Mini Shell
# -*- buffer-read-only: t -*-
#
# lib/B/Op_private.pm
#
# Copyright (C) 2014 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.
#
# !!!!!!! DO NOT EDIT THIS FILE !!!!!!!
# This file is built by regen/opcode.pl from data in
# regen/op_private and pod embedded in regen/opcode.pl.
# Any changes made here will be lost!
=head1 NAME
B::Op_private - OP op_private flag definitions
=head1 SYNOPSIS
use B::Op_private;
# flag details for bit 7 of OP_AELEM's op_private:
my $name = $B::Op_private::bits{aelem}{7}; # OPpLVAL_INTRO
my $value = $B::Op_private::defines{$name}; # 128
my $label = $B::Op_private::labels{$name}; # LVINTRO
# the bit field at bits 5..6 of OP_AELEM's op_private:
my $bf = $B::Op_private::bits{aelem}{6};
my $mask = $bf->{bitmask}; # etc
=head1 DESCRIPTION
This module provides four global hashes:
%B::Op_private::bits
%B::Op_private::defines
%B::Op_private::labels
%B::Op_private::ops_using
which contain information about the per-op meanings of the bits in the
op_private field.
=head2 C<%bits>
This is indexed by op name and then bit number (0..7). For single bit flags,
it returns the name of the define (if any) for that bit:
$B::Op_private::bits{aelem}{7} eq 'OPpLVAL_INTRO';
For bit fields, it returns a hash ref containing details about the field.
The same reference will be returned for all bit positions that make
up the bit field; so for example these both return the same hash ref:
$bitfield = $B::Op_private::bits{aelem}{5};
$bitfield = $B::Op_private::bits{aelem}{6};
The general format of this hash ref is
{
# The bit range and mask; these are always present.
bitmin => 5,
bitmax => 6,
bitmask => 0x60,
# (The remaining keys are optional)
# The names of any defines that were requested:
mask_def => 'OPpFOO_MASK',
baseshift_def => 'OPpFOO_SHIFT',
bitcount_def => 'OPpFOO_BITS',
# If present, Concise etc will display the value with a 'FOO='
# prefix. If it equals '-', then Concise will treat the bit
# field as raw bits and not try to interpret it.
label => 'FOO',
# If present, specifies the names of some defines and the
# display labels that are used to assign meaning to particu-
# lar integer values within the bit field; e.g. 3 is dis-
# played as 'C'.
enum => [ qw(
1 OPpFOO_A A
2 OPpFOO_B B
3 OPpFOO_C C
)],
};
=head2 C<%defines>
This gives the value of every C<OPp> define, e.g.
$B::Op_private::defines{OPpLVAL_INTRO} == 128;
=head2 C<%labels>
This gives the short display label for each define, as used by C<B::Concise>
and C<perl -Dx>, e.g.
$B::Op_private::labels{OPpLVAL_INTRO} eq 'LVINTRO';
If the label equals '-', then Concise will treat the bit as a raw bit and
not try to display it symbolically.
=head2 C<%ops_using>
For each define, this gives a reference to an array of op names that use
the flag.
@ops_using_lvintro = @{ $B::Op_private::ops_using{OPp_LVAL_INTRO} };
=cut
package B::Op_private;
our %bits;
our $VERSION = "5.026003";
$bits{$_}{3} = 'OPpENTERSUB_AMPER' for qw(entersub rv2cv);
$bits{$_}{6} = 'OPpENTERSUB_DB' for qw(entersub rv2cv);
$bits{$_}{2} = 'OPpENTERSUB_HASTARG' for qw(entersub rv2cv);
$bits{$_}{6} = 'OPpFLIP_LINENUM' for qw(flip flop);
$bits{$_}{1} = 'OPpFT_ACCESS' for qw(fteexec fteread ftewrite ftrexec ftrread ftrwrite);
$bits{$_}{4} = 'OPpFT_AFTER_t' for qw(ftatime ftbinary ftblk ftchr ftctime ftdir fteexec fteowned fteread ftewrite ftfile ftis ftlink ftmtime ftpipe ftrexec ftrowned ftrread ftrwrite ftsgid ftsize ftsock ftsuid ftsvtx fttext fttty ftzero);
$bits{$_}{2} = 'OPpFT_STACKED' for qw(ftatime ftbinary ftblk ftchr ftctime ftdir fteexec fteowned fteread ftewrite ftfile ftis ftlink ftmtime ftpipe ftrexec ftrowned ftrread ftrwrite ftsgid ftsize ftsock ftsuid ftsvtx fttext fttty ftzero);
$bits{$_}{3} = 'OPpFT_STACKING' for qw(ftatime ftbinary ftblk ftchr ftctime ftdir fteexec fteowned fteread ftewrite ftfile ftis ftlink ftmtime ftpipe ftrexec ftrowned ftrread ftrwrite ftsgid ftsize ftsock ftsuid ftsvtx fttext fttty ftzero);
$bits{$_}{1} = 'OPpHINT_STRICT_REFS' for qw(entersub multideref rv2av rv2cv rv2gv rv2hv rv2sv);
$bits{$_}{5} = 'OPpHUSH_VMSISH' for qw(dbstate nextstate);
