG;
switch (cc_opclass(baseop)) {
TAG;break;
case OPc_UNOP: TAG;
total_size += sizeof(struct unop);
- if (check_new(tv, cUNOPx(baseop)->op_first)) {
- total_size += op_size(cUNOPx(baseop)->op_first, tv);
+ if (check_new(st, cUNOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cUNOPx(baseop)->op_first, st);
}
TAG;break;
case OPc_BINOP: TAG;
total_size += sizeof(struct binop);
- if (check_new(tv, cBINOPx(baseop)->op_first)) {
- total_size += op_size(cBINOPx(baseop)->op_first, tv);
+ if (check_new(st, cBINOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cBINOPx(baseop)->op_first, st);
}
- if (check_new(tv, cBINOPx(baseop)->op_last)) {
- total_size += op_size(cBINOPx(baseop)->op_last, tv);
+ if (check_new(st, cBINOPx(baseop)->op_last)) {
+ total_size += op_size(aTHX_ cBINOPx(baseop)->op_last, st);
}
TAG;break;
case OPc_LOGOP: TAG;
total_size += sizeof(struct logop);
- if (check_new(tv, cLOGOPx(baseop)->op_first)) {
- total_size += op_size(cBINOPx(baseop)->op_first, tv);
+ if (check_new(st, cLOGOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cBINOPx(baseop)->op_first, st);
}
- if (check_new(tv, cLOGOPx(baseop)->op_other)) {
- total_size += op_size(cLOGOPx(baseop)->op_other, tv);
+ if (check_new(st, cLOGOPx(baseop)->op_other)) {
+ total_size += op_size(aTHX_ cLOGOPx(baseop)->op_other, st);
}
TAG;break;
case OPc_LISTOP: TAG;
total_size += sizeof(struct listop);
- if (check_new(tv, cLISTOPx(baseop)->op_first)) {
- total_size += op_size(cLISTOPx(baseop)->op_first, tv);
+ if (check_new(st, cLISTOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cLISTOPx(baseop)->op_first, st);
}
- if (check_new(tv, cLISTOPx(baseop)->op_last)) {
- total_size += op_size(cLISTOPx(baseop)->op_last, tv);
+ if (check_new(st, cLISTOPx(baseop)->op_last)) {
+ total_size += op_size(aTHX_ cLISTOPx(baseop)->op_last, st);
}
TAG;break;
case OPc_PMOP: TAG;
total_size += sizeof(struct pmop);
- if (check_new(tv, cPMOPx(baseop)->op_first)) {
- total_size += op_size(cPMOPx(baseop)->op_first, tv);
+ if (check_new(st, cPMOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cPMOPx(baseop)->op_first, st);
}
- if (check_new(tv, cPMOPx(baseop)->op_last)) {
- total_size += op_size(cPMOPx(baseop)->op_last, tv);
+ if (check_new(st, cPMOPx(baseop)->op_last)) {
+ total_size += op_size(aTHX_ cPMOPx(baseop)->op_last, st);
}
#if PERL_VERSION < 9 || (PERL_VERSION == 9 && PERL_SUBVERSION < 5)
- if (check_new(tv, cPMOPx(baseop)->op_pmreplroot)) {
- total_size += op_size(cPMOPx(baseop)->op_pmreplroot, tv);
+ if (check_new(st, cPMOPx(baseop)->op_pmreplroot)) {
+ total_size += op_size(aTHX_ cPMOPx(baseop)->op_pmreplroot, st);
}
- if (check_new(tv, cPMOPx(baseop)->op_pmreplstart)) {
- total_size += op_size(cPMOPx(baseop)->op_pmreplstart, tv);
+ if (check_new(st, cPMOPx(baseop)->op_pmreplstart)) {
+ total_size += op_size(aTHX_ cPMOPx(baseop)->op_pmreplstart, st);
}
- if (check_new(tv, cPMOPx(baseop)->op_pmnext)) {
- total_size += op_size((OP *)cPMOPx(baseop)->op_pmnext, tv);
+ if (check_new(st, cPMOPx(baseop)->op_pmnext)) {
+ total_size += op_size(aTHX_ (OP *)cPMOPx(baseop)->op_pmnext, st);
}
#endif
/* This is defined away in perl 5.8.x, but it is in there for
5.6.x */
#ifdef PM_GETRE
- if (check_new(tv, PM_GETRE((cPMOPx(baseop))))) {
- total_size += regex_size(PM_GETRE(cPMOPx(baseop)), tv);
