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|
#!/usr/bin/env perl
# This chunk of stuff was generated by App::FatPacker. To find the original
# file's code, look for the end of this BEGIN block or the string 'FATPACK'
BEGIN {
my %fatpacked;
$fatpacked{"Algorithm/Diff.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ALGORITHM_DIFF';
package Algorithm::Diff;use strict;use integer;use vars qw($VERSION @EXPORT_OK);$VERSION=1.19_03;require Exporter;*import=\&Exporter::import;@EXPORT_OK=qw(prepare LCS LCSidx LCS_length diff sdiff compact_diff traverse_sequences traverse_balanced);sub _withPositionsOfInInterval {my$aCollection=shift;my$start=shift;my$end=shift;my$keyGen=shift;my%d;my$index;for ($index=$start ;$index <= $end ;$index++ ){my$element=$aCollection->[$index];my$key=&$keyGen($element,@_);if (exists($d{$key})){unshift (@{$d{$key}},$index)}else {$d{$key}=[$index]}}return wantarray ? %d : \%d}sub _replaceNextLargerWith {my ($array,$aValue,$high)=@_;$high ||= $#$array;if ($high==-1 || $aValue > $array->[-1]){push (@$array,$aValue);return$high + 1}my$low=0;my$index;my$found;while ($low <= $high){$index=($high + $low)/ 2;$found=$array->[$index];if ($aValue==$found){return undef}elsif ($aValue > $found){$low=$index + 1}else {$high=$index - 1}}$array->[$low]=$aValue;return$low}sub _longestCommonSubsequence {my$a=shift;my$b=shift;my$counting=shift;my$keyGen=shift;my$compare;if (ref($a)eq 'HASH'){my$tmp=$b;$b=$a;$a=$tmp}if (!ref($a)||!ref($b)){my@callerInfo=caller(1);die 'error: must pass array or hash references to ' .$callerInfo[3]}if (!defined($keyGen)){$keyGen=sub {$_[0]};$compare=sub {my ($a,$b)=@_;$a eq $b}}else {$compare=sub {my$a=shift;my$b=shift;&$keyGen($a,@_)eq &$keyGen($b,@_)}}my ($aStart,$aFinish,$matchVector)=(0,$#$a,[]);my ($prunedCount,$bMatches)=(0,{});if (ref($b)eq 'HASH'){$bMatches=$b}else {my ($bStart,$bFinish)=(0,$#$b);while ($aStart <= $aFinish and $bStart <= $bFinish and &$compare($a->[$aStart],$b->[$bStart],@_)){$matchVector->[$aStart++ ]=$bStart++;$prunedCount++}while ($aStart <= $aFinish and $bStart <= $bFinish and &$compare($a->[$aFinish],$b->[$bFinish],@_)){$matchVector->[$aFinish-- ]=$bFinish--;$prunedCount++}$bMatches=_withPositionsOfInInterval($b,$bStart,$bFinish,$keyGen,@_)}my$thresh=[];my$links=[];my ($i,$ai,$j,$k);for ($i=$aStart ;$i <= $aFinish ;$i++ ){$ai=&$keyGen($a->[$i],@_);if (exists($bMatches->{$ai})){$k=0;for$j (@{$bMatches->{$ai}}){if ($k and $thresh->[$k]> $j and $thresh->[$k - 1 ]< $j){$thresh->[$k]=$j}else {$k=_replaceNextLargerWith($thresh,$j,$k)}if (defined($k)){$links->[$k]=[($k ? $links->[$k - 1 ]: undef),$i,$j ]}}}}if (@$thresh){return$prunedCount + @$thresh if$counting;for (my$link=$links->[$#$thresh];$link ;$link=$link->[0]){$matchVector->[$link->[1]]=$link->[2]}}elsif ($counting){return$prunedCount}return wantarray ? @$matchVector : $matchVector}sub traverse_sequences {my$a=shift;my$b=shift;my$callbacks=shift || {};my$keyGen=shift;my$matchCallback=$callbacks->{'MATCH'}|| sub {};my$discardACallback=$callbacks->{'DISCARD_A'}|| sub {};my$finishedACallback=$callbacks->{'A_FINISHED'};my$discardBCallback=$callbacks->{'DISCARD_B'}|| sub {};my$finishedBCallback=$callbacks->{'B_FINISHED'};my$matchVector=_longestCommonSubsequence($a,$b,0,$keyGen,@_);my$lastA=$#$a;my$lastB=$#$b;my$bi=0;my$ai;for ($ai=0 ;$ai <= $#$matchVector ;$ai++ ){my$bLine=$matchVector->[$ai];if (defined($bLine)){&$discardBCallback($ai,$bi++,@_)while$bi < $bLine;&$matchCallback($ai,$bi++,@_)}else {&$discardACallback($ai,$bi,@_)}}while ($ai <= $lastA or $bi <= $lastB){if ($ai==$lastA + 1 and $bi <= $lastB){if (defined($finishedACallback)){&$finishedACallback($lastA,@_);$finishedACallback=undef}else {&$discardBCallback($ai,$bi++,@_)while$bi <= $lastB}}if ($bi==$lastB + 1 and $ai <= $lastA){if (defined($finishedBCallback)){&$finishedBCallback($lastB,@_);$finishedBCallback=undef}else {&$discardACallback($ai++,$bi,@_)while$ai <= $lastA}}&$discardACallback($ai++,$bi,@_)if$ai <= $lastA;&$discardBCallback($ai,$bi++,@_)if$bi <= $lastB}return 1}sub traverse_balanced {my$a=shift;my$b=shift;my$callbacks=shift || {};my$keyGen=shift;my$matchCallback=$callbacks->{'MATCH'}|| sub {};my$discardACallback=$callbacks->{'DISCARD_A'}|| sub {};my$discardBCallback=$callbacks->{'DISCARD_B'}|| sub {};my$changeCallback=$callbacks->{'CHANGE'};my$matchVector=_longestCommonSubsequence($a,$b,0,$keyGen,@_);my$lastA=$#$a;my$lastB=$#$b;my$bi=0;my$ai=0;my$ma=-1;my$mb;while (1){do {$ma++}while($ma <= $#$matchVector &&!defined$matchVector->[$ma]);last if$ma > $#$matchVector;$mb=$matchVector->[$ma];while ($ai < $ma || $bi < $mb){if ($ai < $ma && $bi < $mb){if (defined$changeCallback){&$changeCallback($ai++,$bi++,@_)}else {&$discardACallback($ai++,$bi,@_);&$discardBCallback($ai,$bi++,@_)}}elsif ($ai < $ma){&$discardACallback($ai++,$bi,@_)}else {&$discardBCallback($ai,$bi++,@_)}}&$matchCallback($ai++,$bi++,@_)}while ($ai <= $lastA || $bi <= $lastB){if ($ai <= $lastA && $bi <= $lastB){if (defined$changeCallback){&$changeCallback($ai++,$bi++,@_)}else {&$discardACallback($ai++,$bi,@_);&$discardBCallback($ai,$bi++,@_)}}elsif ($ai <= $lastA){&$discardACallback($ai++,$bi,@_)}else {&$discardBCallback($ai,$bi++,@_)}}return 1}sub prepare {my$a=shift;my$keyGen=shift;$keyGen=sub {$_[0]}unless defined($keyGen);return scalar _withPositionsOfInInterval($a,0,$#$a,$keyGen,@_)}sub LCS {my$a=shift;my$b=shift;my$matchVector=_longestCommonSubsequence($a,$b,0,@_);my@retval;my$i;for ($i=0 ;$i <= $#$matchVector ;$i++ ){if (defined($matchVector->[$i])){push (@retval,$a->[$i])}}return wantarray ? @retval : \@retval}sub LCS_length {my$a=shift;my$b=shift;return _longestCommonSubsequence($a,$b,1,@_)}sub LCSidx {my$a=shift @_;my$b=shift @_;my$match=_longestCommonSubsequence($a,$b,0,@_);my@am=grep defined$match->[$_],0..$#$match;my@bm=@{$match}[@am];return \@am,\@bm}sub compact_diff {my$a=shift @_;my$b=shift @_;my($am,$bm)=LCSidx($a,$b,@_);my@cdiff;my($ai,$bi)=(0,0);push@cdiff,$ai,$bi;while(1){while(@$am && $ai==$am->[0]&& $bi==$bm->[0]){shift @$am;shift @$bm;++$ai,++$bi}push@cdiff,$ai,$bi;last if!@$am;$ai=$am->[0];$bi=$bm->[0];push@cdiff,$ai,$bi}push@cdiff,0+@$a,0+@$b if$ai < @$a || $bi < @$b;return wantarray ? @cdiff : \@cdiff}sub diff {my$a=shift;my$b=shift;my$retval=[];my$hunk=[];my$discard=sub {push @$hunk,['-',$_[0],$a->[$_[0]]]};my$add=sub {push @$hunk,['+',$_[1],$b->[$_[1]]]};my$match=sub {push @$retval,$hunk if 0 < @$hunk;$hunk=[]};traverse_sequences($a,$b,{MATCH=>$match,DISCARD_A=>$discard,DISCARD_B=>$add },@_);&$match();return wantarray ? @$retval : $retval}sub sdiff {my$a=shift;my$b=shift;my$retval=[];my$discard=sub {push (@$retval,['-',$a->[$_[0]],"" ])};my$add=sub {push (@$retval,['+',"",$b->[$_[1]]])};my$change=sub {push (@$retval,['c',$a->[$_[0]],$b->[$_[1]]])};my$match=sub {push (@$retval,['u',$a->[$_[0]],$b->[$_[1]]])};traverse_balanced($a,$b,{MATCH=>$match,DISCARD_A=>$discard,DISCARD_B=>$add,CHANGE=>$change,},@_);return wantarray ? @$retval : $retval}my$Root=__PACKAGE__;package Algorithm::Diff::_impl;use strict;sub _Idx() {0}sub _End() {3}sub _Same() {4}sub _Base() {5}sub _Pos() {6}sub _Off() {7}sub _Min() {-2}sub Die {require Carp;Carp::confess(@_)}sub _ChkPos {my($me)=@_;return if$me->[_Pos];my$meth=(caller(1))[3];Die("Called $meth on 'reset' object")}sub _ChkSeq {my($me,$seq)=@_;return$seq + $me->[_Off]if 1==$seq || 2==$seq;my$meth=(caller(1))[3];Die("$meth: Invalid sequence number ($seq); must be 1 or 2")}sub getObjPkg {my($us)=@_;return ref$us if ref$us;return$us ."::_obj"}sub new {my($us,$seq1,$seq2,$opts)=@_;my@args;for($opts->{keyGen}){push@args,$_ if $_}for($opts->{keyGenArgs}){push@args,@$_ if $_}my$cdif=Algorithm::Diff::compact_diff($seq1,$seq2,@args);my$same=1;if(0==$cdif->[2]&& 0==$cdif->[3]){$same=0;splice @$cdif,0,2}my@obj=($cdif,$seq1,$seq2);$obj[_End]=(1+@$cdif)/2;$obj[_Same]=$same;$obj[_Base]=0;my$me=bless \@obj,$us->getObjPkg();$me->Reset(0);return$me}sub Reset {my($me,$pos)=@_;$pos=int($pos || 0);$pos += $me->[_End]if$pos < 0;$pos=0 if$pos < 0 || $me->[_End]<= $pos;$me->[_Pos]=$pos ||!1;$me->[_Off]=2*$pos - 1;return$me}sub Base {my($me,$base)=@_;my$oldBase=$me->[_Base];$me->[_Base]=0+$base if defined$base;return$oldBase}sub Copy {my($me,$pos,$base)=@_;my@obj=@$me;my$you=bless \@obj,ref($me);$you->Reset($pos)if defined$pos;$you->Base($base);return$you}sub Next {my($me,$steps)=@_;$steps=1 if!defined$steps;if($steps){my$pos=$me->[_Pos];my$new=$pos + $steps;$new=0 if$pos && $new < 0;$me->Reset($new)}return$me->[_Pos]}sub Prev {my($me,$steps)=@_;$steps=1 if!defined$steps;my$pos=$me->Next(-$steps);$pos -= $me->[_End]if$pos;return$pos}sub Diff {my($me)=@_;$me->_ChkPos();return 0 if$me->[_Same]==(1 & $me->[_Pos]);my$ret=0;my$off=$me->[_Off];for my$seq (1,2){$ret |= $seq if$me->[_Idx][$off + $seq + _Min ]< $me->[_Idx][$off + $seq ]}return$ret}sub Min {my($me,$seq,$base)=@_;$me->_ChkPos();my$off=$me->_ChkSeq($seq);$base=$me->[_Base]if!defined$base;return$base + $me->[_Idx][$off + _Min ]}sub Max {my($me,$seq,$base)=@_;$me->_ChkPos();my$off=$me->_ChkSeq($seq);$base=$me->[_Base]if!defined$base;return$base + $me->[_Idx][$off ]-1}sub Range {my($me,$seq,$base)=@_;$me->_ChkPos();my$off=$me->_ChkSeq($seq);if(!wantarray){return$me->[_Idx][$off ]- $me->[_Idx][$off + _Min ]}$base=$me->[_Base]if!defined$base;return ($base + $me->[_Idx][$off + _Min ]).. ($base + $me->[_Idx][$off ]- 1)}sub Items {my($me,$seq)=@_;$me->_ChkPos();my$off=$me->_ChkSeq($seq);if(!wantarray){return$me->[_Idx][$off ]- $me->[_Idx][$off + _Min ]}return @{$me->[$seq]}[$me->[_Idx][$off + _Min ].. ($me->[_Idx][$off ]- 1)]}sub Same {my($me)=@_;$me->_ChkPos();return wantarray ? (): 0 if$me->[_Same]!=(1 & $me->[_Pos]);return$me->Items(1)}my%getName;BEGIN {%getName=(same=>\&Same,diff=>\&Diff,base=>\&Base,min=>\&Min,max=>\&Max,range=>\&Range,items=>\&Items,)}sub Get {my$me=shift @_;$me->_ChkPos();my@value;for my$arg (@_){for my$word (split ' ',$arg){my$meth;if($word !~ /^(-?\d+)?([a-zA-Z]+)([12])?$/ || not $meth=$getName{lc $2 }){Die($Root,", Get: Invalid request ($word)")}my($base,$name,$seq)=($1,$2,$3);push@value,scalar(4==length($name)? $meth->($me): $meth->($me,$seq,$base))}}if(wantarray){return@value}elsif(1==@value){return$value[0]}Die(0+@value," values requested from ",$Root,"'s Get in scalar context")}my$Obj=getObjPkg($Root);no strict 'refs';for my$meth (qw(new getObjPkg)){*{$Root."::".$meth}=\&{$meth};*{$Obj ."::".$meth}=\&{$meth}}for my$meth (qw(Next Prev Reset Copy Base Diff Same Items Range Min Max Get _ChkPos _ChkSeq)){*{$Obj."::".$meth}=\&{$meth}}1;
ALGORITHM_DIFF
$fatpacked{"Algorithm/DiffOld.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ALGORITHM_DIFFOLD';
package Algorithm::DiffOld;use strict;use vars qw($VERSION @EXPORT_OK @ISA @EXPORT);use integer;require Exporter;@ISA=qw(Exporter);@EXPORT=qw();@EXPORT_OK=qw(LCS diff traverse_sequences);$VERSION=1.10;sub _replaceNextLargerWith {my ($array,$aValue,$high)=@_;$high ||= $#$array;if ($high==-1 || $aValue > $array->[-1 ]){push(@$array,$aValue);return$high + 1}my$low=0;my$index;my$found;while ($low <= $high){$index=($high + $low)/ 2;$found=$array->[$index ];if ($aValue==$found){return undef}elsif ($aValue > $found){$low=$index + 1}else {$high=$index - 1}}$array->[$low ]=$aValue;return$low}sub _longestCommonSubsequence {my$a=shift;my$b=shift;my$compare=shift || sub {my$a=shift;my$b=shift;$a eq $b};my$aStart=0;my$aFinish=$#$a;my$bStart=0;my$bFinish=$#$b;my$matchVector=[];while ($aStart <= $aFinish and $bStart <= $bFinish and &$compare($a->[$aStart ],$b->[$bStart ],@_)){$matchVector->[$aStart++ ]=$bStart++}while ($aStart <= $aFinish and $bStart <= $bFinish and &$compare($a->[$aFinish ],$b->[$bFinish ],@_)){$matchVector->[$aFinish-- ]=$bFinish--}my$thresh=[];my$links=[];my ($i,$ai,$j,$k);for ($i=$aStart;$i <= $aFinish;$i++ ){$k=0;for ($j=$bFinish;$j >= $bStart;$j--){next if!&$compare($a->[$i],$b->[$j],@_);if ($k and $thresh->[$k ]> $j and $thresh->[$k - 1 ]< $j){$thresh->[$k ]=$j}else {$k=_replaceNextLargerWith($thresh,$j,$k)}if (defined($k)){$links->[$k ]=[($k ? $links->[$k - 1 ]: undef),$i,$j ]}}}if (@$thresh){for (my$link=$links->[$#$thresh ];$link;$link=$link->[0 ]){$matchVector->[$link->[1 ]]=$link->[2 ]}}return wantarray ? @$matchVector : $matchVector}sub traverse_sequences {my$a=shift;my$b=shift;my$callbacks=shift || {};my$compare=shift;my$matchCallback=$callbacks->{'MATCH'}|| sub {};my$discardACallback=$callbacks->{'DISCARD_A'}|| sub {};my$finishedACallback=$callbacks->{'A_FINISHED'};my$discardBCallback=$callbacks->{'DISCARD_B'}|| sub {};my$finishedBCallback=$callbacks->{'B_FINISHED'};my$matchVector=_longestCommonSubsequence($a,$b,$compare,@_);my$lastA=$#$a;my$lastB=$#$b;my$bi=0;my$ai;for ($ai=0;$ai <= $#$matchVector;$ai++ ){my$bLine=$matchVector->[$ai ];if (defined($bLine)){&$discardBCallback($ai,$bi++,@_)while$bi < $bLine;&$matchCallback($ai,$bi++,@_)}else {&$discardACallback($ai,$bi,@_)}}if (defined($finishedBCallback)&& $ai <= $lastA){&$finishedBCallback($bi,@_)}else {&$discardACallback($ai++,$bi,@_)while ($ai <= $lastA)}if (defined($finishedACallback)&& $bi <= $lastB){&$finishedACallback($ai,@_)}else {&$discardBCallback($ai,$bi++,@_)while ($bi <= $lastB)}return 1}sub LCS {my$a=shift;my$matchVector=_longestCommonSubsequence($a,@_);my@retval;my$i;for ($i=0;$i <= $#$matchVector;$i++ ){if (defined($matchVector->[$i ])){push(@retval,$a->[$i ])}}return wantarray ? @retval : \@retval}sub diff {my$a=shift;my$b=shift;my$retval=[];my$hunk=[];my$discard=sub {push(@$hunk,['-',$_[0 ],$a->[$_[0 ]]])};my$add=sub {push(@$hunk,['+',$_[1 ],$b->[$_[1 ]]])};my$match=sub {push(@$retval,$hunk)if scalar(@$hunk);$hunk=[]};traverse_sequences($a,$b,{MATCH=>$match,DISCARD_A=>$discard,DISCARD_B=>$add },@_);&$match();return wantarray ? @$retval : $retval}1;
ALGORITHM_DIFFOLD
$fatpacked{"App/Igor/CLI.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_CLI';
package App::Igor::CLI;
use warnings;
use strict;
use Const::Fast;
use Data::Dumper;
use Getopt::Long::Subcommand;
use App::Igor::Config;
use App::Igor::Repository;
use App::Igor::Package;
use App::Igor::Util qw(colored);
use Try::Tiny;
use Pod::Usage;
use sort 'stable';
# Configure Logging
use Log::ger::Output Composite => (
outputs => {
Screen => [
{
level => ['trace', 'info'],
conf => { stderr => 0
, use_color => 0},
},
{
level => 'warn',
conf => { stderr => 1
, use_color => -t STDERR},
},
],
}
);
use Log::ger;
use Log::ger::Util;
# Emit usage
sub usage {
# -verbosity == 99: Only print sections in -section
pod2usage( -verbose => 99
, -exitval => 'NOEXIT'
, -sections => 'SYNOPSIS'
);
}
sub usage_full {
# -verbose > 2: Print all sections
pod2usage( -verbose => 42
, -exitval => 'NOEXIT'
);
}
# Find out which task to run based on the --task variable or the system hostname
sub find_task {
my ($opts, $cfgs) = @_;
my $task = $opts->{task};
return $task if defined $task;
my $identifier = App::Igor::Util::guess_identifier;
my @tasks = grep {
my $re = $cfgs->{$_}->{pattern} // $_;
$identifier =~ /$re/
} sort keys %$cfgs;
die "Automatic task selection using identifier '$identifier' not unique: " . @tasks if @tasks > 1;
die "Task selection using identifier '$identifier' matched no configurations" unless @tasks;
return $tasks[0];
}
sub parse_commandline {
local @ARGV = @_;
# Setup the defaults
my %opts = (
configfile => './config.toml',
verbositylevel => 0,
help => 0,
);
my $res = GetOptions(
summary => 'Frankensteins configuration management',
# common options recognized by all subcommands
options => {
'help|h|?+' => {
summary => 'Display help message',
handler => \$opts{help}
},
'config|c=s' => {
summary => 'Specified config',
handler => \$opts{configfile}
},
'verbose|v+' => {
summary => 'Verbosity level',
handler => \$opts{verbositylevel}
},
'task=s' => {
summary => 'Task to execute',
handler => \$opts{task}
},
},
subcommands => {
apply => {
summary => 'Apply a given configuration',
options => {
'dry-run' => {
summary => 'Only simulate the operations',
handler => \$opts{dryrun}
},
}
},
gc => {
summary => 'List obsolete files'
},
diff => {
summary => 'Show the difference between applied and configured states'
},
},
);
# Display help on illegal input
unless ($res->{success} && ($opts{help} || @{$res->{subcommand}})) {
print STDERR "Parsing of commandline options failed.\n";
usage();
exit(-1);
}
# Emit a help message
if ($opts{help}) {
# For a specific subcommand
if (@{$res->{subcommand}}) {
pod2usage( -verbose => 99
, -sections => "SUBCOMMANDS/@{$res->{subcommand}}"
, -exitval => 0
);
} else {
# General help
if ($opts{help} >= 2) {
usage_full();
} else {
usage();
}
exit(0);
}
}
# Assert: only one subcommand given
if (@{$res->{subcommand}} != 1) {
die "Igor expectes just one subcommand, but received @{[scalar(@{$res->{subcommand}})]}:"
. " @{$res->{subcommand}}";
}
$opts{subcommand} = $res->{subcommand};
return \%opts;
}
# Parse and dispatch the commands
sub main {
my $opts = parse_commandline(@_);
# Set log level based on verbosity
# 4 = loglevel "info"
my $loglevel = 4 + $opts->{verbositylevel};
# Log::ger is a bit weird, I found no documentation on it, but numeric
# levels seem to need a scaling factor of 10
Log::ger::Util::set_level($loglevel * 10);
# I want log_warn to be red (also undocumented behaviour)
$Log::ger::Output::Screen::colors{20} = "\e[0;31m";
# Parse the configfile
my $config = App::Igor::Config::from_file($opts->{configfile});
# Determine the task to run
my $task = find_task($opts, $config->configurations);
log_info colored(['bold'], "Running task @{[colored(['bold blue'], $task)]}");
# Layer the dependencies of the task and merge their configurations
my $effective_configuration = $config->determine_effective_configuration($task);
log_trace "Effective configuration:\n" . Dumper($effective_configuration);
# Determine which packages need to be installed
# FIXME: Run factors before expanding perl-based packages.
my @packages = $config->expand_packages( $effective_configuration->{repositories}
, $effective_configuration->{packages}
, $effective_configuration
);
log_debug "Packages to be installed: @{[map {$_->qname} @packages]}";
log_trace "Packages to be installed:\n" . Dumper(\@packages);
# Now dispatch the subcommands
my ($subcommand) = @{$opts->{subcommand}};
log_info colored(['bold'], "Running subcommand @{[colored(['bold blue'], $subcommand)]}");
# Get the transactions required for our packages
my @transactions = map { $_->to_transactions } @packages;
if (("apply" eq $subcommand) || ("diff" eq $subcommand)) {
# We now make three passes through the transactions:
# prepare (this will run sideeffect preparations like expanding templates, etc.)
# check (this checks for file-conflicts etc as far as possible)
# And depending on dry-run mode:
# apply (acutally perform the operations)
# or
# log (only print what would be done)
# or
# diff (show differences between repository- and filesystem-state
# Build the context and create the "EmitCollection" transactions for the collections
my ($ctx, $colltrans) = $config->build_collection_context($effective_configuration);
push @transactions, @$colltrans;
$ctx->{$_} = $effective_configuration->{$_} for qw(facts packages);
my @files = map {
$_->get_files()
} @packages;
my %uniq;
for my $f (@files) {
if ($uniq{$f}++) {
die "Multiple packages produce file '$f' which is not an collection";
}
}
# Run the factors defined in the configuration
push @transactions, @{$config->build_factor_transactions($effective_configuration->{factors})};
push @transactions, @{$config->build_vault_transactions($effective_configuration->{vaults}, $effective_configuration->{merger}, $effective_configuration->{cachedirectory})};
# Make sure they are ordered correctly:
@transactions = sort {$a->order cmp $b->order} @transactions;
# Wrapper for safely executing actions
my $run = sub {
my ($code, $transactions) = @_;
for my $trans (@$transactions) {
try {
$code->($trans);
} catch {
my $id;
if (defined($trans->package)) {
$id = "package @{[$trans->package->qname]}";
} else {
$id = "toplevel or automatic transaction";
}
log_error("Error occured when processing $id:");
log_error($_);
die "Got a terminal failure for $id";
}
}
};
log_info colored(['bold'], "Running stage \"prepare\":");
$run->(sub { $_[0]->prepare($ctx) }, \@transactions);
log_info colored(['bold'], "Running stage \"check\":");
$run->(sub { $_[0]->check($ctx) }, \@transactions);
if ("apply" eq $subcommand) {
if ($opts->{dryrun}) {
log_info colored(['bold'], "Running stage \"log\":");
$run->(sub { $_[0]->log($ctx) }, \@transactions);
} else {
log_info colored(['bold'], "Running stage \"apply\":");
$run->(sub { $_[0]->apply($ctx) }, \@transactions);
}
} elsif ("diff" eq $subcommand) {
log_info colored(['bold'], "Running stage \"diff\":");
$run->(sub { print $_[0]->diff($ctx) }, \@transactions);
} else {
die "Internal: wrong subcommand $subcommand";
}
} elsif ("gc" eq $subcommand) {
# Show artifacts that exist in the filesystem which stem from
# absent packages
my @blacklist = map {
$_->gc()
} $config->complement_packages(\@packages);
# Remove duplicates
my %uniq;
$uniq{$_} = 1 for @blacklist;
# Remove files created by installed packages
# (e.g.: two packages provide ~/config/tmux.conf, one of which is installed)
my @whitelist = map {
$_->get_files()
} @packages;
delete $uniq{$_} for @whitelist;
# Rewrite urls to use ~ for $HOME if possible
if (defined($ENV{HOME})) {
@blacklist = map { $_ =~ s/^\Q$ENV{HOME}\E/~/; $_ } keys %uniq;
} else {
@blacklist = keys %uniq;
}
print $_ . "\n" for sort @blacklist;
} else {
die "Internal: Unknown subcommand $subcommand";
}
}
1;
APP_IGOR_CLI
$fatpacked{"App/Igor/Config.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_CONFIG';
package App::Igor::Config;
use strict;
use warnings;
use Class::Tiny qw(file configurations), {
defaults => {},
repositories => {},
packagedb => undef,
};
use Data::Dumper;
use Data::Diver;
use Graph;
use App::Igor::Merge;
use App::Igor::Repository;
use App::Igor::Util;
use List::Util qw(reduce);
use Log::ger;
use Path::Tiny;
use Try::Tiny;
use Types::Standard qw(Any ArrayRef Bool Dict HashRef Map Optional Str);
use Storable qw(dclone);
# Config file Schemata for TOML validation
my $packageschema = Str;
my $collectionschema = Dict[
destination => Str,
merger => Optional[Str],
perm => Optional[Str],
];
my $repositoryschema = Dict[
path => Str,
];
my $factorschema = Dict [
path => Str,
type => Optional[Str],
];
my $vaultschema = Dict [
path => Str,
command => Str,
cacheable => Optional[Bool],
type => Optional[Str],
];
my $mergers = Map[Str, Str];
my $configurationschema = Dict[
mergers => Optional[$mergers],
mergeconfig => Optional[HashRef],
dependencies => Optional[ArrayRef[Str]],
packages => Optional[ArrayRef[$packageschema]],
repositories => Optional[HashRef[$repositoryschema]],
facts => Optional[Any],
factors => Optional[ArrayRef[$factorschema]],
vaults => Optional[ArrayRef[$vaultschema]],
collections => Optional[HashRef[$collectionschema]],
pattern => Optional[Str],
cachedirectory => Optional[Str],
];
my $configschema = Dict[
defaults => Optional[$configurationschema],
configurations => HashRef[$configurationschema],
];
sub BUILD {
my ($self, $args) = @_;
# Merge configurations can only be applied configured in the defaults configuration
for my $key (keys %{$args->{configurations}}) {
if (exists($args->{configurations}->{$key}->{mergeconfig})) {
die "Syntax error for configuration $key: mergeconfigs may only be applied in the defaults section";
}
}
$args->{defaults} //= {};
$args->{defaults}->{cachedirectory} //= "./.cache";
# Build Path::Tiny objects
for my $cfg (values %{$args->{configurations}}, $args->{defaults}) {
$cfg //= {};
$cfg->{repositories} //= {};
my $base = $args->{file}->parent;
my $make_abs = sub {
my $path = path($_[0]);
if ($path->is_relative) {
# Resolve relative paths in relation to the config file
$path = path("$base/$path");
}
$path
};
if (exists $cfg->{cachedirectory}) {
$cfg->{cachedirectory} = $make_abs->($cfg->{cachedirectory});
}
for my $factor (@{$cfg->{factors}}) {
if (exists $factor->{path}) {
$factor->{path} = $make_abs->($factor->{path});
}
}
for my $vault (@{$cfg->{vaults}}) {
if (exists $vault->{path}) {
$vault->{path} = $make_abs->($vault->{path});
}
}
for my $repokey (keys %{$cfg->{repositories}}) {
my $repo = $cfg->{repositories}->{$repokey};
if (exists $repo->{path}) {
$repo->{path} = $make_abs->($repo->{path});
}
}
$cfg->{collections} //= {};
for my $collkey (keys %{$cfg->{collections}}) {
my $coll = $cfg->{collections}->{$collkey};
$coll->{destination} = path($coll->{destination}) if exists $coll->{destination};
}
$cfg->{mergers} //= {};
for my $merger (keys %{$cfg->{mergers}}) {
$cfg->{mergers}->{$merger} = $make_abs->($cfg->{mergers}->{$merger});
}
}
}
sub from_file {
my ($filepath) = @_;
# Parse and read the config file
my $conf = App::Igor::Util::read_toml($filepath);
log_debug "Parsed configuration at '$filepath':\n" . Dumper($conf);
try {
# Validate the config
$configschema->($conf);
} catch {
die "Validating $filepath failed:\n$_";
};
return App::Igor::Config->new(file => path($filepath), %{$conf});
}
sub expand_dependencies {
my ($cfgs, $root) = @_;
# Expand the configuration dependencies by depth first search
return App::Igor::Util::toposort_dependencies($cfgs, $root, sub { $_[0]->{dependencies} });
}
sub determine_effective_configuration {
my ($self, $root) = @_;
die "No such configuration: $root" unless defined $self->configurations->{$root};
my @cfgnames = expand_dependencies($self->configurations, $root);
log_debug "Topological sort of dependencies: @cfgnames";
# Merge in reverse topological order
my @cfgs = map {
my $cfg = $self->configurations->{$_};
die "No such configuration: $_" unless defined ($cfg);
$cfg;
} reverse @cfgnames;
my $configmergers = {
factors => \&App::Igor::Merge::list_concat,
packages => \&App::Igor::Merge::uniq_list_merge,
dependencies => \&App::Igor::Merge::uniq_list_merge,
# repositories and collections use the default hash merger, same for facts
};
my $mergers = $self->defaults->{mergers} // {};
my $cm = App::Igor::Util::traverse_nested_hash($self->defaults->{mergeconfig} // {}, sub {
my ($name, $bc) = @_;
unless(exists $mergers->{$name}) {
die "Configured merger '$name' for path @{$bc} is not defined";
}
App::Igor::Util::file_to_coderef($mergers->{$name});
});
$configmergers->{$_} = $cm->{$_} for (keys %$cm);
my $merger = App::Igor::Merge->new(
mergers => $configmergers,
);
# Prepend the defaults to the cfg list
unshift @cfgs, $self->defaults;
# Now merge the configurations, with entries of the later ones overlaying old values
my $effective = reduce { $merger->merge($a, $b) } @cfgs;
log_trace "Merged configuration: " . Dumper($effective);
# Store the merger within the effective configuration for later use
$effective->{merger} = $merger;
return $effective;
}
sub resolve_package {
my ($packagename, $repositories, $packagedb) = @_;
# Packagenames can optionally be qualified "repo/packagename" or
# unqualified "packagename" Unqualified packagenames have to be unique
# among all repositories
# Step one: determine $repo and $pkgname
my ($reponame, $pkgname);
my @fragments = split /\//,$packagename,2;
if (@fragments == 2) {
# Qualified name, resolve repo -> package
my ($parent, $packagename) = @fragments;
$reponame = $parent;
$pkgname = $packagename;
} elsif (@fragments == 1) {
# Unqualified name: search packagedb
my $alternatives = $packagedb->{$packagename};
# Do we have at least one packages?
die "No repository provides a package '$packagename': "
. "Searched repositories: @{[sort keys %$repositories]}"
unless defined($alternatives) && (@$alternatives);
# Do we have more than one alternative -> Qualification needed
die "Ambiguous packagename '$packagename': Instances include @$alternatives"
unless (@$alternatives == 1);
# We have exactly one instance for the package
$reponame = $alternatives->[0];
$pkgname = $packagename;
} else {
# This should be unreachable
die "Internal: Invalid packagename $packagename\n";
}
# Actually lookup the package
my $repo = $repositories->{$reponame};
die "Unable to resolve qualified packagename '$packagename':"
. " No such repository: $reponame" unless defined $repo;
return $repo->resolve_package($pkgname);
}
# Given a list of packages and a list repositories, first resolve all
# packages in the given repositories and build the dependency-graph
#
# Returns all packages that need to be installed
sub expand_packages {
my ($self, $repositories, $packages, $config) = @_;
# This sets $self->repositories and $self->packagedb
$self->build_package_db($repositories, $config);
# Resolve all packages to qnames
my @resolved = map {
resolve_package( $_
, $self->repositories
, $self->packagedb)->qname
} @$packages;
# Now build the dependency graph
my $g = Graph::Directed->new;
for my $reponame (sort keys %{$self->repositories}) {
my $repo = $self->repositories->{$reponame};
# Subgraph for the repo
my $rg = $repo->dependency_graph;
# Merge it with the global graph, prefixing all vertexes
$g->add_vertex($_) for map { "$reponame/$_" } @{[$rg->vertices]};
for my $edge (@{[$rg->edges]}) {
my ($x,$y) = @{$edge};
$g->add_edge("$reponame/$x", "$reponame/$y");
}
}
# Now add a virtual 'start' and link it to all requested packages
$g->add_vertex("start");
for my $res (@resolved) {
$g->add_edge('start', $res);
}
my @packages = sort $g->all_reachable("start");
return map {
resolve_package( $_
, $self->repositories
, $self->packagedb)
} @packages;
}
# Given a list of packages (as App::Igor::Package) get all inactive packages
sub complement_packages {
my ($self, $packages) = @_;
my %blacklist;
$blacklist{$_->id} = 1 for (@$packages);
my @complement;
my $packagedb = $self->packagedb;
my $repos = $self->repositories;
for my $name (keys %$packagedb) {
next if $blacklist{$name};
for my $repo (@{$packagedb->{$name}}) {
$repo = $repos->{$repo};
push @complement, $repo->resolve_package($name);
}
}
return @complement;
}
sub build_package_db {
my ($self, $repositories, $config) = @_;
log_debug "Building packagedb";
my %repos = ();
my %packagedb = ();
for my $name (sort keys %$repositories) {
my $repo = App::Igor::Repository->new(id => $name, directory => $repositories->{$name}->{path}, config => $config);
$repos{$name} = $repo;
for my $pkg (keys %{$repo->packagedb}) {
push(@{$packagedb{$pkg}}, $name);
}
}
log_trace "Build packagedb:\n" . Dumper(\%packagedb);
$self->repositories(\%repos);
$self->packagedb(\%packagedb);
return \%packagedb;
}
sub build_collection_context {
my ($self, $configuration) = @_;
my $collections = $configuration->{collections};
my @transactions;
my $ctx = { collections => {} };
for my $coll (keys %$collections) {
$ctx->{collections}->{$coll} = {};
my $pkg = App::Igor::Package->new(basedir => $self->file, repository => undef, id => "collection_$coll");
my $merger;
if (defined $collections->{$coll}->{merger}) {
my $mergerid = $collections->{$coll}->{merger};
my $mergerfile = $configuration->{mergers}->{$mergerid};
die "No such merger defined: $mergerid" unless defined $mergerfile;
try {
$merger = App::Igor::Util::file_to_coderef($mergerfile);
} catch {
die "Error while processing collection '$coll': cannot create merger from $mergerfile: $_";
}
} else {
$merger = sub { my $hash = shift;
my @keys = sort { $a cmp $b } keys %$hash;
join('', map {$hash->{$_}} @keys)
};
}
push @transactions, App::Igor::Operation::EmitCollection->new(
collection => $coll,
merger => $merger,
sink => App::Igor::Sink::File->new( path => $collections->{$coll}->{destination}
, id => $pkg
, perm => $collections->{$coll}->{perm}
),
package => $pkg,
order => 50,
);
}
return ($ctx, \@transactions);
}
sub build_factor_transactions {
my ($self, $factors) = @_;
my @transactions;
for my $factor (@$factors) {
push @transactions, App::Igor::Operation::RunFactor->new(%$factor, order => 1);
}
return \@transactions;
}
sub build_vault_transactions {
my ($self, $vaults, $merger, $cachedirectory) = @_;
my @transactions;
for my $vault (@$vaults) {
push @transactions, App::Igor::Operation::UnlockVault->new(%$vault, order => 1, merger => $merger, cachedirectory => $cachedirectory);
}
return \@transactions;
}
1;
__END__
APP_IGOR_CONFIG
$fatpacked{"App/Igor/Diff.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_DIFF';
package App::Igor::Diff;
use Exporter 'import';
@EXPORT = qw(diff);
use warnings;
use strict;
{ package App::Igor::Colordiff;
use warnings;
use strict;
use App::Igor::Util qw(colored);
use Text::Diff;
our @ISA = qw(Text::Diff::Unified);
sub file_header {
my $self = shift;
colored(['bold bright_yellow'], $self->SUPER::file_header(@_));
}
sub hunk_header {
my $self = shift;
colored(['bold bright_magenta'], $self->SUPER::hunk_header(@_));
}
sub hunk {
my $self = shift;
my (undef, undef, $ops, undef) = @_;
my @lines = split /\n/, $self->SUPER::hunk(@_), -1;
my %ops2col = ( "+" => "bold bright_green"
, " " => ""
, "-" => "bold bright_red");
use Data::Dumper;
@lines = map {
my $color = $ops2col{$ops->[$_]->[2] // " "};
if ($color) {
colored([$color], $lines[$_]);
} else {
$lines[$_];
}
} 0 .. $#lines;
return join "\n", @lines;
}
}
sub diff {
my ($x, $y, $opts) = @_;
# Set style, allowing overrides
$opts->{STYLE} //= 'App::Igor::Colordiff';
return Text::Diff::diff($x, $y, $opts);
}
APP_IGOR_DIFF
$fatpacked{"App/Igor/Merge.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_MERGE';
package App::Igor::Merge;
use warnings;
use strict;
use Class::Tiny {
mergers => {},
clone => 1,
};
use Log::ger;
use Data::Diver qw(Dive);
use Storable qw(dclone);
sub select_merger {
my ($self) = @_;
my $merger = Dive($self->mergers, @{$self->{breadcrumb}});
return undef unless ref($merger) eq 'CODE';
return $merger;
}
# Implementation strongly influenced by Hash::Merge and Hash::Merge::Simple,
# which in turn borrowed from Catalyst::Utils... thanks!
sub _merge {
my ($self, $left, $right) = @_;
for my $key (keys %$right) {
my ($er, $el) = map { exists $_->{$key} } $right, $left;
# We only have to merge duplicate keys
if ($er and not $el) {
# copy keys that don't exist in $right to $left
$left->{$key} = $right->{$key};
next;
} elsif (not $er) {
# Key only in right
next;
}
push @{$self->{breadcrumb}}, $key;
my $merger = $self->select_merger;
if (defined $merger) {
log_trace "Running a custom merger on @{$self->{breadcrumb}}";
# A custom merger was defined for this value
$left->{$key} = $merger->($left->{$key}, $right->{$key}, $self->{breadcrumb});
} else {
my ($hr, $hl) = map { ref $_->{$key} eq 'HASH' } $right, $left;
if ($hr and $hl) {
log_trace "Running hash-merge on @{$self->{breadcrumb}}";
# Both are hashes: Recurse
$left->{$key} = $self->_merge($left->{$key}, $right->{$key});
} else {
log_trace "Copying $key at @{$self->{breadcrumb}}";
# Mixed types or non HASH types: Overlay wins
$left->{$key} = $right->{$key};
}
}
pop @{$self->{breadcrumb}};
}
return $left;
}
sub merge {
my ($self, $left, $right) = @_;
# optionally deeply duplicate the hashes before merging
if ($self->clone) {
$left = dclone($left);
$right = dclone($right);
}
return $self->_merge($left, $right);
}
sub list_concat {
my ($lista, $listb, $breadcrumbs) = @_;
log_trace "Running list_concat on @{$breadcrumbs}";
push @$lista, @$listb;
return $lista;
}
# Merges two lists, while eliminating duplicates in the latter list
sub uniq_list_merge {
my ($lista, $listb, $breadcrumbs) = @_;
log_trace "Running uniq_list_merge on @{$breadcrumbs}";
# We want to do the removal of duplicates in a stable fashion...
my @uniqs;
for my $i (@$listb) {
push @uniqs, $i unless grep /^$i$/, @$lista;
}
push @$lista, @uniqs;
return $lista;
}
sub BUILD {
my ($self, $args) = @_;
$self->{breadcrumb} //= [];
}
1;
APP_IGOR_MERGE
$fatpacked{"App/Igor/Operation.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_OPERATION';
package App::Igor::Operation;
use strict;
use warnings;
use Class::Tiny qw(package order);
use Data::Dumper;
use App::Igor::Sink;
sub prepare { die 'Not implemented'; }
sub check { die 'Not implemented'; }
sub apply { die 'Not implemented'; }
sub diff { die 'Not implemented'; }
sub log { die 'Not implemented'; }
sub select_backend {
my ($self, $sink) = @_;
for my $backend (@{$sink->requires}) {
return $backend if grep {$_ == $backend} @{$self->backends};
}
die "No matching backend between @{[ref($self)]} and sink @{[ref($sink)]}";
}
sub prepare_file_for_backend {
my ($self, $file, $backend) = @_;
if ($backend == App::Igor::Pipeline::Type::FILE) {
# File backend: Simply pass the file
return $file->absolute;
} elsif ($backend == App::Igor::Pipeline::Type::TEXT) {
# Text backend: Pass by content
die "@{[$file->stringify]}: Is no regular file\n" .
"Only operation 'symlink' with regular file targets (no collections)" unless -f $file;
return $file->slurp;
}
die "Internal: Unknown backend: $backend";
}
package App::Igor::Operation::Template;
use strict;
use warnings;
use App::Igor::Sink;
use Class::Tiny qw(template sink), {
content => undef,
delimiters => undef,
backends => [App::Igor::Pipeline::Type::TEXT]
};
use parent 'App::Igor::Operation';
use Const::Fast;
use Data::Dumper;
use Log::ger;
use Safe;
use Scalar::Util qw(reftype);
use Text::Template;
use Time::localtime;
=begin
Generate variable declarations for C<Text::Template>'s C<HASH> parameter when used in
conjunction with C<use strict>.
Params:
datahash - the HASH parameter passed to C<Text::Template>
Returns:
Multiple C<use> declarations that predeclare the variables that will be autogenerated
by C<Text::Template>.
Supported Referencetypes are:
- plain strings and numbers
- HASH
- ARRAY
- SCALAR
- REF
Exceptions:
Dies on unknown reftypes
=cut
sub gen_template_variable_declarations {
my ($datahash) = @_;
# For use strict to work, we have predeclare the relevant variables
# and therefore mangle accordingly.
my @variables;
for my $key (sort keys %$datahash) {
my $value = $datahash->{$key};
# Mangling is described in
# https://metacpan.org/pod/Text::Template#PREPEND-feature-and-using-strict-in-templates
if (not defined $value) {
# "If the value is undef, then any variables named $key, @key,
# %key, etc., are undefined."
push @variables, ("\$$key", "\%$key", "\@$key");
next;
}
my $type = reftype($value) // '';
if ($type eq '') {
# If the value is a string or a number, then $key is set to
# that value in the template. For anything else, you must pass a
# reference."
push @variables, "\$$key";
} elsif ($type eq 'ARRAY') {
# If the value is a reference to an array, then @key is set to that
# array.
push @variables, "\@$key";
} elsif ($type eq 'HASH') {
# If the value is a reference to a hash, then %key is set to that
# hash.
push @variables, "\%$key";
} elsif ($type eq 'SCALAR' || $type eq 'REF') {
# Similarly if value is any other kind of reference. This means that
#
# var => "foo" and var => \"foo"
#
# have almost exactly the same effect. (The difference is that in
# the former case, the value is copied, and in the latter case it is
# aliased.)
push @variables, "\$$key";
} else {
log_error "Unexpected reference type '$type' passed to template";
die "Unexpected reference type '$type' passed to template";
}
}
my $decl = join('', map { "our $_;" } @variables);
log_trace "gen_template_variable_declaration: $decl";
return $decl;
}
sub prepare {
my ($self, $ctx) = @_;
my $facts = $ctx->{facts};
my $packages = $ctx->{packages};
my $automatic = $ctx->{automatic};
my $secrets = $ctx->{secrets};
my $srcfile = $self->template;
die "Template $srcfile is not a regular file" unless -f $srcfile;
log_debug "Preparing Template: $srcfile";
# Hash for passing gathered facts and installed packages into templates
const my $data => {
facts => $facts,
packages => $packages,
automatic => $automatic,
secrets => $secrets,
};
# Use stricts requires that we predeclare those variables
my $decls = gen_template_variable_declarations($data);
# Create a Safe compartment for evaluation, with the opcodes
# in :default being whitelisted:
# https://metacpan.org/pod/Opcode#Predefined-Opcode-Tags
my $compartment = Safe->new();
my %templateconfig = (
TYPE => 'FILE',
SOURCE => $srcfile,
PREPEND => q{use warnings; use strict;} . $decls,
SAFE => $compartment,
BROKEN => sub { my %data = @_;
die "Error encountered for $srcfile:$data{lineno}: $data{error}";
},
);
# Optionally enable custom delimiters
if (defined($self->delimiters)) {
$templateconfig{DELIMITERS} = [$self->delimiters->{open}, $self->delimiters->{close}];
}
# Build the actual template
my $template = Text::Template->new(
%templateconfig
) or die "Couldn't create template from '$srcfile': $Text::Template::ERROR";
log_trace "Evaluating Template: $srcfile over:\n" . Dumper($data);
my $content = $template->fill_in(HASH => $data);
unless (defined $content) {
die "Error while filling in template '$srcfile': $Text::Template::ERROR";
}
$self->content($content);
log_trace "Result:\n" . Dumper($self->content);
return $self->content;
}
sub apply {
my ($self, $ctx) = @_;
# Write $content to outfile or collection...
unless (defined $self->content) {
log_warn "@{[ref($self)]}: prepare not called for template @{[$self->template]} when applying";
$self->prepare($ctx);
}
return $self->sink->emit(App::Igor::Pipeline::Type::TEXT, $self->content, $ctx);
}
sub log {
my ($self) = @_;
log_info "Applying @{[$self->template]} to '@{[$self->sink->stringify]}'";
}
sub check {
my ($self, $ctx) = @_;
unless (defined $self->content) {
log_warn "@{[ref($self)]}: prepare not called for template @{[$self->template]} when checking\n";
}
return $self->sink->check(App::Igor::Pipeline::Type::TEXT, $self->content, $ctx);
}
sub diff {
my ($self, $ctx) = @_;
unless (defined $self->content) {
log_warn "@{[ref($self)]}: prepare not called for template @{[$self->template]} when diffing\n";
}
return $self->sink->diff( App::Igor::Pipeline::Type::TEXT, $self->content, $ctx
, FILENAME_A => $self->template
, MTIME_A => $self->template->stat->mtime());
}
package App::Igor::Operation::FileTransfer;
use strict;
use warnings;
use App::Igor::Sink;
use Class::Tiny qw(source sink), {
backends => [App::Igor::Pipeline::Type::FILE, App::Igor::Pipeline::Type::TEXT],
data => undef,
backend => undef,
};
use parent 'App::Igor::Operation';
use Log::ger;
use Time::localtime;
sub prepare {
my ($self) = @_;
my $backend = $self->select_backend($self->sink);
$self->backend($backend);
$self->data($self->prepare_file_for_backend($self->source, $backend));
}
sub check {
my ($self, $ctx) = @_;
return $self->sink->check($self->backend, $self->data, $ctx);
}
sub apply {
my ($self, $ctx) = @_;
my $backend = $self->backend;
my $data = $self->data;
log_trace "Filetransfer: @{[$self->sink->stringify]} with $data";
# Symlink the two files...
return $self->sink->emit($backend, $data, $ctx);
}
sub diff {
my ($self, $ctx) = @_;
my $backend = $self->backend;
my $data = $self->data;
return $self->sink->diff( $backend, $data, $ctx
, FILENAME_A => $self->source
, MTIME_A => $self->source->stat->mtime);
}
sub log {
my ($self) = @_;
log_info "Linking '@{[$self->source]}' to '@{[$self->sink->stringify]}'";
}
package App::Igor::Operation::EmitCollection;
use strict;
use warnings;
use parent 'App::Igor::Operation';
use Class::Tiny qw(collection merger sink), {
data => undef,
};
use Log::ger;
use Data::Dumper;
sub prepare {
my ($self, $ctx) = @_;
my $collection = $ctx->{collections}->{$self->collection};
die "Unknown collection '@{[$self->collection]}'" unless defined $collection;
return 1;
}
sub check {
my ($self, $ctx) = @_;
my $collection = $ctx->{collections}->{$self->collection};
my $data = $self->merger->($collection, $self->collection);
log_trace "Merged collection '@{[$self->collection]}': $data";
$self->data($data);
return $self->sink->check(App::Igor::Pipeline::Type::TEXT, $self->data, $ctx);
}
sub apply {
my ($self, $ctx) = @_;
log_trace "Emitting collection '@{[$self->sink->path]}': @{[$self->data]}";
return $self->sink->emit(App::Igor::Pipeline::Type::TEXT, $self->data, $ctx);
}
sub diff {
my ($self, $ctx) = @_;
return $self->sink->diff( App::Igor::Pipeline::Type::TEXT, $self->data, $ctx
, FILENAME_A => "Collection " . $self->collection
, MTIME_A => time());
}
sub log {
my ($self) = @_;
log_info "Emitting collection '@{[$self->sink->stringify]}'";
}
package App::Igor::Operation::RunCommand;
use strict;
use warnings;
use App::Igor::Sink;
use Class::Tiny qw(command), {
basedir => "",
backends => [],
};
use parent 'App::Igor::Operation';
use Cwd;
use Log::ger;
use File::pushd;
use File::Which;
sub prepare { 1; } # No preparation needed
sub check {
my ($self) = @_;
# If we execute a proper command (vs relying on sh),
# we can actually check whether the binary exists...
if (ref($self->command) eq 'ARRAY') {
my $cmd = $self->command->[0];
my $binary;
if (-x $cmd) {
$binary = $cmd;
} elsif (-x "@{[$self->basedir]}/$cmd") {
$binary = "@{[$self->basedir]}/$cmd";
}else {
$binary = File::Which::which($cmd);
}
log_debug "Resolved $cmd to @{[$binary // 'undef']}";
return defined($binary);
}
log_trace "Cannot check shell expression @{[$self->command]}";
1;
}
sub apply {
my ($self) = @_;
# If possible, we run the commands from the package directory
my $basedir = $self->basedir;
unless ($basedir) {
$basedir = getcwd;
}
my $dir = pushd($basedir);
# Execute
my $retval;
my $strcmd;
if (ref($self->command) eq 'ARRAY') {
$retval = system(@{$self->command});
$strcmd = join(' ', @{$self->command});
} else {
$retval = system($self->command);
$strcmd = $self->command;
}
$retval == 0 or die "system($strcmd) in @{[$self->basedir]} failed with exitcode: $?";
1;
}
sub log {
my ($self) = @_;
if (ref($self->command) eq 'ARRAY') {
log_info "Executing (safe) system('@{[@{$self->command}]}')"
} else {
log_info "Executing (unsafe) system('@{[$self->command]}')"
}
1;
}
sub diff {
my ($self) = @_;
return '';
}
package App::Igor::Operation::RunFactor;
use strict;
use warnings;
use Class::Tiny qw(path), {
type => "perl",
};
use parent 'App::Igor::Operation';
use App::Igor::Merge;
use String::ShellQuote;
use TOML;
use TOML::Parser;
use Try::Tiny;
use Log::ger;
sub prepare {
my ($self, $ctx) = @_;
my $facts;
if ($self->type eq 'perl') {
log_debug "Executing file '@{[$self->path]}' as perl-factor";
my $factor = App::Igor::Util::file_to_coderef($self->path);
$facts = $factor->();
} elsif ($self->type eq 'script') {
log_debug "Executing file '@{[$self->path]}' as script-factor";
my $cmd = shell_quote($self->path);
my $output = App::Igor::Util::capture($cmd);
try {
$facts = App::Igor::Util::read_toml_str($output);
} catch {
die "Factor '$cmd' failed: Invalid TOML produced:\n$_";
};
} else {
die "Unknown factor type: @{[$self->type]}";
}
# Use the HashMerger to merge the automatic variables
my $auto = $ctx->{automatic} // {};
my $merger = App::Igor::Merge->new();
$ctx->{automatic} = $merger->merge($auto, $facts);
1;
}
sub check {
1;
}
sub apply {
1;
}
sub log {
my ($self) = @_;
log_info "Already executed factor '@{[$self->path]}' of type @{[$self->type]}";
1;
}
sub diff {
my ($self) = @_;
return '';
}
package App::Igor::Operation::UnlockVault;
use strict;
use warnings;
use Class::Tiny qw(path command merger cachedirectory), {
type => "shell",
cacheable => 0,
};
use parent 'App::Igor::Operation';
use App::Igor::Merge;
use Data::Dumper;
use Digest::SHA;
use Log::ger;
use Path::Tiny;
use String::ShellQuote;
use TOML::Parser;
use TOML;
use Try::Tiny;
sub checksum {
my ($filename) = @_;
my $sha256 = Digest::SHA->new(256);
try {
# Forcing stringification of $filename is imprtant here
# Might be a Path::Tiny object and Digest::SHA inspects reftypes
$sha256->addfile("$filename", "b");
} catch {
die "Failed to checksum vault '$filename': $_";
};
return $sha256->hexdigest();
}
sub decrypt {
my ($command, $file) = @_;
my $vault = shell_quote($file);
my $cmd = "$command";
log_info "Unlocking vault file '$file' using command: $cmd";
$ENV{IGOR_VAULT} = $file;
my $outfile = File::Temp->new();
$ENV{IGOR_OUTFILE} = $outfile->filename;
try {
App::Igor::Util::execute($cmd);
} catch {
die "Failed to decrypt vault '$vault' using command '$cmd':\n$_";
};
my $output = path($outfile->filename)->slurp();
delete $ENV{IGOR_VAULT};
delete $ENV{IGOR_OUTFILE};
return $output;
}
# Cache logic. Cached, decoded vaults are stored in $cachedir and identified
# by their sha256sum as a filename.
sub cache_lookup {
my ($cachedir, $vaultfile) = @_;
my $digest = checksum($vaultfile->stringify);
my $cached = $cachedir->child($digest);
if ($cached->is_file) {
log_debug "Vault $vaultfile found in cache: $cached";
return $cached->slurp();
} else {
log_debug "Vault $vaultfile not found in cache: $cached does not exist";
return undef;
}
}
sub cache_store {
my ($cachedir, $vaultfile, $content) = @_;
my $digest = checksum($vaultfile->stringify);
# ensure the cachedirectory exists
$cachedir->mkpath;
my $cached = $cachedir->child($digest);
# Create
$cached->touch;
# Cached files are most likely to be kept private
$cached->chmod(0700);
# actually write the data (spew will not work due to permissions
# ending up to be the umask)
$cached->append({truncate => 1}, $content);
}
sub retrieve {
my ($filepath, $command, $cacheable, $cachedir) = @_;
my $content = cache_lookup($cachedir, $filepath);
if (!defined $content) {
$content = decrypt($command, $filepath);
if ($cacheable) {
cache_store($cachedir, $filepath, $content);
}
}
return $content;
}
sub prepare {
my ($self, $ctx) = @_;
# Currently, we only support one type of vaults
die "Unsupported vault type '@{[$self->type]}" unless $self->type eq "shell";
my $data = retrieve($self->{path}, $self->command, $self->cacheable, $self->cachedirectory);
my $facts;
try {
$facts = App::Igor::Util::read_toml_str($data);
} catch {
die "Unlocking vault '@{[$self->{path}]}' failed: Invalid TOML produced:\n$_";
};
log_trace "Retrieved vault '@{[$self->{path}]}':\n" . Dumper($facts);
# Use the HashMerger to merge the automatic variables
my $secrets = $ctx->{secrets} // {};
my $merger = $self->merger;
$ctx->{secrets} = $merger->merge($secrets, $facts);
1;
}
sub check {
1;
}
sub apply {
1;
}
sub log {
my ($self) = @_;
log_info "Already unlocked vault '@{[$self->{path}]}'";
1;
}
sub diff {
my ($self) = @_;
return '';
}
1;
__END__
APP_IGOR_OPERATION
$fatpacked{"App/Igor/Package.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_PACKAGE';
package App::Igor::Package;
use strict;
use warnings;
use Class::Tiny qw(basedir repository id), {
dependencies => [],
files => [],
precmds => [],
postcmds => [],
templates => [],
artifacts => [],
};
use Data::Dumper;
use File::pushd;
use Path::Tiny;
use Try::Tiny;
use Type::Tiny;
use Types::Standard qw(Any ArrayRef Dict HashRef Optional Str);
use App::Igor::Operation;
use App::Igor::Util;
# Config file Schemata for TOML validation
my $commandschema = Str | ArrayRef[Str];
my $fileschema = Dict[
source => Str,
collection => Str,
] | Dict[
source => Str,
dest => Str,
perm => Optional[Str],
operation => Optional[Str]
];
# Dependencies are files with a special preprocessingstep...
my $templatedelimiter = Dict[
open => Str,
close => Str,
];
my $templateschema = Dict[
source => Str,
collection => Str,
delimiters => Optional[$templatedelimiter],
] | Dict[
source => Str,
dest => Str,
delimiters => Optional[$templatedelimiter],
perm => Optional[Str],
];
my $dependencyschema = Str;
my $globschema = Str;
my $packageschema = Dict[
dependencies => Optional[ArrayRef[$dependencyschema]],
files => Optional[ArrayRef[$fileschema]],
templates => Optional[ArrayRef[$templateschema]],
precmds => Optional[ArrayRef[$commandschema]],
postcmds => Optional[ArrayRef[$commandschema]],
artifacts => Optional[ArrayRef[$globschema]],
];
sub BUILD {
my ($self, $args) = @_;
# Build Path::Tiny objects for all filepaths
for my $ent (@{$args->{templates}}, @{$args->{files}}) {
for my $key (qw(source dest)) {
$ent->{$key} = path($ent->{$key}) if exists $ent->{$key};
}
}
}
sub from_file {
my ($filepath, $repository) = @_;
# Parse and read the config file
my $conf = App::Igor::Util::read_toml($filepath);
my $packagedir = path($filepath)->parent;
return from_hash($conf, $packagedir, $repository);
}
sub from_perl_file {
my ($filepath, $repository, $config) = @_;
my $packagedir = path($filepath)->parent;
my $packagesub = App::Igor::Util::file_to_coderef($filepath);
my $conf;
{ # execute this from the packageidr
my $dir = pushd($packagedir);
$conf = $packagesub->($config);
}
return from_hash($conf, $packagedir, $repository);
}
sub from_hash {
my ($conf, $basedir, $repository) = @_;
try {
# Validate the config
$packageschema->($conf);
} catch {
die "Validating package-configuration at $basedir failed:\n$_";
};
return App::Igor::Package->new(basedir => $basedir
, repository => $repository
, id => $basedir->basename
, %{$conf});
}
sub qname {
my ($self) = @_;
my @segments;
if (defined $self->repository) {
push @segments, $self->repository->id;
}
push @segments, $self->id;
return join('/', @segments);
}
sub determine_sink {
my ($file, $id) = @_;
if (defined($file->{dest})) {
return App::Igor::Sink::File->new(path => $file->{dest}, id => $id, perm => $file->{perm}, operation => $file->{operation});
} elsif (defined($file->{collection})) {
return App::Igor::Sink::Collection->new(collection => $file->{collection}, id => $id);
} else {
die "Failed to determine sink for file: " . Dumper($file);
}
}
sub to_transactions {
my ($self) = @_;
my @transactions;
# Run precommands
for my $cmd (@{$self->precmds}) {
push @transactions, App::Igor::Operation::RunCommand->new(
package => $self,
command => $cmd,
basedir => $self->basedir,
order => 10,
);
}
# Symlink and create files
for my $file (@{$self->files}) {
my $source = path("@{[$self->basedir]}/$file->{source}");
# File mode bits: 07777 -> parts to copy
$file->{perm} //= $source->stat->mode & 07777;
push @transactions, App::Igor::Operation::FileTransfer->new(
package => $self,
source => $source,
sink => determine_sink($file, $self->qname),
order => 20,
);
}
# Run the templates
for my $tmpl (@{$self->templates}) {
push @transactions, App::Igor::Operation::Template->new(
package => $self,
template => path("@{[$self->basedir]}/$tmpl->{source}"),
sink => determine_sink($tmpl, $self->qname),
delimiters => $tmpl->{delimiters},
order => 30,
);
}
# Now run the postcommands
for my $cmd (@{$self->postcmds}) {
push @transactions, App::Igor::Operation::RunCommand->new(
package => $self,
command => $cmd,
basedir => $self->basedir,
order => 90,
);
}
@transactions;
}
sub get_files {
my ($self) = @_;
my @files = map { $_->{dest} } @{$self->files}, @{$self->templates};
return map {
my $file = $_;
try {
$file = path($file)->realpath->stringify
} catch {
# Nonexistent file -> realpath does not work
$file = path($file)->absolute->stringify
};
$file
} grep { defined($_) } @files;
}
sub gc {
my ($self) = @_;
my @files = map { $_->{dest} } @{$self->files}, @{$self->templates};
my @artifacts = map { App::Igor::Util::glob($_) } @{$self->artifacts};
return map {
path($_)->realpath->stringify
} grep { defined($_) } @files, @artifacts;
}
1;
__END__
APP_IGOR_PACKAGE
$fatpacked{"App/Igor/Repository.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_REPOSITORY';
package App::Igor::Repository;
use strict;
use warnings;
use Class::Tiny qw(id directory), {
packagedb => {}
};
use App::Igor::Package;
use App::Igor::Util;
use Path::Tiny;
use Data::Dumper;
use Log::ger;
# Collect the packages contained in this repository from the filesystem at
# C<dir> with effective configuration C<conf>
sub collect_packages {
my ($self, $dir, $conf) = @_;
# Sanity check
die "Configured Repository at $dir is not an directory" unless $dir->is_dir;
# Visit all subdirectories, and create a package for it if there is a package.toml file
my $packages = $dir->visit(
sub {
my ($path, $state) = @_;
my $package;
if ((my $packagedesc = $path->child("package.toml"))->is_file) {
$package = App::Igor::Package::from_file($packagedesc, $self);
} elsif ((my $packagedescpl = $path->child("package.pl"))->is_file) {
$package = App::Igor::Package::from_perl_file($packagedescpl, $self, $conf);
log_debug ("Evaluated @{[$packagedescpl->stringify]}: " . Dumper($package));
}
return unless defined($package);
$state->{$path->basename} = $package;
}
);
return $packages;
}
sub dependency_graph {
my ($self) = @_;
my $g = App::Igor::Util::build_graph($self->packagedb, sub {
$_[0]->dependencies;
});
return $g;
}
sub resolve_package {
my ($self, $package) = @_;
my $resolved = $self->packagedb->{$package};
die "No such package '$package' in repository '$self->id'" unless defined $resolved;
return $resolved;
}
sub BUILD {
my ($self, $args) = @_;
# Make sure we've got a Path::Tiny object
# Dynamic typing IS funny :D
unless (ref($self->directory) eq 'Path::Tiny') {
$self->directory(path($self->directory));
}
$self->packagedb($self->collect_packages($self->directory, $args->{config}));
}
1;
__END__
APP_IGOR_REPOSITORY
$fatpacked{"App/Igor/Sink.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_SINK';
use strict;
package App::Igor::Sink {
use strict;
use warnings;
use Class::Tiny;
sub requires { die "Not implemented"; }
sub check { die "Not implemented"; }
sub emit { die "Not implemented"; }
sub diff { die "Not implemented"; }
}
package App::Igor::Pipeline::Type {
use strict;
use constant {
TEXT => 0,
FILE => 1,
};
use constant {
CHANGED => 0,
UNCHANGED => 1,
};
}
package App::Igor::Sink::File {
use strict;
use warnings;
use parent 'App::Igor::Sink';
use Class::Tiny qw(path), {
perm => undef,
operation => undef,
};
use Const::Fast;
use Data::Dumper;
use Log::ger;
use App::Igor::Diff ();
use Try::Tiny;
use Fcntl ':mode';
const my @REQUIRES => (App::Igor::Pipeline::Type::FILE, App::Igor::Pipeline::Type::TEXT);
sub BUILD {
my ($self, $args) = @_;
$args->{operation} //= 'symlink';
unless (grep { /^\Q$args->{operation}\E$/ } qw(symlink copy)) {
die "Illegal file operation specified for @{[$args->{path}]}: $args->{operation}";
}
}
sub requires { return \@REQUIRES; }
sub prepare_for_copy {
my ($self, $typeref, $dataref) = @_;
if (defined $self->operation && $self->operation eq "copy") {
$$typeref = App::Igor::Pipeline::Type::TEXT;
# Text backend: Pass by content
die "@{[$$dataref->stringify]}: Is no regular file\n" .