$bits{$_}{1} = 'OPpITER_REVERSED' for qw(enteriter iter);
$bits{$_}{7} = 'OPpLVALUE' for qw(leave leaveloop);
$bits{$_}{6} = 'OPpLVAL_DEFER' for qw(aelem helem multideref);
$bits{$_}{7} = 'OPpLVAL_INTRO' for qw(aelem aslice cond_expr delete enteriter entersub gvsv helem hslice list lvavref lvref lvrefslice multideref padav padhv padrange padsv pushmark refassign rv2av rv2gv rv2hv rv2sv split);
$bits{$_}{2} = 'OPpLVREF_ELEM' for qw(lvref refassign);
$bits{$_}{3} = 'OPpLVREF_ITER' for qw(lvref refassign);
$bits{$_}{3} = 'OPpMAYBE_LVSUB' for qw(aassign aelem akeys aslice av2arylen avhvswitch helem hslice keys kvaslice kvhslice multideref padav padhv pos rv2av rv2gv rv2hv substr vec);
$bits{$_}{4} = 'OPpMAYBE_TRUEBOOL' for qw(padhv rv2hv);
$bits{$_}{7} = 'OPpOFFBYONE' for qw(caller runcv wantarray);
$bits{$_}{5} = 'OPpOPEN_IN_CRLF' for qw(backtick open);
$bits{$_}{4} = 'OPpOPEN_IN_RAW' for qw(backtick open);
$bits{$_}{7} = 'OPpOPEN_OUT_CRLF' for qw(backtick open);
$bits{$_}{6} = 'OPpOPEN_OUT_RAW' for qw(backtick open);
$bits{$_}{6} = 'OPpOUR_INTRO' for qw(enteriter gvsv rv2av rv2hv rv2sv split);
$bits{$_}{6} = 'OPpPAD_STATE' for qw(lvavref lvref padav padhv padsv pushmark refassign);
$bits{$_}{7} = 'OPpPV_IS_UTF8' for qw(dump goto last next redo);
$bits{$_}{6} = 'OPpREFCOUNTED' for qw(leave leaveeval leavesub leavesublv leavewrite);
$bits{$_}{2} = 'OPpSLICEWARNING' for qw(aslice hslice padav padhv rv2av rv2hv);
$bits{$_}{4} = 'OPpTARGET_MY' for qw(abs add atan2 chdir chmod chomp chown chr chroot concat cos crypt divide exec exp flock getpgrp getppid getpriority hex i_add i_divide i_modulo i_multiply i_subtract index int kill left_shift length link log mkdir modulo multiply nbit_and nbit_or nbit_xor ncomplement oct ord pow push rand rename right_shift rindex rmdir schomp scomplement setpgrp setpriority sin sleep sqrt srand stringify subtract symlink system time unlink unshift utime wait waitpid);
$bits{$_}{5} = 'OPpTRANS_COMPLEMENT' for qw(trans transr);
$bits{$_}{7} = 'OPpTRANS_DELETE' for qw(trans transr);
$bits{$_}{0} = 'OPpTRANS_FROM_UTF' for qw(trans transr);
$bits{$_}{6} = 'OPpTRANS_GROWS' for qw(trans transr);
$bits{$_}{2} = 'OPpTRANS_IDENTICAL' for qw(trans transr);
$bits{$_}{3} = 'OPpTRANS_SQUASH' for qw(trans transr);
$bits{$_}{1} = 'OPpTRANS_TO_UTF' for qw(trans transr);
$bits{$_}{5} = 'OPpTRUEBOOL' for qw(padhv rv2hv);
my @bf = (
{
label => '-',
mask_def => 'OPpARG1_MASK',
bitmin => 0,
bitmax => 0,
bitmask => 1,
},
{
label => '-',
mask_def => 'OPpARG2_MASK',
bitmin => 0,
bitmax => 1,
bitmask => 3,
},
{
label => 'offset',
mask_def => 'OPpAVHVSWITCH_MASK',
bitmin => 0,
bitmax => 1,
bitmask => 3,
},
{
label => '-',
mask_def => 'OPpARG3_MASK',
bitmin => 0,
bitmax => 2,
bitmask => 7,
},
{
label => '-',
mask_def => 'OPpARG4_MASK',
bitmin => 0,
bitmax => 3,
bitmask => 15,
},
{
label => 'range',
mask_def => 'OPpPADRANGE_COUNTMASK',
bitcount_def => 'OPpPADRANGE_COUNTSHIFT',
bitmin => 0,
bitmax => 6,
bitmask => 127,
},
{
label => 'key',
bitmin => 0,
bitmax => 7,
bitmask => 255,
},
{
mask_def => 'OPpARGELEM_MASK',
bitmin => 1,
bitmax => 2,
bitmask => 6,
enum => [
0, 'OPpARGELEM_SV', 'SV',
1, 'OPpARGELEM_AV', 'AV',
2, 'OPpARGELEM_HV', 'HV',
],
},
{
mask_def => 'OPpDEREF',
bitmin => 4,
bitmax => 5,
bitmask => 48,
enum => [
1, 'OPpDEREF_AV', 'DREFAV',
2, 'OPpDEREF_HV', 'DREFHV',
3, 'OPpDEREF_SV', 'DREFSV',
],
},
{
mask_def => 'OPpLVREF_TYPE',
bitmin => 4,
bitmax => 5,
bitmask => 48,
enum => [
0, 'OPpLVREF_SV', 'SV',
1, 'OPpLVREF_AV', 'AV',
2, 'OPpLVREF_HV', 'HV',
3, 'OPpLVREF_CV', 'CV',
],
},
);
@{$bits{aassign}}{6,5,4,1,0} = ('OPpASSIGN_COMMON_SCALAR', 'OPpASSIGN_COMMON_RC1', 'OPpASSIGN_COMMON_AGG', $bf[1], $bf[1]);
$bits{abs}{0} = $bf[0];
@{$bits{accept}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{add}}{1,0} = ($bf[1], $bf[1]);
$bits{aeach}{0} = $bf[0];
@{$bits{aelem}}{5,4,1,0} = ($bf[8], $bf[8], $bf[1], $bf[1]);
@{$bits{aelemfast}}{7,6,5,4,3,2,1,0} = ($bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6]);
@{$bits{aelemfast_lex}}{7,6,5,4,3,2,1,0} = ($bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6], $bf[6]);