+ if (check_new(st, PM_GETRE((cPMOPx(baseop))))) {
+ total_size += regex_size(PM_GETRE(cPMOPx(baseop)), st);
}
#else
- if (check_new(tv, cPMOPx(baseop)->op_pmregexp)) {
- total_size += regex_size(cPMOPx(baseop)->op_pmregexp, tv);
+ if (check_new(st, cPMOPx(baseop)->op_pmregexp)) {
+ total_size += regex_size(cPMOPx(baseop)->op_pmregexp, st);
}
#endif
TAG;break;
case OPc_SVOP: TAG;
total_size += sizeof(struct pmop);
- if (check_new(tv, cSVOPx(baseop)->op_sv)) {
- total_size += thing_size(cSVOPx(baseop)->op_sv, tv);
+ if (check_new(st, cSVOPx(baseop)->op_sv)) {
+ total_size += thing_size(aTHX_ cSVOPx(baseop)->op_sv, st);
}
TAG;break;
case OPc_PADOP: TAG;
total_size += sizeof(struct padop);
TAG;break;
case OPc_PVOP: TAG;
- if (check_new(tv, cPVOPx(baseop)->op_pv)) {
+ if (check_new(st, cPVOPx(baseop)->op_pv)) {
total_size += strlen(cPVOPx(baseop)->op_pv);
}
case OPc_LOOP: TAG;
total_size += sizeof(struct loop);
- if (check_new(tv, cLOOPx(baseop)->op_first)) {
- total_size += op_size(cLOOPx(baseop)->op_first, tv);
+ if (check_new(st, cLOOPx(baseop)->op_first)) {
+ total_size += op_size(aTHX_ cLOOPx(baseop)->op_first, st);
}
- if (check_new(tv, cLOOPx(baseop)->op_last)) {
- total_size += op_size(cLOOPx(baseop)->op_last, tv);
+ if (check_new(st, cLOOPx(baseop)->op_last)) {
+ total_size += op_size(aTHX_ cLOOPx(baseop)->op_last, st);
}
- if (check_new(tv, cLOOPx(baseop)->op_redoop)) {
- total_size += op_size(cLOOPx(baseop)->op_redoop, tv);
+ if (check_new(st, cLOOPx(baseop)->op_redoop)) {
+ total_size += op_size(aTHX_ cLOOPx(baseop)->op_redoop, st);
}
- if (check_new(tv, cLOOPx(baseop)->op_nextop)) {
- total_size += op_size(cLOOPx(baseop)->op_nextop, tv);
+ if (check_new(st, cLOOPx(baseop)->op_nextop)) {
+ total_size += op_size(aTHX_ cLOOPx(baseop)->op_nextop, st);
}
- if (check_new(tv, cLOOPx(baseop)->op_lastop)) {
- total_size += op_size(cLOOPx(baseop)->op_lastop, tv);
+ if (check_new(st, cLOOPx(baseop)->op_lastop)) {
+ total_size += op_size(aTHX_ cLOOPx(baseop)->op_lastop, st);
}
TAG;break;
before 5.11 @33656, but later than 5.10, producing slightly too
small memory sizes on these Perls. */
#if (PERL_VERSION < 11)
- if (check_new(tv, basecop->cop_label)) {
+ if (check_new(st, basecop->cop_label)) {
total_size += strlen(basecop->cop_label);
}
#endif
#ifdef USE_ITHREADS
- if (check_new(tv, basecop->cop_file)) {
+ if (check_new(st, basecop->cop_file)) {
total_size += strlen(basecop->cop_file);
}
- if (check_new(tv, basecop->cop_stashpv)) {
+ if (check_new(st, basecop->cop_stashpv)) {
total_size += strlen(basecop->cop_stashpv);
}
#else
- if (check_new(tv, basecop->cop_stash)) {
- total_size += thing_size((SV *)basecop->cop_stash, tv);
+ if (check_new(st, basecop->cop_stash)) {
+ total_size += thing_size(aTHX_ (SV *)basecop->cop_stash, st);
}
- if (check_new(tv, basecop->cop_filegv)) {
- total_size += thing_size((SV *)basecop->cop_filegv, tv);
+ if (check_new(st, basecop->cop_filegv)) {
+ total_size += thing_size(aTHX_ (SV *)basecop->cop_filegv, st);
}
#endif
}
}
CAUGHT_EXCEPTION {
- if( dangle_whine )
+ if (st->dangle_whine)
warn( "Devel::Size: Encountered dangling pointer in opcode at: %p\n", baseop );
}
return total_size;
# define NEW_HEAD_LAYOUT
#endif
-UV thing_size(const SV * const orig_thing, TRACKING *tv) {
+static UV
+thing_size(pTHX_ const SV * const orig_thing, struct state *st) {
