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384 lines
12 KiB
C
384 lines
12 KiB
C
/* pp.h
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*
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* Copyright (c) 1991-2001, Larry Wall
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*
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* You may distribute under the terms of either the GNU General Public
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* License or the Artistic License, as specified in the README file.
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*
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*/
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#ifdef USE_THREADS
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#define ARGS thr
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#define dARGS struct perl_thread *thr;
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#else
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#define ARGS
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#define dARGS
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#endif /* USE_THREADS */
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#define PP(s) OP * Perl_##s(pTHX)
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/*
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=for apidoc AmU||SP
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Stack pointer. This is usually handled by C<xsubpp>. See C<dSP> and
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C<SPAGAIN>.
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=for apidoc AmU||MARK
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Stack marker variable for the XSUB. See C<dMARK>.
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=for apidoc Ams||PUSHMARK
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Opening bracket for arguments on a callback. See C<PUTBACK> and
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L<perlcall>.
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=for apidoc Ams||dSP
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Declares a local copy of perl's stack pointer for the XSUB, available via
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the C<SP> macro. See C<SP>.
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=for apidoc Ams||dMARK
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Declare a stack marker variable, C<mark>, for the XSUB. See C<MARK> and
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C<dORIGMARK>.
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=for apidoc Ams||dORIGMARK
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Saves the original stack mark for the XSUB. See C<ORIGMARK>.
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=for apidoc AmU||ORIGMARK
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The original stack mark for the XSUB. See C<dORIGMARK>.
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=for apidoc Ams||SPAGAIN
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Refetch the stack pointer. Used after a callback. See L<perlcall>.
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=cut
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*/
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#undef SP /* Solaris 2.7 i386 has this in /usr/include/sys/reg.h */
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#define SP sp
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#define MARK mark
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#define TARG targ
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#define PUSHMARK(p) if (++PL_markstack_ptr == PL_markstack_max) \
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markstack_grow(); \
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*PL_markstack_ptr = (p) - PL_stack_base
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#define TOPMARK (*PL_markstack_ptr)
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#define POPMARK (*PL_markstack_ptr--)
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#define dSP register SV **sp = PL_stack_sp
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#define djSP dSP
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#define dMARK register SV **mark = PL_stack_base + POPMARK
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#define dORIGMARK I32 origmark = mark - PL_stack_base
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#define SETORIGMARK origmark = mark - PL_stack_base
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#define ORIGMARK (PL_stack_base + origmark)
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#define SPAGAIN sp = PL_stack_sp
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#define MSPAGAIN sp = PL_stack_sp; mark = ORIGMARK
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#define GETTARGETSTACKED targ = (PL_op->op_flags & OPf_STACKED ? POPs : PAD_SV(PL_op->op_targ))
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#define dTARGETSTACKED SV * GETTARGETSTACKED
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#define GETTARGET targ = PAD_SV(PL_op->op_targ)
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#define dTARGET SV * GETTARGET
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#define GETATARGET targ = (PL_op->op_flags & OPf_STACKED ? sp[-1] : PAD_SV(PL_op->op_targ))
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#define dATARGET SV * GETATARGET
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#define dTARG SV *targ
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#define NORMAL PL_op->op_next
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#define DIE return Perl_die
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/*
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=for apidoc Ams||PUTBACK
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Closing bracket for XSUB arguments. This is usually handled by C<xsubpp>.
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See C<PUSHMARK> and L<perlcall> for other uses.
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=for apidoc Amn|SV*|POPs
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Pops an SV off the stack.
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=for apidoc Amn|char*|POPp
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Pops a string off the stack.
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=for apidoc Amn|NV|POPn
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Pops a double off the stack.
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=for apidoc Amn|IV|POPi
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Pops an integer off the stack.
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=for apidoc Amn|long|POPl
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Pops a long off the stack.