$bits{akeys}{0} = $bf[0];
$bits{alarm}{0} = $bf[0];
$bits{and}{0} = $bf[0];
$bits{andassign}{0} = $bf[0];
$bits{anonconst}{0} = $bf[0];
@{$bits{anonhash}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{anonlist}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{argcheck}{0} = $bf[0];
$bits{argdefelem}{0} = $bf[0];
@{$bits{argelem}}{2,1,0} = ($bf[7], $bf[7], $bf[0]);
@{$bits{atan2}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{av2arylen}{0} = $bf[0];
$bits{avalues}{0} = $bf[0];
@{$bits{avhvswitch}}{1,0} = ($bf[2], $bf[2]);
$bits{backtick}{0} = $bf[0];
@{$bits{bind}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{binmode}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{bit_and}}{1,0} = ($bf[1], $bf[1]);
@{$bits{bit_or}}{1,0} = ($bf[1], $bf[1]);
@{$bits{bit_xor}}{1,0} = ($bf[1], $bf[1]);
@{$bits{bless}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{caller}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{chdir}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{chmod}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{chomp}{0} = $bf[0];
$bits{chop}{0} = $bf[0];
@{$bits{chown}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{chr}{0} = $bf[0];
$bits{chroot}{0} = $bf[0];
@{$bits{close}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{closedir}{0} = $bf[0];
$bits{complement}{0} = $bf[0];
@{$bits{concat}}{1,0} = ($bf[1], $bf[1]);
$bits{cond_expr}{0} = $bf[0];
@{$bits{connect}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{const}}{6,4,3,2,1} = ('OPpCONST_BARE', 'OPpCONST_ENTERED', 'OPpCONST_STRICT', 'OPpCONST_SHORTCIRCUIT', 'OPpCONST_NOVER');
@{$bits{coreargs}}{7,6,1,0} = ('OPpCOREARGS_PUSHMARK', 'OPpCOREARGS_SCALARMOD', 'OPpCOREARGS_DEREF2', 'OPpCOREARGS_DEREF1');
$bits{cos}{0} = $bf[0];
@{$bits{crypt}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{dbmclose}{0} = $bf[0];
@{$bits{dbmopen}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{defined}{0} = $bf[0];
@{$bits{delete}}{6,0} = ('OPpSLICE', $bf[0]);
@{$bits{die}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{divide}}{1,0} = ($bf[1], $bf[1]);
$bits{dofile}{0} = $bf[0];
$bits{dor}{0} = $bf[0];
$bits{dorassign}{0} = $bf[0];
$bits{dump}{0} = $bf[0];
$bits{each}{0} = $bf[0];
@{$bits{entereval}}{5,4,3,2,1,0} = ('OPpEVAL_RE_REPARSING', 'OPpEVAL_COPHH', 'OPpEVAL_BYTES', 'OPpEVAL_UNICODE', 'OPpEVAL_HAS_HH', $bf[0]);
$bits{entergiven}{0} = $bf[0];
$bits{enteriter}{3} = 'OPpITER_DEF';
@{$bits{entersub}}{5,4,0} = ($bf[8], $bf[8], 'OPpENTERSUB_INARGS');
$bits{entertry}{0} = $bf[0];
$bits{enterwhen}{0} = $bf[0];
@{$bits{enterwrite}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{eof}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{eq}}{1,0} = ($bf[1], $bf[1]);
@{$bits{exec}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{exists}}{6,0} = ('OPpEXISTS_SUB', $bf[0]);
@{$bits{exit}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{exp}{0} = $bf[0];
$bits{fc}{0} = $bf[0];
@{$bits{fcntl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{fileno}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{flip}{0} = $bf[0];
@{$bits{flock}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{flop}{0} = $bf[0];
@{$bits{formline}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{ftatime}{0} = $bf[0];
$bits{ftbinary}{0} = $bf[0];
$bits{ftblk}{0} = $bf[0];
$bits{ftchr}{0} = $bf[0];
$bits{ftctime}{0} = $bf[0];
$bits{ftdir}{0} = $bf[0];
$bits{fteexec}{0} = $bf[0];
$bits{fteowned}{0} = $bf[0];
$bits{fteread}{0} = $bf[0];
$bits{ftewrite}{0} = $bf[0];
$bits{ftfile}{0} = $bf[0];
$bits{ftis}{0} = $bf[0];
$bits{ftlink}{0} = $bf[0];
$bits{ftmtime}{0} = $bf[0];
$bits{ftpipe}{0} = $bf[0];
$bits{ftrexec}{0} = $bf[0];
$bits{ftrowned}{0} = $bf[0];
$bits{ftrread}{0} = $bf[0];
$bits{ftrwrite}{0} = $bf[0];
$bits{ftsgid}{0} = $bf[0];
$bits{ftsize}{0} = $bf[0];
$bits{ftsock}{0} = $bf[0];
$bits{ftsuid}{0} = $bf[0];
$bits{ftsvtx}{0} = $bf[0];
$bits{fttext}{0} = $bf[0];
$bits{fttty}{0} = $bf[0];
$bits{ftzero}{0} = $bf[0];
@{$bits{ge}}{1,0} = ($bf[1], $bf[1]);
