# -*- mode: Perl; 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 = "5.038002"; $bits{$_}{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); $bits{$_}{6} = 'OPpINDEX_BOOLNEG' for qw(index rindex); $bits{$_}{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 emptyavhv enteriter entersub gvsv helem hslice list lvavref lvref lvrefslice multiconcat multideref padav padhv padrange padsv padsv_store pushmark refassign rv2av rv2gv rv2hv rv2sv split undef); $bits{$_}{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 values vec); $bits{$_}{4} = 'OPpMAYBE_TRUEBOOL' for qw(blessed padhv ref 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(emptyavhv lvavref lvref padav padhv padsv padsv_store pushmark refassign undef); $bits{$_}{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 ceil chdir chmod chomp chown chr chroot concat cos crypt divide emptyavhv exec exp flock floor getpgrp getppid getpriority hex i_add i_divide i_modulo i_multiply i_subtract index int kill left_shift length link log mkdir modulo multiconcat multiply nbit_and nbit_or nbit_xor ncomplement oct ord pow push rand refaddr reftype rename right_shift rindex rmdir schomp scomplement setpgrp setpriority sin sleep sqrt srand stringify subtract symlink system time undef unlink unshift utime wait waitpid); $bits{$_}{0} = 'OPpTRANS_CAN_FORCE_UTF8' for qw(trans transr); $bits{$_}{5} = 'OPpTRANS_COMPLEMENT' for qw(trans transr); $bits{$_}{7} = 'OPpTRANS_DELETE' 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_USE_SVOP' for qw(trans transr); $bits{$_}{5} = 'OPpTRUEBOOL' for qw(blessed grepwhile index length padav padhv pos ref rindex rv2av rv2hv subst); $bits{$_}{2} = 'OPpUSEINT' for qw(bit_and bit_or bit_xor complement left_shift nbit_and nbit_or nbit_xor ncomplement right_shift sbit_and sbit_or sbit_xor); 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}}{6,5,4,2,1,0} = ('OPpASSIGN_COMMON_SCALAR', 'OPpASSIGN_COMMON_RC1', 'OPpASSIGN_COMMON_AGG', 'OPpASSIGN_TRUEBOOL', $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{aelemfastlex_store}}{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}}{7,6,0} = ('OPpARG_IF_UNDEF', 'OPpARG_IF_FALSE', $bf[0]); @{$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{bless}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]); $bits{blessed}{0} = $bf[0]; @{$bits{caller}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]); $bits{catch}{0} = $bf[0]; $bits{ceil}{0} = $bf[0]; @{$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{cmpchain_and}{0} = $bf[0]; $bits{cmpchain_dup}{0} = $bf[0]; @{$bits{concat}}{6,1,0} = ('OPpCONCAT_NESTED', $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}}{6,5,0} = ('OPpSLICE', 'OPpKVSLICE', $bf[0]); @{$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{emptyavhv}}{5,3,2,1,0} = ('OPpEMPTYAVHV_IS_HV', $bf[4], $bf[4], $bf[4], $bf[4]); @{$bits{entereval}}{6,5,4,3,2,1,0} = ('OPpEVAL_EVALSV', '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{entertrycatch}{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{floor}{0} = $bf[0]; $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{helemexistsor}}{7,0} = ('OPpHELEMEXISTSOR_DELETE', $bf[0]); $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{initfield}}{2,1,0} = ('OPpINITFIELD_HV', 