"Only operation 'symlink' with regular file targets (no collections) are supported for directories" unless -f $$dataref;
$$dataref = $$dataref->slurp();
}
}
sub check {
my ($self, $type, $data) = @_;
my $changeneeded = 0;
prepare_for_copy($self, \$type, \$data);
if ($type == App::Igor::Pipeline::Type::TEXT) {
try {
$changeneeded = $self->path->slurp() ne $data;
} catch {
$changeneeded = 1;
};
} elsif ($type == App::Igor::Pipeline::Type::FILE) {
try {
$changeneeded = not (S_ISLNK($self->path->lstat->mode) && ($self->path->realpath eq $data->realpath));
} catch {
$changeneeded = 1;
};
if (-e $self->path && not S_ISLNK($self->path->lstat->mode)) {
die ("File @{[$self->path]} already exists and is not a symlink");
}
} else {
die "Unsupported type \"$type\" at \"@{[ __PACKAGE__ ]}\" when checking file @{[$self->path]}";
}
return $changeneeded;
}
sub emit {
my ($self, $type, $data) = @_;
return App::Igor::Pipeline::Type::UNCHANGED unless $self->check($type, $data);
prepare_for_copy($self, \$type, \$data);
# Create directory if the target directory does not exist
unless ($self->path->parent->is_dir) {
$self->path->parent->mkpath;
}
if ($type == App::Igor::Pipeline::Type::TEXT) {
log_trace "spew(@{[$self->path]}, " . Dumper($data) . ")";
# write the data
$self->path->spew($data);
# Fix permissions if requested
if (defined $self->perm) {
$self->path->chmod($self->perm);
}
} elsif ($type == App::Igor::Pipeline::Type::FILE) {
my $dest = $self->path->absolute;
# Remove the link if it exists
unlink $dest if -l $dest;
# symlink
symlink $data,$dest or die "Failed to symlink: $dest -> $data: $!";
} else {
die "Unsupported type \"$type\" at \"" . __PACKAGE__ . "\" when emitting file @{[$self->path]}";
}
return App::Igor::Pipeline::Type::CHANGED;
}
sub diff {
my ($self, $type, $data, undef, %opts) = @_;
prepare_for_copy($self, \$type, \$data);
my $diff;
if ($type == App::Igor::Pipeline::Type::TEXT) {
try {
$diff = App::Igor::Diff::diff \$data, $self->path->stringify, \%opts;
} catch {
$diff = $_;
}
} elsif ($type == App::Igor::Pipeline::Type::FILE) {
try {
$diff = App::Igor::Diff::diff $data->stringify, $self->path->stringify, \%opts;
} catch {
$diff = $_;
}
} else {
die "Unsupported type \"$type\" at \"" . __PACKAGE__ . "\" when checking file $self->path";
}
return $diff;
}
sub stringify {
my ($self) = @_;
my $name = $self->path->stringify;
if(defined $self->perm) {
my $perm = sprintf("%o", $self->perm);
$name .= " (chmod $perm)";
}
return $name;
}
}
package App::Igor::Sink::Collection {
use strict;
use warnings;
# Collection sinks are a bit of a hack: They simply export to a context, which
# will later be used to fuse the collection. Therefore check, emit and diff
# are subs, only crating a suitable ctx for the actual ops.
use parent 'App::Igor::Sink';
use Class::Tiny qw(collection id), {
checked => 0,
};
use Const::Fast;
use Data::Dumper;
use Log::ger;
use Text::Diff ();
const my @REQUIRES => (App::Igor::Pipeline::Type::TEXT);
sub requires { \@REQUIRES }
sub check {
my ($self, $type, $data, $ctx) = @_;
# Only build the context once
return 1 if $self->checked;
# Sanity-check: Input type
die "Unsupported type \"$type\" at \"@{[__PACKAGE__]}\" "
. "when emitting to collection @{[$self->collection]} for @{[$self->id]}" if App::Igor::Pipeline::Type::TEXT != $type;
# Ensure that collection exists
die "Unknown collection '@{[$self->collection]}' for package '@{[$self->id]}'"
unless exists $ctx->{collections}->{$self->collection};
my $collection = $ctx->{collections}->{$self->collection};
# Ensure that a package only writes to the context once
die "Duplicate entry for @{[$self->id]} in collection @{[$self->collection]}" if (exists $collection->{$self->id});
# Write to the context
$collection->{$self->id} = $data;
# Check has run
$self->checked(1);
return 1;
}
sub emit {
my ($self, $type, $data, $ctx) = @_;
# Sets $ctx
$self->check($type, $data, $ctx);
return App::Igor::Pipeline::Type::UNCHANGED;
}
sub diff {
my ($self, $type, $data, $ctx) = @_;
# Diff happens in a dedicated operation, based on $ctx
# Sets $ctx
$self->check($type, $data, $ctx);
return '';
}
sub stringify {
my ($self) = @_;
my $name = "collection(@{[$self->collection]})";
return $name;
}
}
1;
__END__
APP_IGOR_SINK
$fatpacked{"App/Igor/Types.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_TYPES';
package App::Igor::Types;
use warnings;
use strict;
use Type::Library -base;
use Type::Utils -all;
use Path::Tiny;
BEGIN { extends "Types::Standard" };
our $PathTiny = class_type "PathTiny", { class => "Path::Tiny" };
coerce "PathTiny",
from "Str", via { Path::Tiny->new($_) };
1;
__END__
APP_IGOR_TYPES
$fatpacked{"App/Igor/Util.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'APP_IGOR_UTIL';
package App::Igor::Util;
use Exporter 'import';
@EXPORT_OK = qw(colored);
use strict;
use warnings;
use feature 'state';
use Data::Diver qw(DiveRef);
use Data::Dumper;
use File::Glob ':bsd_glob';
use Graph;
use Graph::Directed;
use Log::ger;
use Net::Domain;
use Path::Tiny;
use Scalar::Util qw(reftype);
use Sys::Hostname;
use Term::ANSIColor ();
use TOML;
use TOML::Parser;
sub read_toml {
my ($filepath) = @_;
state $parser = TOML::Parser->new(
inflate_boolean => sub { $_[0] eq 'true' ? \1 : \0 },
);
my ($conf, $err) = $parser->parse_file($filepath);
unless ($conf) {
log_error "Parsing of $filepath failed: $err";
die $err;
}
return $conf;
}
sub read_toml_str {
my ($data) = @_;
state $parser = TOML::Parser->new(
inflate_boolean => sub { $_[0] eq 'true' ? \1 : \0 },
);
my ($conv, $err) = $parser->parse($data);
unless ($conv) {
log_error "Parsing of toml data failed: $err";
die $err;
}
return $conv;
}
sub build_graph {
my ($hash, $lambda_deps) = @_;
# Build the graph
my $g = Graph::Directed->new;
for my $key (sort keys %$hash) {
$g->add_vertex($key);
my $deps = $lambda_deps->($hash->{$key});
next unless defined($deps);
for my $child (@$deps) {
$g->add_edge($key, $child);
}
}
return $g;
}
sub toposort_dependencies {
my ($hash, $root, $lambda_deps) = @_;
my $g = build_graph($hash, $lambda_deps);
$g->add_vertex($root);
log_trace "Dependency graph: $g\n";
# Do a topological sort
my @ts = $g->topological_sort;
# Now restrict that to the nodes reachable from the root
my %r = ($root => 1);
$r{$_}=1 for ($g->all_reachable($root));
my @order = grep { $r{$_} } @ts;
return @order;
}
# Tries to determine an identifier for the current computer from the following sources:
# - fully qualified domain name (via Net::Domain)
# - hostname (via Sys::Hostname)
# In the following order, this sources are probed, the first successful entry is returned
sub guess_identifier {
# Try fqdn
my $fqdn = Net::Domain::hostfqdn;
return $fqdn if defined $fqdn;
# Try hostname
return Sys::Hostname::hostname; # Croaks on error
}
sub colored {
if (-t STDOUT) { # outputting to terminal
return Term::ANSIColor::colored(@_);
} else {
# Colored has two calling modes:
# colored(STRING, ATTR[, ATTR ...])
# colored(ATTR-REF, STRING[, STRING...])
unless (ref($_[0])) { # Called as option one
return $_;
} else { # Called as option two
shift;
return @_;
}
}
}
{ no warnings 'redefine';
sub glob {
my ($pattern) = @_;
return bsd_glob($pattern, GLOB_BRACE | GLOB_MARK | GLOB_NOSORT | GLOB_QUOTE | GLOB_TILDE);
}
}
# Read a file (as Path::Tiny instances) containing a sub and return the correspoding coderef
sub file_to_coderef {
my ($path) = @_;
my $source = $path->slurp;
log_trace "Executing @{[$path]}:\n$source";
my $coderef = eval { eval($source) };
die "Failure while evaluating the coderef at @{[$path]}: $@\n" if not defined $coderef;
return $coderef;
}
# Traversal for HASH of HASH of HASH ... calls the callback with the value and current list of breadcrumbs
# i.e.: [key1, innerkey2, innermostkey3]
sub traverse_nested_hash {
my ($hash, $cb) = @_;
my @worklist = ({
breadcrumbs => [],
data => $hash,
});
my %result;
while(@worklist) {
my $ctx = pop @worklist;
my @breadcrumbs = @{$ctx->{breadcrumbs}};
my $d = $ctx->{data};
if (reftype($d) // '' eq 'HASH') {
for my $k (keys %$d) {
my $bc = [@breadcrumbs, $k];
push @worklist, { breadcrumbs => $bc, data => $d->{$k}};
}
} else {
my $ref = DiveRef(\%result, @breadcrumbs);
$$ref = $cb->($d, \@breadcrumbs);
}
}
return \%result;
}
sub capture {
my ($cmd) = @_;
log_debug "Executing command '$cmd'";
my $output = `$cmd`;
if ($? == -1) {
die "Failed to execute command '$cmd': $!\n";
} elsif ($? & 127) {
die "Command '$cmd' died with signal @{[($? & 127)]}\n";
} elsif (($? >> 8) != 0) {
die "Command '$cmd' failed: Factor exited with @{[$? >> 8]}\n";
}
if (!defined($output)) {
die "Failed to capture output for command '$cmd'";
}
return $output;
}
sub execute {
my ($cmd) = @_;
log_debug "Executing command '$cmd'";
my $retval = system($cmd);
if ($retval == -1) {
die "Failed to execute command '$cmd': $!\n";
} elsif ($retval & 127) {
die "Command '$cmd' died with signal @{[($retval & 127)]}\n";
} elsif (($retval >> 8) != 0) {
die "Command '$cmd' failed: Factor exited with @{[$retval >> 8]}\n";
}
return $retval;
}
1;
__END__
APP_IGOR_UTIL
$fatpacked{"Class/Tiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'CLASS_TINY';
use 5.006;use strict;no strict 'refs';use warnings;package Class::Tiny;our$VERSION='1.006';use Carp ();require($] >= 5.010 ? "mro.pm" : "MRO/Compat.pm");my%CLASS_ATTRIBUTES;sub import {my$class=shift;my$pkg=caller;$class->prepare_class($pkg);$class->create_attributes($pkg,@_)if @_}sub prepare_class {my ($class,$pkg)=@_;@{"${pkg}::ISA"}="Class::Tiny::Object" unless @{"${pkg}::ISA"}}sub create_attributes {my ($class,$pkg,@spec)=@_;my%defaults=map {ref $_ eq 'HASH' ? %$_ : ($_=>undef)}@spec;my@attr=grep {defined and!ref and /^[^\W\d]\w*$/s or Carp::croak "Invalid accessor name '$_'"}keys%defaults;$CLASS_ATTRIBUTES{$pkg}{$_}=$defaults{$_}for@attr;$class->_gen_accessor($pkg,$_)for grep {!*{"$pkg\::$_"}{CODE}}@attr;Carp::croak("Failed to generate attributes for $pkg: $@\n")if $@}sub _gen_accessor {my ($class,$pkg,$name)=@_;my$outer_default=$CLASS_ATTRIBUTES{$pkg}{$name};my$sub=$class->__gen_sub_body($name,defined($outer_default),ref($outer_default));eval "package $pkg; my \$default=\$outer_default; $sub";Carp::croak("Failed to generate attributes for $pkg: $@\n")if $@}sub __gen_sub_body {my ($self,$name,$has_default,$default_type)=@_;if ($has_default && $default_type eq 'CODE'){return << "HERE"}elsif ($has_default){return << "HERE"}else {return << "HERE"}}sub get_all_attributes_for {my ($class,$pkg)=@_;my%attr=map {$_=>undef}map {keys %{$CLASS_ATTRIBUTES{$_}|| {}}}@{mro::get_linear_isa($pkg)};return keys%attr}sub get_all_attribute_defaults_for {my ($class,$pkg)=@_;my$defaults={};for my$p (reverse @{mro::get_linear_isa($pkg)}){while (my ($k,$v)=each %{$CLASS_ATTRIBUTES{$p}|| {}}){$defaults->{$k}=$v}}return$defaults}package Class::Tiny::Object;our$VERSION='1.006';my (%HAS_BUILDARGS,%BUILD_CACHE,%DEMOLISH_CACHE,%ATTR_CACHE);my$_PRECACHE=sub {no warnings 'once';my ($class)=@_;my$linear_isa=@{"$class\::ISA"}==1 && ${"$class\::ISA"}[0]eq "Class::Tiny::Object" ? [$class]: mro::get_linear_isa($class);$DEMOLISH_CACHE{$class}=[map {(*{$_}{CODE})? (*{$_}{CODE}): ()}map {"$_\::DEMOLISH"}@$linear_isa ];$BUILD_CACHE{$class}=[map {(*{$_}{CODE})? (*{$_}{CODE}): ()}map {"$_\::BUILD"}reverse @$linear_isa ];$HAS_BUILDARGS{$class}=$class->can("BUILDARGS");return$ATTR_CACHE{$class}={map {$_=>1}Class::Tiny->get_all_attributes_for($class)}};sub new {my$class=shift;my$valid_attrs=$ATTR_CACHE{$class}|| $_PRECACHE->($class);my$args;if ($HAS_BUILDARGS{$class}){$args=$class->BUILDARGS(@_)}else {if (@_==1 && ref $_[0]){my%copy=eval {%{$_[0]}};Carp::croak("Argument to $class->new() could not be dereferenced as a hash")if $@;$args=\%copy}elsif (@_ % 2==0){$args={@_}}else {Carp::croak("$class->new() got an odd number of elements")}}my$self=bless {map {$_=>$args->{$_}}grep {exists$valid_attrs->{$_}}keys %$args },$class;$self->BUILDALL($args)if!delete$args->{__no_BUILD__}&& @{$BUILD_CACHE{$class}};return$self}sub BUILDALL {$_->(@_)for @{$BUILD_CACHE{ref $_[0]}}}require Devel::GlobalDestruction unless defined ${^GLOBAL_PHASE};sub DESTROY {my$self=shift;my$class=ref$self;my$in_global_destruction=defined ${^GLOBAL_PHASE} ? ${^GLOBAL_PHASE} eq 'DESTRUCT' : Devel::GlobalDestruction::in_global_destruction();for my$demolisher (@{$DEMOLISH_CACHE{$class}}){my$e=do {local ($?,$@);eval {$demolisher->($self,$in_global_destruction)};$@};no warnings 'misc';die$e if$e}}1;
sub $name {
return (
( \@_ == 1 && exists \$_[0]{$name} )
? ( \$_[0]{$name} )
: ( \$_[0]{$name} = ( \@_ == 2 ) ? \$_[1] : \$default->( \$_[0] ) )
);
}
HERE
sub $name {
return (
( \@_ == 1 && exists \$_[0]{$name} )
? ( \$_[0]{$name} )
: ( \$_[0]{$name} = ( \@_ == 2 ) ? \$_[1] : \$default )
);
}
HERE
sub $name {
return \@_ == 1 ? \$_[0]{$name} : ( \$_[0]{$name} = \$_[1] );
}
HERE
CLASS_TINY
$fatpacked{"Const/Fast.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'CONST_FAST';
package Const::Fast;{$Const::Fast::VERSION='0.014'}use 5.008;use strict;use warnings FATAL=>'all';use Scalar::Util qw/reftype blessed/;use Carp qw/croak/;use Sub::Exporter::Progressive 0.001007 -setup=>{exports=>[qw/const/],groups=>{default=>[qw/const/]}};sub _dclone($) {require Storable;no warnings 'redefine';*_dclone=\&Storable::dclone;goto&Storable::dclone}my%skip=map {$_=>1}qw/CODE GLOB/;sub _make_readonly {my (undef,$dont_clone)=@_;if (my$reftype=reftype $_[0]and not blessed($_[0])and not &Internals::SvREADONLY($_[0])){$_[0]=_dclone($_[0])if!$dont_clone && &Internals::SvREFCNT($_[0])> 1 &&!$skip{$reftype};&Internals::SvREADONLY($_[0],1);if ($reftype eq 'SCALAR' || $reftype eq 'REF'){_make_readonly(${$_[0]},1)}elsif ($reftype eq 'ARRAY'){_make_readonly($_)for @{$_[0]}}elsif ($reftype eq 'HASH'){&Internals::hv_clear_placeholders($_[0]);_make_readonly($_)for values %{$_[0]}}}Internals::SvREADONLY($_[0],1);return}sub const(\[$@%]@) {my (undef,@args)=@_;croak 'Invalid first argument, need an reference' if not defined reftype($_[0]);croak 'Attempt to reassign a readonly variable' if&Internals::SvREADONLY($_[0]);if (reftype $_[0]eq 'SCALAR' or reftype $_[0]eq 'REF'){croak 'No value for readonly variable' if@args==0;croak 'Too many arguments in readonly assignment' if@args > 1;${$_[0]}=$args[0]}elsif (reftype $_[0]eq 'ARRAY'){@{$_[0]}=@args}elsif (reftype $_[0]eq 'HASH'){croak 'Odd number of elements in hash assignment' if@args % 2;%{$_[0]}=@args}else {croak 'Can\'t make variable readonly'}_make_readonly($_[0],1);return}1;
CONST_FAST
$fatpacked{"Data/Diver.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'DATA_DIVER';
package Data::Diver;use strict;require Exporter;use vars qw($VERSION @EXPORT_OK);BEGIN {$VERSION=1.01_01;@EXPORT_OK=qw(Dive DiveRef DiveVal DiveError DiveDie DiveClear);*import=\&Exporter::import;*isa=\&UNIVERSAL::isa}my@lastError;sub _Error {@lastError=@_[2,0,1];return}sub DiveError {return@lastError}sub DiveClear {@lastError=()}sub DiveDie {@_=Dive(@_)if 1 < @_;return wantarray ? @_ : pop @_ if @_ ||!@lastError;my($errDesc,$ref,$svKey)=@lastError;die "$errDesc using $$svKey on $ref (from Data::Diver).\n"}sub Dive {return if!@_;my$ref=shift @_;return$ref if!$ref;while(@_){my$key=shift @_;if(!defined$key){return _Error($ref,\$key,"undef() on non-scalar-ref")if!eval {my$x=$$ref;1};$ref=$$ref}elsif(eval {my$x=$key->[0];1}&& isa($ref,'CODE')){if(@_ &&!defined $_[0]){$ref=\ $ref->(@$key)}else {$ref=[$ref->(@$key)]}}elsif($key =~ /^-?\d+$/ && eval {my$x=$ref->[0];1}){return _Error($ref,\$key,"Index out of range")if$key < -@$ref || $#$ref < $key;$ref=$ref->[$key]}elsif(eval {exists$ref->{$key}}){if(eval {my$x=$$key;1}){$ref=$ref->{$$key}}else {$ref=$ref->{$key}}}elsif(eval {my$x=$ref->{$key};1}){return _Error($ref,\$key,"Key not present in hash")}else {return _Error($ref,\$key,"Not a valid type of reference")}}return$ref}sub DiveVal :lvalue {${DiveRef(@_)}}sub DiveRef {return if!@_;my$sv=\shift @_;return $$sv if!$$sv;while(@_){my$key=shift @_;if(!defined$key){$sv=\$$$sv}elsif(eval {my$x=$key->[0];1}&& isa($$sv,'CODE')){if(@_ &&!defined $_[0]){$sv=\ $$sv->(@$key)}else {$sv=\[$$sv->(@$key)]}}elsif(eval {my$x=$$key;1}and!defined($$sv)|| eval {my$x=$$sv->{0};1}){$sv=\$$sv->{$$key}}elsif($key =~ /^-?\d+$/ and!defined($$sv)|| eval {my$x=$$sv->[0];1}){$sv=\$$sv->[$key]}else {$sv=\$$sv->{$key}}}return$sv}'Data::Diver';
DATA_DIVER
$fatpacked{"Data/Dmp.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'DATA_DMP';
package Data::Dmp;our$DATE='2017-01-30';our$VERSION='0.23';use 5.010001;use strict;use warnings;use Scalar::Util qw(looks_like_number blessed reftype refaddr);require Exporter;our@ISA=qw(Exporter);our@EXPORT=qw(dd dmp);our%_seen_refaddrs;our%_subscripts;our@_fixups;our$OPT_PERL_VERSION="5.010";our$OPT_REMOVE_PRAGMAS=0;our$OPT_DEPARSE=1;our$OPT_STRINGIFY_NUMBERS=0;my%esc=("\a"=>"\\a","\b"=>"\\b","\t"=>"\\t","\n"=>"\\n","\f"=>"\\f","\r"=>"\\r","\e"=>"\\e",);sub _double_quote {local($_)=$_[0];s/([\\\"\@\$])/\\$1/g;return qq("$_") unless /[^\040-\176]/;s/([\a\b\t\n\f\r\e])/$esc{$1}/g;s/([\0-\037])(?!\d)/sprintf('\\%o',ord($1))/eg;s/([\0-\037\177-\377])/sprintf('\\x%02X',ord($1))/eg;s/([^\040-\176])/sprintf('\\x{%X}',ord($1))/eg;return qq("$_")}sub _dump_code {my$code=shift;state$deparse=do {require B::Deparse;B::Deparse->new("-l")};my$res=$deparse->coderef2text($code);my ($res_before_first_line,$res_after_first_line)=$res =~ /(.+?)^(#line .+)/ms;if ($OPT_REMOVE_PRAGMAS){$res_before_first_line="{"}elsif ($OPT_PERL_VERSION < 5.016){$res_before_first_line =~ s/no feature ':all';/no feature;/m}$res_after_first_line =~ s/^#line .+//gm;$res="sub" .$res_before_first_line .$res_after_first_line;$res =~ s/^\s+//gm;$res =~ s/\n+//g;$res =~ s/;\}\z/}/;$res}sub _quote_key {$_[0]=~ /\A-?[A-Za-z_][A-Za-z0-9_]*\z/ || $_[0]=~ /\A-?[1-9][0-9]{0,8}\z/ ? $_[0]: _double_quote($_[0])}sub _dump {my ($val,$subscript)=@_;my$ref=ref($val);if ($ref eq ''){if (!defined($val)){return "undef"}elsif (looks_like_number($val)&&!$OPT_STRINGIFY_NUMBERS && $val eq $val+0 && $val !~ /\A-?(?:inf(?:inity)?|nan)\z/i){return$val}else {return _double_quote($val)}}my$refaddr=refaddr($val);$_subscripts{$refaddr}//= $subscript;if ($_seen_refaddrs{$refaddr}++){push@_fixups,"\$a->$subscript=\$a",($_subscripts{$refaddr}? "->$_subscripts{$refaddr}" : ""),";";return "'fix'"}my$class;if ($ref eq 'Regexp' || $ref eq 'REGEXP'){require Regexp::Stringify;return Regexp::Stringify::stringify_regexp(regexp=>$val,with_qr=>1,plver=>$OPT_PERL_VERSION)}if (blessed$val){$class=$ref;$ref=reftype($val)}my$res;if ($ref eq 'ARRAY'){$res="[";my$i=0;for (@$val){$res .= "," if$i;$res .= _dump($_,"$subscript\[$i]");$i++}$res .= "]"}elsif ($ref eq 'HASH'){$res="{";my$i=0;for (sort keys %$val){$res .= "," if$i++;my$k=_quote_key($_);my$v=_dump($val->{$_},"$subscript\{$k}");$res .= "$k=>$v"}$res .= "}"}elsif ($ref eq 'SCALAR'){$res="\\"._dump($$val,$subscript)}elsif ($ref eq 'REF'){$res="\\"._dump($$val,$subscript)}elsif ($ref eq 'CODE'){$res=$OPT_DEPARSE ? _dump_code($val): 'sub{"DUMMY"}'}else {die "Sorry, I can't dump $val (ref=$ref) yet"}$res="bless($res,"._double_quote($class).")" if defined($class);$res}our$_is_dd;sub _dd_or_dmp {local%_seen_refaddrs;local%_subscripts;local@_fixups;my$res;if (@_ > 1){$res="(" .join(",",map {_dump($_,'')}@_).")"}else {$res=_dump($_[0],'')}if (@_fixups){$res="do{my\$a=$res;" .join("",@_fixups)."\$a}"}if ($_is_dd){say$res;return wantarray()|| @_ > 1 ? @_ : $_[0]}else {return$res}}sub dd {local$_is_dd=1;_dd_or_dmp(@_)}sub dmp {goto&_dd_or_dmp}1;
DATA_DMP
$fatpacked{"Devel/TypeTiny/Perl56Compat.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'DEVEL_TYPETINY_PERL56COMPAT';
package Devel::TypeTiny::Perl56Compat;use 5.006;use strict;use warnings;our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';use B ();unless (exists&B::perlstring){my$d;*B::perlstring=sub {no warnings 'uninitialized';require Data::Dumper;$d ||= 'Data::Dumper'->new([])->Indent(0)->Purity(0)->Pad('')->Useqq(1)->Terse(1)->Freezer('')->Toaster('');my$perlstring=$d->Values([''.shift])->Dump;($perlstring =~ /^"/)? $perlstring : qq["$perlstring"]}}unless (exists&B::cstring){*B::cstring=\&B::perlstring}push@B::EXPORT_OK,qw(perlstring cstring);5.6;
DEVEL_TYPETINY_PERL56COMPAT
$fatpacked{"Devel/TypeTiny/Perl58Compat.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'DEVEL_TYPETINY_PERL58COMPAT';
package Devel::TypeTiny::Perl58Compat;use 5.006;use strict;use warnings;our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';eval 'require re';unless (exists&re::is_regexp){require B;*re::is_regexp=sub {eval {B::svref_2object($_[0])->MAGIC->TYPE eq 'r'}}}5.6;
DEVEL_TYPETINY_PERL58COMPAT
$fatpacked{"Error/TypeTiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ERROR_TYPETINY';
package Error::TypeTiny;use 5.006001;use strict;use warnings;BEGIN {$Error::TypeTiny::AUTHORITY='cpan:TOBYINK';$Error::TypeTiny::VERSION='1.002001'}use overload q[""]=>sub {$_[0]->to_string},q[bool]=>sub {1},fallback=>1,;our%CarpInternal;$CarpInternal{$_}++ for qw(Eval::TypeTiny Eval::TypeTiny::Sandbox Exporter::Tiny Test::TypeTiny Type::Coercion Type::Coercion::Union Error::TypeTiny Type::Library Type::Params Type::Registry Types::Standard Types::Standard::_Stringable Types::TypeTiny Type::Tiny Type::Tiny::Class Type::Tiny::Duck Type::Tiny::Enum Type::Tiny::Intersection Type::Tiny::Role Type::Tiny::Union Type::Utils);sub new {my$class=shift;my%params=(@_==1)? %{$_[0]}: @_;return bless \%params,$class}sub throw {my$class=shift;my ($level,@caller,%ctxt)=0;while (defined scalar caller($level)and $CarpInternal{scalar caller($level)}){$level++};if (((caller($level - 1))[1]||"")=~ /^parameter validation for '(.+?)'$/){my ($pkg,$func)=($1 =~ m{^(.+)::(\w+)$});$level++ if caller($level)eq ($pkg||"")}$level++ if ((caller($level))[1]=~ /^\(eval \d+\)$/ and (caller($level))[3]eq '(eval)');@ctxt{qw/package file line/}=caller($level);my$stack=undef;if (our$StackTrace){require Devel::StackTrace;$stack="Devel::StackTrace"->new(ignore_package=>[keys%CarpInternal ],)}die(our$LastError=$class->new(context=>\%ctxt,stack_trace=>$stack,@_,))}sub message {$_[0]{message}||= $_[0]->_build_message};sub context {$_[0]{context}};sub stack_trace {$_[0]{stack_trace}};sub to_string {my$e=shift;my$c=$e->context;my$m=$e->message;$m =~ /\n\z/s ? $m : $c ? sprintf("%s at %s line %s.\n",$m,$c->{file}||'file?',$c->{line}||'NaN'): sprintf("%s\n",$m)}sub _build_message {return 'An exception has occurred'}sub croak {my ($fmt,@args)=@_;@_=(__PACKAGE__,message=>sprintf($fmt,@args),);goto \&throw}1;
ERROR_TYPETINY
$fatpacked{"Error/TypeTiny/Assertion.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ERROR_TYPETINY_ASSERTION';
package Error::TypeTiny::Assertion;use 5.006001;use strict;use warnings;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Error::TypeTiny::Assertion::AUTHORITY='cpan:TOBYINK';$Error::TypeTiny::Assertion::VERSION='1.002001'}require Error::TypeTiny;our@ISA='Error::TypeTiny';sub type {$_[0]{type}};sub value {$_[0]{value}};sub varname {$_[0]{varname}||= '$_'};sub attribute_step {$_[0]{attribute_step}};sub attribute_name {$_[0]{attribute_name}};sub has_type {defined $_[0]{type}};sub has_attribute_step {exists $_[0]{attribute_step}};sub has_attribute_name {exists $_[0]{attribute_name}};sub new {my$class=shift;my$self=$class->SUPER::new(@_);if (ref$Method::Generate::Accessor::CurrentAttribute){require B;my%d=%{$Method::Generate::Accessor::CurrentAttribute};$self->{attribute_name}=$d{name}if defined$d{name};$self->{attribute_step}=$d{step}if defined$d{step};if (defined$d{init_arg}){$self->{varname}=sprintf('$args->{%s}',B::perlstring($d{init_arg}))}elsif (defined$d{name}){$self->{varname}=sprintf('$self->{%s}',B::perlstring($d{name}))}}return$self}sub message {my$e=shift;$e->varname eq '$_' ? $e->SUPER::message : sprintf('%s (in %s)',$e->SUPER::message,$e->varname)}sub _build_message {my$e=shift;$e->has_type ? sprintf('%s did not pass type constraint "%s"',Type::Tiny::_dd($e->value),$e->type): sprintf('%s did not pass type constraint',Type::Tiny::_dd($e->value))}*to_string=sub {my$e=shift;my$msg=$e->message;my$c=$e->context;$msg .= sprintf(" at %s line %s",$c->{file}||'file?',$c->{line}||'NaN')if$c;my$explain=$e->explain;return "$msg\n" unless @{$explain || []};$msg .= "\n";for my$line (@$explain){$msg .= " $line\n"}return$msg}if $] >= 5.008;sub explain {my$e=shift;return undef unless$e->has_type;$e->type->validate_explain($e->value,$e->varname)}1;
ERROR_TYPETINY_ASSERTION
$fatpacked{"Error/TypeTiny/Compilation.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ERROR_TYPETINY_COMPILATION';
package Error::TypeTiny::Compilation;use 5.006001;use strict;use warnings;BEGIN {$Error::TypeTiny::Compilation::AUTHORITY='cpan:TOBYINK';$Error::TypeTiny::Compilation::VERSION='1.002001'}require Error::TypeTiny;our@ISA='Error::TypeTiny';sub code {$_[0]{code}};sub environment {$_[0]{environment}||= {}};sub errstr {$_[0]{errstr}};sub _build_message {my$self=shift;sprintf("Failed to compile source because: %s",$self->errstr)}1;
ERROR_TYPETINY_COMPILATION
$fatpacked{"Error/TypeTiny/WrongNumberOfParameters.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'ERROR_TYPETINY_WRONGNUMBEROFPARAMETERS';
package Error::TypeTiny::WrongNumberOfParameters;use 5.006001;use strict;use warnings;BEGIN {$Error::TypeTiny::WrongNumberOfParameters::AUTHORITY='cpan:TOBYINK';$Error::TypeTiny::WrongNumberOfParameters::VERSION='1.002001'}require Error::TypeTiny;our@ISA='Error::TypeTiny';sub minimum {$_[0]{minimum}};sub maximum {$_[0]{maximum}};sub got {$_[0]{got}};sub has_minimum {exists $_[0]{minimum}};sub has_maximum {exists $_[0]{maximum}};sub _build_message {my$e=shift;if ($e->has_minimum and $e->has_maximum and $e->minimum==$e->maximum){return sprintf("Wrong number of parameters; got %d; expected %d",$e->got,$e->minimum,)}elsif ($e->has_minimum and $e->has_maximum and $e->minimum < $e->maximum){return sprintf("Wrong number of parameters; got %d; expected %d to %d",$e->got,$e->minimum,$e->maximum,)}elsif ($e->has_minimum){return sprintf("Wrong number of parameters; got %d; expected at least %d",$e->got,$e->minimum,)}else {return sprintf("Wrong number of parameters; got %d",$e->got,)}}1;
ERROR_TYPETINY_WRONGNUMBEROFPARAMETERS
$fatpacked{"Eval/TypeTiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'EVAL_TYPETINY';
package Eval::TypeTiny;use strict;BEGIN {*HAS_LEXICAL_SUBS=($] >= 5.018)? sub(){!!1}: sub(){!!0}};{my$hlv;sub HAS_LEXICAL_VARS () {$hlv=!!eval {require Devel::LexAlias;exists(&Devel::LexAlias::lexalias)}unless defined$hlv;$hlv}}sub _clean_eval {local $@;local$SIG{__DIE__};my$r=eval $_[0];my$e=$@;return ($r,$e)}our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';our@EXPORT=qw(eval_closure);our@EXPORT_OK=qw(HAS_LEXICAL_SUBS HAS_LEXICAL_VARS);sub import {no warnings "redefine";our@ISA=qw(Exporter::Tiny);require Exporter::Tiny;my$next=\&Exporter::Tiny::import;*import=$next;my$class=shift;my$opts={ref($_[0])? %{+shift}: ()};$opts->{into}||= scalar(caller);return$class->$next($opts,@_)}use warnings;sub eval_closure {my (%args)=@_;my$src=ref$args{source}eq "ARRAY" ? join("\n",@{$args{source}}): $args{source};$args{alias}=0 unless defined$args{alias};$args{line}=1 unless defined$args{line};$args{description}=~ s/[^\w .:-\[\]\(\)\{\}\']//g if defined$args{description};$src=qq{#line $args{line} "$args{description}"\n$src} if defined$args{description}&&!($^P & 0x10);$args{environment}||= {};my$sandpkg='Eval::TypeTiny::Sandbox';my$alias=exists($args{alias})? $args{alias}: 0;my@keys=sort keys %{$args{environment}};my$i=0;my$source=join "\n"=>("package $sandpkg;","sub {",map(_make_lexical_assignment($_,$i++,$alias),@keys),$src,"}",);_manufacture_ties()if$alias &&!HAS_LEXICAL_VARS;my ($compiler,$e)=_clean_eval($source);if ($e){chomp$e;require Error::TypeTiny::Compilation;"Error::TypeTiny::Compilation"->throw(code=>(ref$args{source}eq "ARRAY" ? join("\n",@{$args{source}}): $args{source}),errstr=>$e,environment=>$args{environment},)}my$code=$compiler->(@{$args{environment}}{@keys});undef($compiler);if ($alias && HAS_LEXICAL_VARS){Devel::LexAlias::lexalias($code,$_,$args{environment}{$_})for grep!/^\&/,@keys}return$code}my$tmp;sub _make_lexical_assignment {my ($key,$index,$alias)=@_;my$name=substr($key,1);if (HAS_LEXICAL_SUBS and $key =~ /^\&/){$tmp++;my$tmpname='$__LEXICAL_SUB__'.$tmp;return "no warnings 'experimental::lexical_subs';"."use feature 'lexical_subs';"."my $tmpname = \$_[$index];"."my sub $name { goto $tmpname };"}if (!$alias){my$sigil=substr($key,0,1);return "my $key = $sigil\{ \$_[$index] };"}elsif (HAS_LEXICAL_VARS){return "my $key;"}else {my$tieclass={'@'=>'Eval::TypeTiny::_TieArray','%'=>'Eval::TypeTiny::_TieHash','$'=>'Eval::TypeTiny::_TieScalar',}->{substr($key,0,1)};return sprintf('tie(my(%s), "%s", $_[%d]);',$key,$tieclass,$index,)}}{my$tie;sub _manufacture_ties {$tie ||= eval <<'FALLBACK'}}1;
no warnings qw(void once uninitialized numeric);
{
package #
Eval::TypeTiny::_TieArray;
require Tie::Array;
our @ISA = qw( Tie::StdArray );
sub TIEARRAY {
my $class = shift;
bless $_[0] => $class;
}
sub AUTOLOAD {
my $self = shift;
my ($method) = (our $AUTOLOAD =~ /(\w+)$/);
defined tied(@$self) and return tied(@$self)->$method(@_);
require Carp;
Carp::croak(qq[Can't call method "$method" on an undefined value]);
}
sub can {
my $self = shift;
my $code = $self->SUPER::can(@_)
|| (defined tied(@$self) and tied(@$self)->can(@_));
return $code;
}
use overload
q[bool] => sub { !! tied @{$_[0]} },
q[""] => sub { '' . tied @{$_[0]} },
q[0+] => sub { 0 + tied @{$_[0]} },
fallback => 1,
;
}
{
package #
Eval::TypeTiny::_TieHash;
require Tie::Hash;
our @ISA = qw( Tie::StdHash );
sub TIEHASH {
my $class = shift;
bless $_[0] => $class;
}
sub AUTOLOAD {
my $self = shift;
my ($method) = (our $AUTOLOAD =~ /(\w+)$/);
defined tied(%$self) and return tied(%$self)->$method(@_);
require Carp;
Carp::croak(qq[Can't call method "$method" on an undefined value]);
}
sub can {
my $self = shift;
my $code = $self->SUPER::can(@_)
|| (defined tied(%$self) and tied(%$self)->can(@_));
return $code;
}
use overload
q[bool] => sub { !! tied %{$_[0]} },
q[""] => sub { '' . tied %{$_[0]} },
q[0+] => sub { 0 + tied %{$_[0]} },
fallback => 1,
;
}
{
package #
Eval::TypeTiny::_TieScalar;
require Tie::Scalar;
our @ISA = qw( Tie::StdScalar );
sub TIESCALAR {
my $class = shift;
bless $_[0] => $class;
}
sub AUTOLOAD {
my $self = shift;
my ($method) = (our $AUTOLOAD =~ /(\w+)$/);
defined tied($$self) and return tied($$self)->$method(@_);
require Carp;
Carp::croak(qq[Can't call method "$method" on an undefined value]);
}
sub can {
my $self = shift;
my $code = $self->SUPER::can(@_)
|| (defined tied($$self) and tied($$self)->can(@_));
return $code;
}
use overload
q[bool] => sub { !! tied ${$_[0]} },
q[""] => sub { '' . tied ${$_[0]} },
q[0+] => sub { 0 + tied ${$_[0]} },
fallback => 1,
;
}
1;
FALLBACK
EVAL_TYPETINY
$fatpacked{"Exporter/Shiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'EXPORTER_SHINY';
package Exporter::Shiny;use 5.006001;use strict;use warnings;use Exporter::Tiny ();our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.000000';sub import {my$me=shift;my$caller=caller;(my$nominal_file=$caller)=~ s(::)(/)g;$INC{"$nominal_file\.pm"}||= __FILE__;if (@_==2 and $_[0]eq -setup){my (undef,$opts)=@_;@_=@{delete($opts->{exports})|| []};if (%$opts){Exporter::Tiny::_croak('Unsupported Sub::Exporter-style options: %s',join(q[, ],sort keys %$opts),)}}ref($_)&& Exporter::Tiny::_croak('Expected sub name, got ref %s',$_)for @_;no strict qw(refs);push @{"$caller\::ISA"},'Exporter::Tiny';push @{"$caller\::EXPORT_OK"},@_}1;
EXPORTER_SHINY
$fatpacked{"Exporter/Tiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'EXPORTER_TINY';
package Exporter::Tiny;use 5.006001;use strict;use warnings;no warnings qw(void once uninitialized numeric redefine);our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.000000';our@EXPORT_OK=qw<mkopt mkopt_hash _croak _carp>;sub _croak ($;@) {require Carp;my$fmt=shift;@_=sprintf($fmt,@_);goto \&Carp::croak}sub _carp ($;@) {require Carp;my$fmt=shift;@_=sprintf($fmt,@_);goto \&Carp::carp}my$_process_optlist=sub {my$class=shift;my ($global_opts,$opts,$want,$not_want)=@_;while (@$opts){my$opt=shift @{$opts};my ($name,$value)=@$opt;($name =~ m{\A\!(/.+/[msixpodual]+)\z})? do {my@not=$class->_exporter_expand_regexp($1,$value,$global_opts);++$not_want->{$_->[0]}for@not}: ($name =~ m{\A\!(.+)\z})? (++$not_want->{$1}): ($name =~ m{\A[:-](.+)\z})? push(@$opts,$class->_exporter_expand_tag($1,$value,$global_opts)): ($name =~ m{\A/.+/[msixpodual]+\z})? push(@$opts,$class->_exporter_expand_regexp($name,$value,$global_opts)): push(@$want,$opt)}};sub import {my$class=shift;my$global_opts=+{@_ && ref($_[0])eq q(HASH) ? %{+shift}: ()};$global_opts->{into}=caller unless exists$global_opts->{into};my@want;my%not_want;$global_opts->{not}=\%not_want;my@args=do {no strict qw(refs);@_ ? @_ : @{"$class\::EXPORT"}};my$opts=mkopt(\@args);$class->$_process_optlist($global_opts,$opts,\@want,\%not_want);my$permitted=$class->_exporter_permitted_regexp($global_opts);$class->_exporter_validate_opts($global_opts);for my$wanted (@want){next if$not_want{$wanted->[0]};my%symbols=$class->_exporter_expand_sub(@$wanted,$global_opts,$permitted);$class->_exporter_install_sub($_,$wanted->[1],$global_opts,$symbols{$_})for keys%symbols}}sub unimport {my$class=shift;my$global_opts=+{@_ && ref($_[0])eq q(HASH) ? %{+shift}: ()};$global_opts->{into}=caller unless exists$global_opts->{into};$global_opts->{is_unimport}=1;my@want;my%not_want;$global_opts->{not}=\%not_want;my@args=do {our%TRACKED;@_ ? @_ : keys(%{$TRACKED{$class}{$global_opts->{into}}})};my$opts=mkopt(\@args);$class->$_process_optlist($global_opts,$opts,\@want,\%not_want);my$permitted=$class->_exporter_permitted_regexp($global_opts);$class->_exporter_validate_unimport_opts($global_opts);my$expando=$class->can('_exporter_expand_sub');$expando=undef if$expando==\&_exporter_expand_sub;for my$wanted (@want){next if$not_want{$wanted->[0]};if ($wanted->[1]){_carp("Passing options to unimport '%s' makes no sense",$wanted->[0])unless (ref($wanted->[1])eq 'HASH' and not keys %{$wanted->[1]})}my%symbols=defined($expando)? $class->$expando(@$wanted,$global_opts,$permitted): ($wanted->[0]=>sub {"dummy"});$class->_exporter_uninstall_sub($_,$wanted->[1],$global_opts)for keys%symbols}}sub _exporter_validate_opts {1}sub _exporter_validate_unimport_opts {1}sub _exporter_merge_opts {my$class=shift;my ($tag_opts,$global_opts,@stuff)=@_;$tag_opts={}unless ref($tag_opts)eq q(HASH);_croak('Cannot provide an -as option for tags')if exists$tag_opts->{-as}&& ref$tag_opts->{-as}ne 'CODE';my$optlist=mkopt(\@stuff);for my$export (@$optlist){next if defined($export->[1])&& ref($export->[1])ne q(HASH);my%sub_opts=(%{$export->[1]or {}},%$tag_opts);$sub_opts{-prefix}=sprintf('%s%s',$tag_opts->{-prefix},$export->[1]{-prefix})if exists($export->[1]{-prefix})&& exists($tag_opts->{-prefix});$sub_opts{-suffix}=sprintf('%s%s',$export->[1]{-suffix},$tag_opts->{-suffix})if exists($export->[1]{-suffix})&& exists($tag_opts->{-suffix});$export->[1]=\%sub_opts}return @$optlist}sub _exporter_expand_tag {no strict qw(refs);my$class=shift;my ($name,$value,$globals)=@_;my$tags=\%{"$class\::EXPORT_TAGS"};return$class->_exporter_merge_opts($value,$globals,$tags->{$name}->($class,@_))if ref($tags->{$name})eq q(CODE);return$class->_exporter_merge_opts($value,$globals,@{$tags->{$name}})if exists$tags->{$name};return$class->_exporter_merge_opts($value,$globals,@{"$class\::EXPORT"},@{"$class\::EXPORT_OK"})if$name eq 'all';return$class->_exporter_merge_opts($value,$globals,@{"$class\::EXPORT"})if$name eq 'default';$globals->{$name}=$value || 1;return}sub _exporter_expand_regexp {no strict qw(refs);our%TRACKED;my$class=shift;my ($name,$value,$globals)=@_;my$compiled=eval("qr$name");my@possible=$globals->{is_unimport}? keys(%{$TRACKED{$class}{$globals->{into}}}): @{"$class\::EXPORT_OK"};$class->_exporter_merge_opts($value,$globals,grep /$compiled/,@possible)}sub _exporter_permitted_regexp {no strict qw(refs);my$class=shift;my$re=join "|",map quotemeta,sort {length($b)<=> length($a)or $a cmp $b}@{"$class\::EXPORT"},@{"$class\::EXPORT_OK"};qr{^(?:$re)$}ms}sub _exporter_expand_sub {my$class=shift;my ($name,$value,$globals,$permitted)=@_;$permitted ||= $class->_exporter_permitted_regexp($globals);no strict qw(refs);if ($name =~ $permitted){my$generator=$class->can("_generate_$name");return$name=>$class->$generator($name,$value,$globals)if$generator;my$sub=$class->can($name);return$name=>$sub if$sub}$class->_exporter_fail(@_)}sub _exporter_fail {my$class=shift;my ($name,$value,$globals)=@_;return if$globals->{is_unimport};_croak("Could not find sub '%s' exported by %s",$name,$class)}sub _exporter_install_sub {my$class=shift;my ($name,$value,$globals,$sym)=@_;my$into=$globals->{into};my$installer=$globals->{installer}|| $globals->{exporter};$name=ref$globals->{as}? $globals->{as}->($name): ref$value->{-as}? $value->{-as}->($name): exists$value->{-as}? $value->{-as}: $name;return unless defined$name;unless (ref($name)){my ($prefix)=grep defined,$value->{-prefix},$globals->{prefix},q();my ($suffix)=grep defined,$value->{-suffix},$globals->{suffix},q();$name="$prefix$name$suffix"}return ($$name=$sym)if ref($name)eq q(SCALAR);return ($into->{$name}=$sym)if ref($into)eq q(HASH);no strict qw(refs);if (exists &{"$into\::$name"}and \&{"$into\::$name"}!=$sym){my ($level)=grep defined,$value->{-replace},$globals->{replace},q(0);my$action={carp=>\&_carp,0=>\&_carp,''=>\&_carp,warn=>\&_carp,nonfatal=>\&_carp,croak=>\&_croak,fatal=>\&_croak,die=>\&_croak,}->{$level}|| sub {};$action->($action==\&_croak ? "Refusing to overwrite existing sub '%s::%s' with sub '%s' exported by %s" : "Overwriting existing sub '%s::%s' with sub '%s' exported by %s",$into,$name,$_[0],$class,)}our%TRACKED;$TRACKED{$class}{$into}{$name}=$sym;no warnings qw(prototype);$installer ? $installer->($globals,[$name,$sym]): (*{"$into\::$name"}=$sym)}sub _exporter_uninstall_sub {our%TRACKED;my$class=shift;my ($name,$value,$globals,$sym)=@_;my$into=$globals->{into};ref$into and return;no strict qw(refs);my$our_coderef=$TRACKED{$class}{$into}{$name};my$cur_coderef=exists(&{"$into\::$name"})? \&{"$into\::$name"}: -1;return unless$our_coderef==$cur_coderef;my$stash=\%{"$into\::"};my$old=delete$stash->{$name};my$full_name=join('::',$into,$name);for my$type (qw(SCALAR HASH ARRAY IO)){next unless defined(*{$old}{$type});*$full_name=*{$old}{$type}}delete$TRACKED{$class}{$into}{$name}}sub mkopt {my$in=shift or return [];my@out;$in=[map(($_=>ref($in->{$_})? $in->{$_}: ()),sort keys %$in)]if ref($in)eq q(HASH);for (my$i=0;$i < @$in;$i++){my$k=$in->[$i];my$v;($i==$#$in)? ($v=undef): !defined($in->[$i+1])? (++$i,($v=undef)): !ref($in->[$i+1])? ($v=undef): ($v=$in->[++$i]);push@out,[$k=>$v ]}\@out}sub mkopt_hash {my$in=shift or return;my%out=map +($_->[0]=>$_->[1]),@{mkopt($in)};\%out}1;
EXPORTER_TINY
$fatpacked{"File/Which.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'FILE_WHICH';
package File::Which;use strict;use warnings;use Exporter ();use File::Spec ();our$VERSION='1.22';our@ISA='Exporter';our@EXPORT='which';our@EXPORT_OK='where';use constant IS_VMS=>($^O eq 'VMS');use constant IS_MAC=>($^O eq 'MacOS');use constant IS_DOS=>($^O eq 'MSWin32' or $^O eq 'dos' or $^O eq 'os2');use constant IS_CYG=>($^O eq 'cygwin' || $^O eq 'msys');my@PATHEXT=('');if (IS_DOS){if ($ENV{PATHEXT}){push@PATHEXT,split ';',$ENV{PATHEXT}}else {push@PATHEXT,qw{.com .exe .bat}}}elsif (IS_VMS){push@PATHEXT,qw{.exe .com}}elsif (IS_CYG){push@PATHEXT,qw{.exe .com}}sub which {my ($exec)=@_;return undef unless defined$exec;return undef if$exec eq '';my$all=wantarray;my@results=();if (IS_VMS){my$symbol=`SHOW SYMBOL $exec`;chomp($symbol);unless ($?){return$symbol unless$all;push@results,$symbol}}if (IS_MAC){my@aliases=split /\,/,$ENV{Aliases};for my$alias (@aliases){if (lc($alias)eq lc($exec)){chomp(my$file=`Alias $alias`);last unless$file;return$file unless$all;push@results,$file;last}}}return$exec if!IS_VMS and!IS_MAC and!IS_DOS and $exec =~ /\// and -f $exec and -x $exec;my@path=File::Spec->path;if (IS_DOS or IS_VMS or IS_MAC){unshift@path,File::Spec->curdir}for my$base (map {File::Spec->catfile($_,$exec)}@path){for my$ext (@PATHEXT){my$file=$base.$ext;next if -d $file;if (-x _ or (IS_MAC || ((IS_DOS or IS_CYG)and grep {$file =~ /$_\z/i}@PATHEXT[1..$#PATHEXT])and -e _)){return$file unless$all;push@results,$file}}}if ($all){return@results}else {return undef}}sub where {my@res=which($_[0]);return@res}1;
FILE_WHICH
$fatpacked{"File/pushd.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'FILE_PUSHD';
use strict;use warnings;package File::pushd;our$VERSION='1.014';our@EXPORT=qw(pushd tempd);our@ISA=qw(Exporter);use Exporter;use Carp;use Cwd qw(getcwd abs_path);use File::Path qw(rmtree);use File::Temp qw();use File::Spec;use overload q{""}=>sub {File::Spec->canonpath($_[0]->{_pushd})},fallback=>1;sub pushd {unless (defined wantarray){warnings::warnif(void=>'Useless use of File::pushd::pushd in void context');return}my ($target_dir,$options)=@_;$options->{untaint_pattern}||= qr{^([-+@\w./]+)$};$target_dir="." unless defined$target_dir;croak "Can't locate directory $target_dir" unless -d $target_dir;my$tainted_orig=getcwd;my$orig;if ($tainted_orig =~ $options->{untaint_pattern}){$orig=$1}else {$orig=$tainted_orig}my$tainted_dest;eval {$tainted_dest=$target_dir ? abs_path($target_dir): $orig};croak "Can't locate absolute path for $target_dir: $@" if $@;my$dest;if ($tainted_dest =~ $options->{untaint_pattern}){$dest=$1}else {$dest=$tainted_dest}if ($dest ne $orig){chdir$dest or croak "Can't chdir to $dest\: $!"}my$self=bless {_pushd=>$dest,_original=>$orig },__PACKAGE__;return$self}sub tempd {unless (defined wantarray){warnings::warnif(void=>'Useless use of File::pushd::tempd in void context');return}my ($options)=@_;my$dir;eval {$dir=pushd(File::Temp::tempdir(CLEANUP=>0),$options)};croak $@ if $@;$dir->{_tempd}=1;return$dir}sub preserve {my$self=shift;return 1 if!$self->{"_tempd"};if (@_==0){return$self->{_preserve}=1}else {return$self->{_preserve}=$_[0]? 1 : 0}}sub DESTROY {my ($self)=@_;my$orig=$self->{_original};chdir$orig if$orig;if ($self->{_tempd}&&!$self->{_preserve}){my$err=do {local $@;eval {rmtree($self->{_pushd})};$@};carp$err if$err}}1;
FILE_PUSHD
$fatpacked{"Getopt/Long/Subcommand.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GETOPT_LONG_SUBCOMMAND';
package Getopt::Long::Subcommand;our$DATE='2017-08-12';our$VERSION='0.102';use 5.010001;use strict;use warnings;require Exporter;our@ISA=qw(Exporter);our@EXPORT=qw(GetOptions);my@known_cmdspec_keys=qw(options subcommands default_subcommand summary description completion configure);sub _cmdspec_opts_to_gl_ospec {my ($cmdspec_opts,$is_completion,$res)=@_;return {map {if ($is_completion){($_=>sub{})}else {my$k=$_;my$v=$cmdspec_opts->{$k};my$handler=ref($v)eq 'HASH' ? $v->{handler}: $v;if (ref($handler)eq 'CODE'){my$orig_handler=$handler;$handler=sub {my ($cb,$val)=@_;$orig_handler->($cb,$val,$res)}}($k=>$handler)}}keys %$cmdspec_opts }}sub _gl_getoptions {require Getopt::Long;my ($ospec,$configure,$pass_through,$res)=@_;my@configure=@{$configure // ['no_ignore_case','no_getopt_compat','gnu_compat','bundling']};if ($pass_through){push@configure,'pass_through' unless grep {$_ eq 'pass_through'}@configure}else {@configure=grep {$_ ne 'pass_through'}@configure}my$old_conf=Getopt::Long::Configure(@configure);local$SIG{__WARN__}=sub {}if$pass_through;local$res->{_non_options_argv}=[];my$gl_res=Getopt::Long::GetOptions(%$ospec,'<>'=>sub {push @{$res->{_non_options_argv}},$_[0]},);@ARGV=@{$res->{_non_options_argv}};Getopt::Long::Configure($old_conf);$gl_res}sub _GetOptions {my ($cmdspec,$is_completion,$res,$stash)=@_;$res //= {success=>undef};$stash //= {path=>'',level=>0,};{for my$k (keys %$cmdspec){(grep {$_ eq $k}@known_cmdspec_keys)or die "Unknown command specification key '$k'" .($stash->{path}? " (under $stash->{path})" : "")."\n"}}my$has_subcommands=$cmdspec->{subcommands}&& keys(%{$cmdspec->{subcommands}});my$pass_through=$has_subcommands || $is_completion;my$ospec=_cmdspec_opts_to_gl_ospec($cmdspec->{options},$is_completion,$res);unless (_gl_getoptions($ospec,$cmdspec->{configure},$pass_through,$res)){$res->{success}=0;return$res}if ($is_completion){$res->{comp_ospec}//= {};for (keys %$ospec){$res->{comp_ospec}{$_}=$ospec->{$_}}}if ($has_subcommands){if ($is_completion){$res->{comp_subcommand_names}[$stash->{level}]=[sort keys %{$cmdspec->{subcommands}}]}$res->{subcommand}//= [];my$push;my$sc_name;if (defined$res->{subcommand}[$stash->{level}]){$sc_name=$res->{subcommand}[$stash->{level}]}elsif (@ARGV){$sc_name=shift@ARGV;$push++}elsif (defined$cmdspec->{default_subcommand}){$sc_name=$cmdspec->{default_subcommand};$push++}else {$res->{success}=1;return$res}if ($is_completion){push @{$res->{comp_subcommand_name}},$sc_name}my$sc_spec=$cmdspec->{subcommands}{$sc_name};unless ($sc_spec){warn "Unknown subcommand '$sc_name'".($stash->{path}? " for $stash->{path}":"")."\n" unless$is_completion;$res->{success}=0;return$res};push @{$res->{subcommand}},$sc_name if$push;local$stash->{path}=($stash->{path}? "/" : "").$sc_name;local$stash->{level}=$stash->{level}+1;_GetOptions($sc_spec,$is_completion,$res,$stash)}$res->{success}//= 1;$res}sub GetOptions {my%cmdspec=@_;my ($is_completion,$shell,$words,$cword);CHECK_COMPLETION: {if ($ENV{COMP_SHELL}){($shell=$ENV{COMP_SHELL})=~ s!.+/!!}elsif ($ENV{COMMAND_LINE}){$shell='tcsh'}else {$shell='bash'}if ($ENV{COMP_LINE}|| $ENV{COMMAND_LINE}){if ($ENV{COMP_LINE}){$is_completion++;require Complete::Bash;($words,$cword)=@{Complete::Bash::parse_cmdline(undef,undef,{truncate_current_word=>1})};($words,$cword)=@{Complete::Bash::join_wordbreak_words($words,$cword)}}elsif ($ENV{COMMAND_LINE}){$is_completion++;require Complete::Tcsh;$shell='tcsh';($words,$cword)=@{Complete::Tcsh::parse_cmdline()}}else {last CHECK_COMPLETION}shift @$words;$cword--;@ARGV=@$words}}my$res=_GetOptions(\%cmdspec,$is_completion);if ($is_completion){my$ospec=$res->{comp_ospec};require Complete::Getopt::Long;my$compres=Complete::Getopt::Long::complete_cli_arg(words=>$words,cword=>$cword,getopt_spec=>$ospec,extras=>{stash=>$res->{stash},},bundling=>do {if (!$cmdspec{configure}){1}elsif (grep {$_ eq 'bundling'}@{$cmdspec{configure}}){1}elsif (grep {$_ eq 'no_bundling'}@{$cmdspec{configure}}){0}else {0}},completion=>sub {my%args=@_;my$word=$args{word}// '';my$type=$args{type};my$stash=$args{stash};if ($type eq 'arg' && $args{argpos}< @{$res->{comp_subcommand_names}//[]}){require Complete::Util;return Complete::Util::complete_array_elem(array=>$res->{comp_subcommand_names}[$args{argpos}],word=>$res->{comp_subcommand_name}[$args{argpos}],)}$args{getopt_res}=$res;$args{subcommand}=$res->{comp_subcommand_name};$cmdspec{completion}->(%args)if$cmdspec{completion}},);if ($shell eq 'bash'){print Complete::Bash::format_completion($compres)}elsif ($shell eq 'tcsh'){print Complete::Tcsh::format_completion($compres)}else {die "Unknown shell '$shell'"}exit 0}$res}1;
GETOPT_LONG_SUBCOMMAND
$fatpacked{"Graph.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH';