@{$bits{gelem}}{1,0} = ($bf[1], $bf[1]);
@{$bits{getc}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{getpeername}{0} = $bf[0];
@{$bits{getpgrp}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{getpriority}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{getsockname}{0} = $bf[0];
$bits{ggrgid}{0} = $bf[0];
$bits{ggrnam}{0} = $bf[0];
@{$bits{ghbyaddr}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{ghbyname}{0} = $bf[0];
@{$bits{glob}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{gmtime}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{gnbyaddr}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{gnbyname}{0} = $bf[0];
$bits{goto}{0} = $bf[0];
$bits{gpbyname}{0} = $bf[0];
@{$bits{gpbynumber}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{gpwnam}{0} = $bf[0];
$bits{gpwuid}{0} = $bf[0];
$bits{grepstart}{0} = $bf[0];
$bits{grepwhile}{0} = $bf[0];
@{$bits{gsbyname}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{gsbyport}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{gsockopt}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{gt}}{1,0} = ($bf[1], $bf[1]);
$bits{gv}{5} = 'OPpEARLY_CV';
@{$bits{helem}}{5,4,1,0} = ($bf[8], $bf[8], $bf[1], $bf[1]);
$bits{hex}{0} = $bf[0];
@{$bits{i_add}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_divide}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_eq}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_ge}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_gt}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_le}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_lt}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_modulo}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_multiply}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_ncmp}}{1,0} = ($bf[1], $bf[1]);
@{$bits{i_ne}}{1,0} = ($bf[1], $bf[1]);
$bits{i_negate}{0} = $bf[0];
$bits{i_postdec}{0} = $bf[0];
$bits{i_postinc}{0} = $bf[0];
$bits{i_predec}{0} = $bf[0];
$bits{i_preinc}{0} = $bf[0];
@{$bits{i_subtract}}{1,0} = ($bf[1], $bf[1]);
@{$bits{index}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{int}{0} = $bf[0];
@{$bits{ioctl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{join}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{keys}{0} = $bf[0];
@{$bits{kill}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{last}{0} = $bf[0];
$bits{lc}{0} = $bf[0];
$bits{lcfirst}{0} = $bf[0];
@{$bits{le}}{1,0} = ($bf[1], $bf[1]);
$bits{leaveeval}{0} = $bf[0];
$bits{leavegiven}{0} = $bf[0];
@{$bits{leaveloop}}{1,0} = ($bf[1], $bf[1]);
$bits{leavesub}{0} = $bf[0];
$bits{leavesublv}{0} = $bf[0];
$bits{leavewhen}{0} = $bf[0];
$bits{leavewrite}{0} = $bf[0];
@{$bits{left_shift}}{1,0} = ($bf[1], $bf[1]);
$bits{length}{0} = $bf[0];
@{$bits{link}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{list}{6} = 'OPpLIST_GUESSED';
@{$bits{listen}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{localtime}{0} = $bf[0];
$bits{lock}{0} = $bf[0];
$bits{log}{0} = $bf[0];
@{$bits{lslice}}{1,0} = ($bf[1], $bf[1]);
$bits{lstat}{0} = $bf[0];
@{$bits{lt}}{1,0} = ($bf[1], $bf[1]);
$bits{lvavref}{0} = $bf[0];
@{$bits{lvref}}{5,4,0} = ($bf[9], $bf[9], $bf[0]);
$bits{mapstart}{0} = $bf[0];
$bits{mapwhile}{0} = $bf[0];
$bits{method}{0} = $bf[0];
$bits{method_named}{0} = $bf[0];
$bits{method_redir}{0} = $bf[0];
$bits{method_redir_super}{0} = $bf[0];
$bits{method_super}{0} = $bf[0];
@{$bits{mkdir}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{modulo}}{1,0} = ($bf[1], $bf[1]);
@{$bits{msgctl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{msgget}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{msgrcv}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{msgsnd}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{multideref}}{5,4,0} = ('OPpMULTIDEREF_DELETE', 'OPpMULTIDEREF_EXISTS', $bf[0]);
@{$bits{multiply}}{1,0} = ($bf[1], $bf[1]);
@{$bits{nbit_and}}{1,0} = ($bf[1], $bf[1]);
@{$bits{nbit_or}}{1,0} = ($bf[1], $bf[1]);
@{$bits{nbit_xor}}{1,0} = ($bf[1], $bf[1]);
@{$bits{ncmp}}{1,0} = ($bf[1], $bf[1]);
$bits{ncomplement}{0} = $bf[0];