const SV *thing = orig_thing;
UV total_size = sizeof(SV);
case SVt_PV: TAG;
total_size += sizeof(XPV);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
case SVt_PVIV: TAG;
total_size += sizeof(XPVIV);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
case SVt_PVNV: TAG;
total_size += sizeof(XPVNV);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
case SVt_PVMG: TAG;
total_size += sizeof(XPVMG);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
TAG;break;
#if PERL_VERSION <= 8
case SVt_PVBM: TAG;
total_size += sizeof(XPVBM);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
TAG;break;
#endif
case SVt_PVLV: TAG;
total_size += sizeof(XPVLV);
#if (PERL_VERSION < 11)
- total_size += SvROK(thing) ? thing_size( SvRV(thing), tv) : SvLEN(thing);
+ total_size += SvROK(thing) ? thing_size(aTHX_ SvRV(thing), st) : SvLEN(thing);
#else
total_size += SvLEN(thing);
#endif
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
TAG;break;
/* How much space is dedicated to the array? Not counting the
elements in the array, mind, just the array itself */
and Perl_av_arylen_p() takes a non-const AV*, hence compilers rightly
complain about AvARYLEN() passing thing to it. */
if (AvARYLEN(thing)) {
- if (check_new(tv, AvARYLEN(thing))) {
- total_size += thing_size(AvARYLEN(thing), tv);
+ if (check_new(st, AvARYLEN(thing))) {
+ total_size += thing_size(aTHX_ AvARYLEN(thing), st);
}
}
#endif
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
TAG;break;
case SVt_PVHV: TAG;
/* First the base struct */
total_size += sizeof(HE);
if (cur_entry->hent_hek) {
/* Hash keys can be shared. Have we seen this before? */
- if (check_new(tv, cur_entry->hent_hek)) {
+ if (check_new(st, cur_entry->hent_hek)) {
total_size += HEK_BASESIZE + cur_entry->hent_hek->hek_len + 2;
}
}
}
}
}
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
TAG;break;
case SVt_PVCV: TAG;
total_size += sizeof(XPVCV);
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
total_size += ((XPVIO *) SvANY(thing))->xpv_len;
- if (check_new(tv, CvSTASH(thing))) {
- total_size += thing_size((SV *)CvSTASH(thing), tv);
- }
- if (check_new(tv, SvSTASH(thing))) {
- total_size += thing_size( (SV *)SvSTASH(thing), tv);
+ if (check_new(st, CvSTASH(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvSTASH(thing), st);
}
- if (check_new(tv, CvGV(thing))) {
- total_size += thing_size((SV *)CvGV(thing), tv);
+ if (check_new(st, SvSTASH(thing))) {
+ total_size += thing_size(aTHX_ (SV *)SvSTASH(thing), st);
}
- if (check_new(tv, CvPADLIST(thing))) {
- total_size += thing_size((SV *)CvPADLIST(thing), tv);
+ if (check_new(st, CvGV(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvGV(thing), st);
}
- if (check_new(tv, CvOUTSIDE(thing))) {
- total_size += thing_size((SV *)CvOUTSIDE(thing), tv);
+ if (check_new(st, CvPADLIST(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvPADLIST(thing), st);
}
- if (check_new(tv, CvSTART(thing))) {
- total_size += op_size(CvSTART(thing), tv);
+ if (check_new(st, CvOUTSIDE(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvOUTSIDE(thing), st);
}
- if (check_new(tv, CvROOT(thing))) {
- total_size += op_size(CvROOT(thing), tv);
+ if (CvISXSUB(thing)) {
+ SV *sv = cv_const_sv((CV *)thing);
+ if (sv) {
+ total_size += thing_size(aTHX_ sv, st);
+ }
+ } else {
+ if (check_new(st, CvSTART(thing))) {
