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|
/* pp.c
*
* Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
* 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 by Larry Wall and others
*
* You may distribute under the terms of either the GNU General Public
* License or the Artistic License, as specified in the README file.
*
*/
/*
* "It's a big house this, and very peculiar. Always a bit more to discover,
* and no knowing what you'll find around a corner. And Elves, sir!" --Samwise
*/
/* This file contains general pp ("push/pop") functions that execute the
* opcodes that make up a perl program. A typical pp function expects to
* find its arguments on the stack, and usually pushes its results onto
* the stack, hence the 'pp' terminology. Each OP structure contains
* a pointer to the relevant pp_foo() function.
*/
#include "EXTERN.h"
#define PERL_IN_PP_C
#include "perl.h"
#include "keywords.h"
#include "reentr.h"
/* XXX I can't imagine anyone who doesn't have this actually _needs_
it, since pid_t is an integral type.
--AD 2/20/1998
*/
#ifdef NEED_GETPID_PROTO
extern Pid_t getpid (void);
#endif
/*
* Some BSDs and Cygwin default to POSIX math instead of IEEE.
* This switches them over to IEEE.
*/
#if defined(LIBM_LIB_VERSION)
_LIB_VERSION_TYPE _LIB_VERSION = _IEEE_;
#endif
/* variations on pp_null */
PP(pp_stub)
{
dVAR;
dSP;
if (GIMME_V == G_SCALAR)
XPUSHs(&PL_sv_undef);
RETURN;
}
/* Pushy stuff. */
PP(pp_padav)
{
dVAR; dSP; dTARGET;
I32 gimme;
if (PL_op->op_private & OPpLVAL_INTRO)
if (!(PL_op->op_private & OPpPAD_STATE))
SAVECLEARSV(PAD_SVl(PL_op->op_targ));
EXTEND(SP, 1);
if (PL_op->op_flags & OPf_REF) {
PUSHs(TARG);
RETURN;
} else if (LVRET) {
if (GIMME == G_SCALAR)
Perl_croak(aTHX_ "Can't return array to lvalue scalar context");
PUSHs(TARG);
RETURN;
}
gimme = GIMME_V;
if (gimme == G_ARRAY) {
const I32 maxarg = AvFILL((AV*)TARG) + 1;
EXTEND(SP, maxarg);
if (SvMAGICAL(TARG)) {
U32 i;
for (i=0; i < (U32)maxarg; i++) {
SV * const * const svp = av_fetch((AV*)TARG, i, FALSE);
SP[i+1] = (svp) ? *svp : &PL_sv_undef;
}
}
else {
Copy(AvARRAY((AV*)TARG), SP+1, maxarg, SV*);
}
SP += maxarg;
}
else if (gimme == G_SCALAR) {
SV* const sv = sv_newmortal();
const I32 maxarg = AvFILL((AV*)TARG) + 1;
sv_setiv(sv, maxarg);
PUSHs(sv);
}
RETURN;
}
PP(pp_padhv)
{
dVAR; dSP; dTARGET;
I32 gimme;
XPUSHs(TARG);
if (PL_op->op_private & OPpLVAL_INTRO)
if (!(PL_op->op_private & OPpPAD_STATE))
SAVECLEARSV(PAD_SVl(PL_op->op_targ));
if (PL_op->op_flags & OPf_REF)
RETURN;
else if (LVRET) {
if (GIMME == G_SCALAR)
Perl_croak(aTHX_ "Can't return hash to lvalue scalar context");
RETURN;
}
gimme = GIMME_V;
if (gimme == G_ARRAY) {
RETURNOP(do_kv());
}
else if (gimme == G_SCALAR) {
SV* const sv = Perl_hv_scalar(aTHX_ (HV*)TARG);
SETs(sv);
}
RETURN;
}
/* Translations. */
PP(pp_rv2gv)
{
dVAR; dSP; dTOPss;
if (SvROK(sv)) {
wasref:
tryAMAGICunDEREF(to_gv);
sv = SvRV(sv);
if (SvTYPE(sv) == SVt_PVIO) {
GV * const gv = (GV*) sv_newmortal();
gv_init(gv, 0, "", 0, 0);
GvIOp(gv) = (IO *)sv;
SvREFCNT_inc_void_NN(sv);
sv = (SV*) gv;
}
else if (SvTYPE(sv) != SVt_PVGV)
DIE(aTHX_ "Not a GLOB reference");
}
else {
if (SvTYPE(sv) != SVt_PVGV) {
if (SvGMAGICAL(sv)) {
mg_get(sv);
if (SvROK(sv))
goto wasref;
}
if (!SvOK(sv) && sv != &PL_sv_undef) {
/* If this is a 'my' scalar and flag is set then vivify
* NI-S 1999/05/07
*/
if (SvREADONLY(sv))
Perl_croak(aTHX_ PL_no_modify);
if (PL_op->op_private & OPpDEREF) {
GV *gv;
if (cUNOP->op_targ) {
STRLEN len;
SV * const namesv = PAD_SV(cUNOP->op_targ);
const char * const name = SvPV(namesv, len);
gv = (GV*)newSV(0);
gv_init(gv, CopSTASH(PL_curcop), name, len, 0);
}
else {
const char * const name = CopSTASHPV(PL_curcop);
gv = newGVgen(name);
}
if (SvTYPE(sv) < SVt_RV)
sv_upgrade(sv, SVt_RV);
else if (SvPVX_const(sv)) {
SvPV_free(sv);
SvLEN_set(sv, 0);
SvCUR_set(sv, 0);
}
SvRV_set(sv, (SV*)gv);
SvROK_on(sv);
SvSETMAGIC(sv);
goto wasref;
}
if (PL_op->op_flags & OPf_REF ||
PL_op->op_private & HINT_STRICT_REFS)
DIE(aTHX_ PL_no_usym, "a symbol");
if (ckWARN(WARN_UNINITIALIZED))
report_uninit(sv);
RETSETUNDEF;
}
if ((PL_op->op_flags & OPf_SPECIAL) &&
!(PL_op->op_flags & OPf_MOD))
{
SV * const temp = (SV*)gv_fetchsv(sv, 0, SVt_PVGV);
if (!temp
&& (!is_gv_magical_sv(sv,0)
|| !(sv = (SV*)gv_fetchsv(sv, GV_ADD, SVt_PVGV)))) {
RETSETUNDEF;
}
sv = temp;
}
else {
if (PL_op->op_private & HINT_STRICT_REFS)
DIE(aTHX_ PL_no_symref_sv, sv, "a symbol");
if ((PL_op->op_private & (OPpLVAL_INTRO|OPpDONT_INIT_GV))
== OPpDONT_INIT_GV) {
/* We are the target of a coderef assignment. Return
the scalar unchanged, and let pp_sasssign deal with
things. */
RETURN;
}
sv = (SV*)gv_fetchsv(sv, GV_ADD, SVt_PVGV);
}
}
}
if (PL_op->op_private & OPpLVAL_INTRO)
save_gp((GV*)sv, !(PL_op->op_flags & OPf_SPECIAL));
SETs(sv);
RETURN;
}
PP(pp_rv2sv)
{
dVAR; dSP; dTOPss;
GV *gv = NULL;
if (SvROK(sv)) {
wasref:
tryAMAGICunDEREF(to_sv);
sv = SvRV(sv);
switch (SvTYPE(sv)) {
case SVt_PVAV:
case SVt_PVHV:
case SVt_PVCV:
case SVt_PVFM:
case SVt_PVIO:
DIE(aTHX_ "Not a SCALAR reference");
default: NOOP;
}
}
else {
gv = (GV*)sv;
if (SvTYPE(gv) != SVt_PVGV) {
if (SvGMAGICAL(sv)) {
mg_get(sv);
if (SvROK(sv))
goto wasref;
}
if (PL_op->op_private & HINT_STRICT_REFS) {
if (SvOK(sv))
DIE(aTHX_ PL_no_symref_sv, sv, "a SCALAR");
else
DIE(aTHX_ PL_no_usym, "a SCALAR");
}
if (!SvOK(sv)) {
if (PL_op->op_flags & OPf_REF)
DIE(aTHX_ PL_no_usym, "a SCALAR");
if (ckWARN(WARN_UNINITIALIZED))
report_uninit(sv);
RETSETUNDEF;
}
if ((PL_op->op_flags & OPf_SPECIAL) &&
!(PL_op->op_flags & OPf_MOD))
{
gv = (GV*)gv_fetchsv(sv, 0, SVt_PV);
if (!gv
&& (!is_gv_magical_sv(sv, 0)
|| !(gv = (GV*)gv_fetchsv(sv, GV_ADD, SVt_PV))))
{
RETSETUNDEF;
}
}
else {
gv = (GV*)gv_fetchsv(sv, GV_ADD, SVt_PV);
}
}
sv = GvSVn(gv);
}
if (PL_op->op_flags & OPf_MOD) {
if (PL_op->op_private & OPpLVAL_INTRO) {
if (cUNOP->op_first->op_type == OP_NULL)
sv = save_scalar((GV*)TOPs);
else if (gv)
sv = save_scalar(gv);
else
Perl_croak(aTHX_ PL_no_localize_ref);
}
else if (PL_op->op_private & OPpDEREF)
vivify_ref(sv, PL_op->op_private & OPpDEREF);
}
SETs(sv);
RETURN;
}
PP(pp_av2arylen)
{
dVAR; dSP;
AV * const av = (AV*)TOPs;
SV ** const sv = Perl_av_arylen_p(aTHX_ (AV*)av);
if (!*sv) {
*sv = newSV(0);
sv_upgrade(*sv, SVt_PVMG);
sv_magic(*sv, (SV*)av, PERL_MAGIC_arylen, NULL, 0);
}
SETs(*sv);
RETURN;
}
PP(pp_pos)
{
dVAR; dSP; dTARGET; dPOPss;
if (PL_op->op_flags & OPf_MOD || LVRET) {
if (SvTYPE(TARG) < SVt_PVLV) {
sv_upgrade(TARG, SVt_PVLV);
sv_magic(TARG, NULL, PERL_MAGIC_pos, NULL, 0);
}
LvTYPE(TARG) = '.';
if (LvTARG(TARG) != sv) {
if (LvTARG(TARG))
SvREFCNT_dec(LvTARG(TARG));
LvTARG(TARG) = SvREFCNT_inc_simple(sv);
}
PUSHs(TARG); /* no SvSETMAGIC */
RETURN;
}
else {
if (SvTYPE(sv) >= SVt_PVMG && SvMAGIC(sv)) {
const MAGIC * const mg = mg_find(sv, PERL_MAGIC_regex_global);
if (mg && mg->mg_len >= 0) {
I32 i = mg->mg_len;
if (DO_UTF8(sv))
sv_pos_b2u(sv, &i);
PUSHi(i + CopARYBASE_get(PL_curcop));
RETURN;
}
}
RETPUSHUNDEF;
}
}
PP(pp_rv2cv)
{
dVAR; dSP;
GV *gv;
HV *stash_unused;
const I32 flags = (PL_op->op_flags & OPf_SPECIAL)
? 0
: ((PL_op->op_private & (OPpLVAL_INTRO|OPpMAY_RETURN_CONSTANT)) == OPpMAY_RETURN_CONSTANT)
? GV_ADD|GV_NOEXPAND
: GV_ADD;
/* We usually try to add a non-existent subroutine in case of AUTOLOAD. */
/* (But not in defined().) */
CV *cv = sv_2cv(TOPs, &stash_unused, &gv, flags);
if (cv) {
if (CvCLONE(cv))
cv = (CV*)sv_2mortal((SV*)cv_clone(cv));
if ((PL_op->op_private & OPpLVAL_INTRO)) {
if (gv && GvCV(gv) == cv && (gv = gv_autoload4(GvSTASH(gv), GvNAME(gv), GvNAMELEN(gv), FALSE)))
cv = GvCV(gv);
if (!CvLVALUE(cv))
DIE(aTHX_ "Can't modify non-lvalue subroutine call");
}
}
else if ((flags == (GV_ADD|GV_NOEXPAND)) && gv && SvROK(gv)) {
cv = (CV*)gv;
}
else
cv = (CV*)&PL_sv_undef;
SETs((SV*)cv);
RETURN;
}
PP(pp_prototype)
{
dVAR; dSP;
CV *cv;
HV *stash;
GV *gv;
SV *ret = &PL_sv_undef;
if (SvPOK(TOPs) && SvCUR(TOPs) >= 7) {
const char * s = SvPVX_const(TOPs);
if (strnEQ(s, "CORE::", 6)) {
const int code = keyword(s + 6, SvCUR(TOPs) - 6, 1);
if (code < 0) { /* Overridable. */
#define MAX_ARGS_OP ((sizeof(I32) - 1) * 2)
int i = 0, n = 0, seen_question = 0, defgv = 0;
I32 oa;
char str[ MAX_ARGS_OP * 2 + 2 ]; /* One ';', one '\0' */
if (code == -KEY_chop || code == -KEY_chomp
|| code == -KEY_exec || code == -KEY_system || code == -KEY_err)
goto set;
if (code == -KEY_mkdir) {
ret = sv_2mortal(newSVpvs("_;$"));
goto set;
}
if (code == -KEY_readpipe) {
s = "CORE::backtick";
}
while (i < MAXO) { /* The slow way. */
if (strEQ(s + 6, PL_op_name[i])
|| strEQ(s + 6, PL_op_desc[i]))
{
goto found;
}
i++;
}
goto nonesuch; /* Should not happen... */
found:
defgv = PL_opargs[i] & OA_DEFGV;
oa = PL_opargs[i] >> OASHIFT;
while (oa) {
if (oa & OA_OPTIONAL && !seen_question && !defgv) {
seen_question = 1;
str[n++] = ';';
}
if ((oa & (OA_OPTIONAL - 1)) >= OA_AVREF
&& (oa & (OA_OPTIONAL - 1)) <= OA_SCALARREF
/* But globs are already references (kinda) */
&& (oa & (OA_OPTIONAL - 1)) != OA_FILEREF
) {
str[n++] = '\\';
}
str[n++] = ("?$@@%&*$")[oa & (OA_OPTIONAL - 1)];
oa = oa >> 4;
}
if (defgv && str[n - 1] == '$')
str[n - 1] = '_';
str[n++] = '\0';
ret = sv_2mortal(newSVpvn(str, n - 1));
}
else if (code) /* Non-Overridable */
goto set;
else { /* None such */
nonesuch:
DIE(aTHX_ "Can't find an opnumber for \"%s\"", s+6);
}
}
}
cv = sv_2cv(TOPs, &stash, &gv, 0);
if (cv && SvPOK(cv))
ret = sv_2mortal(newSVpvn(SvPVX_const(cv), SvCUR(cv)));
set:
SETs(ret);
RETURN;
}
PP(pp_anoncode)
{
dVAR; dSP;
CV* cv = (CV*)PAD_SV(PL_op->op_targ);
if (CvCLONE(cv))
cv = (CV*)sv_2mortal((SV*)cv_clone(cv));
EXTEND(SP,1);
PUSHs((SV*)cv);
RETURN;
}
PP(pp_srefgen)
{
dVAR; dSP;
*SP = refto(*SP);
RETURN;
}
PP(pp_refgen)
{
dVAR; dSP; dMARK;
if (GIMME != G_ARRAY) {
if (++MARK <= SP)
*MARK = *SP;
else
*MARK = &PL_sv_undef;
*MARK = refto(*MARK);
SP = MARK;
RETURN;
}
EXTEND_MORTAL(SP - MARK);
while (++MARK <= SP)
*MARK = refto(*MARK);
RETURN;
}
STATIC SV*
S_refto(pTHX_ SV *sv)
{
dVAR;
SV* rv;
if (SvTYPE(sv) == SVt_PVLV && LvTYPE(sv) == 'y') {
if (LvTARGLEN(sv))
vivify_defelem(sv);
if (!(sv = LvTARG(sv)))
sv = &PL_sv_undef;
else
SvREFCNT_inc_void_NN(sv);
}
else if (SvTYPE(sv) == SVt_PVAV) {
if (!AvREAL((AV*)sv) && AvREIFY((AV*)sv))
av_reify((AV*)sv);
SvTEMP_off(sv);
SvREFCNT_inc_void_NN(sv);
}
else if (SvPADTMP(sv) && !IS_PADGV(sv))
sv = newSVsv(sv);
else {
SvTEMP_off(sv);
SvREFCNT_inc_void_NN(sv);
}
rv = sv_newmortal();
sv_upgrade(rv, SVt_RV);
SvRV_set(rv, sv);
SvROK_on(rv);
return rv;
}
PP(pp_ref)
{
dVAR; dSP; dTARGET;
const char *pv;
SV * const sv = POPs;
if (sv)
SvGETMAGIC(sv);
if (!sv || !SvROK(sv))
RETPUSHNO;
pv = sv_reftype(SvRV(sv),TRUE);
PUSHp(pv, strlen(pv));
RETURN;
}
PP(pp_bless)
{
dVAR; dSP;
HV *stash;
if (MAXARG == 1)
stash = CopSTASH(PL_curcop);
else {
SV * const ssv = POPs;
STRLEN len;
const char *ptr;
if (ssv && !SvGMAGICAL(ssv) && !SvAMAGIC(ssv) && SvROK(ssv))
Perl_croak(aTHX_ "Attempt to bless into a reference");
ptr = SvPV_const(ssv,len);
if (len == 0 && ckWARN(WARN_MISC))
Perl_warner(aTHX_ packWARN(WARN_MISC),
"Explicit blessing to '' (assuming package main)");
stash = gv_stashpvn(ptr, len, TRUE);
}
(void)sv_bless(TOPs, stash);
RETURN;
}
PP(pp_gelem)
{
dVAR; dSP;
SV *sv = POPs;
const char * const elem = SvPV_nolen_const(sv);
GV * const gv = (GV*)POPs;
SV * tmpRef = NULL;
sv = NULL;
if (elem) {
/* elem will always be NUL terminated. */
const char * const second_letter = elem + 1;
switch (*elem) {
case 'A':
if (strEQ(second_letter, "RRAY"))
tmpRef = (SV*)GvAV(gv);
break;
case 'C':
if (strEQ(second_letter, "ODE"))
tmpRef = (SV*)GvCVu(gv);
break;
case 'F':