package Graph;use strict;use warnings;no warnings 'redefine';BEGIN {if (0){$SIG{__DIE__ }=\&__carp_confess;$SIG{__WARN__}=\&__carp_confess}sub __carp_confess {require Carp;Carp::confess(@_)}}use Graph::AdjacencyMap qw(:flags :fields);use vars qw($VERSION);$VERSION='0.9704';require 5.006;my$can_deep_copy_Storable=eval {require Storable;require B::Deparse;Storable->VERSION(2.05);B::Deparse->VERSION(0.61);1};sub _can_deep_copy_Storable () {return$can_deep_copy_Storable}use Graph::AdjacencyMap::Heavy;use Graph::AdjacencyMap::Light;use Graph::AdjacencyMap::Vertex;use Graph::UnionFind;use Graph::TransitiveClosure;use Graph::Traversal::DFS;use Graph::MSTHeapElem;use Graph::SPTHeapElem;use Graph::Undirected;use Heap071::Fibonacci;use List::Util qw(shuffle first);use Scalar::Util qw(weaken);use Safe;sub _F () {0}sub _G () {1}sub _V () {2}sub _E () {3}sub _A () {4}sub _U () {5}sub _S () {6}sub _P () {7}my$Inf;BEGIN {if ($] >= 5.022){$Inf=eval '+"Inf"'}else {local$SIG{FPE};eval {$Inf=exp(999)}|| eval {$Inf=9**9**9}|| eval {$Inf=1e+999}|| {$Inf=1e+99 }}}sub Infinity () {$Inf}use Graph::Attribute array=>_A,map=>'graph';sub _COMPAT02 () {0x00000001}sub stringify {my$g=shift;my$u=$g->is_undirected;my$e=$u ? '=' : '-';my@e=map {my@v=map {ref($_)eq 'ARRAY' ? "[" .join(" ",@$_)."]" : "$_"}@$_;join($e,$u ? sort {"$a" cmp "$b"}@v : @v)}$g->edges05;my@s=sort {"$a" cmp "$b"}@e;push@s,sort {"$a" cmp "$b"}$g->isolated_vertices;join(",",@s)}sub eq {"$_[0]" eq "$_[1]"}sub boolify {1}sub ne {"$_[0]" ne "$_[1]"}use overload '""'=>\&stringify,'bool'=>\&boolify,'eq'=>\&eq,'ne'=>\≠sub _opt {my ($opt,$flags,%flags)=@_;while (my ($flag,$FLAG)=each%flags){if (exists$opt->{$flag}){$$flags |= $FLAG if$opt->{$flag};delete$opt->{$flag}}if (exists$opt->{my$non="non$flag"}){$$flags &= ~$FLAG if$opt->{$non};delete$opt->{$non}}}}sub is_compat02 {my ($g)=@_;$g->[_F ]& _COMPAT02}*compat02=\&is_compat02;sub has_union_find {my ($g)=@_;($g->[_F ]& _UNIONFIND)&& defined$g->[_U ]}sub _get_union_find {my ($g)=@_;$g->[_U ]}sub _opt_get {my ($opt,$key,$var)=@_;if (exists$opt->{$key}){$$var=$opt->{$key};delete$opt->{$key}}}sub _opt_unknown {my ($opt)=@_;if (my@opt=keys %$opt){my$f=(caller(1))[3];require Carp;Carp::confess(sprintf "$f: Unknown option%s: @{[map { qq['$_'] } sort @opt]}",@opt > 1 ? 's' : '')}}sub new {my$class=shift;my$gflags=0;my$vflags;my$eflags;my%opt=_get_options(\@_);if (ref$class && $class->isa('Graph')){no strict 'refs';for my$c (qw(undirected refvertexed compat02 hypervertexed countvertexed multivertexed hyperedged countedged multiedged omniedged __stringified)){if (&{"Graph::$c"}($class)){$opt{$c}++}}if (&{"Graph::has_union_find"}($class)){$opt{unionfind}++}}_opt_get(\%opt,undirected=>\$opt{omniedged});_opt_get(\%opt,omnidirected=>\$opt{omniedged});if (exists$opt{directed}){$opt{omniedged}=!$opt{directed};delete$opt{directed}}my$vnonomni=$opt{nonomnivertexed}|| (exists$opt{omnivertexed}&&!$opt{omnivertexed});my$vnonuniq=$opt{nonuniqvertexed}|| (exists$opt{uniqvertexed}&&!$opt{uniqvertexed});_opt(\%opt,\$vflags,countvertexed=>_COUNT,multivertexed=>_MULTI,hypervertexed=>_HYPER,omnivertexed=>_UNORD,uniqvertexed=>_UNIQ,refvertexed=>_REF,refvertexed_stringified=>_REFSTR,__stringified=>_STR,);_opt(\%opt,\$eflags,countedged=>_COUNT,multiedged=>_MULTI,hyperedged=>_HYPER,omniedged=>_UNORD,uniqedged=>_UNIQ,);_opt(\%opt,\$gflags,compat02=>_COMPAT02,unionfind=>_UNIONFIND,);if (exists$opt{vertices_unsorted}){my$unsorted=$opt{vertices_unsorted};delete$opt{vertices_unsorted};require Carp;Carp::confess("Graph: vertices_unsorted must be true")unless$unsorted}my@V;if ($opt{vertices}){require Carp;Carp::confess("Graph: vertices should be an array ref")unless ref$opt{vertices}eq 'ARRAY';@V=@{$opt{vertices}};delete$opt{vertices}}my@E;if ($opt{edges}){unless (ref$opt{edges}eq 'ARRAY'){require Carp;Carp::confess("Graph: edges should be an array ref of array refs")}@E=@{$opt{edges}};delete$opt{edges}}_opt_unknown(\%opt);my$uflags;if (defined$vflags){$uflags=$vflags;$uflags |= _UNORD unless$vnonomni;$uflags |= _UNIQ unless$vnonuniq}else {$uflags=_UNORDUNIQ;$vflags=0}if (!($vflags & _HYPER)&& ($vflags & _UNORDUNIQ)){my@but;push@but,'unordered' if ($vflags & _UNORD);push@but,'unique' if ($vflags & _UNIQ);require Carp;Carp::confess(sprintf "Graph: not hypervertexed but %s",join(' and ',@but))}unless (defined$eflags){$eflags=($gflags & _COMPAT02)? _COUNT : 0}if (!($vflags & _HYPER)&& ($vflags & _UNIQ)){require Carp;Carp::confess("Graph: not hypervertexed but uniqvertexed")}if (($vflags & _COUNT)&& ($vflags & _MULTI)){require Carp;Carp::confess("Graph: both countvertexed and multivertexed")}if (($eflags & _COUNT)&& ($eflags & _MULTI)){require Carp;Carp::confess("Graph: both countedged and multiedged")}my$g=bless [],ref$class || $class;$g->[_F ]=$gflags;$g->[_G ]=0;$g->[_V ]=($vflags & (_HYPER | _MULTI))? Graph::AdjacencyMap::Heavy->_new($uflags,1): (($vflags & ~_UNORD)? Graph::AdjacencyMap::Vertex->_new($uflags,1): Graph::AdjacencyMap::Light->_new($g,$uflags,1));$g->[_E ]=(($vflags & _HYPER)|| ($eflags & ~_UNORD))? Graph::AdjacencyMap::Heavy->_new($eflags,2): Graph::AdjacencyMap::Light->_new($g,$eflags,2);$g->add_vertices(@V)if@V;if (@E){for my$e (@E){unless (ref$e eq 'ARRAY'){require Carp;Carp::confess("Graph: edges should be array refs")}$g->add_edge(@$e)}}if (($gflags & _UNIONFIND)){$g->[_U ]=Graph::UnionFind->new}return$g}sub countvertexed {$_[0]->[_V ]->_is_COUNT}sub multivertexed {$_[0]->[_V ]->_is_MULTI}sub hypervertexed {$_[0]->[_V ]->_is_HYPER}sub omnivertexed {$_[0]->[_V ]->_is_UNORD}sub uniqvertexed {$_[0]->[_V ]->_is_UNIQ}sub refvertexed {$_[0]->[_V ]->_is_REF}sub refvertexed_stringified {$_[0]->[_V ]->_is_REFSTR}sub __stringified {$_[0]->[_V ]->_is_STR}sub countedged {$_[0]->[_E ]->_is_COUNT}sub multiedged {$_[0]->[_E ]->_is_MULTI}sub hyperedged {$_[0]->[_E ]->_is_HYPER}sub omniedged {$_[0]->[_E ]->_is_UNORD}sub uniqedged {$_[0]->[_E ]->_is_UNIQ}*undirected=\&omniedged;*omnidirected=\&omniedged;sub directed {!$_[0]->[_E ]->_is_UNORD}*is_directed=\&directed;*is_undirected=\&undirected;*is_countvertexed=\&countvertexed;*is_multivertexed=\&multivertexed;*is_hypervertexed=\&hypervertexed;*is_omnidirected=\&omnidirected;*is_uniqvertexed=\&uniqvertexed;*is_refvertexed=\&refvertexed;*is_refvertexed_stringified=\&refvertexed_stringified;*is_countedged=\&countedged;*is_multiedged=\&multiedged;*is_hyperedged=\&hyperedged;*is_omniedged=\&omniedged;*is_uniqedged=\&uniqedged;sub _union_find_add_vertex {my ($g,$v)=@_;my$UF=$g->[_U ];$UF->add($g->[_V ]->_get_path_id($v))}sub add_vertex {my$g=shift;if (@_!=1){$g->expect_hypervertexed}if ($g->is_multivertexed){return$g->add_vertex_by_id(@_,_GEN_ID)}my@r;if (@_ > 1){unless ($g->is_countvertexed || $g->is_hypervertexed){require Carp;Carp::croak("Graph::add_vertex: use add_vertices for more than one vertex or use hypervertexed")}for my$v (@_){if (defined$v){$g->[_V ]->set_path($v)unless$g->has_vertex($v)}else {require Carp;Carp::croak("Graph::add_vertex: undef vertex")}}}for my$v (@_){unless (defined$v){require Carp;Carp::croak("Graph::add_vertex: undef vertex")}}$g->[_V ]->set_path(@_);$g->[_G ]++;$g->_union_find_add_vertex(@_)if$g->has_union_find;return$g}sub has_vertex {my$g=shift;my$V=$g->[_V ];return exists$V->[_s ]->{$_[0]}if ($V->[_f ]& _LIGHT);$V->has_path(@_)}sub vertices05 {my$g=shift;my@v=$g->[_V ]->paths(@_);if (wantarray){return$g->[_V ]->_is_HYPER ? @v : map {ref $_ eq 'ARRAY' ? @$_ : $_}@v}else {return scalar@v}}sub vertices {my$g=shift;my@v=$g->vertices05;if ($g->is_compat02){wantarray ? sort@v : scalar@v}else {if ($g->is_multivertexed || $g->is_countvertexed){if (wantarray){my@V;for my$v (@v){push@V,($v)x $g->get_vertex_count($v)}return@V}else {my$V=0;for my$v (@v){$V += $g->get_vertex_count($v)}return$V}}else {return@v}}}*vertices_unsorted=\&vertices_unsorted;sub unique_vertices {my$g=shift;my@v=$g->vertices05;if ($g->is_compat02){wantarray ? sort@v : scalar@v}else {return@v}}sub has_vertices {my$g=shift;scalar$g->[_V ]->has_paths(@_)}sub _add_edge {my$g=shift;my$V=$g->[_V ];my@e;if (($V->[_f ])& _LIGHT){for my$v (@_){$g->add_vertex($v)unless exists$V->[_s ]->{$v };push@e,$V->[_s ]->{$v }}}else {my$h=$g->[_V ]->_is_HYPER;for my$v (@_){my@v=ref$v eq 'ARRAY' && $h ? @$v : $v;$g->add_vertex(@v)unless$V->has_path(@v);push@e,$V->_get_path_id(@v)}}return@e}sub _union_find_add_edge {my ($g,$u,$v)=@_;$g->[_U ]->union($u,$v)}sub add_edge {my$g=shift;if (@_!=2){$g->expect_hyperedged}if ($g->is_multiedged){unless (@_==2 || $g->is_hyperedged){require Carp;Carp::croak("Graph::add_edge: use add_edges for more than one edge")}return$g->add_edge_by_id(@_,_GEN_ID)}my@e=$g->_add_edge(@_);$g->[_E ]->set_path(@e);$g->[_G ]++;$g->_union_find_add_edge(@e)if$g->has_union_find;return$g}sub _vertex_ids {my$g=shift;my$V=$g->[_V ];my@e;if (($V->[_f ]& _LIGHT)){for my$v (@_){return ()unless exists$V->[_s ]->{$v };push@e,$V->[_s ]->{$v }}}else {my$h=$g->[_V ]->_is_HYPER;for my$v (@_){my@v=ref$v eq 'ARRAY' && $h ? @$v : $v;return ()unless$V->has_path(@v);push@e,$V->_get_path_id(@v)}}return@e}sub has_edge {my$g=shift;my$E=$g->[_E ];my$V=$g->[_V ];my@i;if (($V->[_f ]& _LIGHT)&& @_==2){return 0 unless exists$V->[_s ]->{$_[0]}&& exists$V->[_s ]->{$_[1]};@i=@{$V->[_s ]}{@_[0,1 ]}}else {@i=$g->_vertex_ids(@_);return 0 if@i==0 && @_}my$f=$E->[_f ];if ($E->[_a ]==2 && @i==2 &&!($f & (_HYPER|_REF|_UNIQ))){@i=sort@i if ($f & _UNORD);return exists$E->[_s ]->{$i[0]}&& exists$E->[_s ]->{$i[0]}->{$i[1]}? 1 : 0}else {return defined$E->_get_path_id(@i)? 1 : 0}}sub edges05 {my$g=shift;my$V=$g->[_V ];my@e=$g->[_E ]->paths(@_);wantarray ? map {[map {my@v=$V->_get_id_path($_);@v==1 ? $v[0]: [@v ]}@$_ ]}@e : @e}sub edges02 {my$g=shift;if (@_ && defined $_[0]){unless (defined $_[1]){my@e=$g->edges_at($_[0]);wantarray ? map {@$_}sort {$a->[0]cmp $b->[0]|| $a->[1]cmp $b->[1]}@e : @e}else {die "edges02: unimplemented option"}}else {my@e=map {($_)x $g->get_edge_count(@$_)}$g->edges05(@_);wantarray ? map {@$_}sort {$a->[0]cmp $b->[0]|| $a->[1]cmp $b->[1]}@e : @e}}sub unique_edges {my$g=shift;($g->is_compat02)? $g->edges02(@_): $g->edges05(@_)}sub edges {my$g=shift;if ($g->is_compat02){return$g->edges02(@_)}else {if ($g->is_multiedged || $g->is_countedged){if (wantarray){my@E;for my$e ($g->edges05){push@E,($e)x $g->get_edge_count(@$e)}return@E}else {my$E=0;for my$e ($g->edges05){$E += $g->get_edge_count(@$e)}return$E}}else {return$g->edges05}}}sub has_edges {my$g=shift;scalar$g->[_E ]->has_paths(@_)}sub add_vertex_by_id {my$g=shift;$g->expect_multivertexed;$g->[_V ]->set_path_by_multi_id(@_);$g->[_G ]++;$g->_union_find_add_vertex(@_)if$g->has_union_find;return$g}sub add_vertex_get_id {my$g=shift;$g->expect_multivertexed;my$id=$g->[_V ]->set_path_by_multi_id(@_,_GEN_ID);$g->[_G ]++;$g->_union_find_add_vertex(@_)if$g->has_union_find;return$id}sub has_vertex_by_id {my$g=shift;$g->expect_multivertexed;$g->[_V ]->has_path_by_multi_id(@_)}sub delete_vertex_by_id {my$g=shift;$g->expect_multivertexed;$g->expect_non_unionfind;my$V=$g->[_V ];return unless$V->has_path_by_multi_id(@_);$V->del_path_by_multi_id(@_);$g->[_G ]++;return$g}sub get_multivertex_ids {my$g=shift;$g->expect_multivertexed;$g->[_V ]->get_multi_ids(@_)}sub add_edge_by_id {my$g=shift;$g->expect_multiedged;my$id=pop;my@e=$g->_add_edge(@_);$g->[_E ]->set_path_by_multi_id(@e,$id);$g->[_G ]++;$g->_union_find_add_edge(@e)if$g->has_union_find;return$g}sub add_edge_get_id {my$g=shift;$g->expect_multiedged;my@i=$g->_add_edge(@_);my$id=$g->[_E ]->set_path_by_multi_id(@i,_GEN_ID);$g->_union_find_add_edge(@i)if$g->has_union_find;$g->[_G ]++;return$id}sub has_edge_by_id {my$g=shift;$g->expect_multiedged;my$id=pop;my@i=$g->_vertex_ids(@_);return 0 if@i==0 && @_;$g->[_E ]->has_path_by_multi_id(@i,$id)}sub delete_edge_by_id {my$g=shift;$g->expect_multiedged;$g->expect_non_unionfind;my$V=$g->[_E ];my$id=pop;my@i=$g->_vertex_ids(@_);return unless$V->has_path_by_multi_id(@i,$id);$V->del_path_by_multi_id(@i,$id);$g->[_G ]++;return$g}sub get_multiedge_ids {my$g=shift;$g->expect_multiedged;my@id=$g->_vertex_ids(@_);return unless@id;$g->[_E ]->get_multi_ids(@id)}sub vertices_at {my$g=shift;my$V=$g->[_V ];return @_ unless ($V->[_f ]& _HYPER);my%v;my@i;for my$v (@_){my$i=$V->_get_path_id($v);return unless defined$i;push@i,($v{$v }=$i)}my$Vi=$V->_ids;my@v;while (my ($i,$v)=each %{$Vi}){my%i;my$h=$V->[_f ]& _HYPER;@i{@i }=@i if@i;for my$u (ref$v eq 'ARRAY' && $h ? @$v : $v){my$j=exists$v{$u }? $v{$u }: ($v{$u }=$i);if (defined$j && exists$i{$j }){delete$i{$j };unless (keys%i){push@v,$v;last}}}}return@v}sub _edges_at {my$g=shift;my$V=$g->[_V ];my$E=$g->[_E ];my@e;my$en=0;my%ev;my$h=$V->[_f ]& _HYPER;for my$v ($h ? $g->vertices_at(@_): @_){my$vi=$V->_get_path_id(ref$v eq 'ARRAY' && $h ? @$v : $v);next unless defined$vi;my$Ei=$E->_ids;while (my ($ei,$ev)=each %{$Ei}){if (wantarray){for my$j (@$ev){push@e,[$ei,$ev ]if$j==$vi &&!$ev{$ei}++}}else {for my$j (@$ev){$en++ if$j==$vi}}}}return wantarray ? @e : $en}sub _edges {my$g=shift;my$n=pop;my$i=$n==_S ? 0 : -1;my$V=$g->[_V ];my$E=$g->[_E ];my$N=$g->[$n ];my$h=$V->[_f ]& _HYPER;unless (defined$N && $N->[0 ]==$g->[_G ]){$g->[$n ]->[1 ]={};$N=$g->[$n ];my$u=$E->[_f ]& _UNORD;my$Ei=$E->_ids;while (my ($ei,$ev)=each %{$Ei}){next unless @$ev;my$e=[$ei,$ev ];if ($u){push @{$N->[1 ]->{$ev->[0]}},$e;push @{$N->[1 ]->{$ev->[-1]}},$e}else {my$e=[$ei,$ev ];push @{$N->[1 ]->{$ev->[$i]}},$e}}$N->[0 ]=$g->[_G ]}my@e;my@at=$h ? $g->vertices_at(@_): @_;my%at;@at{@at}=();for my$v (@at){my$vi=$V->_get_path_id(ref$v eq 'ARRAY' && $h ? @$v : $v);next unless defined$vi && exists$N->[1 ]->{$vi };push@e,@{$N->[1 ]->{$vi }}}if (wantarray && $g->is_undirected){my@i=map {$V->_get_path_id($_)}@_;for my$e (@e){unless ($e->[1 ]->[$i ]==$i[$i ]){$e=[$e->[0 ],[reverse @{$e->[1 ]}]]}}}return@e}sub _edges_from {push @_,_S;goto&_edges}sub _edges_to {push @_,_P;goto&_edges}sub _edges_id_path {my$g=shift;my$V=$g->[_V ];[map {my@v=$V->_get_id_path($_);@v==1 ? $v[0]: [@v ]}@{$_[0]->[1]}]}sub edges_at {my$g=shift;map {$g->_edges_id_path($_)}$g->_edges_at(@_)}sub edges_from {my$g=shift;map {$g->_edges_id_path($_)}$g->_edges_from(@_)}sub edges_to {my$g=shift;map {$g->_edges_id_path($_)}$g->_edges_to(@_)}sub successors {my$g=shift;my$E=$g->[_E ];($E->[_f ]& _LIGHT)? $E->_successors($g,@_): Graph::AdjacencyMap::_successors($E,$g,@_)}sub predecessors {my$g=shift;my$E=$g->[_E ];($E->[_f ]& _LIGHT)? $E->_predecessors($g,@_): Graph::AdjacencyMap::_predecessors($E,$g,@_)}sub _all_successors {my$g=shift;my@init=@_;my%todo;@todo{@init}=@init;my%seen;my%init=%todo;my%self;while (keys%todo){my@todo=values%todo;for my$t (@todo){$seen{$t}=delete$todo{$t};for my$s ($g->successors($t)){$self{$s}=$s if exists$init{$s};$todo{$s}=$s unless exists$seen{$s}}}}for my$v (@init){delete$seen{$v}unless$g->has_edge($v,$v)|| $self{$v}}return values%seen}sub all_successors {my$g=shift;$g->expect_directed;return$g->_all_successors(@_)}sub _all_predecessors {my$g=shift;my@init=@_;my%todo;@todo{@init}=@init;my%seen;my%init=%todo;my%self;while (keys%todo){my@todo=values%todo;for my$t (@todo){$seen{$t}=delete$todo{$t};for my$p ($g->predecessors($t)){$self{$p}=$p if exists$init{$p};$todo{$p}=$p unless exists$seen{$p}}}}for my$v (@init){delete$seen{$v}unless$g->has_edge($v,$v)|| $self{$v}}return values%seen}sub all_predecessors {my$g=shift;$g->expect_directed;return$g->_all_predecessors(@_)}sub neighbours {my$g=shift;my$V=$g->[_V ];my@s=map {my@v=@{$_->[1 ]};shift@v;@v}$g->_edges_from(@_);my@p=map {my@v=@{$_->[1 ]};pop@v;@v}$g->_edges_to (@_);my%n;@n{@s }=@s;@n{@p }=@p;map {$V->_get_id_path($_)}keys%n}*neighbors=\&neighbours;sub all_neighbours {my$g=shift;my@init=@_;my@v=@init;my%n;my$o=0;while (1){my@p=$g->_all_predecessors(@v);my@s=$g->_all_successors(@v);@n{@p}=@p;@n{@s}=@s;@v=values%n;last if@v==$o;$o=@v}for my$v (@init){delete$n{$v}unless$g->has_edge($v,$v)}return values%n}*all_neighbors=\&all_neighbours;sub all_reachable {my$g=shift;$g->directed ? $g->all_successors(@_): $g->all_neighbors(@_)}sub delete_edge {my$g=shift;$g->expect_non_unionfind;my@i=$g->_vertex_ids(@_);return$g unless@i;my$i=$g->[_E ]->_get_path_id(@i);return$g unless defined$i;$g->[_E ]->_del_id($i);$g->[_G ]++;return$g}sub delete_vertex {my$g=shift;$g->expect_non_unionfind;my$V=$g->[_V ];return$g unless$V->has_path(@_);if (@_==1 &&!($g->[_f ]& (_HYPER|_REF|_UNIQ))){$g->delete_edge($_[0],$_)for$g->successors($_[0]);$g->delete_edge($_,$_[0])for$g->predecessors($_[0])}else {my$E=$g->[_E ];for my$e ($g->_edges_at(@_)){$E->_del_id($e->[0 ])}}$V->del_path(@_);$g->[_G ]++;return$g}sub get_vertex_count {my$g=shift;$g->[_V ]->_get_path_count(@_)|| 0}sub get_edge_count {my$g=shift;my@e=$g->_vertex_ids(@_);return 0 unless@e;$g->[_E ]->_get_path_count(@e)|| 0}sub delete_vertices {my$g=shift;$g->expect_non_unionfind;while (@_){my$v=shift @_;$g->delete_vertex($v)}return$g}sub delete_edges {my$g=shift;$g->expect_non_unionfind;while (@_){my ($u,$v)=splice @_,0,2;$g->delete_edge($u,$v)}return$g}sub _in_degree {my$g=shift;return undef unless @_ && $g->has_vertex(@_);my$in=0;$in += $g->get_edge_count(@$_)for$g->edges_to(@_);return$in}sub in_degree {my$g=shift;$g->_in_degree(@_)}sub _out_degree {my$g=shift;return undef unless @_ && $g->has_vertex(@_);my$out=0;$out += $g->get_edge_count(@$_)for$g->edges_from(@_);return$out}sub out_degree {my$g=shift;$g->_out_degree(@_)}sub _total_degree {my$g=shift;return undef unless @_ && $g->has_vertex(@_);$g->is_undirected ? $g->_in_degree(@_): $g-> in_degree(@_)- $g-> out_degree(@_)}sub degree {my$g=shift;if (@_){$g->_total_degree(@_)}elsif ($g->is_undirected){my$total=0;$total += $g->_total_degree($_)for$g->vertices05;return$total}else {return 0}}*vertex_degree=\°ree;sub is_sink_vertex {my$g=shift;return 0 unless @_;$g->successors(@_)==0 && $g->predecessors(@_)> 0}sub is_source_vertex {my$g=shift;return 0 unless @_;$g->predecessors(@_)==0 && $g->successors(@_)> 0}sub is_successorless_vertex {my$g=shift;return 0 unless @_;$g->successors(@_)==0}sub is_predecessorless_vertex {my$g=shift;return 0 unless @_;$g->predecessors(@_)==0}sub is_successorful_vertex {my$g=shift;return 0 unless @_;$g->successors(@_)> 0}sub is_predecessorful_vertex {my$g=shift;return 0 unless @_;$g->predecessors(@_)> 0}sub is_isolated_vertex {my$g=shift;return 0 unless @_;$g->predecessors(@_)==0 && $g->successors(@_)==0}sub is_interior_vertex {my$g=shift;return 0 unless @_;my$p=$g->predecessors(@_);my$s=$g->successors(@_);if ($g->is_self_loop_vertex(@_)){$p--;$s--}$p > 0 && $s > 0}sub is_exterior_vertex {my$g=shift;return 0 unless @_;$g->predecessors(@_)==0 || $g->successors(@_)==0}sub is_self_loop_vertex {my$g=shift;return 0 unless @_;for my$s ($g->successors(@_)){return 1 if$s eq $_[0]}return 0}sub sink_vertices {my$g=shift;grep {$g->is_sink_vertex($_)}$g->vertices05}sub source_vertices {my$g=shift;grep {$g->is_source_vertex($_)}$g->vertices05}sub successorless_vertices {my$g=shift;grep {$g->is_successorless_vertex($_)}$g->vertices05}sub predecessorless_vertices {my$g=shift;grep {$g->is_predecessorless_vertex($_)}$g->vertices05}sub successorful_vertices {my$g=shift;grep {$g->is_successorful_vertex($_)}$g->vertices05}sub predecessorful_vertices {my$g=shift;grep {$g->is_predecessorful_vertex($_)}$g->vertices05}sub isolated_vertices {my$g=shift;grep {$g->is_isolated_vertex($_)}$g->vertices05}sub interior_vertices {my$g=shift;grep {$g->is_interior_vertex($_)}$g->vertices05}sub exterior_vertices {my$g=shift;grep {$g->is_exterior_vertex($_)}$g->vertices05}sub self_loop_vertices {my$g=shift;grep {$g->is_self_loop_vertex($_)}$g->vertices05}sub add_path {my$g=shift;my$u=shift;while (@_){my$v=shift;$g->add_edge($u,$v);$u=$v}return$g}sub delete_path {my$g=shift;$g->expect_non_unionfind;my$u=shift;while (@_){my$v=shift;$g->delete_edge($u,$v);$u=$v}return$g}sub has_path {my$g=shift;my$u=shift;while (@_){my$v=shift;return 0 unless$g->has_edge($u,$v);$u=$v}return$g}sub add_cycle {my$g=shift;$g->add_path(@_,$_[0])}sub delete_cycle {my$g=shift;$g->expect_non_unionfind;$g->delete_path(@_,$_[0])}sub has_cycle {my$g=shift;@_ ? ($g->has_path(@_,$_[0])? 1 : 0): 0}*has_this_cycle=\&has_cycle;sub has_a_cycle {my$g=shift;my@r=(back_edge=>\&Graph::Traversal::has_a_cycle);push@r,down_edge=>\&Graph::Traversal::has_a_cycle if$g->is_undirected;my$t=Graph::Traversal::DFS->new($g,@r,@_);$t->dfs;return$t->get_state('has_a_cycle')}sub find_a_cycle {my$g=shift;my@r=(back_edge=>\&Graph::Traversal::find_a_cycle);push@r,down_edge=>\&Graph::Traversal::find_a_cycle if$g->is_undirected;my$t=Graph::Traversal::DFS->new($g,@r,@_);$t->dfs;$t->has_state('a_cycle')? @{$t->get_state('a_cycle')}: ()}sub set_vertex_attribute {my$g=shift;$g->expect_non_multivertexed;my$value=pop;my$attr=pop;$g->add_vertex(@_)unless$g->has_vertex(@_);$g->[_V ]->_set_path_attr(@_,$attr,$value)}sub set_vertex_attribute_by_id {my$g=shift;$g->expect_multivertexed;my$value=pop;my$attr=pop;$g->add_vertex_by_id(@_)unless$g->has_vertex_by_id(@_);$g->[_V ]->_set_path_attr(@_,$attr,$value)}sub set_vertex_attributes {my$g=shift;$g->expect_non_multivertexed;my$attr=pop;$g->add_vertex(@_)unless$g->has_vertex(@_);$g->[_V ]->_set_path_attrs(@_,$attr)}sub set_vertex_attributes_by_id {my$g=shift;$g->expect_multivertexed;my$attr=pop;$g->add_vertex_by_id(@_)unless$g->has_vertex_by_id(@_);$g->[_V ]->_set_path_attrs(@_,$attr)}sub has_vertex_attributes {my$g=shift;$g->expect_non_multivertexed;return 0 unless$g->has_vertex(@_);$g->[_V ]->_has_path_attrs(@_)}sub has_vertex_attributes_by_id {my$g=shift;$g->expect_multivertexed;return 0 unless$g->has_vertex_by_id(@_);$g->[_V ]->_has_path_attrs(@_)}sub has_vertex_attribute {my$g=shift;$g->expect_non_multivertexed;my$attr=pop;return 0 unless$g->has_vertex(@_);$g->[_V ]->_has_path_attr(@_,$attr)}sub has_vertex_attribute_by_id {my$g=shift;$g->expect_multivertexed;my$attr=pop;return 0 unless$g->has_vertex_by_id(@_);$g->[_V ]->_has_path_attr(@_,$attr)}sub get_vertex_attributes {my$g=shift;$g->expect_non_multivertexed;return unless$g->has_vertex(@_);my$a=$g->[_V ]->_get_path_attrs(@_);($g->is_compat02)? (defined$a ? %{$a}: ()): $a}sub get_vertex_attributes_by_id {my$g=shift;$g->expect_multivertexed;return unless$g->has_vertex_by_id(@_);$g->[_V ]->_get_path_attrs(@_)}sub get_vertex_attribute {my$g=shift;$g->expect_non_multivertexed;my$attr=pop;return unless$g->has_vertex(@_);$g->[_V ]->_get_path_attr(@_,$attr)}sub get_vertex_attribute_by_id {my$g=shift;$g->expect_multivertexed;my$attr=pop;return unless$g->has_vertex_by_id(@_);$g->[_V ]->_get_path_attr(@_,$attr)}sub get_vertex_attribute_names {my$g=shift;$g->expect_non_multivertexed;return unless$g->has_vertex(@_);$g->[_V ]->_get_path_attr_names(@_)}sub get_vertex_attribute_names_by_id {my$g=shift;$g->expect_multivertexed;return unless$g->has_vertex_by_id(@_);$g->[_V ]->_get_path_attr_names(@_)}sub get_vertex_attribute_values {my$g=shift;$g->expect_non_multivertexed;return unless$g->has_vertex(@_);$g->[_V ]->_get_path_attr_values(@_)}sub get_vertex_attribute_values_by_id {my$g=shift;$g->expect_multivertexed;return unless$g->has_vertex_by_id(@_);$g->[_V ]->_get_path_attr_values(@_)}sub delete_vertex_attributes {my$g=shift;$g->expect_non_multivertexed;return undef unless$g->has_vertex(@_);$g->[_V ]->_del_path_attrs(@_)}sub delete_vertex_attributes_by_id {my$g=shift;$g->expect_multivertexed;return undef unless$g->has_vertex_by_id(@_);$g->[_V ]->_del_path_attrs(@_)}sub delete_vertex_attribute {my$g=shift;$g->expect_non_multivertexed;my$attr=pop;return undef unless$g->has_vertex(@_);$g->[_V ]->_del_path_attr(@_,$attr)}sub delete_vertex_attribute_by_id {my$g=shift;$g->expect_multivertexed;my$attr=pop;return undef unless$g->has_vertex_by_id(@_);$g->[_V ]->_del_path_attr(@_,$attr)}sub _set_edge_attribute {my$g=shift;my$value=pop;my$attr=pop;my$E=$g->[_E ];my$f=$E->[_f ];my@i;if ($E->[_a ]==2 && @_==2 &&!($f & (_HYPER|_REF|_UNIQ))){@_=sort @_ if ($f & _UNORD);my$s=$E->[_s ];$g->add_edge(@_)unless exists$s->{$_[0]}&& exists$s->{$_[0]}->{$_[1]};@i=@{$g->[_V ]->[_s ]}{@_ }}else {$g->add_edge(@_)unless$g->has_edge(@_);@i=$g->_vertex_ids(@_)}$g->[_E ]->_set_path_attr(@i,$attr,$value)}sub set_edge_attribute {my$g=shift;$g->expect_non_multiedged;my$value=pop;my$attr=pop;my$E=$g->[_E ];$g->add_edge(@_)unless$g->has_edge(@_);$E->_set_path_attr($g->_vertex_ids(@_),$attr,$value)}sub set_edge_attribute_by_id {my$g=shift;$g->expect_multiedged;my$value=pop;my$attr=pop;my$id=pop;$g->[_E ]->_set_path_attr($g->_vertex_ids(@_),$id,$attr,$value)}sub set_edge_attributes {my$g=shift;$g->expect_non_multiedged;my$attr=pop;$g->add_edge(@_)unless$g->has_edge(@_);$g->[_E ]->_set_path_attrs($g->_vertex_ids(@_),$attr)}sub set_edge_attributes_by_id {my$g=shift;$g->expect_multiedged;my$attr=pop;$g->add_edge_by_id(@_)unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_set_path_attrs($g->_vertex_ids(@_),$id,$attr)}sub has_edge_attributes {my$g=shift;$g->expect_non_multiedged;return 0 unless$g->has_edge(@_);$g->[_E ]->_has_path_attrs($g->_vertex_ids(@_))}sub has_edge_attributes_by_id {my$g=shift;$g->expect_multiedged;return 0 unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_has_path_attrs($g->_vertex_ids(@_),$id)}sub has_edge_attribute {my$g=shift;$g->expect_non_multiedged;my$attr=pop;return 0 unless$g->has_edge(@_);$g->[_E ]->_has_path_attr($g->_vertex_ids(@_),$attr)}sub has_edge_attribute_by_id {my$g=shift;$g->expect_multiedged;my$attr=pop;return 0 unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_has_path_attr($g->_vertex_ids(@_),$id,$attr)}sub get_edge_attributes {my$g=shift;$g->expect_non_multiedged;return unless$g->has_edge(@_);my$a=$g->[_E ]->_get_path_attrs($g->_vertex_ids(@_));($g->is_compat02)? (defined$a ? %{$a}: ()): $a}sub get_edge_attributes_by_id {my$g=shift;$g->expect_multiedged;return unless$g->has_edge_by_id(@_);my$id=pop;return$g->[_E ]->_get_path_attrs($g->_vertex_ids(@_),$id)}sub _get_edge_attribute {my$g=shift;my$attr=pop;my$E=$g->[_E ];my$f=$E->[_f ];if ($E->[_a ]==2 && @_==2 &&!($f & (_HYPER|_REF|_UNIQ))){@_=sort @_ if ($f & _UNORD);my$s=$E->[_s ];return unless exists$s->{$_[0]}&& exists$s->{$_[0]}->{$_[1]}}else {return unless$g->has_edge(@_)}my@i=$g->_vertex_ids(@_);$E->_get_path_attr(@i,$attr)}sub get_edge_attribute {my$g=shift;$g->expect_non_multiedged;my$attr=pop;return undef unless$g->has_edge(@_);my@i=$g->_vertex_ids(@_);return undef if@i==0 && @_;my$E=$g->[_E ];$E->_get_path_attr(@i,$attr)}sub get_edge_attribute_by_id {my$g=shift;$g->expect_multiedged;my$attr=pop;return unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_get_path_attr($g->_vertex_ids(@_),$id,$attr)}sub get_edge_attribute_names {my$g=shift;$g->expect_non_multiedged;return unless$g->has_edge(@_);$g->[_E ]->_get_path_attr_names($g->_vertex_ids(@_))}sub get_edge_attribute_names_by_id {my$g=shift;$g->expect_multiedged;return unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_get_path_attr_names($g->_vertex_ids(@_),$id)}sub get_edge_attribute_values {my$g=shift;$g->expect_non_multiedged;return unless$g->has_edge(@_);$g->[_E ]->_get_path_attr_values($g->_vertex_ids(@_))}sub get_edge_attribute_values_by_id {my$g=shift;$g->expect_multiedged;return unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_get_path_attr_values($g->_vertex_ids(@_),$id)}sub delete_edge_attributes {my$g=shift;$g->expect_non_multiedged;return unless$g->has_edge(@_);$g->[_E ]->_del_path_attrs($g->_vertex_ids(@_))}sub delete_edge_attributes_by_id {my$g=shift;$g->expect_multiedged;return unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_del_path_attrs($g->_vertex_ids(@_),$id)}sub delete_edge_attribute {my$g=shift;$g->expect_non_multiedged;my$attr=pop;return unless$g->has_edge(@_);$g->[_E ]->_del_path_attr($g->_vertex_ids(@_),$attr)}sub delete_edge_attribute_by_id {my$g=shift;$g->expect_multiedged;my$attr=pop;return unless$g->has_edge_by_id(@_);my$id=pop;$g->[_E ]->_del_path_attr($g->_vertex_ids(@_),$id,$attr)}sub vertex {my$g=shift;$g->has_vertex(@_)? @_ : undef}sub out_edges {my$g=shift;return unless @_ && $g->has_vertex(@_);my@e=$g->edges_from(@_);wantarray ? map {@$_}@e : @e}sub in_edges {my$g=shift;return unless @_ && $g->has_vertex(@_);my@e=$g->edges_to(@_);wantarray ? map {@$_}@e : @e}sub add_vertices {my$g=shift;$g->add_vertex($_)for @_;return$g}sub add_edges {my$g=shift;while (@_){my$u=shift @_;if (ref$u eq 'ARRAY'){$g->add_edge(@$u)}else {if (@_){my$v=shift @_;$g->add_edge($u,$v)}else {require Carp;Carp::croak("Graph::add_edges: missing end vertex")}}}return$g}sub copy {my$g=shift;my%opt=_get_options(\@_);my$c=(ref$g)->new(map {$_=>$g->$_ ? 1 : 0}qw(directed compat02 refvertexed hypervertexed countvertexed multivertexed hyperedged countedged multiedged omniedged __stringified));for my$v ($g->isolated_vertices){$c->add_vertex($v)}for my$e ($g->edges05){$c->add_edge(@$e)}return$c}*copy_graph=\©sub _deep_copy_Storable {my$g=shift;my$safe=new Safe;local$Storable::Deparse=1;local$Storable::Eval=sub {$safe->reval($_[0])};return Storable::thaw(Storable::freeze($g))}sub _deep_copy_DataDumper {my$g=shift;my$d=Data::Dumper->new([$g]);use vars qw($VAR1);$d->Purity(1)->Terse(1)->Deepcopy(1);$d->Deparse(1)if $] >= 5.008;eval$d->Dump}sub deep_copy {if (_can_deep_copy_Storable()){return _deep_copy_Storable(@_)}else {return _deep_copy_DataDumper(@_)}}*deep_copy_graph=\&deep_copy;sub transpose_edge {my$g=shift;if ($g->is_directed){return undef unless$g->has_edge(@_);my$c=$g->get_edge_count(@_);my$a=$g->get_edge_attributes(@_);my@e=reverse @_;$g->delete_edge(@_)unless$g->has_edge(@e);$g->add_edge(@e)for 1..$c;$g->set_edge_attributes(@e,$a)if$a}return$g}sub transpose_graph {my$g=shift;my$t=$g->copy;if ($t->directed){for my$e ($t->edges05){$t->transpose_edge(@$e)}}return$t}*transpose=\&transpose_graph;sub complete_graph {my$g=shift;my$c=$g->new(directed=>$g->directed);my@v=$g->vertices05;for (my$i=0;$i <= $#v;$i++ ){for (my$j=0;$j <= $#v;$j++ ){next if$i >= $j;if ($g->is_undirected){$c->add_edge($v[$i],$v[$j])}else {$c->add_edge($v[$i],$v[$j]);$c->add_edge($v[$j],$v[$i])}}}return$c}*complement=\&complement_graph;sub complement_graph {my$g=shift;my$c=$g->new(directed=>$g->directed);my@v=$g->vertices05;for (my$i=0;$i <= $#v;$i++ ){for (my$j=0;$j <= $#v;$j++ ){next if$i >= $j;if ($g->is_undirected){$c->add_edge($v[$i],$v[$j])unless$g->has_edge($v[$i],$v[$j])}else {$c->add_edge($v[$i],$v[$j])unless$g->has_edge($v[$i],$v[$j]);$c->add_edge($v[$j],$v[$i])unless$g->has_edge($v[$j],$v[$i])}}}return$c}*complete=\&complete_graph;sub subgraph {my ($g,$src,$dst)=@_;$dst=$src unless defined$dst;unless (ref$src eq 'ARRAY' && ref$dst eq 'ARRAY'){Carp::croak("Graph::subgraph: need src and dst array references")}my$s=$g->new;my@u=grep {$g->has_vertex($_)}@$src;my@v=grep {$g->has_vertex($_)}@$dst;$s->add_vertices(@u,@v);for my$u (@u){my@e;for my$v (@v){if ($g->has_edge($u,$v)){push@e,[$u,$v]}}$s->add_edges(@e)}return$s}sub is_transitive {my$g=shift;Graph::TransitiveClosure::is_transitive($g)}my$defattr='weight';sub _defattr {return$defattr}sub add_weighted_vertex {my$g=shift;$g->expect_non_multivertexed;my$w=pop;$g->add_vertex(@_);$g->set_vertex_attribute(@_,$defattr,$w)}sub add_weighted_vertices {my$g=shift;$g->expect_non_multivertexed;while (@_){my ($v,$w)=splice @_,0,2;$g->add_vertex($v);$g->set_vertex_attribute($v,$defattr,$w)}}sub get_vertex_weight {my$g=shift;$g->expect_non_multivertexed;$g->get_vertex_attribute(@_,$defattr)}sub has_vertex_weight {my$g=shift;$g->expect_non_multivertexed;$g->has_vertex_attribute(@_,$defattr)}sub set_vertex_weight {my$g=shift;$g->expect_non_multivertexed;my$w=pop;$g->set_vertex_attribute(@_,$defattr,$w)}sub delete_vertex_weight {my$g=shift;$g->expect_non_multivertexed;$g->delete_vertex_attribute(@_,$defattr)}sub add_weighted_vertex_by_id {my$g=shift;$g->expect_multivertexed;my$w=pop;$g->add_vertex_by_id(@_);$g->set_vertex_attribute_by_id(@_,$defattr,$w)}sub add_weighted_vertices_by_id {my$g=shift;$g->expect_multivertexed;my$id=pop;while (@_){my ($v,$w)=splice @_,0,2;$g->add_vertex_by_id($v,$id);$g->set_vertex_attribute_by_id($v,$id,$defattr,$w)}}sub get_vertex_weight_by_id {my$g=shift;$g->expect_multivertexed;$g->get_vertex_attribute_by_id(@_,$defattr)}sub has_vertex_weight_by_id {my$g=shift;$g->expect_multivertexed;$g->has_vertex_attribute_by_id(@_,$defattr)}sub set_vertex_weight_by_id {my$g=shift;$g->expect_multivertexed;my$w=pop;$g->set_vertex_attribute_by_id(@_,$defattr,$w)}sub delete_vertex_weight_by_id {my$g=shift;$g->expect_multivertexed;$g->delete_vertex_attribute_by_id(@_,$defattr)}sub add_weighted_edge {my$g=shift;$g->expect_non_multiedged;if ($g->is_compat02){my$w=splice @_,1,1;$g->add_edge(@_);$g->set_edge_attribute(@_,$defattr,$w)}else {my$w=pop;$g->add_edge(@_);$g->set_edge_attribute(@_,$defattr,$w)}}sub add_weighted_edges {my$g=shift;$g->expect_non_multiedged;if ($g->is_compat02){while (@_){my ($u,$w,$v)=splice @_,0,3;$g->add_edge($u,$v);$g->set_edge_attribute($u,$v,$defattr,$w)}}else {while (@_){my ($u,$v,$w)=splice @_,0,3;$g->add_edge($u,$v);$g->set_edge_attribute($u,$v,$defattr,$w)}}}sub add_weighted_edges_by_id {my$g=shift;$g->expect_multiedged;my$id=pop;while (@_){my ($u,$v,$w)=splice @_,0,3;$g->add_edge_by_id($u,$v,$id);$g->set_edge_attribute_by_id($u,$v,$id,$defattr,$w)}}sub add_weighted_path {my$g=shift;$g->expect_non_multiedged;my$u=shift;while (@_){my ($w,$v)=splice @_,0,2;$g->add_edge($u,$v);$g->set_edge_attribute($u,$v,$defattr,$w);$u=$v}}sub get_edge_weight {my$g=shift;$g->expect_non_multiedged;$g->get_edge_attribute(@_,$defattr)}sub has_edge_weight {my$g=shift;$g->expect_non_multiedged;$g->has_edge_attribute(@_,$defattr)}sub set_edge_weight {my$g=shift;$g->expect_non_multiedged;my$w=pop;$g->set_edge_attribute(@_,$defattr,$w)}sub delete_edge_weight {my$g=shift;$g->expect_non_multiedged;$g->delete_edge_attribute(@_,$defattr)}sub add_weighted_edge_by_id {my$g=shift;$g->expect_multiedged;if ($g->is_compat02){my$w=splice @_,1,1;$g->add_edge_by_id(@_);$g->set_edge_attribute_by_id(@_,$defattr,$w)}else {my$w=pop;$g->add_edge_by_id(@_);$g->set_edge_attribute_by_id(@_,$defattr,$w)}}sub add_weighted_path_by_id {my$g=shift;$g->expect_multiedged;my$id=pop;my$u=shift;while (@_){my ($w,$v)=splice @_,0,2;$g->add_edge_by_id($u,$v,$id);$g->set_edge_attribute_by_id($u,$v,$id,$defattr,$w);$u=$v}}sub get_edge_weight_by_id {my$g=shift;$g->expect_multiedged;$g->get_edge_attribute_by_id(@_,$defattr)}sub has_edge_weight_by_id {my$g=shift;$g->expect_multiedged;$g->has_edge_attribute_by_id(@_,$defattr)}sub set_edge_weight_by_id {my$g=shift;$g->expect_multiedged;my$w=pop;$g->set_edge_attribute_by_id(@_,$defattr,$w)}sub delete_edge_weight_by_id {my$g=shift;$g->expect_multiedged;$g->delete_edge_attribute_by_id(@_,$defattr)}my%expected;@expected{qw(directed undirected acyclic)}=qw(undirected directed cyclic);sub _expected {my$exp=shift;my$got=@_ ? shift : $expected{$exp};$got=defined$got ? ", got $got" : "";if (my@caller2=caller(2)){die "$caller2[3]: expected $exp graph$got, at $caller2[1] line $caller2[2].\n"}else {my@caller1=caller(1);die "$caller1[3]: expected $exp graph$got, at $caller1[1] line $caller1[2].\n"}}sub expect_no_args {my$g=shift;return unless @_;my@caller1=caller(1);die "$caller1[3]: expected no arguments, got " .scalar @_ .", at $caller1[1] line $caller1[2]\n"}sub expect_undirected {my$g=shift;_expected('undirected')unless$g->is_undirected}sub expect_directed {my$g=shift;_expected('directed')unless$g->is_directed}sub expect_acyclic {my$g=shift;_expected('acyclic')unless$g->is_acyclic}sub expect_dag {my$g=shift;my@got;push@got,'undirected' unless$g->is_directed;push@got,'cyclic' unless$g->is_acyclic;_expected('directed acyclic',"@got")if@got}sub expect_hypervertexed {my$g=shift;_expected('hypervertexed')unless$g->is_hypervertexed}sub expect_hyperedged {my$g=shift;_expected('hyperedged')unless$g->is_hyperedged}sub expect_multivertexed {my$g=shift;_expected('multivertexed')unless$g->is_multivertexed}sub expect_non_multivertexed {my$g=shift;_expected('non-multivertexed')if$g->is_multivertexed}sub expect_non_multiedged {my$g=shift;_expected('non-multiedged')if$g->is_multiedged}sub expect_multiedged {my$g=shift;_expected('multiedged')unless$g->is_multiedged}sub expect_non_unionfind {my$g=shift;_expected('non-unionfind')if$g->has_union_find}sub _get_options {my@caller=caller(1);unless (@_==1 && ref $_[0]eq 'ARRAY'){die "$caller[3]: internal error: should be called with only one array ref argument, at $caller[1] line $caller[2].\n"}my@opt=@{$_[0]};unless (@opt % 2==0){die "$caller[3]: expected an options hash, got a non-even number of arguments, at $caller[1] line $caller[2].\n"}return@opt}sub __fisher_yates_shuffle (@) {my@a=@_;my$i=@a;while ($i--){my$j=int rand ($i+1);@a[$i,$j]=@a[$j,$i]}return@a}BEGIN {sub _shuffle(@);*_shuffle=$^P && $] < 5.009003 ? \&__fisher_yates_shuffle : \&List::Util::shuffle}sub random_graph {my$class=(@_ % 2)==0 ? 'Graph' : shift;my%opt=_get_options(\@_);my$random_edge;unless (exists$opt{vertices}&& defined$opt{vertices}){require Carp;Carp::croak("Graph::random_graph: argument 'vertices' missing or undef")}if (exists$opt{random_seed}){srand($opt{random_seed});delete$opt{random_seed}}if (exists$opt{random_edge}){$random_edge=$opt{random_edge};delete$opt{random_edge}}my@V;if (my$ref=ref$opt{vertices}){if ($ref eq 'ARRAY'){@V=@{$opt{vertices}}}else {Carp::croak("Graph::random_graph: argument 'vertices' illegal")}}else {@V=0..($opt{vertices}- 1)}delete$opt{vertices};my$V=@V;my$C=$V * ($V - 1)/ 2;my$E;if (exists$opt{edges}&& exists$opt{edges_fill}){Carp::croak("Graph::random_graph: both arguments 'edges' and 'edges_fill' specified")}$E=exists$opt{edges_fill}? $opt{edges_fill}* $C : $opt{edges};delete$opt{edges};delete$opt{edges_fill};my$g=$class->new(%opt);$g->add_vertices(@V);return$g if$V < 2;$C *= 2 if$g->directed;$E=$C / 2 unless defined$E;$E=int($E + 0.5);my$p=$E / $C;$random_edge=sub {$p}unless defined$random_edge;if ($p > 1.0 &&!($g->countedged || $g->multiedged)){require Carp;Carp::croak("Graph::random_graph: needs to be countedged or multiedged ($E > $C)")}my@V1=@V;my@V2=@V;@V1=_shuffle@V1;@V2=_shuffle@V2;LOOP: while ($E){for my$v1 (@V1){for my$v2 (@V2){next if$v1 eq $v2;my$q=$random_edge->($g,$v1,$v2,$p);if ($q && ($q==1 || rand()<= $q)&& !$g->has_edge($v1,$v2)){$g->add_edge($v1,$v2);$E--;last LOOP unless$E}}}}return$g}sub random_vertex {my$g=shift;my@V=$g->vertices05;@V[rand@V]}sub random_edge {my$g=shift;my@E=$g->edges05;@E[rand@E]}sub random_successor {my ($g,$v)=@_;my@S=$g->successors($v);@S[rand@S]}sub random_predecessor {my ($g,$v)=@_;my@P=$g->predecessors($v);@P[rand@P]}my$MST_comparator=sub {($_[0]|| 0)<=> ($_[1]|| 0)};sub _MST_attr {my$attr=shift;my$attribute=exists$attr->{attribute}? $attr->{attribute}: $defattr;my$comparator=exists$attr->{comparator}? $attr->{comparator}: $MST_comparator;return ($attribute,$comparator)}sub _MST_edges {my ($g,$attr)=@_;my ($attribute,$comparator)=_MST_attr($attr);map {$_->[1]}sort {$comparator->($a->[0],$b->[0],$a->[1],$b->[1])}map {[$g->get_edge_attribute(@$_,$attribute),$_ ]}$g->edges05}sub MST_Kruskal {my ($g,%attr)=@_;$g->expect_undirected;my$MST=Graph::Undirected->new;my$UF=Graph::UnionFind->new;for my$v ($g->vertices05){$UF->add($v)}for my$e ($g->_MST_edges(\%attr)){my ($u,$v)=@$e;my$t0=$UF->find($u);my$t1=$UF->find($v);unless ($t0 eq $t1){$UF->union($u,$v);$MST->add_edge($u,$v)}}return$MST}sub _MST_add {my ($g,$h,$HF,$r,$attr,$unseen)=@_;for my$s (grep {exists$unseen->{$_ }}$g->successors($r)){$HF->add(Graph::MSTHeapElem->new($r,$s,$g->get_edge_attribute($r,$s,$attr)))}}sub _next_alphabetic {shift;(sort keys %{$_[0]})[0]}sub _next_numeric {shift;(sort {$a <=> $b}keys %{$_[0]})[0]}sub _next_random {shift;(values %{$_[0]})[rand keys %{$_[0]}]}sub _root_opt {my$g=shift;my%opt=@_==1 ? (first_root=>$_[0]): _get_options(\@_);my%unseen;my@unseen=$g->vertices05;@unseen{@unseen }=@unseen;@unseen=_shuffle@unseen;my$r;if (exists$opt{start }){$opt{first_root }=$opt{start };$opt{next_root }=undef}if (exists$opt{get_next_root }){$opt{next_root }=$opt{get_next_root }}if (exists$opt{first_root }){if (ref$opt{first_root }eq 'CODE'){$r=$opt{first_root }->($g,\%unseen)}else {$r=$opt{first_root }}}else {$r=shift@unseen}my$next=exists$opt{next_root }? $opt{next_root }: $opt{next_alphabetic }? \&_next_alphabetic : $opt{next_numeric }? \&_next_numeric : \&_next_random;my$code=ref$next eq 'CODE';my$attr=exists$opt{attribute }? $opt{attribute }: $defattr;return (\%opt,\%unseen,\@unseen,$r,$next,$code,$attr)}sub _heap_walk {my ($g,$h,$add,$etc)=splice @_,0,4;my ($opt,$unseenh,$unseena,$r,$next,$code,$attr)=$g->_root_opt(@_);my$HF=Heap071::Fibonacci->new;while (defined$r){$add->($g,$h,$HF,$r,$attr,$unseenh,$etc);delete$unseenh->{$r };while (defined$HF->top){my$t=$HF->extract_top;if (defined$t){my ($u,$v,$w)=$t->val;if (exists$unseenh->{$v }){$h->set_edge_attribute($u,$v,$attr,$w);delete$unseenh->{$v };$add->($g,$h,$HF,$v,$attr,$unseenh,$etc)}}}return$h unless defined$next;$r=$code ? $next->($g,$unseenh): shift @$unseena;last unless defined$r}return$h}sub MST_Prim {my$g=shift;$g->expect_undirected;$g->_heap_walk(Graph::Undirected->new(),\&_MST_add,undef,@_)}*MST_Dijkstra=\&MST_Prim;*minimum_spanning_tree=\&MST_Prim;*is_cyclic=\&has_a_cycle;sub is_acyclic {my$g=shift;return!$g->is_cyclic}sub is_dag {my$g=shift;return$g->is_directed && $g->is_acyclic ? 1 : 0}*is_directed_acyclic_graph=\&is_dag;sub average_degree {my$g=shift;my$V=$g->vertices05;return$V ? $g->degree / $V : 0}sub density_limits {my$g=shift;my$V=$g->vertices05;my$M=$V * ($V - 1);$M /= 2 if$g->is_undirected;return (0.25 * $M,0.75 * $M,$M)}sub density {my$g=shift;my ($sparse,$dense,$complete)=$g->density_limits;return$complete ? $g->edges / $complete : 0}sub _attr02_012 {my ($g,$op,$ga,$va,$ea)=splice @_,0,5;if ($g->is_compat02){if (@_==0){return$ga->($g)}elsif (@_==1){return$va->($g,@_)}elsif (@_==2){return$ea->($g,@_)}else {die sprintf "$op: wrong number of arguments (%d)",scalar @_}}else {die "$op: not a compat02 graph"}}sub _attr02_123 {my ($g,$op,$ga,$va,$ea)=splice @_,0,5;if ($g->is_compat02){if (@_==1){return$ga->($g,@_)}elsif (@_==2){return$va->($g,@_[1,0])}elsif (@_==3){return$ea->($g,@_[1,2,0])}else {die sprintf "$op: wrong number of arguments (%d)",scalar @_}}else {die "$op: not a compat02 graph"}}sub _attr02_234 {my ($g,$op,$ga,$va,$ea)=splice @_,0,5;if ($g->is_compat02){if (@_==2){return$ga->($g,@_)}elsif (@_==3){return$va->($g,@_[1,0,2])}elsif (@_==4){return$ea->($g,@_[1,2,0,3])}else {die sprintf "$op: wrong number of arguments (%d)",scalar @_}}else {die "$op: not a compat02 graph"}}sub set_attribute {my$g=shift;$g->_attr02_234('set_attribute',\&Graph::set_graph_attribute,\&Graph::set_vertex_attribute,\&Graph::set_edge_attribute,@_)}sub set_attributes {my$g=shift;my$a=pop;$g->_attr02_123('set_attributes',\&Graph::set_graph_attributes,\&Graph::set_vertex_attributes,\&Graph::set_edge_attributes,$a,@_)}sub get_attribute {my$g=shift;$g->_attr02_123('get_attribute',\&Graph::get_graph_attribute,\&Graph::get_vertex_attribute,\&Graph::get_edge_attribute,@_)}sub get_attributes {my$g=shift;$g->_attr02_012('get_attributes',\&Graph::get_graph_attributes,\&Graph::get_vertex_attributes,\&Graph::get_edge_attributes,@_)}sub has_attribute {my$g=shift;return 0 unless @_;$g->_attr02_123('has_attribute',\&Graph::has_graph_attribute,\&Graph::has_vertex_attribute,\&Graph::get_edge_attribute,@_)}sub has_attributes {my$g=shift;$g->_attr02_012('has_attributes',\&Graph::has_graph_attributes,\&Graph::has_vertex_attributes,\&Graph::has_edge_attributes,@_)}sub delete_attribute {my$g=shift;$g->_attr02_123('delete_attribute',\&Graph::delete_graph_attribute,\&Graph::delete_vertex_attribute,\&Graph::delete_edge_attribute,@_)}sub delete_attributes {my$g=shift;$g->_attr02_012('delete_attributes',\&Graph::delete_graph_attributes,\&Graph::delete_vertex_attributes,\&Graph::delete_edge_attributes,@_)}sub topological_sort {my$g=shift;my%opt=_get_options(\@_);my$eic=$opt{empty_if_cyclic };my$hac;if ($eic){$hac=$g->has_a_cycle}else {$g->expect_dag}delete$opt{empty_if_cyclic };my$t=Graph::Traversal::DFS->new($g,%opt);my@s=$t->dfs;$hac ? (): reverse@s}*toposort=\&topological_sort;sub _undirected_copy_compute {my$g=shift;my$c=Graph::Undirected->new;for my$v ($g->isolated_vertices){$c->add_vertex($v)}for my$e ($g->edges05){$c->add_edge(@$e)}return$c}sub undirected_copy {my$g=shift;$g->expect_directed;return _check_cache($g,'undirected',\&_undirected_copy_compute)}*undirected_copy_graph=\&undirected_copy;sub directed_copy {my$g=shift;$g->expect_undirected;my$c=Graph::Directed->new;for my$v ($g->isolated_vertices){$c->add_vertex($v)}for my$e ($g->edges05){my@e=@$e;$c->add_edge(@e);$c->add_edge(reverse@e)}return$c}*directed_copy_graph=\&directed_copy;my%_cache_type=('connectivity'=>'_ccc','strong_connectivity'=>'_scc','biconnectivity'=>'_bcc','SPT_Dijkstra'=>'_spt_di','SPT_Bellman_Ford'=>'_spt_bf','undirected'=>'_undirected',);sub _check_cache {my ($g,$type,$code)=splice @_,0,3;my$c=$_cache_type{$type};if (defined$c){my$a=$g->get_graph_attribute($c);unless (defined$a && $a->[0 ]==$g->[_G ]){$a->[0 ]=$g->[_G ];$a->[1 ]=$code->($g,@_);$g->set_graph_attribute($c,$a)}return$a->[1 ]}else {Carp::croak("Graph: unknown cache type '$type'")}}sub _clear_cache {my ($g,$type)=@_;my$c=$_cache_type{$type};if (defined$c){$g->delete_graph_attribute($c)}else {Carp::croak("Graph: unknown cache type '$type'")}}sub connectivity_clear_cache {my$g=shift;_clear_cache($g,'connectivity')}sub strong_connectivity_clear_cache {my$g=shift;_clear_cache($g,'strong_connectivity')}sub biconnectivity_clear_cache {my$g=shift;_clear_cache($g,'biconnectivity')}sub SPT_Dijkstra_clear_cache {my$g=shift;_clear_cache($g,'SPT_Dijkstra');$g->delete_graph_attribute('SPT_Dijkstra_first_root')}sub SPT_Bellman_Ford_clear_cache {my$g=shift;_clear_cache($g,'SPT_Bellman_Ford')}sub undirected_copy_clear_cache {my$g=shift;_clear_cache($g,'undirected_copy')}sub _connected_components_compute {my$g=shift;my%cce;my%cci;my$cc=0;if ($g->has_union_find){my$UF=$g->_get_union_find();my$V=$g->[_V ];my%icce;my%icci;my$icc=0;for my$v ($g->unique_vertices){$cc=$UF->find($V->_get_path_id($v));if (defined$cc){$cce{$v }=$cc;push @{$cci{$cc }},$v}else {$icce{$v }=$icc;push @{$icci{$icc }},$v;$icc++}}if ($icc){@cce{keys%icce }=values%icce;@cci{keys%icci }=values%icci}}else {my@u=$g->unique_vertices;my%r;@r{@u }=@u;my$froot=sub {(each%r)[1]};my$nroot=sub {$cc++ if keys%r;(each%r)[1]};my$t=Graph::Traversal::DFS->new($g,first_root=>$froot,next_root=>$nroot,pre=>sub {my ($v,$t)=@_;$cce{$v }=$cc;push @{$cci{$cc }},$v;delete$r{$v }},@_);$t->dfs}return [\%cce,\%cci ]}sub _connected_components {my$g=shift;my$ccc=_check_cache($g,'connectivity',\&_connected_components_compute,@_);return @{$ccc}}sub connected_component_by_vertex {my ($g,$v)=@_;$g->expect_undirected;my ($CCE,$CCI)=$g->_connected_components();return$CCE->{$v }}sub connected_component_by_index {my ($g,$i)=@_;$g->expect_undirected;my ($CCE,$CCI)=$g->_connected_components();return defined$CCI->{$i }? @{$CCI->{$i }}: ()}sub connected_components {my$g=shift;$g->expect_undirected;my ($CCE,$CCI)=$g->_connected_components();return values %{$CCI}}sub same_connected_components {my$g=shift;$g->expect_undirected;if ($g->has_union_find){my$UF=$g->_get_union_find();my$V=$g->[_V ];my$u=shift;my$c=$UF->find($V->_get_path_id ($u));my$d;for my$v (@_){return 0 unless defined($d=$UF->find($V->_get_path_id($v)))&& $d eq $c}return 1}else {my ($CCE,$CCI)=$g->_connected_components();my$u=shift;my$c=$CCE->{$u };for my$v (@_){return 0 unless defined$CCE->{$v }&& $CCE->{$v }eq $c}return 1}}my$super_component=sub {join("+",sort @_)};sub connected_graph {my ($g,%opt)=@_;$g->expect_undirected;my$cg=Graph->new(undirected=>1);if ($g->has_union_find && $g->vertices==1){$cg->add_vertices($g->vertices)}else {my$sc_cb=exists$opt{super_component}? $opt{super_component}: $super_component;for my$cc ($g->connected_components()){my$sc=$sc_cb->(@$cc);$cg->add_vertex($sc);$cg->set_vertex_attribute($sc,'subvertices',[@$cc ])}}return$cg}sub is_connected {my$g=shift;$g->expect_undirected;my ($CCE,$CCI)=$g->_connected_components();return keys %{$CCI}==1}sub is_weakly_connected {my$g=shift;$g->expect_directed;$g->undirected_copy->is_connected(@_)}*weakly_connected=\&is_weakly_connected;sub weakly_connected_components {my$g=shift;$g->expect_directed;$g->undirected_copy->connected_components(@_)}sub weakly_connected_component_by_vertex {my$g=shift;$g->expect_directed;$g->undirected_copy->connected_component_by_vertex(@_)}sub weakly_connected_component_by_index {my$g=shift;$g->expect_directed;$g->undirected_copy->connected_component_by_index(@_)}sub same_weakly_connected_components {my$g=shift;$g->expect_directed;$g->undirected_copy->same_connected_components(@_)}sub weakly_connected_graph {my$g=shift;$g->expect_directed;$g->undirected_copy->connected_graph(@_)}sub _strongly_connected_components_compute {my$g=shift;my$t=Graph::Traversal::DFS->new($g);my@d=reverse$t->dfs;my@c;my$h=$g->transpose_graph;my$u=Graph::Traversal::DFS->new($h,next_root=>sub {my ($t,$u)=@_;my$root;while (defined($root=shift@d)){last if exists$u->{$root }}if (defined$root){push@c,[];return$root}else {return}},pre=>sub {my ($v,$t)=@_;push @{$c[-1]},$v},@_);$u->dfs;return \@c}sub _strongly_connected_components {my$g=shift;my$type='strong_connectivity';my$scc=_check_cache($g,$type,\&_strongly_connected_components_compute,@_);return defined$scc ? @$scc : ()}sub strongly_connected_components {my$g=shift;$g->expect_directed;$g->_strongly_connected_components(@_)}sub strongly_connected_component_by_vertex {my$g=shift;my$v=shift;$g->expect_directed;my@scc=$g->_strongly_connected_components(next_alphabetic=>1,@_);for (my$i=0;$i <= $#scc;$i++){for (my$j=0;$j <= $#{$scc[$i]};$j++){return$i if$scc[$i]->[$j]eq $v}}return}sub strongly_connected_component_by_index {my$g=shift;my$i=shift;$g->expect_directed;my$c=($g->_strongly_connected_components(@_))[$i ];return defined$c ? @{$c}: ()}sub same_strongly_connected_components {my$g=shift;$g->expect_directed;my@scc=$g->_strongly_connected_components(next_alphabetic=>1,@_);my@i;while (@_){my$v=shift;for (my$i=0;$i <= $#scc;$i++){for (my$j=0;$j <= $#{$scc[$i]};$j++){if ($scc[$i]->[$j]eq $v){push@i,$i;return 0 if@i > 1 && $i[-1]ne $i[0]}}}}return 1}sub is_strongly_connected {my$g=shift;$g->expect_directed;my$t=Graph::Traversal::DFS->new($g);my@d=reverse$t->dfs;my@c;my$h=$g->transpose;my$u=Graph::Traversal::DFS->new($h,next_root=>sub {my ($t,$u)=@_;my$root;while (defined($root=shift@d)){last if exists$u->{$root }}if (defined$root){unless (@{$t->{roots }}){push@c,[];return$root}else {$t->terminate;return}}else {return}},pre=>sub {my ($v,$t)=@_;push @{$c[-1]},$v},@_);$u->dfs;return @{$u->{roots }}==1 && keys %{$u->{unseen }}==0}*strongly_connected=\&is_strongly_connected;sub strongly_connected_graph {my$g=shift;my%attr=@_;$g->expect_directed;my$t=Graph::Traversal::DFS->new($g);my@d=reverse$t->dfs;my@c;my$h=$g->transpose;my$u=Graph::Traversal::DFS->new($h,next_root=>sub {my ($t,$u)=@_;my$root;while (defined($root=shift@d)){last if exists$u->{$root }}if (defined$root){push@c,[];return$root}else {return}},pre=>sub {my ($v,$t)=@_;push @{$c[-1]},$v});$u->dfs;my$sc_cb;my$hv_cb;_opt_get(\%attr,super_component=>\$sc_cb);_opt_get(\%attr,hypervertex=>\$hv_cb);_opt_unknown(\%attr);if (defined$hv_cb &&!defined$sc_cb){$sc_cb=sub {$hv_cb->([@_ ])}}unless (defined$sc_cb){$sc_cb=$super_component}my$s=Graph->new;my%c;my@s;for (my$i=0;$i < @c;$i++){my$c=$c[$i];$s->add_vertex($s[$i]=$sc_cb->(@$c));$s->set_vertex_attribute($s[$i],'subvertices',[@$c ]);for my$v (@$c){$c{$v}=$i}}my$n=@c;for my$v ($g->vertices){unless (exists$c{$v}){$c{$v}=$n;$s[$n]=$v;$n++}}for my$e ($g->edges05){my ($u,$v)=@$e;unless ($c{$u}==$c{$v}){my ($p,$q)=($s[$c{$u }],$s[$c{$v }]);$s->add_edge($p,$q)unless$s->has_edge($p,$q)}}if (my@i=$g->isolated_vertices){$s->add_vertices(map {$s[$c{$_ }]}@i)}return$s}sub _biconnectivity_out {my ($state,$u,$v)=@_;if (exists$state->{stack}){my@BC;while (@{$state->{stack}}){my$e=pop @{$state->{stack}};push@BC,$e;last if defined$u && $e->[0]eq $u && $e->[1]eq $v}if (@BC){push @{$state->{BC}},\@BC}}}sub _biconnectivity_dfs {my ($g,$u,$state)=@_;$state->{num}->{$u}=$state->{dfs}++;$state->{low}->{$u}=$state->{num}->{$u};for my$v ($g->successors($u)){unless (exists$state->{num}->{$v}){push @{$state->{stack}},[$u,$v];$state->{pred}->{$v}=$u;$state->{succ}->{$u}->{$v}++;_biconnectivity_dfs($g,$v,$state);if ($state->{low}->{$v}< $state->{low}->{$u}){$state->{low}->{$u}=$state->{low}->{$v}}if ($state->{low}->{$v}>= $state->{num}->{$u}){_biconnectivity_out($state,$u,$v)}}elsif (defined$state->{pred}->{$u}&& $state->{pred}->{$u}ne $v && $state->{num}->{$v}< $state->{num}->{$u}){push @{$state->{stack}},[$u,$v];if ($state->{num}->{$v}< $state->{low}->{$u}){$state->{low}->{$u}=$state->{num}->{$v}}}}}sub _biconnectivity_compute {my ($g)=@_;my%state;@{$state{BC}}=();@{$state{BR}}=();%{$state{V2BC}}=();%{$state{BC2V}}=();@{$state{AP}}=();$state{dfs}=0;my@u=_shuffle$g->vertices;for my$u (@u){unless (exists$state{num}->{$u}){_biconnectivity_dfs($g,$u,\%state);_biconnectivity_out(\%state);delete$state{stack}}}my$bci=0;for my$bc (@{$state{BC}}){for my$e (@$bc){for my$v (@$e){$state{V2BC}->{$v}->{$bci}++}}$bci++}for my$v ($g->vertices){unless (exists$state{V2BC}->{$v}){$state{V2BC}->{$v}->{$bci++}++}}for my$v ($g->vertices){for my$bc (keys %{$state{V2BC}->{$v}}){$state{BC2V}->{$bc}->{$v}->{$bc}++}}for my$v (keys %{$state{V2BC}}){if (keys %{$state{V2BC}->{$v}}> 1){push @{$state{AP}},$v}}for my$v (keys %{$state{BC2V}}){my@v=keys %{$state{BC2V}->{$v}};if (@v==2){push @{$state{BR}},\@v}}my@sg;for my$bc (@{$state{BC}}){my%v;my$w=Graph::Undirected->new();for my$e (@$bc){my ($u,$v)=@$e;$v{$u}++;$v{$v}++;$w->add_edge($u,$v)}push@sg,[keys%v ]}return [$state{AP},\@sg,$state{BR},$state{V2BC},]}sub biconnectivity {my$g=shift;$g->expect_undirected;my$bcc=_check_cache($g,'biconnectivity',\&_biconnectivity_compute,@_);return defined$bcc ? @$bcc : ()}sub is_biconnected {my$g=shift;my ($ap)=($g->biconnectivity(@_))[0];return$g->edges >= 2 ? @$ap==0 : undef }sub is_edge_connected {my$g=shift;my ($br)=($g->biconnectivity(@_))[2];return$g->edges >= 2 ? @$br==0 : undef}sub is_edge_separable {my$g=shift;my ($br)=($g->biconnectivity(@_))[2];return$g->edges >= 2 ? @$br > 0 : undef}sub articulation_points {my$g=shift;my ($ap)=($g->biconnectivity(@_))[0];return @$ap}*cut_vertices=\&articulation_points;sub biconnected_components {my$g=shift;my ($bc)=($g->biconnectivity(@_))[1];return @$bc}sub biconnected_component_by_index {my$g=shift;my$i=shift;my ($bc)=($g->biconnectivity(@_))[1];return$bc->[$i ]}sub biconnected_component_by_vertex {my$g=shift;my$v=shift;my ($v2bc)=($g->biconnectivity(@_))[3];return defined$v2bc->{$v }? keys %{$v2bc->{$v }}: ()}sub same_biconnected_components {my$g=shift;my$u=shift;my@u=$g->biconnected_component_by_vertex($u,@_);return 0 unless@u;my%ubc;@ubc{@u }=();while (@_){my$v=shift;my@v=$g->biconnected_component_by_vertex($v);if (@v){my%vbc;@vbc{@v }=();my$vi;for my$ui (keys%ubc){if (exists$vbc{$ui }){$vi=$ui;last}}return 0 unless defined$vi}}return 1}sub biconnected_graph {my ($g,%opt)=@_;my ($bc,$v2bc)=($g->biconnectivity,%opt)[1,3];my$bcg=Graph::Undirected->new;my$sc_cb=exists$opt{super_component}? $opt{super_component}: $super_component;for my$c (@$bc){$bcg->add_vertex(my$s=$sc_cb->(@$c));$bcg->set_vertex_attribute($s,'subvertices',[@$c ])}my%k;for my$i (0..