+ total_size += op_size(aTHX_ CvSTART(thing), st);
+ }
+ if (check_new(st, CvROOT(thing))) {
+ total_size += op_size(aTHX_ CvROOT(thing), st);
+ }
}
TAG;break;
case SVt_PVGV: TAG;
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
total_size += sizeof(XPVGV);
total_size += GvNAMELEN(thing);
#ifdef GvFILE
/* Is there a file? */
if (GvFILE(thing)) {
- if (check_new(tv, GvFILE(thing))) {
+ if (check_new(st, GvFILE(thing))) {
total_size += strlen(GvFILE(thing));
}
}
#endif
/* Is there something hanging off the glob? */
if (GvGP(thing)) {
- if (check_new(tv, GvGP(thing))) {
+ if (check_new(st, GvGP(thing))) {
total_size += sizeof(GP);
{
SV *generic_thing;
if ((generic_thing = (SV *)(GvGP(thing)->gp_sv))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
if ((generic_thing = (SV *)(GvGP(thing)->gp_form))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
if ((generic_thing = (SV *)(GvGP(thing)->gp_av))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
if ((generic_thing = (SV *)(GvGP(thing)->gp_hv))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
if ((generic_thing = (SV *)(GvGP(thing)->gp_egv))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
if ((generic_thing = (SV *)(GvGP(thing)->gp_cv))) {
- total_size += thing_size(generic_thing, tv);
+ total_size += thing_size(aTHX_ generic_thing, st);
}
}
}
TAG;break;
case SVt_PVFM: TAG;
total_size += sizeof(XPVFM);
- total_size += magic_size(thing, tv);
+ total_size += magic_size(thing, st);
total_size += ((XPVIO *) SvANY(thing))->xpv_len;
- if (check_new(tv, CvPADLIST(thing))) {
- total_size += thing_size((SV *)CvPADLIST(thing), tv);
+ if (check_new(st, CvPADLIST(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvPADLIST(thing), st);
}
- if (check_new(tv, CvOUTSIDE(thing))) {
- total_size += thing_size((SV *)CvOUTSIDE(thing), tv);
+ if (check_new(st, CvOUTSIDE(thing))) {
+ total_size += thing_size(aTHX_ (SV *)CvOUTSIDE(thing), st);
}
- if (go_yell && !fm_whine) {
+ if (st->go_yell && !st->fm_whine) {
carp("Devel::Size: Calculated sizes for FMs are incomplete");
- fm_whine = 1;
+ st->fm_whine = 1;
}
TAG;break;
case SVt_PVIO: TAG;
total_size += sizeof(XPVIO);
- total_size += magic_size(thing, tv);
- if (check_new(tv, (SvPVX_const(thing)))) {
+ total_size += magic_size(thing, st);
+ if (check_new(st, (SvPVX_const(thing)))) {
total_size += ((XPVIO *) SvANY(thing))->xpv_cur;
}
/* Some embedded char pointers */
- if (check_new(tv, ((XPVIO *) SvANY(thing))->xio_top_name)) {
+ if (check_new(st, ((XPVIO *) SvANY(thing))->xio_top_name)) {
total_size += strlen(((XPVIO *) SvANY(thing))->xio_top_name);
}
- if (check_new(tv, ((XPVIO *) SvANY(thing))->xio_fmt_name)) {
+ if (check_new(st, ((XPVIO *) SvANY(thing))->xio_fmt_name)) {
total_size += strlen(((XPVIO *) SvANY(thing))->xio_fmt_name);
}
- if (check_new(tv, ((XPVIO *) SvANY(thing))->xio_bottom_name)) {
+ if (check_new(st, ((XPVIO *) SvANY(thing))->xio_bottom_name)) {
total_size += strlen(((XPVIO *) SvANY(thing))->xio_bottom_name);
}
/* Throw the GVs on the list to be walked if they're not-null */
if (((XPVIO *) SvANY(thing))->xio_top_gv) {
- total_size += thing_size((SV *)((XPVIO *) SvANY(thing))->xio_top_gv,
- tv);
+ total_size += thing_size(aTHX_ (SV *)((XPVIO *) SvANY(thing))->xio_top_gv,
+ st);
}
if (((XPVIO *) SvANY(thing))->xio_bottom_gv) {