@{$bits{ne}}{1,0} = ($bf[1], $bf[1]);
$bits{negate}{0} = $bf[0];
$bits{next}{0} = $bf[0];
$bits{not}{0} = $bf[0];
$bits{oct}{0} = $bf[0];
$bits{once}{0} = $bf[0];
@{$bits{open}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{open_dir}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{or}{0} = $bf[0];
$bits{orassign}{0} = $bf[0];
$bits{ord}{0} = $bf[0];
@{$bits{pack}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{padrange}}{6,5,4,3,2,1,0} = ($bf[5], $bf[5], $bf[5], $bf[5], $bf[5], $bf[5], $bf[5]);
@{$bits{padsv}}{5,4} = ($bf[8], $bf[8]);
@{$bits{pipe_op}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{pop}{0} = $bf[0];
$bits{pos}{0} = $bf[0];
$bits{postdec}{0} = $bf[0];
$bits{postinc}{0} = $bf[0];
@{$bits{pow}}{1,0} = ($bf[1], $bf[1]);
$bits{predec}{0} = $bf[0];
$bits{preinc}{0} = $bf[0];
$bits{prototype}{0} = $bf[0];
@{$bits{push}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{quotemeta}{0} = $bf[0];
@{$bits{rand}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{range}{0} = $bf[0];
@{$bits{read}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{readdir}{0} = $bf[0];
$bits{readline}{0} = $bf[0];
$bits{readlink}{0} = $bf[0];
@{$bits{recv}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{redo}{0} = $bf[0];
$bits{ref}{0} = $bf[0];
@{$bits{refassign}}{5,4,1,0} = ($bf[9], $bf[9], $bf[1], $bf[1]);
$bits{refgen}{0} = $bf[0];
$bits{regcmaybe}{0} = $bf[0];
$bits{regcomp}{0} = $bf[0];
$bits{regcreset}{0} = $bf[0];
@{$bits{rename}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{repeat}}{6,1,0} = ('OPpREPEAT_DOLIST', $bf[1], $bf[1]);
$bits{require}{0} = $bf[0];
@{$bits{reset}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{reverse}}{3,0} = ('OPpREVERSE_INPLACE', $bf[0]);
$bits{rewinddir}{0} = $bf[0];
@{$bits{right_shift}}{1,0} = ($bf[1], $bf[1]);
@{$bits{rindex}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{rmdir}{0} = $bf[0];
$bits{rv2av}{0} = $bf[0];
@{$bits{rv2cv}}{7,5,0} = ('OPpENTERSUB_NOPAREN', 'OPpMAY_RETURN_CONSTANT', $bf[0]);
@{$bits{rv2gv}}{6,5,4,2,0} = ('OPpALLOW_FAKE', $bf[8], $bf[8], 'OPpDONT_INIT_GV', $bf[0]);
$bits{rv2hv}{0} = $bf[0];
@{$bits{rv2sv}}{5,4,0} = ($bf[8], $bf[8], $bf[0]);
@{$bits{sassign}}{7,6,1,0} = ('OPpASSIGN_CV_TO_GV', 'OPpASSIGN_BACKWARDS', $bf[1], $bf[1]);
@{$bits{sbit_and}}{1,0} = ($bf[1], $bf[1]);
@{$bits{sbit_or}}{1,0} = ($bf[1], $bf[1]);
@{$bits{sbit_xor}}{1,0} = ($bf[1], $bf[1]);
$bits{scalar}{0} = $bf[0];
$bits{schomp}{0} = $bf[0];
$bits{schop}{0} = $bf[0];
@{$bits{scmp}}{1,0} = ($bf[1], $bf[1]);
$bits{scomplement}{0} = $bf[0];
@{$bits{seek}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{seekdir}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{select}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{semctl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{semget}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{semop}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{send}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{seq}}{1,0} = ($bf[1], $bf[1]);
@{$bits{setpgrp}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{setpriority}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sge}}{1,0} = ($bf[1], $bf[1]);
@{$bits{sgt}}{1,0} = ($bf[1], $bf[1]);
$bits{shift}{0} = $bf[0];
@{$bits{shmctl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{shmget}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{shmread}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{shmwrite}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{shostent}{0} = $bf[0];
@{$bits{shutdown}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{sin}{0} = $bf[0];
@{$bits{sle}}{1,0} = ($bf[1], $bf[1]);
@{$bits{sleep}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{slt}}{1,0} = ($bf[1], $bf[1]);
@{$bits{smartmatch}}{1,0} = ($bf[1], $bf[1]);
@{$bits{sne}}{1,0} = ($bf[1], $bf[1]);
$bits{snetent}{0} = $bf[0];
@{$bits{socket}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sockpair}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sort}}{6,5,4,3,2,1,0} = ('OPpSORT_STABLE', 'OPpSORT_QSORT', 'OPpSORT_DESCEND', 'OPpSORT_INPLACE', 'OPpSORT_REVERSE', 'OPpSORT_INTEGER', 'OPpSORT_NUMERIC');