$#$bc){my@u=@{$bc->[$i ]};my%i;@i{@u }=();for my$j (0..$#$bc){if ($i > $j){my@v=@{$bc->[$j ]};my%j;@j{@v }=();for my$u (@u){if (exists$j{$u }){unless ($k{$i }{$j }++){$bcg->add_edge($sc_cb->(@{$bc->[$i]}),$sc_cb->(@{$bc->[$j]}))}last}}}}}return$bcg}sub bridges {my$g=shift;my ($br)=($g->biconnectivity(@_))[2];return defined$br ? @$br : ()}sub _SPT_add {my ($g,$h,$HF,$r,$attr,$unseen,$etc)=@_;my$etc_r=$etc->{$r }|| 0;for my$s (grep {exists$unseen->{$_ }}$g->successors($r)){my$t=$g->get_edge_attribute($r,$s,$attr);$t=1 unless defined$t;if ($t < 0){require Carp;Carp::croak("Graph::SPT_Dijkstra: edge $r-$s is negative ($t)")}if (!defined($etc->{$s })|| ($etc_r + $t)< $etc->{$s }){my$etc_s=$etc->{$s }|| 0;$etc->{$s }=$etc_r + $t;$h->set_vertex_attribute($s,$attr,$etc->{$s });$h->set_vertex_attribute($s,'p',$r);$HF->add(Graph::SPTHeapElem->new($r,$s,$etc->{$s }))}}}sub _SPT_Dijkstra_compute {}sub SPT_Dijkstra {my$g=shift;my%opt=@_==1 ? (first_root=>$_[0]): @_;my$first_root=$opt{first_root };unless (defined$first_root){$opt{first_root }=$first_root=$g->random_vertex()}my$spt_di=$g->get_graph_attribute('_spt_di');unless (defined$spt_di && exists$spt_di->{$first_root }&& $spt_di->{$first_root }->[0 ]==$g->[_G ]){my%etc;my$sptg=$g->_heap_walk($g->new,\&_SPT_add,\%etc,%opt);$spt_di->{$first_root }=[$g->[_G ],$sptg ];$g->set_graph_attribute('_spt_di',$spt_di)}my$spt=$spt_di->{$first_root }->[1 ];$spt->set_graph_attribute('SPT_Dijkstra_root',$first_root);return$spt}*SSSP_Dijkstra=\&SPT_Dijkstra;*single_source_shortest_paths=\&SPT_Dijkstra;sub SP_Dijkstra {my ($g,$u,$v)=@_;my$sptg=$g->SPT_Dijkstra(first_root=>$u);my@path=($v);my%seen;my$V=$g->vertices;my$p;while (defined($p=$sptg->get_vertex_attribute($v,'p'))){last if exists$seen{$p};push@path,$p;$v=$p;$seen{$p}++;last if keys%seen==$V || $u eq $v}@path=()if@path && $path[-1]ne $u;return reverse@path}sub __SPT_Bellman_Ford {my ($g,$u,$v,$attr,$d,$p,$c0,$c1)=@_;return unless$c0->{$u };my$w=$g->get_edge_attribute($u,$v,$attr);$w=1 unless defined$w;if (defined$d->{$v }){if (defined$d->{$u }){if ($d->{$v }> $d->{$u }+ $w){$d->{$v }=$d->{$u }+ $w;$p->{$v }=$u;$c1->{$v }++}}}else {if (defined$d->{$u }){$d->{$v }=$d->{$u }+ $w;$p->{$v }=$u;$c1->{$v }++}}}sub _SPT_Bellman_Ford {my ($g,$opt,$unseenh,$unseena,$r,$next,$code,$attr)=@_;my%d;return unless defined$r;$d{$r }=0;my%p;my$V=$g->vertices;my%c0;$c0{$r }++;for (my$i=0;$i < $V;$i++){my%c1;for my$e ($g->edges){my ($u,$v)=@$e;__SPT_Bellman_Ford($g,$u,$v,$attr,\%d,\%p,\%c0,\%c1);if ($g->undirected){__SPT_Bellman_Ford($g,$v,$u,$attr,\%d,\%p,\%c0,\%c1)}}%c0=%c1 unless$i==$V - 1}for my$e ($g->edges){my ($u,$v)=@$e;if (defined$d{$u }&& defined$d{$v }){my$d=$g->get_edge_attribute($u,$v,$attr);if (defined$d && $d{$v }> $d{$u }+ $d){require Carp;Carp::croak("Graph::SPT_Bellman_Ford: negative cycle exists")}}}return (\%p,\%d)}sub _SPT_Bellman_Ford_compute {}sub SPT_Bellman_Ford {my$g=shift;my ($opt,$unseenh,$unseena,$r,$next,$code,$attr)=$g->_root_opt(@_);unless (defined$r){$r=$g->random_vertex();return unless defined$r}my$spt_bf=$g->get_graph_attribute('_spt_bf');unless (defined$spt_bf && exists$spt_bf->{$r }&& $spt_bf->{$r }->[0 ]==$g->[_G ]){my ($p,$d)=$g->_SPT_Bellman_Ford($opt,$unseenh,$unseena,$r,$next,$code,$attr);my$h=$g->new;for my$v (keys %$p){my$u=$p->{$v };$h->add_edge($u,$v);$h->set_edge_attribute($u,$v,$attr,$g->get_edge_attribute($u,$v,$attr));$h->set_vertex_attribute($v,$attr,$d->{$v });$h->set_vertex_attribute($v,'p',$u)}$spt_bf->{$r }=[$g->[_G ],$h ];$g->set_graph_attribute('_spt_bf',$spt_bf)}my$spt=$spt_bf->{$r }->[1 ];$spt->set_graph_attribute('SPT_Bellman_Ford_root',$r);return$spt}*SSSP_Bellman_Ford=\&SPT_Bellman_Ford;sub SP_Bellman_Ford {my ($g,$u,$v)=@_;my$sptg=$g->SPT_Bellman_Ford(first_root=>$u);my@path=($v);my%seen;my$V=$g->vertices;my$p;while (defined($p=$sptg->get_vertex_attribute($v,'p'))){last if exists$seen{$p};push@path,$p;$v=$p;$seen{$p}++;last if keys%seen==$V}return reverse@path}sub TransitiveClosure_Floyd_Warshall {my$self=shift;my$class=ref$self || $self;$self=shift unless ref$self;bless Graph::TransitiveClosure->new($self,@_),$class}*transitive_closure=\&TransitiveClosure_Floyd_Warshall;sub APSP_Floyd_Warshall {my$self=shift;my$class=ref$self || $self;$self=shift unless ref$self;bless Graph::TransitiveClosure->new($self,path=>1,@_),$class}*all_pairs_shortest_paths=\&APSP_Floyd_Warshall;sub _transitive_closure_matrix_compute {}sub transitive_closure_matrix {my$g=shift;my$tcm=$g->get_graph_attribute('_tcm');if (defined$tcm){if (ref$tcm eq 'ARRAY'){if ($tcm->[0 ]==$g->[_G ]){$tcm=$tcm->[1 ]}else {undef$tcm}}}unless (defined$tcm){my$apsp=$g->APSP_Floyd_Warshall(@_);$tcm=$apsp->get_graph_attribute('_tcm');$g->set_graph_attribute('_tcm',[$g->[_G ],$tcm ])}return$tcm}sub path_length {my$g=shift;my$tcm=$g->transitive_closure_matrix;$tcm->path_length(@_)}sub path_predecessor {my$g=shift;my$tcm=$g->transitive_closure_matrix;$tcm->path_predecessor(@_)}sub path_vertices {my$g=shift;my$tcm=$g->transitive_closure_matrix;$tcm->path_vertices(@_)}sub is_reachable {my$g=shift;my$tcm=$g->transitive_closure_matrix;$tcm->is_reachable(@_)}sub for_shortest_paths {my$g=shift;my$c=shift;my$t=$g->transitive_closure_matrix;my@v=$g->vertices;my$n=0;for my$u (@v){for my$v (@v){next unless$t->is_reachable($u,$v);$n++;$c->($t,$u,$v,$n)}}return$n}sub _minmax_path {my$g=shift;my$min;my$max;my$minp;my$maxp;$g->for_shortest_paths(sub {my ($t,$u,$v,$n)=@_;my$l=$t->path_length($u,$v);return unless defined$l;my$p;if ($u ne $v && (!defined$max || $l > $max)){$max=$l;$maxp=$p=[$t->path_vertices($u,$v)]}if ($u ne $v && (!defined$min || $l < $min)){$min=$l;$minp=$p || [$t->path_vertices($u,$v)]}});return ($min,$max,$minp,$maxp)}sub diameter {my$g=shift;my ($min,$max,$minp,$maxp)=$g->_minmax_path(@_);return defined$maxp ? (wantarray ? @$maxp : $max): undef}*graph_diameter=\&diameter;sub longest_path {my ($g,$u,$v)=@_;my$t=$g->transitive_closure_matrix;if (defined$u){if (defined$v){return wantarray ? $t->path_vertices($u,$v): $t->path_length($u,$v)}else {my$max;my@max;for my$v ($g->vertices){next if$u eq $v;my$l=$t->path_length($u,$v);if (defined$l && (!defined$max || $l > $max)){$max=$l;@max=$t->path_vertices($u,$v)}}return wantarray ? @max : $max}}else {if (defined$v){my$max;my@max;for my$u ($g->vertices){next if$u eq $v;my$l=$t->path_length($u,$v);if (defined$l && (!defined$max || $l > $max)){$max=$l;@max=$t->path_vertices($u,$v)}}return wantarray ? @max : @max - 1}else {my ($min,$max,$minp,$maxp)=$g->_minmax_path(@_);return defined$maxp ? (wantarray ? @$maxp : $max): undef}}}sub vertex_eccentricity {my ($g,$u)=@_;$g->expect_undirected;if ($g->is_connected){my$max;for my$v ($g->vertices){next if$u eq $v;my$l=$g->path_length($u,$v);if (defined$l && (!defined$max || $l > $max)){$max=$l}}return defined$max ? $max : Infinity()}else {return Infinity()}}sub shortest_path {my ($g,$u,$v)=@_;$g->expect_undirected;my$t=$g->transitive_closure_matrix;if (defined$u){if (defined$v){return wantarray ? $t->path_vertices($u,$v): $t->path_length($u,$v)}else {my$min;my@min;for my$v ($g->vertices){next if$u eq $v;my$l=$t->path_length($u,$v);if (defined$l && (!defined$min || $l < $min)){$min=$l;@min=$t->path_vertices($u,$v)}}print "min/1 = @min\n";return wantarray ? @min : $min}}else {if (defined$v){my$min;my@min;for my$u ($g->vertices){next if$u eq $v;my$l=$t->path_length($u,$v);if (defined$l && (!defined$min || $l < $min)){$min=$l;@min=$t->path_vertices($u,$v)}}print "min/2 = @min\n";return wantarray ? @min : $min}else {my ($min,$max,$minp,$maxp)=$g->_minmax_path(@_);return defined$minp ? (wantarray ? @$minp : $min): wantarray ? (): undef}}}sub radius {my$g=shift;$g->expect_undirected;my ($center,$radius)=(undef,Infinity());for my$v ($g->vertices){my$x=$g->vertex_eccentricity($v);($center,$radius)=($v,$x)if defined$x && $x < $radius}return$radius}sub center_vertices {my ($g,$delta)=@_;$g->expect_undirected;$delta=0 unless defined$delta;$delta=abs($delta);my@c;my$Inf=Infinity();my$r=$g->radius;if (defined$r && $r!=$Inf){for my$v ($g->vertices){my$e=$g->vertex_eccentricity($v);next unless defined$e && $e!=$Inf;push@c,$v if abs($e - $r)<= $delta}}return@c}*centre_vertices=\¢er_vertices;sub average_path_length {my$g=shift;my@A=@_;my$d=0;my$m=0;my$n=$g->for_shortest_paths(sub {my ($t,$u,$v,$n)=@_;my$l=$t->path_length($u,$v);if ($l){my$c=@A==0 || (@A==1 && $u eq $A[0])|| ((@A==2)&& (defined$A[0]&& $u eq $A[0])|| (defined$A[1]&& $v eq $A[1]));if ($c){$d += $l;$m++}}});return$m ? $d / $m : undef}sub is_multi_graph {my$g=shift;return 0 unless$g->is_multiedged || $g->is_countedged;my$multiedges=0;for my$e ($g->edges05){my ($u,@v)=@$e;for my$v (@v){return 0 if$u eq $v}$multiedges++ if$g->get_edge_count(@$e)> 1}return$multiedges}sub is_simple_graph {my$g=shift;return 1 unless$g->is_countedged || $g->is_multiedged;for my$e ($g->edges05){return 0 if$g->get_edge_count(@$e)> 1}return 1}sub is_pseudo_graph {my$g=shift;my$m=$g->is_countedged || $g->is_multiedged;for my$e ($g->edges05){my ($u,@v)=@$e;for my$v (@v){return 1 if$u eq $v}return 1 if$m && $g->get_edge_count($u,@v)> 1}return 0}my%_factorial=(0=>1,1=>1);sub __factorial {my$n=shift;for (my$i=2;$i <= $n;$i++){next if exists$_factorial{$i};$_factorial{$i}=$i * $_factorial{$i - 1}}$_factorial{$n}}sub _factorial {my$n=int(shift);if ($n < 0){require Carp;Carp::croak("factorial of a negative number")}__factorial($n)unless exists$_factorial{$n};return$_factorial{$n}}sub could_be_isomorphic {my ($g0,$g1)=@_;return 0 unless$g0->vertices==$g1->vertices;return 0 unless$g0->edges05==$g1->edges05;my%d0;for my$v0 ($g0->vertices){$d0{$g0->in_degree($v0)}{$g0->out_degree($v0)}++}my%d1;for my$v1 ($g1->vertices){$d1{$g1->in_degree($v1)}{$g1->out_degree($v1)}++}return 0 unless keys%d0==keys%d1;for my$da (keys%d0){return 0 unless exists$d1{$da}&& keys %{$d0{$da}}==keys %{$d1{$da}};for my$db (keys %{$d0{$da}}){return 0 unless exists$d1{$da}{$db}&& $d0{$da}{$db}==$d1{$da}{$db}}}for my$da (keys%d0){for my$db (keys %{$d0{$da}}){return 0 unless$d1{$da}{$db}==$d0{$da}{$db}}delete$d1{$da}}return 0 unless keys%d1==0;my$f=1;for my$da (keys%d0){for my$db (keys %{$d0{$da}}){$f *= _factorial(abs($d0{$da}{$db}))}}return$f}sub subgraph_by_radius {my ($g,$n,$rad)=@_;return unless defined$n && defined$rad && $rad >= 0;my$r=(ref$g)->new;if ($rad==0){return$r->add_vertex($n)}my%h;$h{1}=[[$n,$g->successors($n)]];for my$i (1..$rad){$h{$i+1}=[];for my$arr (@{$h{$i}}){my ($p,@succ)=@{$arr};for my$s (@succ){$r->add_edge($p,$s);push(@{$h{$i+1}},[$s,$g->successors($s)])if$i < $rad}}}return$r}sub clustering_coefficient {my ($g)=@_;my%clustering;my$gamma=0;for my$n ($g->vertices()){my$gamma_v=0;my@neigh=$g->successors($n);my%c;for my$u (@neigh){for my$v (@neigh){if (!$c{"$u-$v"}&& $g->has_edge($u,$v)){$gamma_v++;$c{"$u-$v"}=1;$c{"$v-$u"}=1}}}if (@neigh > 1){$clustering{$n}=$gamma_v/(@neigh * (@neigh - 1)/ 2);$gamma += $gamma_v/(@neigh * (@neigh - 1)/ 2)}else {$clustering{$n}=0}}$gamma /= $g->vertices();return wantarray ? ($gamma,%clustering): $gamma}sub betweenness {my$g=shift;my@V=$g->vertices();my%Cb;$Cb{$_}=0 for@V;for my$s (@V){my@S;my%P;$P{$_}=[]for@V;my%sigma;$sigma{$_}=0 for@V;$sigma{$s}=1;my%d;$d{$_}=-1 for@V;$d{$s}=0;my@Q;push@Q,$s;while (@Q){my$v=shift@Q;unshift@S,$v;for my$w ($g->successors($v)){if ($d{$w}< 0){push@Q,$w;$d{$w}=$d{$v}+ 1}if ($d{$w}==$d{$v}+ 1){$sigma{$w}+= $sigma{$v};push @{$P{$w}},$v}}}my%delta;$delta{$_}=0 for@V;while (@S){my$w=shift@S;for my$v (@{$P{$w}}){$delta{$v}+= $sigma{$v}/$sigma{$w}* (1 + $delta{$w})}if ($w ne $s){$Cb{$w}+= $delta{$w}}}}return%Cb}sub _dump {require Data::Dumper;my$d=Data::Dumper->new([$_[0]],[ref $_[0]]);defined wantarray ? $d->Dump : print$d->Dump}1;
GRAPH
$fatpacked{"Graph/AdjacencyMap.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ADJACENCYMAP';
package Graph::AdjacencyMap;use strict;require Exporter;use vars qw(@ISA @EXPORT_OK %EXPORT_TAGS);@ISA=qw(Exporter);@EXPORT_OK=qw(_COUNT _MULTI _COUNTMULTI _GEN_ID _HYPER _UNORD _UNIQ _REF _UNORDUNIQ _UNIONFIND _LIGHT _STR _REFSTR _n _f _a _i _s _p _g _u _ni _nc _na _nm);%EXPORT_TAGS=(flags=>[qw(_COUNT _MULTI _COUNTMULTI _GEN_ID _HYPER _UNORD _UNIQ _REF _UNORDUNIQ _UNIONFIND _LIGHT _STR _REFSTR)],fields=>[qw(_n _f _a _i _s _p _g _u _ni _nc _na _nm)]);sub _COUNT () {0x00000001}sub _MULTI () {0x00000002}sub _COUNTMULTI () {_COUNT|_MULTI}sub _HYPER () {0x00000004}sub _UNORD () {0x00000008}sub _UNIQ () {0x00000010}sub _REF () {0x00000020}sub _UNORDUNIQ () {_UNORD|_UNIQ}sub _UNIONFIND () {0x00000040}sub _LIGHT () {0x00000080}sub _STR () {0x00000100}sub _REFSTR () {_REF|_STR}my$_GEN_ID=0;sub _GEN_ID () {\$_GEN_ID}sub _ni () {0}sub _nc () {1}sub _na () {2}sub _nm () {3}sub _n () {0}sub _f () {1}sub _a () {2}sub _i () {3}sub _s () {4}sub _p () {5}sub _g () {6}sub _V () {2}sub _new {my$class=shift;my$map=bless [0,@_ ],$class;return$map}sub _ids {my$m=shift;return$m->[_i ]}sub has_paths {my$m=shift;return defined$m->[_i ]&& keys %{$m->[_i ]}}sub _dump {my$d=Data::Dumper->new([$_[0]],[ref $_[0]]);defined wantarray ? $d->Dump : print$d->Dump}sub _del_id {my ($m,$i)=@_;my@p=$m->_get_id_path($i);$m->del_path(@p)if@p}sub _new_node {my ($m,$n,$id)=@_;my$f=$m->[_f ];my$i=$m->[_n ]++;if (($f & _MULTI)){$id=0 if$id eq _GEN_ID;$$n=[$i,0,undef,{$id=>{}}]}elsif (($f & _COUNT)){$$n=[$i,1 ]}else {$$n=$i}return$i}sub _inc_node {my ($m,$n,$id)=@_;my$f=$m->[_f ];if (($f & _MULTI)){if ($id eq _GEN_ID){$$n->[_nc ]++ while exists $$n->[_nm ]->{$$n->[_nc ]};$id=$$n->[_nc ]}$$n->[_nm ]->{$id }={}}elsif (($f & _COUNT)){$$n->[_nc ]++}return$id}sub __get_path_node {my$m=shift;my ($p,$k);my$f=$m->[_f ];@_=sort @_ if ($f & _UNORD);if ($m->[_a ]==2 && @_==2 &&!($f & (_HYPER|_REF|_UNIQ))){return unless exists$m->[_s ]->{$_[0]};$p=[$m->[_s ],$m->[_s ]->{$_[0]}];$k=[$_[0],$_[1]]}else {($p,$k)=$m->__has_path(@_)}return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";return (exists$p->[-1]->{$l },$p->[-1]->{$l },$p,$k,$l)}sub set_path_by_multi_id {my$m=shift;my ($p,$k)=$m->__set_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";return$m->__set_path_node($p,$l,@_)}sub get_multi_ids {my$m=shift;my$f=$m->[_f ];return ()unless ($f & _MULTI);my ($e,$n)=$m->__get_path_node(@_);return$e ? keys %{$n->[_nm ]}: ()}sub _has_path_attrs {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";return keys %{$p->[-1]->{$l }->[_nm ]->{$id }}? 1 : 0}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return ref$n && $#$n==_na && keys %{$n->[_na ]}? 1 : 0}}sub _set_path_attrs {my$m=shift;my$f=$m->[_f ];my$attr=pop;my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(@_);push @_,$id if ($f & _MULTI);my ($p,$k)=$m->__set_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";$m->__set_path_node($p,$l,@_)unless exists$p->[-1]->{$l };if (($f & _MULTI)){$p->[-1]->{$l }->[_nm ]->{$id }=$attr}else {$p->[-1]->{$l }=[$p->[-1]->{$l },1 ]unless ref$p->[-1]->{$l };$p->[-1]->{$l }->[_na ]=$attr}}sub _has_path_attr {my$m=shift;my$f=$m->[_f ];my$attr=pop;my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";exists$p->[-1]->{$l }->[_nm ]->{$id }->{$attr }}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return ref$n && $#$n==_na ? exists$n->[_na ]->{$attr }: undef}}sub _set_path_attr {my$m=shift;my$f=$m->[_f ];my$val=pop;my$attr=pop;my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);my ($p,$k);$m->__attr(\@_);push @_,$id if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);if ($m->[_a ]==2 && @_==2 &&!($f & (_REF|_UNIQ|_HYPER|_UNIQ))){$m->[_s ]->{$_[0]}||= {};$p=[$m->[_s ],$m->[_s ]->{$_[0]}];$k=[$_[0],$_[1]]}else {($p,$k)=$m->__set_path(@_)}return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";$m->__set_path_node($p,$l,@_)unless exists$p->[-1]->{$l };if (($f & _MULTI)){$p->[-1]->{$l }->[_nm ]->{$id }->{$attr }=$val}else {$p->[-1]->{$l }=[$p->[-1]->{$l },1 ]unless ref$p->[-1]->{$l };$p->[-1]->{$l }->[_na ]->{$attr }=$val}return$val}sub _get_path_attrs {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";$p->[-1]->{$l }->[_nm ]->{$id }}else {my ($e,$n)=$m->__get_path_node(@_);return unless$e;return$n->[_na ]if ref$n && $#$n==_na;return}}sub _get_path_attr {my$m=shift;my$f=$m->[_f ];my$attr=pop;my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";return$p->[-1]->{$l }->[_nm ]->{$id }->{$attr }}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return ref$n && $#$n==_na ? $n->[_na ]->{$attr }: undef}}sub _get_path_attr_names {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";keys %{$p->[-1]->{$l }->[_nm ]->{$id }}}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return keys %{$n->[_na ]}if ref$n && $#$n==_na;return}}sub _get_path_attr_values {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";values %{$p->[-1]->{$l }->[_nm ]->{$id }}}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return values %{$n->[_na ]}if ref$n && $#$n==_na;return}}sub _del_path_attrs {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";delete$p->[-1]->{$l }->[_nm ]->{$id };unless (keys %{$p->[-1]->{$l }->[_nm ]}|| (defined$p->[-1]->{$l }->[_na ]&& keys %{$p->[-1]->{$l }->[_na ]})){delete$p->[-1]->{$l }}}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;if (ref$n){$e=_na==$#$n && keys %{$n->[_na ]}? 1 : 0;$#$n=_na - 1;return$e}else {return 0}}}sub _del_path_attr {my$m=shift;my$f=$m->[_f ];my$attr=pop;my$id=pop if ($f & _MULTI);@_=sort @_ if ($f & _UNORD);$m->__attr(\@_);if (($f & _MULTI)){my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";delete$p->[-1]->{$l }->[_nm ]->{$id }->{$attr };$m->_del_path_attrs(@_,$id)unless keys %{$p->[-1]->{$l }->[_nm ]->{$id }}}else {my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;if (ref$n && $#$n==_na && exists$n->[_na ]->{$attr }){delete$n->[_na ]->{$attr };return 1}else {return 0}}}sub _is_COUNT {$_[0]->[_f ]& _COUNT}sub _is_MULTI {$_[0]->[_f ]& _MULTI}sub _is_HYPER {$_[0]->[_f ]& _HYPER}sub _is_UNORD {$_[0]->[_f ]& _UNORD}sub _is_UNIQ {$_[0]->[_f ]& _UNIQ}sub _is_REF {$_[0]->[_f ]& _REF}sub _is_STR {$_[0]->[_f ]& _STR}sub __arg {my$m=shift;my$f=$m->[_f ];my@a=@{$_[0]};if ($f & _UNIQ){my%u;if ($f & _UNORD){@u{@a }=@a;@a=values%u}else {my@u;for my$e (@a){push@u,$e if$u{$e}++==0}@a=@u}}@{$_[0]}=($f & _UNORD)? sort@a : @a}sub _successors {my$E=shift;my$g=shift;my$V=$g->[_V ];map {my@v=@{$_->[1 ]};shift@v;map {$V->_get_id_path($_)}@v}$g->_edges_from(@_)}sub _predecessors {my$E=shift;my$g=shift;my$V=$g->[_V ];if (wantarray){map {my@v=@{$_->[1 ]};pop@v;map {$V->_get_id_path($_)}@v}$g->_edges_to(@_)}else {return$g->_edges_to(@_)}}1;
GRAPH_ADJACENCYMAP
$fatpacked{"Graph/AdjacencyMap/Heavy.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ADJACENCYMAP_HEAVY';
package Graph::AdjacencyMap::Heavy;use strict;use Graph::AdjacencyMap qw(:flags :fields);use base 'Graph::AdjacencyMap';require overload;require Data::Dumper;sub __set_path {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);if (@_!=$m->[_a ]&&!($f & _HYPER)){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap::Heavy: arguments %d expected %d",scalar @_,$m->[_a ])}my$p;$p=($f & _HYPER)? (($m->[_s ]||= [])->[@_ ]||= {}): ($m->[_s ]||= {});my@p=$p;my@k;@_=sort @_ if ($m->[_f ]& _UNORD);while (@_){my$k=shift;my$q=ref$k && ($f & _REF)&& overload::Method($k,'""')? overload::StrVal($k): $k;if (@_){$p=$p->{$q }||= {};return unless$p;push@p,$p}push@k,$q}return (\@p,\@k)}sub __set_path_node {my ($m,$p,$l)=splice @_,0,3;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);unless (exists$p->[-1]->{$l }){my$i=$m->_new_node(\$p->[-1]->{$l },$id);$m->[_i ]->{defined$i ? $i : "" }=[@_ ];return defined$id ? ($id eq _GEN_ID ? $$id : $id): $i}else {return$m->_inc_node(\$p->[-1]->{$l },$id)}}sub set_path {my$m=shift;my$f=$m->[_f ];return if @_==0 &&!($f & _HYPER);if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my ($p,$k)=$m->__set_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";return$m->__set_path_node($p,$l,@_)}sub __has_path {my$m=shift;my$f=$m->[_f ];if (@_!=$m->[_a ]&&!($f & _HYPER)){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap::Heavy: arguments %d expected %d",scalar @_,$m->[_a ])}if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my$p=$m->[_s ];return unless defined$p;$p=$p->[@_ ]if ($f & _HYPER);return unless defined$p;my@p=$p;my@k;while (@_){my$k=shift;my$q=ref$k && ($f & _REF)&& overload::Method($k,'""')? overload::StrVal($k): $k;if (@_){$p=$p->{$q };return unless defined$p;push@p,$p}push@k,$q}return (\@p,\@k)}sub has_path {my$m=shift;my$f=$m->[_f ];if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;return exists$p->[-1]->{defined$k->[-1]? $k->[-1]: "" }}sub has_path_by_multi_id {my$m=shift;my$f=$m->[_f ];my$id=pop;if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return exists$n->[_nm ]->{$id }}sub _get_path_node {my$m=shift;my$f=$m->[_f ];if ($m->[_a ]==2 && @_==2 &&!($f & (_HYPER|_REF|_UNIQ))){@_=sort @_ if ($f & _UNORD);return unless exists$m->[_s ]->{$_[0]};my$p=[$m->[_s ],$m->[_s ]->{$_[0]}];my$k=[$_[0],$_[1]];my$l=$_[1];return (exists$p->[-1]->{$l },$p->[-1]->{$l },$p,$k,$l)}else {if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}$m->__get_path_node(@_)}}sub _get_path_id {my$m=shift;my$f=$m->[_f ];my ($e,$n);if ($m->[_a ]==2 && @_==2 &&!($f & (_HYPER|_REF|_UNIQ))){@_=sort @_ if ($f & _UNORD);return unless exists$m->[_s ]->{$_[0]};my$p=$m->[_s ]->{$_[0]};$e=exists$p->{$_[1]};$n=$p->{$_[1]}}else {($e,$n)=$m->_get_path_node(@_)}return undef unless$e;return ref$n ? $n->[_ni ]: $n}sub _get_path_count {my$m=shift;my$f=$m->[_f ];my ($e,$n)=$m->_get_path_node(@_);return undef unless$e && defined$n;return ($f & _COUNT)? $n->[_nc ]: ($f & _MULTI)? scalar keys %{$n->[_nm ]}: 1}sub __attr {my$m=shift;if (@_){if (ref $_[0]&& @{$_[0]}){if (@{$_[0]}!=$m->[_a ]){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap::Heavy: arguments %d expected %d\n",scalar @{$_[0]},$m->[_a ])}my$f=$m->[_f ];if (@{$_[0]}> 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @{$_[0]}==2){@{$_[0]}=sort @{$_[0]}}else {$m->__arg(\@_)}}}}}sub _get_id_path {my ($m,$i)=@_;my$p=defined$i ? $m->[_i ]->{$i }: undef;return defined$p ? @$p : ()}sub del_path {my$m=shift;my$f=$m->[_f ];if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my ($e,$n,$p,$k,$l)=$m->__get_path_node(@_);return unless$e;my$c=($f & _COUNT)? --$n->[_nc ]: 0;if ($c==0){delete$m->[_i ]->{ref$n ? $n->[_ni ]: $n };delete$p->[-1]->{$l };while (@$p && @$k && keys %{$p->[-1]->{$k->[-1]}}==0){delete$p->[-1]->{$k->[-1]};pop @$p;pop @$k}}return 1}sub del_path_by_multi_id {my$m=shift;my$f=$m->[_f ];my$id=pop;if (@_ > 1 && ($f & _UNORDUNIQ)){if (($f & _UNORDUNIQ)==_UNORD && @_==2){@_=sort @_}else {$m->__arg(\@_)}}my ($e,$n,$p,$k,$l)=$m->__get_path_node(@_);return unless$e;delete$n->[_nm ]->{$id };unless (keys %{$n->[_nm ]}){delete$m->[_i ]->{$n->[_ni ]};delete$p->[-1]->{$l };while (@$p && @$k && keys %{$p->[-1]->{$k->[-1]}}==0){delete$p->[-1]->{$k->[-1]};pop @$p;pop @$k}}return 1}sub paths {my$m=shift;return values %{$m->[_i ]}if defined$m->[_i ];wantarray ? (): 0}1;
GRAPH_ADJACENCYMAP_HEAVY
$fatpacked{"Graph/AdjacencyMap/Light.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ADJACENCYMAP_LIGHT';
package Graph::AdjacencyMap::Light;use strict;use Graph::AdjacencyMap qw(:flags :fields);use base 'Graph::AdjacencyMap';use Scalar::Util qw(weaken);use Graph::AdjacencyMap::Heavy;use Graph::AdjacencyMap::Vertex;sub _V () {2}sub _E () {3}sub _F () {0}sub _new {my ($class,$graph,$flags,$arity)=@_;my$m=bless [],$class;$m->[_n ]=0;$m->[_f ]=$flags | _LIGHT;$m->[_a ]=$arity;$m->[_i ]={};$m->[_s ]={};$m->[_p ]={};$m->[_g ]=$graph;weaken$m->[_g ];return$m}sub set_path {my$m=shift;return if @_==0 &&!($m->[_f ]& _HYPER);my ($n,$f,$a,$i,$s,$p)=@$m;if ($a==2){@_=sort @_ if ($f & _UNORD)}my$e0=shift;if ($a==2){my$e1=shift;unless (exists$s->{$e0 }&& exists$s->{$e0 }->{$e1 }){$n=$m->[_n ]++;$i->{$n }=[$e0,$e1 ];$s->{$e0 }->{$e1 }=$n;$p->{$e1 }->{$e0 }=$n}}else {unless (exists$s->{$e0 }){$n=$m->[_n ]++;$s->{$e0 }=$n;$i->{$n }=$e0}}}sub has_path {my$m=shift;my ($n,$f,$a,$i,$s)=@$m;return 0 unless$a==@_;my$e;if ($a==2){@_=sort @_ if ($f & _UNORD);$e=shift;return 0 unless exists$s->{$e };$s=$s->{$e }}$e=shift;exists$s->{$e }}sub _get_path_id {my$m=shift;my ($n,$f,$a,$i,$s)=@$m;return undef unless$a==@_;my$e;if ($a==2){@_=sort @_ if ($f & _UNORD);$e=shift;return undef unless exists$s->{$e };$s=$s->{$e }}$e=shift;$s->{$e }}sub _get_path_count {my$m=shift;my ($n,$f,$a,$i,$s)=@$m;my$e;if (@_==2){@_=sort @_ if ($f & _UNORD);$e=shift;return undef unless exists$s->{$e };$s=$s->{$e }}$e=shift;return exists$s->{$e }? 1 : 0}sub has_paths {my$m=shift;my ($n,$f,$a,$i,$s)=@$m;keys %$s}sub paths {my$m=shift;my ($n,$f,$a,$i)=@$m;if (defined$i){my ($k,$v)=each %$i;if (ref$v){return values %{$i}}else {return map {[$_ ]}values %{$i}}}else {return ()}}sub _get_id_path {my$m=shift;my ($n,$f,$a,$i)=@$m;my$p=$i->{$_[0 ]};defined$p ? (ref$p eq 'ARRAY' ? @$p : $p): ()}sub del_path {my$m=shift;my ($n,$f,$a,$i,$s,$p)=@$m;if (@_==2){@_=sort @_ if ($f & _UNORD);my$e0=shift;return 0 unless exists$s->{$e0 };my$e1=shift;if (defined($n=$s->{$e0 }->{$e1 })){delete$i->{$n };delete$s->{$e0 }->{$e1 };delete$p->{$e1 }->{$e0 };delete$s->{$e0 }unless keys %{$s->{$e0 }};delete$p->{$e1 }unless keys %{$p->{$e1 }};return 1}}else {my$e=shift;if (defined($n=$s->{$e })){delete$i->{$n };delete$s->{$e };return 1}}return 0}sub __successors {my$E=shift;return wantarray ? (): 0 unless defined$E->[_s ];my$g=shift;my$V=$g->[_V ];return wantarray ? (): 0 unless defined$V && defined$V->[_s ];my$i=($V->[_f ]& _LIGHT)? $V->[_s ]->{$_[0]}: $V->_get_path_id($_[0]);return wantarray ? (): 0 unless defined$i && defined$E->[_s ]->{$i };return keys %{$E->[_s ]->{$i }}}sub _successors {my$E=shift;my$g=shift;my@s=$E->__successors($g,@_);if (($E->[_f ]& _UNORD)){push@s,$E->__predecessors($g,@_);my%s;@s{@s }=();@s=keys%s}my$V=$g->[_V ];return wantarray ? map {$V->[_i ]->{$_ }}@s : @s}sub __predecessors {my$E=shift;return wantarray ? (): 0 unless defined$E->[_p ];my$g=shift;my$V=$g->[_V ];return wantarray ? (): 0 unless defined$V && defined$V->[_s ];my$i=($V->[_f ]& _LIGHT)? $V->[_s ]->{$_[0]}: $V->_get_path_id($_[0]);return wantarray ? (): 0 unless defined$i && defined$E->[_p ]->{$i };return keys %{$E->[_p ]->{$i }}}sub _predecessors {my$E=shift;my$g=shift;my@p=$E->__predecessors($g,@_);if ($E->[_f ]& _UNORD){push@p,$E->__successors($g,@_);my%p;@p{@p }=();@p=keys%p}my$V=$g->[_V ];return wantarray ? map {$V->[_i ]->{$_ }}@p : @p}sub __attr {my$m=$_[0];my ($n,$f,$a,$i,$s,$p,$g)=@$m;my ($k,$v)=each %$i;my@V=@{$g->[_V ]};my@E=$g->edges;if (ref$v eq 'ARRAY'){@E=$g->edges;$g->[_E ]=$m=Graph::AdjacencyMap::Heavy->_new($f,2);$g->add_edges(@E)}else {$m=Graph::AdjacencyMap::Vertex->_new(($f & ~_LIGHT),1);$m->[_n ]=$V[_n ];$m->[_i ]=$V[_i ];$m->[_s ]=$V[_s ];$m->[_p ]=$V[_p ];$g->[_V ]=$m}$_[0]=$m;goto &{ref($m)."::__attr"}}sub _is_COUNT () {0}sub _is_MULTI () {0}sub _is_HYPER () {0}sub _is_UNIQ () {0}sub _is_REF () {0}1;
GRAPH_ADJACENCYMAP_LIGHT
$fatpacked{"Graph/AdjacencyMap/Vertex.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ADJACENCYMAP_VERTEX';
package Graph::AdjacencyMap::Vertex;use strict;use Graph::AdjacencyMap qw(:flags :fields);use base 'Graph::AdjacencyMap';use Scalar::Util qw(weaken);sub _new {my ($class,$flags,$arity)=@_;bless [0,$flags,$arity ],$class}require overload;sub __strval {my ($k,$f)=@_;ref$k && ($f & _REF)&& (($f & _STR)?!overload::Method($k,'""'): overload::Method($k,'""'))? overload::StrVal($k): $k}sub __set_path {my$m=shift;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);if (@_!=1){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap::Vertex: arguments %d expected 1",scalar @_)}my$p;$p=$m->[_s ]||= {};my@p=$p;my@k;my$k=shift;my$q=__strval($k,$f);push@k,$q;return (\@p,\@k)}sub __set_path_node {my ($m,$p,$l)=splice @_,0,3;my$f=$m->[_f ];my$id=pop if ($f & _MULTI);unless (exists$p->[-1]->{$l }){my$i=$m->_new_node(\$p->[-1]->{$l },$id);$m->[_i ]->{defined$i ? $i : "" }=$_[0]}else {$m->_inc_node(\$p->[-1]->{$l },$id)}}sub set_path {my$m=shift;my$f=$m->[_f ];my ($p,$k)=$m->__set_path(@_);return unless defined$p && defined$k;my$l=defined$k->[-1]? $k->[-1]: "";my$set=$m->__set_path_node($p,$l,@_);return$set}sub __has_path {my$m=shift;my$f=$m->[_f ];if (@_!=1){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap: arguments %d expected 1\n",scalar @_)}my$p=$m->[_s ];return unless defined$p;my@p=$p;my@k;my$k=shift;my$q=__strval($k,$f);push@k,$q;return (\@p,\@k)}sub has_path {my$m=shift;my ($p,$k)=$m->__has_path(@_);return unless defined$p && defined$k;return exists$p->[-1]->{defined$k->[-1]? $k->[-1]: "" }}sub has_path_by_multi_id {my$m=shift;my$id=pop;my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return exists$n->[_nm ]->{$id }}sub _get_path_id {my$m=shift;my$f=$m->[_f ];my ($e,$n)=$m->__get_path_node(@_);return undef unless$e;return ref$n ? $n->[_ni ]: $n}sub _get_path_count {my$m=shift;my$f=$m->[_f ];my ($e,$n)=$m->__get_path_node(@_);return 0 unless$e && defined$n;return ($f & _COUNT)? $n->[_nc ]: ($f & _MULTI)? scalar keys %{$n->[_nm ]}: 1}sub __attr {my$m=shift;if (@_ && ref $_[0]&& @{$_[0]}!=$m->[_a ]){require Carp;Carp::confess(sprintf "Graph::AdjacencyMap::Vertex: arguments %d expected %d",scalar @{$_[0]},$m->[_a ])}}sub _get_id_path {my ($m,$i)=@_;return defined$m->[_i ]? $m->[_i ]->{$i }: undef}sub del_path {my$m=shift;my$f=$m->[_f ];my ($e,$n,$p,$k,$l)=$m->__get_path_node(@_);return unless$e;my$c=($f & _COUNT)? --$n->[_nc ]: 0;if ($c==0){delete$m->[_i ]->{ref$n ? $n->[_ni ]: $n };delete$p->[-1 ]->{$l }}return 1}sub del_path_by_multi_id {my$m=shift;my$f=$m->[_f ];my$id=pop;my ($e,$n,$p,$k,$l)=$m->__get_path_node(@_);return unless$e;delete$n->[_nm ]->{$id };unless (keys %{$n->[_nm ]}){delete$m->[_i ]->{$n->[_ni ]};delete$p->[-1]->{$l }}return 1}sub paths {my$m=shift;return map {[$_ ]}values %{$m->[_i ]}if defined$m->[_i ];wantarray ? (): 0}1;
GRAPH_ADJACENCYMAP_VERTEX
$fatpacked{"Graph/AdjacencyMatrix.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ADJACENCYMATRIX';
package Graph::AdjacencyMatrix;use strict;use Graph::BitMatrix;use Graph::Matrix;use base 'Graph::BitMatrix';use Graph::AdjacencyMap qw(:flags :fields);sub _V () {2}sub _E () {3}sub new {my ($class,$g,%opt)=@_;my$n;my@V=$g->vertices;my$want_distance;if (exists$opt{distance_matrix}){$want_distance=$opt{distance_matrix};delete$opt{distance_matrix}}my$d=Graph::_defattr();if (exists$opt{attribute_name}){$d=$opt{attribute_name};$want_distance++}delete$opt{attribute_name};my$want_transitive=0;if (exists$opt{is_transitive}){$want_transitive=$opt{is_transitive};delete$opt{is_transitive}}Graph::_opt_unknown(\%opt);if ($want_distance){$n=Graph::Matrix->new($g);for my$v (@V){$n->set($v,$v,0)}}my$m=Graph::BitMatrix->new($g,connect_edges=>$want_distance);if ($want_distance){my$Vi=$g->[_V]->[_i];my$Ei=$g->[_E]->[_i];my%V;@V{@V }=0 .. $#V;my$n0=$n->[0];my$n1=$n->[1];if ($g->is_undirected){for my$e (keys %{$Ei}){my ($i0,$j0)=@{$Ei->{$e }};my$i1=$V{$Vi->{$i0 }};my$j1=$V{$Vi->{$j0 }};my$u=$V[$i1 ];my$v=$V[$j1 ];$n0->[$i1 ]->[$j1 ]=$g->get_edge_attribute($u,$v,$d);$n0->[$j1 ]->[$i1 ]=$g->get_edge_attribute($v,$u,$d)}}else {for my$e (keys %{$Ei}){my ($i0,$j0)=@{$Ei->{$e }};my$i1=$V{$Vi->{$i0 }};my$j1=$V{$Vi->{$j0 }};my$u=$V[$i1 ];my$v=$V[$j1 ];$n0->[$i1 ]->[$j1 ]=$g->get_edge_attribute($u,$v,$d)}}}bless [$m,$n,[@V ]],$class}sub adjacency_matrix {my$am=shift;$am->[0]}sub distance_matrix {my$am=shift;$am->[1]}sub vertices {my$am=shift;@{$am->[2]}}sub is_adjacent {my ($m,$u,$v)=@_;$m->[0]->get($u,$v)? 1 : 0}sub distance {my ($m,$u,$v)=@_;defined$m->[1]? $m->[1]->get($u,$v): undef}1;
GRAPH_ADJACENCYMATRIX
$fatpacked{"Graph/Attribute.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_ATTRIBUTE';
package Graph::Attribute;use strict;sub _F () {0}sub _COMPAT02 () {0x00000001}sub import {my$package=shift;my%attr=@_;my$caller=caller(0);if (exists$attr{array}){my$i=$attr{array};no strict 'refs';*{"${caller}::_get_attributes"}=sub {$_[0]->[$i ]};*{"${caller}::_set_attributes"}=sub {$_[0]->[$i ]||= {};$_[0]->[$i ]=$_[1]if @_==2;$_[0]->[$i ]};*{"${caller}::_has_attributes"}=sub {defined $_[0]->[$i ]};*{"${caller}::_delete_attributes"}=sub {undef $_[0]->[$i ];1}}elsif (exists$attr{hash}){my$k=$attr{hash};no strict 'refs';*{"${caller}::_get_attributes"}=sub {$_[0]->{$k }};*{"${caller}::_set_attributes"}=sub {$_[0]->{$k }||= {};$_[0]->{$k }=$_[1]if @_==2;$_[0]->{$k }};*{"${caller}::_has_attributes"}=sub {defined $_[0]->{$k }};*{"${caller}::_delete_attributes"}=sub {delete $_[0]->{$k }}}else {die "Graph::Attribute::import($package @_) caller $caller\n"}my@api=qw(get_attribute get_attributes set_attribute set_attributes has_attribute has_attributes delete_attribute delete_attributes get_attribute_names get_attribute_values);if (exists$attr{map}){my$map=$attr{map};for my$api (@api){my ($first,$rest)=($api =~ /^(\w+?)_(.+)/);no strict 'refs';*{"${caller}::${first}_${map}_${rest}"}=\&$api}}}sub set_attribute {my$g=shift;my$v=pop;my$a=pop;my$p=$g->_set_attributes;$p->{$a }=$v;return 1}sub set_attributes {my$g=shift;my$a=pop;my$p=$g->_set_attributes($a);return 1}sub has_attribute {my$g=shift;my$a=pop;my$p=$g->_get_attributes;$p ? exists$p->{$a }: 0}sub has_attributes {my$g=shift;$g->_get_attributes ? 1 : 0}sub get_attribute {my$g=shift;my$a=pop;my$p=$g->_get_attributes;$p ? $p->{$a }: undef}sub delete_attribute {my$g=shift;my$a=pop;my$p=$g->_get_attributes;if (defined$p){delete$p->{$a };return 1}else {return 0}}sub delete_attributes {my$g=shift;if ($g->_has_attributes){$g->_delete_attributes;return 1}else {return 0}}sub get_attribute_names {my$g=shift;my$p=$g->_get_attributes;defined$p ? keys %{$p}: ()}sub get_attribute_values {my$g=shift;my$p=$g->_get_attributes;defined$p ? values %{$p}: ()}sub get_attributes {my$g=shift;my$a=$g->_get_attributes;($g->[_F ]& _COMPAT02)? (defined$a ? %{$a}: ()): $a}1;
GRAPH_ATTRIBUTE
$fatpacked{"Graph/BitMatrix.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_BITMATRIX';
package Graph::BitMatrix;use strict;sub _V () {2}sub _E () {3}sub _i () {3}sub _s () {4}sub new {my ($class,$g,%opt)=@_;my@V=$g->vertices;my$V=@V;my$Z="\0" x (($V + 7)/ 8);my%V;@V{@V }=0 .. $#V;my$bm=bless [[($Z)x $V ],\%V ],$class;my$bm0=$bm->[0];my$connect_edges;if (exists$opt{connect_edges}){$connect_edges=$opt{connect_edges};delete$opt{connect_edges}}$connect_edges=1 unless defined$connect_edges;Graph::_opt_unknown(\%opt);if ($connect_edges){my$Vi=$g->[_V]->[_i];my$Ei=$g->[_E]->[_i];if ($g->is_undirected){for my$e (keys %{$Ei}){my ($i0,$j0)=@{$Ei->{$e }};my$i1=$V{$Vi->{$i0 }};my$j1=$V{$Vi->{$j0 }};vec($bm0->[$i1],$j1,1)=1;vec($bm0->[$j1],$i1,1)=1}}else {for my$e (keys %{$Ei}){my ($i0,$j0)=@{$Ei->{$e }};vec($bm0->[$V{$Vi->{$i0 }}],$V{$Vi->{$j0 }},1)=1}}}return$bm}sub set {my ($m,$u,$v)=@_;my ($i,$j)=map {$m->[1]->{$_ }}($u,$v);vec($m->[0]->[$i],$j,1)=1 if defined$i && defined$j}sub unset {my ($m,$u,$v)=@_;my ($i,$j)=map {$m->[1]->{$_ }}($u,$v);vec($m->[0]->[$i],$j,1)=0 if defined$i && defined$j}sub get {my ($m,$u,$v)=@_;my ($i,$j)=map {$m->[1]->{$_ }}($u,$v);defined$i && defined$j ? vec($m->[0]->[$i],$j,1): undef}sub set_row {my ($m,$u)=splice @_,0,2;my$m0=$m->[0];my$m1=$m->[1];my$i=$m1->{$u };return unless defined$i;for my$v (@_){my$j=$m1->{$v };vec($m0->[$i],$j,1)=1 if defined$j}}sub unset_row {my ($m,$u)=splice @_,0,2;my$m0=$m->[0];my$m1=$m->[1];my$i=$m1->{$u };return unless defined$i;for my$v (@_){my$j=$m1->{$v };vec($m0->[$i],$j,1)=0 if defined$j}}sub get_row {my ($m,$u)=splice @_,0,2;my$m0=$m->[0];my$m1=$m->[1];my$i=$m1->{$u };return ()x @_ unless defined$i;my@r;for my$v (@_){my$j=$m1->{$v };push@r,defined$j ? (vec($m0->[$i],$j,1)? 1 : 0): undef}return@r}sub vertices {my ($m,$u,$v)=@_;keys %{$m->[1]}}1;
GRAPH_BITMATRIX
$fatpacked{"Graph/Directed.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_DIRECTED';
package Graph::Directed;use Graph;use base 'Graph';use strict;1;
GRAPH_DIRECTED
$fatpacked{"Graph/MSTHeapElem.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_MSTHEAPELEM';
package Graph::MSTHeapElem;use strict;use vars qw($VERSION @ISA);use Heap071::Elem;use base 'Heap071::Elem';sub new {my$class=shift;bless {u=>$_[0],v=>$_[1],w=>$_[2]},$class}sub cmp {($_[0]->{w }|| 0)<=> ($_[1]->{w }|| 0)}sub val {@{$_[0]}{qw(u v w) }}1;
GRAPH_MSTHEAPELEM
$fatpacked{"Graph/Matrix.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_MATRIX';
package Graph::Matrix;use strict;sub new {my ($class,$g)=@_;my@V=$g->vertices;my$V=@V;my%V;@V{@V }=0 .. $#V;bless [[map {[]}0 .. $#V ],\%V ],$class}sub set {my ($m,$u,$v,$val)=@_;my ($i,$j)=map {$m->[1]->{$_ }}($u,$v);$m->[0]->[$i]->[$j]=$val}sub get {my ($m,$u,$v)=@_;my ($i,$j)=map {$m->[1]->{$_ }}($u,$v);$m->[0]->[$i]->[$j]}1;
GRAPH_MATRIX
$fatpacked{"Graph/SPTHeapElem.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_SPTHEAPELEM';
package Graph::SPTHeapElem;use strict;use vars qw($VERSION @ISA);use Heap071::Elem;use base 'Heap071::Elem';sub new {my$class=shift;bless {u=>$_[0],v=>$_[1],w=>$_[2]},$class}sub cmp {($_[0]->{w }|| 0)<=> ($_[1]->{w }|| 0)|| ($_[0]->{u }cmp $_[1]->{u })|| ($_[0]->{u }cmp $_[1]->{v })}sub val {@{$_[0]}{qw(u v w) }}1;
GRAPH_SPTHEAPELEM
$fatpacked{"Graph/TransitiveClosure.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_TRANSITIVECLOSURE';
package Graph::TransitiveClosure;use strict;use base 'Graph';use Graph::TransitiveClosure::Matrix;sub _G () {Graph::_G()}sub new {my ($class,$g,%opt)=@_;$g->expect_non_multiedged;%opt=(path_vertices=>1)unless%opt;my$attr=Graph::_defattr();if (exists$opt{attribute_name }){$attr=$opt{attribute_name }}$opt{reflexive }=1 unless exists$opt{reflexive };my$tcm=$g->new($opt{reflexive }? (vertices=>[$g->vertices ]): ());my$tcg=$g->get_graph_attribute('_tcg');if (defined$tcg && $tcg->[0 ]==$g->[_G ]){$tcg=$tcg->[1 ]}else {$tcg=Graph::TransitiveClosure::Matrix->new($g,%opt);$g->set_graph_attribute('_tcg',[$g->[_G ],$tcg ])}my$tcg00=$tcg->[0]->[0];my$tcg11=$tcg->[1]->[1];for my$u ($tcg->vertices){my$tcg00i=$tcg00->[$tcg11->{$u }];for my$v ($tcg->vertices){next if$u eq $v &&!$opt{reflexive };my$j=$tcg11->{$v };if (vec($tcg00i,$j,1)){my$val=$g->_get_edge_attribute($u,$v,$attr);$tcm->_set_edge_attribute($u,$v,$attr,defined$val ? $val : $u eq $v ? 0 : 1)}}}$tcm->set_graph_attribute('_tcm',$tcg);bless$tcm,$class}sub is_transitive {my$g=shift;$g->expect_no_args(@_);Graph::TransitiveClosure::Matrix::is_transitive($g)}1;
GRAPH_TRANSITIVECLOSURE
$fatpacked{"Graph/TransitiveClosure/Matrix.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_TRANSITIVECLOSURE_MATRIX';
package Graph::TransitiveClosure::Matrix;use strict;use Graph::AdjacencyMatrix;use Graph::Matrix;sub _new {my ($g,$class,$opt,$want_transitive,$want_reflexive,$want_path,$want_path_vertices)=@_;my$m=Graph::AdjacencyMatrix->new($g,%$opt);my@V=$g->vertices;my$am=$m->adjacency_matrix;my$dm;my$pm;my@di;my%di;@di{@V }=0..$#V;my@ai=@{$am->[0]};my%ai=%{$am->[1]};my@pi;my%pi;unless ($want_transitive){$dm=$m->distance_matrix;@di=@{$dm->[0]};%di=%{$dm->[1]};$pm=Graph::Matrix->new($g);@pi=@{$pm->[0]};%pi=%{$pm->[1]};for my$u (@V){my$diu=$di{$u};my$aiu=$ai{$u};for my$v (@V){my$div=$di{$v};my$aiv=$ai{$v};next unless vec($ai[$aiu],$aiv,1);$di[$diu]->[$div]=$u eq $v ? 0 : 1 unless defined $di[$diu]->[$div];$pi[$diu]->[$div]=$v unless$u eq $v}}}for my$u (@V){my$diu=$di{$u};my$aiu=$ai{$u};my$didiu=$di[$diu];my$aiaiu=$ai[$aiu];for my$v (@V){my$div=$di{$v};my$aiv=$ai{$v};my$didiv=$di[$div];my$aiaiv=$ai[$aiv];if (vec($aiaiv,$aiu,1)|| ($want_reflexive && $u eq $v)){my$aivivo=$aiaiv;if ($want_transitive){if ($want_reflexive){for my$w (@V){next if$w eq $u;my$aiw=$ai{$w};return 0 if vec($aiaiu,$aiw,1)&& !vec($aiaiv,$aiw,1)}}else {$aiaiv |= $aiaiu}}else {if ($want_reflexive){$aiaiv |= $aiaiu;vec($aiaiv,$aiu,1)=1}else {$aiaiv |= $aiaiu}}if ($aiaiv ne $aivivo){$ai[$aiv]=$aiaiv;$aiaiu=$aiaiv if$u eq $v}}if ($want_path &&!$want_transitive){for my$w (@V){my$aiw=$ai{$w};next unless vec($aiaiv,$aiu,1)&& vec($aiaiu,$aiw,1);my$diw=$di{$w};my ($d0,$d1a,$d1b);if (defined$dm){$d0=$didiv->[$diw];$d1a=$didiv->[$diu]|| 1;$d1b=$didiu->[$diw]|| 1}else {$d1a=1;$d1b=1}my$d1=$d1a + $d1b;if (!defined$d0 || ($d1 < $d0)){$didiv->[$diw]=$d1;$pi[$div]->[$diw]=$pi[$div]->[$diu]if$want_path_vertices}}$didiu->[$div]=1 if$u ne $v && vec($aiaiu,$aiv,1)&& !defined$didiu->[$div]}}}return 1 if$want_transitive;my%V;@V{@V }=@V;$am->[0]=\@ai;$am->[1]=\%ai;if (defined$dm){$dm->[0]=\@di;$dm->[1]=\%di}if (defined$pm){$pm->[0]=\@pi;$pm->[1]=\%pi}bless [$am,$dm,$pm,\%V ],$class}sub new {my ($class,$g,%opt)=@_;my%am_opt=(distance_matrix=>1);if (exists$opt{attribute_name}){$am_opt{attribute_name}=$opt{attribute_name};delete$opt{attribute_name}}if ($opt{distance_matrix}){$am_opt{distance_matrix}=$opt{distance_matrix}}delete$opt{distance_matrix};if (exists$opt{path}){$opt{path_length}=$opt{path};$opt{path_vertices}=$opt{path};delete$opt{path}}my$want_path_length;if (exists$opt{path_length}){$want_path_length=$opt{path_length};delete$opt{path_length}}my$want_path_vertices;if (exists$opt{path_vertices}){$want_path_vertices=$opt{path_vertices};delete$opt{path_vertices}}my$want_reflexive;if (exists$opt{reflexive}){$want_reflexive=$opt{reflexive};delete$opt{reflexive}}my$want_transitive;if (exists$opt{is_transitive}){$want_transitive=$opt{is_transitive};$am_opt{is_transitive}=$want_transitive;delete$opt{is_transitive}}die "Graph::TransitiveClosure::Matrix::new: Unknown options: @{[map { qq['$_' => $opt{$_}]} keys %opt]}" if keys%opt;$want_reflexive=1 unless defined$want_reflexive;my$want_path=$want_path_length || $want_path_vertices;_new($g,$class,\%am_opt,$want_transitive,$want_reflexive,$want_path,$want_path_vertices)}sub has_vertices {my$tc=shift;for my$v (@_){return 0 unless exists$tc->[3]->{$v }}return 1}sub is_reachable {my ($tc,$u,$v)=@_;return undef unless$tc->has_vertices($u,$v);return 1 if$u eq $v;$tc->[0]->get($u,$v)}sub is_transitive {if (@_==1){__PACKAGE__->new($_[0],is_transitive=>1)}else {my ($tc,$u,$v)=@_;return undef unless$tc->has_vertices($u,$v);$tc->[0]->get($u,$v)}}sub vertices {my$tc=shift;values %{$tc->[3]}}sub path_length {my ($tc,$u,$v)=@_;return undef unless$tc->has_vertices($u,$v);return 0 if$u eq $v;$tc->[1]->get($u,$v)}sub path_predecessor {my ($tc,$u,$v)=@_;return undef if$u eq $v;return undef unless$tc->has_vertices($u,$v);$tc->[2]->get($u,$v)}sub path_vertices {my ($tc,$u,$v)=@_;return unless$tc->is_reachable($u,$v);return wantarray ? (): 0 if$u eq $v;my@v=($u);while ($u ne $v){last unless defined($u=$tc->path_predecessor($u,$v));push@v,$u}$tc->[2]->set($u,$v,[@v ])if@v;return@v}1;
GRAPH_TRANSITIVECLOSURE_MATRIX
$fatpacked{"Graph/Traversal.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_TRAVERSAL';