if (strEQ(second_letter, "ILEHANDLE")) {
/* finally deprecated in 5.8.0 */
deprecate("*glob{FILEHANDLE}");
tmpRef = (SV*)GvIOp(gv);
}
else
if (strEQ(second_letter, "ORMAT"))
tmpRef = (SV*)GvFORM(gv);
break;
case 'G':
if (strEQ(second_letter, "LOB"))
tmpRef = (SV*)gv;
break;
case 'H':
if (strEQ(second_letter, "ASH"))
tmpRef = (SV*)GvHV(gv);
break;
case 'I':
if (*second_letter == 'O' && !elem[2])
tmpRef = (SV*)GvIOp(gv);
break;
case 'N':
if (strEQ(second_letter, "AME"))
sv = newSVpvn(GvNAME(gv), GvNAMELEN(gv));
break;
case 'P':
if (strEQ(second_letter, "ACKAGE")) {
const HV * const stash = GvSTASH(gv);
const HEK * const hek = stash ? HvNAME_HEK(stash) : NULL;
sv = hek ? newSVhek(hek) : newSVpvs("__ANON__");
}
break;
case 'S':
if (strEQ(second_letter, "CALAR"))
tmpRef = GvSVn(gv);
break;
}
}
if (tmpRef)
sv = newRV(tmpRef);
if (sv)
sv_2mortal(sv);
else
sv = &PL_sv_undef;
XPUSHs(sv);
RETURN;
}
/* Pattern matching */
PP(pp_study)
{
dVAR; dSP; dPOPss;
register unsigned char *s;
register I32 pos;
register I32 ch;
register I32 *sfirst;
register I32 *snext;
STRLEN len;
if (sv == PL_lastscream) {
if (SvSCREAM(sv))
RETPUSHYES;
}
s = (unsigned char*)(SvPV(sv, len));
pos = len;
if (pos <= 0 || !SvPOK(sv) || SvUTF8(sv)) {
/* No point in studying a zero length string, and not safe to study
anything that doesn't appear to be a simple scalar (and hence might
change between now and when the regexp engine runs without our set
magic ever running) such as a reference to an object with overloaded
stringification. */
RETPUSHNO;
}
if (PL_lastscream) {
SvSCREAM_off(PL_lastscream);
SvREFCNT_dec(PL_lastscream);
}
PL_lastscream = SvREFCNT_inc_simple(sv);
s = (unsigned char*)(SvPV(sv, len));
pos = len;
if (pos <= 0)
RETPUSHNO;
if (pos > PL_maxscream) {
if (PL_maxscream < 0) {
PL_maxscream = pos + 80;
Newx(PL_screamfirst, 256, I32);
Newx(PL_screamnext, PL_maxscream, I32);
}
else {
PL_maxscream = pos + pos / 4;
Renew(PL_screamnext, PL_maxscream, I32);
}
}
sfirst = PL_screamfirst;
snext = PL_screamnext;
if (!sfirst || !snext)
DIE(aTHX_ "do_study: out of memory");
for (ch = 256; ch; --ch)
*sfirst++ = -1;
sfirst -= 256;
while (--pos >= 0) {
register const I32 ch = s[pos];
if (sfirst[ch] >= 0)
snext[pos] = sfirst[ch] - pos;
else
snext[pos] = -pos;
sfirst[ch] = pos;
}
SvSCREAM_on(sv);
/* piggyback on m//g magic */
sv_magic(sv, NULL, PERL_MAGIC_regex_global, NULL, 0);
RETPUSHYES;
}
PP(pp_trans)
{
dVAR; dSP; dTARG;
SV *sv;
if (PL_op->op_flags & OPf_STACKED)
sv = POPs;
else if (PL_op->op_private & OPpTARGET_MY)
sv = GETTARGET;
else {
sv = DEFSV;
EXTEND(SP,1);
}
TARG = sv_newmortal();
PUSHi(do_trans(sv));
RETURN;
}
/* Lvalue operators. */
PP(pp_schop)
{
dVAR; dSP; dTARGET;
do_chop(TARG, TOPs);
SETTARG;
RETURN;
}
PP(pp_chop)
{
dVAR; dSP; dMARK; dTARGET; dORIGMARK;
while (MARK < SP)
do_chop(TARG, *++MARK);
SP = ORIGMARK;
XPUSHTARG;
RETURN;
}
PP(pp_schomp)
{
dVAR; dSP; dTARGET;
SETi(do_chomp(TOPs));
RETURN;
}
PP(pp_chomp)
{
dVAR; dSP; dMARK; dTARGET;
register I32 count = 0;
while (SP > MARK)
count += do_chomp(POPs);
XPUSHi(count);
RETURN;
}
PP(pp_undef)
{
dVAR; dSP;
SV *sv;
if (!PL_op->op_private) {
EXTEND(SP, 1);
RETPUSHUNDEF;
}
sv = POPs;
if (!sv)
RETPUSHUNDEF;
SV_CHECK_THINKFIRST_COW_DROP(sv);
switch (SvTYPE(sv)) {
case SVt_NULL:
break;
case SVt_PVAV:
av_undef((AV*)sv);
break;
case SVt_PVHV:
hv_undef((HV*)sv);
break;
case SVt_PVCV:
if (cv_const_sv((CV*)sv) && ckWARN(WARN_MISC))
Perl_warner(aTHX_ packWARN(WARN_MISC), "Constant subroutine %s undefined",
CvANON((CV*)sv) ? "(anonymous)" : GvENAME(CvGV((CV*)sv)));
/* FALLTHROUGH */
case SVt_PVFM:
{
/* let user-undef'd sub keep its identity */
GV* const gv = CvGV((CV*)sv);
cv_undef((CV*)sv);
CvGV((CV*)sv) = gv;
}
break;
case SVt_PVGV:
if (SvFAKE(sv))
SvSetMagicSV(sv, &PL_sv_undef);
else {
GP *gp;
gp_free((GV*)sv);
Newxz(gp, 1, GP);
GvGP(sv) = gp_ref(gp);
GvSV(sv) = newSV(0);
GvLINE(sv) = CopLINE(PL_curcop);
GvEGV(sv) = (GV*)sv;
GvMULTI_on(sv);
}
break;
default:
if (SvTYPE(sv) >= SVt_PV && SvPVX_const(sv) && SvLEN(sv)) {
SvPV_free(sv);
SvPV_set(sv, NULL);
SvLEN_set(sv, 0);
}
SvOK_off(sv);
SvSETMAGIC(sv);
}
RETPUSHUNDEF;
}
PP(pp_predec)
{
dVAR; dSP;
if (SvTYPE(TOPs) >= SVt_PVGV && SvTYPE(TOPs) != SVt_PVLV)
DIE(aTHX_ PL_no_modify);
if (!SvREADONLY(TOPs) && SvIOK_notUV(TOPs) && !SvNOK(TOPs) && !SvPOK(TOPs)
&& SvIVX(TOPs) != IV_MIN)
{
SvIV_set(TOPs, SvIVX(TOPs) - 1);
SvFLAGS(TOPs) &= ~(SVp_NOK|SVp_POK);
}
else
sv_dec(TOPs);
SvSETMAGIC(TOPs);
return NORMAL;
}
PP(pp_postinc)
{
dVAR; dSP; dTARGET;
if (SvTYPE(TOPs) >= SVt_PVGV && SvTYPE(TOPs) != SVt_PVLV)
DIE(aTHX_ PL_no_modify);
sv_setsv(TARG, TOPs);
if (!SvREADONLY(TOPs) && SvIOK_notUV(TOPs) && !SvNOK(TOPs) && !SvPOK(TOPs)
&& SvIVX(TOPs) != IV_MAX)
{
SvIV_set(TOPs, SvIVX(TOPs) + 1);
SvFLAGS(TOPs) &= ~(SVp_NOK|SVp_POK);
}
else
sv_inc(TOPs);
SvSETMAGIC(TOPs);
/* special case for undef: see thread at 2003-03/msg00536.html in archive */
if (!SvOK(TARG))
sv_setiv(TARG, 0);
SETs(TARG);
return NORMAL;
}
PP(pp_postdec)
{
dVAR; dSP; dTARGET;
if (SvTYPE(TOPs) >= SVt_PVGV && SvTYPE(TOPs) != SVt_PVLV)
DIE(aTHX_ PL_no_modify);
sv_setsv(TARG, TOPs);
if (!SvREADONLY(TOPs) && SvIOK_notUV(TOPs) && !SvNOK(TOPs) && !SvPOK(TOPs)
&& SvIVX(TOPs) != IV_MIN)
{
SvIV_set(TOPs, SvIVX(TOPs) - 1);
SvFLAGS(TOPs) &= ~(SVp_NOK|SVp_POK);
}
else
sv_dec(TOPs);
SvSETMAGIC(TOPs);
SETs(TARG);
return NORMAL;
}
/* Ordinary operators. */
PP(pp_pow)
{
dVAR; dSP; dATARGET;
#ifdef PERL_PRESERVE_IVUV
bool is_int = 0;
#endif
tryAMAGICbin(pow,opASSIGN);
#ifdef PERL_PRESERVE_IVUV
/* For integer to integer power, we do the calculation by hand wherever
we're sure it is safe; otherwise we call pow() and try to convert to
integer afterwards. */
{
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
UV power;
bool baseuok;
UV baseuv;
if (SvUOK(TOPs)) {
power = SvUVX(TOPs);
} else {
const IV iv = SvIVX(TOPs);
if (iv >= 0) {
power = iv;
} else {
goto float_it; /* Can't do negative powers this way. */
}
}
baseuok = SvUOK(TOPm1s);
if (baseuok) {
baseuv = SvUVX(TOPm1s);
} else {
const IV iv = SvIVX(TOPm1s);
if (iv >= 0) {
baseuv = iv;
baseuok = TRUE; /* effectively it's a UV now */
} else {
baseuv = -iv; /* abs, baseuok == false records sign */
}
}
/* now we have integer ** positive integer. */
is_int = 1;
/* foo & (foo - 1) is zero only for a power of 2. */
if (!(baseuv & (baseuv - 1))) {
/* We are raising power-of-2 to a positive integer.
The logic here will work for any base (even non-integer
bases) but it can be less accurate than
pow (base,power) or exp (power * log (base)) when the
intermediate values start to spill out of the mantissa.
With powers of 2 we know this can't happen.
And powers of 2 are the favourite thing for perl
programmers to notice ** not doing what they mean. */
NV result = 1.0;
NV base = baseuok ? baseuv : -(NV)baseuv;
if (power & 1) {
result *= base;
}
while (power >>= 1) {
base *= base;
if (power & 1) {
result *= base;
}
}
SP--;
SETn( result );
SvIV_please(TOPs);
RETURN;
} else {
register unsigned int highbit = 8 * sizeof(UV);
register unsigned int diff = 8 * sizeof(UV);
while (diff >>= 1) {
highbit -= diff;
if (baseuv >> highbit) {
highbit += diff;
}
}
/* we now have baseuv < 2 ** highbit */
if (power * highbit <= 8 * sizeof(UV)) {
/* result will definitely fit in UV, so use UV math
on same algorithm as above */
register UV result = 1;
register UV base = baseuv;
const bool odd_power = (bool)(power & 1);
if (odd_power) {
result *= base;
}
while (power >>= 1) {
base *= base;
if (power & 1) {
result *= base;
}
}
SP--;
if (baseuok || !odd_power)
/* answer is positive */
SETu( result );
else if (result <= (UV)IV_MAX)
/* answer negative, fits in IV */
SETi( -(IV)result );
else if (result == (UV)IV_MIN)
/* 2's complement assumption: special case IV_MIN */
SETi( IV_MIN );
else
/* answer negative, doesn't fit */
SETn( -(NV)result );
RETURN;
}
}
}
}
}
float_it:
#endif
{
dPOPTOPnnrl;
#if defined(USE_LONG_DOUBLE) && defined(HAS_AIX_POWL_NEG_BASE_BUG)
/*
We are building perl with long double support and are on an AIX OS
afflicted with a powl() function that wrongly returns NaNQ for any
negative base. This was reported to IBM as PMR #23047-379 on
03/06/2006. The problem exists in at least the following versions
of AIX and the libm fileset, and no doubt others as well:
AIX 4.3.3-ML10 bos.adt.libm 4.3.3.50
AIX 5.1.0-ML04 bos.adt.libm 5.1.0.29
AIX 5.2.0 bos.adt.libm 5.2.0.85
So, until IBM fixes powl(), we provide the following workaround to
handle the problem ourselves. Our logic is as follows: for
negative bases (left), we use fmod(right, 2) to check if the
exponent is an odd or even integer:
- if odd, powl(left, right) == -powl(-left, right)
- if even, powl(left, right) == powl(-left, right)
If the exponent is not an integer, the result is rightly NaNQ, so
we just return that (as NV_NAN).
*/
if (left < 0.0) {
NV mod2 = Perl_fmod( right, 2.0 );
if (mod2 == 1.0 || mod2 == -1.0) { /* odd integer */
SETn( -Perl_pow( -left, right) );
} else if (mod2 == 0.0) { /* even integer */
SETn( Perl_pow( -left, right) );
} else { /* fractional power */
SETn( NV_NAN );
}
} else {
SETn( Perl_pow( left, right) );
}
#else
SETn( Perl_pow( left, right) );
#endif /* HAS_AIX_POWL_NEG_BASE_BUG */
#ifdef PERL_PRESERVE_IVUV
if (is_int)
SvIV_please(TOPs);
#endif
RETURN;
}
}
PP(pp_multiply)
{
dVAR; dSP; dATARGET; tryAMAGICbin(mult,opASSIGN);
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
/* Unless the left argument is integer in range we are going to have to
use NV maths. Hence only attempt to coerce the right argument if
we know the left is integer. */
/* Left operand is defined, so is it IV? */
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool auvok = SvUOK(TOPm1s);
bool buvok = SvUOK(TOPs);
const UV topmask = (~ (UV)0) << (4 * sizeof (UV));
const UV botmask = ~((~ (UV)0) << (4 * sizeof (UV)));
UV alow;
UV ahigh;
UV blow;
UV bhigh;
if (auvok) {
alow = SvUVX(TOPm1s);
} else {
const IV aiv = SvIVX(TOPm1s);
if (aiv >= 0) {
alow = aiv;
auvok = TRUE; /* effectively it's a UV now */
} else {
alow = -aiv; /* abs, auvok == false records sign */
}
}
if (buvok) {
blow = SvUVX(TOPs);
} else {
const IV biv = SvIVX(TOPs);
if (biv >= 0) {
blow = biv;
buvok = TRUE; /* effectively it's a UV now */
} else {
blow = -biv; /* abs, buvok == false records sign */
}
}
/* If this does sign extension on unsigned it's time for plan B */
ahigh = alow >> (4 * sizeof (UV));
alow &= botmask;
bhigh = blow >> (4 * sizeof (UV));
blow &= botmask;
if (ahigh && bhigh) {
NOOP;
/* eg 32 bit is at least 0x10000 * 0x10000 == 0x100000000
which is overflow. Drop to NVs below. */
} else if (!ahigh && !bhigh) {
/* eg 32 bit is at most 0xFFFF * 0xFFFF == 0xFFFE0001
so the unsigned multiply cannot overflow. */
const UV product = alow * blow;
if (auvok == buvok) {
/* -ve * -ve or +ve * +ve gives a +ve result. */
SP--;
SETu( product );
RETURN;
} else if (product <= (UV)IV_MIN) {
/* 2s complement assumption that (UV)-IV_MIN is correct. */
/* -ve result, which could overflow an IV */
SP--;
SETi( -(IV)product );
RETURN;
} /* else drop to NVs below. */
} else {
/* One operand is large, 1 small */
UV product_middle;
if (bhigh) {
/* swap the operands */
ahigh = bhigh;
bhigh = blow; /* bhigh now the temp var for the swap */
blow = alow;
alow = bhigh;
}
/* now, ((ahigh * blow) << half_UV_len) + (alow * blow)
multiplies can't overflow. shift can, add can, -ve can. */
product_middle = ahigh * blow;
if (!(product_middle & topmask)) {
/* OK, (ahigh * blow) won't lose bits when we shift it. */
UV product_low;
product_middle <<= (4 * sizeof (UV));
product_low = alow * blow;
/* as for pp_add, UV + something mustn't get smaller.