- total_size += thing_size((SV *)((XPVIO *) SvANY(thing))->xio_bottom_gv,
- tv);
+ total_size += thing_size(aTHX_ (SV *)((XPVIO *) SvANY(thing))->xio_bottom_gv,
+ st);
}
if (((XPVIO *) SvANY(thing))->xio_fmt_gv) {
- total_size += thing_size((SV *)((XPVIO *) SvANY(thing))->xio_fmt_gv,
- tv);
+ total_size += thing_size(aTHX_ (SV *)((XPVIO *) SvANY(thing))->xio_fmt_gv,
+ st);
}
/* Only go trotting through the IO structures if they're really
return total_size;
}
+static struct state *
+new_state(pTHX)
+{
+ 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))) {
+ st->dangle_whine = st->go_yell = SvIV(warn_flag) ? TRUE : FALSE;
+ }
+ if (NULL != (warn_flag = perl_get_sv("Devel::Size::dangle", FALSE))) {
+ st->dangle_whine = SvIV(warn_flag) ? TRUE : FALSE;
+ }
+ return st;
+}
+
MODULE = Devel::Size PACKAGE = Devel::Size
PROTOTYPES: DISABLE
CODE:
{
SV *thing = orig_thing;
- /* Hash to track our seen pointers */
- //HV *tracking_hash = newHV();
- SV *warn_flag;
- TRACKING *tv;
- Newz( 0xfc0ff, tv, 1, TRACKING );
-
- /* Check warning status */
- go_yell = 0;
- regex_whine = 0;
- fm_whine = 0;
-
- if (NULL != (warn_flag = perl_get_sv("Devel::Size::warn", FALSE))) {
- dangle_whine = go_yell = SvIV(warn_flag);
- }
- if (NULL != (warn_flag = perl_get_sv("Devel::Size::dangle", FALSE))) {
- dangle_whine = SvIV(warn_flag);
- }
+ struct state *st = new_state(aTHX);
/* If they passed us a reference then dereference it. This is the
only way we can check the sizes of arrays and hashes */
}
#endif
- RETVAL = thing_size(thing, tv);
- free_tracking(tv);
+ RETVAL = thing_size(aTHX_ thing, st);
+ free_state(st);
}
OUTPUT:
RETVAL
CODE:
{
SV *thing = orig_thing;
- /* Hash to track our seen pointers */
- //HV *tracking_hash;
- TRACKING *tv;
/* Array with things we still need to do */
AV *pending_array;
IV size = 0;
- SV *warn_flag;
+ struct state *st = new_state(aTHX);
/* Size starts at zero */
RETVAL = 0;
- /* Check warning status */
- go_yell = 0;
- regex_whine = 0;
- fm_whine = 0;
-
- if (NULL != (warn_flag = perl_get_sv("Devel::Size::warn", FALSE))) {
- dangle_whine = go_yell = SvIV(warn_flag);
- }
- if (NULL != (warn_flag = perl_get_sv("Devel::Size::dangle", FALSE))) {
- dangle_whine = SvIV(warn_flag);
- }
-
- /* init these after the go_yell above */
- //tracking_hash = newHV();
- Newz( 0xfc0ff, tv, 1, TRACKING );
pending_array = newAV();
- /* We cannot push HV/AV directly, only the RV. So deref it
- later (see below for "*** dereference later") and adjust here for
- the miscalculation.
+ /* 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)) {
- RETVAL -= thing_size(thing, NULL);
+ thing = SvRV(thing);
}
/* Put it on the pending array */
while (av_len(pending_array) >= 0) {
thing = av_pop(pending_array);
/* Process it if we've not seen it */
- if (check_new(tv, thing)) {
+ if (check_new(st, thing)) {
dbg_printf(("# Found type %i at %p\n", SvTYPE(thing), thing));
/* Is it valid? */
if (thing) {
av_push(pending_array, SvRV(thing));
}
TAG;break;
-
- /* this is the "*** dereference later" part - see above */
#if (PERL_VERSION < 11)
case SVt_RV: TAG;
#else
}
}
- size = thing_size(thing, tv);
+ size = thing_size(aTHX_ thing, st);
RETVAL += size;
} else {
/* check_new() returned false: */
}
} /* end while */
- free_tracking(tv);
+ free_state(st);
SvREFCNT_dec(pending_array);
}
OUTPUT: