/* B.xs * * Copyright (c) 1996 Malcolm Beattie * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * */ #define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #ifdef PerlIO typedef PerlIO * InputStream; #else typedef FILE * InputStream; #endif static const char* const svclassnames[] = { "B::NULL", #if PERL_VERSION >= 9 "B::BIND", #endif "B::IV", "B::NV", #if PERL_VERSION <= 10 "B::RV", #endif "B::PV", "B::PVIV", "B::PVNV", "B::PVMG", #if PERL_VERSION <= 8 "B::BM", #endif #if PERL_VERSION >= 11 "B::REGEXP", #endif #if PERL_VERSION >= 9 "B::GV", #endif "B::PVLV", "B::AV", "B::HV", "B::CV", #if PERL_VERSION <= 8 "B::GV", #endif "B::FM", "B::IO", }; typedef enum { OPc_NULL, /* 0 */ OPc_BASEOP, /* 1 */ OPc_UNOP, /* 2 */ OPc_BINOP, /* 3 */ OPc_LOGOP, /* 4 */ OPc_LISTOP, /* 5 */ OPc_PMOP, /* 6 */ OPc_SVOP, /* 7 */ OPc_PADOP, /* 8 */ OPc_PVOP, /* 9 */ OPc_LOOP, /* 10 */ OPc_COP /* 11 */ } opclass; static const char* const opclassnames[] = { "B::NULL", "B::OP", "B::UNOP", "B::BINOP", "B::LOGOP", "B::LISTOP", "B::PMOP", "B::SVOP", "B::PADOP", "B::PVOP", "B::LOOP", "B::COP" }; static const size_t opsizes[] = { 0, sizeof(OP), sizeof(UNOP), sizeof(BINOP), sizeof(LOGOP), sizeof(LISTOP), sizeof(PMOP), sizeof(SVOP), sizeof(PADOP), sizeof(PVOP), sizeof(LOOP), sizeof(COP) }; #define MY_CXT_KEY "B::_guts" XS_VERSION typedef struct { int x_walkoptree_debug; /* Flag for walkoptree debug hook */ SV * x_specialsv_list[7]; } my_cxt_t; START_MY_CXT #define walkoptree_debug (MY_CXT.x_walkoptree_debug) #define specialsv_list (MY_CXT.x_specialsv_list) static opclass cc_opclass(pTHX_ const OP *o) { bool custom = 0; if (!o) return OPc_NULL; if (o->op_type == 0) return (o->op_flags & OPf_KIDS) ? OPc_UNOP : OPc_BASEOP; if (o->op_type == OP_SASSIGN) return ((o->op_private & OPpASSIGN_BACKWARDS) ? OPc_UNOP : OPc_BINOP); if (o->op_type == OP_AELEMFAST) { #if PERL_VERSION <= 14 if (o->op_flags & OPf_SPECIAL) return OPc_BASEOP; else #endif #ifdef USE_ITHREADS return OPc_PADOP; #else return OPc_SVOP; #endif } #ifdef USE_ITHREADS if (o->op_type == OP_GV || o->op_type == OP_GVSV || o->op_type == OP_RCATLINE) return OPc_PADOP; #endif if (o->op_type == OP_CUSTOM) custom = 1; switch (OP_CLASS(o)) { case OA_BASEOP: return OPc_BASEOP; case OA_UNOP: return OPc_UNOP; case OA_BINOP: return OPc_BINOP; case OA_LOGOP: return OPc_LOGOP; case OA_LISTOP: return OPc_LISTOP; case OA_PMOP: return OPc_PMOP; case OA_SVOP: return OPc_SVOP; case OA_PADOP: return OPc_PADOP; case OA_PVOP_OR_SVOP: /* * Character translations (tr///) are usually a PVOP, keeping a * pointer to a table of shorts used to look up translations. * Under utf8, however, a simple table isn't practical; instead, * the OP is an SVOP (or, under threads, a PADOP), * and the SV is a reference to a swash * (i.e., an RV pointing to an HV). */ return (!custom && (o->op_private & (OPpTRANS_TO_UTF|OPpTRANS_FROM_UTF)) ) #if defined(USE_ITHREADS) \ && (PERL_VERSION > 8 || (PERL_VERSION == 8 && PERL_SUBVERSION >= 9)) ? OPc_PADOP : OPc_PVOP; #else ? OPc_SVOP : OPc_PVOP; #endif case OA_LOOP: return OPc_LOOP; case OA_COP: return OPc_COP; case OA_BASEOP_OR_UNOP: /* * UNI(OP_foo) in toke.c returns token UNI or FUNC1 depending on * whether parens were seen. perly.y uses OPf_SPECIAL to * signal whether a BASEOP had empty parens or none. * Some other UNOPs are created later, though, so the best * test is OPf_KIDS, which is set in newUNOP. */ return (o->op_flags & OPf_KIDS) ? OPc_UNOP : OPc_BASEOP; case OA_FILESTATOP: /* * The file stat OPs are created via UNI(OP_foo) in toke.c but use * the OPf_REF flag to distinguish between OP types instead of the * usual OPf_SPECIAL flag. As usual, if OPf_KIDS is set, then we * return OPc_UNOP so that walkoptree can find our children. If * OPf_KIDS is not set then we check OPf_REF. Without OPf_REF set * (no argument to the operator) it's an OP; with OPf_REF set it's * an SVOP (and op_sv is the GV for the filehandle argument). */ return ((o->op_flags & OPf_KIDS) ? OPc_UNOP : #ifdef USE_ITHREADS (o->op_flags & OPf_REF) ? OPc_PADOP : OPc_BASEOP); #else (o->op_flags & OPf_REF) ? OPc_SVOP : OPc_BASEOP); #endif case OA_LOOPEXOP: /* * next, last, redo, dump and goto use OPf_SPECIAL to indicate that a * label was omitted (in which case it's a BASEOP) or else a term was * seen. In this last case, all except goto are definitely PVOP but * goto is either a PVOP (with an ordinary constant label), an UNOP * with OPf_STACKED (with a non-constant non-sub) or an UNOP for * OP_REFGEN (with goto &sub) in which case OPf_STACKED also seems to * get set. */ if (o->op_flags & OPf_STACKED) return OPc_UNOP; else if (o->op_flags & OPf_SPECIAL) return OPc_BASEOP; else return OPc_PVOP; } warn("can't determine class of operator %s, assuming BASEOP\n", OP_NAME(o)); return OPc_BASEOP; } static SV * make_op_object(pTHX_ const OP *o) { SV *opsv = sv_newmortal(); sv_setiv(newSVrv(opsv, opclassnames[cc_opclass(aTHX_ o)]), PTR2IV(o)); return opsv; } static SV * make_sv_object(pTHX_ SV *sv) { SV *const arg = sv_newmortal(); const char *type = 0; IV iv; dMY_CXT; for (iv = 0; iv < (IV)(sizeof(specialsv_list)/sizeof(SV*)); iv++) { if (sv == specialsv_list[iv]) { type = "B::SPECIAL"; break; } } if (!type) { type = svclassnames[SvTYPE(sv)]; iv = PTR2IV(sv); } sv_setiv(newSVrv(arg, type), iv); return arg; } #if PERL_VERSION >= 9 static SV * make_temp_object(pTHX_ SV *temp) { SV *target; SV *arg = sv_newmortal(); const char *const type = svclassnames[SvTYPE(temp)]; const IV iv = PTR2IV(temp); target = newSVrv(arg, type); sv_setiv(target, iv); /* Need to keep our "temp" around as long as the target exists. Simplest way seems to be to hang it from magic, and let that clear it up. No vtable, so won't actually get in the way of anything. */ sv_magicext(target, temp, PERL_MAGIC_sv, NULL, NULL, 0); /* magic object has had its reference count increased, so we must drop our reference. */ SvREFCNT_dec(temp); return arg; } static SV * make_warnings_object(pTHX_ const COP *const cop) { const STRLEN *const warnings = cop->cop_warnings; const char *type = 0; dMY_CXT; IV iv = sizeof(specialsv_list)/sizeof(SV*); /* Counting down is deliberate. Before the split between make_sv_object and make_warnings_obj there appeared to be a bug - Nullsv and pWARN_STD were both 0, so you could never get a B::SPECIAL for pWARN_STD */ while (iv--) { if ((SV*)warnings == specialsv_list[iv]) { type = "B::SPECIAL"; break; } } if (type) { SV *arg = sv_newmortal(); sv_setiv(newSVrv(arg, type), iv); return arg; } else { /* B assumes that warnings are a regular SV. Seems easier to keep it happy by making them into a regular SV. */ return make_temp_object(aTHX_ newSVpvn((char *)(warnings + 1), *warnings)); } } static SV * make_cop_io_object(pTHX_ COP *cop) { SV *const value = newSV(0); Perl_emulate_cop_io(aTHX_ cop, value); if(SvOK(value)) { return make_sv_object(aTHX_ value); } else { SvREFCNT_dec(value); return make_sv_object(aTHX_ NULL); } } #endif static SV * make_mg_object(pTHX_ MAGIC *mg) { SV *arg = sv_newmortal(); sv_setiv(newSVrv(arg, "B::MAGIC"), PTR2IV(mg)); return arg; } static SV * cstring(pTHX_ SV *sv, bool perlstyle) { SV *sstr; if (!SvOK(sv)) return newSVpvs_flags("0", SVs_TEMP); sstr = newSVpvs_flags("\"", SVs_TEMP); if (perlstyle && SvUTF8(sv)) { SV *tmpsv = sv_newmortal(); /* Temporary SV to feed sv_uni_display */ const STRLEN len = SvCUR(sv); const char *s = sv_uni_display(tmpsv, sv, 8*len, UNI_DISPLAY_QQ); while (*s) { if (*s == '"') sv_catpvs(sstr, "\\\""); else if (*s == '$') sv_catpvs(sstr, "\\$"); else if (*s == '@') sv_catpvs(sstr, "\\@"); else if (*s == '\\') { if (strchr("nrftax\\",*(s+1))) sv_catpvn(sstr, s++, 2); else sv_catpvs(sstr, "\\\\"); } else /* should always be printable */ sv_catpvn(sstr, s, 1); ++s; } } else { /* XXX Optimise? */ STRLEN len; const char *s = SvPV(sv, len); for (; len; len--, s++) { /* At least try a little for readability */ if (*s == '"') sv_catpvs(sstr, "\\\""); else if (*s == '\\') sv_catpvs(sstr, "\\\\"); /* trigraphs - bleagh */ else if (!perlstyle && *s == '?' && len>=3 && s[1] == '?') { Perl_sv_catpvf(aTHX_ sstr, "\\%03o", '?'); } else if (perlstyle && *s == '$') sv_catpvs(sstr, "\\$"); else if (perlstyle && *s == '@') sv_catpvs(sstr, "\\@"); #ifdef EBCDIC else if (isPRINT(*s)) #else else if (*s >= ' ' && *s < 127) #endif /* EBCDIC */ sv_catpvn(sstr, s, 1); else if (*s == '\n') sv_catpvs(sstr, "\\n"); else if (*s == '\r') sv_catpvs(sstr, "\\r"); else if (*s == '\t') sv_catpvs(sstr, "\\t"); else if (*s == '\a') sv_catpvs(sstr, "\\a"); else if (*s == '\b') sv_catpvs(sstr, "\\b"); else if (*s == '\f') sv_catpvs(sstr, "\\f"); else if (!perlstyle && *s == '\v') sv_catpvs(sstr, "\\v"); else { /* Don't want promotion of a signed -1 char in sprintf args */ const unsigned char c = (unsigned char) *s; Perl_sv_catpvf(aTHX_ sstr, "\\%03o", c); } /* XXX Add line breaks if string is long */ } } sv_catpvs(sstr, "\""); return sstr; } static SV * cchar(pTHX_ SV *sv) { SV *sstr = newSVpvs_flags("'", SVs_TEMP); const char *s = SvPV_nolen(sv); /* Don't want promotion of a signed -1 char in sprintf args */ const unsigned char c = (unsigned char) *s; if (c == '\'') sv_catpvs(sstr, "\\'"); else if (c == '\\') sv_catpvs(sstr, "\\\\"); #ifdef EBCDIC else if (isPRINT(c)) #else else if (c >= ' ' && c < 127) #endif /* EBCDIC */ sv_catpvn(sstr, s, 1); else if (c == '\n') sv_catpvs(sstr, "\\n"); else if (c == '\r') sv_catpvs(sstr, "\\r"); else if (c == '\t') sv_catpvs(sstr, "\\t"); else if (c == '\a') sv_catpvs(sstr, "\\a"); else if (c == '\b') sv_catpvs(sstr, "\\b"); else if (c == '\f') sv_catpvs(sstr, "\\f"); else if (c == '\v') sv_catpvs(sstr, "\\v"); else Perl_sv_catpvf(aTHX_ sstr, "\\%03o", c); sv_catpvs(sstr, "'"); return sstr; } #if PERL_VERSION >= 9 # define PMOP_pmreplstart(o) o->op_pmstashstartu.op_pmreplstart # define PMOP_pmreplroot(o) o->op_pmreplrootu.op_pmreplroot #else # define PMOP_pmreplstart(o) o->op_pmreplstart # define PMOP_pmreplroot(o) o->op_pmreplroot # define PMOP_pmpermflags(o) o->op_pmpermflags # define PMOP_pmdynflags(o) o->op_pmdynflags #endif static SV * walkoptree(pTHX_ OP *o, const char *method, SV *ref) { dSP; OP *kid; SV *object; const char *const classname = opclassnames[cc_opclass(aTHX_ o)]; dMY_CXT; /* Check that no-one has changed our reference, or is holding a reference to it. */ if (SvREFCNT(ref) == 1 && SvROK(ref) && SvTYPE(ref) == SVt_RV && (object = SvRV(ref)) && SvREFCNT(object) == 1 && SvTYPE(object) == SVt_PVMG && SvIOK_only(object) && !SvMAGICAL(object) && !SvMAGIC(object) && SvSTASH(object)) { /* Looks good, so rebless it for the class we need: */ sv_bless(ref, gv_stashpv(classname, GV_ADD)); } else { /* Need to make a new one. */ ref = sv_newmortal(); object = newSVrv(ref, classname); } sv_setiv(object, PTR2IV(o)); if (walkoptree_debug) { PUSHMARK(sp); XPUSHs(ref); PUTBACK; perl_call_method("walkoptree_debug", G_DISCARD); } PUSHMARK(sp); XPUSHs(ref); PUTBACK; perl_call_method(method, G_DISCARD); if (o && (o->op_flags & OPf_KIDS)) { for (kid = ((UNOP*)o)->op_first; kid; kid = kid->op_sibling) { ref = walkoptree(aTHX_ kid, method, ref); } } if (o && (cc_opclass(aTHX_ o) == OPc_PMOP) && o->op_type != OP_PUSHRE && (kid = PMOP_pmreplroot(cPMOPo))) { ref = walkoptree(aTHX_ kid, method, ref); } return ref; } static SV ** oplist(pTHX_ OP *o, SV **SP) { for(; o; o = o->op_next) { #if PERL_VERSION >= 9 if (o->op_opt == 0) break; o->op_opt = 0; #else if (o->op_seq == 0) break; o->op_seq = 0; #endif XPUSHs(make_op_object(aTHX_ o)); switch (o->op_type) { case OP_SUBST: SP = oplist(aTHX_ PMOP_pmreplstart(cPMOPo), SP); continue; case OP_SORT: if (o->op_flags & OPf_STACKED && o->op_flags & OPf_SPECIAL) { OP *kid = cLISTOPo->op_first->op_sibling; /* pass pushmark */ kid = kUNOP->op_first; /* pass rv2gv */ kid = kUNOP->op_first; /* pass leave */ SP = oplist(aTHX_ kid->op_next, SP); } continue; } switch (PL_opargs[o->op_type] & OA_CLASS_MASK) { case OA_LOGOP: SP = oplist(aTHX_ cLOGOPo->op_other, SP); break; case OA_LOOP: SP = oplist(aTHX_ cLOOPo->op_lastop, SP); SP = oplist(aTHX_ cLOOPo->op_nextop, SP); SP = oplist(aTHX_ cLOOPo->op_redoop, SP); break; } } return SP; } typedef OP *B__OP; typedef UNOP *B__UNOP; typedef BINOP *B__BINOP; typedef LOGOP *B__LOGOP; typedef LISTOP *B__LISTOP; typedef PMOP *B__PMOP; typedef SVOP *B__SVOP; typedef PADOP *B__PADOP; typedef PVOP *B__PVOP; typedef LOOP *B__LOOP; typedef COP *B__COP; typedef SV *B__SV; typedef SV *B__IV; typedef SV *B__PV; typedef SV *B__NV; typedef SV *B__PVMG; #if PERL_VERSION >= 11 typedef SV *B__REGEXP; #endif typedef SV *B__PVLV; typedef SV *B__BM; typedef SV *B__RV; typedef SV *B__FM; typedef AV *B__AV; typedef HV *B__HV; typedef CV *B__CV; typedef GV *B__GV; typedef IO *B__IO; typedef MAGIC *B__MAGIC; typedef HE *B__HE; #if PERL_VERSION >= 9 typedef struct refcounted_he *B__RHE; #endif #ifdef MULTIPLICITY # define ASSIGN_COMMON_ALIAS(var) \ STMT_START { XSANY.any_i32 = offsetof(struct interpreter, var); } STMT_END #else # define ASSIGN_COMMON_ALIAS(var) \ STMT_START { XSANY.any_ptr = (void *)&PL_##var; } STMT_END #endif /* This needs to be ALIASed in a custom way, hence can't easily be defined as a regular XSUB. */ static XSPROTO(intrpvar_sv_common); /* prototype to pass -Wmissing-prototypes */ static XSPROTO(intrpvar_sv_common) { dVAR; dXSARGS; SV *ret; if (items != 0) croak_xs_usage(cv, ""); #ifdef MULTIPLICITY ret = *(SV **)(XSANY.any_i32 + (char *)my_perl); #else ret = *(SV **)(XSANY.any_ptr); #endif ST(0) = make_sv_object(aTHX_ ret); XSRETURN(1); } #include "const-c.inc" MODULE = B PACKAGE = B INCLUDE: const-xs.inc PROTOTYPES: DISABLE BOOT: { CV *cv; const char *file = __FILE__; MY_CXT_INIT; specialsv_list[0] = Nullsv; specialsv_list[1] = &PL_sv_undef; specialsv_list[2] = &PL_sv_yes; specialsv_list[3] = &PL_sv_no; specialsv_list[4] = (SV *) pWARN_ALL; specialsv_list[5] = (SV *) pWARN_NONE; specialsv_list[6] = (SV *) pWARN_STD; cv = newXS("B::init_av", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iinitav); cv = newXS("B::check_av", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Icheckav_save); #if PERL_VERSION >= 9 cv = newXS("B::unitcheck_av", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iunitcheckav_save); #endif cv = newXS("B::begin_av", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Ibeginav_save); cv = newXS("B::end_av", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iendav); cv = newXS("B::main_cv", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Imain_cv); cv = newXS("B::inc_gv", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iincgv); cv = newXS("B::defstash", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Idefstash); cv = newXS("B::curstash", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Icurstash); cv = newXS("B::formfeed", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iformfeed); #ifdef USE_ITHREADS cv = newXS("B::regex_padav", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iregex_padav); #endif cv = newXS("B::warnhook", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Iwarnhook); cv = newXS("B::diehook", intrpvar_sv_common, file); ASSIGN_COMMON_ALIAS(Idiehook); } long amagic_generation() CODE: RETVAL = PL_amagic_generation; OUTPUT: RETVAL void comppadlist() PPCODE: PUSHs(make_sv_object(aTHX_ (SV *)(PL_main_cv ? CvPADLIST(PL_main_cv) : CvPADLIST(PL_compcv)))); void sv_undef() ALIAS: sv_no = 1 sv_yes = 2 PPCODE: PUSHs(make_sv_object(aTHX_ ix > 1 ? &PL_sv_yes : ix < 1 ? &PL_sv_undef : &PL_sv_no)); void main_root() ALIAS: main_start = 1 PPCODE: PUSHs(make_op_object(aTHX_ ix ? PL_main_start : PL_main_root)); UV sub_generation() ALIAS: dowarn = 1 CODE: RETVAL = ix ? PL_dowarn : PL_sub_generation; OUTPUT: RETVAL void walkoptree(op, method) B::OP op const char * method CODE: (void) walkoptree(aTHX_ op, method, &PL_sv_undef); int walkoptree_debug(...) CODE: dMY_CXT; RETVAL = walkoptree_debug; if (items > 0 && SvTRUE(ST(1))) walkoptree_debug = 1; OUTPUT: RETVAL #define address(sv) PTR2IV(sv) IV address(sv) SV * sv void svref_2object(sv) SV * sv PPCODE: if (!SvROK(sv)) croak("argument is not a reference"); PUSHs(make_sv_object(aTHX_ SvRV(sv))); void opnumber(name) const char * name CODE: { int i; IV result = -1; ST(0) = sv_newmortal(); if (strncmp(name,"pp_",3) == 0) name += 3; for (i = 0; i < PL_maxo; i++) { if (strcmp(name, PL_op_name[i]) == 0) { result = i; break; } } sv_setiv(ST(0),result); } void ppname(opnum) int opnum CODE: ST(0) = sv_newmortal(); if (opnum >= 0 && opnum < PL_maxo) { sv_setpvs(ST(0), "pp_"); sv_catpv(ST(0), PL_op_name[opnum]); } void hash(sv) SV * sv CODE: STRLEN len; U32 hash = 0; const char *s = SvPVbyte(sv, len); PERL_HASH(hash, s, len); ST(0) = sv_2mortal(Perl_newSVpvf(aTHX_ "0x%"UVxf, (UV)hash)); #define cast_I32(foo) (I32)foo IV cast_I32(i) IV i void minus_c() ALIAS: save_BEGINs = 1 CODE: if (ix) PL_savebegin = TRUE; else PL_minus_c = TRUE; void cstring(sv) SV * sv ALIAS: perlstring = 1 cchar = 2 PPCODE: PUSHs(ix == 2 ? cchar(aTHX_ sv) : cstring(aTHX_ sv, (bool)ix)); void threadsv_names() PPCODE: #if PERL_VERSION <= 8 # ifdef USE_5005THREADS int i; const STRLEN len = strlen(PL_threadsv_names); EXTEND(sp, len); for (i = 0; i < len; i++) PUSHs(newSVpvn_flags(&PL_threadsv_names[i], 1, SVs_TEMP)); # endif #endif #define SVp 0x00000 #define U32p 0x10000 #define line_tp 0x20000 #define OPp 0x30000 #define PADOFFSETp 0x40000 #define U8p 0x50000 #define IVp 0x60000 #define char_pp 0x70000 #define OP_next_ix OPp | offsetof(struct op, op_next) #define OP_sibling_ix OPp | offsetof(struct op, op_sibling) #define UNOP_first_ix OPp | offsetof(struct unop, op_first) #define BINOP_last_ix OPp | offsetof(struct binop, op_last) #define LOGOP_other_ix OPp | offsetof(struct logop, op_other) #if PERL_VERSION >= 9 # define PMOP_pmreplstart_ix \ OPp | offsetof(struct pmop, op_pmstashstartu.op_pmreplstart) #else # define PMOP_pmreplstart_ix OPp | offsetof(struct pmop, op_pmreplstart) #endif #define LOOP_redoop_ix OPp | offsetof(struct loop, op_redoop) #define LOOP_nextop_ix OPp | offsetof(struct loop, op_nextop) #define LOOP_lastop_ix OPp | offsetof(struct loop, op_lastop) #define OP_targ_ix PADOFFSETp | offsetof(struct op, op_targ) #define OP_flags_ix U8p | offsetof(struct op, op_flags) #define OP_private_ix U8p | offsetof(struct op, op_private) #define PMOP_pmflags_ix U32p | offsetof(struct pmop, op_pmflags) #ifdef USE_ITHREADS #define PMOP_pmoffset_ix IVp | offsetof(struct pmop, op_pmoffset) #endif # Yes, B::SV::sv and B::SV::gv really do end up generating identical code. #define SVOP_sv_ix SVp | offsetof(struct svop, op_sv) #define SVOP_gv_ix SVp | offsetof(struct svop, op_sv) #define PADOP_padix_ix PADOFFSETp | offsetof(struct padop, op_padix) #define COP_seq_ix U32p | offsetof(struct cop, cop_seq) #define COP_line_ix line_tp | offsetof(struct cop, cop_line) #if PERL_VERSION >= 9 #define COP_hints_ix U32p | offsetof(struct cop, cop_hints) #else #define COP_hints_ix U8p | offsetof(struct cop, op_private) #endif #ifdef USE_ITHREADS #define COP_stashpv_ix char_pp | offsetof(struct cop, cop_stashpv) #define COP_file_ix char_pp | offsetof(struct cop, cop_file) #else #define COP_stash_ix SVp | offsetof(struct cop, cop_stash) #define COP_filegv_ix SVp | offsetof(struct cop, cop_filegv) #endif MODULE = B PACKAGE = B::OP size_t size(o) B::OP o CODE: RETVAL = opsizes[cc_opclass(aTHX_ o)]; OUTPUT: RETVAL # The type checking code in B has always been identical for all OP types, # irrespective of whether the action is actually defined on that OP. # We should fix this void next(o) B::OP o ALIAS: B::OP::next = OP_next_ix B::OP::sibling = OP_sibling_ix B::OP::targ = OP_targ_ix B::OP::flags = OP_flags_ix B::OP::private = OP_private_ix B::UNOP::first = UNOP_first_ix B::BINOP::last = BINOP_last_ix B::LOGOP::other = LOGOP_other_ix B::PMOP::pmreplstart = PMOP_pmreplstart_ix B::LOOP::redoop = LOOP_redoop_ix B::LOOP::nextop = LOOP_nextop_ix B::LOOP::lastop = LOOP_lastop_ix B::PMOP::pmflags = PMOP_pmflags_ix B::SVOP::sv = SVOP_sv_ix B::SVOP::gv = SVOP_gv_ix B::PADOP::padix = PADOP_padix_ix B::COP::cop_seq = COP_seq_ix B::COP::line = COP_line_ix B::COP::hints = COP_hints_ix PREINIT: char *ptr; SV *ret; PPCODE: ptr = (ix & 0xFFFF) + (char *)o; switch ((U8)(ix >> 16)) { case (U8)(OPp >> 16): ret = make_op_object(aTHX_ *((OP **)ptr)); break; case (U8)(PADOFFSETp >> 16): ret = sv_2mortal(newSVuv(*((PADOFFSET*)ptr))); break; case (U8)(U8p >> 16): ret = sv_2mortal(newSVuv(*((U8*)ptr))); break; case (U8)(U32p >> 16): ret = sv_2mortal(newSVuv(*((U32*)ptr))); break; case (U8)(SVp >> 16): ret = make_sv_object(aTHX_ *((SV **)ptr)); break; case (U8)(line_tp >> 16): ret = sv_2mortal(newSVuv(*((line_t *)ptr))); break; #ifdef USE_ITHREADS case (U8)(IVp >> 16): ret = sv_2mortal(newSViv(*((IV*)ptr))); break; case (U8)(char_pp >> 16): ret = sv_2mortal(newSVpv(*((char **)ptr), 0)); break; #endif default: croak("Illegal alias 0x%08x for B::*next", (unsigned)ix); } ST(0) = ret; XSRETURN(1); char * name(o) B::OP o ALIAS: desc = 1 CODE: RETVAL = (char *)(ix ? OP_DESC(o) : OP_NAME(o)); OUTPUT: RETVAL void ppaddr(o) B::OP o PREINIT: int i; SV *sv = newSVpvs_flags("PL_ppaddr[OP_", SVs_TEMP); CODE: sv_catpv(sv, PL_op_name[o->op_type]); for (i=13; (STRLEN)i < SvCUR(sv); ++i) SvPVX(sv)[i] = toUPPER(SvPVX(sv)[i]); sv_catpvs(sv, "]"); ST(0) = sv; #if PERL_VERSION >= 9 # These 3 are all bitfields, so we can't take their addresses. UV type(o) B::OP o ALIAS: opt = 1 spare = 2 CODE: switch(ix) { case 1: RETVAL = o->op_opt; break; case 2: RETVAL = o->op_spare; break; default: RETVAL = o->op_type; } OUTPUT: RETVAL #else UV type(o) B::OP o ALIAS: seq = 1 CODE: switch(ix) { case 1: RETVAL = o->op_seq; break; default: RETVAL = o->op_type; } OUTPUT: RETVAL #endif void oplist(o) B::OP o PPCODE: SP = oplist(aTHX_ o, SP); MODULE = B PACKAGE = B::LISTOP U32 children(o) B::LISTOP o OP * kid = NO_INIT int i = NO_INIT CODE: i = 0; for (kid = o->op_first; kid; kid = kid->op_sibling) i++; RETVAL = i; OUTPUT: RETVAL MODULE = B PACKAGE = B::PMOP PREFIX = PMOP_ #if PERL_VERSION <= 8 void PMOP_pmreplroot(o) B::PMOP o OP * root = NO_INIT CODE: root = o->op_pmreplroot; /* OP_PUSHRE stores an SV* instead of an OP* in op_pmreplroot */ if (o->op_type == OP_PUSHRE) { ST(0) = sv_newmortal(); # ifdef USE_ITHREADS sv_setiv(ST(0), INT2PTR(PADOFFSET,root) ); # else sv_setiv(newSVrv(ST(0), root ? svclassnames[SvTYPE((SV*)root)] : "B::SV"), PTR2IV(root)); # endif } else { ST(0) = make_op_object(aTHX_ root); } #else void PMOP_pmreplroot(o) B::PMOP o CODE: if (o->op_type == OP_PUSHRE) { # ifdef USE_ITHREADS ST(0) = sv_newmortal(); sv_setiv(ST(0), o->op_pmreplrootu.op_pmtargetoff); # else GV *const target = o->op_pmreplrootu.op_pmtargetgv; ST(0) = sv_newmortal(); sv_setiv(newSVrv(ST(0), target ? svclassnames[SvTYPE((SV*)target)] : "B::SV"), PTR2IV(target)); # endif } else { OP *const root = o->op_pmreplrootu.op_pmreplroot; ST(0) = make_op_object(aTHX_ root); } #endif #ifdef USE_ITHREADS #define PMOP_pmstashpv(o) PmopSTASHPV(o); char* PMOP_pmstashpv(o) B::PMOP o #else void PMOP_pmstash(o) B::PMOP o PPCODE: PUSHs(make_sv_object(aTHX_ (SV *) PmopSTASH(o))); #endif #if PERL_VERSION < 9 void PMOP_pmnext(o) B::PMOP o PPCODE: PUSHs(make_op_object(aTHX_ o->op_pmnext)); U32 PMOP_pmpermflags(o) B::PMOP o U8 PMOP_pmdynflags(o) B::PMOP o #endif void PMOP_precomp(o) B::PMOP o PREINIT: dXSI32; REGEXP *rx; CODE: rx = PM_GETRE(o); ST(0) = sv_newmortal(); if (rx) { #if PERL_VERSION >= 9 if (ix) { sv_setuv(ST(0), RX_EXTFLAGS(rx)); } else #endif { sv_setpvn(ST(0), RX_PRECOMP(rx), RX_PRELEN(rx)); } } BOOT: { CV *cv; #ifdef USE_ITHREADS cv = newXS("B::PMOP::pmoffset", XS_B__OP_next, __FILE__); XSANY.any_i32 = PMOP_pmoffset_ix; cv = newXS("B::COP::stashpv", XS_B__OP_next, __FILE__); XSANY.any_i32 = COP_stashpv_ix; cv = newXS("B::COP::file", XS_B__OP_next, __FILE__); XSANY.any_i32 = COP_file_ix; #else cv = newXS("B::COP::stash", XS_B__OP_next, __FILE__); XSANY.any_i32 = COP_stash_ix; cv = newXS("B::COP::filegv", XS_B__OP_next, __FILE__); XSANY.any_i32 = COP_filegv_ix; #endif #if PERL_VERSION >= 9 cv = newXS("B::PMOP::reflags", XS_B__PMOP_precomp, __FILE__); XSANY.any_i32 = 1; #endif } MODULE = B PACKAGE = B::PADOP void sv(o) B::PADOP o PREINIT: SV *ret; ALIAS: gv = 1 PPCODE: /* It happens that the output typemaps for B::SV and B::GV are identical. The "smarts" are in make_sv_object(), which determines which class to use based on SvTYPE(), rather than anything baked in at compile time. */ if (o->op_padix) { ret = PAD_SVl(o->op_padix); if (ix && SvTYPE(ret) != SVt_PVGV) ret = NULL; } else { ret = NULL; } PUSHs(make_sv_object(aTHX_ ret)); MODULE = B PACKAGE = B::PVOP void pv(o) B::PVOP o CODE: /* * OP_TRANS uses op_pv to point to a table of 256 or >=258 shorts * whereas other PVOPs point to a null terminated string. */ if ((o->op_type == OP_TRANS || o->op_type == OP_TRANSR) && (o->op_private & OPpTRANS_COMPLEMENT) && !(o->op_private & OPpTRANS_DELETE)) { const short* const tbl = (short*)o->op_pv; const short entries = 257 + tbl[256]; ST(0) = newSVpvn_flags(o->op_pv, entries * sizeof(short), SVs_TEMP); } else if (o->op_type == OP_TRANS || o->op_type == OP_TRANSR) { ST(0) = newSVpvn_flags(o->op_pv, 256 * sizeof(short), SVs_TEMP); } else ST(0) = newSVpvn_flags(o->op_pv, strlen(o->op_pv), SVs_TEMP); #define COP_label(o) CopLABEL(o) #define COP_arybase(o) CopARYBASE_get(o) MODULE = B PACKAGE = B::COP PREFIX = COP_ const char * COP_label(o) B::COP o # Both pairs of accessors are provided for both ithreads and not, but for each, # one pair is direct structure access, and 1 pair "faked up" with a more complex # macro. We implement the direct structure access pair using the common code # above (B::OP::next) #ifdef USE_ITHREADS void COP_stash(o) B::COP o ALIAS: filegv = 1 PPCODE: PUSHs(make_sv_object(aTHX_ ix ? (SV *)CopFILEGV(o) : (SV *)CopSTASH(o))); #else char * COP_stashpv(o) B::COP o ALIAS: file = 1 CODE: RETVAL = ix ? CopFILE(o) : CopSTASHPV(o); OUTPUT: RETVAL #endif I32 COP_arybase(o) B::COP o void COP_warnings(o) B::COP o ALIAS: io = 1 PPCODE: #if PERL_VERSION >= 9 ST(0) = ix ? make_cop_io_object(aTHX_ o) : make_warnings_object(aTHX_ o); #else ST(0) = make_sv_object(aTHX_ ix ? o->cop_io : o->cop_warnings); #endif XSRETURN(1); #if PERL_VERSION >= 9 B::RHE COP_hints_hash(o) B::COP o CODE: RETVAL = CopHINTHASH_get(o); OUTPUT: RETVAL #endif MODULE = B PACKAGE = B::SV #define MAGICAL_FLAG_BITS (SVs_GMG|SVs_SMG|SVs_RMG) U32 REFCNT(sv) B::SV sv ALIAS: FLAGS = 0xFFFFFFFF SvTYPE = SVTYPEMASK POK = SVf_POK ROK = SVf_ROK MAGICAL = MAGICAL_FLAG_BITS CODE: RETVAL = ix ? (SvFLAGS(sv) & (U32)ix) : SvREFCNT(sv); OUTPUT: RETVAL void object_2svref(sv) B::SV sv PPCODE: ST(0) = sv_2mortal(newRV(sv)); XSRETURN(1); MODULE = B PACKAGE = B::IV PREFIX = Sv IV SvIV(sv) B::IV sv MODULE = B PACKAGE = B::IV #define sv_SVp 0x00000 #define sv_IVp 0x10000 #define sv_UVp 0x20000 #define sv_STRLENp 