'OPpINITFIELD_AV', $bf[0]); $bits{int}{0} = $bf[0]; @{$bits{ioctl}}{3,2,1,0} = ($bf[4], $bf[4], $bf[4], $bf[4]); $bits{is_bool}{0} = $bf[0]; $bits{is_tainted}{0} = $bf[0]; $bits{is_weak}{0} = $bf[0]; @{$bits{isa}}{1,0} = ($bf[1], $bf[1]); @{$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{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{methstart}}{7,0} = ('OPpINITFIELDS', $bf[0]); @{$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{multiconcat}}{6,5,3,0} = ('OPpMULTICONCAT_APPEND', 'OPpMULTICONCAT_FAKE', 'OPpMULTICONCAT_STRINGIFY', $bf[0]); @{$bits{multideref}}{5,4,0} = ('OPpMULTIDEREF_DELETE', 'OPpMULTIDEREF_EXISTS', $bf[0]); @{$bits{multiply}}{1,0} = ($bf[1], $bf[1]); @{$bits{ncmp}}{1,0} = ($bf[1], $bf[1]); @{$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]); $bits{padhv}{0} = 'OPpPADHV_ISKEYS'; @{$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{padsv_store}{0} = $bf[0]; @{$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{pushdefer}}{7,0} = ('OPpDEFER_FINALLY', $bf[0]); $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{refaddr}{0} = $bf[0]; @{$bits{refassign}}{5,4,1,0} = ($bf[9], $bf[9], $bf[1], $bf[1]); $bits{refgen}{0} = $bf[0]; $bits{reftype}{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{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]); $bits{rv2hv}{0} = 'OPpRV2HV_ISKEYS'; @{$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{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}}{4,3,2,1,0} = ('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}}{5,0} = ('OPpUNDEF_KEEP_PV', $bf[0]); @{$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{unweaken}{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{weaken}{0} = $bf[0]; @{$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, OPpARG_IF_FALSE => 64, OPpARG_IF_UNDEF => 128, OPpASSIGN_BACKWARDS => 64, OPpASSIGN_COMMON_AGG => 16, OPpASSIGN_COMMON_RC1 => 32, OPpASSIGN_COMMON_SCALAR => 64, OPpASSIGN_CV_TO_GV => 128, OPpASSIGN_TRUEBOOL => 4, OPpAVHVSWITCH_MASK => 3, OPpCONCAT_NESTED => 64, 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, OPpDEFER_FINALLY => 128, OPpDEREF => 48, OPpDEREF_AV => 16, OPpDEREF_HV => 32, OPpDEREF_SV => 48, OPpDONT_INIT_GV => 4, OPpEARLY_CV => 32, OPpEMPTYAVHV_IS_HV => 32, OPpENTERSUB_AMPER => 8, OPpENTERSUB_DB => 64, OPpENTERSUB_HASTARG => 4, OPpENTERSUB_INARGS => 1, OPpENTERSUB_NOPAREN => 128, OPpEVAL_BYTES => 8, OPpEVAL_COPHH => 16, OPpEVAL_EVALSV => 64, 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, OPpHELEMEXISTSOR_DELETE => 128, OPpHINT_STRICT_REFS => 2, OPpHUSH_VMSISH => 32, OPpINDEX_BOOLNEG => 64, OPpINITFIELDS => 128, OPpINITFIELD_AV => 2, OPpINITFIELD_HV => 4, OPpITER_DEF => 8, OPpITER_REVERSED => 2, OPpKVSLICE => 32, 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, OPpMULTICONCAT_APPEND => 64, OPpMULTICONCAT_FAKE => 32, OPpMULTICONCAT_STRINGIFY => 8, 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, OPpPADHV_ISKEYS => 1, OPpPADRANGE_COUNTMASK => 127, OPpPADRANGE_COUNTSHIFT => 7, OPpPAD_STATE => 64, OPpPV_IS_UTF8 => 128, OPpREFCOUNTED => 64, OPpREPEAT_DOLIST => 64, OPpREVERSE_INPLACE => 8, OPpRV2HV_ISKEYS => 1, OPpSLICE => 64, OPpSLICEWARNING => 4, OPpSORT_DESCEND => 16, OPpSORT_INPLACE => 8, OPpSORT_INTEGER => 2, OPpSORT_NUMERIC => 1, OPpSORT_REVERSE => 4, OPpSPLIT_ASSIGN => 16, OPpSPLIT_IMPLIM => 4, OPpSPLIT_LEX => 8, OPpSUBSTR_REPL_FIRST => 16, OPpTARGET_MY => 16, OPpTRANS_CAN_FORCE_UTF8 => 1, OPpTRANS_COMPLEMENT => 32, OPpTRANS_DELETE => 128, OPpTRANS_GROWS => 64, OPpTRANS_IDENTICAL => 4, OPpTRANS_SQUASH => 8, OPpTRANS_USE_SVOP => 2, OPpTRUEBOOL => 32, OPpUNDEF_KEEP_PV => 32, OPpUSEINT => 4, ); our %labels = ( OPpALLOW_FAKE => 'FAKE', OPpARGELEM_AV => 'AV', OPpARGELEM_HV => 'HV', OPpARGELEM_SV => 'SV', OPpARG_IF_FALSE => 'IF_FALSE', OPpARG_IF_UNDEF => 'IF_UNDEF', OPpASSIGN_BACKWARDS => 'BKWARD', OPpASSIGN_COMMON_AGG => 'COM_AGG', OPpASSIGN_COMMON_RC1 => 'COM_RC1', OPpASSIGN_COMMON_SCALAR => 'COM_SCALAR', OPpASSIGN_CV_TO_GV => 'CV2GV', OPpASSIGN_TRUEBOOL => 'BOOL', OPpCONCAT_NESTED => 'NESTED', 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', OPpDEFER_FINALLY => 'FINALLY', OPpDEREF_AV => 'DREFAV', OPpDEREF_HV => 'DREFHV', OPpDEREF_SV => 'DREFSV', OPpDONT_INIT_GV => 'NOINIT', OPpEARLY_CV => 'EARLYCV', OPpEMPTYAVHV_IS_HV => 'ANONHASH', OPpENTERSUB_AMPER => 'AMPER', OPpENTERSUB_DB => 'DBG', OPpENTERSUB_HASTARG => 'TARG', OPpENTERSUB_INARGS => 'INARGS', OPpENTERSUB_NOPAREN => 'NO()', OPpEVAL_BYTES => 'BYTES', OPpEVAL_COPHH => 'COPHH', OPpEVAL_EVALSV => 'EVALSV', 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', OPpHELEMEXISTSOR_DELETE => 'DELETE', OPpHINT_STRICT_REFS => 'STRICT', OPpHUSH_VMSISH => 'HUSH', OPpINDEX_BOOLNEG => 'NEG', OPpINITFIELDS => 'INITFIELDS', OPpINITFIELD_AV => 'INITFIELD_AV', OPpINITFIELD_HV => 'INITFIELD_HV', OPpITER_DEF => 'DEF', OPpITER_REVERSED => 'REVERSED', OPpKVSLICE => 'KVSLICE', 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', OPpMULTICONCAT_APPEND => 'APPEND', OPpMULTICONCAT_FAKE => 'FAKE', OPpMULTICONCAT_STRINGIFY => 'STRINGIFY', 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', OPpPADHV_ISKEYS => 'KEYS', OPpPAD_STATE => 'STATE', OPpPV_IS_UTF8 => 'UTF', OPpREFCOUNTED => 'REFC', OPpREPEAT_DOLIST => 'DOLIST', OPpREVERSE_INPLACE => 'INPLACE', OPpRV2HV_ISKEYS => 'KEYS', OPpSLICE => 'SLICE', OPpSLICEWARNING => 'SLICEWARN', OPpSORT_DESCEND => 'DESC', OPpSORT_INPLACE => 'INPLACE', OPpSORT_INTEGER => 'INT', OPpSORT_NUMERIC => 'NUM', OPpSORT_REVERSE => 'REV', OPpSPLIT_ASSIGN => 'ASSIGN', OPpSPLIT_IMPLIM => 'IMPLIM', OPpSPLIT_LEX => 'LEX', OPpSUBSTR_REPL_FIRST => 'REPL1ST', OPpTARGET_MY => 'TARGMY', OPpTRANS_CAN_FORCE_UTF8 => 'CAN_FORCE_UTF8', OPpTRANS_COMPLEMENT => 'COMPL', OPpTRANS_DELETE => 'DEL', OPpTRANS_GROWS => 'GROWS', OPpTRANS_IDENTICAL => 'IDENT', OPpTRANS_SQUASH => 'SQUASH', OPpTRANS_USE_SVOP => 'USE_SVOP', OPpTRUEBOOL => 'BOOL', OPpUNDEF_KEEP_PV => 'KEEP_PV', OPpUSEINT => 'USEINT', ); our %ops_using = ( OPpALLOW_FAKE => [qw(rv2gv)], OPpARG_IF_FALSE => [qw(argdefelem)], OPpASSIGN_BACKWARDS => [qw(sassign)], OPpASSIGN_COMMON_AGG => [qw(aassign)], OPpCONCAT_NESTED => [qw(concat)], OPpCONST_BARE => [qw(const)], OPpCOREARGS_DEREF1 => [qw(coreargs)], OPpDEFER_FINALLY => [qw(pushdefer)], OPpEARLY_CV => [qw(gv)], OPpEMPTYAVHV_IS_HV => [qw(emptyavhv)], 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)], OPpHELEMEXISTSOR_DELETE => [qw(helemexistsor)], OPpHINT_STRICT_REFS => [qw(entersub multideref rv2av rv2cv rv2gv rv2hv rv2sv)], OPpHUSH_VMSISH => [qw(dbstate nextstate)], OPpINDEX_BOOLNEG => [qw(index rindex)], OPpINITFIELDS => [qw(methstart)], OPpINITFIELD_AV => [qw(initfield)], OPpITER_DEF => [qw(enteriter)], OPpITER_REVERSED => [qw(enteriter iter)], OPpKVSLICE => [qw(delete)], OPpLIST_GUESSED => [qw(list)], OPpLVALUE => [qw(leave leaveloop)], OPpLVAL_DEFER => [qw(aelem helem multideref)], OPpLVAL_INTRO => [qw(aelem aslice cond_expr delete emptyavhv enteriter entersub gvsv helem hslice list lvavref lvref lvrefslice multiconcat multideref padav padhv padrange padsv padsv_store pushmark refassign rv2av rv2gv rv2hv rv2sv split undef)], 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 values vec)], OPpMAYBE_TRUEBOOL => [qw(blessed padhv ref rv2hv)], OPpMULTICONCAT_APPEND => [qw(multiconcat)], OPpMULTIDEREF_DELETE => [qw(multideref)], OPpOFFBYONE => [qw(caller runcv wantarray)], OPpOPEN_IN_CRLF => [qw(backtick open)], OPpOUR_INTRO => [qw(enteriter gvsv rv2av rv2hv rv2sv split)], OPpPADHV_ISKEYS => [qw(padhv)], OPpPAD_STATE => [qw(emptyavhv lvavref lvref padav padhv padsv padsv_store pushmark refassign undef)], OPpPV_IS_UTF8 => [qw(dump goto last next redo)], OPpREFCOUNTED => [qw(leave leaveeval leavesub leavesublv leavewrite)], OPpREPEAT_DOLIST => [qw(repeat)], OPpREVERSE_INPLACE => [qw(reverse)], OPpRV2HV_ISKEYS => [qw(rv2hv)], 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 ceil chdir chmod chomp chown chr chroot concat cos crypt divide emptyavhv exec exp flock floor getpgrp getppid getpriority hex i_add i_divide i_modulo i_multiply i_subtract index int kill left_shift length link log mkdir modulo multiconcat multiply nbit_and nbit_or nbit_xor ncomplement oct ord pow push rand refaddr reftype rename right_shift rindex rmdir schomp scomplement setpgrp setpriority sin sleep sqrt srand stringify subtract symlink system time undef unlink unshift utime wait waitpid)], OPpTRANS_CAN_FORCE_UTF8 => [qw(trans transr)], OPpTRUEBOOL => [qw(blessed grepwhile index length padav padhv pos ref rindex rv2av rv2hv subst)], OPpUNDEF_KEEP_PV => [qw(undef)], OPpUSEINT => [qw(bit_and bit_or bit_xor complement left_shift nbit_and nbit_or nbit_xor ncomplement right_shift sbit_and sbit_or sbit_xor)], ); $ops_using{OPpARG_IF_UNDEF} = $ops_using{OPpARG_IF_FALSE}; $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{OPpASSIGN_TRUEBOOL} = $ops_using{OPpASSIGN_COMMON_AGG}; $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_EVALSV} = $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{OPpINITFIELD_HV} = $ops_using{OPpINITFIELD_AV}; $ops_using{OPpLVREF_ITER} = $ops_using{OPpLVREF_ELEM}; $ops_using{OPpMAY_RETURN_CONSTANT} = $ops_using{OPpENTERSUB_NOPAREN}; $ops_using{OPpMULTICONCAT_FAKE} = $ops_using{OPpMULTICONCAT_APPEND}; $ops_using{OPpMULTICONCAT_STRINGIFY} = $ops_using{OPpMULTICONCAT_APPEND}; $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{OPpSLICE} = $ops_using{OPpKVSLICE}; $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_REVERSE} = $ops_using{OPpSORT_DESCEND}; $ops_using{OPpSPLIT_IMPLIM} = $ops_using{OPpSPLIT_ASSIGN}; $ops_using{OPpSPLIT_LEX} = $ops_using{OPpSPLIT_ASSIGN}; $ops_using{OPpTRANS_COMPLEMENT} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; $ops_using{OPpTRANS_DELETE} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; $ops_using{OPpTRANS_GROWS} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; $ops_using{OPpTRANS_IDENTICAL} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; $ops_using{OPpTRANS_SQUASH} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; $ops_using{OPpTRANS_USE_SVOP} = $ops_using{OPpTRANS_CAN_FORCE_UTF8}; # ex: set ro ft=perl:

Es la eliminación del sarro y la placa adherida a la superficie de los dientes mediante un equipo de ultrasonidos que garantiza la integridad de las piezas dentales a la vez que elimina en profundidad cualquier resto de suciedad.

A continuación se procede al pulido de los dientes mediante una fresa especial que elimina la placa bacteriana y devuelve a los dientes el aspecto sano que deben tener.

Una vez terminado todo el proceso, se mantiene al perro en observación hasta que se despierta de la anestesia, bajo la atenta supervisión de un veterinario.

¿Cada cuánto tiempo tengo que hacerle una limpieza dental a mi perro?

A partir de cierta edad, los perros pueden necesitar una limpieza dental anual o bianual. Depende de cada caso. En líneas generales, puede decirse que los perros de razas pequeñas suelen acumular más sarro y suelen necesitar una atención mayor en cuanto a higiene dental.

Riesgos de una mala higiene

Los riesgos más evidentes de una mala higiene dental en los perros son los siguientes:

Cuando la acumulación de sarro no se trata, se puede producir una inflamación y retracción de las encías que puede descalzar el diente y provocar caídas.
Mal aliento (halitosis).
Sarro perros
Puede ir a más
Las bacterias de la placa pueden trasladarse a través del torrente circulatorio a órganos vitales como el corazón ocasionando problemas de endocarditis en las válvulas. Las bacterias pueden incluso acantonarse en huesos (La osteomielitis es la infección ósea, tanto cortical como medular) provocando mucho dolor y una artritis séptica).

¿Cómo se forma el sarro?

El sarro es la calcificación de la placa dental. Los restos de alimentos, junto con las bacterias presentes en la boca, van a formar la placa bacteriana o placa dental. Si la placa no se retira, al mezclarse con la saliva y los minerales presentes en ella, reaccionará formando una costra. La placa se calcifica y se forma el sarro.

El sarro, cuando se forma, es de color blanquecino pero a medida que pasa el tiempo se va poniendo amarillo y luego marrón.

Síntomas de una pobre higiene dental
La señal más obvia de una mala salud dental canina es el mal aliento.

Sin embargo, a veces no es tan fácil de detectar
Y hay perros que no se dejan abrir la boca por su dueño. Por ejemplo…

Recientemente nos trajeron a la clínica a un perro que parpadeaba de un ojo y decía su dueño que le picaba un lado de la cara. Tenía molestias y dificultad para comer, lo que había llevado a sus dueños a comprarle comida blanda (que suele ser un poco más cara y llevar más contenido en grasa) durante medio año. Después de una exploración oftalmológica, nos dimos cuenta de que el ojo tenía una úlcera en la córnea probablemente de rascarse . Además, el canto lateral del ojo estaba inflamado. Tenía lo que en humanos llamamos flemón pero como era un perro de pelo largo, no se le notaba a simple vista. Al abrirle la boca nos llamó la atención el ver una muela llena de sarro. Le realizamos una radiografía y encontramos una fístula que llegaba hasta la parte inferior del ojo.

Le tuvimos que extraer la muela. Tras esto, el ojo se curó completamente con unos colirios y una lentilla protectora de úlcera. Afortunadamente, la úlcera no profundizó y no perforó el ojo. Ahora el perro come perfectamente a pesar de haber perdido una muela.