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=cut
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*/
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#define PUTBACK PL_stack_sp = sp
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#define RETURN return PUTBACK, NORMAL
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#define RETURNOP(o) return PUTBACK, o
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#define RETURNX(x) return x, PUTBACK, NORMAL
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#define POPs (*sp--)
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#define POPp (SvPVx(POPs, PL_na)) /* deprecated */
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#define POPpx (SvPVx(POPs, n_a))
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#define POPn (SvNVx(POPs))
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#define POPi ((IV)SvIVx(POPs))
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#define POPu ((UV)SvUVx(POPs))
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#define POPl ((long)SvIVx(POPs))
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#define POPul ((unsigned long)SvIVx(POPs))
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#ifdef HAS_QUAD
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#define POPq ((Quad_t)SvIVx(POPs))
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#define POPuq ((Uquad_t)SvUVx(POPs))
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#endif
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#define TOPs (*sp)
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#define TOPp (SvPV(TOPs, PL_na)) /* deprecated */
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#define TOPpx (SvPV(TOPs, n_a))
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#define TOPn (SvNV(TOPs))
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#define TOPi ((IV)SvIV(TOPs))
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#define TOPu ((UV)SvUV(TOPs))
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#define TOPl ((long)SvIV(TOPs))
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#define TOPul ((unsigned long)SvUV(TOPs))
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#ifdef HAS_QUAD
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#define TOPq ((Quad_t)SvIV(TOPs))
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#define TOPuq ((Uquad_t)SvUV(TOPs))
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#endif
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/* Go to some pains in the rare event that we must extend the stack. */
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/*
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=for apidoc Am|void|EXTEND|SP|int nitems
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Used to extend the argument stack for an XSUB's return values. Once
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used, guarantees that there is room for at least C<nitems> to be pushed
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onto the stack.
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=for apidoc Am|void|PUSHs|SV* sv
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Push an SV onto the stack. The stack must have room for this element.
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Does not handle 'set' magic. See C<XPUSHs>.
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=for apidoc Am|void|PUSHp|char* str|STRLEN len
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Push a string onto the stack. The stack must have room for this element.
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The C<len> indicates the length of the string. Handles 'set' magic. See
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C<XPUSHp>.
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=for apidoc Am|void|PUSHn|NV nv
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Push a double onto the stack. The stack must have room for this element.
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Handles 'set' magic. See C<XPUSHn>.
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=for apidoc Am|void|PUSHi|IV iv
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Push an integer onto the stack. The stack must have room for this element.
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Handles 'set' magic. See C<XPUSHi>.
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=for apidoc Am|void|PUSHu|UV uv
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Push an unsigned integer onto the stack. The stack must have room for this
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element. See C<XPUSHu>.
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=for apidoc Am|void|XPUSHs|SV* sv
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Push an SV onto the stack, extending the stack if necessary. Does not
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handle 'set' magic. See C<PUSHs>.
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=for apidoc Am|void|XPUSHp|char* str|STRLEN len
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Push a string onto the stack, extending the stack if necessary. The C<len>
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indicates the length of the string. Handles 'set' magic. See
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C<PUSHp>.
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=for apidoc Am|void|XPUSHn|NV nv
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Push a double onto the stack, extending the stack if necessary. Handles
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'set' magic. See C<PUSHn>.
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=for apidoc Am|void|XPUSHi|IV iv
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Push an integer onto the stack, extending the stack if necessary. Handles
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'set' magic. See C<PUSHi>.
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=for apidoc Am|void|XPUSHu|UV uv
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Push an unsigned integer onto the stack, extending the stack if necessary.
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See C<PUSHu>.
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=cut
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*/
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#define EXTEND(p,n) STMT_START { if (PL_stack_max - p < (n)) { \
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sp = stack_grow(sp,p, (int) (n)); \
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} } STMT_END
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/* Same thing, but update mark register too. */
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#define MEXTEND(p,n) STMT_START {if (PL_stack_max - p < (n)) { \
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int markoff = mark - PL_stack_base; \
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sp = stack_grow(sp,p,(int) (n)); \