0x30000 #define sv_U32p 0x40000 #define sv_U8p 0x50000 #define sv_char_pp 0x60000 #define sv_NVp 0x70000 #define sv_char_p 0x80000 #define sv_SSize_tp 0x90000 #define sv_I32p 0xA0000 #define sv_U16p 0xB0000 #define IV_ivx_ix sv_IVp | offsetof(struct xpviv, xiv_iv) #define IV_uvx_ix sv_UVp | offsetof(struct xpvuv, xuv_uv) #define NV_nvx_ix sv_NVp | offsetof(struct xpvnv, xnv_u.xnv_nv) #if PERL_VERSION >= 10 #define NV_cop_seq_range_low_ix \ sv_U32p | offsetof(struct xpvnv, xnv_u.xpad_cop_seq.xlow) #define NV_cop_seq_range_high_ix \ sv_U32p | offsetof(struct xpvnv, xnv_u.xpad_cop_seq.xhigh) #define NV_parent_pad_index_ix \ sv_U32p | offsetof(struct xpvnv, xnv_u.xpad_cop_seq.xlow) #define NV_parent_fakelex_flags_ix \ sv_U32p | offsetof(struct xpvnv, xnv_u.xpad_cop_seq.xhigh) #else #define NV_cop_seq_range_low_ix \ sv_NVp | offsetof(struct xpvnv, xnv_nv) #define NV_cop_seq_range_high_ix \ sv_UVp | offsetof(struct xpvnv, xuv_uv) #define NV_parent_pad_index_ix \ sv_NVp | offsetof(struct xpvnv, xnv_nv) #define NV_parent_fakelex_flags_ix \ sv_UVp | offsetof(struct xpvnv, xuv_uv) #endif #define PV_cur_ix sv_STRLENp | offsetof(struct xpv, xpv_cur) #define PV_len_ix sv_STRLENp | offsetof(struct xpv, xpv_len) #define PVMG_stash_ix sv_SVp | offsetof(struct xpvmg, xmg_stash) #if PERL_VERSION >= 10 # if PERL_VERSION > 14 # define PVBM_useful_ix sv_I32p | offsetof(struct xpvgv, xnv_u.xbm_s.xbm_useful) # define PVBM_previous_ix sv_UVp | offsetof(struct xpvuv, xuv_uv) # else #define PVBM_useful_ix sv_I32p | offsetof(struct xpvgv, xiv_u.xivu_i32) #define PVBM_previous_ix sv_U32p | offsetof(struct xpvgv, xnv_u.xbm_s.xbm_previous) # endif #define PVBM_rare_ix sv_U8p | offsetof(struct xpvgv, xnv_u.xbm_s.xbm_rare) #else #define PVBM_useful_ix sv_I32p | offsetof(struct xpvbm, xbm_useful) #define PVBM_previous_ix sv_U16p | offsetof(struct xpvbm, xbm_previous) #define PVBM_rare_ix sv_U8p | offsetof(struct xpvbm, xbm_rare) #endif #define PVLV_targoff_ix sv_U32p | offsetof(struct xpvlv, xlv_targoff) #define PVLV_targlen_ix sv_U32p | offsetof(struct xpvlv, xlv_targlen) #define PVLV_targ_ix sv_SVp | offsetof(struct xpvlv, xlv_targ) #define PVLV_type_ix sv_char_p | offsetof(struct xpvlv, xlv_type) #if PERL_VERSION >= 10 #define PVGV_stash_ix sv_SVp | offsetof(struct xpvgv, xnv_u.xgv_stash) #define PVGV_flags_ix sv_STRLENp | offsetof(struct xpvgv, xpv_cur) #define PVIO_lines_ix sv_IVp | offsetof(struct xpvio, xiv_iv) #else #define PVGV_stash_ix sv_SVp | offsetof(struct xpvgv, xgv_stash) #define PVGV_flags_ix sv_U8p | offsetof(struct xpvgv, xgv_flags) #define PVIO_lines_ix sv_IVp | offsetof(struct xpvio, xio_lines) #endif #define PVIO_page_ix sv_IVp | offsetof(struct xpvio, xio_page) #define PVIO_page_len_ix sv_IVp | offsetof(struct xpvio, xio_page_len) #define PVIO_lines_left_ix sv_IVp | offsetof(struct xpvio, xio_lines_left) #define PVIO_top_name_ix sv_char_pp | offsetof(struct xpvio, xio_top_name) #define PVIO_top_gv_ix sv_SVp | offsetof(struct xpvio, xio_top_gv) #define PVIO_fmt_name_ix sv_char_pp | offsetof(struct xpvio, xio_fmt_name) #define PVIO_fmt_gv_ix sv_SVp | offsetof(struct xpvio, xio_fmt_gv) #define PVIO_bottom_name_ix sv_char_pp | offsetof(struct xpvio, xio_bottom_name) #define PVIO_bottom_gv_ix sv_SVp | offsetof(struct xpvio, xio_bottom_gv) #define PVIO_type_ix sv_char_p | offsetof(struct xpvio, xio_type) #define PVIO_flags_ix sv_U8p | offsetof(struct xpvio, xio_flags) #define PVAV_max_ix sv_SSize_tp | offsetof(struct xpvav, xav_max) #define PVFM_lines_ix sv_IVp | offsetof(struct xpvfm, xfm_lines) #define PVCV_stash_ix sv_SVp | offsetof(struct xpvcv, xcv_stash) #define PVCV_gv_ix sv_SVp | offsetof(struct xpvcv, xcv_gv) #define PVCV_file_ix sv_char_pp | offsetof(struct xpvcv, xcv_file) #define PVCV_depth_ix sv_I32p | offsetof(struct xpvcv, xcv_depth) #define PVCV_padlist_ix sv_SVp | offsetof(struct xpvcv, xcv_padlist) #define PVCV_outside_ix sv_SVp | offsetof(struct xpvcv, xcv_outside) #define PVCV_outside_seq_ix sv_U32p | offsetof(struct xpvcv, xcv_outside_seq) #define PVCV_flags_ix sv_U16p | offsetof(struct xpvcv, xcv_flags) #define PVHV_max_ix sv_STRLENp | offsetof(struct xpvhv, xhv_max) #if PERL_VERSION > 12 #define PVHV_keys_ix sv_STRLENp | offsetof(struct xpvhv, xhv_keys) #else #define PVHV_keys_ix sv_IVp | offsetof(struct xpvhv, xhv_keys) #endif # The type checking code in B has always been identical for all SV types, # irrespective of whether the action is actually defined on that SV. # We should fix this void IVX(sv) B::SV sv ALIAS: B::IV::IVX = IV_ivx_ix B::IV::UVX = IV_uvx_ix B::NV::NVX = NV_nvx_ix B::NV::COP_SEQ_RANGE_LOW = NV_cop_seq_range_low_ix B::NV::COP_SEQ_RANGE_HIGH = NV_cop_seq_range_high_ix B::NV::PARENT_PAD_INDEX = NV_parent_pad_index_ix B::NV::PARENT_FAKELEX_FLAGS = NV_parent_fakelex_flags_ix B::PV::CUR = PV_cur_ix B::PV::LEN = PV_len_ix B::PVMG::SvSTASH = PVMG_stash_ix B::PVLV::TARGOFF = PVLV_targoff_ix B::PVLV::TARGLEN = PVLV_targlen_ix B::PVLV::TARG = PVLV_targ_ix B::PVLV::TYPE = PVLV_type_ix B::GV::STASH = PVGV_stash_ix B::GV::GvFLAGS = PVGV_flags_ix B::BM::USEFUL = PVBM_useful_ix B::BM::PREVIOUS = PVBM_previous_ix B::BM::RARE = PVBM_rare_ix B::IO::LINES = PVIO_lines_ix B::IO::PAGE = PVIO_page_ix B::IO::PAGE_LEN = PVIO_page_len_ix B::IO::LINES_LEFT = PVIO_lines_left_ix B::IO::TOP_NAME = PVIO_top_name_ix B::IO::TOP_GV = PVIO_top_gv_ix B::IO::FMT_NAME = PVIO_fmt_name_ix B::IO::FMT_GV = PVIO_fmt_gv_ix B::IO::BOTTOM_NAME = PVIO_bottom_name_ix B::IO::BOTTOM_GV = PVIO_bottom_gv_ix B::IO::IoTYPE = PVIO_type_ix B::IO::IoFLAGS = PVIO_flags_ix B::AV::MAX = PVAV_max_ix B::FM::LINES = PVFM_lines_ix B::CV::STASH = PVCV_stash_ix B::CV::GV = PVCV_gv_ix B::CV::FILE = PVCV_file_ix B::CV::DEPTH = PVCV_depth_ix B::CV::PADLIST = PVCV_padlist_ix B::CV::OUTSIDE = PVCV_outside_ix B::CV::OUTSIDE_SEQ = PVCV_outside_seq_ix B::CV::CvFLAGS = PVCV_flags_ix B::HV::MAX = PVHV_max_ix B::HV::KEYS = PVHV_keys_ix PREINIT: char *ptr; SV *ret; PPCODE: ptr = (ix & 0xFFFF) + (char *)SvANY(sv); switch ((U8)(ix >> 16)) { case (U8)(sv_SVp >> 16): ret = make_sv_object(aTHX_ *((SV **)ptr)); break; case (U8)(sv_IVp >> 16): ret = sv_2mortal(newSViv(*((IV *)ptr))); break; case (U8)(sv_UVp >> 16): ret = sv_2mortal(newSVuv(*((UV *)ptr))); break; case (U8)(sv_STRLENp >> 16): ret = sv_2mortal(newSVuv(*((STRLEN *)ptr))); break; case (U8)(sv_U32p >> 16): ret = sv_2mortal(newSVuv(*((U32 *)ptr))); break; case (U8)(sv_U8p >> 16): ret = sv_2mortal(newSVuv(*((U8 *)ptr))); break; case (U8)(sv_char_pp >> 16): ret = sv_2mortal(newSVpv(*((char **)ptr), 0)); break; case (U8)(sv_NVp >> 16): ret = sv_2mortal(newSVnv(*((NV *)ptr))); break; case (U8)(sv_char_p >> 16): ret = newSVpvn_flags((char *)ptr, 1, SVs_TEMP); break; case (U8)(sv_SSize_tp >> 16): ret = sv_2mortal(newSViv(*((SSize_t *)ptr))); break; case (U8)(sv_I32p >> 16): ret = sv_2mortal(newSVuv(*((I32 *)ptr))); break; case (U8)(sv_U16p >> 16): ret = sv_2mortal(newSVuv(*((U16 *)ptr))); break; default: croak("Illegal alias 0x%08x for B::*IVX", (unsigned)ix); } ST(0) = ret; XSRETURN(1); void packiv(sv) B::IV sv ALIAS: needs64bits = 1 CODE: if (ix) { ST(0) = boolSV((I32)SvIVX(sv) != SvIVX(sv)); } else if (sizeof(IV) == 8) { U32 wp[2]; const IV iv = SvIVX(sv); /* * The following way of spelling 32 is to stop compilers on * 32-bit architectures from moaning about the shift count * being >= the width of the type. Such architectures don't * reach this code anyway (unless sizeof(IV) > 8 but then * everything else breaks too so I'm not fussed at the moment). */ #ifdef UV_IS_QUAD wp[0] = htonl(((UV)iv) >> (sizeof(UV)*4)); #else wp[0] = htonl(((U32)iv) >> (sizeof(UV)*4)); #endif wp[1] = htonl(iv & 0xffffffff); ST(0) = newSVpvn_flags((char *)wp, 8, SVs_TEMP); } else { U32 w = htonl((U32)SvIVX(sv)); ST(0) = newSVpvn_flags((char *)&w, 4, SVs_TEMP); } MODULE = B PACKAGE = B::NV PREFIX = Sv NV SvNV(sv) B::NV sv #if PERL_VERSION < 11 MODULE = B PACKAGE = B::RV PREFIX = Sv void SvRV(sv) B::RV sv PPCODE: PUSHs(make_sv_object(aTHX_ SvRV(sv))); #else MODULE = B PACKAGE = B::REGEXP void REGEX(sv) B::REGEXP sv ALIAS: precomp = 1 PPCODE: if (ix) { PUSHs(newSVpvn_flags(RX_PRECOMP(sv), RX_PRELEN(sv), SVs_TEMP)); } else { dXSTARG; /* FIXME - can we code this method more efficiently? */ PUSHi(PTR2IV(sv)); } #endif MODULE = B PACKAGE = B::PV void RV(sv) B::PV sv PPCODE: if (!SvROK(sv)) croak( "argument is not SvROK" ); PUSHs(make_sv_object(aTHX_ SvRV(sv))); void PV(sv) B::PV sv ALIAS: PVX = 1 PVBM = 2 B::BM::TABLE = 3 PREINIT: const char *p; STRLEN len = 0; U32 utf8 = 0; CODE: if (ix == 3) { #ifndef PERL_FBM_TABLE_OFFSET const MAGIC *const mg = mg_find(sv, PERL_MAGIC_bm); if (!mg) croak("argument to B::BM::TABLE is not a PVBM"); p = mg->mg_ptr; len = mg->mg_len; #else p = SvPV(sv, len); /* Boyer-Moore table is just after string and its safety-margin \0 */ p += len + PERL_FBM_TABLE_OFFSET; len = 256; #endif } else if (ix == 2) { /* This used to read 257. I think that that was buggy - should have been 258. (The "\0", the flags byte, and 256 for the table.) The only user of this method is B::Bytecode in B::PV::bsave. I'm guessing that nothing tested the runtime correctness of output of bytecompiled string constant arguments to index (etc). Note the start pointer is and has always been SvPVX(sv), not SvPVX(sv) + SvCUR(sv) PVBM was added in 651aa52ea1faa806, and first used by the compiler in 651aa52ea1faa806. It's used to get a "complete" dump of the buffer at SvPVX(), not just the PVBM table. This permits the generated bytecode to "load" SvPVX in "one" hit. 5.15 and later store the BM table via MAGIC, so the compiler should handle this just fine without changes if PVBM now always returns the SvPVX() buffer. */ p = SvPVX_const(sv); #ifdef PERL_FBM_TABLE_OFFSET len = SvCUR(sv) + (SvVALID(sv) ? 256 + PERL_FBM_TABLE_OFFSET : 0); #else len = SvCUR(sv); #endif } else if (ix) { p = SvPVX(sv); len = strlen(p); } else if (SvPOK(sv)) { len = SvCUR(sv); p = SvPVX_const(sv); utf8 = SvUTF8(sv); #if PERL_VERSION < 10 /* Before 5.10 (well 931b58fb28fa5ca7), PAD_COMPNAME_GEN was stored in SvCUR(), which meant we had to attempt this special casing to avoid tripping up over variable names in the pads. */ if((SvLEN(sv) && len >= SvLEN(sv))) { /* It claims to be longer than the space allocated for it - presumably it's a variable name in the pad */ len = strlen(p); } #endif } else { /* XXX for backward compatibility, but should fail */ /* croak( "argument is not SvPOK" ); */ p = NULL; } ST(0) = newSVpvn_flags(p, len, SVs_TEMP | utf8); MODULE = B PACKAGE = B::PVMG void MAGIC(sv) B::PVMG sv MAGIC * mg = NO_INIT PPCODE: for (mg = SvMAGIC(sv); mg; mg = mg->mg_moremagic) XPUSHs(make_mg_object(aTHX_ mg)); MODULE = B PACKAGE = B::MAGIC void MOREMAGIC(mg) B::MAGIC mg ALIAS: PRIVATE = 1 TYPE = 2 FLAGS = 3 LENGTH = 4 OBJ = 5 PTR = 6 REGEX = 7 precomp = 8 PPCODE: switch (ix) { case 0: XPUSHs(mg->mg_moremagic ? make_mg_object(aTHX_ mg->mg_moremagic) : &PL_sv_undef); break; case 1: mPUSHu(mg->mg_private); break; case 2: PUSHs(newSVpvn_flags(&(mg->mg_type), 1, SVs_TEMP)); break; case 3: mPUSHu(mg->mg_flags); break; case 4: mPUSHi(mg->mg_len); break; case 5: PUSHs(make_sv_object(aTHX_ mg->mg_obj)); break; case 6: if (mg->mg_ptr) { if (mg->mg_len >= 0) { PUSHs(newSVpvn_flags(mg->mg_ptr, mg->mg_len, SVs_TEMP)); } else if (mg->mg_len == HEf_SVKEY) { PUSHs(make_sv_object(aTHX_ (SV*)mg->mg_ptr)); } else PUSHs(sv_newmortal()); } else PUSHs(sv_newmortal()); break; case 7: if(mg->mg_type == PERL_MAGIC_qr) { mPUSHi(PTR2IV(mg->mg_obj)); } else { croak("REGEX is only meaningful on r-magic"); } break; case 8: if (mg->mg_type == PERL_MAGIC_qr) { REGEXP *rx = (REGEXP *)mg->mg_obj; PUSHs(newSVpvn_flags(rx ? RX_PRECOMP(rx) : NULL, rx ? RX_PRELEN(rx) : 0, SVs_TEMP)); } else { croak( "precomp is only meaningful on r-magic" ); } break; } MODULE = B PACKAGE = B::GV PREFIX = Gv void GvNAME(gv) B::GV gv ALIAS: FILE = 1 B::HV::NAME = 2 CODE: #if PERL_VERSION >= 10 ST(0) = sv_2mortal(newSVhek(!ix ? GvNAME_HEK(gv) : (ix == 1 ? GvFILE_HEK(gv) : HvNAME_HEK((HV *)gv)))); #else ST(0) = !ix ? newSVpvn_flags(GvNAME(gv), GvNAMELEN(gv), SVs_TEMP) : sv_2mortal(newSVpv(ix == 1 ? GvFILE(gv) : HvNAME((HV *)gv), 0)) #endif bool is_empty(gv) B::GV gv ALIAS: isGV_with_GP = 1 CODE: if (ix) { #if PERL_VERSION >= 9 RETVAL = isGV_with_GP(gv) ? TRUE : FALSE; #else RETVAL = TRUE; /* In 5.8 and earlier they all are. */ #endif } else { RETVAL = GvGP(gv) == Null(GP*); } OUTPUT: RETVAL void* GvGP(gv) B::GV gv #define GP_sv_ix SVp | offsetof(struct gp, gp_sv) #define GP_io_ix SVp | offsetof(struct gp, gp_io) #define GP_cv_ix SVp | offsetof(struct gp, gp_cv) #define GP_cvgen_ix U32p | offsetof(struct gp, gp_cvgen) #define GP_refcnt_ix U32p | offsetof(struct gp, gp_refcnt) #define GP_hv_ix SVp | offsetof(struct gp, gp_hv) #define GP_av_ix SVp | offsetof(struct gp, gp_av) #define GP_form_ix SVp | offsetof(struct gp, gp_form) #define GP_egv_ix SVp | offsetof(struct gp, gp_egv) #define GP_line_ix line_tp | offsetof(struct gp, gp_line) void SV(gv) B::GV gv ALIAS: SV = GP_sv_ix IO = GP_io_ix CV = GP_cv_ix CVGEN = GP_cvgen_ix GvREFCNT = GP_refcnt_ix HV = GP_hv_ix AV = GP_av_ix FORM = GP_form_ix EGV = GP_egv_ix LINE = GP_line_ix PREINIT: GP *gp; char *ptr; SV *ret; PPCODE: gp = GvGP(gv); if (!gp) { const GV *const gv = CvGV(cv); Perl_croak(aTHX_ "NULL gp in B::GV::%s", gv ? GvNAME(gv) : "???"); } ptr = (ix & 0xFFFF) + (char *)gp; switch ((U8)(ix >> 16)) { case (U8)(SVp >> 16): ret = make_sv_object(aTHX_ *((SV **)ptr)); break; case (U8)(U32p >> 16): ret = sv_2mortal(newSVuv(*((U32*)ptr))); break; case (U8)(line_tp >> 16): ret = sv_2mortal(newSVuv(*((line_t *)ptr))); break; default: croak("Illegal alias 0x%08x for B::*SV", (unsigned)ix); } ST(0) = ret; XSRETURN(1); void FILEGV(gv) B::GV gv PPCODE: PUSHs(make_sv_object(aTHX_ (SV *)GvFILEGV(gv))); MODULE = B PACKAGE = B::IO PREFIX = Io #if PERL_VERSION <= 8 short IoSUBPROCESS(io) B::IO io #endif bool IsSTD(io,name) B::IO io const char* name PREINIT: PerlIO* handle = 0; CODE: if( strEQ( name, "stdin" ) ) { handle = PerlIO_stdin(); } else if( strEQ( name, "stdout" ) ) { handle = PerlIO_stdout(); } else if( strEQ( name, "stderr" ) ) { handle = PerlIO_stderr(); } else { croak( "Invalid value '%s'", name ); } RETVAL = handle == IoIFP(io); OUTPUT: RETVAL MODULE = B PACKAGE = B::AV PREFIX = Av SSize_t AvFILL(av) B::AV av void AvARRAY(av) B::AV av PPCODE: if (AvFILL(av) >= 0) { SV **svp = AvARRAY(av); I32 i; for (i = 0; i <= AvFILL(av); i++) XPUSHs(make_sv_object(aTHX_ svp[i])); } void AvARRAYelt(av, idx) B::AV av int idx PPCODE: if (idx >= 0 && AvFILL(av) >= 0 && idx <= AvFILL(av)) XPUSHs(make_sv_object(aTHX_ (AvARRAY(av)[idx]))); else XPUSHs(make_sv_object(aTHX_ NULL)); #if PERL_VERSION < 9 #define AvOFF(av) ((XPVAV*)SvANY(av))->xof_off IV AvOFF(av) B::AV av MODULE = B PACKAGE = B::AV U8 AvFLAGS(av) B::AV av #endif MODULE = B PACKAGE = B::CV PREFIX = Cv U32 CvCONST(cv) B::CV cv void CvSTART(cv) B::CV cv ALIAS: ROOT = 1 PPCODE: PUSHs(make_op_object(aTHX_ CvISXSUB(cv) ? NULL : ix ? CvROOT(cv) : CvSTART(cv))); void CvXSUB(cv) B::CV cv ALIAS: XSUBANY = 1 CODE: ST(0) = ix && CvCONST(cv) ? make_sv_object(aTHX_ (SV *)CvXSUBANY(cv).any_ptr) : sv_2mortal(newSViv(CvISXSUB(cv) ? (ix ? CvXSUBANY(cv).any_iv : PTR2IV(CvXSUB(cv))) : 0)); void const_sv(cv) B::CV cv PPCODE: PUSHs(make_sv_object(aTHX_ (SV *)cv_const_sv(cv))); MODULE = B PACKAGE = B::HV PREFIX = Hv STRLEN HvFILL(hv) B::HV hv I32 HvRITER(hv) B::HV hv #if PERL_VERSION < 9 B::PMOP HvPMROOT(hv) B::HV hv PPCODE: PUSHs(make_op_object(aTHX_ HvPMROOT(hv))); #endif void HvARRAY(hv) B::HV hv PPCODE: if (HvUSEDKEYS(hv) > 0) { SV *sv; char *key; I32 len; (void)hv_iterinit(hv); EXTEND(sp, HvUSEDKEYS(hv) * 2); while ((sv = hv_iternextsv(hv, &key, &len))) { mPUSHp(key, len); PUSHs(make_sv_object(aTHX_ sv)); } } MODULE = B PACKAGE = B::HE PREFIX = He void HeVAL(he) B::HE he ALIAS: SVKEY_force = 1 PPCODE: PUSHs(make_sv_object(aTHX_ ix ? HeSVKEY_force(he) : HeVAL(he))); U32 HeHASH(he) B::HE he MODULE = B PACKAGE = B::RHE #if PERL_VERSION >= 9 SV* HASH(h) B::RHE h CODE: RETVAL = newRV( (SV*)cophh_2hv(h, 0) ); OUTPUT: RETVAL #endif