IIRC ANSI mandates this wrapping *behaviour* for
unsigned whatever the actual representation*/
product_low += product_middle;
if (product_low >= product_middle) {
/* didn't overflow */
if (auvok == buvok) {
/* -ve * -ve or +ve * +ve gives a +ve result. */
SP--;
SETu( product_low );
RETURN;
} else if (product_low <= (UV)IV_MIN) {
/* 2s complement assumption again */
/* -ve result, which could overflow an IV */
SP--;
SETi( -(IV)product_low );
RETURN;
} /* else drop to NVs below. */
}
} /* product_middle too large */
} /* ahigh && bhigh */
} /* SvIOK(TOPm1s) */
} /* SvIOK(TOPs) */
#endif
{
dPOPTOPnnrl;
SETn( left * right );
RETURN;
}
}
PP(pp_divide)
{
dVAR; dSP; dATARGET; tryAMAGICbin(div,opASSIGN);
/* Only try to do UV divide first
if ((SLOPPYDIVIDE is true) or
(PERL_PRESERVE_IVUV is true and one or both SV is a UV too large
to preserve))
The assumption is that it is better to use floating point divide
whenever possible, only doing integer divide first if we can't be sure.
If NV_PRESERVES_UV is true then we know at compile time that no UV
can be too large to preserve, so don't need to compile the code to
test the size of UVs. */
#ifdef SLOPPYDIVIDE
# define PERL_TRY_UV_DIVIDE
/* ensure that 20./5. == 4. */
#else
# ifdef PERL_PRESERVE_IVUV
# ifndef NV_PRESERVES_UV
# define PERL_TRY_UV_DIVIDE
# endif
# endif
#endif
#ifdef PERL_TRY_UV_DIVIDE
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool left_non_neg = SvUOK(TOPm1s);
bool right_non_neg = SvUOK(TOPs);
UV left;
UV right;
if (right_non_neg) {
right = SvUVX(TOPs);
}
else {
const IV biv = SvIVX(TOPs);
if (biv >= 0) {
right = biv;
right_non_neg = TRUE; /* effectively it's a UV now */
}
else {
right = -biv;
}
}
/* historically undef()/0 gives a "Use of uninitialized value"
warning before dieing, hence this test goes here.
If it were immediately before the second SvIV_please, then
DIE() would be invoked before left was even inspected, so
no inpsection would give no warning. */
if (right == 0)
DIE(aTHX_ "Illegal division by zero");
if (left_non_neg) {
left = SvUVX(TOPm1s);
}
else {
const IV aiv = SvIVX(TOPm1s);
if (aiv >= 0) {
left = aiv;
left_non_neg = TRUE; /* effectively it's a UV now */
}
else {
left = -aiv;
}
}
if (left >= right
#ifdef SLOPPYDIVIDE
/* For sloppy divide we always attempt integer division. */
#else
/* Otherwise we only attempt it if either or both operands
would not be preserved by an NV. If both fit in NVs
we fall through to the NV divide code below. However,
as left >= right to ensure integer result here, we know that
we can skip the test on the right operand - right big
enough not to be preserved can't get here unless left is
also too big. */
&& (left > ((UV)1 << NV_PRESERVES_UV_BITS))
#endif
) {
/* Integer division can't overflow, but it can be imprecise. */
const UV result = left / right;
if (result * right == left) {
SP--; /* result is valid */
if (left_non_neg == right_non_neg) {
/* signs identical, result is positive. */
SETu( result );
RETURN;
}
/* 2s complement assumption */
if (result <= (UV)IV_MIN)
SETi( -(IV)result );
else {
/* It's exact but too negative for IV. */
SETn( -(NV)result );
}
RETURN;
} /* tried integer divide but it was not an integer result */
} /* else (PERL_ABS(result) < 1.0) or (both UVs in range for NV) */
} /* left wasn't SvIOK */
} /* right wasn't SvIOK */
#endif /* PERL_TRY_UV_DIVIDE */
{
dPOPPOPnnrl;
if (right == 0.0)
DIE(aTHX_ "Illegal division by zero");
PUSHn( left / right );
RETURN;
}
}
PP(pp_modulo)
{
dVAR; dSP; dATARGET; tryAMAGICbin(modulo,opASSIGN);
{
UV left = 0;
UV right = 0;
bool left_neg = FALSE;
bool right_neg = FALSE;
bool use_double = FALSE;
bool dright_valid = FALSE;
NV dright = 0.0;
NV dleft = 0.0;
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
right_neg = !SvUOK(TOPs);
if (!right_neg) {
right = SvUVX(POPs);
} else {
const IV biv = SvIVX(POPs);
if (biv >= 0) {
right = biv;
right_neg = FALSE; /* effectively it's a UV now */
} else {
right = -biv;
}
}
}
else {
dright = POPn;
right_neg = dright < 0;
if (right_neg)
dright = -dright;
if (dright < UV_MAX_P1) {
right = U_V(dright);
dright_valid = TRUE; /* In case we need to use double below. */
} else {
use_double = TRUE;
}
}
/* At this point use_double is only true if right is out of range for
a UV. In range NV has been rounded down to nearest UV and
use_double false. */
SvIV_please(TOPs);
if (!use_double && SvIOK(TOPs)) {
if (SvIOK(TOPs)) {
left_neg = !SvUOK(TOPs);
if (!left_neg) {
left = SvUVX(POPs);
} else {
const IV aiv = SvIVX(POPs);
if (aiv >= 0) {
left = aiv;
left_neg = FALSE; /* effectively it's a UV now */
} else {
left = -aiv;
}
}
}
}
else {
dleft = POPn;
left_neg = dleft < 0;
if (left_neg)
dleft = -dleft;
/* This should be exactly the 5.6 behaviour - if left and right are
both in range for UV then use U_V() rather than floor. */
if (!use_double) {
if (dleft < UV_MAX_P1) {
/* right was in range, so is dleft, so use UVs not double.
*/
left = U_V(dleft);
}
/* left is out of range for UV, right was in range, so promote
right (back) to double. */
else {
/* The +0.5 is used in 5.6 even though it is not strictly
consistent with the implicit +0 floor in the U_V()
inside the #if 1. */
dleft = Perl_floor(dleft + 0.5);
use_double = TRUE;
if (dright_valid)
dright = Perl_floor(dright + 0.5);
else
dright = right;
}
}
}
if (use_double) {
NV dans;
if (!dright)
DIE(aTHX_ "Illegal modulus zero");
dans = Perl_fmod(dleft, dright);
if ((left_neg != right_neg) && dans)
dans = dright - dans;
if (right_neg)
dans = -dans;
sv_setnv(TARG, dans);
}
else {
UV ans;
if (!right)
DIE(aTHX_ "Illegal modulus zero");
ans = left % right;
if ((left_neg != right_neg) && ans)
ans = right - ans;
if (right_neg) {
/* XXX may warn: unary minus operator applied to unsigned type */
/* could change -foo to be (~foo)+1 instead */
if (ans <= ~((UV)IV_MAX)+1)
sv_setiv(TARG, ~ans+1);
else
sv_setnv(TARG, -(NV)ans);
}
else
sv_setuv(TARG, ans);
}
PUSHTARG;
RETURN;
}
}
PP(pp_repeat)
{
dVAR; dSP; dATARGET; tryAMAGICbin(repeat,opASSIGN);
{
register IV count;
dPOPss;
SvGETMAGIC(sv);
if (SvIOKp(sv)) {
if (SvUOK(sv)) {
const UV uv = SvUV(sv);
if (uv > IV_MAX)
count = IV_MAX; /* The best we can do? */
else
count = uv;
} else {
const IV iv = SvIV(sv);
if (iv < 0)
count = 0;
else
count = iv;
}
}
else if (SvNOKp(sv)) {
const NV nv = SvNV(sv);
if (nv < 0.0)
count = 0;
else
count = (IV)nv;
}
else
count = SvIVx(sv);
if (GIMME == G_ARRAY && PL_op->op_private & OPpREPEAT_DOLIST) {
dMARK;
static const char oom_list_extend[] = "Out of memory during list extend";
const I32 items = SP - MARK;
const I32 max = items * count;
MEM_WRAP_CHECK_1(max, SV*, oom_list_extend);
/* Did the max computation overflow? */
if (items > 0 && max > 0 && (max < items || max < count))
Perl_croak(aTHX_ oom_list_extend);
MEXTEND(MARK, max);
if (count > 1) {
while (SP > MARK) {
#if 0
/* This code was intended to fix 20010809.028:
$x = 'abcd';
for (($x =~ /./g) x 2) {
print chop; # "abcdabcd" expected as output.
}
* but that change (#11635) broke this code:
$x = [("foo")x2]; # only one "foo" ended up in the anonlist.
* I can't think of a better fix that doesn't introduce
* an efficiency hit by copying the SVs. The stack isn't
* refcounted, and mortalisation obviously doesn't
* Do The Right Thing when the stack has more than
* one pointer to the same mortal value.
* .robin.
*/
if (*SP) {
*SP = sv_2mortal(newSVsv(*SP));
SvREADONLY_on(*SP);
}
#else
if (*SP)
SvTEMP_off((*SP));
#endif
SP--;
}
MARK++;
repeatcpy((char*)(MARK + items), (char*)MARK,
items * sizeof(SV*), count - 1);
SP += max;
}
else if (count <= 0)
SP -= items;
}
else { /* Note: mark already snarfed by pp_list */
SV * const tmpstr = POPs;
STRLEN len;
bool isutf;
static const char oom_string_extend[] =
"Out of memory during string extend";
SvSetSV(TARG, tmpstr);
SvPV_force(TARG, len);
isutf = DO_UTF8(TARG);
if (count != 1) {
if (count < 1)
SvCUR_set(TARG, 0);
else {
const STRLEN max = (UV)count * len;
if (len > ((MEM_SIZE)~0)/count)
Perl_croak(aTHX_ oom_string_extend);
MEM_WRAP_CHECK_1(max, char, oom_string_extend);
SvGROW(TARG, max + 1);
repeatcpy(SvPVX(TARG) + len, SvPVX(TARG), len, count - 1);
SvCUR_set(TARG, SvCUR(TARG) * count);
}
*SvEND(TARG) = '\0';
}
if (isutf)
(void)SvPOK_only_UTF8(TARG);
else
(void)SvPOK_only(TARG);
if (PL_op->op_private & OPpREPEAT_DOLIST) {
/* The parser saw this as a list repeat, and there
are probably several items on the stack. But we're
in scalar context, and there's no pp_list to save us
now. So drop the rest of the items -- robin@kitsite.com
*/
dMARK;
SP = MARK;
}
PUSHTARG;
}
RETURN;
}
}
PP(pp_subtract)
{
dVAR; dSP; dATARGET; bool useleft; tryAMAGICbin(subtr,opASSIGN);
useleft = USE_LEFT(TOPm1s);
#ifdef PERL_PRESERVE_IVUV
/* See comments in pp_add (in pp_hot.c) about Overflow, and how
"bad things" happen if you rely on signed integers wrapping. */
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
/* Unless the left argument is integer in range we are going to have to
use NV maths. Hence only attempt to coerce the right argument if
we know the left is integer. */
register UV auv = 0;
bool auvok = FALSE;
bool a_valid = 0;
if (!useleft) {
auv = 0;
a_valid = auvok = 1;
/* left operand is undef, treat as zero. */
} else {
/* Left operand is defined, so is it IV? */
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
if ((auvok = SvUOK(TOPm1s)))
auv = SvUVX(TOPm1s);
else {
register const IV aiv = SvIVX(TOPm1s);
if (aiv >= 0) {
auv = aiv;
auvok = 1; /* Now acting as a sign flag. */
} else { /* 2s complement assumption for IV_MIN */
auv = (UV)-aiv;
}
}
a_valid = 1;
}
}
if (a_valid) {
bool result_good = 0;
UV result;
register UV buv;
bool buvok = SvUOK(TOPs);
if (buvok)
buv = SvUVX(TOPs);
else {
register const IV biv = SvIVX(TOPs);
if (biv >= 0) {
buv = biv;
buvok = 1;
} else
buv = (UV)-biv;
}
/* ?uvok if value is >= 0. basically, flagged as UV if it's +ve,
else "IV" now, independent of how it came in.
if a, b represents positive, A, B negative, a maps to -A etc
a - b => (a - b)
A - b => -(a + b)
a - B => (a + b)
A - B => -(a - b)
all UV maths. negate result if A negative.