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mark = PL_stack_base + markoff; \
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} } STMT_END
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#define PUSHs(s) (*++sp = (s))
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#define PUSHTARG STMT_START { SvSETMAGIC(TARG); PUSHs(TARG); } STMT_END
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#define PUSHp(p,l) STMT_START { sv_setpvn(TARG, (p), (l)); PUSHTARG; } STMT_END
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#define PUSHn(n) STMT_START { sv_setnv(TARG, (NV)(n)); PUSHTARG; } STMT_END
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#define PUSHi(i) STMT_START { sv_setiv(TARG, (IV)(i)); PUSHTARG; } STMT_END
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#define PUSHu(u) STMT_START { sv_setuv(TARG, (UV)(u)); PUSHTARG; } STMT_END
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#define XPUSHs(s) STMT_START { EXTEND(sp,1); (*++sp = (s)); } STMT_END
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#define XPUSHTARG STMT_START { SvSETMAGIC(TARG); XPUSHs(TARG); } STMT_END
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#define XPUSHp(p,l) STMT_START { sv_setpvn(TARG, (p), (l)); XPUSHTARG; } STMT_END
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#define XPUSHn(n) STMT_START { sv_setnv(TARG, (NV)(n)); XPUSHTARG; } STMT_END
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#define XPUSHi(i) STMT_START { sv_setiv(TARG, (IV)(i)); XPUSHTARG; } STMT_END
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#define XPUSHu(u) STMT_START { sv_setuv(TARG, (UV)(u)); XPUSHTARG; } STMT_END
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#define XPUSHundef STMT_START { SvOK_off(TARG); XPUSHs(TARG); } STMT_END
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#define SETs(s) (*sp = s)
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#define SETTARG STMT_START { SvSETMAGIC(TARG); SETs(TARG); } STMT_END
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#define SETp(p,l) STMT_START { sv_setpvn(TARG, (p), (l)); SETTARG; } STMT_END
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#define SETn(n) STMT_START { sv_setnv(TARG, (NV)(n)); SETTARG; } STMT_END
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#define SETi(i) STMT_START { sv_setiv(TARG, (IV)(i)); SETTARG; } STMT_END
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#define SETu(u) STMT_START { sv_setuv(TARG, (UV)(u)); SETTARG; } STMT_END
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#define dTOPss SV *sv = TOPs
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#define dPOPss SV *sv = POPs
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#define dTOPnv NV value = TOPn
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#define dPOPnv NV value = POPn
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#define dTOPiv IV value = TOPi
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#define dPOPiv IV value = POPi
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#define dTOPuv UV value = TOPu
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#define dPOPuv UV value = POPu
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#ifdef HAS_QUAD
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#define dTOPqv Quad_t value = TOPu
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#define dPOPqv Quad_t value = POPu
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#define dTOPuqv Uquad_t value = TOPuq
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#define dPOPuqv Uquad_t value = POPuq
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#endif
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#define dPOPXssrl(X) SV *right = POPs; SV *left = CAT2(X,s)
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#define dPOPXnnrl(X) NV right = POPn; NV left = CAT2(X,n)
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#define dPOPXiirl(X) IV right = POPi; IV left = CAT2(X,i)
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#define USE_LEFT(sv) \
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(SvOK(sv) || SvGMAGICAL(sv) || !(PL_op->op_flags & OPf_STACKED))
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#define dPOPXnnrl_ul(X) \
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NV right = POPn; \
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SV *leftsv = CAT2(X,s); \
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NV left = USE_LEFT(leftsv) ? SvNV(leftsv) : 0.0
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#define dPOPXiirl_ul(X) \
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IV right = POPi; \
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SV *leftsv = CAT2(X,s); \
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IV left = USE_LEFT(leftsv) ? SvIV(leftsv) : 0
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#define dPOPPOPssrl dPOPXssrl(POP)
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#define dPOPPOPnnrl dPOPXnnrl(POP)
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#define dPOPPOPnnrl_ul dPOPXnnrl_ul(POP)
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#define dPOPPOPiirl dPOPXiirl(POP)
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#define dPOPPOPiirl_ul dPOPXiirl_ul(POP)
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#define dPOPTOPssrl dPOPXssrl(TOP)
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#define dPOPTOPnnrl dPOPXnnrl(TOP)
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#define dPOPTOPnnrl_ul dPOPXnnrl_ul(TOP)
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#define dPOPTOPiirl dPOPXiirl(TOP)
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#define dPOPTOPiirl_ul dPOPXiirl_ul(TOP)
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#define RETPUSHYES RETURNX(PUSHs(&PL_sv_yes))
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#define RETPUSHNO RETURNX(PUSHs(&PL_sv_no))
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#define RETPUSHUNDEF RETURNX(PUSHs(&PL_sv_undef))
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#define RETSETYES RETURNX(SETs(&PL_sv_yes))
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#define RETSETNO RETURNX(SETs(&PL_sv_no))
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#define RETSETUNDEF RETURNX(SETs(&PL_sv_undef))
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#define ARGTARG PL_op->op_targ
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/* See OPpTARGET_MY: */
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#define MAXARG (PL_op->op_private & 15)
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#define SWITCHSTACK(f,t) \
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STMT_START { \
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AvFILLp(f) = sp - PL_stack_base; \
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PL_stack_base = AvARRAY(t); \
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PL_stack_max = PL_stack_base + AvMAX(t); \