@{$bits{splice}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{split}}{4,3,2} = ('OPpSPLIT_ASSIGN', 'OPpSPLIT_LEX', 'OPpSPLIT_IMPLIM');
@{$bits{sprintf}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{sprotoent}{0} = $bf[0];
$bits{sqrt}{0} = $bf[0];
@{$bits{srand}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{srefgen}{0} = $bf[0];
@{$bits{sselect}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{sservent}{0} = $bf[0];
@{$bits{ssockopt}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{stat}{0} = $bf[0];
@{$bits{stringify}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{study}{0} = $bf[0];
$bits{substcont}{0} = $bf[0];
@{$bits{substr}}{4,2,1,0} = ('OPpSUBSTR_REPL_FIRST', $bf[3], $bf[3], $bf[3]);
@{$bits{subtract}}{1,0} = ($bf[1], $bf[1]);
@{$bits{symlink}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{syscall}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sysopen}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sysread}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{sysseek}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{system}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{syswrite}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{tell}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{telldir}{0} = $bf[0];
@{$bits{tie}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{tied}{0} = $bf[0];
@{$bits{truncate}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{uc}{0} = $bf[0];
$bits{ucfirst}{0} = $bf[0];
@{$bits{umask}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{undef}{0} = $bf[0];
@{$bits{unlink}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{unpack}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{unshift}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{untie}{0} = $bf[0];
@{$bits{utime}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
$bits{values}{0} = $bf[0];
@{$bits{vec}}{1,0} = ($bf[1], $bf[1]);
@{$bits{waitpid}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{warn}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]);
@{$bits{xor}}{1,0} = ($bf[1], $bf[1]);
our %defines = (
OPpALLOW_FAKE => 64,
OPpARG1_MASK => 1,
OPpARG2_MASK => 3,
OPpARG3_MASK => 7,
OPpARG4_MASK => 15,
OPpARGELEM_AV => 2,
OPpARGELEM_HV => 4,
OPpARGELEM_MASK => 6,
OPpARGELEM_SV => 0,
OPpASSIGN_BACKWARDS => 64,
OPpASSIGN_COMMON_AGG => 16,
OPpASSIGN_COMMON_RC1 => 32,
OPpASSIGN_COMMON_SCALAR => 64,
OPpASSIGN_CV_TO_GV => 128,
OPpAVHVSWITCH_MASK => 3,
OPpCONST_BARE => 64,
OPpCONST_ENTERED => 16,
OPpCONST_NOVER => 2,
OPpCONST_SHORTCIRCUIT => 4,
OPpCONST_STRICT => 8,
OPpCOREARGS_DEREF1 => 1,
OPpCOREARGS_DEREF2 => 2,
OPpCOREARGS_PUSHMARK => 128,
OPpCOREARGS_SCALARMOD => 64,
OPpDEREF => 48,
OPpDEREF_AV => 16,
OPpDEREF_HV => 32,
OPpDEREF_SV => 48,
OPpDONT_INIT_GV => 4,
OPpEARLY_CV => 32,
OPpENTERSUB_AMPER => 8,
OPpENTERSUB_DB => 64,
OPpENTERSUB_HASTARG => 4,
OPpENTERSUB_INARGS => 1,
OPpENTERSUB_NOPAREN => 128,
OPpEVAL_BYTES => 8,
OPpEVAL_COPHH => 16,
OPpEVAL_HAS_HH => 2,
OPpEVAL_RE_REPARSING => 32,
OPpEVAL_UNICODE => 4,
OPpEXISTS_SUB => 64,
OPpFLIP_LINENUM => 64,
OPpFT_ACCESS => 2,
OPpFT_AFTER_t => 16,
OPpFT_STACKED => 4,
OPpFT_STACKING => 8,
OPpHINT_STRICT_REFS => 2,
OPpHUSH_VMSISH => 32,
OPpITER_DEF => 8,
OPpITER_REVERSED => 2,
OPpLIST_GUESSED => 64,
OPpLVALUE => 128,
OPpLVAL_DEFER => 64,
OPpLVAL_INTRO => 128,
OPpLVREF_AV => 16,
OPpLVREF_CV => 48,
OPpLVREF_ELEM => 4,
OPpLVREF_HV => 32,
OPpLVREF_ITER => 8,
OPpLVREF_SV => 0,
OPpLVREF_TYPE => 48,
OPpMAYBE_LVSUB => 8,
OPpMAYBE_TRUEBOOL => 16,
OPpMAY_RETURN_CONSTANT => 32,
OPpMULTIDEREF_DELETE => 32,
OPpMULTIDEREF_EXISTS => 16,
OPpOFFBYONE => 128,
OPpOPEN_IN_CRLF => 32,
OPpOPEN_IN_RAW => 16,
OPpOPEN_OUT_CRLF => 128,
OPpOPEN_OUT_RAW => 64,
OPpOUR_INTRO => 64,
OPpPADRANGE_COUNTMASK => 127,
OPpPADRANGE_COUNTSHIFT => 7,
OPpPAD_STATE => 64,
OPpPV_IS_UTF8 => 128,
OPpREFCOUNTED => 64,
OPpREPEAT_DOLIST => 64,
OPpREVERSE_INPLACE => 8,
OPpSLICE => 64,
OPpSLICEWARNING => 4,
OPpSORT_DESCEND => 16,
OPpSORT_INPLACE => 8,
OPpSORT_INTEGER => 2,