package Graph::Traversal;use strict;sub DEBUG () {0}sub reset {my$self=shift;$self->{unseen }={map {$_=>$_}$self->{graph }->vertices };$self->{seen }={};$self->{order }=[];$self->{preorder }=[];$self->{postorder }=[];$self->{roots }=[];$self->{tree }=Graph->new(directed=>$self->{graph }->directed);delete$self->{terminate }}my$see=sub {my$self=shift;$self->see};my$see_active=sub {my$self=shift;delete @{$self->{active }}{$self->see }};sub has_a_cycle {my ($u,$v,$t,$s)=@_;$s->{has_a_cycle }=1;$t->terminate}sub find_a_cycle {my ($u,$v,$t,$s)=@_;my@cycle=($u);push@cycle,$v unless$u eq $v;my$path=$t->{order };if (@$path){my$i=$#$path;while ($i >= 0 && $path->[$i ]ne $v){$i--}if ($i >= 0){unshift@cycle,@{$path}[$i+1 .. $#$path ]}}$s->{a_cycle }=\@cycle;$t->terminate}sub configure {my ($self,%attr)=@_;$self->{pre }=$attr{pre }if exists$attr{pre };$self->{post }=$attr{post }if exists$attr{post };$self->{pre_vertex }=$attr{pre_vertex }if exists$attr{pre_vertex };$self->{post_vertex }=$attr{post_vertex }if exists$attr{post_vertex };$self->{pre_edge }=$attr{pre_edge }if exists$attr{pre_edge };$self->{post_edge }=$attr{post_edge }if exists$attr{post_edge };if (exists$attr{successor }){$self->{tree_edge }=$self->{non_tree_edge }=$attr{successor }}if (exists$attr{unseen_successor }){if (exists$self->{tree_edge }){my$old_tree_edge=$self->{tree_edge };$self->{tree_edge }=sub {$old_tree_edge->(@_);$attr{unseen_successor }->(@_)}}else {$self->{tree_edge }=$attr{unseen_successor }}}if ($self->graph->multiedged || $self->graph->countedged){$self->{seen_edge }=$attr{seen_edge }if exists$attr{seen_edge };if (exists$attr{seen_successor }){$self->{seen_edge }=$attr{seen_edge }}}$self->{non_tree_edge }=$attr{non_tree_edge }if exists$attr{non_tree_edge };$self->{pre_edge }=$attr{tree_edge }if exists$attr{tree_edge };$self->{back_edge }=$attr{back_edge }if exists$attr{back_edge };$self->{down_edge }=$attr{down_edge }if exists$attr{down_edge };$self->{cross_edge }=$attr{cross_edge }if exists$attr{cross_edge };if (exists$attr{start }){$attr{first_root }=$attr{start };$attr{next_root }=undef}if (exists$attr{get_next_root }){$attr{next_root }=$attr{get_next_root }}$self->{next_root }=exists$attr{next_root }? $attr{next_root }: $attr{next_alphabetic }? \&Graph::_next_alphabetic : $attr{next_numeric }? \&Graph::_next_numeric : \&Graph::_next_random;$self->{first_root }=exists$attr{first_root }? $attr{first_root }: exists$attr{next_root }? $attr{next_root }: $attr{next_alphabetic }? \&Graph::_next_alphabetic : $attr{next_numeric }? \&Graph::_next_numeric : \&Graph::_next_random;$self->{next_successor }=exists$attr{next_successor }? $attr{next_successor }: $attr{next_alphabetic }? \&Graph::_next_alphabetic : $attr{next_numeric }? \&Graph::_next_numeric : \&Graph::_next_random;if (exists$attr{has_a_cycle }){my$has_a_cycle=ref$attr{has_a_cycle }eq 'CODE' ? $attr{has_a_cycle }: \&has_a_cycle;$self->{back_edge }=$has_a_cycle;if ($self->{graph }->is_undirected){$self->{down_edge }=$has_a_cycle}}if (exists$attr{find_a_cycle }){my$find_a_cycle=ref$attr{find_a_cycle }eq 'CODE' ? $attr{find_a_cycle }: \&find_a_cycle;$self->{back_edge }=$find_a_cycle;if ($self->{graph }->is_undirected){$self->{down_edge }=$find_a_cycle}}$self->{add }=\&add_order;$self->{see }=$see;delete@attr{qw(pre post pre_edge post_edge successor unseen_successor seen_successor tree_edge non_tree_edge back_edge down_edge cross_edge seen_edge start get_next_root next_root next_alphabetic next_numeric next_random next_successor first_root has_a_cycle find_a_cycle) };if (keys%attr){require Carp;my@attr=sort keys%attr;Carp::croak(sprintf "Graph::Traversal: unknown attribute%s @{[map { qq['$_'] } @attr]}\n",@attr==1 ? '' : 's')}}sub new {my$class=shift;my$g=shift;unless (ref$g && $g->isa('Graph')){require Carp;Carp::croak("Graph::Traversal: first argument is not a Graph")}my$self={graph=>$g,state=>{}};bless$self,$class;$self->reset;$self->configure(@_);return$self}sub terminate {my$self=shift;$self->{terminate }=1}sub add_order {my ($self,@next)=@_;push @{$self->{order }},@next}sub visit {my ($self,@next)=@_;delete @{$self->{unseen }}{@next };print "unseen = @{[sort keys %{$self->{unseen}}]}\n" if DEBUG;@{$self->{seen }}{@next }=@next;print "seen = @{[sort keys %{$self->{seen}}]}\n" if DEBUG;$self->{add }->($self,@next);print "order = @{$self->{order}}\n" if DEBUG;if (exists$self->{pre }){my$p=$self->{pre };for my$v (@next){$p->($v,$self)}}}sub visit_preorder {my ($self,@next)=@_;push @{$self->{preorder }},@next;for my$v (@next){$self->{preordern }->{$v }=$self->{preorderi }++}print "preorder = @{$self->{preorder}}\n" if DEBUG;$self->visit(@next)}sub visit_postorder {my ($self)=@_;my@post=reverse$self->{see }->($self);push @{$self->{postorder }},@post;for my$v (@post){$self->{postordern }->{$v }=$self->{postorderi }++}print "postorder = @{$self->{postorder}}\n" if DEBUG;if (exists$self->{post }){my$p=$self->{post };for my$v (@post){$p->($v,$self)}}if (exists$self->{post_edge }){my$p=$self->{post_edge };my$u=$self->current;if (defined$u){for my$v (@post){$p->($u,$v,$self,$self->{state })}}}}sub _callbacks {my ($self,$current,@all)=@_;return unless@all;my$nontree=$self->{non_tree_edge };my$back=$self->{back_edge };my$down=$self->{down_edge };my$cross=$self->{cross_edge };my$seen=$self->{seen_edge };my$bdc=defined$back || defined$down || defined$cross;if (defined$nontree || $bdc || defined$seen){my$u=$current;my$preu=$self->{preordern }->{$u };my$postu=$self->{postordern }->{$u };for my$v (@all){my$e=$self->{tree }->has_edge($u,$v);if (!$e && (defined$nontree || $bdc)){if (exists$self->{seen }->{$v }){$nontree->($u,$v,$self,$self->{state })if$nontree;if ($bdc){my$postv=$self->{postordern }->{$v };if ($back && (!defined$postv || $postv >= $postu)){$back ->($u,$v,$self,$self->{state })}else {my$prev=$self->{preordern }->{$v };if ($down && $prev > $preu){$down ->($u,$v,$self,$self->{state })}elsif ($cross && $prev < $preu){$cross->($u,$v,$self,$self->{state })}}}}}if ($seen){my$c=$self->graph->get_edge_count($u,$v);while ($c-- > 1){$seen->($u,$v,$self,$self->{state })}}}}}sub next {my$self=shift;return undef if$self->{terminate };my@next;while ($self->seeing){my$current=$self->current;print "current = $current\n" if DEBUG;@next=$self->{graph }->successors($current);print "next.0 - @next\n" if DEBUG;my%next;@next{@next }=@next;print "next.1 - @next\n" if DEBUG;@next=values%next;my@all=@next;print "all = @all\n" if DEBUG;for my$s (keys%next){delete$next{$s}if exists$self->{seen}->{$s}}@next=values%next;print "next.2 - @next\n" if DEBUG;if (@next){@next=$self->{next_successor }->($self,\%next);print "next.3 - @next\n" if DEBUG;for my$v (@next){$self->{tree }->add_edge($current,$v)}if (exists$self->{pre_edge }){my$p=$self->{pre_edge };my$u=$self->current;for my$v (@next){$p->($u,$v,$self,$self->{state })}}last}else {$self->visit_postorder}return undef if$self->{terminate };$self->_callbacks($current,@all)}print "next.4 - @next\n" if DEBUG;unless (@next){unless (@{$self->{roots }}){my$first=$self->{first_root };if (defined$first){@next=ref$first eq 'CODE' ? $self->{first_root }->($self,$self->{unseen }): $first;return unless@next}}unless (@next){return unless defined$self->{next_root };return unless@next=$self->{next_root }->($self,$self->{unseen })}return if exists$self->{seen }->{$next[0]};print "next.5 - @next\n" if DEBUG;push @{$self->{roots }},$next[0]}print "next.6 - @next\n" if DEBUG;if (@next){$self->visit_preorder(@next)}return$next[0]}sub _order {my ($self,$order)=@_;1 while defined$self->next;my$wantarray=wantarray;if ($wantarray){@{$self->{$order }}}elsif (defined$wantarray){shift @{$self->{$order }}}}sub preorder {my$self=shift;$self->_order('preorder')}sub postorder {my$self=shift;$self->_order('postorder')}sub unseen {my$self=shift;values %{$self->{unseen }}}sub seen {my$self=shift;values %{$self->{seen }}}sub seeing {my$self=shift;@{$self->{order }}}sub roots {my$self=shift;@{$self->{roots }}}sub is_root {my ($self,$v)=@_;for my$u (@{$self->{roots }}){return 1 if$u eq $v}return 0}sub tree {my$self=shift;$self->{tree }}sub graph {my$self=shift;$self->{graph }}sub vertex_by_postorder {my ($self,$i)=@_;exists$self->{postorder }&& $self->{postorder }->[$i ]}sub postorder_by_vertex {my ($self,$v)=@_;exists$self->{postordern }&& $self->{postordern }->{$v }}sub postorder_vertices {my ($self,$v)=@_;exists$self->{postordern }? %{$self->{postordern }}: ()}sub vertex_by_preorder {my ($self,$i)=@_;exists$self->{preorder }&& $self->{preorder }->[$i ]}sub preorder_by_vertex {my ($self,$v)=@_;exists$self->{preordern }&& $self->{preordern }->{$v }}sub preorder_vertices {my ($self,$v)=@_;exists$self->{preordern }? %{$self->{preordern }}: ()}sub has_state {my ($self,$var)=@_;exists$self->{state }&& exists$self->{state }->{$var }}sub get_state {my ($self,$var)=@_;exists$self->{state }? $self->{state }->{$var }: undef}sub set_state {my ($self,$var,$val)=@_;$self->{state }->{$var }=$val;return 1}sub delete_state {my ($self,$var)=@_;delete$self->{state }->{$var };delete$self->{state }unless keys %{$self->{state }};return 1}1;
GRAPH_TRAVERSAL
$fatpacked{"Graph/Traversal/BFS.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_TRAVERSAL_BFS';
package Graph::Traversal::BFS;use strict;use Graph::Traversal;use base 'Graph::Traversal';sub current {my$self=shift;$self->{order }->[0 ]}sub see {my$self=shift;shift @{$self->{order }}}*bfs=\&Graph::Traversal::postorder;1;
GRAPH_TRAVERSAL_BFS
$fatpacked{"Graph/Traversal/DFS.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_TRAVERSAL_DFS';
package Graph::Traversal::DFS;use strict;use Graph::Traversal;use base 'Graph::Traversal';sub current {my$self=shift;$self->{order }->[-1 ]}sub see {my$self=shift;pop @{$self->{order }}}*dfs=\&Graph::Traversal::postorder;1;
GRAPH_TRAVERSAL_DFS
$fatpacked{"Graph/Undirected.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_UNDIRECTED';
package Graph::Undirected;use Graph;use base 'Graph';use strict;sub new {my$class=shift;bless Graph->new(undirected=>1,@_),ref$class || $class}1;
GRAPH_UNDIRECTED
$fatpacked{"Graph/UnionFind.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'GRAPH_UNIONFIND';
package Graph::UnionFind;use strict;sub _PARENT () {0}sub _RANK () {1}sub new {my$class=shift;bless {},$class}sub add {my ($self,$elem)=@_;$self->{$elem }=[$elem,0 ]unless defined$self->{$elem}}sub has {my ($self,$elem)=@_;exists$self->{$elem }}sub _parent {return undef unless defined $_[1];if (@_==2){exists $_[0]->{$_[1 ]}? $_[0]->{$_[1]}->[_PARENT ]: undef}elsif (@_==3){$_[0]->{$_[1]}->[_PARENT ]=$_[2]}else {require Carp;Carp::croak(__PACKAGE__ ."::_parent: bad arity")}}sub _rank {return unless defined $_[1];if (@_==2){exists $_[0]->{$_[1]}? $_[0]->{$_[1]}->[_RANK ]: undef}elsif (@_==3){$_[0]->{$_[1]}->[_RANK ]=$_[2]}else {require Carp;Carp::croak(__PACKAGE__ ."::_rank: bad arity")}}sub find {my ($self,$x)=@_;my$px=$self->_parent($x);return unless defined$px;$self->_parent($x,$self->find($px))if$px ne $x;$self->_parent($x)}sub union {my ($self,$x,$y)=@_;$self->add($x)unless$self->has($x);$self->add($y)unless$self->has($y);my$px=$self->find($x);my$py=$self->find($y);return if$px eq $py;my$rx=$self->_rank($px);my$ry=$self->_rank($py);if ($rx > $ry){$self->_parent($py,$px)}else {$self->_parent($px,$py);$self->_rank($py,$ry + 1)if$rx==$ry}}sub same {my ($uf,$u,$v)=@_;my$fu=$uf->find($u);return undef unless defined$fu;my$fv=$uf->find($v);return undef unless defined$fv;$fu eq $fv}1;
GRAPH_UNIONFIND
$fatpacked{"Heap071/Elem.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'HEAP071_ELEM';
package Heap071::Elem;use strict;use vars qw($VERSION @ISA @EXPORT @EXPORT_OK);require Exporter;require AutoLoader;@ISA=qw(Exporter AutoLoader);@EXPORT=();sub new {my$self=shift;my$class=ref($self)|| $self;return bless {heap=>undef,@_ },$class}sub heap {my$self=shift;@_ ? ($self->{heap}=shift): $self->{heap}}sub cmp {die "This cmp method must be superceded by one that knows how to compare elements."}1;
HEAP071_ELEM
$fatpacked{"Heap071/Fibonacci.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'HEAP071_FIBONACCI';
package Heap071::Fibonacci;use strict;use vars qw($VERSION @ISA @EXPORT @EXPORT_OK);require Exporter;require AutoLoader;@ISA=qw(Exporter AutoLoader);@EXPORT=();my$debug=0;my$validate=0;sub debug {@_ ? ($debug=shift): $debug}sub validate {@_ ? ($validate=shift): $validate}my$width=3;my$bar=' | ';my$corner=' +-';my$vfmt="%3d";sub set_width {$width=shift;$width=2 if$width < 2;$vfmt="%${width}d";$bar=$corner=' ' x $width;substr($bar,-2,1)='|';substr($corner,-2,2)='+-'}sub hdump;sub hdump {my$el=shift;my$l1=shift;my$b=shift;my$ch;my$ch1;unless($el){print$l1,"\n";return}hdump$ch1=$el->{child},$l1 .sprintf($vfmt,$el->{val}->val),$b .$bar;if($ch1){for($ch=$ch1->{right};$ch!=$ch1;$ch=$ch->{right}){hdump$ch,$b .$corner,$b .$bar}}}sub heapdump {my$h;while($h=shift){my$top=$$h or last;my$el=$top;do {hdump$el,sprintf("%02d: ",$el->{degree}),' ';$el=$el->{right}}until$el==$top;print "\n"}}sub bhcheck;sub bhcheck {my$el=shift;my$p=shift;my$cur=$el;my$prev;my$ch;do {$prev=$cur;$cur=$cur->{right};die "bad back link" unless$cur->{left}==$prev;die "bad parent link" unless (defined$p && defined$cur->{p}&& $cur->{p}==$p)|| (!defined$p &&!defined$cur->{p});die "bad degree( $cur->{degree} > $p->{degree} )" if$p && $p->{degree}<= $cur->{degree};die "not heap ordered" if$p && $p->{val}->cmp($cur->{val})> 0;$ch=$cur->{child}and bhcheck$ch,$cur}until$cur==$el}sub heapcheck {my$h;my$el;while($h=shift){heapdump$h if$validate >= 2;$el=$$h and bhcheck$el,undef}}sub ascending_cut;sub elem;sub elem_DESTROY;sub link_to_left_of;sub new {my$self=shift;my$class=ref($self)|| $self;my$h=undef;bless \$h,$class}sub DESTROY {my$h=shift;elem_DESTROY $$h}sub add {my$h=shift;my$v=shift;$validate && do {die "Method 'heap' required for element on heap" unless$v->can('heap');die "Method 'cmp' required for element on heap" unless$v->can('cmp')};my$el=elem$v;my$top;if(!($top=$$h)){$$h=$el}else {link_to_left_of$top->{left},$el ;link_to_left_of$el,$top;$$h=$el if$v->cmp($top->{val})< 0}}sub top {my$h=shift;$$h && $$h->{val}}*minimum=\⊤sub extract_top {my$h=shift;my$el=$$h or return undef;my$ltop=$el->{left};my$cur;my$next;if($cur=$el->{child}){my$first=$cur;do {$cur->{p}=undef}until ($cur=$cur->{right})==$first;$cur=$cur->{left};link_to_left_of$ltop,$first;link_to_left_of$cur,$el}if($el->{right}==$el){$$h=undef}else {link_to_left_of$el->{left},$$h=$el->{right};$h->consolidate}my$top=$el->{val};$top->heap(undef);$el->{left}=$el->{right}=$el->{p}=$el->{child}=$el->{val}=undef;$top}*extract_minimum=\&extract_top;sub absorb {my$h=shift;my$h2=shift;my$el=$$h;unless($el){$$h=$$h2;$$h2=undef;return$h}my$el2=$$h2 or return$h;my$el2l=$el2->{left};link_to_left_of$el->{left},$el2;link_to_left_of$el2l,$el;$$h=$el2 if$el->{val}->cmp($el2->{val})> 0;$$h2=undef;$h}sub decrease_key {my$h=shift;my$top=$$h;my$v=shift;my$el=$v->heap or return undef;my$p;$$h=$el if$top->{val}->cmp($v)> 0;if($p=$el->{p}and $v->cmp($p->{val})< 0){ascending_cut$top,$p,$el}$v}sub delete {my$h=shift;my$v=shift;my$el=$v->heap or return undef;my$p;$p=$el->{p}and ascending_cut $$h,$p,$el;$$h=$el;$h->extract_top}sub elem {my$v=shift;my$el=undef;$el={p=>undef,degree=>0,mark=>0,child=>undef,val=>$v,left=>undef,right=>undef,};$el->{left}=$el->{right}=$el;$v->heap($el);$el}sub elem_DESTROY {my$el=shift;my$ch;my$next;$el->{left}->{right}=undef;while($el){$ch=$el->{child}and elem_DESTROY$ch;$next=$el->{right};defined$el->{val}and $el->{val}->heap(undef);$el->{child}=$el->{right}=$el->{left}=$el->{p}=$el->{val}=undef;$el=$next}}sub link_to_left_of {my$l=shift;my$r=shift;$l->{right}=$r;$r->{left}=$l}sub link_as_parent_of {my$p=shift;my$c=shift;my$pc;if($pc=$p->{child}){link_to_left_of$pc->{left},$c;link_to_left_of$c,$pc}else {link_to_left_of$c,$c}$p->{child}=$c;$c->{p}=$p;$p->{degree}++;$c->{mark}=0;$p}sub consolidate {my$h=shift;my$cur;my$this;my$next=$$h;my$last=$next->{left};my@a;do {$this=$cur=$next;$next=$cur->{right};my$d=$cur->{degree};my$alt;while($alt=$a[$d]){($cur,$alt)=($alt,$cur)if$cur->{val}->cmp($alt->{val})> 0;link_to_left_of$alt->{left},$alt->{right};link_as_parent_of$cur,$alt;$$h=$cur;$a[$d]=undef;++$d}$a[$d]=$cur}until$this==$last;$cur=$$h;for$cur (grep defined,@a){$$h=$cur if $$h->{val}->cmp($cur->{val})> 0}}sub ascending_cut {my$top=shift;my$p=shift;my$el=shift;while(1){if(--$p->{degree}){my$l=$el->{left};$p->{child}=$l;link_to_left_of$l,$el->{right}}else {$p->{child}=undef}link_to_left_of$top->{left},$el;link_to_left_of$el,$top;$el->{p}=undef;$el->{mark}=0;$el=$p;last unless$p=$el->{p};$el->{mark}=1,last unless$el->{mark}}}1;
HEAP071_FIBONACCI
$fatpacked{"Log/ger.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER';
package Log::ger;our$DATE='2017-08-03';our$VERSION='0.023';our$re_addr=qr/\(0x([0-9a-f]+)/o;our%Levels=(fatal=>10,error=>20,warn=>30,info=>40,debug=>50,trace=>60,);our%Level_Aliases=(off=>0,warning=>30,);our$Current_Level=30;our$Caller_Depth_Offset=0;our$_logger_is_null;our$_dumper;our%Global_Hooks;our%Package_Targets;our%Per_Package_Hooks;our%Hash_Targets;our%Per_Hash_Hooks;our%Object_Targets;our%Per_Object_Hooks;my$sub0=sub {0};my$sub1=sub {1};my$default_null_routines;sub install_routines {my ($target,$target_arg,$routines)=@_;if ($target eq 'package'){for my$r (@$routines){my ($code,$name,$lnum,$type)=@$r;next unless$type =~ /_sub\z/;*{"$target_arg\::$name"}=$code}}elsif ($target eq 'object'){my$pkg=ref$target_arg;for my$r (@$routines){my ($code,$name,$lnum,$type)=@$r;next unless$type =~ /_method\z/;*{"$pkg\::$name"}=$code}}elsif ($target eq 'hash'){for my$r (@$routines){my ($code,$name,$lnum,$type)=@$r;next unless$type =~ /_sub\z/;$target_arg->{$name}=$code}}}sub add_target {my ($target,$target_arg,$args,$replace)=@_;$replace=1 unless defined$replace;if ($target eq 'package'){unless ($replace){return if$Package_Targets{$target_arg}}$Package_Targets{$target_arg}=$args}elsif ($target eq 'object'){my ($addr)="$target_arg" =~ $re_addr;unless ($replace){return if$Object_Targets{$addr}}$Object_Targets{$addr}=[$target_arg,$args]}elsif ($target eq 'hash'){my ($addr)="$target_arg" =~ $re_addr;unless ($replace){return if$Hash_Targets{$addr}}$Hash_Targets{$addr}=[$target_arg,$args]}}sub _set_default_null_routines {$default_null_routines ||= [(map {([$sub0,"log_$_",$Levels{$_},'log_sub'],[$Levels{$_}> $Current_Level ? $sub0 : $sub1,"log_is_$_",$Levels{$_},'is_sub'],[$sub0,$_,$Levels{$_},'log_method'],[$Levels{$_}> $Current_Level ? $sub0 : $sub1,"is_$_",$Levels{$_},'is_method'],)}keys%Levels),]}sub get_logger {my ($package,%args)=@_;my$caller=caller(0);$args{category}=$caller if!defined($args{category});my$obj=[];$obj =~ $re_addr;my$pkg="Log::ger::Obj$1";bless$obj,$pkg;add_target(object=>$obj,\%args);if (keys%Global_Hooks){require Log::ger::Heavy;init_target(object=>$obj,\%args)}else {_set_default_null_routines();install_routines(object=>$obj,$default_null_routines)}$obj}sub import {my ($package,%args)=@_;my$caller=caller(0);$args{category}=$caller if!defined($args{category});add_target(package=>$caller,\%args);if (keys%Global_Hooks){require Log::ger::Heavy;init_target(package=>$caller,\%args)}else {_set_default_null_routines();install_routines(package=>$caller,$default_null_routines)}}1;
LOG_GER
$fatpacked{"Log/ger/Format.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_FORMAT';
package Log::ger::Format;our$DATE='2017-08-03';our$VERSION='0.023';use parent qw(Log::ger::Plugin);sub _import_sets_for_current_package {1}1;
LOG_GER_FORMAT
$fatpacked{"Log/ger/Format/None.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_FORMAT_NONE';
package Log::ger::Format::None;our$DATE='2017-08-03';our$VERSION='0.023';sub get_hooks {return {create_formatter=>[__PACKAGE__,50,sub {[sub {shift}]}],}}1;
LOG_GER_FORMAT_NONE
$fatpacked{"Log/ger/Heavy.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_HEAVY';
package Log::ger::Heavy;our$DATE='2017-08-03';our$VERSION='0.023';package Log::ger;our%Default_Hooks=(create_formatter=>[[__PACKAGE__,90,sub {my%args=@_;my$formatter=sub {return $_[0]if @_ < 2;my$fmt=shift;my@args;for (@_){if (!defined($_)){push@args,'<undef>'}elsif (ref $_){require Log::ger::Util unless$_dumper;push@args,Log::ger::Util::_dump($_)}else {push@args,$_}}sprintf$fmt,@args};[$formatter]}],],create_layouter=>[],create_routine_names=>[[__PACKAGE__,90,sub {my%args=@_;my$levels=[keys%Levels];return [{log_subs=>[map {["log_$_",$_]}@$levels],is_subs=>[map {["log_is_$_",$_]}@$levels],log_methods=>[map {["$_",$_]}@$levels],is_methods=>[map {["is_$_",$_]}@$levels],},1]}],],create_log_routine=>[[__PACKAGE__,10,sub {my%args=@_;my$level=$args{level};if (defined($level)&& ($Current_Level < $level || @{$Global_Hooks{create_log_routine}}==1)){$_logger_is_null=1;return [sub {0}]}[undef]}],],create_logml_routine=>[],create_is_routine=>[[__PACKAGE__,90,sub {my%args=@_;my$level=$args{level};[sub {$Current_Level >= $level}]}],],before_install_routines=>[],after_install_routines=>[],);for my$phase (keys%Default_Hooks){$Global_Hooks{$phase}=[@{$Default_Hooks{$phase}}]}sub run_hooks {my ($phase,$hook_args,$flow_control,$target,$target_arg)=@_;$Global_Hooks{$phase}or die "Unknown phase '$phase'";my@hooks=@{$Global_Hooks{$phase}};if ($target eq 'package'){unshift@hooks,@{$Per_Package_Hooks{$target_arg}{$phase}|| []}}elsif ($target eq 'hash'){my ($addr)="$target_arg" =~ $re_addr;unshift@hooks,@{$Per_Hash_Hooks{$addr}{$phase}|| []}}elsif ($target eq 'object'){my ($addr)="$target_arg" =~ $re_addr;unshift@hooks,@{$Per_Object_Hooks{$addr}{$phase}|| []}}my$res;for my$hook (sort {$a->[1]<=> $b->[1]}@hooks){my$hook_res=$hook->[2]->(%$hook_args);if (defined$hook_res->[0]){$res=$hook_res->[0];if (ref$flow_control eq 'CODE'){last if$flow_control->($hook,$hook_res)}else {last if$flow_control}}last if$hook_res->[1]}return$res}sub init_target {my ($target,$target_arg,$init_args)=@_;my%hook_args=(target=>$target,target_arg=>$target_arg,init_args=>$init_args,);my%formatters;run_hooks('create_formatter',\%hook_args,sub {my ($hook,$hook_res)=@_;my ($formatter,$flow_control,$fmtname)=@$hook_res;$fmtname='default' if!defined($fmtname);$formatters{$fmtname}||= $formatter;$flow_control},$target,$target_arg);my$layouter=run_hooks('create_layouter',\%hook_args,1,$target,$target_arg);my$routine_names={};run_hooks('create_routine_names',\%hook_args,sub {my ($hook,$hook_res)=@_;my ($rn,$flow_control)=@$hook_res;$rn or return;for (keys %$rn){push @{$routine_names->{$_}},@{$rn->{$_}}}$flow_control},$target,$target_arg);my@routines;my$object=$target eq 'object';CREATE_LOG_ROUTINES: {my@rn;if ($target eq 'package'){push@rn,@{$routine_names->{log_subs}|| []};push@rn,@{$routine_names->{logml_subs}|| []}}else {push@rn,@{$routine_names->{log_methods}|| []};push@rn,@{$routine_names->{logml_methods}|| []}}my$mllogger0;for my$rn (@rn){my ($rname,$lname,$fmtname)=@$rn;my$lnum;$lnum=$Levels{$lname}if defined$lname;my$routine_name_is_ml=!defined($lname);$fmtname='default' if!defined($fmtname);my$logger;my ($logger0,$logger0_is_ml);$_logger_is_null=0;for my$phase (qw/create_logml_routine create_log_routine/){local$hook_args{name}=$rname;local$hook_args{level}=$lnum;local$hook_args{str_level}=$lname;$logger0_is_ml=$phase eq 'create_logml_routine';if ($mllogger0){$logger0=$mllogger0;last}$logger0=run_hooks($phase,\%hook_args,1,$target,$target_arg)or next;if ($logger0_is_ml){$mllogger0=$logger0}last}unless ($logger0){$_logger_is_null=1;$logger0=sub {0}}require Log::ger::Util if!$logger0_is_ml && $routine_name_is_ml;{if ($_logger_is_null){$logger=$logger0;last}my$formatter=$formatters{$fmtname}or die "Formatter named '$fmtname' not available";if ($formatter){if ($layouter){if ($logger0_is_ml){if ($routine_name_is_ml){if ($object){$logger=sub {shift;my$lnum=shift;my$lname=Log::ger::Util::string_level($lnum);$logger0->($init_args,$lnum,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}else {$logger=sub {my$lnum=shift;my$lname=Log::ger::Util::string_level($lnum);$logger0->($init_args,$lnum,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,$lnum,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}else {$logger=sub {$logger0->($init_args,$lnum,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}}}else {if ($routine_name_is_ml){if ($object){$logger=sub {shift;return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}else {$logger=sub {return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}else {$logger=sub {$logger0->($init_args,$layouter->($formatter->(@_),$init_args,$lnum,$lname))}}}}}else {if ($logger0_is_ml){if ($routine_name_is_ml){if ($object){$logger=sub {shift;my$lnum=shift;$logger0->($init_args,$lnum,$formatter->(@_))}}else {$logger=sub {my$lnum=shift;$logger0->($init_args,$lnum,$formatter->(@_))}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,$lnum,$formatter->(@_))}}else {$logger=sub {$logger0->($init_args,$lnum,$formatter->(@_))}}}}else {if ($routine_name_is_ml){if ($object){$logger=sub {shift;return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,$formatter->(@_))}}else {$logger=sub {return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,$formatter->(@_))}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,$formatter->(@_))}}else {$logger=sub {$logger0->($init_args,$formatter->(@_))}}}}}}else {{if ($logger0_is_ml){if ($routine_name_is_ml){if ($object){$logger=sub {shift;my$lnum=shift;$logger0->($init_args,$lnum,@_)}}else {$logger=sub {my$lnum=shift;$logger0->($init_args,$lnum,@_)}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,$lnum,@_)}}else {$logger=sub {$logger0->($init_args,$lnum,@_)}}}}else {if ($routine_name_is_ml){if ($object){$logger=sub {shift;return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,@_)}}else {$logger=sub {return 0 if Log::ger::Util::numeric_level(shift)> $Current_Level;$logger0->($init_args,@_)}}}else {if ($object){$logger=sub {shift;$logger0->($init_args,@_)}}else {$logger=sub {$logger0->($init_args,@_)}}}}}}}L1: my$type=$routine_name_is_ml ? ($object ? 'logml_method' : 'logml_sub'): ($object ? 'log_method' : 'log_sub');push@routines,[$logger,$rname,$lnum,$type]}}CREATE_IS_ROUTINES: {my@rn;my$type;if ($target eq 'package'){push@rn,@{$routine_names->{is_subs}|| []};$type='is_sub'}else {push@rn,@{$routine_names->{is_methods}|| []};$type='is_method'}for my$rn (@rn){my ($rname,$lname)=@$rn;my$lnum=$Levels{$lname};local$hook_args{name}=$rname;local$hook_args{level}=$lnum;local$hook_args{str_level}=$lname;my$code_is=run_hooks('create_is_routine',\%hook_args,1,$target,$target_arg);next unless$code_is;push@routines,[$code_is,$rname,$lnum,$type]}}{local$hook_args{routines}=\@routines;local$hook_args{formatters}=\%formatters;local$hook_args{layouter}=$layouter;run_hooks('before_install_routines',\%hook_args,0,$target,$target_arg)}install_routines($target,$target_arg,\@routines);{local$hook_args{routines}=\@routines;run_hooks('after_install_routines',\%hook_args,0,$target,$target_arg)}}1;
LOG_GER_HEAVY
$fatpacked{"Log/ger/Layout.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_LAYOUT';
package Log::ger::Layout;our$DATE='2017-08-03';our$VERSION='0.023';use parent qw(Log::ger::Plugin);sub _replace_package_regex {qr/\ALog::ger::Layout::/}1;
LOG_GER_LAYOUT
$fatpacked{"Log/ger/Output.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT';
package Log::ger::Output;our$DATE='2017-08-03';our$VERSION='0.023';use parent 'Log::ger::Plugin';sub _replace_package_regex {qr/\ALog::ger::Output::/}1;
LOG_GER_OUTPUT
$fatpacked{"Log/ger/Output/Array.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_ARRAY';
package Log::ger::Output::Array;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;sub get_hooks {my%conf=@_;$conf{array}or die "Please specify array";return {create_log_routine=>[__PACKAGE__,50,sub {my%args=@_;my$logger=sub {my ($ctx,$msg)=@_;push @{$conf{array}},$msg};[$logger]}],}}1;
LOG_GER_OUTPUT_ARRAY
$fatpacked{"Log/ger/Output/ArrayML.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_ARRAYML';
package Log::ger::Output::ArrayML;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;use Log::ger::Util;sub get_hooks {my%conf=@_;$conf{array}or die "Please specify array";return {create_logml_routine=>[__PACKAGE__,50,sub {my%args=@_;my$logger=sub {my$level=Log::ger::Util::numeric_level($_[1]);return if$level > $Log::ger::Current_Level;push @{$conf{array}},$_[2]};[$logger]}],}}1;
LOG_GER_OUTPUT_ARRAYML
$fatpacked{"Log/ger/Output/Composite.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_COMPOSITE';
package Log::ger::Output::Composite;our$DATE='2017-07-02';our$VERSION='0.007';use strict;use warnings;sub _get_min_max_level {my$level=shift;my ($min,$max);if (defined$level){if (ref$level eq 'ARRAY'){$min=Log::ger::Util::numeric_level($level->[0]);$max=Log::ger::Util::numeric_level($level->[1]);($min,$max)=($max,$min)if$min > $max}else {$min=0;$max=Log::ger::Util::numeric_level($level)}}($min,$max)}sub get_hooks {my%conf=@_;my@ospecs;{my$outputs=$conf{outputs};for my$oname (sort keys %$outputs){my$ospec0=$outputs->{$oname};my@ospecs0;if (ref$ospec0 eq 'ARRAY'){@ospecs0=map {+{%{$_}}}@$ospec0}else {@ospecs0=(+{%{$ospec0}})}die "Invalid output name '$oname'" unless$oname =~ /\A\w+(::\w+)*\z/;my$mod="Log::ger::Output::$oname";(my$mod_pm="$mod.pm")=~ s!::!/!g;require$mod_pm;for my$ospec (@ospecs0){$ospec->{_name}=$oname;$ospec->{_mod}=$mod;push@ospecs,$ospec}}}return {'create_logml_routine'=>[__PACKAGE__,50,sub {no strict 'refs';require Data::Dmp;my%args=@_;my$target=$args{target};my$target_arg=$args{target_arg};my$loggers=[];my$logger_is_ml=[];my$layouters=[];for my$ospec (@ospecs){my$oname=$ospec->{_name};my$mod="Log::ger::Output::$oname";my$hooks=&{"$mod\::get_hooks"}(%{$ospec->{conf}|| {}})or die "Output module $mod does not return any hooks";my@hook_args=(target=>$args{target},target_arg=>$args{target_arg},init_args=>$args{init_args},);my$res;{if ($hooks->{create_logml_routine}){$res=$hooks->{create_logml_routine}->[2]->(@hook_args);if ($res->[0]){push @$loggers,$res->[0];push @$logger_is_ml,1;last}}push@hook_args,(level=>6,str_level=>'trace');if ($hooks->{create_log_routine}){$res=$hooks->{create_log_routine}->[2]->(@hook_args);if ($res->[0]){push @$loggers,$res->[0];push @$logger_is_ml,0;last}}die "Output module $mod does not produce logger in "."its create_logml_routine nor create_log_routine "."hook"}if ($ospec->{layout}){my$lname=$ospec->{layout}[0];my$lconf=$ospec->{layout}[1]|| {};my$lmod="Log::ger::Layout::$lname";(my$lmod_pm="$lmod.pm")=~ s!::!/!g;require$lmod_pm;my$lhooks=&{"$lmod\::get_hooks"}(%$lconf)or die "Layout module $lmod does not return "."any hooks";$lhooks->{create_layouter}or die "Layout module $mod does not declare "."layouter";my@lhook_args=(target=>$args{target},target_arg=>$args{target_arg},init_args=>$args{init_args},);my$lres=$lhooks->{create_layouter}->[2]->(@lhook_args)or die "Hook from layout module "."$lmod does not produce layout routine";ref$lres->[0]eq 'CODE' or die "Layouter from layout module $lmod "."is not a coderef";push @$layouters,$lres->[0]}else {push @$layouters,undef}}unless (@$loggers){$Log::err::_logger_is_null=1;return [sub {0}]}my$varname=do {my$suffix;if ($args{target}eq 'package'){$suffix=$args{target_arg}}else {($suffix)="$args{target_arg}" =~ /\(0x(\w+)/}"Log::ger::Stash::OComposite_$suffix"};{no strict 'refs';${$varname}=[];${$varname}->[0]=$loggers;${$varname}->[1]=$layouters;${$varname}->[2]=$args{init_args}}my$logger;{my@src;push@src,"sub {\n";push@src," my (\$ctx, \$lvl, \$msg) = \@_;\n";for my$i (0..$#ospecs){my$ospec=$ospecs[$i];push@src," # output #$i: $ospec->{_name}\n";push@src," {\n";if ($ospec->{category_level}|| $conf{category_level}){push@src," my \$cat = \$ctx->{category} || "."'';\n";my@cats;if ($ospec->{category_level}){for my$cat (keys %{$ospec->{category_level}}){my$clevel=$ospec->{category_level}{$cat};push@cats,[$cat,1,$clevel]}}if ($conf{category_level}){for my$cat (keys %{$conf{category_level}}){my$clevel=$conf{category_level}{$cat};push@cats,[$cat,2,$clevel]}}for my$cat (sort {length($b->[0])<=> length($a->[0])|| $a->[0]cmp $b->[0]|| $a->[1]<=> $b->[1]}@cats){push@src," if (\$cat eq ".Data::Dmp::dmp($cat->[0])." || index(\$cat, ".Data::Dmp::dmp("$cat->[0]\::").") == 0) { ";my ($min_level,$max_level)=_get_min_max_level($cat->[2]);push@src,"if (\$lvl >= $min_level && "."\$lvl <= $max_level) { goto L } else { last }";push@src," }\n"}push@src,"\n"}my ($min_level,$max_level)=_get_min_max_level($ospec->{level});if (defined$min_level){push@src," if (\$lvl >= $min_level && "."\$lvl <= $max_level) { goto L } else { last }\n"}push@src," if (\$Log::ger::Current_Level >= \$lvl) { goto L } else { last }\n";if ($logger_is_ml->[$i]){push@src," L: if (\$$varname\->[1][$i]) { \$$varname\->[0][$i]->(\$ctx, \$lvl, \$$varname\->[1][$i]->(\$msg, \$$varname\->[2], \$lvl, Log::ger::Util::string_level(\$lvl))) } else { \$$varname\->[0][$i]->(\$ctx, \$lvl, \$msg) }\n"}else {push@src," L: if (\$$varname\->[1][$i]) { \$$varname\->[0][$i]->(\$ctx, \$$varname\->[1][$i]->(\$msg, \$$varname\->[2], \$lvl, Log::ger::Util::string_level(\$lvl))) } else { \$$varname\->[0][$i]->(\$ctx, \$msg) }\n"}push@src," }\n";push@src," # end output #$i\n\n"}push@src,"};\n";my$src=join("",@src);$logger=eval$src}[$logger]}]}}1;
LOG_GER_OUTPUT_COMPOSITE
$fatpacked{"Log/ger/Output/Null.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_NULL';
package Log::ger::Output::Null;our$DATE='2017-08-03';our$VERSION='0.023';sub get_hooks {return {create_log_routine=>[__PACKAGE__,50,sub {$Log::ger::_logger_is_null=1;[sub {0}]}],}}1;
LOG_GER_OUTPUT_NULL
$fatpacked{"Log/ger/Output/Screen.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_SCREEN';
package Log::ger::Output::Screen;our$DATE='2017-08-03';our$VERSION='0.007';use strict;use warnings;use Log::ger::Util;our%colors=(10=>"\e[31m",20=>"\e[35m",30=>"\e[1;34m",40=>"\e[32m",50=>"",60=>"\e[33m",);our%level_map;sub _pick_color {my$level=shift;if (defined(my$c=$colors{$level})){return$c}if (defined(my$clevel=$level_map{$level})){return$colors{$clevel}}my ($dist,$clevel);for my$k (keys%colors){my$d=abs($k - $level);if (!defined($dist)|| $dist > $d){$dist=$d;$clevel=$k}}$level_map{$level}=$clevel;return$colors{$clevel}}sub hook_before_log {my ($ctx,$msg)=@_}sub hook_after_log {my ($ctx,$msg)=@_;print {$ctx->{_fh}}"\n" unless$msg =~ /\R\z/}sub get_hooks {my%conf=@_;my$stderr=$conf{stderr};$stderr=1 unless defined$stderr;my$handle=$stderr ? \*STDERR : \*STDOUT;my$use_color=$conf{use_color};$use_color=$ENV{COLOR}unless defined$use_color;$use_color=(-t STDOUT)unless defined$use_color;my$formatter=$conf{formatter};return {create_log_routine=>[__PACKAGE__,50,sub {my%args=@_;my$logger=sub {my$level=$args{level};my$msg=$_[1];if ($formatter){$msg=$formatter->($msg)}hook_before_log({_fh=>$handle },$msg);if ($use_color){print$handle _pick_color($level),$msg,"\e[0m"}else {print$handle $msg}hook_after_log({_fh=>$handle },$msg)};[$logger]}],create_logml_routine=>[__PACKAGE__,50,sub {my%args=@_;my$logger=sub {my$level=Log::ger::Util::numeric_level($_[1]);return if$level > $Log::ger::Current_Level;my$msg=$_[2];if ($formatter){$msg=$formatter->($msg)}hook_before_log({_fh=>$handle },$msg);if ($use_color){print$handle _pick_color($level),$msg,"\e[0m"}else {print$handle $msg}hook_after_log({_fh=>$handle },$msg)};[$logger]}],}}1;
LOG_GER_OUTPUT_SCREEN
$fatpacked{"Log/ger/Output/String.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_OUTPUT_STRING';
package Log::ger::Output::String;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;sub get_hooks {my%conf=@_;$conf{string}or die "Please specify string";my$formatter=$conf{formatter};my$append_newline=$conf{append_newline};$append_newline=1 unless defined$append_newline;return {create_log_routine=>[__PACKAGE__,50,sub {my%args=@_;my$level=$args{level};my$logger=sub {my$msg=$_[1];if ($formatter){$msg=$formatter->($msg)}${$conf{string}}.= $msg;${$conf{string}}.= "\n" unless!$append_newline || $msg =~ /\R\z/};[$logger]}],}}1;
LOG_GER_OUTPUT_STRING
$fatpacked{"Log/ger/Plugin.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_PLUGIN';
package Log::ger::Plugin;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;use Log::ger::Util;sub set {my$pkg=shift;my%args;if (ref $_[0]eq 'HASH'){%args=%{shift()}}else {%args=(name=>shift,conf=>{@_})}$args{prefix}||= $pkg .'::';$args{replace_package_regex}=$pkg->_replace_package_regex;Log::ger::Util::set_plugin(%args)}sub set_for_current_package {my$pkg=shift;my%args;if (ref $_[0]eq 'HASH'){%args=%{shift()}}else {%args=(name=>shift,conf=>{@_})}my$caller=caller(0);$args{target}='package';$args{target_arg}=$caller;set($pkg,\%args)}sub _import_sets_for_current_package {0}sub _replace_package_regex {undef}sub import {if (@_ > 1){if ($_[0]->_import_sets_for_current_package){goto&set_for_current_package}else {goto&set}}}1;
LOG_GER_PLUGIN
$fatpacked{"Log/ger/Plugin/MultilevelLog.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_PLUGIN_MULTILEVELLOG';
package Log::ger::Plugin::MultilevelLog;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;use Log::ger::Util;sub get_hooks {my%conf=@_;return {create_routine_names=>[__PACKAGE__,50,sub {return [{logml_subs=>[[$conf{sub_name}|| 'log',undef]],logml_methods=>[[$conf{method_name}|| 'log',undef]],}]},],}}1;
LOG_GER_PLUGIN_MULTILEVELLOG
$fatpacked{"Log/ger/Util.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'LOG_GER_UTIL';
package Log::ger::Util;our$DATE='2017-08-03';our$VERSION='0.023';use strict;use warnings;require Log::ger;require Log::ger::Heavy;sub _dump {unless ($Log::ger::_dumper){eval {no warnings 'once';require Data::Dmp;$Data::Dmp::OPT_REMOVE_PRAGMAS=1;1};if ($@){no warnings 'once';require Data::Dumper;$Log::ger::_dumper=sub {local$Data::Dumper::Terse=1;local$Data::Dumper::Indent=0;local$Data::Dumper::Useqq=1;local$Data::Dumper::Deparse=1;local$Data::Dumper::Quotekeys=0;local$Data::Dumper::Sortkeys=1;local$Data::Dumper::Trailingcomma=1;Data::Dumper::Dumper($_[0])}}else {$Log::ger::_dumper=sub {Data::Dmp::dmp($_[0])}}}$Log::ger::_dumper->($_[0])}sub numeric_level {my$level=shift;return$level if$level =~ /\A\d+\z/;return$Log::ger::Levels{$level}if defined$Log::ger::Levels{$level};return$Log::ger::Level_Aliases{$level}if defined$Log::ger::Level_Aliases{$level};die "Unknown level '$level'"}sub string_level {my$level=shift;return$level if defined$Log::ger::Levels{$level};$level=$Log::ger::Level_Aliases{$level}if defined$Log::ger::Level_Aliases{$level};for (keys%Log::ger::Levels){my$v=$Log::ger::Levels{$_};return $_ if$v==$level}die "Unknown level '$level'"}sub set_level {no warnings 'once';$Log::ger::Current_Level=numeric_level(shift);reinit_all_targets()}sub _action_on_hooks {no warnings 'once';my ($action,$target,$target_arg,$phase)=splice @_,0,4;my$hooks=$Log::ger::Global_Hooks{$phase}or die "Unknown phase '$phase'";if ($target eq 'package'){$hooks=($Log::ger::Per_Package_Hooks{$target_arg}{$phase}||= [])}elsif ($target eq 'object'){my ($addr)=$target_arg =~ $Log::ger::re_addr;$hooks=($Log::ger::Per_Object_Hooks{$addr}{$phase}||= [])}elsif ($target eq 'hash'){my ($addr)=$target_arg =~ $Log::ger::re_addr;$hooks=($Log::ger::Per_Hash_Hooks{$addr}{$phase}||= [])}if ($action eq 'add'){my$hook=shift;unshift @$hooks,$hook}elsif ($action eq 'remove'){my$code=shift;for my$i (reverse 0..$#{$hooks}){splice @$hooks,$i,1 if$code->($hooks->[$i])}}elsif ($action eq 'reset'){my$saved=[@$hooks];splice @$hooks,0,scalar(@$hooks),@{$Log::ger::Default_Hooks{$phase}};return$saved}elsif ($action eq 'empty'){my$saved=[@$hooks];splice @$hooks,0;return$saved}elsif ($action eq 'save'){return [@$hooks]}elsif ($action eq 'restore'){my$saved=shift;splice @$hooks,0,scalar(@$hooks),@$saved;return$saved}}sub add_hook {my ($phase,$hook)=@_;_action_on_hooks('add','',undef,$phase,$hook)}sub add_per_target_hook {my ($target,$target_arg,$phase,$hook)=@_;_action_on_hooks('add',$target,$target_arg,$phase,$hook)}sub remove_hook {my ($phase,$code)=@_;_action_on_hooks('remove','',undef,$phase,$code)}sub remove_per_target_hook {my ($target,$target_arg,$phase,$code)=@_;_action_on_hooks('remove',$target,$target_arg,$phase,$code)}sub reset_hooks {my ($phase)=@_;_action_on_hooks('reset','',undef,$phase)}sub reset_per_target_hooks {my ($target,$target_arg,$phase)=@_;_action_on_hooks('reset',$target,$target_arg,$phase)}sub empty_hooks {my ($phase)=@_;_action_on_hooks('empty','',undef,$phase)}sub empty_per_target_hooks {my ($target,$target_arg,$phase)=@_;_action_on_hooks('empty',$target,$target_arg,$phase)}sub save_hooks {my ($phase)=@_;_action_on_hooks('save','',undef,$phase)}sub save_per_target_hooks {my ($target,$target_arg,$phase)=@_;_action_on_hooks('save',$target,$target_arg,$phase)}sub restore_hooks {my ($phase,$saved)=@_;_action_on_hooks('restore','',undef,$phase,$saved)}sub restore_per_target_hooks {my ($target,$target_arg,$phase,$saved)=@_;_action_on_hooks('restore',$target,$target_arg,$phase,$saved)}sub reinit_target {my ($target,$target_arg)=@_;Log::ger::add_target($target,$target_arg,{},0);if ($target eq 'package'){my$init_args=$Log::ger::Package_Targets{$target_arg};Log::ger::init_target(package=>$target_arg,$init_args)}elsif ($target eq 'object'){my ($obj_addr)=$target_arg =~ $Log::ger::re_addr or die "Invalid object '$target_arg': not a reference";my$v=$Log::ger::Object_Targets{$obj_addr}or die "Unknown object target '$target_arg'";Log::ger::init_target(object=>$v->[0],$v->[1])}elsif ($target eq 'hash'){my ($hash_addr)=$target_arg =~ $Log::ger::re_addr or die "Invalid hashref '$target_arg': not a reference";my$v=$Log::ger::Hash_Targets{$hash_addr}or die "Unknown hash target '$target_arg'";Log::ger::init_target(hash=>$v->[0],$v->[1])}else {die "Unknown target '$target'"}}sub reinit_all_targets {for my$pkg (keys%Log::ger::Package_Targets){Log::ger::init_target(package=>$pkg,$Log::ger::Package_Targets{$pkg})}for my$k (keys%Log::ger::Object_Targets){my ($obj,$init_args)=@{$Log::ger::Object_Targets{$k}};Log::ger::init_target(object=>$obj,$init_args)}for my$k (keys%Log::ger::Hash_Targets){my ($hash,$init_args)=@{$Log::ger::Hash_Targets{$k}};Log::ger::init_target(hash=>$hash,$init_args)}}sub set_plugin {my%args=@_;my$hooks;if ($args{hooks}){$hooks=$args{hooks}}else {no strict 'refs';my$prefix=$args{prefix}|| 'Log::ger::Plugin::';my$mod=$args{name};$mod=$prefix .$mod unless index($mod,$prefix)==0;(my$mod_pm="$mod.pm")=~ s!::!/!g;require$mod_pm;$hooks=&{"$mod\::get_hooks"}(%{$args{conf}|| {}})}{last unless$args{replace_package_regex};my$all_hooks;if (!$args{target}){$all_hooks=\%Log::ger::Global_Hooks}elsif ($args{target}eq 'package'){$all_hooks=$Log::ger::Per_Package_Hooks{$args{target_arg}}}elsif ($args{target}eq 'object'){my ($addr)=$args{target_arg}=~ $Log::ger::re_addr;$all_hooks=$Log::ger::Per_Object_Hooks{$addr}}elsif ($args{target}eq 'hash'){my ($addr)=$args{target_arg}=~ $Log::ger::re_addr;$all_hooks=$Log::ger::Per_Hash_Hooks{$addr}}last unless$all_hooks;for my$phase (keys %$all_hooks){my$hooks=$all_hooks->{$phase};for my$i (reverse 0..$#{$hooks}){splice @$hooks,$i,1 if$hooks->[$i][0]=~ $args{replace_package_regex}}}}for my$phase (keys %$hooks){my$hook=$hooks->{$phase};if (defined$args{target}){add_per_target_hook($args{target},$args{target_arg},$phase,$hook)}else {add_hook($phase,$hook)}}my$reinit=$args{reinit};$reinit=1 unless defined$reinit;if ($reinit){if (defined$args{target}){reinit_target($args{target},$args{target_arg})}else {reinit_all_targets()}}}1;
LOG_GER_UTIL
$fatpacked{"Path/Tiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'PATH_TINY';
use 5.008001;use strict;use warnings;package Path::Tiny;our$VERSION='0.104';use Config;use Exporter 5.57 (qw/import/);use File::Spec 0.86 ();use Carp ();our@EXPORT=qw/path/;our@EXPORT_OK=qw/cwd rootdir tempfile tempdir/;use constant {PATH=>0,CANON=>1,VOL=>2,DIR=>3,FILE=>4,TEMP=>5,IS_BSD=>(scalar $^O =~ /bsd$/),IS_WIN32=>($^O eq 'MSWin32'),};use overload (q{""}=>sub {$_[0]->[PATH]},bool=>sub () {1},fallback=>1,);sub FREEZE {return $_[0]->[PATH]}sub THAW {return path($_[2])}{no warnings 'once';*TO_JSON=*FREEZE};my$HAS_UU;sub _check_UU {!!eval {require Unicode::UTF8;Unicode::UTF8->VERSION(0.58);1}}my$HAS_PU;sub _check_PU {!!eval {require PerlIO::utf8_strict;PerlIO::utf8_strict->VERSION(0.003);1}}my$HAS_FLOCK=$Config{d_flock}|| $Config{d_fcntl_can_lock}|| $Config{d_lockf};my$SLASH=qr{[\\/]};my$NOTSLASH=qr{[^\\/]};my$DRV_VOL=qr{[a-z]:}i;my$UNC_VOL=qr{$SLASH $SLASH $NOTSLASH+ $SLASH $NOTSLASH+}x;my$WIN32_ROOT=qr{(?: $UNC_VOL $SLASH | $DRV_VOL $SLASH | $SLASH )}x;sub _win32_vol {my ($path,$drv)=@_;require Cwd;my$dcwd=eval {Cwd::getdcwd($drv)};$dcwd="$drv" unless defined$dcwd && length$dcwd;$dcwd =~ s{$SLASH?$}{/};$path =~ s{^$DRV_VOL}{$dcwd};return$path}sub _is_root {return IS_WIN32()? ($_[0]=~ /^$WIN32_ROOT$/): ($_[0]eq '/')}BEGIN {*_same=IS_WIN32()? sub {lc($_[0])eq lc($_[1])}: sub {$_[0]eq $_[1]}}my%MODEBITS=(om=>0007,gm=>0070,um=>0700);{my$m=0;$MODEBITS{$_}=(1 << $m++)for qw/ox ow or gx gw gr ux uw ur/};sub _symbolic_chmod {my ($mode,$symbolic)=@_;for my$clause (split /,\s*/,$symbolic){if ($clause =~ m{\A([augo]+)([=+-])([rwx]+)\z}){my ($who,$action,$perms)=($1,$2,$3);$who =~ s/a/ugo/g;for my$w (split //,$who){my$p=0;$p |= $MODEBITS{"$w$_"}for split //,$perms;if ($action eq '='){$mode=($mode & ~$MODEBITS{"${w}m"})| $p}else {$mode=$action eq "+" ? ($mode | $p): ($mode & ~$p)}}}else {Carp::croak("Invalid mode clause '$clause' for chmod()")}}return$mode}{package flock;use if Path::Tiny::IS_BSD(),'warnings::register'}my$WARNED_BSD_NFS=0;sub _throw {my ($self,$function,$file,$msg)=@_;if (IS_BSD()&& $function =~ /^flock/ && $! =~ /operation not supported/i &&!warnings::fatal_enabled('flock')){if (!$WARNED_BSD_NFS){warnings::warn(flock=>"No flock for NFS on BSD: continuing in unsafe mode");$WARNED_BSD_NFS++}}else {$msg=$! unless defined$msg;Path::Tiny::Error->throw($function,(defined$file ? $file : $self->[PATH]),$msg)}return}sub _get_args {my ($raw,@valid)=@_;if (defined($raw)&& ref($raw)ne 'HASH'){my (undef,undef,undef,$called_as)=caller(1);$called_as =~ s{^.*::}{};Carp::croak("Options for $called_as must be a hash reference")}my$cooked={};for my$k (@valid){$cooked->{$k}=delete$raw->{$k}if exists$raw->{$k}}if (keys %$raw){my (undef,undef,undef,$called_as)=caller(1);$called_as =~ s{^.*::}{};Carp::croak("Invalid option(s) for $called_as: " .join(", ",keys %$raw))}return$cooked}sub path {my$path=shift;Carp::croak("Path::Tiny paths require defined, positive-length parts")unless 1 + @_==grep {defined && length}$path,@_;if (!@_ && ref($path)eq __PACKAGE__ &&!$path->[TEMP]){return$path}$path="$path";if (IS_WIN32()){$path=_win32_vol($path,$1)if$path =~ m{^($DRV_VOL)(?:$NOTSLASH|$)};$path .= "/" if$path =~ m{^$UNC_VOL$}}if (@_){$path .= (_is_root($path)? "" : "/").join("/",@_)}my$cpath=$path=File::Spec->canonpath($path);$path =~ tr[\\][/] if IS_WIN32();$path="/" if$path eq '/..';$path .= "/" if IS_WIN32()&& $path =~ m{^$UNC_VOL$};if (_is_root($path)){$path =~ s{/?$}{/}}else {$path =~ s{/$}{}}if ($path =~ m{^(~[^/]*).*}){require File::Glob;my ($homedir)=File::Glob::bsd_glob($1);$homedir =~ tr[\\][/] if IS_WIN32();$path =~ s{^(~[^/]*)}{$homedir}}bless [$path,$cpath ],__PACKAGE__}sub new {shift;path(@_)}sub cwd {require Cwd;return path(Cwd::getcwd())}sub rootdir {path(File::Spec->rootdir)}sub tempfile {shift if @_ && $_[0]eq 'Path::Tiny';my$opts=(@_ && ref $_[0]eq 'HASH')? shift @_ : {};$opts=_get_args($opts,qw/realpath/);my ($maybe_template,$args)=_parse_file_temp_args(@_);$args->{TEMPLATE}=$maybe_template->[0]if @$maybe_template;require File::Temp;my$temp=File::Temp->new(TMPDIR=>1,%$args);close$temp;my$self=$opts->{realpath}? path($temp)->realpath : path($temp)->absolute;$self->[TEMP]=$temp;return$self}sub tempdir {shift if @_ && $_[0]eq 'Path::Tiny';my$opts=(@_ && ref $_[0]eq 'HASH')? shift @_ : {};$opts=_get_args($opts,qw/realpath/);my ($maybe_template,$args)=_parse_file_temp_args(@_);require File::Temp;my$temp=File::Temp->newdir(@$maybe_template,TMPDIR=>1,%$args);my$self=$opts->{realpath}? path($temp)->realpath : path($temp)->absolute;$self->[TEMP]=$temp;$temp->{REALNAME}=$self->[CANON]if IS_WIN32;return$self}sub _parse_file_temp_args {my$leading_template=(scalar(@_)% 2==1 ? shift(@_): '');my%args=@_;%args=map {uc($_),$args{$_}}keys%args;my@template=(exists$args{TEMPLATE}? delete$args{TEMPLATE}: $leading_template ? $leading_template : ());return (\@template,\%args)}sub _splitpath {my ($self)=@_;@{$self}[VOL,DIR,FILE ]=File::Spec->splitpath($self->[PATH])}sub _resolve_symlinks {my ($self)=@_;my$new=$self;my ($count,%seen)=0;while (-l $new->[PATH]){if ($seen{$new->[PATH]}++){$self->_throw('readlink',$self->[PATH],"symlink loop detected")}if (++$count > 100){$self->_throw('readlink',$self->[PATH],"maximum symlink depth exceeded")}my$resolved=readlink$new->[PATH]or $new->_throw('readlink',$new->[PATH]);$resolved=path($resolved);$new=$resolved->is_absolute ? $resolved : $new->sibling($resolved)}return$new}sub absolute {my ($self,$base)=@_;if (IS_WIN32){return$self if length$self->volume;if ($self->is_absolute){require Cwd;my ($drv)=Win32::GetCwd()=~ /^($DRV_VOL | $UNC_VOL)/x;return path($drv .$self->[PATH])}}else {return$self if$self->is_absolute}require Cwd;return path(Cwd::getcwd(),$_[0]->[PATH])unless defined$base;$base=path($base);return path(($base->is_absolute ? $base : $base->absolute),$_[0]->[PATH])}sub append {my ($self,@data)=@_;my$args=(@data && ref$data[0]eq 'HASH')? shift@data : {};$args=_get_args($args,qw/binmode truncate/);my$binmode=$args->{binmode};$binmode=((caller(0))[10]|| {})->{'open>'}unless defined$binmode;my$mode=$args->{truncate}? ">" : ">>";my$fh=$self->filehandle({locked=>1 },$mode,$binmode);print {$fh}map {ref eq 'ARRAY' ? @$_ : $_}@data;close$fh or $self->_throw('close')}sub append_raw {my ($self,@data)=@_;my$args=(@data && ref$data[0]eq 'HASH')? shift@data : {};$args=_get_args($args,qw/binmode truncate/);$args->{binmode}=':unix';append($self,$args,@data)}sub append_utf8 {my ($self,@data)=@_;my$args=(@data && ref$data[0]eq 'HASH')? shift@data : {};$args=_get_args($args,qw/binmode truncate/);if (defined($HAS_UU)? $HAS_UU : ($HAS_UU=_check_UU())){$args->{binmode}=":unix";append($self,$args,map {Unicode::UTF8::encode_utf8($_)}@data)}elsif (defined($HAS_PU)? $HAS_PU : ($HAS_PU=_check_PU())){$args->{binmode}=":unix:utf8_strict";append($self,$args,@data)}else {$args->{binmode}=":unix:encoding(UTF-8)";append($self,$args,@data)}}sub assert {my ($self,$assertion)=@_;return$self unless$assertion;if (ref$assertion eq 'CODE'){local $_=$self;$assertion->()or Path::Tiny::Error->throw("assert",$self->[PATH],"failed assertion")}else {Carp::croak("argument to assert must be a code reference argument")}return$self}sub basename {my ($self,@suffixes)=@_;$self->_splitpath unless defined$self->[FILE];my$file=$self->[FILE];for my$s (@suffixes){my$re=ref($s)eq 'Regexp' ? qr/$s$/ : qr/\Q$s\E$/;last if$file =~ s/$re//}return$file}sub canonpath {$_[0]->[CANON]}sub cached_temp {my$self=shift;$self->_throw("cached_temp",$self,"has no cached File::Temp object")unless defined$self->[TEMP];return$self->[TEMP]}sub child {my ($self,@parts)=@_;return path($self->[PATH],@parts)}sub children {my ($self,$filter)=@_;my$dh;opendir$dh,$self->[PATH]or $self->_throw('opendir');my@children=readdir$dh;closedir$dh or $self->_throw('closedir');if (not defined$filter){@children=grep {$_ ne '.' && $_ ne '..'}@children}elsif ($filter && ref($filter)eq 'Regexp'){@children=grep {$_ ne '.' && $_ ne '..' && $_ =~ $filter}@children}else {Carp::croak("Invalid argument '$filter' for children()")}return map {path($self->[PATH],$_)}@children}sub chmod {my ($self,$new_mode)=@_;my$mode;if ($new_mode =~ /\d/){$mode=($new_mode =~ /^0/ ? oct($new_mode): $new_mode)}elsif ($new_mode =~ /[=+-]/){$mode=_symbolic_chmod($self->stat->mode & 07777,$new_mode)}else {Carp::croak("Invalid mode argument '$new_mode' for chmod()")}CORE::chmod($mode,$self->[PATH])or $self->_throw("chmod");return 1}sub copy {my ($self,$dest)=@_;require File::Copy;File::Copy::copy($self->[PATH],$dest)or Carp::croak("copy failed for $self to $dest: $!");return -d $dest ? path($dest,$self->basename): path($dest)}sub digest {my ($self,@opts)=@_;my$args=(@opts && ref$opts[0]eq 'HASH')? shift@opts : {};$args=_get_args($args,qw/chunk_size/);unshift@opts,'SHA-256' unless@opts;require Digest;my$digest=Digest->new(@opts);if ($args->{chunk_size}){my$fh=$self->filehandle({locked=>1 },"<",":unix");my$buf;$digest->add($buf)while read$fh,$buf,$args->{chunk_size}}else {$digest->add($self->slurp_raw)}return$digest->hexdigest}sub dirname {my ($self)=@_;$self->_splitpath unless defined$self->[DIR];return length$self->[DIR]? $self->[DIR]: "."