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sp = PL_stack_sp = PL_stack_base + AvFILLp(t); \
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PL_curstack = t; \
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} STMT_END
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#define EXTEND_MORTAL(n) \
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STMT_START { \
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if (PL_tmps_ix + (n) >= PL_tmps_max) \
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tmps_grow(n); \
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} STMT_END
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#define AMGf_noright 1
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#define AMGf_noleft 2
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#define AMGf_assign 4
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#define AMGf_unary 8
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#define tryAMAGICbinW(meth,assign,set) STMT_START { \
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if (PL_amagic_generation) { \
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SV* tmpsv; \
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SV* right= *(sp); SV* left= *(sp-1);\
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if ((SvAMAGIC(left)||SvAMAGIC(right))&&\
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(tmpsv=amagic_call(left, \
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right, \
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CAT2(meth,_amg), \
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(assign)? AMGf_assign: 0))) {\
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SPAGAIN; \
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(void)POPs; set(tmpsv); RETURN; } \
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} \
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} STMT_END
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#define tryAMAGICbin(meth,assign) tryAMAGICbinW(meth,assign,SETsv)
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#define tryAMAGICbinSET(meth,assign) tryAMAGICbinW(meth,assign,SETs)
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#define AMG_CALLun(sv,meth) amagic_call(sv,&PL_sv_undef, \
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CAT2(meth,_amg),AMGf_noright | AMGf_unary)
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#define AMG_CALLbinL(left,right,meth) \
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amagic_call(left,right,CAT2(meth,_amg),AMGf_noright)
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#define tryAMAGICunW(meth,set,shift,ret) STMT_START { \
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if (PL_amagic_generation) { \
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SV* tmpsv; \
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SV* arg= sp[shift]; \
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am_again: \
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if ((SvAMAGIC(arg))&&\
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(tmpsv=AMG_CALLun(arg,meth))) {\
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SPAGAIN; if (shift) sp += shift; \
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set(tmpsv); ret; } \
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} \
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} STMT_END
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#define FORCE_SETs(sv) STMT_START { sv_setsv(TARG, (sv)); SETTARG; } STMT_END
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#define tryAMAGICun(meth) tryAMAGICunW(meth,SETsvUN,0,RETURN)
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#define tryAMAGICunSET(meth) tryAMAGICunW(meth,SETs,0,RETURN)
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#define tryAMAGICunTARGET(meth, shift) \
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{ dSP; sp--; /* get TARGET from below PL_stack_sp */ \
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{ dTARGETSTACKED; \
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{ dSP; tryAMAGICunW(meth,FORCE_SETs,shift,RETURN);}}}
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#define setAGAIN(ref) sv = ref; \
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if (!SvROK(ref)) \
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Perl_croak(aTHX_ "Overloaded dereference did not return a reference"); \
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if (ref != arg && SvRV(ref) != SvRV(arg)) { \
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arg = ref; \
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goto am_again; \
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}
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#define tryAMAGICunDEREF(meth) tryAMAGICunW(meth,setAGAIN,0,(void)0)
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#define opASSIGN (PL_op->op_flags & OPf_STACKED)
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#define SETsv(sv) STMT_START { \
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if (opASSIGN || (SvFLAGS(TARG) & SVs_PADMY)) \
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{ sv_setsv(TARG, (sv)); SETTARG; } \
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else SETs(sv); } STMT_END
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#define SETsvUN(sv) STMT_START { \
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if (SvFLAGS(TARG) & SVs_PADMY) \
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{ sv_setsv(TARG, (sv)); SETTARG; } \
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else SETs(sv); } STMT_END
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/* newSVsv does not behave as advertised, so we copy missing
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* information by hand */
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/* SV* ref causes confusion with the member variable
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changed SV* ref to SV* tmpRef */
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#define RvDEEPCP(rv) STMT_START { SV* tmpRef=SvRV(rv); \
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if (SvREFCNT(tmpRef)>1) { \
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SvREFCNT_dec(tmpRef); \
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SvRV(rv)=AMG_CALLun(rv,copy); \
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} } STMT_END
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/*
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=for apidoc mU||LVRET
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True if this op will be the return value of an lvalue subroutine
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=cut */
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#define LVRET ((PL_op->op_private & OPpMAYBE_LVSUB) && is_lvalue_sub())
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