subtract if signs same, add if signs differ. */
if (auvok ^ buvok) {
/* Signs differ. */
result = auv + buv;
if (result >= auv)
result_good = 1;
} else {
/* Signs same */
if (auv >= buv) {
result = auv - buv;
/* Must get smaller */
if (result <= auv)
result_good = 1;
} else {
result = buv - auv;
if (result <= buv) {
/* result really should be -(auv-buv). as its negation
of true value, need to swap our result flag */
auvok = !auvok;
result_good = 1;
}
}
}
if (result_good) {
SP--;
if (auvok)
SETu( result );
else {
/* Negate result */
if (result <= (UV)IV_MIN)
SETi( -(IV)result );
else {
/* result valid, but out of range for IV. */
SETn( -(NV)result );
}
}
RETURN;
} /* Overflow, drop through to NVs. */
}
}
#endif
useleft = USE_LEFT(TOPm1s);
{
dPOPnv;
if (!useleft) {
/* left operand is undef, treat as zero - value */
SETn(-value);
RETURN;
}
SETn( TOPn - value );
RETURN;
}
}
PP(pp_left_shift)
{
dVAR; dSP; dATARGET; tryAMAGICbin(lshift,opASSIGN);
{
const IV shift = POPi;
if (PL_op->op_private & HINT_INTEGER) {
const IV i = TOPi;
SETi(i << shift);
}
else {
const UV u = TOPu;
SETu(u << shift);
}
RETURN;
}
}
PP(pp_right_shift)
{
dVAR; dSP; dATARGET; tryAMAGICbin(rshift,opASSIGN);
{
const IV shift = POPi;
if (PL_op->op_private & HINT_INTEGER) {
const IV i = TOPi;
SETi(i >> shift);
}
else {
const UV u = TOPu;
SETu(u >> shift);
}
RETURN;
}
}
PP(pp_lt)
{
dVAR; dSP; tryAMAGICbinSET(lt,0);
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool auvok = SvUOK(TOPm1s);
bool buvok = SvUOK(TOPs);
if (!auvok && !buvok) { /* ## IV < IV ## */
const IV aiv = SvIVX(TOPm1s);
const IV biv = SvIVX(TOPs);
SP--;
SETs(boolSV(aiv < biv));
RETURN;
}
if (auvok && buvok) { /* ## UV < UV ## */
const UV auv = SvUVX(TOPm1s);
const UV buv = SvUVX(TOPs);
SP--;
SETs(boolSV(auv < buv));
RETURN;
}
if (auvok) { /* ## UV < IV ## */
UV auv;
const IV biv = SvIVX(TOPs);
SP--;
if (biv < 0) {
/* As (a) is a UV, it's >=0, so it cannot be < */
SETs(&PL_sv_no);
RETURN;
}
auv = SvUVX(TOPs);
SETs(boolSV(auv < (UV)biv));
RETURN;
}
{ /* ## IV < UV ## */
const IV aiv = SvIVX(TOPm1s);
UV buv;
if (aiv < 0) {
/* As (b) is a UV, it's >=0, so it must be < */
SP--;
SETs(&PL_sv_yes);
RETURN;
}
buv = SvUVX(TOPs);
SP--;
SETs(boolSV((UV)aiv < buv));
RETURN;
}
}
}
#endif
#ifndef NV_PRESERVES_UV
#ifdef PERL_PRESERVE_IVUV
else
#endif
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
SP--;
SETs(boolSV(SvRV(TOPs) < SvRV(TOPp1s)));
RETURN;
}
#endif
{
#if defined(NAN_COMPARE_BROKEN) && defined(Perl_isnan)
dPOPTOPnnrl;
if (Perl_isnan(left) || Perl_isnan(right))
RETSETNO;
SETs(boolSV(left < right));
#else
dPOPnv;
SETs(boolSV(TOPn < value));
#endif
RETURN;
}
}
PP(pp_gt)
{
dVAR; dSP; tryAMAGICbinSET(gt,0);
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool auvok = SvUOK(TOPm1s);
bool buvok = SvUOK(TOPs);
if (!auvok && !buvok) { /* ## IV > IV ## */
const IV aiv = SvIVX(TOPm1s);
const IV biv = SvIVX(TOPs);
SP--;
SETs(boolSV(aiv > biv));
RETURN;
}
if (auvok && buvok) { /* ## UV > UV ## */
const UV auv = SvUVX(TOPm1s);
const UV buv = SvUVX(TOPs);
SP--;
SETs(boolSV(auv > buv));
RETURN;
}
if (auvok) { /* ## UV > IV ## */
UV auv;
const IV biv = SvIVX(TOPs);
SP--;
if (biv < 0) {
/* As (a) is a UV, it's >=0, so it must be > */
SETs(&PL_sv_yes);
RETURN;
}
auv = SvUVX(TOPs);
SETs(boolSV(auv > (UV)biv));
RETURN;
}
{ /* ## IV > UV ## */
const IV aiv = SvIVX(TOPm1s);
UV buv;
if (aiv < 0) {
/* As (b) is a UV, it's >=0, so it cannot be > */
SP--;
SETs(&PL_sv_no);
RETURN;
}
buv = SvUVX(TOPs);
SP--;
SETs(boolSV((UV)aiv > buv));
RETURN;
}
}
}
#endif
#ifndef NV_PRESERVES_UV
#ifdef PERL_PRESERVE_IVUV
else
#endif
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
SP--;
SETs(boolSV(SvRV(TOPs) > SvRV(TOPp1s)));
RETURN;
}
#endif
{
#if defined(NAN_COMPARE_BROKEN) && defined(Perl_isnan)
dPOPTOPnnrl;
if (Perl_isnan(left) || Perl_isnan(right))
RETSETNO;
SETs(boolSV(left > right));
#else
dPOPnv;
SETs(boolSV(TOPn > value));
#endif
RETURN;
}
}
PP(pp_le)
{
dVAR; dSP; tryAMAGICbinSET(le,0);
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool auvok = SvUOK(TOPm1s);
bool buvok = SvUOK(TOPs);
if (!auvok && !buvok) { /* ## IV <= IV ## */
const IV aiv = SvIVX(TOPm1s);
const IV biv = SvIVX(TOPs);
SP--;
SETs(boolSV(aiv <= biv));
RETURN;
}
if (auvok && buvok) { /* ## UV <= UV ## */
UV auv = SvUVX(TOPm1s);
UV buv = SvUVX(TOPs);
SP--;
SETs(boolSV(auv <= buv));
RETURN;
}
if (auvok) { /* ## UV <= IV ## */
UV auv;
const IV biv = SvIVX(TOPs);
SP--;
if (biv < 0) {
/* As (a) is a UV, it's >=0, so a cannot be <= */
SETs(&PL_sv_no);
RETURN;
}
auv = SvUVX(TOPs);
SETs(boolSV(auv <= (UV)biv));
RETURN;
}
{ /* ## IV <= UV ## */
const IV aiv = SvIVX(TOPm1s);
UV buv;
if (aiv < 0) {
/* As (b) is a UV, it's >=0, so a must be <= */
SP--;
SETs(&PL_sv_yes);
RETURN;
}
buv = SvUVX(TOPs);
SP--;
SETs(boolSV((UV)aiv <= buv));
RETURN;
}
}
}
#endif
#ifndef NV_PRESERVES_UV
#ifdef PERL_PRESERVE_IVUV
else
#endif
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
SP--;
SETs(boolSV(SvRV(TOPs) <= SvRV(TOPp1s)));
RETURN;
}
#endif
{
#if defined(NAN_COMPARE_BROKEN) && defined(Perl_isnan)
dPOPTOPnnrl;
if (Perl_isnan(left) || Perl_isnan(right))
RETSETNO;
SETs(boolSV(left <= right));
#else
dPOPnv;
SETs(boolSV(TOPn <= value));
#endif
RETURN;
}
}
PP(pp_ge)
{
dVAR; dSP; tryAMAGICbinSET(ge,0);
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
bool auvok = SvUOK(TOPm1s);
bool buvok = SvUOK(TOPs);
if (!auvok && !buvok) { /* ## IV >= IV ## */
const IV aiv = SvIVX(TOPm1s);
const IV biv = SvIVX(TOPs);
SP--;
SETs(boolSV(aiv >= biv));
RETURN;
}
if (auvok && buvok) { /* ## UV >= UV ## */
const UV auv = SvUVX(TOPm1s);
const UV buv = SvUVX(TOPs);
SP--;
SETs(boolSV(auv >= buv));
RETURN;
}
if (auvok) { /* ## UV >= IV ## */
UV auv;
const IV biv = SvIVX(TOPs);
SP--;
if (biv < 0) {
/* As (a) is a UV, it's >=0, so it must be >= */
SETs(&PL_sv_yes);
RETURN;
}
auv = SvUVX(TOPs);
SETs(boolSV(auv >= (UV)biv));
RETURN;
}
{ /* ## IV >= UV ## */
const IV aiv = SvIVX(TOPm1s);
UV buv;
if (aiv < 0) {
/* As (b) is a UV, it's >=0, so a cannot be >= */
SP--;
SETs(&PL_sv_no);
RETURN;
}
buv = SvUVX(TOPs);
SP--;
SETs(boolSV((UV)aiv >= buv));
RETURN;
}
}
}
#endif
#ifndef NV_PRESERVES_UV
#ifdef PERL_PRESERVE_IVUV
else
#endif
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
SP--;
SETs(boolSV(SvRV(TOPs) >= SvRV(TOPp1s)));
RETURN;
}
#endif
{
#if defined(NAN_COMPARE_BROKEN) && defined(Perl_isnan)
dPOPTOPnnrl;
if (Perl_isnan(left) || Perl_isnan(right))
RETSETNO;
SETs(boolSV(left >= right));
#else
dPOPnv;
SETs(boolSV(TOPn >= value));
#endif
RETURN;
}
}
PP(pp_ne)
{
dVAR; dSP; tryAMAGICbinSET(ne,0);
#ifndef NV_PRESERVES_UV
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
SP--;
SETs(boolSV(SvRV(TOPs) != SvRV(TOPp1s)));
RETURN;
}
#endif
#ifdef PERL_PRESERVE_IVUV
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
const bool auvok = SvUOK(TOPm1s);
const bool buvok = SvUOK(TOPs);
if (auvok == buvok) { /* ## IV == IV or UV == UV ## */
/* Casting IV to UV before comparison isn't going to matter
on 2s complement. On 1s complement or sign&magnitude
(if we have any of them) it could make negative zero
differ from normal zero. As I understand it. (Need to
check - is negative zero implementation defined behaviour
anyway?). NWC */
const UV buv = SvUVX(POPs);
const UV auv = SvUVX(TOPs);
SETs(boolSV(auv != buv));
RETURN;
}
{ /* ## Mixed IV,UV ## */
IV iv;
UV uv;
/* != is commutative so swap if needed (save code) */
if (auvok) {
/* swap. top of stack (b) is the iv */
iv = SvIVX(TOPs);
SP--;
if (iv < 0) {
/* As (a) is a UV, it's >0, so it cannot be == */
SETs(&PL_sv_yes);
RETURN;
}
uv = SvUVX(TOPs);
} else {
iv = SvIVX(TOPm1s);
SP--;
if (iv < 0) {
/* As (b) is a UV, it's >0, so it cannot be == */
SETs(&PL_sv_yes);
RETURN;
}
uv = SvUVX(*(SP+1)); /* Do I want TOPp1s() ? */
}
SETs(boolSV((UV)iv != uv));
RETURN;
}
}
}
#endif
{
#if defined(NAN_COMPARE_BROKEN) && defined(Perl_isnan)
dPOPTOPnnrl;
if (Perl_isnan(left) || Perl_isnan(right))
RETSETYES;
SETs(boolSV(left != right));
#else
dPOPnv;
SETs(boolSV(TOPn != value));
#endif
RETURN;
}
}
PP(pp_ncmp)
{
dVAR; dSP; dTARGET; tryAMAGICbin(ncmp,0);
#ifndef NV_PRESERVES_UV
if (SvROK(TOPs) && !SvAMAGIC(TOPs) && SvROK(TOPm1s) && !SvAMAGIC(TOPm1s)) {
const UV right = PTR2UV(SvRV(POPs));
const UV left = PTR2UV(SvRV(TOPs));
SETi((left > right) - (left < right));
RETURN;
}
#endif
#ifdef PERL_PRESERVE_IVUV
/* Fortunately it seems NaN isn't IOK */
SvIV_please(TOPs);
if (SvIOK(TOPs)) {
SvIV_please(TOPm1s);
if (SvIOK(TOPm1s)) {
const bool leftuvok = SvUOK(TOPm1s);
const bool rightuvok = SvUOK(TOPs);
I32 value;
if (!leftuvok && !rightuvok) { /* ## IV <=> IV ## */
const IV leftiv = SvIVX(TOPm1s);
const IV rightiv = SvIVX(TOPs);
if (leftiv > rightiv)
value = 1;
else if (leftiv < rightiv)
value = -1;
else
value = 0;
} else if (leftuvok && rightuvok) { /* ## UV <=> UV ## */
const UV leftuv = SvUVX(TOPm1s);
const UV rightuv = SvUVX(TOPs);
if (leftuv > rightuv)
value = 1;
else if (leftuv < rightuv)
value = -1;
else
value = 0;
} else if (leftuvok) { /* ## UV <=> IV ## */
const IV rightiv = SvIVX(TOPs);
if (rightiv < 0) {
/* As (a) is a UV, it's >=0, so it cannot be < */
value = 1;
} else {
const UV leftuv = SvUVX(TOPm1s);
if (leftuv > (UV)rightiv) {
value = 1;
} else if (leftuv < (UV)rightiv) {
value = -1;
} else {
value = 0;
}
}
} else { /* ## IV <=> UV ## */
const IV leftiv = SvIVX(TOPm1s);
if (leftiv < 0) {
/* As (b) is a UV, it's >=0, so it must be < */
value = -1;
} else {
const UV rightuv = SvUVX(TOPs);
if ((UV)leftiv > rightuv) {
value = 1;
} else if ((UV)leftiv < rightuv) {
value = -1;
} else {
value = 0;
}
}
}
SP--;
SETi(value);
RETURN;
}
}
#endif
{
dPOPTOPnnrl;
I32 value;
#ifdef Perl_isnan
if (Perl_isnan(left) || Perl_isnan(right)) {
SETs(&PL_sv_undef);
RETURN;
}
value = (left > right) - (left < right);
#else
if (left == right)
value = 0;
else if (left < right)
value = -1;
else if (left > right)
value = 1;
else {
SETs(&PL_sv_undef);
RETURN;
}
#endif
SETi(value);
RETURN;
}
}
PP(pp_sle)
{
dVAR; dSP;
int amg_type = sle_amg;
int multiplier = 1;
int rhs = 1;
switch (PL_op->op_type) {
case OP_SLT:
amg_type = slt_amg;
/* cmp < 0 */
rhs = 0;
break;
case OP_SGT:
amg_type = sgt_amg;
/* cmp > 0 */
multiplier = -1;
rhs = 0;
break;
case OP_SGE:
amg_type = sge_amg;
/* cmp >= 0 */
multiplier = -1;
break;
}
tryAMAGICbinSET_var(amg_type,0);
{
dPOPTOPssrl;
const int cmp = (IN_LOCALE_RUNTIME
? sv_cmp_locale(left, right)
: sv_cmp(left, right));
SETs(boolSV(cmp * multiplier < rhs));
RETURN;
}
}
PP(pp_seq)
{
dVAR; dSP; tryAMAGICbinSET(seq,0);
{
dPOPTOPssrl;
SETs(boolSV(sv_eq(left, right)));
RETURN;
}
}
PP(pp_sne)
{
dVAR; dSP; tryAMAGICbinSET(sne,0);
{
dPOPTOPssrl;
SETs(boolSV(!sv_eq(left, right)));
RETURN;
}
}
PP(pp_scmp)
{
dVAR; dSP; dTARGET; tryAMAGICbin(scmp,0);
{
dPOPTOPssrl;
const int cmp = (IN_LOCALE_RUNTIME
? sv_cmp_locale(left, right)
: sv_cmp(left, right));
SETi( cmp );
RETURN;
}
}
PP(pp_bit_and)
{
dVAR; dSP; dATARGET; tryAMAGICbin(band,opASSIGN);
{
dPOPTOPssrl;
SvGETMAGIC(left);
SvGETMAGIC(right);
if (SvNIOKp(left) || SvNIOKp(right)) {
if (PL_op->op_private & HINT_INTEGER) {
const IV i = SvIV_nomg(left) & SvIV_nomg(right);
SETi(i);
}
else {
const UV u = SvUV_nomg(left) & SvUV_nomg(right);
SETu(u);
}
}
else {
do_vop(PL_op->op_type, TARG, left, right);
SETTARG;
}
RETURN;
}
}
PP(pp_bit_or)
{
dVAR; dSP; dATARGET;
const int op_type = PL_op->op_type;
tryAMAGICbin_var((op_type == OP_BIT_OR ? bor_amg : bxor_amg), opASSIGN);
{
dPOPTOPssrl;
SvGETMAGIC(left);
SvGETMAGIC(right);
if (SvNIOKp(left) || SvNIOKp(right)) {
if (PL_op->op_private & HINT_INTEGER) {
const IV l = (USE_LEFT(left) ? SvIV_nomg(left) : 0);
const IV r = SvIV_nomg(right);
const IV result = op_type == OP_BIT_OR ? (l | r) : (l ^ r);
SETi(result);
}
else {
const UV l = (USE_LEFT(left) ? SvUV_nomg(left) : 0);
const UV r = SvUV_nomg(right);
const UV result = op_type == OP_BIT_OR ? (l | r) : (l ^ r);
SETu(result);
}
}
else {
do_vop(op_type, TARG, left, right);
SETTARG;
}
RETURN;
}
}
PP(pp_negate)
{
dVAR; dSP; dTARGET; tryAMAGICun(neg);
{
dTOPss;
const int flags = SvFLAGS(sv);
SvGETMAGIC(sv);
if ((flags & SVf_IOK) || ((flags & (SVp_IOK | SVp_NOK)) == SVp_IOK)) {
/* It's publicly an integer, or privately an integer-not-float */
oops_its_an_int:
if (SvIsUV(sv)) {
if (SvIVX(sv) == IV_MIN) {
/* 2s complement assumption. */
SETi(SvIVX(sv)); /* special case: -((UV)IV_MAX+1) == IV_MIN */
RETURN;
}
else if (SvUVX(sv) <= IV_MAX) {
SETi(-SvIVX(sv));
RETURN;
}
}
else if (SvIVX(sv) != IV_MIN) {
SETi(-SvIVX(sv));
RETURN;
}
#ifdef PERL_PRESERVE_IVUV
else {
SETu((UV)IV_MIN);
RETURN;
}
#endif
}
if (SvNIOKp(sv))
SETn(-SvNV(sv));
else if (SvPOKp(sv)) {
STRLEN len;
const char * const s = SvPV_const(sv, len);
if (isIDFIRST(*s)) {
sv_setpvn(TARG, "-", 1);
sv_catsv(TARG, sv);
}
else if (*s == '+' || *s == '-') {
sv_setsv(TARG, sv);
*SvPV_force(TARG, len) = *s == '-' ? '+' : '-';
}
else if (DO_UTF8(sv)) {
SvIV_please(sv);
if (SvIOK(sv))
goto oops_its_an_int;
if (SvNOK(sv))
sv_setnv(TARG, -SvNV(sv));
else {
sv_setpvn(TARG, "-", 1);
sv_catsv(TARG, sv);
}
}
else {
SvIV_please(sv);
if (SvIOK(sv))
goto oops_its_an_int;
sv_setnv(TARG, -SvNV(sv));
}
SETTARG;
}
else
SETn(-SvNV(sv));
}
RETURN;
}
PP(pp_not)
{
dVAR; dSP; tryAMAGICunSET(not);
*PL_stack_sp = boolSV(!SvTRUE(*PL_stack_sp));
return NORMAL;
}
PP(pp_complement)
{
dVAR; dSP; dTARGET; tryAMAGICun(compl);
{
dTOPss;
SvGETMAGIC(sv);
if (SvNIOKp(sv)) {
if (PL_op->op_private & HINT_INTEGER) {
const IV i = ~SvIV_nomg(sv);
SETi(i);
}
else {
const UV u = ~SvUV_nomg(sv);
SETu(u);
}
}
else {
register U8 *tmps;
register I32 anum;
STRLEN len;
(void)SvPV_nomg_const(sv,len); /* force check for uninit var */
sv_setsv_nomg(TARG, sv);
tmps = (U8*)SvPV_force(TARG, len);
anum = len;
if (SvUTF8(TARG)) {
/* Calculate exact length, let's not estimate. */
STRLEN targlen = 0;
STRLEN l;
UV nchar = 0;
UV nwide = 0;
U8 * const send = tmps + len;
U8 * const origtmps = tmps;
const UV utf8flags = UTF8_ALLOW_ANYUV;
while (tmps < send) {
const UV c = utf8n_to_uvchr(tmps, send-tmps, &l, utf8flags);
tmps += l;
targlen += UNISKIP(~c);
nchar++;
if (c > 0xff)
nwide++;
}
/* Now rewind strings and write them. */
tmps = origtmps;
if (nwide) {
U8 *result;
U8 *p;
Newx(result, targlen + 1, U8);
p = result;
while (tmps < send) {
const UV c = utf8n_to_uvchr(tmps, send-tmps, &l, utf8flags);
tmps += l;
p = uvchr_to_utf8_flags(p, ~c, UNICODE_ALLOW_ANY);
}
*p = '\0';
sv_usepvn_flags(TARG, (char*)result, targlen,
SV_HAS_TRAILING_NUL);
SvUTF8_on(TARG);
}
else {
U8 *result;
U8 *p;
Newx(result, nchar + 1, U8);
p = result;
while (tmps < send) {
const U8 c = (U8)utf8n_to_uvchr(tmps, send-tmps, &l, utf8flags);
tmps += l;
*p++ = ~c;
}
*p = '\0';
sv_usepvn_flags(TARG, (char*)result, nchar, SV_HAS_TRAILING_NUL);
SvUTF8_off(TARG);
}
SETs(TARG);
RETURN;
}
#ifdef LIBERAL
{
register long *tmpl;
for ( ; anum && (unsigned long)tmps % sizeof(long); anum--, tmps++)
*tmps = ~*tmps;
tmpl = (long*)tmps;
for ( ; anum >= (I32)sizeof(long); anum -= (I32)sizeof(long), tmpl++)
*tmpl = ~*tmpl;
tmps = (U8*)tmpl;
}
#endif
for ( ; anum > 0; anum--, tmps++)
*tmps = ~*tmps;
SETs(TARG);
}
RETURN;
}
}
/* integer versions of some of the above */
PP(pp_i_multiply)
{
dVAR; dSP; dATARGET; tryAMAGICbin(mult,opASSIGN);
{
dPOPTOPiirl;
SETi( left * right );
RETURN;
}
}
PP(pp_i_divide)
{
IV num;
dVAR; dSP; dATARGET; tryAMAGICbin(div,opASSIGN);
{
dPOPiv;
if (value == 0)
DIE(aTHX_ "Illegal division by zero");
num = POPi;
/* avoid FPE_INTOVF on some platforms when num is IV_MIN */
if (value == -1)
value = - num;
else
value = num / value;
PUSHi( value );
RETURN;
}
}
STATIC
PP(pp_i_modulo_0)
{
/* This is the vanilla old i_modulo. */
dVAR; dSP; dATARGET; tryAMAGICbin(modulo,opASSIGN);
{
dPOPTOPiirl;
if (!right)
DIE(aTHX_ "Illegal modulus zero");
/* avoid FPE_INTOVF on some platforms when left is IV_MIN */
if (right == -1)
SETi( 0 );
else
SETi( left % right );
RETURN;
}
}
#if defined(__GLIBC__) && IVSIZE == 8
STATIC
PP(pp_i_modulo_1)
{
/* This is the i_modulo with the workaround for the _moddi3 bug
* in (at least) glibc 2.2.5 (the PERL_ABS() the workaround).