}sub edit {my$self=shift;my$cb=shift;my$args=_get_args(shift,qw/binmode/);Carp::croak("Callback for edit() must be a code reference")unless defined($cb)&& ref($cb)eq 'CODE';local $_=$self->slurp(exists($args->{binmode})? {binmode=>$args->{binmode}}: ());$cb->();$self->spew($args,$_);return}sub edit_utf8 {my ($self,$cb)=@_;Carp::croak("Callback for edit_utf8() must be a code reference")unless defined($cb)&& ref($cb)eq 'CODE';local $_=$self->slurp_utf8;$cb->();$self->spew_utf8($_);return}sub edit_raw {$_[2]={binmode=>":unix" };goto&edit}sub edit_lines {my$self=shift;my$cb=shift;my$args=_get_args(shift,qw/binmode/);Carp::croak("Callback for edit_lines() must be a code reference")unless defined($cb)&& ref($cb)eq 'CODE';my$binmode=$args->{binmode};$binmode=((caller(0))[10]|| {})->{'open>'}unless defined$binmode;my$resolved_path=$self->_resolve_symlinks;my$temp=path($resolved_path .$$ .int(rand(2**31)));my$temp_fh=$temp->filehandle({exclusive=>1,locked=>1 },">",$binmode);my$in_fh=$self->filehandle({locked=>1 },'<',$binmode);local $_;while (<$in_fh>){$cb->();$temp_fh->print($_)}close$temp_fh or $self->_throw('close',$temp);close$in_fh or $self->_throw('close');return$temp->move($resolved_path)}sub edit_lines_raw {$_[2]={binmode=>":unix" };goto&edit_lines}sub edit_lines_utf8 {$_[2]={binmode=>":raw:encoding(UTF-8)" };goto&edit_lines}sub exists {-e $_[0]->[PATH]}sub is_file {-e $_[0]->[PATH]&&!-d _}sub is_dir {-d $_[0]->[PATH]}sub filehandle {my ($self,@args)=@_;my$args=(@args && ref$args[0]eq 'HASH')? shift@args : {};$args=_get_args($args,qw/locked exclusive/);$args->{locked}=1 if$args->{exclusive};my ($opentype,$binmode)=@args;$opentype="<" unless defined$opentype;Carp::croak("Invalid file mode '$opentype'")unless grep {$opentype eq $_}qw/< +< > +> >> +>>/;$binmode=((caller(0))[10]|| {})->{'open' .substr($opentype,-1,1)}unless defined$binmode;$binmode="" unless defined$binmode;my ($fh,$lock,$trunc);if ($HAS_FLOCK && $args->{locked}){require Fcntl;if (grep {$opentype eq $_}qw(> +>)){my$flags=$opentype eq ">" ? Fcntl::O_WRONLY(): Fcntl::O_RDWR();$flags |= Fcntl::O_CREAT();$flags |= Fcntl::O_EXCL()if$args->{exclusive};sysopen($fh,$self->[PATH],$flags)or $self->_throw("sysopen");if ($binmode =~ s/^:unix//){binmode($fh,":raw")or $self->_throw("binmode (:raw)");while (1 < (my$layers=()=PerlIO::get_layers($fh,output=>1))){binmode($fh,":pop")or $self->_throw("binmode (:pop)")}}if (length$binmode){binmode($fh,$binmode)or $self->_throw("binmode ($binmode)")}$lock=Fcntl::LOCK_EX();$trunc=1}elsif ($^O eq 'aix' && $opentype eq "<"){if (-w $self->[PATH]){$opentype="+<";$lock=Fcntl::LOCK_EX()}}else {$lock=$opentype eq "<" ? Fcntl::LOCK_SH(): Fcntl::LOCK_EX()}}unless ($fh){my$mode=$opentype .$binmode;open$fh,$mode,$self->[PATH]or $self->_throw("open ($mode)")}do {flock($fh,$lock)or $self->_throw("flock ($lock)")}if$lock;do {truncate($fh,0)or $self->_throw("truncate")}if$trunc;return$fh}sub is_absolute {substr($_[0]->dirname,0,1)eq '/'}sub is_relative {substr($_[0]->dirname,0,1)ne '/'}sub is_rootdir {my ($self)=@_;$self->_splitpath unless defined$self->[DIR];return$self->[DIR]eq '/' && $self->[FILE]eq ''}sub iterator {my$self=shift;my$args=_get_args(shift,qw/recurse follow_symlinks/);my@dirs=$self;my$current;return sub {my$next;while (@dirs){if (ref$dirs[0]eq 'Path::Tiny'){if (!-r $dirs[0]){shift@dirs and next}$current=$dirs[0];my$dh;opendir($dh,$current->[PATH])or $self->_throw('opendir',$current->[PATH]);$dirs[0]=$dh;if (-l $current->[PATH]&&!$args->{follow_symlinks}){shift@dirs and next}}while (defined($next=readdir$dirs[0])){next if$next eq '.' || $next eq '..';my$path=$current->child($next);push@dirs,$path if$args->{recurse}&& -d $path &&!(!$args->{follow_symlinks}&& -l $path);return$path}shift@dirs}return}}sub lines {my$self=shift;my$args=_get_args(shift,qw/binmode chomp count/);my$binmode=$args->{binmode};$binmode=((caller(0))[10]|| {})->{'open<'}unless defined$binmode;my$fh=$self->filehandle({locked=>1 },"<",$binmode);my$chomp=$args->{chomp};if ($args->{count}){my ($counter,$mod,@result)=(0,abs($args->{count}));while (my$line=<$fh>){$line =~ s/(?:\x{0d}?\x{0a}|\x{0d})$// if$chomp;$result[$counter++ ]=$line;last if$counter==$args->{count};$counter %= $mod}splice(@result,0,0,splice(@result,$counter))if@result==$mod && $counter % $mod;return@result}elsif ($chomp){return map {s/(?:\x{0d}?\x{0a}|\x{0d})$//;$_}<$fh>}else {return wantarray ? <$fh> : (my$count=()=<$fh>)}}sub lines_raw {my$self=shift;my$args=_get_args(shift,qw/binmode chomp count/);if ($args->{chomp}&&!$args->{count}){return split /\n/,slurp_raw($self)}else {$args->{binmode}=":raw";return lines($self,$args)}}my$CRLF=qr/(?:\x{0d}?\x{0a}|\x{0d})/;sub lines_utf8 {my$self=shift;my$args=_get_args(shift,qw/binmode chomp count/);if ((defined($HAS_UU)? $HAS_UU : ($HAS_UU=_check_UU()))&& $args->{chomp}&&!$args->{count}){my$slurp=slurp_utf8($self);$slurp =~ s/$CRLF$//;return split$CRLF,$slurp,-1}elsif (defined($HAS_PU)? $HAS_PU : ($HAS_PU=_check_PU())){$args->{binmode}=":unix:utf8_strict";return lines($self,$args)}else {$args->{binmode}=":raw:encoding(UTF-8)";return lines($self,$args)}}sub mkpath {my ($self,$args)=@_;$args={}unless ref$args eq 'HASH';my$err;$args->{error}=\$err unless defined$args->{error};require File::Path;my@dirs=File::Path::make_path($self->[PATH],$args);if ($err && @$err){my ($file,$message)=%{$err->[0]};Carp::croak("mkpath failed for $file: $message")}return@dirs}sub move {my ($self,$dst)=@_;return rename($self->[PATH],$dst)|| $self->_throw('rename',$self->[PATH]."' -> '$dst")}my%opens=(opena=>">>",openr=>"<",openw=>">",openrw=>"+<");while (my ($k,$v)=each%opens){no strict 'refs';*{$k}=sub {my ($self,@args)=@_;my$args=(@args && ref$args[0]eq 'HASH')? shift@args : {};$args=_get_args($args,qw/locked/);my ($binmode)=@args;$binmode=((caller(0))[10]|| {})->{'open' .substr($v,-1,1)}unless defined$binmode;$self->filehandle($args,$v,$binmode)};*{$k ."_raw"}=sub {my ($self,@args)=@_;my$args=(@args && ref$args[0]eq 'HASH')? shift@args : {};$args=_get_args($args,qw/locked/);$self->filehandle($args,$v,":raw")};*{$k ."_utf8"}=sub {my ($self,@args)=@_;my$args=(@args && ref$args[0]eq 'HASH')? shift@args : {};$args=_get_args($args,qw/locked/);$self->filehandle($args,$v,":raw:encoding(UTF-8)")}}sub parent {my ($self,$level)=@_;$level=1 unless defined$level && $level > 0;$self->_splitpath unless defined$self->[FILE];my$parent;if (length$self->[FILE]){if ($self->[FILE]eq '.' || $self->[FILE]eq ".."){$parent=path($self->[PATH]."/..")}else {$parent=path(_non_empty($self->[VOL].$self->[DIR]))}}elsif (length$self->[DIR]){if ($self->[DIR]=~ m{(?:^\.\./|/\.\./|/\.\.$)}){$parent=path($self->[VOL].$self->[DIR]."/..")}else {(my$dir=$self->[DIR])=~ s{/[^\/]+/$}{/};$parent=path($self->[VOL].$dir)}}else {$parent=path(_non_empty($self->[VOL]))}return$level==1 ? $parent : $parent->parent($level - 1)}sub _non_empty {my ($string)=shift;return ((defined($string)&& length($string))? $string : ".")}sub realpath {my$self=shift;$self=$self->_resolve_symlinks;require Cwd;$self->_splitpath if!defined$self->[FILE];my$check_parent=length$self->[FILE]&& $self->[FILE]ne '.' && $self->[FILE]ne '..';my$realpath=eval {local$SIG{__WARN__}=sub {};Cwd::realpath($check_parent ? $self->parent->[PATH]: $self->[PATH])};$self->_throw("resolving realpath")unless defined$realpath && length$realpath && -e $realpath;return ($check_parent ? path($realpath,$self->[FILE]): path($realpath))}sub relative {my ($self,$base)=@_;$base=path(defined$base && length$base ? $base : '.');$self=$self->absolute if$self->is_relative;$base=$base->absolute if$base->is_relative;$self=$self->absolute if!length$self->volume && length$base->volume;$base=$base->absolute if length$self->volume &&!length$base->volume;if (!_same($self->volume,$base->volume)){Carp::croak("relative() can't cross volumes: '$self' vs '$base'")}return path(".")if _same($self->[PATH],$base->[PATH]);if ($base->subsumes($self)){$base="" if$base->is_rootdir;my$relative="$self";$relative =~ s{\A\Q$base/}{};return path($relative)}my (@common,@self_parts,@base_parts);@base_parts=split /\//,$base->_just_filepath;if ($self->is_rootdir){@common=("");shift@base_parts}else {@self_parts=split /\//,$self->_just_filepath;while (@self_parts && @base_parts && _same($self_parts[0],$base_parts[0])){push@common,shift@base_parts;shift@self_parts}}if (my$new_base=$self->_resolve_between(\@common,\@base_parts)){return$self->relative($new_base)}my@new_path=(("..")x (0+ @base_parts),@self_parts);return path(@new_path)}sub _just_filepath {my$self=shift;my$self_vol=$self->volume;return "$self" if!length$self_vol;(my$self_path="$self")=~ s{\A\Q$self_vol}{};return$self_path}sub _resolve_between {my ($self,$common,$base)=@_;my$path=$self->volume .join("/",@$common);my$changed=0;for my$p (@$base){$path .= "/$p";if ($p eq '..'){$changed=1;if (-e $path){$path=path($path)->realpath->[PATH]}else {$path =~ s{/[^/]+/..$}{/}}}if (-l $path){$changed=1;$path=path($path)->realpath->[PATH]}}return$changed ? path($path): undef}sub remove {my$self=shift;return 0 if!-e $self->[PATH]&&!-l $self->[PATH];return unlink($self->[PATH])|| $self->_throw('unlink')}sub remove_tree {my ($self,$args)=@_;return 0 if!-e $self->[PATH]&&!-l $self->[PATH];$args={}unless ref$args eq 'HASH';my$err;$args->{error}=\$err unless defined$args->{error};$args->{safe}=1 unless defined$args->{safe};require File::Path;my$count=File::Path::remove_tree($self->[PATH],$args);if ($err && @$err){my ($file,$message)=%{$err->[0]};Carp::croak("remove_tree failed for $file: $message")}return$count}sub sibling {my$self=shift;return path($self->parent->[PATH],@_)}sub slurp {my$self=shift;my$args=_get_args(shift,qw/binmode/);my$binmode=$args->{binmode};$binmode=((caller(0))[10]|| {})->{'open<'}unless defined$binmode;my$fh=$self->filehandle({locked=>1 },"<",$binmode);if ((defined($binmode)? $binmode : "")eq ":unix" and my$size=-s $fh){my$buf;read$fh,$buf,$size;return$buf}else {local $/;return scalar <$fh>}}sub slurp_raw {$_[1]={binmode=>":unix" };goto&slurp}sub slurp_utf8 {if (defined($HAS_UU)? $HAS_UU : ($HAS_UU=_check_UU())){return Unicode::UTF8::decode_utf8(slurp($_[0],{binmode=>":unix" }))}elsif (defined($HAS_PU)? $HAS_PU : ($HAS_PU=_check_PU())){$_[1]={binmode=>":unix:utf8_strict" };goto&slurp}else {$_[1]={binmode=>":raw:encoding(UTF-8)" };goto&slurp}}sub spew {my ($self,@data)=@_;my$args=(@data && ref$data[0]eq 'HASH')? shift@data : {};$args=_get_args($args,qw/binmode/);my$binmode=$args->{binmode};$binmode=((caller(0))[10]|| {})->{'open>'}unless defined$binmode;my$resolved_path=$self->_resolve_symlinks;my$temp=path($resolved_path .$$ .int(rand(2**31)));my$fh=$temp->filehandle({exclusive=>1,locked=>1 },">",$binmode);print {$fh}map {ref eq 'ARRAY' ? @$_ : $_}@data;close$fh or $self->_throw('close',$temp->[PATH]);return$temp->move($resolved_path)}sub spew_raw {splice @_,1,0,{binmode=>":unix" };goto&spew}sub spew_utf8 {if (defined($HAS_UU)? $HAS_UU : ($HAS_UU=_check_UU())){my$self=shift;spew($self,{binmode=>":unix" },map {Unicode::UTF8::encode_utf8($_)}map {ref eq 'ARRAY' ? @$_ : $_}@_)}elsif (defined($HAS_PU)? $HAS_PU : ($HAS_PU=_check_PU())){splice @_,1,0,{binmode=>":unix:utf8_strict" };goto&spew}else {splice @_,1,0,{binmode=>":unix:encoding(UTF-8)" };goto&spew}}sub stat {my$self=shift;require File::stat;return File::stat::stat($self->[PATH])|| $self->_throw('stat')}sub lstat {my$self=shift;require File::stat;return File::stat::lstat($self->[PATH])|| $self->_throw('lstat')}sub stringify {$_[0]->[PATH]}sub subsumes {my$self=shift;Carp::croak("subsumes() requires a defined, positive-length argument")unless defined $_[0];my$other=path(shift);if ($self->is_absolute &&!$other->is_absolute){$other=$other->absolute}elsif ($other->is_absolute &&!$self->is_absolute){$self=$self->absolute}if (length$self->volume &&!length$other->volume){$other=$other->absolute}elsif (length$other->volume &&!length$self->volume){$self=$self->absolute}if ($self->[PATH]eq '.'){return!!1}elsif ($self->is_rootdir){return$other->[PATH]=~ m{^\Q$self->[PATH]\E}}else {return$other->[PATH]=~ m{^\Q$self->[PATH]\E(?:/|$)}}}sub touch {my ($self,$epoch)=@_;if (!-e $self->[PATH]){my$fh=$self->openw;close$fh or $self->_throw('close')}if (defined$epoch){utime$epoch,$epoch,$self->[PATH]or $self->_throw("utime ($epoch)")}else {utime undef,undef,$self->[PATH]or $self->_throw("utime ()")}return$self}sub touchpath {my ($self)=@_;my$parent=$self->parent;$parent->mkpath unless$parent->exists;$self->touch}sub visit {my$self=shift;my$cb=shift;my$args=_get_args(shift,qw/recurse follow_symlinks/);Carp::croak("Callback for visit() must be a code reference")unless defined($cb)&& ref($cb)eq 'CODE';my$next=$self->iterator($args);my$state={};while (my$file=$next->()){local $_=$file;my$r=$cb->($file,$state);last if ref($r)eq 'SCALAR' &&!$$r}return$state}sub volume {my ($self)=@_;$self->_splitpath unless defined$self->[VOL];return$self->[VOL]}package Path::Tiny::Error;our@CARP_NOT=qw/Path::Tiny/;use overload (q{""}=>sub {(shift)->{msg}},fallback=>1);sub throw {my ($class,$op,$file,$err)=@_;chomp(my$trace=Carp::shortmess);my$msg="Error $op on '$file': $err$trace\n";die bless {op=>$op,file=>$file,err=>$err,msg=>$msg },$class}1;
PATH_TINY
$fatpacked{"Reply/Plugin/TypeTiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'REPLY_PLUGIN_TYPETINY';
package Reply::Plugin::TypeTiny;use strict;use warnings;BEGIN {$Reply::Plugin::TypeTiny::AUTHORITY='cpan:TOBYINK';$Reply::Plugin::TypeTiny::VERSION='1.002001'};require Reply::Plugin;our@ISA='Reply::Plugin';use Scalar::Util qw(blessed);use Term::ANSIColor;sub mangle_error {my$self=shift;my ($err)=@_;if (blessed$err and $err->isa("Error::TypeTiny::Assertion")){my$explain=$err->explain;if ($explain){print color("cyan");print "Error::TypeTiny::Assertion explain:\n";$self->_explanation($explain,"");local $|=1;print "\n";print color("reset")}}return @_}sub _explanation {my$self=shift;my ($ex,$indent)=@_;for my$line (@$ex){if (ref($line)eq q(ARRAY)){print "$indent * Explain:\n";$self->_explanation($line,"$indent ")}else {print "$indent * $line\n"}}}1;
REPLY_PLUGIN_TYPETINY
$fatpacked{"String/ShellQuote.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'STRING_SHELLQUOTE';
package String::ShellQuote;use strict;use vars qw($VERSION @ISA @EXPORT);require Exporter;$VERSION='1.04';@ISA=qw(Exporter);@EXPORT=qw(shell_quote shell_quote_best_effort shell_comment_quote);sub croak {require Carp;goto&Carp::croak}sub _shell_quote_backend {my@in=@_;my@err=();if (0){require RS::Handy;print RS::Handy::data_dump(\@in)}return \@err,'' unless@in;my$ret='';my$saw_non_equal=0;for (@in){if (!defined $_ or $_ eq ''){$_="''";next}if (s/\x00//g){push@err,"No way to quote string containing null (\\000) bytes"}my$escape=0;if (/=/){if (!$saw_non_equal){$escape=1}}else {$saw_non_equal=1}if (m|[^\w!%+,\-./:=@^]|){$escape=1}if ($escape || (!$saw_non_equal && /=/)){s/'/'\\''/g;s|((?:'\\''){2,})|q{'"} . (q{'} x (length($1) / 4)) . q{"'}|ge;$_="'$_'";s/^''//;s/''$//}}continue {$ret .= "$_ "}chop$ret;return \@err,$ret}sub shell_quote {my ($rerr,$s)=_shell_quote_backend @_;if (@$rerr){my%seen;@$rerr=grep {!$seen{$_}++}@$rerr;my$s=join '',map {"shell_quote(): $_\n"}@$rerr;chomp$s;croak$s}return$s}sub shell_quote_best_effort {my ($rerr,$s)=_shell_quote_backend @_;return$s}sub shell_comment_quote {return '' unless @_;unless (@_==1){croak "Too many arguments to shell_comment_quote " ."(got " .@_ ." expected 1)"}local $_=shift;s/\n/\n#/g;return $_}1;
STRING_SHELLQUOTE
$fatpacked{"Sub/Exporter/Progressive.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'SUB_EXPORTER_PROGRESSIVE';
package Sub::Exporter::Progressive;$Sub::Exporter::Progressive::VERSION='0.001013';use strict;use warnings;sub _croak {require Carp;&Carp::croak}sub import {my ($self,@args)=@_;my$inner_target=caller;my$export_data=sub_export_options($inner_target,@args);my$full_exporter;no strict 'refs';no warnings 'once';@{"${inner_target}::EXPORT_OK"}=@{$export_data->{exports}};@{"${inner_target}::EXPORT"}=@{$export_data->{defaults}};%{"${inner_target}::EXPORT_TAGS"}=%{$export_data->{tags}};*{"${inner_target}::import"}=sub {use strict;my ($self,@args)=@_;if (grep {length ref $_ or $_ !~ / \A [:-]? \w+ \z /xm}@args){_croak 'your usage of Sub::Exporter::Progressive requires Sub::Exporter to be installed' unless eval {require Sub::Exporter};$full_exporter ||= Sub::Exporter::build_exporter($export_data->{original});goto$full_exporter}elsif (defined((my ($num)=grep {m/^\d/}@args)[0])){_croak "cannot export symbols with a leading digit: '$num'"}else {require Exporter;s/ \A - /:/xm for@args;@_=($self,@args);goto \&Exporter::import}};return}my$too_complicated=<<'DEATH';sub sub_export_options {my ($inner_target,$setup,$options)=@_;my@exports;my@defaults;my%tags;if (($setup||'')eq '-setup'){my%options=%$options;OPTIONS: for my$opt (keys%options){if ($opt eq 'exports'){_croak$too_complicated if ref$options{exports}ne 'ARRAY';@exports=@{$options{exports}};_croak$too_complicated if grep {length ref $_}@exports}elsif ($opt eq 'groups'){%tags=%{$options{groups}};for my$tagset (values%tags){_croak$too_complicated if grep {length ref $_ or $_ =~ / \A - (?! all \b ) /x}@{$tagset}}@defaults=@{$tags{default}|| []}}else {_croak$too_complicated}}@{$_}=map {/ \A [:-] all \z /x ? @exports : $_}@{$_}for \@defaults,values%tags;$tags{all}||= [@exports ];my%exports=map {$_=>1}@exports;my@errors=grep {not $exports{$_}}@defaults;_croak join(', ',@errors)." is not exported by the $inner_target module\n" if@errors}return {exports=>\@exports,defaults=>\@defaults,original=>$options,tags=>\%tags,}}1;
You are using Sub::Exporter::Progressive, but the features your program uses from
Sub::Exporter cannot be implemented without Sub::Exporter, so you might as well
just use vanilla Sub::Exporter
DEATH
SUB_EXPORTER_PROGRESSIVE
$fatpacked{"TOML.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TOML';
package TOML;use 5.008005;use strict;use warnings;use Exporter 'import';our ($VERSION,@EXPORT,@_NAMESPACE,$PARSER);use B;use Carp qw(croak);use TOML::Parser 0.03;$VERSION="0.97";@EXPORT=qw(from_toml to_toml);$PARSER=TOML::Parser->new(inflate_boolean=>sub {$_[0]});sub to_toml {my$stuff=shift;local@_NAMESPACE=();_to_toml($stuff)}sub _to_toml {my ($stuff)=@_;if (ref$stuff eq 'HASH'){my$res='';my@keys=sort keys %$stuff;for my$key (grep {ref$stuff->{$_}ne 'HASH'}@keys){my$val=$stuff->{$key};$res .= "$key = " ._serialize($val)."\n"}for my$key (grep {ref$stuff->{$_}eq 'HASH'}@keys){my$val=$stuff->{$key};local@_NAMESPACE=(@_NAMESPACE,$key);$res .= sprintf("[%s]\n",join(".",@_NAMESPACE));$res .= _to_toml($val)}return$res}else {croak("You cannot convert non-HashRef values to TOML")}}sub _serialize {my$value=shift;my$b_obj=B::svref_2object(\$value);my$flags=$b_obj->FLAGS;return$value if$flags & (B::SVp_IOK | B::SVp_NOK)and!($flags & B::SVp_POK);my$type=ref($value);if (!$type){return string_to_json($value)}elsif ($type eq 'ARRAY'){return sprintf('[%s]',join(", ",map {_serialize($_)}@$value))}elsif ($type eq 'SCALAR'){if (defined $$value){if ($$value eq '0'){return 'false'}elsif ($$value eq '1'){return 'true'}else {croak("cannot encode reference to scalar")}}croak("cannot encode reference to scalar")}croak("Bad type in to_toml: $type")}my%esc=("\n"=>'\n',"\r"=>'\r',"\t"=>'\t',"\f"=>'\f',"\b"=>'\b',"\""=>'\"',"\\"=>'\\\\',"\'"=>'\\\'',);sub string_to_json {my ($arg)=@_;$arg =~ s/([\x22\x5c\n\r\t\f\b])/$esc{$1}/g;$arg =~ s/([\x00-\x08\x0b\x0e-\x1f])/'\\u00' . unpack('H2', $1)/eg;return '"' .$arg .'"'}sub from_toml {my$string=shift;local $@;my$toml=eval {$PARSER->parse($string)};return wantarray ? ($toml,$@): $toml}1;
TOML
$fatpacked{"TOML/Parser.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TOML_PARSER';
package TOML::Parser;use 5.010000;use strict;use warnings;use Encode;our$VERSION="0.91";use TOML::Parser::Tokenizer qw/:constant/;use TOML::Parser::Tokenizer::Strict;use TOML::Parser::Util qw/unescape_str/;use Types::Serialiser;sub new {my$class=shift;my$args=(@_==1 and ref $_[0]eq 'HASH')? +shift : +{@_ };return bless +{inflate_datetime=>sub {$_[0]},inflate_boolean=>sub {$_[0]eq 'true' ? Types::Serialiser::true : Types::Serialiser::false},strict_mode=>0,%$args,}=>$class}sub parse_file {my ($self,$file)=@_;open my$fh,'<:encoding(utf-8)',$file or die $!;return$self->parse_fh($fh)}sub parse_fh {my ($self,$fh)=@_;my$src=do {local $/;<$fh>};return$self->parse($src)}sub _tokenizer_class {my$self=shift;return$self->{strict_mode}? 'TOML::Parser::Tokenizer::Strict' : 'TOML::Parser::Tokenizer'}our@TOKENS;our$ROOT;our$CONTEXT;sub parse {my ($self,$src)=@_;local$ROOT={};local$CONTEXT=$ROOT;local@TOKENS=$self->_tokenizer_class->tokenize($src);while (my$token=shift@TOKENS){$self->_parse_token($token)}return$ROOT}sub _parse_token {my ($self,$token)=@_;my ($type,$val)=@$token;if ($type eq TOKEN_TABLE){$self->_parse_table($val)}elsif ($type eq TOKEN_ARRAY_OF_TABLE){$self->_parse_array_of_table($val)}elsif (my ($key,$value)=$self->_parse_key_and_value($token)){die "Duplicate key. key:$key" if exists$CONTEXT->{$key};$CONTEXT->{$key}=$value}elsif ($type eq TOKEN_COMMENT){}else {die "Unknown case. type:$type"}}sub _parse_key_and_value {my ($self,$token)=@_;my ($type,$val)=@$token;if ($type eq TOKEN_KEY){my$token=shift@TOKENS;my$key=$val;my$value=$self->_parse_value_token($token);return ($key,$value)}return}sub _parse_table {my ($self,$keys)=@_;my@keys=@$keys;$CONTEXT=$ROOT;for my$k (@keys){if (exists$CONTEXT->{$k}){$CONTEXT=ref$CONTEXT->{$k}eq 'ARRAY' ? $CONTEXT->{$k}->[-1]: ref$CONTEXT->{$k}eq 'HASH' ? $CONTEXT->{$k}: die "invalid structure. @{[ join '.', @keys ]} cannot be `Table`"}else {$CONTEXT=$CONTEXT->{$k}||= +{}}}}sub _parse_array_of_table {my ($self,$keys)=@_;my@keys=@$keys;my$last_key=pop@keys;$CONTEXT=$ROOT;for my$k (@keys){if (exists$CONTEXT->{$k}){$CONTEXT=ref$CONTEXT->{$k}eq 'ARRAY' ? $CONTEXT->{$k}->[-1]: ref$CONTEXT->{$k}eq 'HASH' ? $CONTEXT->{$k}: die "invalid structure. @{[ join '.', @keys ]} cannot be `Array of table`."}else {$CONTEXT=$CONTEXT->{$k}||= +{}}}$CONTEXT->{$last_key}=[]unless exists$CONTEXT->{$last_key};die "invalid structure. @{[ join '.', @keys ]} cannot be `Array of table`" unless ref$CONTEXT->{$last_key}eq 'ARRAY';push @{$CONTEXT->{$last_key}}=>$CONTEXT={}}sub _parse_value_token {my$self=shift;my$token=shift;my ($type,$val,@args)=@$token;if ($type eq TOKEN_COMMENT){return}elsif ($type eq TOKEN_INTEGER || $type eq TOKEN_FLOAT){$val =~ tr/_//d;return 0+$val}elsif ($type eq TOKEN_BOOLEAN){return$self->inflate_boolean($val)}elsif ($type eq TOKEN_DATETIME){return$self->inflate_datetime($val)}elsif ($type eq TOKEN_STRING){my ($is_raw)=@args;return$is_raw ? $val : unescape_str($val)}elsif ($type eq TOKEN_MULTI_LINE_STRING_BEGIN){my ($is_raw)=@args;my$value=$self->_parse_value_token(shift@TOKENS);$value =~ s/\A(?:\r\n|[\r\n])//msg;$value =~ s/\\\s+//msg;if (my$token=shift@TOKENS){my ($type)=@$token;return$value if$type eq TOKEN_MULTI_LINE_STRING_END;die "Unexpected token: $type"}}elsif ($type eq TOKEN_INLINE_TABLE_BEGIN){my%data;while (my$token=shift@TOKENS){last if$token->[0]eq TOKEN_INLINE_TABLE_END;next if$token->[0]eq TOKEN_COMMENT;my ($key,$value)=$self->_parse_key_and_value($token);die "Duplicate key. key:$key" if exists$data{$key};$data{$key}=$value}return \%data}elsif ($type eq TOKEN_ARRAY_BEGIN){my@data;my$last_token;while (my$token=shift@TOKENS){last if$token->[0]eq TOKEN_ARRAY_END;next if$token->[0]eq TOKEN_COMMENT;if ($self->{strict_mode}){die "Unexpected token: $token->[0]" if defined$last_token && $token->[0]ne $last_token->[0]}push@data=>$self->_parse_value_token($token);$last_token=$token}return \@data}die "Unexpected token: $type"}sub inflate_datetime {my$self=shift;return$self->{inflate_datetime}->(@_)}sub inflate_boolean {my$self=shift;return$self->{inflate_boolean}->(@_)}1;
TOML_PARSER
$fatpacked{"TOML/Parser/Tokenizer.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TOML_PARSER_TOKENIZER';
package TOML::Parser::Tokenizer;use 5.010000;use strict;use warnings;use Exporter 5.57 'import';use constant DEBUG=>$ENV{TOML_PARSER_TOKENIZER_DEBUG}? 1 : 0;BEGIN {my@TOKENS=map uc,qw/comment table array_of_table key integer float boolean datetime string multi_line_string_begin multi_line_string_end inline_table_begin inline_table_end array_begin array_end/;my%CONSTANTS=map {("TOKEN_$_"=>$_)}@TOKENS;require constant;constant->import(\%CONSTANTS);our@EXPORT_OK=keys%CONSTANTS;our%EXPORT_TAGS=(constant=>[keys%CONSTANTS],)};sub grammar_regexp {return +{comment=>qr{#(.*)},table=>{start=>qr{\[},key=>qr{(?:"(.*?)(?<!(?<!\\)\\)"|\'(.*?)(?<!(?<!\\)\\)\'|([^.\s\\\]]+))},sep=>qr{\.},end=>qr{\]},},array_of_table=>{start=>qr{\[\[},key=>qr{(?:"(.*?)(?<!(?<!\\)\\)"|\'(.*?)(?<!(?<!\\)\\)\'|([^.\s\\\]]+))},sep=>qr{\.},end=>qr{\]\]},},key=>qr{(?:"(.*?)(?<!(?<!\\)\\)"|\'(.*?)(?<!(?<!\\)\\)\'|([^\s=]+))\s*=},value=>{datetime=>qr{([0-9]{4}-[0-9]{2}-[0-9]{2}T[0-9]{2}:[0-9]{2}:[0-9]{2}(?:\.[0-9]+)?(?:Z|[-+][0-9]{2}:[0-9]{2}))},float=>qr{([-+]?(?:[0-9_]+(?:\.[0-9_]+)?[eE][-+]?[0-9_]+|[0-9_]*\.[0-9_]+))},integer=>qr{([-+]?[0-9_]+)},boolean=>qr{(true|false)},string=>qr{(?:"(.*?)(?<!(?<!\\)\\)"|\'(.*?)(?<!(?<!\\)\\)\')},mlstring=>qr{("""|''')},inline=>{start=>qr{\{},sep=>qr{\s*,\s*},end=>qr{\}},},array=>{start=>qr{\[},sep=>qr{\s*,\s*},end=>qr{\]},},},}}sub tokenize {my ($class,$src)=@_;local $_=$src;return$class->_tokenize()}sub _tokenize {my$class=shift;my$grammar_regexp=$class->grammar_regexp();my@tokens;until (/\G\z/mgco){if (/\G$grammar_regexp->{comment}/mgc){warn "[TOKEN] COMMENT: $1" if DEBUG;$class->_skip_whitespace();push@tokens=>[TOKEN_COMMENT,$1 || '']}elsif (/\G$grammar_regexp->{array_of_table}->{start}/mgc){push@tokens=>$class->_tokenize_array_of_table()}elsif (/\G$grammar_regexp->{table}->{start}/mgc){push@tokens=>$class->_tokenize_table()}elsif (my@t=$class->_tokenize_key_and_value()){push@tokens=>@t}elsif (/\G\s+/mgco){$class->_skip_whitespace()}else {$class->_syntax_error()}}return@tokens}sub _tokenize_key_and_value {my$class=shift;my$grammar_regexp=$class->grammar_regexp();my@tokens;if (/\G$grammar_regexp->{key}/mgc){my$key=$1 || $2 || $3;warn "[TOKEN] KEY: $key" if DEBUG;$class->_skip_whitespace();push@tokens=>[TOKEN_KEY,$key];push@tokens=>$class->_tokenize_value();return@tokens}return}sub _tokenize_value {my$class=shift;my$grammar_regexp=$class->grammar_regexp();warn "[CALL] _tokenize_value" if DEBUG;if (/\G$grammar_regexp->{comment}/mgc){warn "[TOKEN] COMMENT: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_COMMENT,$1 || '']}elsif (/\G$grammar_regexp->{value}->{datetime}/mgc){warn "[TOKEN] DATETIME: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_DATETIME,$1]}elsif (/\G$grammar_regexp->{value}->{float}/mgc){warn "[TOKEN] FLOAT: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_FLOAT,$1]}elsif (/\G$grammar_regexp->{value}->{integer}/mgc){warn "[TOKEN] INTEGER: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_INTEGER,$1]}elsif (/\G$grammar_regexp->{value}->{boolean}/mgc){warn "[TOKEN] BOOLEAN: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_BOOLEAN,$1]}elsif (/\G$grammar_regexp->{value}->{mlstring}/mgc){warn "[TOKEN] MULTI LINE STRING: $1" if DEBUG;return ([TOKEN_MULTI_LINE_STRING_BEGIN],$class->_extract_multi_line_string($1),[TOKEN_MULTI_LINE_STRING_END],)}elsif (/\G$grammar_regexp->{value}->{string}/mgc){warn "[TOKEN] STRING: $1" if DEBUG;$class->_skip_whitespace();my$is_raw=defined $2;return [TOKEN_STRING,defined $1 ? $1 : defined $2 ? $2 : '',$is_raw]}elsif (/\G$grammar_regexp->{value}->{inline}->{start}/mgc){warn "[TOKEN] INLINE TABLE" if DEBUG;$class->_skip_whitespace();return ([TOKEN_INLINE_TABLE_BEGIN],$class->_tokenize_inline_table(),[TOKEN_INLINE_TABLE_END],)}elsif (/\G$grammar_regexp->{value}->{array}->{start}/mgc){warn "[TOKEN] ARRAY" if DEBUG;$class->_skip_whitespace();return ([TOKEN_ARRAY_BEGIN],$class->_tokenize_array(),[TOKEN_ARRAY_END],)}$class->_syntax_error()}sub _tokenize_table {my$class=shift;my$grammar_regexp=$class->grammar_regexp()->{table};warn "[CALL] _tokenize_table" if DEBUG;$class->_skip_whitespace();my@expected=($grammar_regexp->{key});my@keys;LOOP: while (1){for my$rx (@expected){if (/\G$rx/smgc){if ($rx eq $grammar_regexp->{key}){my$key=$1 || $2 || $3;warn "[TOKEN] table key: $key" if DEBUG;push@keys=>$key;@expected=($grammar_regexp->{sep},$grammar_regexp->{end})}elsif ($rx eq $grammar_regexp->{sep}){warn "[TOKEN] table key separator" if DEBUG;@expected=($grammar_regexp->{key})}elsif ($rx eq $grammar_regexp->{end}){warn "[TOKEN] table key end" if DEBUG;@expected=();last LOOP}$class->_skip_whitespace();next LOOP}}$class->_syntax_error()}warn "[TOKEN] TABLE: @{[ join '.', @keys ]}" if DEBUG;return [TOKEN_TABLE,\@keys]}sub _tokenize_array_of_table {my$class=shift;my$grammar_regexp=$class->grammar_regexp()->{array_of_table};warn "[CALL] _tokenize_array_of_table" if DEBUG;$class->_skip_whitespace();my@expected=($grammar_regexp->{key});my@keys;LOOP: while (1){for my$rx (@expected){if (/\G$rx/smgc){if ($rx eq $grammar_regexp->{key}){my$key=$1 || $2 || $3;warn "[TOKEN] table key: $key" if DEBUG;push@keys=>$key;@expected=($grammar_regexp->{sep},$grammar_regexp->{end})}elsif ($rx eq $grammar_regexp->{sep}){warn "[TOKEN] table key separator" if DEBUG;@expected=($grammar_regexp->{key})}elsif ($rx eq $grammar_regexp->{end}){warn "[TOKEN] table key end" if DEBUG;@expected=();last LOOP}$class->_skip_whitespace();next LOOP}}$class->_syntax_error()}warn "[TOKEN] ARRAY_OF_TABLE: @{[ join '.', @keys ]}" if DEBUG;return [TOKEN_ARRAY_OF_TABLE,\@keys]}sub _extract_multi_line_string {my ($class,$delimiter)=@_;my$is_raw=$delimiter eq q{'''};if (/\G(.+?)\Q$delimiter/smgc){warn "[TOKEN] MULTI LINE STRING: $1" if DEBUG;$class->_skip_whitespace();return [TOKEN_STRING,$1,$is_raw]}$class->_syntax_error()}sub _tokenize_inline_table {my$class=shift;my$common_grammar_regexp=$class->grammar_regexp();my$grammar_regexp=$common_grammar_regexp->{value}->{inline};warn "[CALL] _tokenize_inline_table" if DEBUG;return if /\G(?:$grammar_regexp->{sep})?$grammar_regexp->{end}/smgc;my$need_sep=0;my@tokens;while (1){warn "[CONTEXT] _tokenize_inline_table [loop]" if DEBUG;$class->_skip_whitespace();if (/\G$common_grammar_regexp->{comment}/mgc){warn "[TOKEN] COMMENT: $1" if DEBUG;push@tokens=>[TOKEN_COMMENT,$1 || ''];next}elsif (/\G$grammar_regexp->{end}/mgc){last}if ($need_sep){if (/\G$grammar_regexp->{sep}/smgc){$need_sep=0;next}}else {if (my@t=$class->_tokenize_key_and_value()){push@tokens=>@t;$need_sep=1;next}}$class->_syntax_error()}return@tokens}sub _tokenize_array {my$class=shift;my$common_grammar_regexp=$class->grammar_regexp();my$grammar_regexp=$common_grammar_regexp->{value}->{array};warn "[CALL] _tokenize_array" if DEBUG;return if /\G(?:$grammar_regexp->{sep})?$grammar_regexp->{end}/smgc;my$need_sep=0;my@tokens;while (1){warn "[CONTEXT] _tokenize_inline_table [loop]" if DEBUG;$class->_skip_whitespace();if (/\G$common_grammar_regexp->{comment}/mgc){warn "[TOKEN] COMMENT: $1" if DEBUG;push@tokens=>[TOKEN_COMMENT,$1 || ''];next}elsif (/\G$grammar_regexp->{end}/mgc){last}if ($need_sep){if (/\G$grammar_regexp->{sep}/smgc){$need_sep=0;next}}else {if (my@t=$class->_tokenize_value()){push@tokens=>@t;$need_sep=1;next}}$class->_syntax_error()}return@tokens}sub _skip_whitespace {my$class=shift;if (/\G\s+/smgco){warn "[PASS] WHITESPACE" if DEBUG}}sub _syntax_error {shift->_error('Syntax Error')}sub _error {my ($class,$msg)=@_;my$src=$_;my$curr=pos || 0;my$line=1;my$start=pos$src || 0;while ($src =~ /$/smgco and pos$src <= $curr){$start=pos$src;$line++}my$end=pos$src;my$len=$curr - $start;$len-- if$len > 0;my$trace=join "\n","${msg}: line:$line",substr($src,$start || 0,$end - $start),(' ' x $len).'^';die$trace,"\n"}1;
TOML_PARSER_TOKENIZER
$fatpacked{"TOML/Parser/Tokenizer/Strict.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TOML_PARSER_TOKENIZER_STRICT';
package TOML::Parser::Tokenizer::Strict;use 5.010000;use strict;use warnings;use parent qw/TOML::Parser::Tokenizer/;BEGIN {import TOML::Parser::Tokenizer qw/:constant/}sub grammar_regexp {my$grammar_regexp={%{shift->SUPER::grammar_regexp()}};$grammar_regexp->{table}={%{$grammar_regexp->{table}}};$grammar_regexp->{array_of_table}={%{$grammar_regexp->{array_of_table}}};$grammar_regexp->{table}->{key}=qr{(?:"(.*?)(?<!(?<!\\)\\)"|([A-Za-z0-9_-]+))};$grammar_regexp->{array_of_table}->{key}=qr{(?:"(.*?)(?<!(?<!\\)\\)"|([A-Za-z0-9_-]+))};$grammar_regexp->{key}=qr{(?:"(.*?)(?<!(?<!\\)\\)"|([A-Za-z0-9_-]+))\s*=};return$grammar_regexp}1;
TOML_PARSER_TOKENIZER_STRICT
$fatpacked{"TOML/Parser/Util.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TOML_PARSER_UTIL';
package TOML::Parser::Util;use 5.008005;use strict;use warnings;use Exporter 5.57 'import';our@EXPORT_OK=qw/unescape_str/;sub unescape_str {my$str=shift;$str =~ s!\\b !\x08!xmgo;$str =~ s!\\t !\x09!xmgo;$str =~ s!\\n !\x0A!xmgo;$str =~ s!\\f !\x0C!xmgo;$str =~ s!\\r !\x0D!xmgo;$str =~ s!\\" !\x22!xmgo;$str =~ s!\\/ !\x2F!xmgo;$str =~ s!\\\\!\x5C!xmgo;$str =~ s{\\u([0-9A-Fa-f]{4})}{# unicode (U+XXXX)
chr hex $1
}xmgeo;$str =~ s{\\U([0-9A-Fa-f]{8})}{# unicode (U+XXXXXXXX)
chr hex $1
}xmgeo;return$str}1;
TOML_PARSER_UTIL
$fatpacked{"Test/TypeTiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEST_TYPETINY';
package Test::TypeTiny;use strict;use warnings;use Test::More qw();use Scalar::Util qw(blessed);use Types::TypeTiny qw(to_TypeTiny);require Exporter::Tiny;our@ISA='Exporter::Tiny';BEGIN {*EXTENDED_TESTING=$ENV{EXTENDED_TESTING}? sub(){!!1}: sub(){!!0}};our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';our@EXPORT=qw(should_pass should_fail ok_subtype);our@EXPORT_OK=qw(EXTENDED_TESTING matchfor);sub matchfor {my@matchers=@_;bless \@matchers,do {package Test::TypeTiny::Internal::MATCHFOR;use overload q[==]=>'match',q[eq]=>'match',q[""]=>'to_string',fallback=>1;sub to_string {$_[0][0]}sub match {my ($self,$e)=@_;my$does=Scalar::Util::blessed($e)? ($e->can('DOES')|| $e->can('isa')): undef;for my$s (@$self){return 1 if ref($s)&& $e =~ $s;return 1 if!ref($s)&& $does && $e->$does($s)}return}__PACKAGE__}}sub _mk_message {require Type::Tiny;my ($template,$value)=@_;sprintf($template,Type::Tiny::_dd($value))}sub ok_subtype {my ($type,@s)=@_;@_=(not(scalar grep!$_->is_subtype_of($type),@s),sprintf("%s subtype: %s",$type,join q[, ],@s),);goto \&Test::More::ok}eval(EXTENDED_TESTING ? <<'SLOW' : <<'FAST');1;
sub should_pass
{
my ($value, $type, $message) = @_;
local $Test::Builder::Level = $Test::Builder::Level + 1;
$type = to_TypeTiny($type) unless blessed($type) && $type->can("check");
my $strictures = $type->can("_strict_check");
my $test = "Test::Builder"->new->child(
$message || _mk_message("%s passes type constraint $type", $value),
);
$test->plan(tests => ($strictures ? 2 : 1));
$test->ok(!!$type->check($value), '->check');
$test->ok(!!$type->_strict_check($value), '->_strict_check') if $strictures;
$test->finalize;
return $test->is_passing;
}
sub should_fail
{
my ($value, $type, $message) = @_;
$type = to_TypeTiny($type) unless blessed($type) && $type->can("check");
local $Test::Builder::Level = $Test::Builder::Level + 1;
my $strictures = $type->can("_strict_check");
my $test = "Test::Builder"->new->child(
$message || _mk_message("%s fails type constraint $type", $value),
);
$test->plan(tests => ($strictures ? 2 : 1));
$test->ok(!$type->check($value), '->check');
$test->ok(!$type->_strict_check($value), '->_strict_check') if $strictures;
$test->finalize;
return $test->is_passing;
}
SLOW
sub should_pass
{
my ($value, $type, $message) = @_;
$type = to_TypeTiny($type) unless blessed($type) && $type->can("check");
@_ = (
!!$type->check($value),
$message || _mk_message("%s passes type constraint $type", $value),
);
goto \&Test::More::ok;
}
sub should_fail
{
my ($value, $type, $message) = @_;
$type = to_TypeTiny($type) unless blessed($type) && $type->can("check");
@_ = (
!$type->check($value),
$message || _mk_message("%s fails type constraint $type", $value),
);
goto \&Test::More::ok;
}
FAST
TEST_TYPETINY
$fatpacked{"Text/Diff.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEXT_DIFF';
package Text::Diff;use 5.006;use strict;use warnings;use Carp qw/croak confess/;use Exporter ();use Algorithm::Diff ();our$VERSION='1.45';our@ISA=qw/Exporter/;our@EXPORT=qw/diff/;use constant A=>0;use constant B=>1;use constant OPCODE=>2;use constant FLAG=>3;my%internal_styles=(Unified=>undef,Context=>undef,OldStyle=>undef,Table=>undef,);sub diff {my@seqs=(shift,shift);my$options=shift || {};for my$i (0 .. 1){my$seq=$seqs[$i];my$type=ref$seq;while ($type eq "CODE"){$seqs[$i]=$seq=$seq->($options);$type=ref$seq}my$AorB=!$i ? "A" : "B";if ($type eq "ARRAY"){$options->{"OFFSET_$AorB"}=0 unless defined$options->{"OFFSET_$AorB"}}elsif ($type eq "SCALAR"){$seqs[$i]=[split(/^/m,$$seq)];$options->{"OFFSET_$AorB"}=1 unless defined$options->{"OFFSET_$AorB"}}elsif (!$type){$options->{"OFFSET_$AorB"}=1 unless defined$options->{"OFFSET_$AorB"};$options->{"FILENAME_$AorB"}=$seq unless defined$options->{"FILENAME_$AorB"};$options->{"MTIME_$AorB"}=(stat($seq))[9]unless defined$options->{"MTIME_$AorB"};local $/="\n";open F,"<$seq" or croak "$!: $seq";$seqs[$i]=[<F>];close F}elsif ($type eq "GLOB" || UNIVERSAL::isa($seq,"IO::Handle")){$options->{"OFFSET_$AorB"}=1 unless defined$options->{"OFFSET_$AorB"};local $/="\n";$seqs[$i]=[<$seq>]}else {confess "Can't handle input of type ",ref}}my$output;my$output_handler=$options->{OUTPUT};my$type=ref$output_handler ;if (!defined$output_handler){$output="";$output_handler=sub {$output .= shift}}elsif ($type eq "CODE"){}elsif ($type eq "SCALAR"){my$out_ref=$output_handler;$output_handler=sub {$$out_ref .= shift}}elsif ($type eq "ARRAY"){my$out_ref=$output_handler;$output_handler=sub {push @$out_ref,shift}}elsif ($type eq "GLOB" || UNIVERSAL::isa$output_handler,"IO::Handle"){my$output_handle=$output_handler;$output_handler=sub {print$output_handle shift}}else {croak "Unrecognized output type: $type"}my$style=$options->{STYLE};$style="Unified" unless defined$options->{STYLE};$style="Text::Diff::$style" if exists$internal_styles{$style};if (!$style->can("hunk")){eval "require $style; 1" or die $@}$style=$style->new if!ref$style && $style->can("new");my$ctx_lines=$options->{CONTEXT};$ctx_lines=3 unless defined$ctx_lines;$ctx_lines=0 if$style->isa("Text::Diff::OldStyle");my@keygen_args=$options->{KEYGEN_ARGS}? @{$options->{KEYGEN_ARGS}}: ();my$diffs=0;my$ctx=0;my@ops;my$hunks=0;my$emit_ops=sub {$output_handler->($style->file_header(@seqs,$options))unless$hunks++;$output_handler->($style->hunk_header(@seqs,@_,$options));$output_handler->($style->hunk (@seqs,@_,$options));$output_handler->($style->hunk_footer(@seqs,@_,$options))};my$dis_a=sub {push@ops,[@_[0,1],"-"];++$diffs ;$ctx=0};my$dis_b=sub {push@ops,[@_[0,1],"+"];++$diffs ;$ctx=0};Algorithm::Diff::traverse_sequences(@seqs,{MATCH=>sub {push@ops,[@_[0,1]," "];if ($diffs && ++$ctx > $ctx_lines * 2){$emit_ops->([splice@ops,0,$#ops - $ctx_lines ]);$ctx=$diffs=0}shift@ops if!$diffs && @ops > $ctx_lines},DISCARD_A=>$dis_a,DISCARD_B=>$dis_b,},$options->{KEYGEN},@keygen_args,);if ($diffs){$#ops -= $ctx - $ctx_lines if$ctx > $ctx_lines;$emit_ops->(\@ops)}$output_handler->($style->file_footer(@seqs,$options))if$hunks;return defined$output ? $output : $hunks}sub _header {my ($h)=@_;my ($p1,$fn1,$t1,$p2,$fn2,$t2)=@{$h}{"FILENAME_PREFIX_A","FILENAME_A","MTIME_A","FILENAME_PREFIX_B","FILENAME_B","MTIME_B" };return "" unless defined$fn1 && defined$fn2;return join("",$p1," ",$fn1,defined$t1 ? "\t" .localtime$t1 : (),"\n",$p2," ",$fn2,defined$t2 ? "\t" .localtime$t2 : (),"\n",)}sub _range {my ($ops,$a_or_b,$format)=@_;my$start=$ops->[0]->[$a_or_b];my$after=$ops->[-1]->[$a_or_b];++$after unless$ops->[-1]->[OPCODE]eq ($a_or_b==A ? "+" : "-");my$empty_range=$start==$after;++$start unless$empty_range;return $start==$after ? $format eq "unified" && $empty_range ? "$start,0" : $start : $format eq "unified" ? "$start,".($after-$start+1): "$start,$after"}sub _op_to_line {my ($seqs,$op,$a_or_b,$op_prefixes)=@_;my$opcode=$op->[OPCODE];return ()unless defined$op_prefixes->{$opcode};my$op_sym=defined$op->[FLAG]? $op->[FLAG]: $opcode;$op_sym=$op_prefixes->{$op_sym};return ()unless defined$op_sym;$a_or_b=$op->[OPCODE]ne "+" ? 0 : 1 unless defined$a_or_b;my@line=($op_sym,$seqs->[$a_or_b][$op->[$a_or_b]]);unless ($line[1]=~ /(?:\n|\r\n)$/){$line[1].= "\n\\ No newline at end of file\n"}return@line}SCOPE: {package Text::Diff::Base;sub new {my$proto=shift;return bless {@_ },ref$proto || $proto}sub file_header {return ""}sub hunk_header {return ""}sub hunk {return ""}sub hunk_footer {return ""}sub file_footer {return ""}}@Text::Diff::Unified::ISA=qw(Text::Diff::Base);sub Text::Diff::Unified::file_header {shift;my$options=pop ;_header({FILENAME_PREFIX_A=>"---",FILENAME_PREFIX_B=>"+++",%$options })}sub Text::Diff::Unified::hunk_header {shift;pop;my$ops=pop;return join("","@@ -",_range($ops,A,"unified")," +",_range($ops,B,"unified")," @@\n",)}sub Text::Diff::Unified::hunk {shift;pop;my$ops=pop;my$prefixes={"+"=>"+"," "=>" ","-"=>"-" };return join "",map _op_to_line(\@_,$_,undef,$prefixes),@$ops}@Text::Diff::Context::ISA=qw(Text::Diff::Base);sub Text::Diff::Context::file_header {_header {FILENAME_PREFIX_A=>"***",FILENAME_PREFIX_B=>"---",%{$_[-1]}}}sub Text::Diff::Context::hunk_header {return "***************\n"}sub Text::Diff::Context::hunk {shift;pop;my$ops=pop;my$a_range=_range($ops,A,"");my$b_range=_range($ops,B,"");my$after;for (my$start=0;$start <= $#$ops ;$start=$after ){$after=$start + 1;my$opcode=$ops->[$start]->[OPCODE];next if$opcode eq " ";my$bang_it;while ($after <= $#$ops && $ops->[$after]->[OPCODE]ne " "){$bang_it ||= $ops->[$after]->[OPCODE]ne $opcode;++$after}if ($bang_it){for my$i ($start..($after-1)){$ops->[$i]->[FLAG]="!"}}}my$b_prefixes={"+"=>"+ "," "=>" ","-"=>undef,"!"=>"! " };my$a_prefixes={"+"=>undef," "=>" ","-"=>"- ","!"=>"! " };return join("","*** ",$a_range," ****\n",map(_op_to_line(\@_,$_,A,$a_prefixes),@$ops),"--- ",$b_range," ----\n",map(_op_to_line(\@_,$_,B,$b_prefixes),@$ops),)}@Text::Diff::OldStyle::ISA=qw(Text::Diff::Base);sub _op {my$ops=shift;my$op=$ops->[0]->[OPCODE];$op="c" if grep $_->[OPCODE]ne $op,@$ops;$op="a" if$op eq "+";$op="d" if$op eq "-";return$op}sub Text::Diff::OldStyle::hunk_header {shift;pop;my$ops=pop;my$op=_op$ops;return join "",_range($ops,A,""),$op,_range($ops,B,""),"\n"}sub Text::Diff::OldStyle::hunk {shift;pop;my$ops=pop;my$a_prefixes={"+"=>undef," "=>undef,"-"=>"< " };my$b_prefixes={"+"=>"> "," "=>undef,"-"=>undef };my$op=_op$ops;return join("",map(_op_to_line(\@_,$_,A,$a_prefixes),@$ops),$op eq "c" ? "---\n" : (),map(_op_to_line(\@_,$_,B,$b_prefixes),@$ops),)}1;
TEXT_DIFF
$fatpacked{"Text/Diff/Config.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEXT_DIFF_CONFIG';
package Text::Diff::Config;use 5.006;use strict;use warnings;our$VERSION='1.44';our$Output_Unicode;BEGIN {$Output_Unicode=$ENV{'DIFF_OUTPUT_UNICODE'}}1;
TEXT_DIFF_CONFIG
$fatpacked{"Text/Diff/Table.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEXT_DIFF_TABLE';
package Text::Diff::Table;use 5.006;use strict;use warnings;use Carp;use Text::Diff::Config;our$VERSION='1.44';our@ISA=qw(Text::Diff::Base Exporter);our@EXPORT_OK=qw(expand_tabs);my%escapes=map {my$c=$_ eq '"' || $_ eq '$' ? qq{'$_'} : $_ eq "\\" ? qq{"\\\\"} : qq{"$_"};(ord eval$c=>$_)}(map(chr,32..126),map(sprintf("\\x%02x",$_),(0..31,127..255)),"\\t","\\n","\\r","\\f","\\b","\\a","\\e");sub expand_tabs($) {my$s=shift;my$count=0;$s =~ s{(\t)(\t*)|([^\t]+)}{
if ( $1 ) {
my $spaces = " " x ( 8 - $count % 8 + 8 * length $2 );
$count = 0;
$spaces;
}
else {
$count += length $3;
$3;
}
}ge;return$s}sub trim_trailing_line_ends($) {my$s=shift;$s =~ s/[\r\n]+(?!\n)$//;return$s}sub escape($);SCOPE: {my$escaper=<<'EOCODE';unless (eval$escaper){$escaper =~ s/ *use *utf8 *;\n// or die "Can't drop use utf8;";eval$escaper or die $@}}sub new {my$proto=shift;return bless {@_ },$proto}my$missing_elt=["","" ];sub hunk {my$self=shift;my@seqs=(shift,shift);my$ops=shift;my$options=shift;my (@A,@B);for (@$ops){my$opcode=$_->[Text::Diff::OPCODE()];if ($opcode eq " "){push@A,$missing_elt while@A < @B;push@B,$missing_elt while@B < @A}push@A,[$_->[0]+ ($options->{OFFSET_A}|| 0),$seqs[0][$_->[0]]]if$opcode eq " " || $opcode eq "-";push@B,[$_->[1]+ ($options->{OFFSET_B}|| 0),$seqs[1][$_->[1]]]if$opcode eq " " || $opcode eq "+"}push@A,$missing_elt while@A < @B;push@B,$missing_elt while@B < @A;my@elts;for (0..$#A){my ($A,$B)=(shift@A,shift@B);my$elt_type=$B==$missing_elt ? "A" : $A==$missing_elt ? "B" : $A->[1]eq $B->[1]? "=" : "*";if ($elt_type ne "*"){if ($elt_type eq "=" || $A->[1]=~ /\S/ || $B->[1]=~ /\S/){$A->[1]=escape trim_trailing_line_ends expand_tabs$A->[1];$B->[1]=escape trim_trailing_line_ends expand_tabs$B->[1]}else {$A->[1]=escape$A->[1];$B->[1]=escape$B->[1]}}else {$A->[1]=~ /^(\s*?)([^ \t].*?)?(\s*)(?![\n\r])$/s;my ($l_ws_A,$body_A,$t_ws_A)=($1,$2,$3);$body_A="" unless defined$body_A;$B->[1]=~ /^(\s*?)([^ \t].*?)?(\s*)(?![\n\r])$/s;my ($l_ws_B,$body_B,$t_ws_B)=($1,$2,$3);$body_B="" unless defined$body_B;my$added_escapes;if ($l_ws_A ne $l_ws_B){$added_escapes=1 if$l_ws_A =~ s/\t/\\t/g;$added_escapes=1 if$l_ws_B =~ s/\t/\\t/g}if ($t_ws_A ne $t_ws_B){$added_escapes=1 if$t_ws_A =~ s/ /\\s/g;$added_escapes=1 if$t_ws_B =~ s/ /\\s/g;$added_escapes=1 if$t_ws_A =~ s/\t/\\t/g;$added_escapes=1 if$t_ws_B =~ s/\t/\\t/g}else {$t_ws_A=$t_ws_B=""}my$do_tab_escape=$added_escapes || do {my$expanded_A=expand_tabs join($body_A,$l_ws_A,$t_ws_A);my$expanded_B=expand_tabs join($body_B,$l_ws_B,$t_ws_B);$expanded_A eq $expanded_B};my$do_back_escape=$do_tab_escape || do {my ($unescaped_A,$escaped_A,$unescaped_B,$escaped_B)=map join("",/(\\.)/g),map {($_,escape $_)}expand_tabs join($body_A,$l_ws_A,$t_ws_A),expand_tabs join($body_B,$l_ws_B,$t_ws_B);$unescaped_A ne $unescaped_B && $escaped_A eq $escaped_B};if ($do_back_escape){$body_A =~ s/\\/\\\\/g;$body_B =~ s/\\/\\\\/g}my$line_A=join$body_A,$l_ws_A,$t_ws_A;my$line_B=join$body_B,$l_ws_B,$t_ws_B;unless ($do_tab_escape){$line_A=expand_tabs$line_A;$line_B=expand_tabs$line_B}$A->[1]=escape$line_A;$B->[1]=escape$line_B}push@elts,[@$A,@$B,$elt_type ]}push @{$self->{ELTS}},@elts,["bar"];return ""}sub _glean_formats {my$self=shift}sub file_footer {my$self=shift;my@seqs=(shift,shift);my$options=pop;my@heading_lines;if (defined$options->{FILENAME_A}|| defined$options->{FILENAME_B}){push@heading_lines,[map({("",escape(defined $_ ? $_ : "<undef>"))}(@{$options}{qw(FILENAME_A FILENAME_B)})),"=",]}if (defined$options->{MTIME_A}|| defined$options->{MTIME_B}){push@heading_lines,[map({("",escape((defined $_ && length $_)? localtime $_ : ""))}@{$options}{qw(MTIME_A MTIME_B)}),"=",]}if (defined$options->{INDEX_LABEL}){push@heading_lines,["","","","","=" ]unless@heading_lines;$heading_lines[-1]->[0]=$heading_lines[-1]->[2]=$options->{INDEX_LABEL}}my$four_column_mode=0;for my$cols (@heading_lines,@{$self->{ELTS}}){next if$cols->[-1]eq "bar";if ($cols->[0]ne $cols->[2]){$four_column_mode=1;last}}unless ($four_column_mode){for my$cols (@heading_lines,@{$self->{ELTS}}){next if$cols->[-1]eq "bar";splice @$cols,2,1}}my@w=(0,0,0,0);for my$cols (@heading_lines,@{$self->{ELTS}}){next if$cols->[-1]eq "bar";for my$i (0..($#$cols-1)){$w[$i]=length$cols->[$i]if defined$cols->[$i]&& length$cols->[$i]> $w[$i]}}my%fmts=$four_column_mode ? ("="=>"| %$w[0]s|%-$w[1]s | %$w[2]s|%-$w[3]s |\n","A"=>"* %$w[0]s|%-$w[1]s * %$w[2]s|%-$w[3]s |\n","B"=>"| %$w[0]s|%-$w[1]s * %$w[2]s|%-$w[3]s *\n","*"=>"* %$w[0]s|%-$w[1]s * %$w[2]s|%-$w[3]s *\n",): ("="=>"| %$w[0]s|%-$w[1]s |%-$w[2]s |\n","A"=>"* %$w[0]s|%-$w[1]s |%-$w[2]s |\n","B"=>"| %$w[0]s|%-$w[1]s |%-$w[2]s *\n","*"=>"* %$w[0]s|%-$w[1]s |%-$w[2]s *\n",);my@args=('','','');push(@args,'')if$four_column_mode;$fmts{bar}=sprintf$fmts{"="},@args;$fmts{bar}=~ s/\S/+/g;$fmts{bar}=~ s/ /-/g;no warnings;return join("",map {sprintf($fmts{$_->[-1]},@$_)}(["bar"],@heading_lines,@heading_lines ? ["bar"]: (),@{$self->{ELTS}},),);@{$self->{ELTS}}=[]}1;
sub escape($) {
use utf8;
join "", map {
my $c = $_;
$_ = ord;
exists $escapes{$_}
? $escapes{$_}
: $Text::Diff::Config::Output_Unicode
? $c
: sprintf( "\\x{%04x}", $_ );
} split //, shift;
}
1;
EOCODE
TEXT_DIFF_TABLE
$fatpacked{"Text/Template.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEXT_TEMPLATE';