¿Cómo mantener la higiene dental de tu perro?
Hay varias maneras de prevenir problemas derivados de la salud dental de tu perro.

Limpiezas de dientes en casa
Es recomendable limpiar los dientes de tu perro semanal o diariamente si se puede. Existe una gran variedad de productos que se pueden utilizar:

Pastas de dientes.
Cepillos de dientes o dedales para el dedo índice, que hacen más fácil la limpieza.
Colutorios para echar en agua de bebida o directamente sobre el diente en líquido o en spray.

En la Clínica Tus Veterinarios enseñamos a nuestros clientes a tomar el hábito de limpiar los dientes de sus perros desde que son cachorros. Esto responde a nuestro compromiso con la prevención de enfermedades caninas.

Hoy en día tenemos muchos clientes que limpian los dientes todos los días a su mascota, y como resultado, se ahorran el dinero de hacer limpiezas dentales profesionales y consiguen una mejor salud de su perro.

Limpiezas dentales profesionales de perros y gatos

Recomendamos hacer una limpieza dental especializada anualmente. La realizamos con un aparato de ultrasonidos que utiliza agua para quitar el sarro. Después, procedemos a pulir los dientes con un cepillo de alta velocidad y una pasta especial. Hacemos esto para proteger el esmalte.

La frecuencia de limpiezas dentales necesaria varía mucho entre razas. En general, las razas grandes tienen buena calidad de esmalte, por lo que no necesitan hacerlo tan a menudo e incluso pueden pasarse la vida sin requerir una limpieza. Sin embargo, razas pequeñas como el Yorkshire o el Maltés, deben hacérselas todos los años desde cachorros si se quiere conservar sus piezas dentales.

Otro factor fundamental es la calidad del pienso. Algunas marcas han diseñado croquetas que limpian la superficie del diente y de la muela al masticarse.

Ultrasonido para perros

¿Se necesita anestesia para las limpiezas dentales de perros y gatos?

La limpieza dental en perros no es una técnica que pueda practicarse sin anestesia general , aunque hay veces que los propietarios no quieren anestesiar y si tiene poco sarro y el perro es muy bueno se puede intentar…… , pero no se va a poder pulir ni acceder a todas la zona de la boca …. Además los limpiadores dentales van a irrigar agua y hay riesgo de aspiración a vías respiratorias si no se realiza una anestesia correcta con intubación traqueal . En resumen , sin anestesia no se va hacer una correcta limpieza dental.

Tampoco sirve la sedación ya que necesitamos que el animal esté totalmente quieto, y el veterinario tenga un acceso completo a todas sus piezas dentales y encías.

Alimentos para la limpieza dental

Hay que tener cierto cuidado a la hora de comprar determinados alimentos porque no todos son saludables. Algunos tienen demasiado contenido graso, que en exceso puede causar problemas cardiovasculares y obesidad.

Los mejores alimentos para los dientes son aquellos que están elaborados por empresas farmacéuticas y llevan componentes químicos con tratamientos específicos para el diente del perro. Esto implica no solo limpieza a través de la acción mecánica de morder sino también un tratamiento antibacteriano para prevenir el sarro.

Conclusión

Si eres como la mayoría de dueños, por falta de tiempo , es probable que no estés prestando la suficiente atención a la limpieza dental de tu perro. Por eso te animamos a que comiences a limpiar los dientes de tu perro y consideres atender a su higiene bucal con frecuencia.

Estas simples medidas pueden conllevar a que tu perro tenga una vida más larga y mucho más saludable.

Si te resulta imposible introducir un cepillo de dientes a tu perro en la boca, pásate con él por clínica Tus Veterinarios y te explicamos cómo hacerlo.

Necesitas hacer una limpieza dental profesional a tu mascota?
Llámanos al 622575274 o contacta con nosotros

¿Cada cuánto tiempo tengo que hacerle una limpieza dental a mi perro?

Riesgos de una mala higiene

¿Cómo se forma el sarro?

Limpiezas dentales profesionales de perros y gatos

Ultrasonido para perros

Alimentos para la limpieza dental

Conclusión

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