* See below for pp_i_modulo. */
dVAR; dVAR; dSP; dATARGET; tryAMAGICbin(modulo,opASSIGN);
{
dPOPTOPiirl;
if (!right)
DIE(aTHX_ "Illegal modulus zero");
/* avoid FPE_INTOVF on some platforms when left is IV_MIN */
if (right == -1)
SETi( 0 );
else
SETi( left % PERL_ABS(right) );
RETURN;
}
}
#endif
PP(pp_i_modulo)
{
dVAR; dSP; dATARGET; tryAMAGICbin(modulo,opASSIGN);
{
dPOPTOPiirl;
if (!right)
DIE(aTHX_ "Illegal modulus zero");
/* The assumption is to use hereafter the old vanilla version... */
PL_op->op_ppaddr =
PL_ppaddr[OP_I_MODULO] =
Perl_pp_i_modulo_0;
/* .. but if we have glibc, we might have a buggy _moddi3
* (at least glicb 2.2.5 is known to have this bug), in other
* words our integer modulus with negative quad as the second
* argument might be broken. Test for this and re-patch the
* opcode dispatch table if that is the case, remembering to
* also apply the workaround so that this first round works
* right, too. See [perl #9402] for more information. */
#if defined(__GLIBC__) && IVSIZE == 8
{
IV l = 3;
IV r = -10;
/* Cannot do this check with inlined IV constants since
* that seems to work correctly even with the buggy glibc. */
if (l % r == -3) {
/* Yikes, we have the bug.
* Patch in the workaround version. */
PL_op->op_ppaddr =
PL_ppaddr[OP_I_MODULO] =
&Perl_pp_i_modulo_1;
/* Make certain we work right this time, too. */
right = PERL_ABS(right);
}
}
#endif
/* avoid FPE_INTOVF on some platforms when left is IV_MIN */
if (right == -1)
SETi( 0 );
else
SETi( left % right );
RETURN;
}
}
PP(pp_i_add)
{
dVAR; dSP; dATARGET; tryAMAGICbin(add,opASSIGN);
{
dPOPTOPiirl_ul;
SETi( left + right );
RETURN;
}
}
PP(pp_i_subtract)
{
dVAR; dSP; dATARGET; tryAMAGICbin(subtr,opASSIGN);
{
dPOPTOPiirl_ul;
SETi( left - right );
RETURN;
}
}
PP(pp_i_lt)
{
dVAR; dSP; tryAMAGICbinSET(lt,0);
{
dPOPTOPiirl;
SETs(boolSV(left < right));
RETURN;
}
}
PP(pp_i_gt)
{
dVAR; dSP; tryAMAGICbinSET(gt,0);
{
dPOPTOPiirl;
SETs(boolSV(left > right));
RETURN;
}
}
PP(pp_i_le)
{
dVAR; dSP; tryAMAGICbinSET(le,0);
{
dPOPTOPiirl;
SETs(boolSV(left <= right));
RETURN;
}
}
PP(pp_i_ge)
{
dVAR; dSP; tryAMAGICbinSET(ge,0);
{
dPOPTOPiirl;
SETs(boolSV(left >= right));
RETURN;
}
}
PP(pp_i_eq)
{
dVAR; dSP; tryAMAGICbinSET(eq,0);
{
dPOPTOPiirl;
SETs(boolSV(left == right));
RETURN;
}
}
PP(pp_i_ne)
{
dVAR; dSP; tryAMAGICbinSET(ne,0);
{
dPOPTOPiirl;
SETs(boolSV(left != right));
RETURN;
}
}
PP(pp_i_ncmp)
{
dVAR; dSP; dTARGET; tryAMAGICbin(ncmp,0);
{
dPOPTOPiirl;
I32 value;
if (left > right)
value = 1;
else if (left < right)
value = -1;
else
value = 0;
SETi(value);
RETURN;
}
}
PP(pp_i_negate)
{
dVAR; dSP; dTARGET; tryAMAGICun(neg);
SETi(-TOPi);
RETURN;
}
/* High falutin' math. */
PP(pp_atan2)
{
dVAR; dSP; dTARGET; tryAMAGICbin(atan2,0);
{
dPOPTOPnnrl;
SETn(Perl_atan2(left, right));
RETURN;
}
}
PP(pp_sin)
{
dVAR; dSP; dTARGET;
int amg_type = sin_amg;
const char *neg_report = NULL;
NV (*func)(NV) = Perl_sin;
const int op_type = PL_op->op_type;
switch (op_type) {
case OP_COS:
amg_type = cos_amg;
func = Perl_cos;
break;
case OP_EXP:
amg_type = exp_amg;
func = Perl_exp;
break;
case OP_LOG:
amg_type = log_amg;
func = Perl_log;
neg_report = "log";
break;
case OP_SQRT:
amg_type = sqrt_amg;
func = Perl_sqrt;
neg_report = "sqrt";
break;
}
tryAMAGICun_var(amg_type);
{
const NV value = POPn;
if (neg_report) {
if (op_type == OP_LOG ? (value <= 0.0) : (value < 0.0)) {
SET_NUMERIC_STANDARD();
DIE(aTHX_ "Can't take %s of %"NVgf, neg_report, value);
}
}
XPUSHn(func(value));
RETURN;
}
}
/* Support Configure command-line overrides for rand() functions.
After 5.005, perhaps we should replace this by Configure support
for drand48(), random(), or rand(). For 5.005, though, maintain
compatibility by calling rand() but allow the user to override it.
See INSTALL for details. --Andy Dougherty 15 July 1998
*/
/* Now it's after 5.005, and Configure supports drand48() and random(),
in addition to rand(). So the overrides should not be needed any more.
--Jarkko Hietaniemi 27 September 1998
*/
#ifndef HAS_DRAND48_PROTO
extern double drand48 (void);
#endif
PP(pp_rand)
{
dVAR; dSP; dTARGET;
NV value;
if (MAXARG < 1)
value = 1.0;
else
value = POPn;
if (value == 0.0)
value = 1.0;
if (!PL_srand_called) {
(void)seedDrand01((Rand_seed_t)seed());
PL_srand_called = TRUE;
}
value *= Drand01();
XPUSHn(value);
RETURN;
}
PP(pp_srand)
{
dVAR; dSP;
const UV anum = (MAXARG < 1) ? seed() : POPu;
(void)seedDrand01((Rand_seed_t)anum);
PL_srand_called = TRUE;
EXTEND(SP, 1);
RETPUSHYES;
}
PP(pp_int)
{
dVAR; dSP; dTARGET; tryAMAGICun(int);
{
const IV iv = TOPi; /* attempt to convert to IV if possible. */
/* XXX it's arguable that compiler casting to IV might be subtly
different from modf (for numbers inside (IV_MIN,UV_MAX)) in which
else preferring IV has introduced a subtle behaviour change bug. OTOH
relying on floating point to be accurate is a bug. */
if (!SvOK(TOPs))
SETu(0);
else if (SvIOK(TOPs)) {
if (SvIsUV(TOPs)) {
const UV uv = TOPu;
SETu(uv);
} else
SETi(iv);
} else {
const NV value = TOPn;
if (value >= 0.0) {
if (value < (NV)UV_MAX + 0.5) {
SETu(U_V(value));
} else {
SETn(Perl_floor(value));
}
}
else {
if (value > (NV)IV_MIN - 0.5) {
SETi(I_V(value));
} else {
SETn(Perl_ceil(value));
}
}
}
}
RETURN;
}
PP(pp_abs)
{
dVAR; dSP; dTARGET; tryAMAGICun(abs);
{
/* This will cache the NV value if string isn't actually integer */
const IV iv = TOPi;
if (!SvOK(TOPs))
SETu(0);
else if (SvIOK(TOPs)) {
/* IVX is precise */
if (SvIsUV(TOPs)) {
SETu(TOPu); /* force it to be numeric only */
} else {
if (iv >= 0) {
SETi(iv);
} else {
if (iv != IV_MIN) {
SETi(-iv);
} else {
/* 2s complement assumption. Also, not really needed as
IV_MIN and -IV_MIN should both be %100...00 and NV-able */
SETu(IV_MIN);
}
}
}
} else{
const NV value = TOPn;
if (value < 0.0)
SETn(-value);
else
SETn(value);
}
}
RETURN;
}
PP(pp_oct)
{
dVAR; dSP; dTARGET;
const char *tmps;
I32 flags = PERL_SCAN_ALLOW_UNDERSCORES;
STRLEN len;
NV result_nv;
UV result_uv;
SV* const sv = POPs;
tmps = (SvPV_const(sv, len));
if (DO_UTF8(sv)) {
/* If Unicode, try to downgrade
* If not possible, croak. */
SV* const tsv = sv_2mortal(newSVsv(sv));
SvUTF8_on(tsv);
sv_utf8_downgrade(tsv, FALSE);
tmps = SvPV_const(tsv, len);
}
if (PL_op->op_type == OP_HEX)
goto hex;
while (*tmps && len && isSPACE(*tmps))
tmps++, len--;
if (*tmps == '0')
tmps++, len--;
if (*tmps == 'x') {
hex:
result_uv = grok_hex (tmps, &len, &flags, &result_nv);
}
else if (*tmps == 'b')
result_uv = grok_bin (tmps, &len, &flags, &result_nv);
else
result_uv = grok_oct (tmps, &len, &flags, &result_nv);
if (flags & PERL_SCAN_GREATER_THAN_UV_MAX) {
XPUSHn(result_nv);
}
else {
XPUSHu(result_uv);
}
RETURN;
}
/* String stuff. */
PP(pp_length)
{
dVAR; dSP; dTARGET;
SV * const sv = TOPs;
if (SvAMAGIC(sv)) {
/* For an overloaded scalar, we can't know in advance if it's going to
be UTF-8 or not. Also, we can't call sv_len_utf8 as it likes to
cache the length. Maybe that should be a documented feature of it.