package Text::Template;$Text::Template::VERSION='1.47';require 5.004;use Exporter;@ISA=qw(Exporter);@EXPORT_OK=qw(fill_in_file fill_in_string TTerror);use vars '$ERROR';use strict;my%GLOBAL_PREPEND=('Text::Template'=>'');sub Version {$Text::Template::VERSION}sub _param {my$kk;my ($k,%h)=@_;for$kk ($k,"\u$k","\U$k","-$k","-\u$k","-\U$k"){return$h{$kk}if exists$h{$kk}}return}sub always_prepend {my$pack=shift;my$old=$GLOBAL_PREPEND{$pack};$GLOBAL_PREPEND{$pack}=shift;$old}{my%LEGAL_TYPE;BEGIN {%LEGAL_TYPE=map {$_=>1}qw(FILE FILEHANDLE STRING ARRAY)}sub new {my$pack=shift;my%a=@_;my$stype=uc(_param('type',%a)|| "FILE");my$source=_param('source',%a);my$untaint=_param('untaint',%a);my$prepend=_param('prepend',%a);my$alt_delim=_param('delimiters',%a);my$broken=_param('broken',%a);unless (defined$source){require Carp;Carp::croak("Usage: $ {pack}::new(TYPE => ..., SOURCE => ...)")}unless ($LEGAL_TYPE{$stype}){require Carp;Carp::croak("Illegal value `$stype' for TYPE parameter")}my$self={TYPE=>$stype,PREPEND=>$prepend,UNTAINT=>$untaint,BROKEN=>$broken,(defined$alt_delim ? (DELIM=>$alt_delim): ()),};$self->{SOURCE}=$source;bless$self=>$pack;return unless$self->_acquire_data;$self}}sub _acquire_data {my ($self)=@_;my$type=$self->{TYPE};if ($type eq 'STRING'){}elsif ($type eq 'FILE'){my$data=_load_text($self->{SOURCE});unless (defined$data){return undef}if ($self->{UNTAINT}&& _is_clean($self->{SOURCE})){_unconditionally_untaint($data)}$self->{TYPE}='STRING';$self->{FILENAME}=$self->{SOURCE};$self->{SOURCE}=$data}elsif ($type eq 'ARRAY'){$self->{TYPE}='STRING';$self->{SOURCE}=join '',@{$self->{SOURCE}}}elsif ($type eq 'FILEHANDLE'){$self->{TYPE}='STRING';local $/;my$fh=$self->{SOURCE};my$data=<$fh>;if ($self->{UNTAINT}){_unconditionally_untaint($data)}$self->{SOURCE}=$data}else {my$pack=ref$self;die "Can only acquire data for $pack objects of subtype STRING, but this is $type; aborting"}$self->{DATA_ACQUIRED}=1}sub source {my ($self)=@_;$self->_acquire_data unless$self->{DATA_ACQUIRED};return$self->{SOURCE}}sub set_source_data {my ($self,$newdata)=@_;$self->{SOURCE}=$newdata;$self->{DATA_ACQUIRED}=1;$self->{TYPE}='STRING';1}sub compile {my$self=shift;return 1 if$self->{TYPE}eq 'PREPARSED';return undef unless$self->_acquire_data;unless ($self->{TYPE}eq 'STRING'){my$pack=ref$self;die "Can only compile $pack objects of subtype STRING, but this is $self->{TYPE}; aborting"}my@tokens;my$delim_pats=shift()|| $self->{DELIM};my ($t_open,$t_close)=('{','}');my$DELIM;if (defined$delim_pats){($t_open,$t_close)=@$delim_pats;$DELIM="(?:(?:\Q$t_open\E)|(?:\Q$t_close\E))";@tokens=split /($DELIM|\n)/,$self->{SOURCE}}else {@tokens=split /(\\\\(?=\\*[{}])|\\[{}]|[{}\n])/,$self->{SOURCE}}my$state='TEXT';my$depth=0;my$lineno=1;my@content;my$cur_item='';my$prog_start;while (@tokens){my$t=shift@tokens;next if$t eq '';if ($t eq $t_open){if ($depth==0){push@content,[$state,$cur_item,$lineno]if$cur_item ne '';$cur_item='';$state='PROG';$prog_start=$lineno}else {$cur_item .= $t}$depth++}elsif ($t eq $t_close){$depth--;if ($depth < 0){$ERROR="Unmatched close brace at line $lineno";return undef}elsif ($depth==0){push@content,[$state,$cur_item,$prog_start]if$cur_item ne '';$state='TEXT';$cur_item=''}else {$cur_item .= $t}}elsif (!$delim_pats && $t eq '\\\\'){$cur_item .= '\\'}elsif (!$delim_pats && $t =~ /^\\([{}])$/){$cur_item .= $1}elsif ($t eq "\n"){$lineno++;$cur_item .= $t}else {$cur_item .= $t}}if ($state eq 'PROG'){$ERROR="End of data inside program text that began at line $prog_start";return undef}elsif ($state eq 'TEXT'){push@content,[$state,$cur_item,$lineno]if$cur_item ne ''}else {die "Can't happen error #1"}$self->{TYPE}='PREPARSED';$self->{SOURCE}=\@content;1}sub prepend_text {my ($self)=@_;my$t=$self->{PREPEND};unless (defined$t){$t=$GLOBAL_PREPEND{ref$self};unless (defined$t){$t=$GLOBAL_PREPEND{'Text::Template'}}}$self->{PREPEND}=$_[1]if $#_ >= 1;return$t}sub fill_in {my$fi_self=shift;my%fi_a=@_;unless ($fi_self->{TYPE}eq 'PREPARSED'){my$delims=_param('delimiters',%fi_a);my@delim_arg=(defined$delims ? ($delims): ());$fi_self->compile(@delim_arg)or return undef}my$fi_varhash=_param('hash',%fi_a);my$fi_package=_param('package',%fi_a);my$fi_broken=_param('broken',%fi_a)|| $fi_self->{BROKEN}|| \&_default_broken;my$fi_broken_arg=_param('broken_arg',%fi_a)|| [];my$fi_safe=_param('safe',%fi_a);my$fi_ofh=_param('output',%fi_a);my$fi_eval_package;my$fi_scrub_package=0;my$fi_filename=_param('filename')|| $fi_self->{FILENAME}|| 'template';my$fi_prepend=_param('prepend',%fi_a);unless (defined$fi_prepend){$fi_prepend=$fi_self->prepend_text}if (defined$fi_safe){$fi_eval_package='main'}elsif (defined$fi_package){$fi_eval_package=$fi_package}elsif (defined$fi_varhash){$fi_eval_package=_gensym();$fi_scrub_package=1}else {$fi_eval_package=caller}my$fi_install_package;if (defined$fi_varhash){if (defined$fi_package){$fi_install_package=$fi_package}elsif (defined$fi_safe){$fi_install_package=$fi_safe->root}else {$fi_install_package=$fi_eval_package}_install_hash($fi_varhash=>$fi_install_package)}if (defined$fi_package && defined$fi_safe){no strict 'refs';*{$fi_safe->root .'::'}=\%{$fi_package .'::'}}my$fi_r='';my$fi_item;for$fi_item (@{$fi_self->{SOURCE}}){my ($fi_type,$fi_text,$fi_lineno)=@$fi_item;if ($fi_type eq 'TEXT'){$fi_self->append_text_to_output(text=>$fi_text,handle=>$fi_ofh,out=>\$fi_r,type=>$fi_type,)}elsif ($fi_type eq 'PROG'){no strict;my$fi_lcomment="#line $fi_lineno $fi_filename";my$fi_progtext="package $fi_eval_package; $fi_prepend;\n$fi_lcomment\n$fi_text;";my$fi_res;my$fi_eval_err='';if ($fi_safe){$fi_safe->reval(q{undef $OUT});$fi_res=$fi_safe->reval($fi_progtext);$fi_eval_err=$@;my$OUT=$fi_safe->reval('$OUT');$fi_res=$OUT if defined$OUT}else {my$OUT;$fi_res=eval$fi_progtext;$fi_eval_err=$@;$fi_res=$OUT if defined$OUT}$fi_res='' unless defined$fi_res;if ($fi_eval_err){$fi_res=$fi_broken->(text=>$fi_text,error=>$fi_eval_err,lineno=>$fi_lineno,arg=>$fi_broken_arg,);if (defined$fi_res){$fi_self->append_text_to_output(text=>$fi_res,handle=>$fi_ofh,out=>\$fi_r,type=>$fi_type,)}else {return$fi_res}}else {$fi_self->append_text_to_output(text=>$fi_res,handle=>$fi_ofh,out=>\$fi_r,type=>$fi_type,)}}else {die "Can't happen error #2"}}_scrubpkg($fi_eval_package)if$fi_scrub_package;defined$fi_ofh ? 1 : $fi_r}sub append_text_to_output {my ($self,%arg)=@_;if (defined$arg{handle}){print {$arg{handle}}$arg{text}}else {${$arg{out}}.= $arg{text}}return}sub fill_this_in {my$pack=shift;my$text=shift;my$templ=$pack->new(TYPE=>'STRING',SOURCE=>$text,@_)or return undef;$templ->compile or return undef;my$result=$templ->fill_in(@_);$result}sub fill_in_string {my$string=shift;my$package=_param('package',@_);push @_,'package'=>scalar(caller)unless defined$package;Text::Template->fill_this_in($string,@_)}sub fill_in_file {my$fn=shift;my$templ=Text::Template->new(TYPE=>'FILE',SOURCE=>$fn,@_)or return undef;$templ->compile or return undef;my$text=$templ->fill_in(@_);$text}sub _default_broken {my%a=@_;my$prog_text=$a{text};my$err=$a{error};my$lineno=$a{lineno};chomp$err;"Program fragment delivered error ``$err''"}sub _load_text {my$fn=shift;local*F;unless (open F,$fn){$ERROR="Couldn't open file $fn: $!";return undef}local $/;<F>}sub _is_clean {my$z;eval {($z=join('',@_)),eval '#' .substr($z,0,0);1}}sub _unconditionally_untaint {for (@_){($_)=/(.*)/s}}{my$seqno=0;sub _gensym {__PACKAGE__ .'::GEN' .$seqno++}sub _scrubpkg {my$s=shift;$s =~ s/^Text::Template:://;no strict 'refs';my$hash=$Text::Template::{$s."::"};for my$key (keys %$hash){undef$hash->{$key}}%$hash=();delete$Text::Template::{$s."::"}}}sub _install_hash {my$hashlist=shift;my$dest=shift;if (UNIVERSAL::isa($hashlist,'HASH')){$hashlist=[$hashlist]}my$hash;for$hash (@$hashlist){my$name;for$name (keys %$hash){my$val=$hash->{$name};no strict 'refs';local*SYM=*{"$ {dest}::$name"};if (!defined$val){delete ${"$ {dest}::"}{$name}}elsif (ref$val){*SYM=$val}else {*SYM=\$val}}}}sub TTerror {$ERROR}1;
TEXT_TEMPLATE
$fatpacked{"Text/Template/Preprocess.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TEXT_TEMPLATE_PREPROCESS';
package Text::Template::Preprocess;$Text::Template::Preprocess::VERSION='1.47';use Text::Template;@ISA=qw(Text::Template);sub fill_in {my$self=shift;my (%args)=@_;my$pp=$args{PREPROCESSOR}|| $self->{PREPROCESSOR};if ($pp){local $_=$self->source();&$pp;$self->set_source_data($_)}$self->SUPER::fill_in(@_)}sub preprocessor {my ($self,$pp)=@_;my$old_pp=$self->{PREPROCESSOR};$self->{PREPROCESSOR}=$pp if @_ > 1;$old_pp}1;
TEXT_TEMPLATE_PREPROCESS
$fatpacked{"Try/Tiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TRY_TINY';
package Try::Tiny;use 5.006;our$VERSION='0.28';use strict;use warnings;use Exporter 5.57 'import';our@EXPORT=our@EXPORT_OK=qw(try catch finally);use Carp;$Carp::Internal{+__PACKAGE__}++;BEGIN {my$su=$INC{'Sub/Util.pm'}&& defined&Sub::Util::set_subname;my$sn=$INC{'Sub/Name.pm'}&& eval {Sub::Name->VERSION(0.08)};unless ($su || $sn){$su=eval {require Sub::Util}&& defined&Sub::Util::set_subname;unless ($su){$sn=eval {require Sub::Name;Sub::Name->VERSION(0.08)}}}*_subname=$su ? \&Sub::Util::set_subname : $sn ? \&Sub::Name::subname : sub {$_[1]};*_HAS_SUBNAME=($su || $sn)? sub(){1}: sub(){0}}my%_finally_guards;sub try (&;@) {my ($try,@code_refs)=@_;my$wantarray=wantarray;my ($catch,@finally)=();for my$code_ref (@code_refs){if (ref($code_ref)eq 'Try::Tiny::Catch'){croak 'A try() may not be followed by multiple catch() blocks' if$catch;$catch=${$code_ref}}elsif (ref($code_ref)eq 'Try::Tiny::Finally'){push@finally,${$code_ref}}else {croak('try() encountered an unexpected argument (' .(defined$code_ref ? $code_ref : 'undef').') - perhaps a missing semi-colon before or')}}my$caller=caller;_subname("${caller}::try {...} "=>$try)if _HAS_SUBNAME;local$_finally_guards{guards}=[map {Try::Tiny::ScopeGuard->_new($_)}@finally ];my$prev_error=$@;my (@ret,$error);my$failed=not eval {$@=$prev_error;if ($wantarray){@ret=$try->()}elsif (defined$wantarray){$ret[0]=$try->()}else {$try->()};return 1};$error=$@;$@=$prev_error;if ($failed){push @$_,$error for @{$_finally_guards{guards}};if ($catch){for ($error){return$catch->($error)}}return}else {return$wantarray ? @ret : $ret[0]}}sub catch (&;@) {my ($block,@rest)=@_;croak 'Useless bare catch()' unless wantarray;my$caller=caller;_subname("${caller}::catch {...} "=>$block)if _HAS_SUBNAME;return (bless(\$block,'Try::Tiny::Catch'),@rest,)}sub finally (&;@) {my ($block,@rest)=@_;croak 'Useless bare finally()' unless wantarray;my$caller=caller;_subname("${caller}::finally {...} "=>$block)if _HAS_SUBNAME;return (bless(\$block,'Try::Tiny::Finally'),@rest,)}{package Try::Tiny::ScopeGuard;use constant UNSTABLE_DOLLARAT=>("$]" < '5.013002')? 1 : 0;sub _new {shift;bless [@_ ]}sub DESTROY {my ($code,@args)=@{$_[0]};local $@ if UNSTABLE_DOLLARAT;eval {$code->(@args);1}or do {warn "Execution of finally() block $code resulted in an exception, which " .'*CAN NOT BE PROPAGATED* due to fundamental limitations of Perl. ' .'Your program will continue as if this event never took place. ' ."Original exception text follows:\n\n" .(defined $@ ? $@ : '$@ left undefined...')."\n" }}}__PACKAGE__
TRY_TINY
$fatpacked{"Type/Coercion.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_COERCION';
package Type::Coercion;use 5.006001;use strict;use warnings;BEGIN {$Type::Coercion::AUTHORITY='cpan:TOBYINK';$Type::Coercion::VERSION='1.002001'}use Eval::TypeTiny qw<>;use Scalar::Util qw<blessed>;use Types::TypeTiny qw<>;sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use overload q("")=>sub {caller =~ m{^(Moo::HandleMoose|Sub::Quote)} ? overload::StrVal($_[0]): $_[0]->display_name},q(bool)=>sub {1},q(&{})=>"_overload_coderef",fallback=>1,;BEGIN {require Type::Tiny;overload->import(q(~~)=>sub {$_[0]->has_coercion_for_value($_[1])},fallback=>1,)if Type::Tiny::SUPPORT_SMARTMATCH()}sub _overload_coderef {my$self=shift;if ("Sub::Quote"->can("quote_sub")&& $self->can_be_inlined){$self->{_overload_coderef}=Sub::Quote::quote_sub($self->inline_coercion('$_[0]'))if!$self->{_overload_coderef}||!$self->{_sub_quoted}++}else {$self->{_overload_coderef}||= sub {$self->coerce(@_)}}$self->{_overload_coderef}}sub new {my$class=shift;my%params=(@_==1)? %{$_[0]}: @_;$params{name}='__ANON__' unless exists($params{name});my$C=delete($params{type_coercion_map})|| [];my$F=delete($params{frozen});my$self=bless \%params,$class;$self->add_type_coercions(@$C)if @$C;$self->_preserve_type_constraint;Scalar::Util::weaken($self->{type_constraint});$self->{frozen}=$F if$F;unless ($self->is_anon){$self->name =~ /^_{0,2}[A-Z][A-Za-z0-9_]+$/sm or eval q( use 5.008; $self->name =~ /^_{0,2}\p{Lu}[\p{L}0-9_]+$/sm ) or _croak '"%s" is not a valid coercion name',$self->name}return$self}sub name {$_[0]{name}}sub display_name {$_[0]{display_name}||= $_[0]->_build_display_name}sub library {$_[0]{library}}sub type_constraint {$_[0]{type_constraint}||= $_[0]->_maybe_restore_type_constraint}sub type_coercion_map {$_[0]{type_coercion_map}||= []}sub moose_coercion {$_[0]{moose_coercion}||= $_[0]->_build_moose_coercion}sub compiled_coercion {$_[0]{compiled_coercion}||= $_[0]->_build_compiled_coercion}sub frozen {$_[0]{frozen}||= 0}sub coercion_generator {$_[0]{coercion_generator}}sub parameters {$_[0]{parameters}}sub parameterized_from {$_[0]{parameterized_from}}sub has_library {exists $_[0]{library}}sub has_type_constraint {defined $_[0]->type_constraint}sub has_coercion_generator {exists $_[0]{coercion_generator}}sub has_parameters {exists $_[0]{parameters}}sub _preserve_type_constraint {my$self=shift;$self->{_compiled_type_constraint_check}=$self->{type_constraint}->compiled_check if$self->{type_constraint}}sub _maybe_restore_type_constraint {my$self=shift;if (my$check=$self->{_compiled_type_constraint_check}){return Type::Tiny->new(constraint=>$check)}return}sub add {my$class=shift;my ($x,$y,$swap)=@_;Types::TypeTiny::TypeTiny->check($x)and return$x->plus_fallback_coercions($y);Types::TypeTiny::TypeTiny->check($y)and return$y->plus_coercions($x);_croak "Attempt to add $class to something that is not a $class" unless blessed($x)&& blessed($y)&& $x->isa($class)&& $y->isa($class);($y,$x)=($x,$y)if$swap;my%opts;if ($x->has_type_constraint and $y->has_type_constraint and $x->type_constraint==$y->type_constraint){$opts{type_constraint}=$x->type_constraint}elsif ($x->has_type_constraint and $y->has_type_constraint){}$opts{display_name}||= "$x+$y";delete$opts{display_name}if$opts{display_name}eq '__ANON__+__ANON__';my$new=$class->new(%opts);$new->add_type_coercions(@{$x->type_coercion_map});$new->add_type_coercions(@{$y->type_coercion_map});return$new}sub _build_display_name {shift->name}sub qualified_name {my$self=shift;if ($self->has_library and not $self->is_anon){return sprintf("%s::%s",$self->library,$self->name)}return$self->name}sub is_anon {my$self=shift;$self->name eq "__ANON__"}sub _clear_compiled_coercion {delete $_[0]{_overload_coderef};delete $_[0]{compiled_coercion}}sub freeze {$_[0]{frozen}=1;$_[0]}sub i_really_want_to_unfreeze {$_[0]{frozen}=0;$_[0]}sub coerce {my$self=shift;return$self->compiled_coercion->(@_)}sub assert_coerce {my$self=shift;my$r=$self->coerce(@_);$self->type_constraint->assert_valid($r)if$self->has_type_constraint;return$r}sub has_coercion_for_type {my$self=shift;my$type=Types::TypeTiny::to_TypeTiny($_[0]);return "0 but true" if$self->has_type_constraint && $type->is_a_type_of($self->type_constraint);my$c=$self->type_coercion_map;for (my$i=0;$i <= $#$c;$i += 2){return!!1 if$type->is_a_type_of($c->[$i])}return}sub has_coercion_for_value {my$self=shift;local $_=$_[0];return "0 but true" if$self->has_type_constraint && $self->type_constraint->check(@_);my$c=$self->type_coercion_map;for (my$i=0;$i <= $#$c;$i += 2){return!!1 if$c->[$i]->check(@_)}return}sub add_type_coercions {my$self=shift;my@args=@_;_croak "Attempt to add coercion code to a Type::Coercion which has been frozen" if$self->frozen;while (@args){my$type=Types::TypeTiny::to_TypeTiny(shift@args);my$coercion=shift@args;_croak "Types must be blessed Type::Tiny objects" unless Types::TypeTiny::TypeTiny->check($type);_croak "Coercions must be code references or strings" unless Types::TypeTiny::StringLike->check($coercion)|| Types::TypeTiny::CodeLike->check($coercion);push @{$self->type_coercion_map},$type,$coercion}$self->_clear_compiled_coercion;return$self}sub _build_compiled_coercion {my$self=shift;my@mishmash=@{$self->type_coercion_map};return sub {$_[0]}unless@mishmash;if ($self->can_be_inlined){return Eval::TypeTiny::eval_closure(source=>sprintf('sub ($) { %s }',$self->inline_coercion('$_[0]')),description=>sprintf("compiled coercion '%s'",$self),)}my (@types,@codes);while (@mishmash){push@types,shift@mishmash;push@codes,shift@mishmash}if ($self->has_type_constraint){unshift@types,$self->type_constraint;unshift@codes,undef}my@sub;for my$i (0..$#types){push@sub,$types[$i]->can_be_inlined ? sprintf('if (%s)',$types[$i]->inline_check('$_[0]')): sprintf('if ($checks[%d]->(@_))',$i);push@sub,!defined($codes[$i])? sprintf(' { return $_[0] }'): Types::TypeTiny::StringLike->check($codes[$i])? sprintf(' { local $_ = $_[0]; return scalar(%s); }',$codes[$i]): sprintf(' { local $_ = $_[0]; return scalar($codes[%d]->(@_)) }',$i)}push@sub,'return $_[0];';return Eval::TypeTiny::eval_closure(source=>sprintf('sub ($) { %s }',join qq[\n],@sub),description=>sprintf("compiled coercion '%s'",$self),environment=>{'@checks'=>[map $_->compiled_check,@types ],'@codes'=>\@codes,},)}sub can_be_inlined {my$self=shift;return unless$self->frozen;return if$self->has_type_constraint &&!$self->type_constraint->can_be_inlined;my@mishmash=@{$self->type_coercion_map};while (@mishmash){my ($type,$converter)=splice(@mishmash,0,2);return unless$type->can_be_inlined;return unless Types::TypeTiny::StringLike->check($converter)}return!!1}sub _source_type_union {my$self=shift;my@r;push@r,$self->type_constraint if$self->has_type_constraint;my@mishmash=@{$self->type_coercion_map};while (@mishmash){my ($type)=splice(@mishmash,0,2);push@r,$type}require Type::Tiny::Union;return "Type::Tiny::Union"->new(type_constraints=>\@r,tmp=>1)}sub inline_coercion {my$self=shift;my$varname=$_[0];_croak "This coercion cannot be inlined" unless$self->can_be_inlined;my@mishmash=@{$self->type_coercion_map};return "($varname)" unless@mishmash;my (@types,@codes);while (@mishmash){push@types,shift@mishmash;push@codes,shift@mishmash}if ($self->has_type_constraint){unshift@types,$self->type_constraint;unshift@codes,undef}my@sub;for my$i (0..$#types){push@sub,sprintf('(%s) ?',$types[$i]->inline_check($varname));push@sub,(defined($codes[$i])&& ($varname eq '$_'))? sprintf('scalar(do { %s }) :',$codes[$i]): defined($codes[$i])? sprintf('scalar(do { local $_ = %s; %s }) :',$varname,$codes[$i]): sprintf('%s :',$varname)}push@sub,"$varname";"@sub"}sub _build_moose_coercion {my$self=shift;my%options=();$options{type_coercion_map}=[$self->freeze->_codelike_type_coercion_map('moose_type')];$options{type_constraint}=$self->type_constraint if$self->has_type_constraint;require Moose::Meta::TypeCoercion;my$r="Moose::Meta::TypeCoercion"->new(%options);return$r}sub _codelike_type_coercion_map {my$self=shift;my$modifier=$_[0];my@orig=@{$self->type_coercion_map};my@new;while (@orig){my ($type,$converter)=splice(@orig,0,2);push@new,$modifier ? $type->$modifier : $type;if (Types::TypeTiny::CodeLike->check($converter)){push@new,$converter}else {push@new,Eval::TypeTiny::eval_closure(source=>sprintf('sub { local $_ = $_[0]; %s }',$converter),description=>sprintf("temporary compiled converter from '%s'",$type),)}}return@new}sub is_parameterizable {shift->has_coercion_generator}sub is_parameterized {shift->has_parameters}sub parameterize {my$self=shift;return$self unless @_;$self->is_parameterizable or _croak "Constraint '%s' does not accept parameters","$self";@_=map Types::TypeTiny::to_TypeTiny($_),@_;return ref($self)->new(type_constraint=>$self->type_constraint,type_coercion_map=>[$self->coercion_generator->($self,$self->type_constraint,@_)],parameters=>\@_,frozen=>1,parameterized_from=>$self,)}sub _reparameterize {my$self=shift;my ($target_type)=@_;$self->is_parameterized or return$self;my$parent=$self->parameterized_from;return ref($self)->new(type_constraint=>$target_type,type_coercion_map=>[$parent->coercion_generator->($parent,$target_type,@{$self->parameters})],parameters=>\@_,frozen=>1,parameterized_from=>$parent,)}sub isa {my$self=shift;if ($INC{"Moose.pm"}and blessed($self)and $_[0]eq 'Moose::Meta::TypeCoercion'){return!!1}if ($INC{"Moose.pm"}and blessed($self)and $_[0]=~ /^(Class::MOP|MooseX?)::/){my$r=$self->moose_coercion->isa(@_);return$r if$r}$self->SUPER::isa(@_)}sub can {my$self=shift;my$can=$self->SUPER::can(@_);return$can if$can;if ($INC{"Moose.pm"}and blessed($self)and my$method=$self->moose_coercion->can(@_)){return sub {$method->(shift->moose_coercion,@_)}}return}sub AUTOLOAD {my$self=shift;my ($m)=(our$AUTOLOAD =~ /::(\w+)$/);return if$m eq 'DESTROY';if ($INC{"Moose.pm"}and blessed($self)and my$method=$self->moose_coercion->can($m)){return$method->($self->moose_coercion,@_)}_croak q[Can't locate object method "%s" via package "%s"],$m,ref($self)||$self}sub _compiled_type_coercion {my$self=shift;if (@_){my$thing=$_[0];if (blessed($thing)and $thing->isa("Type::Coercion")){$self->add_type_coercions(@{$thing->type_coercion_map})}elsif (Types::TypeTiny::CodeLike->check($thing)){require Types::Standard;$self->add_type_coercions(Types::Standard::Any(),$thing)}}$self->compiled_coercion}*compile_type_coercion=\&compiled_coercion;sub meta {_croak("Not really a Moose::Meta::TypeCoercion. Sorry!")}1;
TYPE_COERCION
$fatpacked{"Type/Coercion/FromMoose.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_COERCION_FROMMOOSE';
package Type::Coercion::FromMoose;use 5.006001;use strict;use warnings;BEGIN {$Type::Coercion::FromMoose::AUTHORITY='cpan:TOBYINK';$Type::Coercion::FromMoose::VERSION='1.002001'}use Scalar::Util qw<blessed>;use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}require Type::Coercion;our@ISA='Type::Coercion';sub type_coercion_map {my$self=shift;my@from;if ($self->type_constraint){my$moose=$self->type_constraint->{moose_type};@from=@{$moose->coercion->type_coercion_map}if$moose && $moose->has_coercion}else {_croak "The type constraint attached to this coercion has been garbage collected... PANIC"}my@return;while (@from){my ($type,$code)=splice(@from,0,2);$type=Moose::Util::TypeConstraints::find_type_constraint($type)unless ref$type;push@return,Types::TypeTiny::to_TypeTiny($type),$code}return \@return}sub add_type_coercions {my$self=shift;_croak "Adding coercions to Type::Coercion::FromMoose not currently supported" if @_}sub _build_moose_coercion {my$self=shift;if ($self->type_constraint){my$moose=$self->type_constraint->{moose_type};return$moose->coercion if$moose && $moose->has_coercion}$self->SUPER::_build_moose_coercion(@_)}sub can_be_inlined {0}1;
TYPE_COERCION_FROMMOOSE
$fatpacked{"Type/Coercion/Union.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_COERCION_UNION';
package Type::Coercion::Union;use 5.006001;use strict;use warnings;BEGIN {$Type::Coercion::Union::AUTHORITY='cpan:TOBYINK';$Type::Coercion::Union::VERSION='1.002001'}use Scalar::Util qw<blessed>;use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}require Type::Coercion;our@ISA='Type::Coercion';sub _preserve_type_constraint {my$self=shift;$self->{_union_of}=$self->{type_constraint}->type_constraints if$self->{type_constraint}}sub _maybe_restore_type_constraint {my$self=shift;if (my$union=$self->{_union_of}){return Type::Tiny::Union->new(type_constraints=>$union)}return}sub type_coercion_map {my$self=shift;Types::TypeTiny::TypeTiny->assert_valid(my$type=$self->type_constraint);$type->isa('Type::Tiny::Union')or _croak "Type::Coercion::Union must be used in conjunction with Type::Tiny::Union";my@c;for my$tc (@$type){next unless$tc->has_coercion;push@c,@{$tc->coercion->type_coercion_map}}return \@c}sub add_type_coercions {my$self=shift;_croak "Adding coercions to Type::Coercion::Union not currently supported" if @_}sub _build_moose_coercion {my$self=shift;my%options=();$options{type_constraint}=$self->type_constraint if$self->has_type_constraint;require Moose::Meta::TypeCoercion::Union;my$r="Moose::Meta::TypeCoercion::Union"->new(%options);return$r}sub can_be_inlined {my$self=shift;Types::TypeTiny::TypeTiny->assert_valid(my$type=$self->type_constraint);for my$tc (@$type){next unless$tc->has_coercion;return!!0 unless$tc->coercion->can_be_inlined}!!1}1;
TYPE_COERCION_UNION
$fatpacked{"Type/Library.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_LIBRARY';
package Type::Library;use 5.006001;use strict;use warnings;BEGIN {$Type::Library::AUTHORITY='cpan:TOBYINK';$Type::Library::VERSION='1.002001'}use Eval::TypeTiny qw<eval_closure>;use Scalar::Util qw<blessed refaddr>;use Type::Tiny;use Types::TypeTiny qw<TypeTiny to_TypeTiny>;require Exporter::Tiny;our@ISA='Exporter::Tiny';BEGIN {*NICE_PROTOTYPES=($] >= 5.014)? sub () {!!1}: sub () {!!0}};sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}{my$subname;my%already;sub _subname ($$) {$subname=eval {require Sub::Util}? \&Sub::Util::set_subname : eval {require Sub::Name}? \&Sub::Name::subname : 0 if not defined$subname;!$already{refaddr($_[1])}++ and return($subname->(@_))if$subname;return $_[1]}}sub _exporter_validate_opts {my$class=shift;no strict "refs";my$into=$_[0]{into};push @{"$into\::ISA"},$class if $_[0]{base};return$class->SUPER::_exporter_validate_opts(@_)}sub _exporter_expand_tag {my$class=shift;my ($name,$value,$globals)=@_;$name eq 'types' and return map ["$_"=>$value ],$class->type_names;$name eq 'is' and return map ["is_$_"=>$value ],$class->type_names;$name eq 'assert' and return map ["assert_$_"=>$value ],$class->type_names;$name eq 'to' and return map ["to_$_"=>$value ],$class->type_names;$name eq 'coercions' and return map ["$_"=>$value ],$class->coercion_names;if ($name eq 'all'){no strict "refs";return (map(["+$_"=>$value ],$class->type_names,),map([$_=>$value ],$class->coercion_names,@{"$class\::EXPORT"},@{"$class\::EXPORT_OK"},),)}return$class->SUPER::_exporter_expand_tag(@_)}sub _mksub {my$class=shift;my ($type,$post_method)=@_;$post_method ||= q();my$source=$type->is_parameterizable ? sprintf(q{
sub (%s) {
return $_[0]->complete($type) if ref($_[0]) eq 'Type::Tiny::_HalfOp';
my $params; $params = shift if ref($_[0]) eq q(ARRAY);
my $t = $params ? $type->parameterize(@$params) : $type;
@_ && wantarray ? return($t%s, @_) : return $t%s;
}
},NICE_PROTOTYPES ? q(;$) : q(;@),$post_method,$post_method,): sprintf(q{ sub () { $type%s if $] } },$post_method,);return _subname($type->qualified_name,eval_closure(source=>$source,description=>sprintf("exportable function '%s'",$type),environment=>{'$type'=>\$type},),)}sub _exporter_permitted_regexp {my$class=shift;my$inherited=$class->SUPER::_exporter_permitted_regexp(@_);my$types=join "|",map quotemeta,sort {length($b)<=> length($a)or $a cmp $b}$class->type_names;my$coercions=join "|",map quotemeta,sort {length($b)<=> length($a)or $a cmp $b}$class->coercion_names;qr{^(?:
$inherited
| (?: (?:is_|to_|assert_)? (?:$types) )
| (?:$coercions)
)$}xms}sub _exporter_expand_sub {my$class=shift;my ($name,$value,$globals)=@_;if ($name =~ /^\+(.+)/ and $class->has_type($1)){my$type=$1;my$value2=+{%{$value||{}}};return map$class->_exporter_expand_sub($_,$value2,$globals),$type,"is_$type","assert_$type","to_$type"}if (my$type=$class->get_type($name)){my$post_method=q();$post_method='->mouse_type' if$globals->{mouse};$post_method='->moose_type' if$globals->{moose};return ($name=>$class->_mksub($type,$post_method))if$post_method}return$class->SUPER::_exporter_expand_sub(@_)}sub _exporter_install_sub {my$class=shift;my ($name,$value,$globals,$sym)=@_;my$package=$globals->{into};if (!ref$package and my$type=$class->get_type($name)){my ($prefix)=grep defined,$value->{-prefix},$globals->{prefix},q();my ($suffix)=grep defined,$value->{-suffix},$globals->{suffix},q();my$as=$prefix .($value->{-as}|| $name).$suffix;$INC{'Type/Registry.pm'}? 'Type::Registry'->for_class($package)->add_type($type,$as): ($Type::Registry::DELAYED{$package}{$as}=$type)}$class->SUPER::_exporter_install_sub(@_)}sub _exporter_fail {my$class=shift;my ($name,$value,$globals)=@_;my$into=$globals->{into}or _croak("Parameter 'into' not supplied");if ($globals->{declare}){my$declared=sub (;$) {my$params;$params=shift if ref($_[0])eq "ARRAY";my$type=$into->get_type($name);unless ($type){_croak "Cannot parameterize a non-existant type" if$params;$type=$name}my$t=$params ? $type->parameterize(@$params): $type;@_ && wantarray ? return($t,@_): return$t};return($name,_subname("$class\::$name",NICE_PROTOTYPES ? sub (;$) {goto$declared}: sub (;@) {goto$declared},),)}return$class->SUPER::_exporter_fail(@_)}sub meta {no strict "refs";no warnings "once";return $_[0]if blessed $_[0];${"$_[0]\::META"}||= bless {},$_[0]}sub add_type {my$meta=shift->meta;my$class=blessed($meta);my$type=ref($_[0])=~ /^Type::Tiny\b/ ? $_[0]: blessed($_[0])? to_TypeTiny($_[0]): ref($_[0])eq q(HASH) ? "Type::Tiny"->new(library=>$class,%{$_[0]}): "Type::Tiny"->new(library=>$class,@_);my$name=$type->{name};$meta->{types}||= {};_croak 'Type %s already exists in this library',$name if$meta->has_type($name);_croak 'Type %s conflicts with coercion of same name',$name if$meta->has_coercion($name);_croak 'Cannot add anonymous type to a library' if$type->is_anon;$meta->{types}{$name}=$type;no strict "refs";no warnings "redefine","prototype";my$to_type=$type->has_coercion && $type->coercion->frozen ? $type->coercion->compiled_coercion : sub ($) {$type->coerce($_[0])};*{"$class\::$name"}=$class->_mksub($type);*{"$class\::is_$name"}=_subname "$class\::is_$name",$type->compiled_check;*{"$class\::to_$name"}=_subname "$class\::to_$name",$to_type;*{"$class\::assert_$name"}=_subname "$class\::assert_$name",$type->_overload_coderef;return$type}sub get_type {my$meta=shift->meta;$meta->{types}{$_[0]}}sub has_type {my$meta=shift->meta;exists$meta->{types}{$_[0]}}sub type_names {my$meta=shift->meta;keys %{$meta->{types}}}sub add_coercion {require Type::Coercion;my$meta=shift->meta;my$c=blessed($_[0])? $_[0]: "Type::Coercion"->new(@_);my$name=$c->name;$meta->{coercions}||= {};_croak 'Coercion %s already exists in this library',$name if$meta->has_coercion($name);_croak 'Coercion %s conflicts with type of same name',$name if$meta->has_type($name);_croak 'Cannot add anonymous type to a library' if$c->is_anon;$meta->{coercions}{$name}=$c;no strict "refs";no warnings "redefine","prototype";my$class=blessed($meta);*{"$class\::$name"}=$class->_mksub($c);return$c}sub get_coercion {my$meta=shift->meta;$meta->{coercions}{$_[0]}}sub has_coercion {my$meta=shift->meta;exists$meta->{coercions}{$_[0]}}sub coercion_names {my$meta=shift->meta;keys %{$meta->{coercions}}}sub make_immutable {my$meta=shift->meta;my$class=ref($meta);for my$type (values %{$meta->{types}}){$type->coercion->freeze;no strict "refs";no warnings "redefine","prototype";my$to_type=$type->has_coercion && $type->coercion->frozen ? $type->coercion->compiled_coercion : sub ($) {$type->coerce($_[0])};my$name=$type->name;*{"$class\::to_$name"}=_subname "$class\::to_$name",$to_type}1}1;
TYPE_LIBRARY
$fatpacked{"Type/Params.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_PARAMS';
package Type::Params;use 5.006001;use strict;use warnings;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Type::Params::AUTHORITY='cpan:TOBYINK';$Type::Params::VERSION='1.002001'}use B qw();use Eval::TypeTiny;use Scalar::Util qw(refaddr);use Error::TypeTiny;use Error::TypeTiny::Assertion;use Error::TypeTiny::WrongNumberOfParameters;use Types::Standard -types;use Types::TypeTiny qw(CodeLike ArrayLike to_TypeTiny);require Exporter::Tiny;our@ISA='Exporter::Tiny';our@EXPORT=qw(compile compile_named);our@EXPORT_OK=qw(multisig validate validate_named Invocant);sub english_list {require Type::Utils;goto \&Type::Utils::english_list}my$QUOTE=($^V < 5.010 && exists(&B::cstring))? \&B::cstring : \&B::perlstring;{my$Invocant;sub Invocant () {$Invocant ||= do {require Type::Tiny::Union;require Types::Standard;'Type::Tiny::Union'->new(name=>'Invocant',type_constraints=>[Types::Standard::Object(),Types::Standard::ClassName(),],)}}}sub _mkslurpy {my ($name,$type,$tc,$i)=@_;$name='local $_' if$name eq '$_';$type eq '@' ? sprintf('%s = [ @_[%d..$#_] ];',$name,$i,): sprintf('%s = (($#_-%d)%%2)==0 ? "Error::TypeTiny::WrongNumberOfParameters"->throw(message => sprintf("Odd number of elements in %%s", %s)) : +{ @_[%d..$#_] };',$name,$i,$QUOTE->("$tc"),$i,)}sub compile {my (@code,%env);push@code,'#placeholder','#placeholder';my%options=(ref($_[0])eq "HASH" &&!$_[0]{slurpy})? %{+shift}: ();my$arg=-1;my$saw_slurpy=0;my$min_args=0;my$max_args=0;my$saw_opt=0;my$return_default_list=!!1;$code[0]='my (%tmp, $tmp);';PARAM: for my$param (@_){if (HashRef->check($param)){$code[0]='my (@R, %tmp, $tmp);';$return_default_list=!!0;last PARAM}elsif (not Bool->check($param)){if ($param->has_coercion){$code[0]='my (@R, %tmp, $tmp);';$return_default_list=!!0;last PARAM}}}while (@_){++$arg;my$constraint=shift;my$is_optional;my$really_optional;my$is_slurpy;my$varname;if (Bool->check($constraint)){$constraint=$constraint ? Any : Optional[Any]}if (HashRef->check($constraint)){$constraint=to_TypeTiny($constraint->{slurpy}or Error::TypeTiny::croak("Slurpy parameter malformed"));push@code,$constraint->is_a_type_of(Dict)? _mkslurpy('$_','%',$constraint=>$arg): $constraint->is_a_type_of(Map)? _mkslurpy('$_','%',$constraint=>$arg): $constraint->is_a_type_of(Tuple)? _mkslurpy('$_','@',$constraint=>$arg): $constraint->is_a_type_of(HashRef)? _mkslurpy('$_','%',$constraint=>$arg): $constraint->is_a_type_of(ArrayRef)? _mkslurpy('$_','@',$constraint=>$arg): Error::TypeTiny::croak("Slurpy parameter not of type HashRef or ArrayRef");$varname='$_';$is_slurpy++;$saw_slurpy++}else {Error::TypeTiny::croak("Parameter following slurpy parameter")if$saw_slurpy;$is_optional=grep $_->{uniq}==Optional->{uniq},$constraint->parents;$really_optional=$is_optional && $constraint->parent->{uniq}eq Optional->{uniq}&& $constraint->type_parameter;if ($is_optional){push@code,sprintf('return %s if $#_ < %d;',$return_default_list ? '@_' : '@R',$arg,);$saw_opt++;$max_args++}else {Error::TypeTiny::croak("Non-Optional parameter following Optional parameter")if$saw_opt;$min_args++;$max_args++}$varname=sprintf '$_[%d]',$arg}if ($constraint->has_coercion and $constraint->coercion->can_be_inlined){push@code,sprintf('$tmp%s = %s;',($is_optional ? '{x}' : ''),$constraint->coercion->inline_coercion($varname));$varname='$tmp'.($is_optional ? '{x}' : '')}elsif ($constraint->has_coercion){$env{'@coerce'}[$arg]=$constraint->coercion->compiled_coercion;push@code,sprintf('$tmp%s = $coerce[%d]->(%s);',($is_optional ? '{x}' : ''),$arg,$varname,);$varname='$tmp'.($is_optional ? '{x}' : '')}if ($constraint->can_be_inlined){push@code,sprintf('(%s) or Type::Tiny::_failed_check(%d, %s, %s, varname => %s);',$really_optional ? $constraint->type_parameter->inline_check($varname): $constraint->inline_check($varname),$constraint->{uniq},$QUOTE->($constraint),$varname,$is_slurpy ? 'q{$SLURPY}' : sprintf('q{$_[%d]}',$arg),)}else {$env{'@check'}[$arg]=$really_optional ? $constraint->type_parameter->compiled_check : $constraint->compiled_check;push@code,sprintf('%s or Type::Tiny::_failed_check(%d, %s, %s, varname => %s);',sprintf(sprintf '$check[%d]->(%s)',$arg,$varname),$constraint->{uniq},$QUOTE->($constraint),$varname,$is_slurpy ? 'q{$SLURPY}' : sprintf('q{$_[%d]}',$arg),)}unless ($return_default_list){push@code,sprintf 'push @R, %s;',$varname}}if ($min_args==$max_args and not $saw_slurpy){$code[1]=sprintf('"Error::TypeTiny::WrongNumberOfParameters"->throw(got => scalar(@_), minimum => %d, maximum => %d) if @_ != %d;',$min_args,$max_args,$min_args,)}elsif ($min_args < $max_args and not $saw_slurpy){$code[1]=sprintf('"Error::TypeTiny::WrongNumberOfParameters"->throw(got => scalar(@_), minimum => %d, maximum => %d) if @_ < %d || @_ > %d;',$min_args,$max_args,$min_args,$max_args,)}elsif ($min_args and $saw_slurpy){$code[1]=sprintf('"Error::TypeTiny::WrongNumberOfParameters"->throw(got => scalar(@_), minimum => %d) if @_ < %d;',$min_args,$min_args,)}if ($return_default_list){push@code,'@_;'}else {push@code,'@R;'}my$source="sub { no warnings; ".join("\n",@code)." };";return$source if$options{want_source};my$closure=eval_closure(source=>$source,description=>sprintf("parameter validation for '%s'",[caller(1+($options{caller_level}||0))]->[3]|| '__ANON__'),environment=>\%env,);return {min_args=>$min_args,max_args=>$saw_slurpy ? undef : $max_args,closure=>$closure,}if$options{want_details};return$closure}sub compile_named {my (@code,%env);@code='my (%R, %tmp, $tmp);';push@code,'#placeholder';my%options=(ref($_[0])eq "HASH" &&!$_[0]{slurpy})? %{+shift}: ();my$arg=-1;my$had_slurpy;push@code,'my %in = ((@_==1) && ref($_[0]) eq "HASH") ? %{$_[0]} : (@_ % 2) ? "Error::TypeTiny::WrongNumberOfParameters"->throw(message => "Odd number of elements in hash") : @_;';while (@_){++$arg;my ($name,$constraint)=splice(@_,0,2);my$is_optional;my$really_optional;my$is_slurpy;my$varname;if (Bool->check($constraint)){$constraint=$constraint ? Any : Optional[Any]}if (HashRef->check($constraint)){$constraint=to_TypeTiny($constraint->{slurpy});++$is_slurpy;++$had_slurpy}else {$is_optional=grep $_->{uniq}==Optional->{uniq},$constraint->parents;$really_optional=$is_optional && $constraint->parent->{uniq}eq Optional->{uniq}&& $constraint->type_parameter;$constraint=$constraint->type_parameter if$really_optional}unless ($is_optional or $is_slurpy){push@code,sprintf('exists($in{%s}) or "Error::TypeTiny::WrongNumberOfParameters"->throw(message => sprintf "Missing required parameter: %%s", %s);',$QUOTE->($name),$QUOTE->($name),)}my$need_to_close_if=0;if ($is_slurpy){$varname='\\%in'}elsif ($is_optional){push@code,sprintf('if (exists($in{%s})) {',$QUOTE->($name));push@code,sprintf('$tmp = delete($in{%s});',$QUOTE->($name));$varname='$tmp';++$need_to_close_if}else {push@code,sprintf('$tmp = delete($in{%s});',$QUOTE->($name));$varname='$tmp'}if ($constraint->has_coercion){if ($constraint->coercion->can_be_inlined){push@code,sprintf('$tmp = %s;',$constraint->coercion->inline_coercion($varname))}else {$env{'@coerce'}[$arg]=$constraint->coercion->compiled_coercion;push@code,sprintf('$tmp = $coerce[%d]->(%s);',$arg,$varname,)}$varname='$tmp'}if ($constraint->can_be_inlined){push@code,sprintf('(%s) or Type::Tiny::_failed_check(%d, %s, %s, varname => %s);',$constraint->inline_check($varname),$constraint->{uniq},$QUOTE->($constraint),$varname,$is_slurpy ? 'q{$SLURPY}' : sprintf('q{$_{%s}}',$QUOTE->($name)),)}else {$env{'@check'}[$arg]=$constraint->compiled_check;push@code,sprintf('%s or Type::Tiny::_failed_check(%d, %s, %s, varname => %s);',sprintf(sprintf '$check[%d]->(%s)',$arg,$varname),$constraint->{uniq},$QUOTE->($constraint),$varname,$is_slurpy ? 'q{$SLURPY}' : sprintf('q{$_{%s}}',$QUOTE->($name)),)}push@code,sprintf('$R{%s} = %s;',$QUOTE->($name),$varname);push@code,'}' if$need_to_close_if}if (!$had_slurpy){push@code,'keys(%in) and "Error::TypeTiny"->throw(message => sprintf "Unrecognized parameter%s: %s", keys(%in)>1?"s":"", Type::Params::english_list(sort keys %in));'}push@code,'\\%R;';my$source="sub { no warnings; ".join("\n",@code)." };";return$source if$options{want_source};my$closure=eval_closure(source=>$source,description=>sprintf("parameter validation for '%s'",[caller(1+($options{caller_level}||0))]->[3]|| '__ANON__'),environment=>\%env,);return {min_args=>undef,max_args=>undef,closure=>$closure,}if$options{want_details};return$closure}my%compiled;sub validate {my$arr=shift;my$sub=($compiled{join ":",map($_->{uniq}||"\@$_->{slurpy}",@_)}||= compile({caller_level=>1 },@_));@_=@$arr;goto$sub}my%compiled_named;sub validate_named {my$arr=shift;my$sub=($compiled_named{join ":",map(ref($_)?($_->{uniq}||"\@$_->{slurpy}"):$QUOTE->($_),@_)}||= compile_named({caller_level=>1 },@_));@_=@$arr;goto$sub}sub multisig {my%options=(ref($_[0])eq "HASH" &&!$_[0]{slurpy})? %{+shift}: ();my@multi=map {CodeLike->check($_)? {closure=>$_ }: ArrayLike->check($_)? compile({want_details=>1 },@$_): $_}@_;my@code='sub { my $r; ';for my$i (0 .. $#multi){my$flag=sprintf('${^TYPE_PARAMS_MULTISIG} = %d',$i);my$sig=$multi[$i];my@cond;push@cond,sprintf('@_ >= %s',$sig->{min_args})if defined$sig->{min_args};push@cond,sprintf('@_ <= %s',$sig->{max_args})if defined$sig->{max_args};if (defined$sig->{max_args}and defined$sig->{min_args}){@cond=sprintf('@_ == %s',$sig->{min_args})if$sig->{max_args}==$sig->{min_args}}push@code,sprintf('if (%s){',join(' and ',@cond))if@cond;push@code,sprintf('eval { $r = [ $multi[%d]{closure}->(@_) ]; %s };',$i,$flag);push@code,'return(@$r) if $r;';push@code,'}' if@cond}push@code,'"Error::TypeTiny"->throw(message => "Parameter validation failed");';push@code,'}';eval_closure(source=>\@code,description=>sprintf("parameter validation for '%s'",[caller(1+($options{caller_level}||0))]->[3]|| '__ANON__'),environment=>{'@multi'=>\@multi },)}1;
TYPE_PARAMS
$fatpacked{"Type/Parser.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_PARSER';
package Type::Parser;use strict;use warnings;sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';sub TYPE () {"TYPE"};sub QUOTELIKE () {"QUOTELIKE"};sub STRING () {"STRING"};sub CLASS () {"CLASS"};sub L_BRACKET () {"L_BRACKET"};sub R_BRACKET () {"R_BRACKET"};sub COMMA () {"COMMA"};sub SLURPY () {"SLURPY"};sub UNION () {"UNION"};sub INTERSECT () {"INTERSECT"};sub NOT () {"NOT"};sub L_PAREN () {"L_PAREN"};sub R_PAREN () {"R_PAREN"};sub MYSTERY () {"MYSTERY"};our@EXPORT_OK=qw(eval_type _std_eval parse extract_type);require Exporter::Tiny;our@ISA='Exporter::Tiny';Evaluate: {sub parse {my$str=$_[0];my$parser="Type::Parser::AstBuilder"->new(input=>$str);$parser->build;wantarray ? ($parser->ast,$parser->remainder): $parser->ast}sub extract_type {my ($str,$reg)=@_;my ($parsed,$tail)=parse($str);wantarray ? (_eval_type($parsed,$reg),$tail): _eval_type($parsed,$reg)}sub eval_type {my ($str,$reg)=@_;my ($parsed,$tail)=parse($str);_croak("Unexpected tail on type expression: $tail")if$tail =~ /\S/sm;return _eval_type($parsed,$reg)}my$std;sub _std_eval {require Type::Registry;unless ($std){$std="Type::Registry"->new;$std->add_types(-Standard)}eval_type($_[0],$std)}sub _eval_type {my ($node,$reg)=@_;$node=_simplify_expression($node);if ($node->{type}eq "list"){return map _eval_type($_,$reg),@{$node->{list}}}if ($node->{type}eq "union"){return$reg->make_union(map _eval_type($_,$reg),@{$node->{union}})}if ($node->{type}eq "intersect"){return$reg->make_intersection(map _eval_type($_,$reg),@{$node->{intersect}})}if ($node->{type}eq "slurpy"){return +{slurpy=>_eval_type($node->{of},$reg)}}if ($node->{type}eq "complement"){return _eval_type($node->{of},$reg)->complementary_type}if ($node->{type}eq "parameterized"){my$base=_eval_type($node->{base},$reg);return$base unless$base->is_parameterizable || $node->{params};return$base->parameterize($node->{params}? _eval_type($node->{params},$reg): ())}if ($node->{type}eq "primary" and $node->{token}->type eq CLASS){my$class=substr($node->{token}->spelling,0,length($node->{token}->spelling)- 2);return$reg->make_class_type($class)}if ($node->{type}eq "primary" and $node->{token}->type eq QUOTELIKE){return eval($node->{token}->spelling)}if ($node->{type}eq "primary" and $node->{token}->type eq STRING){return$node->{token}->spelling}if ($node->{type}eq "primary" and $node->{token}->type eq TYPE){my$t=$node->{token}->spelling;my$r=($t =~ /^(.+)::(\w+)$/)? $reg->foreign_lookup($t,1): $reg->simple_lookup($t,1);$r or _croak("%s is not a known type constraint",$node->{token}->spelling);return$r}}sub _simplify_expression {my$expr=shift;if ($expr->{type}eq "expression" and $expr->{op}[0]eq COMMA){return _simplify("list",COMMA,$expr)}if ($expr->{type}eq "expression" and $expr->{op}[0]eq UNION){return _simplify("union",UNION,$expr)}if ($expr->{type}eq "expression" and $expr->{op}[0]eq INTERSECT){return _simplify("intersect",INTERSECT,$expr)}return$expr}sub _simplify {my$type=shift;my$op=shift;my@list;for my$expr ($_[0]{lhs},$_[0]{rhs}){if ($expr->{type}eq "expression" and $expr->{op}[0]eq $op){my$simple=_simplify($type,$op,$expr);push@list,@{$simple->{$type}}}else {push@list,$expr}}return {type=>$type,$type=>\@list }}}{package Type::Parser::AstBuilder;sub new {my$class=shift;bless {@_ },$class}our%precedence=(Type::Parser::UNION(),2,Type::Parser::INTERSECT(),3,Type::Parser::NOT(),4,);sub _parse_primary {my$self=shift;my$tokens=$self->{tokens};$tokens->assert_not_empty;if ($tokens->peek(0)->type eq Type::Parser::NOT){$tokens->eat(Type::Parser::NOT);$tokens->assert_not_empty;return {type=>"complement",of=>$self->_parse_primary,}}if ($tokens->peek(0)->type eq Type::Parser::SLURPY){$tokens->eat(Type::Parser::SLURPY);$tokens->assert_not_empty;return {type=>"slurpy",of=>$self->_parse_primary,}}if ($tokens->peek(0)->type eq Type::Parser::L_PAREN){$tokens->eat(Type::Parser::L_PAREN);my$r=$self->_parse_expression;$tokens->eat(Type::Parser::R_PAREN);return$r}if ($tokens->peek(1)and $tokens->peek(0)->type eq Type::Parser::TYPE and $tokens->peek(1)->type eq Type::Parser::L_BRACKET){my$base={type=>"primary",token=>$tokens->eat(Type::Parser::TYPE)};$tokens->eat(Type::Parser::L_BRACKET);$tokens->assert_not_empty;local$precedence{Type::Parser::COMMA()}=1;my$params=undef;if ($tokens->peek(0)->type eq Type::Parser::R_BRACKET){$tokens->eat(Type::Parser::R_BRACKET)}else {$params=$self->_parse_expression;$params={type=>"list",list=>[$params]}unless$params->{type}eq "list";$tokens->eat(Type::Parser::R_BRACKET)}return {type=>"parameterized",base=>$base,params=>$params,}}my$type=$tokens->peek(0)->type;if ($type eq Type::Parser::TYPE or $type eq Type::Parser::QUOTELIKE or $type eq Type::Parser::STRING or $type eq Type::Parser::CLASS){return {type=>"primary",token=>$tokens->eat }}Type::Parser::_croak("Unexpected token in primary type expression; got '%s'",$tokens->peek(0)->spelling)}sub _parse_expression_1 {my$self=shift;my$tokens=$self->{tokens};my ($lhs,$min_p)=@_;while (!$tokens->empty and defined($precedence{$tokens->peek(0)->type})and $precedence{$tokens->peek(0)->type}>= $min_p){my$op=$tokens->eat;my$rhs=$self->_parse_primary;while (!$tokens->empty and defined($precedence{$tokens->peek(0)->type})and $precedence{$tokens->peek(0)->type}> $precedence{$op->type}){my$lookahead=$tokens->peek(0);$rhs=$self->_parse_expression_1($rhs,$precedence{$lookahead->type})}$lhs={type=>"expression",op=>$op,lhs=>$lhs,rhs=>$rhs,}}return$lhs}sub _parse_expression {my$self=shift;my$tokens=$self->{tokens};return$self->_parse_expression_1($self->_parse_primary,0)}sub build {my$self=shift;$self->{tokens}="Type::Parser::TokenStream"->new(remaining=>$self->{input});$self->{ast}=$self->_parse_expression}sub ast {$_[0]{ast}}sub remainder {$_[0]{tokens}->remainder}}{package Type::Parser::Token;sub type {$_[0][0]}sub spelling {$_[0][1]}}{package Type::Parser::TokenStream;use Scalar::Util qw(looks_like_number);sub new {my$class=shift;bless {stack=>[],done=>[],@_ },$class}sub peek {my$self=shift;my$ahead=$_[0];while ($self->_stack_size <= $ahead and length$self->{remaining}){$self->_stack_extend}my@tokens=grep ref,@{$self->{stack}};return$tokens[$ahead]}sub empty {my$self=shift;not $self->peek(0)}sub eat {my$self=shift;$self->_stack_extend unless$self->_stack_size;my$r;while (defined(my$item=shift @{$self->{stack}})){push @{$self->{done}},$item;if (ref$item){$r=$item;last}}if (@_ and $_[0]ne $r->type){unshift @{$self->{stack}},pop @{$self->{done}};Type::Parser::_croak("Expected $_[0]; got ".$r->type)}return$r}sub assert_not_empty {my$self=shift;Type::Parser::_croak("Expected token; got empty string")if$self->empty}sub _stack_size {my$self=shift;scalar grep ref,@{$self->{stack}}}sub _stack_extend {my$self=shift;push @{$self->{stack}},$self->_read_token;my ($space)=($self->{remaining}=~ m/^([\s\n\r]*)/sm);return unless length$space;push @{$self->{stack}},$space;substr($self->{remaining},0,length$space)=""}sub remainder {my$self=shift;return join "",map {ref($_)? $_->spelling : $_}(@{$self->{stack}},$self->{remaining})}my%punctuation=('['=>bless([Type::Parser::L_BRACKET,"[" ],"Type::Parser::Token"),']'=>bless([Type::Parser::R_BRACKET,"]" ],"Type::Parser::Token"),'('=>bless([Type::Parser::L_PAREN,"[" ],"Type::Parser::Token"),')'=>bless([Type::Parser::R_PAREN,"]" ],"Type::Parser::Token"),','=>bless([Type::Parser::COMMA,"," ],"Type::Parser::Token"),'=>'=>bless([Type::Parser::COMMA,"=>" ],"Type::Parser::Token"),'slurpy'=>bless([Type::Parser::SLURPY,"slurpy" ],"Type::Parser::Token"),'|'=>bless([Type::Parser::UNION,"|" ],"Type::Parser::Token"),'&'=>bless([Type::Parser::INTERSECT,"&" ],"Type::Parser::Token"),'~'=>bless([Type::Parser::NOT,"~" ],"Type::Parser::Token"),);sub _read_token {my$self=shift;return if$self->{remaining}eq "";if ($self->{remaining}=~ /^( => | [()\]\[|&~,] )/xsm){my$spelling=$1;substr($self->{remaining},0,length$spelling)="";return$punctuation{$spelling}}if ($self->{remaining}=~ /\A\s*[q'"]/sm){require Text::Balanced;if (my$quotelike=Text::Balanced::extract_quotelike($self->{remaining})){return bless([Type::Parser::QUOTELIKE,$quotelike ],"Type::Parser::Token"),}}if ($self->{remaining}=~ /^([+-]?[\w:.+]+)/sm){my$spelling=$1;substr($self->{remaining},0,length$spelling)="";if ($spelling =~ /::$/sm){return bless([Type::Parser::CLASS,$spelling ],"Type::Parser::Token"),}elsif (looks_like_number($spelling)){return bless([Type::Parser::STRING,$spelling ],"Type::Parser::Token"),}elsif ($self->{remaining}=~ /^\s*=>/sm){return bless([Type::Parser::STRING,$spelling ],"Type::Parser::Token"),}elsif ($spelling eq "slurpy"){return$punctuation{$spelling}}return bless([Type::Parser::TYPE,$spelling ],"Type::Parser::Token")}my$rest=$self->{remaining};$self->{remaining}="";return bless([Type::Parser::MYSTERY,$rest ],"Type::Parser::Token")}}1;