OPpSORT_NUMERIC => 1,
OPpSORT_QSORT => 32,
OPpSORT_REVERSE => 4,
OPpSORT_STABLE => 64,
OPpSPLIT_ASSIGN => 16,
OPpSPLIT_IMPLIM => 4,
OPpSPLIT_LEX => 8,
OPpSUBSTR_REPL_FIRST => 16,
OPpTARGET_MY => 16,
OPpTRANS_COMPLEMENT => 32,
OPpTRANS_DELETE => 128,
OPpTRANS_FROM_UTF => 1,
OPpTRANS_GROWS => 64,
OPpTRANS_IDENTICAL => 4,
OPpTRANS_SQUASH => 8,
OPpTRANS_TO_UTF => 2,
OPpTRUEBOOL => 32,
);
our %labels = (
OPpALLOW_FAKE => 'FAKE',
OPpARGELEM_AV => 'AV',
OPpARGELEM_HV => 'HV',
OPpARGELEM_SV => 'SV',
OPpASSIGN_BACKWARDS => 'BKWARD',
OPpASSIGN_COMMON_AGG => 'COM_AGG',
OPpASSIGN_COMMON_RC1 => 'COM_RC1',
OPpASSIGN_COMMON_SCALAR => 'COM_SCALAR',
OPpASSIGN_CV_TO_GV => 'CV2GV',
OPpCONST_BARE => 'BARE',
OPpCONST_ENTERED => 'ENTERED',
OPpCONST_NOVER => 'NOVER',
OPpCONST_SHORTCIRCUIT => 'SHORT',
OPpCONST_STRICT => 'STRICT',
OPpCOREARGS_DEREF1 => 'DEREF1',
OPpCOREARGS_DEREF2 => 'DEREF2',
OPpCOREARGS_PUSHMARK => 'MARK',
OPpCOREARGS_SCALARMOD => '$MOD',
OPpDEREF_AV => 'DREFAV',
OPpDEREF_HV => 'DREFHV',
OPpDEREF_SV => 'DREFSV',
OPpDONT_INIT_GV => 'NOINIT',
OPpEARLY_CV => 'EARLYCV',
OPpENTERSUB_AMPER => 'AMPER',
OPpENTERSUB_DB => 'DBG',
OPpENTERSUB_HASTARG => 'TARG',
OPpENTERSUB_INARGS => 'INARGS',
OPpENTERSUB_NOPAREN => 'NO()',
OPpEVAL_BYTES => 'BYTES',
OPpEVAL_COPHH => 'COPHH',
OPpEVAL_HAS_HH => 'HAS_HH',
OPpEVAL_RE_REPARSING => 'REPARSE',
OPpEVAL_UNICODE => 'UNI',
OPpEXISTS_SUB => 'SUB',
OPpFLIP_LINENUM => 'LINENUM',
OPpFT_ACCESS => 'FTACCESS',
OPpFT_AFTER_t => 'FTAFTERt',
OPpFT_STACKED => 'FTSTACKED',
OPpFT_STACKING => 'FTSTACKING',
OPpHINT_STRICT_REFS => 'STRICT',
OPpHUSH_VMSISH => 'HUSH',
OPpITER_DEF => 'DEF',
OPpITER_REVERSED => 'REVERSED',
OPpLIST_GUESSED => 'GUESSED',
OPpLVALUE => 'LV',
OPpLVAL_DEFER => 'LVDEFER',
OPpLVAL_INTRO => 'LVINTRO',
OPpLVREF_AV => 'AV',
OPpLVREF_CV => 'CV',
OPpLVREF_ELEM => 'ELEM',
OPpLVREF_HV => 'HV',
OPpLVREF_ITER => 'ITER',
OPpLVREF_SV => 'SV',
OPpMAYBE_LVSUB => 'LVSUB',
OPpMAYBE_TRUEBOOL => 'BOOL?',
OPpMAY_RETURN_CONSTANT => 'CONST',
OPpMULTIDEREF_DELETE => 'DELETE',
OPpMULTIDEREF_EXISTS => 'EXISTS',
OPpOFFBYONE => '+1',
OPpOPEN_IN_CRLF => 'INCR',
OPpOPEN_IN_RAW => 'INBIN',
OPpOPEN_OUT_CRLF => 'OUTCR',
OPpOPEN_OUT_RAW => 'OUTBIN',
OPpOUR_INTRO => 'OURINTR',
OPpPAD_STATE => 'STATE',
OPpPV_IS_UTF8 => 'UTF',
OPpREFCOUNTED => 'REFC',
OPpREPEAT_DOLIST => 'DOLIST',
OPpREVERSE_INPLACE => 'INPLACE',
OPpSLICE => 'SLICE',
OPpSLICEWARNING => 'SLICEWARN',
OPpSORT_DESCEND => 'DESC',
OPpSORT_INPLACE => 'INPLACE',
OPpSORT_INTEGER => 'INT',
OPpSORT_NUMERIC => 'NUM',
OPpSORT_QSORT => 'QSORT',
OPpSORT_REVERSE => 'REV',
OPpSORT_STABLE => 'STABLE',
OPpSPLIT_ASSIGN => 'ASSIGN',
OPpSPLIT_IMPLIM => 'IMPLIM',
OPpSPLIT_LEX => 'LEX',
OPpSUBSTR_REPL_FIRST => 'REPL1ST',
OPpTARGET_MY => 'TARGMY',
OPpTRANS_COMPLEMENT => 'COMPL',
OPpTRANS_DELETE => 'DEL',
OPpTRANS_FROM_UTF => '<UTF',
OPpTRANS_GROWS => 'GROWS',
OPpTRANS_IDENTICAL => 'IDENT',
OPpTRANS_SQUASH => 'SQUASH',
OPpTRANS_TO_UTF => '>UTF',
OPpTRUEBOOL => 'BOOL',
);
our %ops_using = (
OPpALLOW_FAKE => [qw(rv2gv)],
OPpASSIGN_BACKWARDS => [qw(sassign)],
OPpASSIGN_COMMON_AGG => [qw(aassign)],
OPpCONST_BARE => [qw(const)],
OPpCOREARGS_DEREF1 => [qw(coreargs)],
OPpEARLY_CV => [qw(gv)],
OPpENTERSUB_AMPER => [qw(entersub rv2cv)],
OPpENTERSUB_INARGS => [qw(entersub)],
OPpENTERSUB_NOPAREN => [qw(rv2cv)],
OPpEVAL_BYTES => [qw(entereval)],
OPpEXISTS_SUB => [qw(exists)],
OPpFLIP_LINENUM => [qw(flip flop)],
OPpFT_ACCESS => [qw(fteexec fteread ftewrite ftrexec ftrread ftrwrite)],
OPpFT_AFTER_t => [qw(ftatime ftbinary ftblk ftchr ftctime ftdir fteexec fteowned fteread ftewrite ftfile ftis ftlink ftmtime ftpipe ftrexec ftrowned ftrread ftrwrite ftsgid ftsize ftsock ftsuid ftsvtx fttext fttty ftzero)],
OPpHINT_STRICT_REFS => [qw(entersub multideref rv2av rv2cv rv2gv rv2hv rv2sv)],
OPpHUSH_VMSISH => [qw(dbstate nextstate)],
OPpITER_DEF => [qw(enteriter)],
OPpITER_REVERSED => [qw(enteriter iter)],
OPpLIST_GUESSED => [qw(list)],
OPpLVALUE => [qw(leave leaveloop)],
OPpLVAL_DEFER => [qw(aelem helem multideref)],