*/
STRLEN len;
const char *const p = SvPV_const(sv, len);
if (DO_UTF8(sv)) {
SETi(utf8_length((U8*)p, (U8*)p + len));
}
else
SETi(len);
}
else if (DO_UTF8(sv))
SETi(sv_len_utf8(sv));
else
SETi(sv_len(sv));
RETURN;
}
PP(pp_substr)
{
dVAR; dSP; dTARGET;
SV *sv;
I32 len = 0;
STRLEN curlen;
STRLEN utf8_curlen;
I32 pos;
I32 rem;
I32 fail;
const I32 lvalue = PL_op->op_flags & OPf_MOD || LVRET;
const char *tmps;
const I32 arybase = CopARYBASE_get(PL_curcop);
SV *repl_sv = NULL;
const char *repl = NULL;
STRLEN repl_len;
const int num_args = PL_op->op_private & 7;
bool repl_need_utf8_upgrade = FALSE;
bool repl_is_utf8 = FALSE;
SvTAINTED_off(TARG); /* decontaminate */
SvUTF8_off(TARG); /* decontaminate */
if (num_args > 2) {
if (num_args > 3) {
repl_sv = POPs;
repl = SvPV_const(repl_sv, repl_len);
repl_is_utf8 = DO_UTF8(repl_sv) && SvCUR(repl_sv);
}
len = POPi;
}
pos = POPi;
sv = POPs;
PUTBACK;
if (repl_sv) {
if (repl_is_utf8) {
if (!DO_UTF8(sv))
sv_utf8_upgrade(sv);
}
else if (DO_UTF8(sv))
repl_need_utf8_upgrade = TRUE;
}
tmps = SvPV_const(sv, curlen);
if (DO_UTF8(sv)) {
utf8_curlen = sv_len_utf8(sv);
if (utf8_curlen == curlen)
utf8_curlen = 0;
else
curlen = utf8_curlen;
}
else
utf8_curlen = 0;
if (pos >= arybase) {
pos -= arybase;
rem = curlen-pos;
fail = rem;
if (num_args > 2) {
if (len < 0) {
rem += len;
if (rem < 0)
rem = 0;
}
else if (rem > len)
rem = len;
}
}
else {
pos += curlen;
if (num_args < 3)
rem = curlen;
else if (len >= 0) {
rem = pos+len;
if (rem > (I32)curlen)
rem = curlen;
}
else {
rem = curlen+len;
if (rem < pos)
rem = pos;
}
if (pos < 0)
pos = 0;
fail = rem;
rem -= pos;
}
if (fail < 0) {
if (lvalue || repl)
Perl_croak(aTHX_ "substr outside of string");
if (ckWARN(WARN_SUBSTR))
Perl_warner(aTHX_ packWARN(WARN_SUBSTR), "substr outside of string");
RETPUSHUNDEF;
}
else {
const I32 upos = pos;
const I32 urem = rem;
if (utf8_curlen)
sv_pos_u2b(sv, &pos, &rem);
tmps += pos;
/* we either return a PV or an LV. If the TARG hasn't been used
* before, or is of that type, reuse it; otherwise use a mortal
* instead. Note that LVs can have an extended lifetime, so also
* dont reuse if refcount > 1 (bug #20933) */
if (SvTYPE(TARG) > SVt_NULL) {
if ( (SvTYPE(TARG) == SVt_PVLV)
? (!lvalue || SvREFCNT(TARG) > 1)
: lvalue)
{
TARG = sv_newmortal();
}
}
sv_setpvn(TARG, tmps, rem);
#ifdef USE_LOCALE_COLLATE
sv_unmagic(TARG, PERL_MAGIC_collxfrm);
#endif
if (utf8_curlen)
SvUTF8_on(TARG);
if (repl) {
SV* repl_sv_copy = NULL;
if (repl_need_utf8_upgrade) {
repl_sv_copy = newSVsv(repl_sv);
sv_utf8_upgrade(repl_sv_copy);
repl = SvPV_const(repl_sv_copy, repl_len);
repl_is_utf8 = DO_UTF8(repl_sv_copy) && SvCUR(sv);
}
sv_insert(sv, pos, rem, repl, repl_len);
if (repl_is_utf8)
SvUTF8_on(sv);
if (repl_sv_copy)
SvREFCNT_dec(repl_sv_copy);
}
else if (lvalue) { /* it's an lvalue! */
if (!SvGMAGICAL(sv)) {
if (SvROK(sv)) {
SvPV_force_nolen(sv);
if (ckWARN(WARN_SUBSTR))
Perl_warner(aTHX_ packWARN(WARN_SUBSTR),
"Attempt to use reference as lvalue in substr");
}
if (isGV_with_GP(sv))
SvPV_force_nolen(sv);
else if (SvOK(sv)) /* is it defined ? */
(void)SvPOK_only_UTF8(sv);
else
sv_setpvn(sv,"",0); /* avoid lexical reincarnation */
}
if (SvTYPE(TARG) < SVt_PVLV) {
sv_upgrade(TARG, SVt_PVLV);
sv_magic(TARG, NULL, PERL_MAGIC_substr, NULL, 0);
}
LvTYPE(TARG) = 'x';
if (LvTARG(TARG) != sv) {
if (LvTARG(TARG))
SvREFCNT_dec(LvTARG(TARG));
LvTARG(TARG) = SvREFCNT_inc_simple(sv);
}
LvTARGOFF(TARG) = upos;
LvTARGLEN(TARG) = urem;
}
}
SPAGAIN;
PUSHs(TARG); /* avoid SvSETMAGIC here */
RETURN;
}
PP(pp_vec)
{
dVAR; dSP; dTARGET;
register const IV size = POPi;
register const IV offset = POPi;
register SV * const src = POPs;
const I32 lvalue = PL_op->op_flags & OPf_MOD || LVRET;
SvTAINTED_off(TARG); /* decontaminate */
if (lvalue) { /* it's an lvalue! */
if (SvREFCNT(TARG) > 1) /* don't share the TARG (#20933) */
TARG = sv_newmortal();
if (SvTYPE(TARG) < SVt_PVLV) {
sv_upgrade(TARG, SVt_PVLV);
sv_magic(TARG, NULL, PERL_MAGIC_vec, NULL, 0);
}
LvTYPE(TARG) = 'v';
if (LvTARG(TARG) != src) {
if (LvTARG(TARG))
SvREFCNT_dec(LvTARG(TARG));
LvTARG(TARG) = SvREFCNT_inc_simple(src);
}
LvTARGOFF(TARG) = offset;
LvTARGLEN(TARG) = size;
}
sv_setuv(TARG, do_vecget(src, offset, size));
PUSHs(TARG);
RETURN;
}
PP(pp_index)
{
dVAR; dSP; dTARGET;
SV *big;
SV *little;
SV *temp = NULL;
STRLEN biglen;
STRLEN llen = 0;
I32 offset;
I32 retval;
const char *big_p;
const char *little_p;
const I32 arybase = CopARYBASE_get(PL_curcop);
bool big_utf8;
bool little_utf8;
const bool is_index = PL_op->op_type == OP_INDEX;
if (MAXARG >= 3) {
/* arybase is in characters, like offset, so combine prior to the
UTF-8 to bytes calculation. */
offset = POPi - arybase;
}
little = POPs;
big = POPs;
big_p = SvPV_const(big, biglen);
little_p = SvPV_const(little, llen);
big_utf8 = DO_UTF8(big);
little_utf8 = DO_UTF8(little);
if (big_utf8 ^ little_utf8) {
/* One needs to be upgraded. */
if (little_utf8 && !PL_encoding) {
/* Well, maybe instead we might be able to downgrade the small
string? */
char * const pv = (char*)bytes_from_utf8((U8 *)little_p, &llen,
&little_utf8);
if (little_utf8) {
/* If the large string is ISO-8859-1, and it's not possible to
convert the small string to ISO-8859-1, then there is no
way that it could be found anywhere by index. */
retval = -1;
goto fail;
}
/* At this point, pv is a malloc()ed string. So donate it to temp
to ensure it will get free()d */
little = temp = newSV(0);
sv_usepvn(temp, pv, llen);
little_p = SvPVX(little);
} else {
temp = little_utf8
? newSVpvn(big_p, biglen) : newSVpvn(little_p, llen);
if (PL_encoding) {
sv_recode_to_utf8(temp, PL_encoding);
} else {
sv_utf8_upgrade(temp);
}
if (little_utf8) {
big = temp;
big_utf8 = TRUE;
big_p = SvPV_const(big, biglen);
} else {
little = temp;
little_p = SvPV_const(little, llen);
}
}
}
if (SvGAMAGIC(big)) {
/* Life just becomes a lot easier if I use a temporary here.
Otherwise I need to avoid calls to sv_pos_u2b(), which (dangerously)
will trigger magic and overloading again, as will fbm_instr()
*/
big = sv_2mortal(newSVpvn(big_p, biglen));
if (big_utf8)
SvUTF8_on(big);
big_p = SvPVX(big);
}
if (SvGAMAGIC(little) || (is_index && !SvOK(little))) {
/* index && SvOK() is a hack. fbm_instr() calls SvPV_const, which will
warn on undef, and we've already triggered a warning with the
SvPV_const some lines above. We can't remove that, as we need to
call some SvPV to trigger overloading early and find out if the
string is UTF-8.
This is all getting to messy. The API isn't quite clean enough,
because data access has side effects.
*/
little = sv_2mortal(newSVpvn(little_p, llen));
if (little_utf8)
SvUTF8_on(little);
little_p = SvPVX(little);
}
if (MAXARG < 3)
offset = is_index ? 0 : biglen;
else {
if (big_utf8 && offset > 0)
sv_pos_u2b(big, &offset, 0);
if (!is_index)
offset += llen;
}
if (offset < 0)
offset = 0;
else if (offset > (I32)biglen)
offset = biglen;
if (!(little_p = is_index
? fbm_instr((unsigned char*)big_p + offset,
(unsigned char*)big_p + biglen, little, 0)
: rninstr(big_p, big_p + offset,
little_p, little_p + llen)))
retval = -1;
else {
retval = little_p - big_p;
if (retval > 0 && big_utf8)
sv_pos_b2u(big, &retval);
}
if (temp)
SvREFCNT_dec(temp);
fail:
PUSHi(retval + arybase);
RETURN;
}
PP(pp_sprintf)
{
dVAR; dSP; dMARK; dORIGMARK; dTARGET;
if (SvTAINTED(MARK[1]))
TAINT_PROPER("sprintf");
do_sprintf(TARG, SP-MARK, MARK+1);
TAINT_IF(SvTAINTED(TARG));
SP = ORIGMARK;
PUSHTARG;
RETURN;
}
PP(pp_ord)
{
dVAR; dSP; dTARGET;
SV *argsv = POPs;
STRLEN len;
const U8 *s = (U8*)SvPV_const(argsv, len);
if (PL_encoding && SvPOK(argsv) && !DO_UTF8(argsv)) {
SV * const tmpsv = sv_2mortal(newSVsv(argsv));
s = (U8*)sv_recode_to_utf8(tmpsv, PL_encoding);
argsv = tmpsv;
}
XPUSHu(DO_UTF8(argsv) ?
utf8n_to_uvchr(s, UTF8_MAXBYTES, 0, UTF8_ALLOW_ANYUV) :
(*s & 0xff));
RETURN;
}
PP(pp_chr)
{
dVAR; dSP; dTARGET;
char *tmps;
UV value;
if (((SvIOK_notUV(TOPs) && SvIV(TOPs) < 0)
||
(SvNOK(TOPs) && SvNV(TOPs) < 0.0))) {
if (IN_BYTES) {
value = POPu; /* chr(-1) eq chr(0xff), etc. */
} else {
(void) POPs; /* Ignore the argument value. */
value = UNICODE_REPLACEMENT;
}
} else {
value = POPu;
}
SvUPGRADE(TARG,SVt_PV);
if (value > 255 && !IN_BYTES) {
SvGROW(TARG, (STRLEN)UNISKIP(value)+1);
tmps = (char*)uvchr_to_utf8_flags((U8*)SvPVX(TARG), value, 0);
SvCUR_set(TARG, tmps - SvPVX_const(TARG));
*tmps = '\0';
(void)SvPOK_only(TARG);
SvUTF8_on(TARG);
XPUSHs(TARG);
RETURN;
}
SvGROW(TARG,2);
SvCUR_set(TARG, 1);
tmps = SvPVX(TARG);
*tmps++ = (char)value;
*tmps = '\0';
(void)SvPOK_only(TARG);
if (PL_encoding && !IN_BYTES) {
sv_recode_to_utf8(TARG, PL_encoding);
tmps = SvPVX(TARG);
if (SvCUR(TARG) == 0 || !is_utf8_string((U8*)tmps, SvCUR(TARG)) ||
UNICODE_IS_REPLACEMENT(utf8_to_uvchr((U8*)tmps, NULL))) {
SvGROW(TARG, 2);
tmps = SvPVX(TARG);
SvCUR_set(TARG, 1);
*tmps++ = (char)value;
*tmps = '\0';
SvUTF8_off(TARG);
}
}
XPUSHs(TARG);
RETURN;
}
PP(pp_crypt)
{
#ifdef HAS_CRYPT
dVAR; dSP; dTARGET;
dPOPTOPssrl;
STRLEN len;
const char *tmps = SvPV_const(left, len);
if (DO_UTF8(left)) {
/* If Unicode, try to downgrade.
* If not possible, croak.
* Yes, we made this up. */
SV* const tsv = sv_2mortal(newSVsv(left));
SvUTF8_on(tsv);
sv_utf8_downgrade(tsv, FALSE);
tmps = SvPV_const(tsv, len);
}
# ifdef USE_ITHREADS
# ifdef HAS_CRYPT_R
if (!PL_reentrant_buffer->_crypt_struct_buffer) {
/* This should be threadsafe because in ithreads there is only
* one thread per interpreter. If this would not be true,
* we would need a mutex to protect this malloc. */
PL_reentrant_buffer->_crypt_struct_buffer =
(struct crypt_data *)safemalloc(sizeof(struct crypt_data));
#if defined(__GLIBC__) || defined(__EMX__)
if (PL_reentrant_buffer->_crypt_struct_buffer) {
PL_reentrant_buffer->_crypt_struct_buffer->initialized = 0;
/* work around glibc-2.2.5 bug */
PL_reentrant_buffer->_crypt_struct_buffer->current_saltbits = 0;
}
#endif
}
# endif /* HAS_CRYPT_R */
# endif /* USE_ITHREADS */
# ifdef FCRYPT
sv_setpv(TARG, fcrypt(tmps, SvPV_nolen_const(right)));
# else
sv_setpv(TARG, PerlProc_crypt(tmps, SvPV_nolen_const(right)));
# endif
SETs(TARG);
RETURN;
#else
DIE(aTHX_
"The crypt() function is unimplemented due to excessive paranoia.");
#endif
}
PP(pp_ucfirst)
{
dVAR;
dSP;
SV *source = TOPs;
STRLEN slen;
STRLEN need;
SV *dest;
bool inplace = TRUE;
bool doing_utf8;
const int op_type = PL_op->op_type;
const U8 *s;
U8 *d;
U8 tmpbuf[UTF8_MAXBYTES_CASE+1];
STRLEN ulen;
STRLEN tculen;
SvGETMAGIC(source);
if (SvOK(source)) {
s = (const U8*)SvPV_nomg_const(source, slen);
} else {
s = (const U8*)"";
slen = 0;
}
if (slen && DO_UTF8(source) && UTF8_IS_START(*s)) {
doing_utf8 = TRUE;
utf8_to_uvchr(s, &ulen);
if (op_type == OP_UCFIRST) {
toTITLE_utf8(s, tmpbuf, &tculen);
} else {
toLOWER_utf8(s, tmpbuf, &tculen);
}
/* If the two differ, we definately cannot do inplace. */
inplace = (ulen == tculen);
need = slen + 1 - ulen + tculen;
} else {
doing_utf8 = FALSE;
need = slen + 1;
}
if (SvPADTMP(source) && !SvREADONLY(source) && inplace) {
/* We can convert in place. */
dest = source;
s = d = (U8*)SvPV_force_nomg(source, slen);
} else {
dTARGET;
dest = TARG;
SvUPGRADE(dest, SVt_PV);
d = (U8*)SvGROW(dest, need);
(void)SvPOK_only(dest);
SETs(dest);
inplace = FALSE;
}
if (doing_utf8) {
if(!inplace) {
/* slen is the byte length of the whole SV.
* ulen is the byte length of the original Unicode character
* stored as UTF-8 at s.
* tculen is the byte length of the freshly titlecased (or
* lowercased) Unicode character stored as UTF-8 at tmpbuf.
* We first set the result to be the titlecased (/lowercased)
* character, and then append the rest of the SV data. */
sv_setpvn(dest, (char*)tmpbuf, tculen);
if (slen > ulen)
sv_catpvn(dest, (char*)(s + ulen), slen - ulen);
SvUTF8_on(dest);
}
else {
Copy(tmpbuf, d, tculen, U8);
SvCUR_set(dest, need - 1);
}
}
else {
if (*s) {
if (IN_LOCALE_RUNTIME) {
TAINT;
SvTAINTED_on(dest);
*d = (op_type == OP_UCFIRST)
? toUPPER_LC(*s) : toLOWER_LC(*s);
}
else
*d = (op_type == OP_UCFIRST) ? toUPPER(*s) : toLOWER(*s);
} else {
/* See bug #39028 */
*d = *s;
}
if (SvUTF8(source))
SvUTF8_on(dest);
if (!inplace) {
/* This will copy the trailing NUL */
Copy(s + 1, d + 1, slen, U8);
SvCUR_set(dest, need - 1);
}
}
SvSETMAGIC(dest);
RETURN;
}
/* There's so much setup/teardown code common between uc and lc, I wonder if
it would be worth merging the two, and just having a switch outside each
of the three tight loops. */
PP(pp_uc)
{
dVAR;
dSP;
SV *source = TOPs;
STRLEN len;
STRLEN min;
SV *dest;
const U8 *s;
U8 *d;
SvGETMAGIC(source);
if (SvPADTMP(source) && !SvREADONLY(source) && !SvAMAGIC(source)
&& !DO_UTF8(source)) {
/* We can convert in place. */
dest = source;
s = d = (U8*)SvPV_force_nomg(source, len);
min = len + 1;
} else {
dTARGET;
dest = TARG;
/* The old implementation would copy source into TARG at this point.
This had the side effect that if source was undef, TARG was now
an undefined SV with PADTMP set, and they don't warn inside
sv_2pv_flags(). However, we're now getting the PV direct from
source, which doesn't have PADTMP set, so it would warn. Hence the
little games. */
if (SvOK(source)) {
s = (const U8*)SvPV_nomg_const(source, len);
} else {
s = (const U8*)"";
len = 0;
}
min = len + 1;
SvUPGRADE(dest, SVt_PV);
d = (U8*)SvGROW(dest, min);
(void)SvPOK_only(dest);
SETs(dest);
}
/* Overloaded values may have toggled the UTF-8 flag on source, so we need
to check DO_UTF8 again here. */
if (DO_UTF8(source)) {
const U8 *const send = s + len;
U8 tmpbuf[UTF8_MAXBYTES+1];
while (s < send) {
const STRLEN u = UTF8SKIP(s);
STRLEN ulen;
toUPPER_utf8(s, tmpbuf, &ulen);
if (ulen > u && (SvLEN(dest) < (min += ulen - u))) {
/* If the eventually required minimum size outgrows
* the available space, we need to grow. */
const UV o = d - (U8*)SvPVX_const(dest);
/* If someone uppercases one million U+03B0s we SvGROW() one
* million times. Or we could try guessing how much to
allocate without allocating too much. Such is life. */
SvGROW(dest, min);
d = (U8*)SvPVX(dest) + o;
}
Copy(tmpbuf, d, ulen, U8);
d += ulen;
s += u;
}
SvUTF8_on(dest);
*d = '\0';
SvCUR_set(dest, d - (U8*)SvPVX_const(dest));
} else {
if (len) {
const U8 *const send = s + len;
if (IN_LOCALE_RUNTIME) {
TAINT;
SvTAINTED_on(dest);
for (; s < send; d++, s++)
*d = toUPPER_LC(*s);
}
else {
for (; s < send; d++, s++)
*d = toUPPER(*s);
}
}
if (source != dest) {
*d = '\0';
SvCUR_set(dest, d - (U8*)SvPVX_const(dest));
}
}
SvSETMAGIC(dest);
RETURN;
}
PP(pp_lc)
{
dVAR;
dSP;
SV *source = TOPs;
STRLEN len;
STRLEN min;
SV *dest;
const U8 *s;
U8 *d;
SvGETMAGIC(source);
if (SvPADTMP(source) && !SvREADONLY(source) && !SvAMAGIC(source)
&& !DO_UTF8(source)) {
/* We can convert in place. */
dest = source;
s = d = (U8*)SvPV_force_nomg(source, len);
min = len + 1;
} else {
dTARGET;
dest = TARG;
/* The old implementation would copy source into TARG at this point.
