PNG  IHDR;IDATxܻn0K )(pA 7LeG{ §㻢|ذaÆ 6lذaÆ 6lذaÆ 6lom$^yذag5bÆ 6lذaÆ 6lذa{ 6lذaÆ `}HFkm,mӪôô! x|'ܢ˟;E:9&ᶒ}{v]n&6 h_tڠ͵-ҫZ;Z$.Pkž)!o>}leQfJTu іچ\X=8Rن4`Vwl>nG^is"ms$ui?wbs[m6K4O.4%/bC%t Mז -lG6mrz2s%9s@-k9=)kB5\+͂Zsٲ Rn~GRC wIcIn7jJhۛNCS|j08yiHKֶۛkɈ+;SzL/F*\Ԕ#"5m2[S=gnaPeғL lذaÆ 6l^ḵaÆ 6lذaÆ 6lذa; _ذaÆ 6lذaÆ 6lذaÆ RIENDB` package IO::Compress::Adapter::Bzip2 ; use strict; use warnings; use bytes; use IO::Compress::Base::Common 2.061 qw(:Status); use Compress::Raw::Bzip2 2.061 ; our ($VERSION); $VERSION = '2.061'; sub mkCompObject { my $BlockSize100K = shift ; my $WorkFactor = shift ; my $Verbosity = shift ; $BlockSize100K = 1 if ! defined $BlockSize100K ; $WorkFactor = 0 if ! defined $WorkFactor ; $Verbosity = 0 if ! defined $Verbosity ; my ($def, $status) = new Compress::Raw::Bzip2(1, $BlockSize100K, $WorkFactor, $Verbosity); return (undef, "Could not create Deflate object: $status", $status) if $status != BZ_OK ; return bless {'Def' => $def, 'Error' => '', 'ErrorNo' => 0, } ; } sub compr { my $self = shift ; my $def = $self->{Def}; my $status = $def->bzdeflate($_[0], $_[1]) ; $self->{ErrorNo} = $status; if ($status != BZ_RUN_OK) { $self->{Error} = "Deflate Error: $status"; return STATUS_ERROR; } return STATUS_OK; } sub flush { my $self = shift ; my $def = $self->{Def}; my $status = $def->bzflush($_[0]); $self->{ErrorNo} = $status; if ($status != BZ_RUN_OK) { $self->{Error} = "Deflate Error: $status"; return STATUS_ERROR; } return STATUS_OK; } sub close { my $self = shift ; my $def = $self->{Def}; my $status = $def->bzclose($_[0]); $self->{ErrorNo} = $status; if ($status != BZ_STREAM_END) { $self->{Error} = "Deflate Error: $status"; return STATUS_ERROR; } return STATUS_OK; } sub reset { my $self = shift ; my $outer = $self->{Outer}; my ($def, $status) = new Compress::Raw::Bzip2(); $self->{ErrorNo} = ($status == BZ_OK) ? 0 : $status ; if ($status != BZ_OK) { $self->{Error} = "Cannot create Deflate object: $status"; return STATUS_ERROR; } $self->{Def} = $def; return STATUS_OK; } sub compressedBytes { my $self = shift ; $self->{Def}->compressedBytes(); } sub uncompressedBytes { my $self = shift ; $self->{Def}->uncompressedBytes(); } #sub total_out #{ # my $self = shift ; # 0; #} # #sub total_in #{ # my $self = shift ; # $self->{Def}->total_in(); #} # #sub crc32 #{ # my $self = shift ; # $self->{Def}->crc32(); #} # #sub adler32 #{ # my $self = shift ; # $self->{Def}->adler32(); #} 1; __END__