OPpLVAL_INTRO => [qw(aelem aslice cond_expr delete enteriter entersub gvsv helem hslice list lvavref lvref lvrefslice multideref padav padhv padrange padsv pushmark refassign rv2av rv2gv rv2hv rv2sv split)],
OPpLVREF_ELEM => [qw(lvref refassign)],
OPpMAYBE_LVSUB => [qw(aassign aelem akeys aslice av2arylen avhvswitch helem hslice keys kvaslice kvhslice multideref padav padhv pos rv2av rv2gv rv2hv substr vec)],
OPpMAYBE_TRUEBOOL => [qw(padhv rv2hv)],
OPpMULTIDEREF_DELETE => [qw(multideref)],
OPpOFFBYONE => [qw(caller runcv wantarray)],
OPpOPEN_IN_CRLF => [qw(backtick open)],
OPpOUR_INTRO => [qw(enteriter gvsv rv2av rv2hv rv2sv split)],
OPpPAD_STATE => [qw(lvavref lvref padav padhv padsv pushmark refassign)],
OPpPV_IS_UTF8 => [qw(dump goto last next redo)],
OPpREFCOUNTED => [qw(leave leaveeval leavesub leavesublv leavewrite)],
OPpREPEAT_DOLIST => [qw(repeat)],
OPpREVERSE_INPLACE => [qw(reverse)],
OPpSLICE => [qw(delete)],
OPpSLICEWARNING => [qw(aslice hslice padav padhv rv2av rv2hv)],
OPpSORT_DESCEND => [qw(sort)],
OPpSPLIT_ASSIGN => [qw(split)],
OPpSUBSTR_REPL_FIRST => [qw(substr)],
OPpTARGET_MY => [qw(abs add atan2 chdir chmod chomp chown chr chroot concat cos crypt divide exec exp flock getpgrp getppid getpriority hex i_add i_divide i_modulo i_multiply i_subtract index int kill left_shift length link log mkdir modulo multiply nbit_and nbit_or nbit_xor ncomplement oct ord pow push rand rename right_shift rindex rmdir schomp scomplement setpgrp setpriority sin sleep sqrt srand stringify subtract symlink system time unlink unshift utime wait waitpid)],
OPpTRANS_COMPLEMENT => [qw(trans transr)],
);
$ops_using{OPpASSIGN_COMMON_RC1} = $ops_using{OPpASSIGN_COMMON_AGG};
$ops_using{OPpASSIGN_COMMON_SCALAR} = $ops_using{OPpASSIGN_COMMON_AGG};
$ops_using{OPpASSIGN_CV_TO_GV} = $ops_using{OPpASSIGN_BACKWARDS};
$ops_using{OPpCONST_ENTERED} = $ops_using{OPpCONST_BARE};
$ops_using{OPpCONST_NOVER} = $ops_using{OPpCONST_BARE};
$ops_using{OPpCONST_SHORTCIRCUIT} = $ops_using{OPpCONST_BARE};
$ops_using{OPpCONST_STRICT} = $ops_using{OPpCONST_BARE};
$ops_using{OPpCOREARGS_DEREF2} = $ops_using{OPpCOREARGS_DEREF1};
$ops_using{OPpCOREARGS_PUSHMARK} = $ops_using{OPpCOREARGS_DEREF1};
$ops_using{OPpCOREARGS_SCALARMOD} = $ops_using{OPpCOREARGS_DEREF1};
$ops_using{OPpDONT_INIT_GV} = $ops_using{OPpALLOW_FAKE};
$ops_using{OPpENTERSUB_DB} = $ops_using{OPpENTERSUB_AMPER};
$ops_using{OPpENTERSUB_HASTARG} = $ops_using{OPpENTERSUB_AMPER};
$ops_using{OPpEVAL_COPHH} = $ops_using{OPpEVAL_BYTES};
$ops_using{OPpEVAL_HAS_HH} = $ops_using{OPpEVAL_BYTES};
$ops_using{OPpEVAL_RE_REPARSING} = $ops_using{OPpEVAL_BYTES};
$ops_using{OPpEVAL_UNICODE} = $ops_using{OPpEVAL_BYTES};
$ops_using{OPpFT_STACKED} = $ops_using{OPpFT_AFTER_t};
$ops_using{OPpFT_STACKING} = $ops_using{OPpFT_AFTER_t};
$ops_using{OPpLVREF_ITER} = $ops_using{OPpLVREF_ELEM};
$ops_using{OPpMAY_RETURN_CONSTANT} = $ops_using{OPpENTERSUB_NOPAREN};
$ops_using{OPpMULTIDEREF_EXISTS} = $ops_using{OPpMULTIDEREF_DELETE};
$ops_using{OPpOPEN_IN_RAW} = $ops_using{OPpOPEN_IN_CRLF};
$ops_using{OPpOPEN_OUT_CRLF} = $ops_using{OPpOPEN_IN_CRLF};
$ops_using{OPpOPEN_OUT_RAW} = $ops_using{OPpOPEN_IN_CRLF};
$ops_using{OPpSORT_INPLACE} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSORT_INTEGER} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSORT_NUMERIC} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSORT_QSORT} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSORT_REVERSE} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSORT_STABLE} = $ops_using{OPpSORT_DESCEND};
$ops_using{OPpSPLIT_IMPLIM} = $ops_using{OPpSPLIT_ASSIGN};
$ops_using{OPpSPLIT_LEX} = $ops_using{OPpSPLIT_ASSIGN};
$ops_using{OPpTRANS_DELETE} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRANS_FROM_UTF} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRANS_GROWS} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRANS_IDENTICAL} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRANS_SQUASH} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRANS_TO_UTF} = $ops_using{OPpTRANS_COMPLEMENT};
$ops_using{OPpTRUEBOOL} = $ops_using{OPpMAYBE_TRUEBOOL};
# ex: set ro:
Zerion Mini Shell 1.0