This had the side effect that if source was undef, TARG was now
an undefined SV with PADTMP set, and they don't warn inside
sv_2pv_flags(). However, we're now getting the PV direct from
source, which doesn't have PADTMP set, so it would warn. Hence the
little games. */
if (SvOK(source)) {
s = (const U8*)SvPV_nomg_const(source, len);
} else {
s = (const U8*)"";
len = 0;
}
min = len + 1;
SvUPGRADE(dest, SVt_PV);
d = (U8*)SvGROW(dest, min);
(void)SvPOK_only(dest);
SETs(dest);
}
/* Overloaded values may have toggled the UTF-8 flag on source, so we need
to check DO_UTF8 again here. */
if (DO_UTF8(source)) {
const U8 *const send = s + len;
U8 tmpbuf[UTF8_MAXBYTES_CASE+1];
while (s < send) {
const STRLEN u = UTF8SKIP(s);
STRLEN ulen;
const UV uv = toLOWER_utf8(s, tmpbuf, &ulen);
#define GREEK_CAPITAL_LETTER_SIGMA 0x03A3 /* Unicode U+03A3 */
if (uv == GREEK_CAPITAL_LETTER_SIGMA) {
NOOP;
/*
* Now if the sigma is NOT followed by
* /$ignorable_sequence$cased_letter/;
* and it IS preceded by /$cased_letter$ignorable_sequence/;
* where $ignorable_sequence is [\x{2010}\x{AD}\p{Mn}]*
* and $cased_letter is [\p{Ll}\p{Lo}\p{Lt}]
* then it should be mapped to 0x03C2,
* (GREEK SMALL LETTER FINAL SIGMA),
* instead of staying 0x03A3.
* "should be": in other words, this is not implemented yet.
* See lib/unicore/SpecialCasing.txt.
*/
}
if (ulen > u && (SvLEN(dest) < (min += ulen - u))) {
/* If the eventually required minimum size outgrows
* the available space, we need to grow. */
const UV o = d - (U8*)SvPVX_const(dest);
/* If someone lowercases one million U+0130s we SvGROW() one
* million times. Or we could try guessing how much to
allocate without allocating too much. Such is life. */
SvGROW(dest, min);
d = (U8*)SvPVX(dest) + o;
}
Copy(tmpbuf, d, ulen, U8);
d += ulen;
s += u;
}
SvUTF8_on(dest);
*d = '\0';
SvCUR_set(dest, d - (U8*)SvPVX_const(dest));
} else {
if (len) {
const U8 *const send = s + len;
if (IN_LOCALE_RUNTIME) {
TAINT;
SvTAINTED_on(dest);
for (; s < send; d++, s++)
*d = toLOWER_LC(*s);
}
else {
for (; s < send; d++, s++)
*d = toLOWER(*s);
}
}
if (source != dest) {
*d = '\0';
SvCUR_set(dest, d - (U8*)SvPVX_const(dest));
}
}
SvSETMAGIC(dest);
RETURN;
}
PP(pp_quotemeta)
{
dVAR; dSP; dTARGET;
SV * const sv = TOPs;
STRLEN len;
register const char *s = SvPV_const(sv,len);
SvUTF8_off(TARG); /* decontaminate */
if (len) {
register char *d;
SvUPGRADE(TARG, SVt_PV);
SvGROW(TARG, (len * 2) + 1);
d = SvPVX(TARG);
if (DO_UTF8(sv)) {
while (len) {
if (UTF8_IS_CONTINUED(*s)) {
STRLEN ulen = UTF8SKIP(s);
if (ulen > len)
ulen = len;
len -= ulen;
while (ulen--)
*d++ = *s++;
}
else {
if (!isALNUM(*s))
*d++ = '\\';
*d++ = *s++;
len--;
}
}
SvUTF8_on(TARG);
}
else {
while (len--) {
if (!isALNUM(*s))
*d++ = '\\';
*d++ = *s++;
}
}
*d = '\0';
SvCUR_set(TARG, d - SvPVX_const(TARG));
(void)SvPOK_only_UTF8(TARG);
}
else
sv_setpvn(TARG, s, len);
SETs(TARG);
if (SvSMAGICAL(TARG))
mg_set(TARG);
RETURN;
}
/* Arrays. */
PP(pp_aslice)
{
dVAR; dSP; dMARK; dORIGMARK;
register AV* const av = (AV*)POPs;
register const I32 lval = (PL_op->op_flags & OPf_MOD || LVRET);
if (SvTYPE(av) == SVt_PVAV) {
const I32 arybase = CopARYBASE_get(PL_curcop);
if (lval && PL_op->op_private & OPpLVAL_INTRO) {
register SV **svp;
I32 max = -1;
for (svp = MARK + 1; svp <= SP; svp++) {
const I32 elem = SvIVx(*svp);
if (elem > max)
max = elem;
}
if (max > AvMAX(av))
av_extend(av, max);
}
while (++MARK <= SP) {
register SV **svp;
I32 elem = SvIVx(*MARK);
if (elem > 0)
elem -= arybase;
svp = av_fetch(av, elem, lval);
if (lval) {
if (!svp || *svp == &PL_sv_undef)
DIE(aTHX_ PL_no_aelem, elem);
if (PL_op->op_private & OPpLVAL_INTRO)
save_aelem(av, elem, svp);
}
*MARK = svp ? *svp : &PL_sv_undef;
}
}
if (GIMME != G_ARRAY) {
MARK = ORIGMARK;
*++MARK = SP > ORIGMARK ? *SP : &PL_sv_undef;
SP = MARK;
}
RETURN;
}
/* Associative arrays. */
PP(pp_each)
{
dVAR;
dSP;
HV * hash = (HV*)POPs;
HE *entry;
const I32 gimme = GIMME_V;
PUTBACK;
/* might clobber stack_sp */
entry = hv_iternext(hash);
SPAGAIN;
EXTEND(SP, 2);
if (entry) {
SV* const sv = hv_iterkeysv(entry);
PUSHs(sv); /* won't clobber stack_sp */
if (gimme == G_ARRAY) {
SV *val;
PUTBACK;
/* might clobber stack_sp */
val = hv_iterval(hash, entry);
SPAGAIN;
PUSHs(val);
}
}
else if (gimme == G_SCALAR)
RETPUSHUNDEF;
RETURN;
}
PP(pp_delete)
{
dVAR;
dSP;
const I32 gimme = GIMME_V;
const I32 discard = (gimme == G_VOID) ? G_DISCARD : 0;
if (PL_op->op_private & OPpSLICE) {
dMARK; dORIGMARK;
HV * const hv = (HV*)POPs;
const U32 hvtype = SvTYPE(hv);
if (hvtype == SVt_PVHV) { /* hash element */
while (++MARK <= SP) {
SV * const sv = hv_delete_ent(hv, *MARK, discard, 0);
*MARK = sv ? sv : &PL_sv_undef;
}
}
else if (hvtype == SVt_PVAV) { /* array element */
if (PL_op->op_flags & OPf_SPECIAL) {
while (++MARK <= SP) {
SV * const sv = av_delete((AV*)hv, SvIV(*MARK), discard);
*MARK = sv ? sv : &PL_sv_undef;
}
}
}
else
DIE(aTHX_ "Not a HASH reference");
if (discard)
SP = ORIGMARK;
else if (gimme == G_SCALAR) {
MARK = ORIGMARK;
if (SP > MARK)
*++MARK = *SP;
else
*++MARK = &PL_sv_undef;
SP = MARK;
}
}
else {
SV *keysv = POPs;
HV * const hv = (HV*)POPs;
SV *sv;
if (SvTYPE(hv) == SVt_PVHV)
sv = hv_delete_ent(hv, keysv, discard, 0);
else if (SvTYPE(hv) == SVt_PVAV) {
if (PL_op->op_flags & OPf_SPECIAL)
sv = av_delete((AV*)hv, SvIV(keysv), discard);
else
DIE(aTHX_ "panic: avhv_delete no longer supported");
}
else
DIE(aTHX_ "Not a HASH reference");
if (!sv)
sv = &PL_sv_undef;
if (!discard)
PUSHs(sv);
}
RETURN;
}
PP(pp_exists)
{
dVAR;
dSP;
SV *tmpsv;
HV *hv;
if (PL_op->op_private & OPpEXISTS_SUB) {
GV *gv;
SV * const sv = POPs;
CV * const cv = sv_2cv(sv, &hv, &gv, 0);
if (cv)
RETPUSHYES;
if (gv && isGV(gv) && GvCV(gv) && !GvCVGEN(gv))
RETPUSHYES;
RETPUSHNO;
}
tmpsv = POPs;
hv = (HV*)POPs;
if (SvTYPE(hv) == SVt_PVHV) {
if (hv_exists_ent(hv, tmpsv, 0))
RETPUSHYES;
}
else if (SvTYPE(hv) == SVt_PVAV) {
if (PL_op->op_flags & OPf_SPECIAL) { /* array element */
if (av_exists((AV*)hv, SvIV(tmpsv)))
RETPUSHYES;
}
}
else {
DIE(aTHX_ "Not a HASH reference");
}
RETPUSHNO;
}
PP(pp_hslice)
{
dVAR; dSP; dMARK; dORIGMARK;
register HV * const hv = (HV*)POPs;
register const I32 lval = (PL_op->op_flags & OPf_MOD || LVRET);
const bool localizing = PL_op->op_private & OPpLVAL_INTRO;
bool other_magic = FALSE;
if (localizing) {
MAGIC *mg;
HV *stash;
other_magic = mg_find((SV*)hv, PERL_MAGIC_env) ||
((mg = mg_find((SV*)hv, PERL_MAGIC_tied))
/* Try to preserve the existenceness of a tied hash
* element by using EXISTS and DELETE if possible.
* Fallback to FETCH and STORE otherwise */
&& (stash = SvSTASH(SvRV(SvTIED_obj((SV*)hv, mg))))
&& gv_fetchmethod_autoload(stash, "EXISTS", TRUE)
&& gv_fetchmethod_autoload(stash, "DELETE", TRUE));
}
while (++MARK <= SP) {
SV * const keysv = *MARK;
SV **svp;
HE *he;
bool preeminent = FALSE;
if (localizing) {
preeminent = SvRMAGICAL(hv) && !other_magic ? 1 :
hv_exists_ent(hv, keysv, 0);
}
he = hv_fetch_ent(hv, keysv, lval, 0);
svp = he ? &HeVAL(he) : 0;
if (lval) {
if (!svp || *svp == &PL_sv_undef) {
DIE(aTHX_ PL_no_helem_sv, SVfARG(keysv));
}
if (localizing) {
if (HvNAME_get(hv) && isGV(*svp))
save_gp((GV*)*svp, !(PL_op->op_flags & OPf_SPECIAL));
else {
if (preeminent)
save_helem(hv, keysv, svp);
else {
STRLEN keylen;
const char * const key = SvPV_const(keysv, keylen);
SAVEDELETE(hv, savepvn(key,keylen),
SvUTF8(keysv) ? -(I32)keylen : (I32)keylen);
}
}
}
}
*MARK = svp ? *svp : &PL_sv_undef;
}
if (GIMME != G_ARRAY) {
MARK = ORIGMARK;
*++MARK = SP > ORIGMARK ? *SP : &PL_sv_undef;
SP = MARK;
}
RETURN;
}
/* List operators. */
PP(pp_list)
{
dVAR; dSP; dMARK;
if (GIMME != G_ARRAY) {
if (++MARK <= SP)
*MARK = *SP; /* unwanted list, return last item */
else
*MARK = &PL_sv_undef;
SP = MARK;
}
RETURN;
}
PP(pp_lslice)
{
dVAR;
dSP;
SV ** const lastrelem = PL_stack_sp;
SV ** const lastlelem = PL_stack_base + POPMARK;
SV ** const firstlelem = PL_stack_base + POPMARK + 1;
register SV ** const firstrelem = lastlelem + 1;
const I32 arybase = CopARYBASE_get(PL_curcop);
I32 is_something_there = FALSE;
register const I32 max = lastrelem - lastlelem;
register SV **lelem;
if (GIMME != G_ARRAY) {
I32 ix = SvIVx(*lastlelem);
if (ix < 0)
ix += max;
else
ix -= arybase;
if (ix < 0 || ix >= max)
*firstlelem = &PL_sv_undef;
else
*firstlelem = firstrelem[ix];
SP = firstlelem;
RETURN;
}
if (max == 0) {
SP = firstlelem - 1;
RETURN;
}
for (lelem = firstlelem; lelem <= lastlelem; lelem++) {
I32 ix = SvIVx(*lelem);
if (ix < 0)
ix += max;
else
ix -= arybase;
if (ix < 0 || ix >= max)
*lelem = &PL_sv_undef;
else {
is_something_there = TRUE;
if (!(*lelem = firstrelem[ix]))
*lelem = &PL_sv_undef;
}
}
if (is_something_there)
SP = lastlelem;
else
SP = firstlelem - 1;
RETURN;
}
PP(pp_anonlist)
{
dVAR; dSP; dMARK; dORIGMARK;
const I32 items = SP - MARK;
SV * const av = (SV *) av_make(items, MARK+1);
SP = ORIGMARK; /* av_make() might realloc stack_sp */
XPUSHs(sv_2mortal((PL_op->op_flags & OPf_SPECIAL)
? newRV_noinc(av) : av));
RETURN;
}
PP(pp_anonhash)
{
dVAR; dSP; dMARK; dORIGMARK;
HV* const hv = newHV();
while (MARK < SP) {
SV * const key = *++MARK;
SV * const val = newSV(0);
if (MARK < SP)
sv_setsv(val, *++MARK);
else if (ckWARN(WARN_MISC))
Perl_warner(aTHX_ packWARN(WARN_MISC), "Odd number of elements in anonymous hash");
(void)hv_store_ent(hv,key,val,0);
}
SP = ORIGMARK;
XPUSHs(sv_2mortal((PL_op->op_flags & OPf_SPECIAL)
? newRV_noinc((SV*) hv) : (SV*)hv));
RETURN;
}
PP(pp_splice)
{
dVAR; dSP; dMARK; dORIGMARK;
register AV *ary = (AV*)*++MARK;
register SV **src;
register SV **dst;
register I32 i;
register I32 offset;
register I32 length;
I32 newlen;
I32 after;
I32 diff;
const MAGIC * const mg = SvTIED_mg((SV*)ary, PERL_MAGIC_tied);
if (mg) {
*MARK-- = SvTIED_obj((SV*)ary, mg);
PUSHMARK(MARK);
PUTBACK;
ENTER;
call_method("SPLICE",GIMME_V);
LEAVE;
SPAGAIN;
RETURN;
}
SP++;
if (++MARK < SP) {
offset = i = SvIVx(*MARK);
if (offset < 0)
offset += AvFILLp(ary) + 1;
else
offset -= CopARYBASE_get(PL_curcop);
if (offset < 0)
DIE(aTHX_ PL_no_aelem, i);
if (++MARK < SP) {
length = SvIVx(*MARK++);
if (length < 0) {
length += AvFILLp(ary) - offset + 1;
if (length < 0)
length = 0;
}
}
else
length = AvMAX(ary) + 1; /* close enough to infinity */
}
else {
offset = 0;
length = AvMAX(ary) + 1;
}
if (offset > AvFILLp(ary) + 1) {
if (ckWARN(WARN_MISC))
Perl_warner(aTHX_ packWARN(WARN_MISC), "splice() offset past end of array" );
offset = AvFILLp(ary) + 1;
}
after = AvFILLp(ary) + 1 - (offset + length);
if (after < 0) { /* not that much array */
length += after; /* offset+length now in array */
after = 0;
if (!AvALLOC(ary))
av_extend(ary, 0);
}
/* At this point, MARK .. SP-1 is our new LIST */
newlen = SP - MARK;
diff = newlen - length;
if (newlen && !AvREAL(ary) && AvREIFY(ary))
av_reify(ary);
/* make new elements SVs now: avoid problems if they're from the array */
for (dst = MARK, i = newlen; i; i--) {
SV * const h = *dst;
*dst++ = newSVsv(h);
}
if (diff < 0) { /* shrinking the area */
SV **tmparyval = NULL;
if (newlen) {
Newx(tmparyval, newlen, SV*); /* so remember insertion */
Copy(MARK, tmparyval, newlen, SV*);
}
MARK = ORIGMARK + 1;
if (GIMME == G_ARRAY) { /* copy return vals to stack */
MEXTEND(MARK, length);
Copy(AvARRAY(ary)+offset, MARK, length, SV*);
if (AvREAL(ary)) {
EXTEND_MORTAL(length);
for (i = length, dst = MARK; i; i--) {
sv_2mortal(*dst); /* free them eventualy */
dst++;
}
}
MARK += length - 1;
}
else {
*MARK = AvARRAY(ary)[offset+length-1];
if (AvREAL(ary)) {
sv_2mortal(*MARK);
for (i = length - 1, dst = &AvARRAY(ary)[offset]; i > 0; i--)
SvREFCNT_dec(*dst++); /* free them now */
}
}
AvFILLp(ary) += diff;
/* pull up or down? */
if (offset < after) { /* easier to pull up */
if (offset) { /* esp. if nothing to pull */
src = &AvARRAY(ary)[offset-1];
dst = src - diff; /* diff is negative */
for (i = offset; i > 0; i--) /* can't trust Copy */
*dst-- = *src--;
}
dst = AvARRAY(ary);
AvARRAY(ary) = AvARRAY(ary) - diff; /* diff is negative */
AvMAX(ary) += diff;
}
else {
if (after) { /* anything to pull down? */
src = AvARRAY(ary) + offset + length;
dst = src + diff; /* diff is negative */
Move(src, dst, after, SV*);
}
dst = &AvARRAY(ary)[AvFILLp(ary)+1];
/* avoid later double free */
}
i = -diff;
while (i)
dst[--i] = &PL_sv_undef;
if (newlen) {
Copy( tmparyval, AvARRAY(ary) + offset, newlen, SV* );
Safefree(tmparyval);
}
}
else { /* no, expanding (or same) */
SV** tmparyval = NULL;
if (length) {
Newx(tmparyval, length, SV*); /* so remember deletion */
Copy(AvARRAY(ary)+offset, tmparyval, length, SV*);
}
if (diff > 0) { /* expanding */
/* push up or down? */
if (offset < after && diff <= AvARRAY(ary) - AvALLOC(ary)) {
if (offset) {
src = AvARRAY(ary);
dst = src - diff;
Move(src, dst, offset, SV*);
}
AvARRAY(ary) = AvARRAY(ary) - diff;/* diff is positive */
AvMAX(ary) += diff;
AvFILLp(ary) += diff;
}
else {
if (AvFILLp(ary) + diff >= AvMAX(ary)) /* oh, well */
av_extend(ary, AvFILLp(ary) + diff);
AvFILLp(ary) += diff;
if (after) {
dst = AvARRAY(ary) + AvFILLp(ary);
src = dst - diff;
for (i = after; i; i--) {
*dst-- = *src--;
}
}
}
}
if (newlen) {
Copy( MARK, AvARRAY(ary) + offset, newlen, SV* );
}
MARK = ORIGMARK + 1;
if (GIMME == G_ARRAY) { /* copy return vals to stack */
if (length) {
Copy(tmparyval, MARK, length, SV*);
if (AvREAL(ary)) {
EXTEND_MORTAL(length);
for (i = length, dst = MARK; i; i--) {
sv_2mortal(*dst); /* free them eventualy */
dst++;
}
}
}
MARK += length - 1;
}
else if (length--) {
*MARK = tmparyval[length];
if (AvREAL(ary)) {
sv_2mortal(*MARK);
while (length-- > 0)
SvREFCNT_dec(tmparyval[length]);
}
}
else
*MARK = &PL_sv_undef;
Safefree(tmparyval);
}
SP = MARK;
RETURN;
}
PP(pp_push)
{
dVAR; dSP; dMARK; dORIGMARK; dTARGET;
register AV * const ary = (AV*)*++MARK;
const MAGIC * const mg = SvTIED_mg((SV*)ary, PERL_MAGIC_tied);
if (mg) {
*MARK-- = SvTIED_obj((SV*)ary, mg);
PUSHMARK(MARK);
PUTBACK;
ENTER;
call_method("PUSH",G_SCALAR|G_DISCARD);
LEAVE;
SPAGAIN;
SP = ORIGMARK;
PUSHi( AvFILL(ary) + 1 );
}
else {
for (++MARK; MARK <= SP; MARK++) {
SV * const sv = newSV(0);
if (*MARK)
sv_setsv(sv, *MARK);
av_store(ary, AvFILLp(ary)+1, sv);
}
SP = ORIGMARK;
PUSHi( AvFILLp(ary) + 1 );
}
RETURN;
}
PP(pp_shift)
{
dVAR;
dSP;
AV * const av = (AV*)POPs;
SV * const sv = PL_op->op_type == OP_SHIFT ? av_shift(av) : av_pop(av);
EXTEND(SP, 1);
assert (sv);
if (AvREAL(av))
(void)sv_2mortal(sv);
PUSHs(sv);
RETURN;
}
PP(pp_unshift)
{
dVAR; dSP; dMARK; dORIGMARK; dTARGET;
register AV *ary = (AV*)*++MARK;
const MAGIC * const mg = SvTIED_mg((SV*)ary, PERL_MAGIC_tied);
if (mg) {
*MARK-- = SvTIED_obj((SV*)ary, mg);
PUSHMARK(MARK);
PUTBACK;
ENTER;
call_method("UNSHIFT",G_SCALAR|G_DISCARD);
LEAVE;
SPAGAIN;
}
else {
register I32 i = 0;
av_unshift(ary, SP - MARK);
while (MARK < SP) {
SV * const sv = newSVsv(*++MARK);
(void)av_store(ary, i++, sv);
}
}
SP = ORIGMARK;
PUSHi( AvFILL(ary) + 1 );
RETURN;
}
PP(pp_reverse)
{
dVAR; dSP; dMARK;
SV ** const oldsp = SP;
if (GIMME == G_ARRAY) {
MARK++;
while (MARK < SP) {
register SV * const tmp = *MARK;
*MARK++ = *SP;
*SP-- = tmp;
}
/* safe as long as stack cannot get extended in the above */
SP = oldsp;
}
else {
register char *up;
register char *down;
register I32 tmp;
dTARGET;
STRLEN len;
PADOFFSET padoff_du;
SvUTF8_off(TARG); /* decontaminate */
if (SP - MARK > 1)
do_join(TARG, &PL_sv_no, MARK, SP);
else
sv_setsv(TARG, (SP > MARK)
? *SP
: (padoff_du = find_rundefsvoffset(),
(padoff_du == NOT_IN_PAD
|| PAD_COMPNAME_FLAGS_isOUR(padoff_du))
? DEFSV : PAD_SVl(padoff_du)));
up = SvPV_force(TARG, len);
if (len > 1) {
if (DO_UTF8(TARG)) { /* first reverse each character */
U8* s = (U8*)SvPVX(TARG);
const U8* send = (U8*)(s + len);
while (s < send) {
if (UTF8_IS_INVARIANT(*s)) {
s++;
continue;
}
else {
if (!utf8_to_uvchr(s, 0))
break;
up = (char*)s;
s += UTF8SKIP(s);
down = (char*)(s - 1);
/* reverse this character */
while (down > up) {
tmp = *up;
*up++ = *down;
*down-- = (char)tmp;
}
}
}
up = SvPVX(TARG);
}
down = SvPVX(TARG) + len - 1;
while (down > up) {
tmp = *up;
*up++ = *down;
*down-- = (char)tmp;
}
(void)SvPOK_only_UTF8(TARG);
}
SP = MARK + 1;
SETTARG;
}
RETURN;
}
PP(pp_split)
{
dVAR; dSP; dTARG;
AV *ary;
register IV limit = POPi; /* note, negative is forever */
SV * const sv = POPs;
STRLEN len;
register const char *s = SvPV_const(sv, len);
const bool do_utf8 = DO_UTF8(sv);
const char *strend = s + len;
register PMOP *pm;
register REGEXP *rx;
register SV *dstr;
register const char *m;
I32 iters = 0;
const STRLEN slen = do_utf8 ? utf8_length((U8*)s, (U8*)strend) : (STRLEN)(strend - s);
I32 maxiters = slen + 10;
const char *orig;
const I32 origlimit = limit;
I32 realarray = 0;
I32 base;
const I32 gimme = GIMME_V;
const I32 oldsave = PL_savestack_ix;
I32 make_mortal = 1;
bool multiline = 0;
MAGIC *mg = NULL;
#ifdef DEBUGGING
Copy(&LvTARGOFF(POPs), &pm, 1, PMOP*);
#else
pm = (PMOP*)POPs;
#endif
if (!pm || !s)
DIE(aTHX_ "panic: pp_split");
rx = PM_GETRE(pm);
TAINT_IF((pm->op_pmflags & PMf_LOCALE) &&
(pm->op_pmflags & (PMf_WHITE | PMf_SKIPWHITE)));
RX_MATCH_UTF8_set(rx, do_utf8);
if (pm->op_pmreplroot) {
#ifdef USE_ITHREADS
ary = GvAVn((GV*)PAD_SVl(INT2PTR(PADOFFSET, pm->op_pmreplroot)));
#else
ary = GvAVn((GV*)pm->op_pmreplroot);
#endif
}
else if (gimme != G_ARRAY)
ary = GvAVn(PL_defgv);
else
ary = NULL;
if (ary && (gimme != G_ARRAY || (pm->op_pmflags & PMf_ONCE))) {
realarray = 1;
PUTBACK;
av_extend(ary,0);
av_clear(ary);
SPAGAIN;
if ((mg = SvTIED_mg((SV*)ary, PERL_MAGIC_tied))) {
PUSHMARK(SP);
XPUSHs(SvTIED_obj((SV*)ary, mg));
}
else {
if (!AvREAL(ary)) {
I32 i;
AvREAL_on(ary);
AvREIFY_off(ary);
for (i = AvFILLp(ary); i >= 0; i--)
AvARRAY(ary)[i] = &PL_sv_undef; /* don't free mere refs */
}
/* temporarily switch stacks */
SAVESWITCHSTACK(PL_curstack, ary);
make_mortal = 0;
}
}
base = SP - PL_stack_base;
orig = s;
if (pm->op_pmflags & PMf_SKIPWHITE) {
if (pm->op_pmflags & PMf_LOCALE) {
while (isSPACE_LC(*s))
s++;
}
else {
while (isSPACE(*s))
s++;
}
}
if (pm->op_pmflags & PMf_MULTILINE) {
multiline = 1;
}
if (!limit)
limit = maxiters + 2;
if (pm->op_pmflags & PMf_WHITE) {
while (--limit) {
m = s;
while (m < strend &&
!((pm->op_pmflags & PMf_LOCALE)
? isSPACE_LC(*m) : isSPACE(*m)))
++m;
if (m >= strend)
break;
dstr = newSVpvn(s, m-s);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
s = m + 1;
while (s < strend &&
((pm->op_pmflags & PMf_LOCALE)
? isSPACE_LC(*s) : isSPACE(*s)))
++s;
}
}
else if (rx->extflags & RXf_START_ONLY) {
while (--limit) {
for (m = s; m < strend && *m != '\n'; m++)
;
m++;
if (m >= strend)
break;
dstr = newSVpvn(s, m-s);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
s = m;
}
}
else if (do_utf8 == ((rx->extflags & RXf_UTF8) != 0) &&
(rx->extflags & RXf_USE_INTUIT) && !rx->nparens
&& (rx->extflags & RXf_CHECK_ALL)
&& !(rx->extflags & RXf_ANCH)) {
const int tail = (rx->extflags & RXf_INTUIT_TAIL);
SV * const csv = CALLREG_INTUIT_STRING(rx);
len = rx->minlenret;
if (len == 1 && !(rx->extflags & RXf_UTF8) && !tail) {
const char c = *SvPV_nolen_const(csv);
while (--limit) {
for (m = s; m < strend && *m != c; m++)
;
if (m >= strend)
break;
dstr = newSVpvn(s, m-s);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
/* The rx->minlen is in characters but we want to step
* s ahead by bytes. */
if (do_utf8)
s = (char*)utf8_hop((U8*)m, len);
else
s = m + len; /* Fake \n at the end */
}
}
else {
while (s < strend && --limit &&
(m = fbm_instr((unsigned char*)s, (unsigned char*)strend,
csv, multiline ? FBMrf_MULTILINE : 0)) )
{
dstr = newSVpvn(s, m-s);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
/* The rx->minlen is in characters but we want to step
* s ahead by bytes. */
if (do_utf8)
s = (char*)utf8_hop((U8*)m, len);
else
s = m + len; /* Fake \n at the end */
}
}
}
else {
maxiters += slen * rx->nparens;
while (s < strend && --limit)
{
I32 rex_return;
PUTBACK;
rex_return = CALLREGEXEC(rx, (char*)s, (char*)strend, (char*)orig, 1 ,
sv, NULL, 0);
SPAGAIN;
if (rex_return == 0)
break;
TAINT_IF(RX_MATCH_TAINTED(rx));
if (RX_MATCH_COPIED(rx) && rx->subbeg != orig) {
m = s;
s = orig;
orig = rx->subbeg;
s = orig + (m - s);
strend = s + (strend - m);
}
m = rx->startp[0] + orig;
dstr = newSVpvn(s, m-s);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
if (rx->nparens) {
I32 i;
for (i = 1; i <= (I32)rx->nparens; i++) {
s = rx->startp[i] + orig;
m = rx->endp[i] + orig;
/* japhy (07/27/01) -- the (m && s) test doesn't catch
parens that didn't match -- they should be set to
undef, not the empty string */
if (m >= orig && s >= orig) {
dstr = newSVpvn(s, m-s);
}
else
dstr = &PL_sv_undef; /* undef, not "" */
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
}
}
s = rx->endp[0] + orig;
}
}
iters = (SP - PL_stack_base) - base;
if (iters > maxiters)
DIE(aTHX_ "Split loop");
/* keep field after final delim? */
if (s < strend || (iters && origlimit)) {
const STRLEN l = strend - s;
dstr = newSVpvn(s, l);
if (make_mortal)
sv_2mortal(dstr);
if (do_utf8)
(void)SvUTF8_on(dstr);
XPUSHs(dstr);
iters++;
}
else if (!origlimit) {
while (iters > 0 && (!TOPs || !SvANY(TOPs) || SvCUR(TOPs) == 0)) {
if (TOPs && !make_mortal)
sv_2mortal(TOPs);
iters--;
*SP-- = &PL_sv_undef;
}
}
PUTBACK;
LEAVE_SCOPE(oldsave); /* may undo an earlier SWITCHSTACK */
SPAGAIN;
if (realarray) {
if (!mg) {
if (SvSMAGICAL(ary)) {
PUTBACK;
mg_set((SV*)ary);
SPAGAIN;
}
if (gimme == G_ARRAY) {
EXTEND(SP, iters);
Copy(AvARRAY(ary), SP + 1, iters, SV*);
SP += iters;
RETURN;
}
}
else {
PUTBACK;
ENTER;
call_method("PUSH",G_SCALAR|G_DISCARD);
LEAVE;
SPAGAIN;
if (gimme == G_ARRAY) {
I32 i;
/* EXTEND should not be needed - we just popped them */
EXTEND(SP, iters);
for (i=0; i < iters; i++) {
SV **svp = av_fetch(ary, i, FALSE);
PUSHs((svp) ? *svp : &PL_sv_undef);
}
RETURN;
}
}
}
else {
if (gimme == G_ARRAY)
RETURN;
}
GETTARGET;
PUSHi(iters);
RETURN;
}
PP(pp_lock)
{
dVAR;
dSP;
dTOPss;
SV *retsv = sv;
SvLOCK(sv);
if (SvTYPE(retsv) == SVt_PVAV || SvTYPE(retsv) == SVt_PVHV
|| SvTYPE(retsv) == SVt_PVCV) {
retsv = refto(retsv);
}
SETs(retsv);
RETURN;
}
PP(unimplemented_op)
{
dVAR;
DIE(aTHX_ "panic: unimplemented op %s (#%d) called", OP_NAME(PL_op),
PL_op->op_type);
}
/*
* Local variables:
* c-indentation-style: bsd
* c-basic-offset: 4
* indent-tabs-mode: t
* End:
*
* ex: set ts=8 sts=4 sw=4 noet:
*/
|