TYPE_PARSER
$fatpacked{"Type/Registry.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_REGISTRY';
package Type::Registry;use 5.006001;use strict;use warnings;BEGIN {$Type::Registry::AUTHORITY='cpan:TOBYINK';$Type::Registry::VERSION='1.002001'}use Exporter::Tiny qw(mkopt);use Scalar::Util qw(refaddr);use Type::Parser qw(eval_type);use Types::TypeTiny qw(CodeLike ArrayLike to_TypeTiny);our@ISA='Exporter::Tiny';our@EXPORT_OK=qw(t);sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}sub _exporter_expand_sub {my$class=shift;my ($name,$value,$globals,$permitted)=@_;if ($name eq "t"){my$caller=$globals->{into};my$reg=$class->for_class(ref($caller)? sprintf('HASH(0x%08X)',refaddr($caller)): $caller);return t=>sub (;$) {@_ ? $reg->lookup(@_): $reg}}return$class->SUPER::_exporter_expand_sub(@_)}sub new {my$class=shift;ref($class)and _croak("Not an object method");bless {},$class}{my%registries;sub for_class {my$class=shift;my ($for)=@_;$registries{$for}||= $class->new}sub for_me {my$class=shift;my$for=caller;$registries{$for}||= $class->new}}sub add_types {my$self=shift;my$opts=mkopt(\@_);for my$opt (@$opts){my ($library,$types)=@_;$library =~ s/^-/Types::/;{local$SIG{__DIE__}=sub {};eval "require $library"};my%hash;if ($library->isa("Type::Library")or $library eq 'Types::TypeTiny'){$types ||= [qw/-types/];ArrayLike->check($types)or _croak("Expected arrayref following '%s'; got %s",$library,$types);$library->import({into=>\%hash},@$types);$hash{$_}=&{$hash{$_}}()for keys%hash}elsif ($library->isa("MooseX::Types::Base")){$types ||= [];ArrayLike->check($types)&& (@$types==0)or _croak("Library '%s' is a MooseX::Types type constraint library. No import options currently supported",$library);require Moose::Util::TypeConstraints;my$moosextypes=$library->type_storage;for my$name (sort keys %$moosextypes){my$tt=to_TypeTiny(Moose::Util::TypeConstraints::find_type_constraint($moosextypes->{$name}));$hash{$name}=$tt}}elsif ($library->isa("MouseX::Types::Base")){$types ||= [];ArrayLike->check($types)&& (@$types==0)or _croak("Library '%s' is a MouseX::Types type constraint library. No import options currently supported",$library);require Mouse::Util::TypeConstraints;my$moosextypes=$library->type_storage;for my$name (sort keys %$moosextypes){my$tt=to_TypeTiny(Mouse::Util::TypeConstraints::find_type_constraint($moosextypes->{$name}));$hash{$name}=$tt}}else {_croak("%s is not a type library",$library)}for my$key (sort keys%hash){exists($self->{$key})and $self->{$key}{uniq}!=$hash{$key}{uniq}and _croak("Duplicate type name: %s",$key);$self->{$key}=$hash{$key}}}$self}sub add_type {my$self=shift;my ($type,$name)=@_;$type=to_TypeTiny($type);$name ||= do {$type->is_anon and _croak("Expected named type constraint; got anonymous type constraint");$type->name};exists($self->{$name})and $self->{$name}{uniq}!=$type->{uniq}and _croak("Duplicate type name: %s",$name);$self->{$name}=$type;$self}sub alias_type {my$self=shift;my ($old,@new)=@_;my$lookup=eval {$self->lookup($old)}or _croak("Expected existing type constraint name; got '$old'");$self->{$_}=$lookup for@new;$self}sub simple_lookup {my$self=shift;my ($tc)=@_;$tc =~ s/(^\s+|\s+$)//g;if (exists$self->{$tc}){return$self->{$tc}}return}sub foreign_lookup {my$self=shift;return $_[1]? (): $self->simple_lookup($_[0],1)unless $_[0]=~ /^(.+)::(\w+)$/;my$library=$1;my$typename=$2;{local$SIG{__DIE__}=sub {};eval "require $library;"};if ($library->isa('MooseX::Types::Base')){require Moose::Util::TypeConstraints;my$type=Moose::Util::TypeConstraints::find_type_constraint($library->get_type($typename))or return;return to_TypeTiny($type)}if ($library->isa('MouseX::Types::Base')){require Mouse::Util::TypeConstraints;my$sub=$library->can($typename)or return;my$type=Mouse::Util::TypeConstraints::find_type_constraint($sub->())or return;return to_TypeTiny($type)}if ($library->can("get_type")){my$type=$library->get_type($typename);return to_TypeTiny($type)}return}sub lookup {my$self=shift;$self->simple_lookup(@_)or eval_type($_[0],$self)}sub make_union {my$self=shift;my (@types)=@_;require Type::Tiny::Union;return "Type::Tiny::Union"->new(type_constraints=>\@types)}sub make_intersection {my$self=shift;my (@types)=@_;require Type::Tiny::Intersection;return "Type::Tiny::Intersection"->new(type_constraints=>\@types)}sub make_class_type {my$self=shift;my ($class)=@_;require Type::Tiny::Class;return "Type::Tiny::Class"->new(class=>$class)}sub make_role_type {my$self=shift;my ($role)=@_;require Type::Tiny::Role;return "Type::Tiny::Role"->new(role=>$role)}sub AUTOLOAD {my$self=shift;my ($method)=(our$AUTOLOAD =~ /(\w+)$/);my$type=$self->simple_lookup($method);return$type if$type;_croak(q[Can't locate object method "%s" via package "%s"],$method,ref($self))}sub DESTROY {return}DELAYED: {our%DELAYED;for my$package (sort keys%DELAYED){my$reg=__PACKAGE__->for_class($package);my$types=$DELAYED{$package};for my$name (sort keys %$types){$reg->add_type($types->{$name},$name)}}}1;
TYPE_REGISTRY
$fatpacked{"Type/Tiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY';
package Type::Tiny;use 5.006001;use strict;use warnings;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Type::Tiny::AUTHORITY='cpan:TOBYINK';$Type::Tiny::VERSION='1.002001';$Type::Tiny::XS_VERSION='0.011'}use Eval::TypeTiny ();use Scalar::Util qw(blessed weaken refaddr isweak);use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}sub _swap {$_[2]? @_[1,0]: @_[0,1]}BEGIN {($] < 5.010001)? eval q{ sub SUPPORT_SMARTMATCH () { !!0 } } : eval q{ sub SUPPORT_SMARTMATCH () { !!1 } };($] >= 5.014)? eval q{ sub _FIXED_PRECEDENCE () { !!1 } } : eval q{ sub _FIXED_PRECEDENCE () { !!0 } }};BEGIN {my$try_xs=exists($ENV{PERL_TYPE_TINY_XS})?!!$ENV{PERL_TYPE_TINY_XS}: exists($ENV{PERL_ONLY})?!$ENV{PERL_ONLY}: 1;my$use_xs=0;$try_xs and eval {require Type::Tiny::XS;'Type::Tiny::XS'->VERSION($Type::Tiny::XS_VERSION);$use_xs++};*_USE_XS=$use_xs ? sub () {!!1}: sub () {!!0};*_USE_MOUSE=$try_xs ? sub () {$INC{'Mouse/Util.pm'}and Mouse::Util::MOUSE_XS()}: sub () {!!0}};sub __warn__ {my ($msg,$thing)=@_==2 ? @_ : (Thing=>@_);my$string=do {blessed($thing)&& $thing->isa('Type::Tiny::Union')? sprintf('Union[%s]',join q{, },map $_->name,@{$thing->type_constraints}): blessed($thing)&& $thing->isa('Type::Tiny')? $thing->name : blessed($thing)&& $thing->isa('Type::Tiny::_HalfOp')? sprintf('HalfOp[ q{%s}, %s, %s ]',$thing->{op},$thing->{type}->name,$thing->{param}): !defined($thing)? 'NIL' : "$thing"};warn "$msg => $string\n";$thing}use overload q("")=>sub {caller =~ m{^(Moo::HandleMoose|Sub::Quote)} ? overload::StrVal($_[0]): $_[0]->display_name},q(bool)=>sub {1},q(&{})=>"_overload_coderef",q(|)=>sub {my@tc=_swap @_;if (!_FIXED_PRECEDENCE && $_[2]){if (blessed$tc[0]){if (blessed$tc[0]eq "Type::Tiny::_HalfOp"){my$type=$tc[0]->{type};my$param=$tc[0]->{param};my$op=$tc[0]->{op};require Type::Tiny::Union;return "Type::Tiny::_HalfOp"->new($op,$param,"Type::Tiny::Union"->new(type_constraints=>[$type,$tc[1]]),)}}elsif (ref$tc[0]eq 'ARRAY'){require Type::Tiny::_HalfOp;return "Type::Tiny::_HalfOp"->new('|',@tc)}}require Type::Tiny::Union;return "Type::Tiny::Union"->new(type_constraints=>\@tc)},q(&)=>sub {my@tc=_swap @_;if (!_FIXED_PRECEDENCE && $_[2]){if (blessed$tc[0]){if (blessed$tc[0]eq "Type::Tiny::_HalfOp"){my$type=$tc[0]->{type};my$param=$tc[0]->{param};my$op=$tc[0]->{op};require Type::Tiny::Intersection;return "Type::Tiny::_HalfOp"->new($op,$param,"Type::Tiny::Intersection"->new(type_constraints=>[$type,$tc[1]]),)}}elsif (ref$tc[0]eq 'ARRAY'){require Type::Tiny::_HalfOp;return "Type::Tiny::_HalfOp"->new('&',@tc)}}require Type::Tiny::Intersection;"Type::Tiny::Intersection"->new(type_constraints=>\@tc)},q(~)=>sub {shift->complementary_type},q(==)=>sub {$_[0]->equals($_[1])},q(!=)=>sub {not $_[0]->equals($_[1])},q(<)=>sub {my$m=$_[0]->can('is_subtype_of');$m->(_swap @_)},q(>)=>sub {my$m=$_[0]->can('is_subtype_of');$m->(reverse _swap @_)},q(<=)=>sub {my$m=$_[0]->can('is_a_type_of');$m->(_swap @_)},q(>=)=>sub {my$m=$_[0]->can('is_a_type_of');$m->(reverse _swap @_)},q(eq)=>sub {"$_[0]" eq "$_[1]"},q(cmp)=>sub {$_[2]? ("$_[1]" cmp "$_[0]"): ("$_[0]" cmp "$_[1]")},fallback=>1,;BEGIN {overload->import(q(~~)=>sub {$_[0]->check($_[1])},fallback=>1,)if Type::Tiny::SUPPORT_SMARTMATCH}sub _overload_coderef {my$self=shift;$self->message unless exists$self->{message};if (!exists($self->{message})&& exists(&Sub::Quote::quote_sub)&& $self->can_be_inlined){$self->{_overload_coderef}=Sub::Quote::quote_sub($self->inline_assert('$_[0]'))if!$self->{_overload_coderef}||!$self->{_sub_quoted}++}else {$self->{_overload_coderef}||= sub {$self->assert_return(@_)}}$self->{_overload_coderef}}our%ALL_TYPES;my$QFS;my$uniq=1;my$subname;sub new {my$class=shift;my%params=(@_==1)? %{$_[0]}: @_;if (exists$params{constraint}and not ref$params{constraint}and not exists$params{constraint_generator}and not exists$params{inline_generator}){my$code=$params{constraint};$params{constraint}=Eval::TypeTiny::eval_closure(source=>sprintf('sub ($) { %s }',$code),description=>"anonymous check",);$params{inlined}||= sub {my ($type)=@_;my$inlined=$_ eq '$_' ? "do { $code }" : "do { local \$_ = $_; $code }";$type->has_parent ? (undef,$inlined): $inlined}}if (exists$params{parent}){$params{parent}=ref($params{parent})=~ /^Type::Tiny\b/ ? $params{parent}: Types::TypeTiny::to_TypeTiny($params{parent});_croak "Parent must be an instance of %s",__PACKAGE__ unless blessed($params{parent})&& $params{parent}->isa(__PACKAGE__)}$params{name}="__ANON__" unless exists$params{name};$params{uniq}=$uniq++;if ($params{name}ne "__ANON__"){$params{name}=~ /^_{0,2}[A-Z][A-Za-z0-9_]+$/sm or eval q( use 5.008; $params{name} =~ /^_{0,2}\p{Lu}[\p{L}0-9_]+$/sm ) or _croak '"%s" is not a valid type name',$params{name}}if (exists$params{coercion}and!ref$params{coercion}and $params{coercion}){$params{parent}->has_coercion or _croak "coercion => 1 requires type to have a direct parent with a coercion";$params{coercion}=$params{parent}->coercion->type_coercion_map}if (!exists$params{inlined}and exists$params{constraint}and (!exists$params{parent}or $params{parent}->can_be_inlined)and $QFS ||= "Sub::Quote"->can("quoted_from_sub")){my (undef,$perlstring,$captures)=@{$QFS->($params{constraint})|| []};$params{inlined}=sub {my ($self,$var)=@_;my$code=Sub::Quote::inlinify($perlstring,$var,$var eq q($_) ? '' : "local \$_ = $var;",1,);$code=sprintf('%s and %s',$self->parent->inline_check($var),$code)if$self->has_parent;return$code}if$perlstring &&!$captures}my$self=bless \%params,$class;unless ($params{tmp}){my$uniq=$self->{uniq};$ALL_TYPES{$uniq}=$self;weaken($ALL_TYPES{$uniq});package Moo::HandleMoose;my$tmp=$self;Scalar::Util::weaken($tmp);$Moo::HandleMoose::TYPE_MAP{$self}=sub {$tmp}}if (ref($params{coercion})eq q(CODE)){require Types::Standard;my$code=delete($params{coercion});$self->{coercion}=$self->_build_coercion;$self->coercion->add_type_coercions(Types::Standard::Any(),$code)}elsif (ref($params{coercion})eq q(ARRAY)){my$arr=delete($params{coercion});$self->{coercion}=$self->_build_coercion;$self->coercion->add_type_coercions(@$arr)}if ($params{my_methods}){$subname=eval {require Sub::Util}? \&Sub::Util::set_subname : eval {require Sub::Name}? \&Sub::Name::subname : 0 if not defined$subname;if ($subname){$subname->(sprintf("%s::my_%s",$self->qualified_name,$_),$params{my_methods}{$_},)for keys %{$params{my_methods}}}}return$self}sub DESTROY {my$self=shift;delete($ALL_TYPES{$self->{uniq}});package Moo::HandleMoose;delete($Moo::HandleMoose::TYPE_MAP{$self});return}sub _clone {my$self=shift;my%opts;$opts{$_}=$self->{$_}for qw<name display_name message>;$self->create_child_type(%opts)}our$DD;sub _dd {@_=$_ unless @_;my ($value)=@_;goto$DD if ref($DD)eq q(CODE);require B;!defined$value ? 'Undef' : !ref$value ? sprintf('Value %s',B::perlstring($value)): do {my$N=0 + (defined($DD)? $DD : 72);require Data::Dumper;local$Data::Dumper::Indent=0;local$Data::Dumper::Useqq=1;local$Data::Dumper::Terse=1;local$Data::Dumper::Sortkeys=1;local$Data::Dumper::Maxdepth=2;my$str=Data::Dumper::Dumper($value);$str=substr($str,0,$N - 12).'...'.substr($str,-1,1)if length($str)>= $N;"Reference $str"}}sub _loose_to_TypeTiny {map +(ref($_)? Types::TypeTiny::to_TypeTiny($_): do {require Type::Utils;Type::Utils::dwim_type($_)}),@_}sub name {$_[0]{name}}sub display_name {$_[0]{display_name}||= $_[0]->_build_display_name}sub parent {$_[0]{parent}}sub constraint {$_[0]{constraint}||= $_[0]->_build_constraint}sub compiled_check {$_[0]{compiled_type_constraint}||= $_[0]->_build_compiled_check}sub coercion {$_[0]{coercion}||= $_[0]->_build_coercion}sub message {$_[0]{message}}sub library {$_[0]{library}}sub inlined {$_[0]{inlined}}sub constraint_generator {$_[0]{constraint_generator}}sub inline_generator {$_[0]{inline_generator}}sub name_generator {$_[0]{name_generator}||= $_[0]->_build_name_generator}sub coercion_generator {$_[0]{coercion_generator}}sub parameters {$_[0]{parameters}}sub moose_type {$_[0]{moose_type}||= $_[0]->_build_moose_type}sub mouse_type {$_[0]{mouse_type}||= $_[0]->_build_mouse_type}sub deep_explanation {$_[0]{deep_explanation}}sub my_methods {$_[0]{my_methods}||= $_[0]->_build_my_methods}sub has_parent {exists $_[0]{parent}}sub has_library {exists $_[0]{library}}sub has_coercion {$_[0]{coercion}and!!@{$_[0]{coercion}->type_coercion_map}}sub has_inlined {exists $_[0]{inlined}}sub has_constraint_generator {exists $_[0]{constraint_generator}}sub has_inline_generator {exists $_[0]{inline_generator}}sub has_coercion_generator {exists $_[0]{coercion_generator}}sub has_parameters {exists $_[0]{parameters}}sub has_message {defined $_[0]{message}}sub has_deep_explanation {exists $_[0]{deep_explanation}}sub _default_message {$_[0]{_default_message}||= $_[0]->_build_default_message}sub _assert_coercion {my$self=shift;_croak "No coercion for this type constraint" unless$self->has_coercion && @{$self->coercion->type_coercion_map};return$self->coercion}my$null_constraint=sub {!!1};sub _build_display_name {shift->name}sub _build_constraint {return$null_constraint}sub _is_null_constraint {shift->constraint==$null_constraint}sub _build_coercion {require Type::Coercion;my$self=shift;my%opts=(type_constraint=>$self);$opts{display_name}="to_$self" unless$self->is_anon;return "Type::Coercion"->new(%opts)}sub _build_default_message {my$self=shift;return sub {sprintf '%s did not pass type constraint',_dd($_[0])}if "$self" eq "__ANON__";my$name="$self";return sub {sprintf '%s did not pass type constraint "%s"',_dd($_[0]),$name}}sub _build_name_generator {my$self=shift;return sub {my ($s,@a)=@_;sprintf('%s[%s]',$s,join q[,],@a)}}sub _build_compiled_check {my$self=shift;if ($self->_is_null_constraint and $self->has_parent){return$self->parent->compiled_check}return Eval::TypeTiny::eval_closure(source=>sprintf('sub ($) { %s }',$self->inline_check('$_[0]')),description=>sprintf("compiled check '%s'",$self),)if$self->can_be_inlined;my@constraints;push@constraints,$self->parent->compiled_check if$self->has_parent;push@constraints,$self->constraint if!$self->_is_null_constraint;return$null_constraint unless@constraints;return sub ($) {local $_=$_[0];for my$c (@constraints){return unless$c->(@_)}return!!1}}sub equals {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return!!1 if refaddr($self)==refaddr($other);return!!1 if$self->has_parent && $self->_is_null_constraint && $self->parent==$other;return!!1 if$other->has_parent && $other->_is_null_constraint && $other->parent==$self;return!!1 if refaddr($self->compiled_check)==refaddr($other->compiled_check);return$self->qualified_name eq $other->qualified_name if$self->has_library &&!$self->is_anon && $other->has_library &&!$other->is_anon;return$self->inline_check('$x')eq $other->inline_check('$x')if$self->can_be_inlined && $other->can_be_inlined;return}sub is_subtype_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return unless$self->has_parent;$self->parent->equals($other)or $self->parent->is_subtype_of($other)}sub is_supertype_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");$other->is_subtype_of($self)}sub is_a_type_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");$self->equals($other)or $self->is_subtype_of($other)}sub strictly_equals {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");$self->{uniq}==$other->{uniq}}sub is_strictly_subtype_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return unless$self->has_parent;$self->parent->strictly_equals($other)or $self->parent->is_strictly_subtype_of($other)}sub is_strictly_supertype_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");$other->is_strictly_subtype_of($self)}sub is_strictly_a_type_of {my ($self,$other)=_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");$self->strictly_equals($other)or $self->is_strictly_subtype_of($other)}sub qualified_name {my$self=shift;(exists$self->{library}and $self->name ne "__ANON__")? "$self->{library}::$self->{name}" : $self->{name}}sub is_anon {my$self=shift;$self->name eq "__ANON__"}sub parents {my$self=shift;return unless$self->has_parent;return ($self->parent,$self->parent->parents)}sub find_parent {my$self=shift;my ($test)=@_;local ($_,$.);my$type=$self;my$count=0;while ($type){if ($test->($_=$type,$.=$count)){return wantarray ? ($type,$count): $type}else {$type=$type->parent;$count++}}return}sub check {my$self=shift;($self->{compiled_type_constraint}||= $self->_build_compiled_check)->(@_)}sub _strict_check {my$self=shift;local $_=$_[0];my@constraints=reverse map {$_->constraint}grep {not $_->_is_null_constraint}($self,$self->parents);for my$c (@constraints){return unless$c->(@_)}return!!1}sub get_message {my$self=shift;local $_=$_[0];$self->has_message ? $self->message->(@_): $self->_default_message->(@_)}sub validate {my$self=shift;return undef if ($self->{compiled_type_constraint}||= $self->_build_compiled_check)->(@_);local $_=$_[0];return$self->get_message(@_)}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);if ($self->has_parent){my$parent=$self->parent->validate_explain($value,$varname);return [sprintf('"%s" is a subtype of "%s"',$self,$self->parent),@$parent ]if$parent}my$message=sprintf('%s%s',$self->get_message($value),$varname eq q{$_} ? '' : sprintf(' (in %s)',$varname),);if ($self->is_parameterized and $self->parent->has_deep_explanation){my$deep=$self->parent->deep_explanation->($self,$value,$varname);return [$message,@$deep ]if$deep}return [$message,sprintf('"%s" is defined as: %s',$self,$self->_perlcode)]}my$b;sub _perlcode {my$self=shift;return$self->inline_check('$_')if$self->can_be_inlined;$b ||= do {require B::Deparse;my$tmp="B::Deparse"->new;$tmp->ambient_pragmas(strict=>"all",warnings=>"all")if$tmp->can('ambient_pragmas');$tmp};my$code=$b->coderef2text($self->constraint);$code =~ s/\s+/ /g;return "sub $code"}sub assert_valid {my$self=shift;return!!1 if ($self->{compiled_type_constraint}||= $self->_build_compiled_check)->(@_);local $_=$_[0];$self->_failed_check("$self",$_)}sub assert_return {my$self=shift;return $_[0]if ($self->{compiled_type_constraint}||= $self->_build_compiled_check)->(@_);local $_=$_[0];$self->_failed_check("$self",$_)}sub can_be_inlined {my$self=shift;return$self->parent->can_be_inlined if$self->has_parent && $self->_is_null_constraint;return!!1 if!$self->has_parent && $self->_is_null_constraint;return$self->has_inlined}sub inline_check {my$self=shift;_croak 'Cannot inline type constraint check for "%s"',$self unless$self->can_be_inlined;return$self->parent->inline_check(@_)if$self->has_parent && $self->_is_null_constraint;return '(!!1)' if!$self->has_parent && $self->_is_null_constraint;local $_=$_[0];my@r=$self->inlined->($self,@_);if (@r and not defined$r[0]){_croak 'Inlining type constraint check for "%s" returned undef!',$self unless$self->has_parent;$r[0]=$self->parent->inline_check(@_)}my$r=join " && "=>map {/[;{}]/ ? "do { $_ }" : "($_)"}@r;return@r==1 ? $r : "($r)"}sub inline_assert {require B;my$self=shift;my$varname=$_[0];my$code=sprintf(q[do { no warnings "void"; %s ? %s : Type::Tiny::_failed_check(%d, %s, %s) };],$self->inline_check(@_),$varname,$self->{uniq},B::perlstring("$self"),$varname,);return$code}sub _failed_check {require Error::TypeTiny::Assertion;my ($self,$name,$value,%attrs)=@_;$self=$ALL_TYPES{$self}unless ref$self;my$exception_class=delete($attrs{exception_class})|| "Error::TypeTiny::Assertion";if ($self){$exception_class->throw(message=>$self->get_message($value),type=>$self,value=>$value,%attrs,)}else {$exception_class->throw(message=>sprintf('%s did not pass type constraint "%s"',_dd($value),$name),value=>$value,%attrs,)}}sub coerce {my$self=shift;$self->_assert_coercion->coerce(@_)}sub assert_coerce {my$self=shift;$self->_assert_coercion->assert_coerce(@_)}sub is_parameterizable {shift->has_constraint_generator}sub is_parameterized {shift->has_parameters}my%param_cache;sub parameterize {my$self=shift;$self->is_parameterizable or @_ ? _croak("Type '%s' does not accept parameters","$self"): return($self);@_=map Types::TypeTiny::to_TypeTiny($_),@_;my$key;if (not grep(ref($_)&&!Types::TypeTiny::TypeTiny->check($_),@_)){require B;$key=join ":",map(Types::TypeTiny::TypeTiny->check($_)? $_->{uniq}: B::perlstring($_),$self,@_)}return$param_cache{$key}if defined$key && defined$param_cache{$key};local$Type::Tiny::parameterize_type=$self;local $_=$_[0];my$P;my ($constraint,$compiled)=$self->constraint_generator->(@_);if (Types::TypeTiny::TypeTiny->check($constraint)){$P=$constraint}else {my%options=(constraint=>$constraint,display_name=>$self->name_generator->($self,@_),parameters=>[@_],);$options{compiled_type_constraint}=$compiled if$compiled;$options{inlined}=$self->inline_generator->(@_)if$self->has_inline_generator;exists$options{$_}&&!defined$options{$_}&& delete$options{$_}for keys%options;$P=$self->create_child_type(%options);my$coercion;$coercion=$self->coercion_generator->($self,$P,@_)if$self->has_coercion_generator;$P->coercion->add_type_coercions(@{$coercion->type_coercion_map})if$coercion}if (defined$key){$param_cache{$key}=$P;weaken($param_cache{$key})}$P->coercion->freeze;return$P}sub child_type_class {__PACKAGE__}sub create_child_type {my$self=shift;return$self->child_type_class->new(parent=>$self,@_)}sub complementary_type {my$self=shift;my$r=($self->{complementary_type}||= $self->_build_complementary_type);weaken($self->{complementary_type})unless isweak($self->{complementary_type});return$r}sub _build_complementary_type {my$self=shift;my%opts=(constraint=>sub {not $self->check($_)},display_name=>sprintf("~%s",$self),);$opts{display_name}=~ s/^\~{2}//;$opts{inlined}=sub {shift;"not(".$self->inline_check(@_).")"}if$self->can_be_inlined;return "Type::Tiny"->new(%opts)}sub _instantiate_moose_type {my$self=shift;my%opts=@_;require Moose::Meta::TypeConstraint;return "Moose::Meta::TypeConstraint"->new(%opts)}sub _build_moose_type {my$self=shift;my$r;if ($self->{_is_core}){require Moose::Util::TypeConstraints;$r=Moose::Util::TypeConstraints::find_type_constraint($self->name);$r->{"Types::TypeTiny::to_TypeTiny"}=$self;Scalar::Util::weaken($r->{"Types::TypeTiny::to_TypeTiny"})}else {my$wrapped_inlined=sub {shift;$self->inline_check(@_)};my%opts;$opts{name}=$self->qualified_name if$self->has_library &&!$self->is_anon;$opts{parent}=$self->parent->moose_type if$self->has_parent;$opts{constraint}=$self->constraint unless$self->_is_null_constraint;$opts{message}=$self->message if$self->has_message;$opts{inlined}=$wrapped_inlined if$self->has_inlined;$r=$self->_instantiate_moose_type(%opts);$r->{"Types::TypeTiny::to_TypeTiny"}=$self;$self->{moose_type}=$r;$r->coercion($self->coercion->moose_coercion)if$self->has_coercion}return$r}sub _build_mouse_type {my$self=shift;my%options;$options{name}=$self->qualified_name if$self->has_library &&!$self->is_anon;$options{parent}=$self->parent->mouse_type if$self->has_parent;$options{constraint}=$self->constraint unless$self->_is_null_constraint;$options{message}=$self->message if$self->has_message;require Mouse::Meta::TypeConstraint;my$r="Mouse::Meta::TypeConstraint"->new(%options);$self->{mouse_type}=$r;$r->_add_type_coercions($self->coercion->freeze->_codelike_type_coercion_map('mouse_type'))if$self->has_coercion;return$r}sub _process_coercion_list {my$self=shift;my@pairs;while (@_){my$next=shift;if (blessed($next)and $next->isa('Type::Coercion')and $next->is_parameterized){push@pairs=>(@{$next->_reparameterize($self)->type_coercion_map})}elsif (blessed($next)and $next->can('type_coercion_map')){push@pairs=>(@{$next->type_coercion_map},)}elsif (ref($next)eq q(ARRAY)){unshift @_,@$next}else {push@pairs=>(Types::TypeTiny::to_TypeTiny($next),shift,)}}return@pairs}sub plus_coercions {my$self=shift;my$new=$self->_clone;$new->coercion->add_type_coercions($self->_process_coercion_list(@_),@{$self->coercion->type_coercion_map},);$new->coercion->freeze;return$new}sub plus_fallback_coercions {my$self=shift;my$new=$self->_clone;$new->coercion->add_type_coercions(@{$self->coercion->type_coercion_map},$self->_process_coercion_list(@_),);$new->coercion->freeze;return$new}sub minus_coercions {my$self=shift;my$new=$self->_clone;my@not=grep Types::TypeTiny::TypeTiny->check($_),$self->_process_coercion_list($new,@_);my@keep;my$c=$self->coercion->type_coercion_map;for (my$i=0;$i <= $#$c;$i += 2){my$keep_this=1;NOT: for my$n (@not){if ($c->[$i]==$n){$keep_this=0;last NOT}}push@keep,$c->[$i],$c->[$i+1]if$keep_this}$new->coercion->add_type_coercions(@keep);$new->coercion->freeze;return$new}sub no_coercions {my$new=shift->_clone;$new->coercion->freeze;$new}sub coercibles {my$self=shift;$self->has_coercion ? $self->coercion->_source_type_union : $self}sub isa {my$self=shift;if ($INC{"Moose.pm"}and ref($self)and $_[0]=~ /^(?:Class::MOP|MooseX?::Meta)::(.+)$/){my$meta=$1;return!!1 if$meta eq 'TypeConstraint';return$self->is_parameterized if$meta eq 'TypeConstraint::Parameterized';return$self->is_parameterizable if$meta eq 'TypeConstraint::Parameterizable';return$self->isa('Type::Tiny::Union')if$meta eq 'TypeConstraint::Union';my$inflate=$self->moose_type;return$inflate->isa(@_)}if ($INC{"Mouse.pm"}and ref($self)and $_[0]eq 'Mouse::Meta::TypeConstraint'){return!!1}$self->SUPER::isa(@_)}sub _build_my_methods {return {}}sub _lookup_my_method {my$self=shift;my ($name)=@_;if ($self->my_methods->{$name}){return$self->my_methods->{$name}}if ($self->has_parent){return$self->parent->_lookup_my_method(@_)}return}sub can {my$self=shift;return!!0 if $_[0]eq 'type_parameter' && blessed($_[0])&& $_[0]->has_parameters;my$can=$self->SUPER::can(@_);return$can if$can;if (ref($self)){if ($INC{"Moose.pm"}){my$method=$self->moose_type->can(@_);return sub {shift->moose_type->$method(@_)}if$method}if ($_[0]=~ /\Amy_(.+)\z/){my$method=$self->_lookup_my_method($1);return$method if$method}}return}sub AUTOLOAD {my$self=shift;my ($m)=(our$AUTOLOAD =~ /::(\w+)$/);return if$m eq 'DESTROY';if (ref($self)){if ($INC{"Moose.pm"}){my$method=$self->moose_type->can($m);return$self->moose_type->$method(@_)if$method}if ($m =~ /\Amy_(.+)\z/){my$method=$self->_lookup_my_method($1);return$self->$method(@_)if$method}}_croak q[Can't locate object method "%s" via package "%s"],$m,ref($self)||$self}sub DOES {my$self=shift;return!!1 if ref($self)&& $_[0]=~ m{^ Type::API::Constraint (?: ::Coercible | ::Inlinable )? $}x;return!!1 if!ref($self)&& $_[0]eq 'Type::API::Constraint::Constructor';"UNIVERSAL"->can("DOES")? $self->SUPER::DOES(@_): $self->isa(@_)}sub _has_xsub {require B;!!B::svref_2object(shift->compiled_check)->XSUB}sub of {shift->parameterize(@_)}sub where {shift->create_child_type(constraint=>@_)}sub inline_environment {+{}}sub _inline_check {shift->inline_check(@_)}sub _compiled_type_constraint {shift->compiled_check(@_)}sub meta {_croak("Not really a Moose::Meta::TypeConstraint. Sorry!")}sub compile_type_constraint {shift->compiled_check}sub _actually_compile_type_constraint {shift->_build_compiled_check}sub hand_optimized_type_constraint {shift->{hand_optimized_type_constraint}}sub has_hand_optimized_type_constraint {exists(shift->{hand_optimized_type_constraint})}sub type_parameter {(shift->parameters || [])->[0]}sub __is_parameterized {shift->is_parameterized(@_)}sub _add_type_coercions {shift->coercion->add_type_coercions(@_)};sub _as_string {shift->qualified_name(@_)}sub _compiled_type_coercion {shift->coercion->compiled_coercion(@_)};sub _identity {refaddr(shift)};sub _unite {require Type::Tiny::Union;"Type::Tiny::Union"->new(type_constraints=>\@_)};sub TIESCALAR {require Type::Tie;unshift @_,'Type::Tie::SCALAR';goto \&Type::Tie::SCALAR::TIESCALAR};sub TIEARRAY {require Type::Tie;unshift @_,'Type::Tie::ARRAY';goto \&Type::Tie::ARRAY::TIEARRAY};sub TIEHASH {require Type::Tie;unshift @_,'Type::Tie::HASH';goto \&Type::Tie::HASH::TIEHASH};1;
TYPE_TINY
$fatpacked{"Type/Tiny/Class.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_CLASS';
package Type::Tiny::Class;use 5.006001;use strict;use warnings;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Type::Tiny::Class::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Class::VERSION='1.002001'}use Scalar::Util qw<blessed>;sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use Type::Tiny ();our@ISA='Type::Tiny';sub new {my$proto=shift;return$proto->class->new(@_)if blessed$proto;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Class type constraints cannot have a parent constraint passed to the constructor" if exists$opts{parent};_croak "Class type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Class type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply class name" unless exists$opts{class};if (Type::Tiny::_USE_XS){my$xsub=Type::Tiny::XS::get_coderef_for("InstanceOf[".$opts{class}."]");$opts{compiled_type_constraint}=$xsub if$xsub}elsif (Type::Tiny::_USE_MOUSE){require Mouse::Util::TypeConstraints;my$maker="Mouse::Util::TypeConstraints"->can("generate_isa_predicate_for");$opts{compiled_type_constraint}=$maker->($opts{class})if$maker}return$proto->SUPER::new(%opts)}sub class {$_[0]{class}}sub inlined {$_[0]{inlined}||= $_[0]->_build_inlined}sub has_inlined {!!1}sub _build_constraint {my$self=shift;my$class=$self->class;return sub {blessed($_)and $_->isa($class)}}sub _build_inlined {my$self=shift;my$class=$self->class;if (Type::Tiny::_USE_XS){my$xsub=Type::Tiny::XS::get_subname_for("InstanceOf[$class]");return sub {my$var=$_[1];"$xsub\($var\)"}if$xsub}sub {my$var=$_[1];qq{Scalar::Util::blessed($var) and $var->isa(q[$class])}}}sub _build_default_message {no warnings 'uninitialized';my$self=shift;my$c=$self->class;return sub {sprintf '%s did not pass type constraint (not isa %s)',Type::Tiny::_dd($_[0]),$c}if$self->is_anon;my$name="$self";return sub {sprintf '%s did not pass type constraint "%s" (not isa %s)',Type::Tiny::_dd($_[0]),$name,$c}}sub _instantiate_moose_type {my$self=shift;my%opts=@_;delete$opts{parent};delete$opts{constraint};delete$opts{inlined};require Moose::Meta::TypeConstraint::Class;return "Moose::Meta::TypeConstraint::Class"->new(%opts,class=>$self->class)}sub plus_constructors {my$self=shift;unless (@_){require Types::Standard;push @_,Types::Standard::HashRef(),"new"}require B;require Types::TypeTiny;my$class=B::perlstring($self->class);my@r;while (@_){my$source=shift;Types::TypeTiny::TypeTiny->check($source)or _croak "Expected type constraint; got $source";my$constructor=shift;Types::TypeTiny::StringLike->check($constructor)or _croak "Expected string; got $constructor";push@r,$source,sprintf('%s->%s($_)',$class,$constructor)}return$self->plus_coercions(\@r)}sub has_parent {!!1}sub parent {$_[0]{parent}||= $_[0]->_build_parent}sub _build_parent {my$self=shift;my$class=$self->class;my@isa=grep$class->isa($_),do {no strict "refs";no warnings;@{"$class\::ISA"}};if (@isa==0){require Types::Standard;return Types::Standard::Object()}if (@isa==1){return ref($self)->new(class=>$isa[0])}require Type::Tiny::Intersection;"Type::Tiny::Intersection"->new(type_constraints=>[map ref($self)->new(class=>$_),@isa ],)}*__get_linear_isa_dfs=eval {require mro}? \&mro::get_linear_isa : sub {no strict 'refs';my$classname=shift;my@lin=($classname);my%stored;for my$parent (@{"$classname\::ISA"}){my$plin=__get_linear_isa_dfs($parent);for (@$plin){next if exists$stored{$_};push(@lin,$_);$stored{$_}=1}}return \@lin};sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);return ["Not a blessed reference"]unless blessed($value);my@isa=@{__get_linear_isa_dfs(ref$value)};my$display_var=$varname eq q{$_} ? '' : sprintf(' (in %s)',$varname);require Type::Utils;return [sprintf('"%s" requires that the reference isa %s',$self,$self->class),sprintf('The reference%s isa %s',$display_var,Type::Utils::english_list(@isa)),]}1;
TYPE_TINY_CLASS
$fatpacked{"Type/Tiny/Duck.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_DUCK';
package Type::Tiny::Duck;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::Duck::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Duck::VERSION='1.002001'}use Scalar::Util qw<blessed>;sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use Type::Tiny ();our@ISA='Type::Tiny';sub new {my$proto=shift;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Duck type constraints cannot have a parent constraint passed to the constructor" if exists$opts{parent};_croak "Duck type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Duck type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply list of methods" unless exists$opts{methods};$opts{methods}=[$opts{methods}]unless ref$opts{methods};if (Type::Tiny::_USE_XS){my$methods=join ",",sort(@{$opts{methods}});my$xsub=Type::Tiny::XS::get_coderef_for("HasMethods[$methods]");$opts{compiled_type_constraint}=$xsub if$xsub}elsif (Type::Tiny::_USE_MOUSE){require Mouse::Util::TypeConstraints;my$maker="Mouse::Util::TypeConstraints"->can("generate_can_predicate_for");$opts{compiled_type_constraint}=$maker->($opts{methods})if$maker}return$proto->SUPER::new(%opts)}sub methods {$_[0]{methods}}sub inlined {$_[0]{inlined}||= $_[0]->_build_inlined}sub has_inlined {!!1}sub _build_constraint {my$self=shift;my@methods=@{$self->methods};return sub {blessed($_[0])and not grep(!$_[0]->can($_),@methods)}}sub _build_inlined {my$self=shift;my@methods=@{$self->methods};if (Type::Tiny::_USE_XS){my$methods=join ",",sort(@{$self->methods});my$xsub=Type::Tiny::XS::get_subname_for("HasMethods[$methods]");return sub {my$var=$_[1];"$xsub\($var\)"}if$xsub}sub {my$var=$_[1];local $"=q{ };($var =~ /\$_/)? qq{ Scalar::Util::blessed($var) and not do { my \$tmp = $var; grep(!\$tmp->can(\$_), qw/@methods/) } } : qq{ Scalar::Util::blessed($var) and not grep(!$var->can(\$_), qw/@methods/) }}}sub _instantiate_moose_type {my$self=shift;my%opts=@_;delete$opts{parent};delete$opts{constraint};delete$opts{inlined};require Moose::Meta::TypeConstraint::DuckType;return "Moose::Meta::TypeConstraint::DuckType"->new(%opts,methods=>$self->methods)}sub has_parent {!!1}sub parent {require Types::Standard;Types::Standard::Object()}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);return ["Not a blessed reference"]unless blessed($value);require Type::Utils;return [sprintf('"%s" requires that the reference can %s',$self,Type::Utils::english_list(map qq["$_"],@{$self->methods}),),map sprintf('The reference cannot "%s"',$_),grep!$value->can($_),@{$self->methods}]}1;
TYPE_TINY_DUCK
$fatpacked{"Type/Tiny/Enum.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_ENUM';
package Type::Tiny::Enum;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::Enum::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Enum::VERSION='1.002001'}sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use overload q[@{}]=>'values';use Type::Tiny ();our@ISA='Type::Tiny';sub new {my$proto=shift;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Enum type constraints cannot have a parent constraint passed to the constructor" if exists$opts{parent};_croak "Enum type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Enum type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply list of values" unless exists$opts{values};my%tmp=map {$_=>1}@{ref$opts{values}eq "ARRAY" ? $opts{values}: [$opts{values}]};$opts{values}=[sort keys%tmp];if (Type::Tiny::_USE_XS and not grep /[^-\w]/,@{$opts{values}}){my$enum=join ",",@{$opts{values}};my$xsub=Type::Tiny::XS::get_coderef_for("Enum[$enum]");$opts{compiled_type_constraint}=$xsub if$xsub}return$proto->SUPER::new(%opts)}sub values {$_[0]{values}}sub constraint {$_[0]{constraint}||= $_[0]->_build_constraint}sub _build_display_name {my$self=shift;sprintf("Enum[%s]",join q[,],@$self)}sub _build_constraint {my$self=shift;my$regexp=join "|",map quotemeta,@$self;return sub {defined and m{\A(?:$regexp)\z}}}sub can_be_inlined {!!1}sub inline_check {my$self=shift;if (Type::Tiny::_USE_XS){my$enum=join ",",@{$self->values};my$xsub=Type::Tiny::XS::get_subname_for("Enum[$enum]");return "$xsub\($_[0]\)" if$xsub}my$regexp=join "|",map quotemeta,@$self;$_[0]eq '$_' ? "(defined and !ref and m{\\A(?:$regexp)\\z})" : "(defined($_[0]) and !ref($_[0]) and $_[0] =~ m{\\A(?:$regexp)\\z})"}sub _instantiate_moose_type {my$self=shift;my%opts=@_;delete$opts{parent};delete$opts{constraint};delete$opts{inlined};require Moose::Meta::TypeConstraint::Enum;return "Moose::Meta::TypeConstraint::Enum"->new(%opts,values=>$self->values)}sub has_parent {!!1}sub parent {require Types::Standard;Types::Standard::Str()}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);require Type::Utils;!defined($value)? [sprintf('"%s" requires that the value is defined',$self,),]: @$self < 13 ? [sprintf('"%s" requires that the value is equal to %s',$self,Type::Utils::english_list(\"or",map B::perlstring($_),@$self),),]: [sprintf('"%s" requires that the value is one of an enumerated list of strings',$self,),]}1;
TYPE_TINY_ENUM
$fatpacked{"Type/Tiny/Intersection.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_INTERSECTION';
package Type::Tiny::Intersection;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::Intersection::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Intersection::VERSION='1.002001'}use Scalar::Util qw<blessed>;use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use overload q[@{}]=>sub {$_[0]{type_constraints}||= []};use Type::Tiny ();our@ISA='Type::Tiny';sub new {my$proto=shift;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Intersection type constraints cannot have a parent constraint" if exists$opts{parent};_croak "Intersection type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Intersection type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply list of type constraints" unless exists$opts{type_constraints};$opts{type_constraints}=[map {$_->isa(__PACKAGE__)? @$_ : $_}map Types::TypeTiny::to_TypeTiny($_),@{ref$opts{type_constraints}eq "ARRAY" ? $opts{type_constraints}: [$opts{type_constraints}]}];if (Type::Tiny::_USE_XS){my@constraints=@{$opts{type_constraints}};my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}@constraints;if (@known==@constraints){my$xsub=Type::Tiny::XS::get_coderef_for(sprintf "AllOf[%s]",join(',',@known));$opts{compiled_type_constraint}=$xsub if$xsub}}return$proto->SUPER::new(%opts)}sub type_constraints {$_[0]{type_constraints}}sub constraint {$_[0]{constraint}||= $_[0]->_build_constraint}sub _build_display_name {my$self=shift;join q[&],@$self}sub _build_constraint {my@checks=map $_->compiled_check,@{+shift};return sub {my$val=$_;$_->($val)|| return for@checks;return!!1}}sub can_be_inlined {my$self=shift;not grep!$_->can_be_inlined,@$self}sub inline_check {my$self=shift;if (Type::Tiny::_USE_XS and!exists$self->{xs_sub}){$self->{xs_sub}=undef;my@constraints=@{$self->type_constraints};my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}@constraints;if (@known==@constraints){$self->{xs_sub}=Type::Tiny::XS::get_subname_for(sprintf "AllOf[%s]",join(',',@known))}}if (Type::Tiny::_USE_XS and $self->{xs_sub}){return "$self->{xs_sub}\($_[0]\)"}sprintf '(%s)',join " and ",map $_->inline_check($_[0]),@$self}sub has_parent {!!@{$_[0]{type_constraints}}}sub parent {$_[0]{type_constraints}[0]}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);require Type::Utils;for my$type (@$self){my$deep=$type->validate_explain($value,$varname);return [sprintf('"%s" requires that the value pass %s',$self,Type::Utils::english_list(map qq["$_"],@$self),),@$deep,]if$deep}return}1;
TYPE_TINY_INTERSECTION
$fatpacked{"Type/Tiny/Role.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_ROLE';
package Type::Tiny::Role;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::Role::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Role::VERSION='1.002001'}use Scalar::Util qw<blessed weaken>;sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}require Type::Tiny;our@ISA='Type::Tiny';my%cache;sub new {my$proto=shift;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Role type constraints cannot have a parent constraint passed to the constructor" if exists$opts{parent};_croak "Role type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Role type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply role name" unless exists$opts{role};return$proto->SUPER::new(%opts)}sub role {$_[0]{role}}sub inlined {$_[0]{inlined}||= $_[0]->_build_inlined}sub has_inlined {!!1}sub _build_constraint {my$self=shift;my$role=$self->role;return sub {blessed($_)and do {my$method=$_->can('DOES')||$_->can('isa');$_->$method($role)}}}sub _build_inlined {my$self=shift;my$role=$self->role;sub {my$var=$_[1];qq{Scalar::Util::blessed($var) and do { my \$method = $var->can('DOES')||$var->can('isa'); $var->\$method(q[$role]) }}}}sub _build_default_message {my$self=shift;my$c=$self->role;return sub {sprintf '%s did not pass type constraint (not DOES %s)',Type::Tiny::_dd($_[0]),$c}if$self->is_anon;my$name="$self";return sub {sprintf '%s did not pass type constraint "%s" (not DOES %s)',Type::Tiny::_dd($_[0]),$name,$c}}sub has_parent {!!1}sub parent {require Types::Standard;Types::Standard::Object()}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);return ["Not a blessed reference"]unless blessed($value);return ["Reference provides no DOES method to check roles"]unless$value->can('DOES');my$display_var=$varname eq q{$_} ? '' : sprintf(' (in %s)',$varname);return [sprintf('"%s" requires that the reference does %s',$self,$self->role),sprintf("The reference%s doesn't %s",$display_var,$self->role),]}1;
TYPE_TINY_ROLE
$fatpacked{"Type/Tiny/Union.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY_UNION';
package Type::Tiny::Union;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::Union::AUTHORITY='cpan:TOBYINK';$Type::Tiny::Union::VERSION='1.002001'}use Scalar::Util qw<blessed>;use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use overload q[@{}]=>sub {$_[0]{type_constraints}||= []};use Type::Tiny ();our@ISA='Type::Tiny';sub new {my$proto=shift;my%opts=(@_==1)? %{$_[0]}: @_;_croak "Union type constraints cannot have a parent constraint passed to the constructor" if exists$opts{parent};_croak "Union type constraints cannot have a constraint coderef passed to the constructor" if exists$opts{constraint};_croak "Union type constraints cannot have a inlining coderef passed to the constructor" if exists$opts{inlined};_croak "Need to supply list of type constraints" unless exists$opts{type_constraints};$opts{type_constraints}=[map {$_->isa(__PACKAGE__)? @$_ : $_}map Types::TypeTiny::to_TypeTiny($_),@{ref$opts{type_constraints}eq "ARRAY" ? $opts{type_constraints}: [$opts{type_constraints}]}];if (Type::Tiny::_USE_XS){my@constraints=@{$opts{type_constraints}};my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}@constraints;if (@known==@constraints){my$xsub=Type::Tiny::XS::get_coderef_for(sprintf "AnyOf[%s]",join(',',@known));$opts{compiled_type_constraint}=$xsub if$xsub}}my$self=$proto->SUPER::new(%opts);$self->coercion if grep $_->has_coercion,@$self;return$self}sub type_constraints {$_[0]{type_constraints}}sub constraint {$_[0]{constraint}||= $_[0]->_build_constraint}sub _build_display_name {my$self=shift;join q[|],@$self}sub _build_coercion {require Type::Coercion::Union;my$self=shift;return "Type::Coercion::Union"->new(type_constraint=>$self)}sub _build_constraint {my@checks=map $_->compiled_check,@{+shift};return sub {my$val=$_;$_->($val)&& return!!1 for@checks;return}}sub can_be_inlined {my$self=shift;not grep!$_->can_be_inlined,@$self}sub inline_check {my$self=shift;if (Type::Tiny::_USE_XS and!exists$self->{xs_sub}){$self->{xs_sub}=undef;my@constraints=@{$self->type_constraints};my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}@constraints;if (@known==@constraints){$self->{xs_sub}=Type::Tiny::XS::get_subname_for(sprintf "AnyOf[%s]",join(',',@known))}}if (Type::Tiny::_USE_XS and $self->{xs_sub}){return "$self->{xs_sub}\($_[0]\)"}sprintf '(%s)',join " or ",map $_->inline_check($_[0]),@$self}sub _instantiate_moose_type {my$self=shift;my%opts=@_;delete$opts{parent};delete$opts{constraint};delete$opts{inlined};my@tc=map $_->moose_type,@{$self->type_constraints};require Moose::Meta::TypeConstraint::Union;return "Moose::Meta::TypeConstraint::Union"->new(%opts,type_constraints=>\@tc)}sub has_parent {defined(shift->parent)}sub parent {$_[0]{parent}||= $_[0]->_build_parent}sub _build_parent {my$self=shift;my ($first,@rest)=@$self;for my$parent ($first,$first->parents){return$parent unless grep!$_->is_a_type_of($parent),@rest}return}sub find_type_for {my@types=@{+shift};for my$type (@types){return$type if$type->check(@_)}return}sub validate_explain {my$self=shift;my ($value,$varname)=@_;$varname='$_' unless defined$varname;return undef if$self->check($value);require Type::Utils;return [sprintf('"%s" requires that the value pass %s',$self,Type::Utils::english_list(\"or",map qq["$_"],@$self),),map {$_->get_message($value),map(" $_",@{$_->validate_explain($value)|| []}),}@$self ]}sub equals {my ($self,$other)=Type::Tiny::_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return!!1 if$self->SUPER::equals($other);return!!0 unless$other->isa(__PACKAGE__);my@self_constraints=@{$self->type_constraints};my@other_constraints=@{$other->type_constraints};return!!0 unless@self_constraints==@other_constraints;constraint: foreach my$constraint (@self_constraints){for (my$i=0;$i < @other_constraints;$i++ ){if ($constraint->equals($other_constraints[$i])){splice@other_constraints,$i,1;next constraint}}}@other_constraints==0}sub is_a_type_of {my ($self,$other)=Type::Tiny::_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return!!1 if$self->SUPER::is_a_type_of($other);for my$tc (@{$self->type_constraints}){return!!0 unless$tc->is_a_type_of($other)}return!!1}sub is_subtype_of {my ($self,$other)=Type::Tiny::_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return!!1 if$self->SUPER::is_subtype_of($other);for my$tc (@{$self->type_constraints}){return!!0 unless$tc->is_subtype_of($other)}return!!1}sub is_supertype_of {my ($self,$other)=Type::Tiny::_loose_to_TypeTiny(@_);return unless blessed($self)&& $self->isa("Type::Tiny");return unless blessed($other)&& $other->isa("Type::Tiny");return!!1 if$self->SUPER::is_supertype_of($other);for my$tc (@{$self->type_constraints}){return!!1 if$tc->equals($other);return!!1 if$tc->is_supertype_of($other)}return!!0}1;
TYPE_TINY_UNION
$fatpacked{"Type/Tiny/_HalfOp.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_TINY__HALFOP';
package Type::Tiny::_HalfOp;use 5.006001;use strict;use warnings;BEGIN {$Type::Tiny::_HalfOp::AUTHORITY='cpan:TOBYINK';$Type::Tiny::_HalfOp::VERSION='1.002001'}use overload ();sub new {my ($class,$op,$param,$type)=@_;bless {op=>$op,param=>$param,type=>$type,},$class}sub complete {my ($self,$type)=@_;my$complete_type=$type->parameterize(@{$self->{param}});my$method=overload::Method($complete_type,$self->{op});$complete_type->$method($self->{type})}1;
TYPE_TINY__HALFOP
$fatpacked{"Type/Utils.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPE_UTILS';
package Type::Utils;use 5.006001;use strict;use warnings;BEGIN {$Type::Utils::AUTHORITY='cpan:TOBYINK';$Type::Utils::VERSION='1.002001'}sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}use Scalar::Util qw<blessed>;use Type::Library;use Type::Tiny;use Types::TypeTiny qw<TypeTiny to_TypeTiny HashLike StringLike CodeLike>;our@EXPORT=qw<declare as where message inline_as class_type role_type duck_type union intersection enum coerce from via declare_coercion to_type>;our@EXPORT_OK=(@EXPORT,qw<extends type subtype match_on_type compile_match_on_type dwim_type english_list classifier>,);require Exporter::Tiny;our@ISA='Exporter::Tiny';sub extends {_croak "Not a type library" unless caller->isa("Type::Library");my$caller=caller->meta;for my$lib (@_){eval "use $lib; 1" or _croak "Could not load library '$lib': $@";if ($lib->isa("Type::Library")or $lib eq 'Types::TypeTiny'){$caller->add_type($lib->get_type($_))for sort$lib->meta->type_names;$caller->add_coercion($lib->get_coercion($_))for sort$lib->meta->coercion_names}elsif ($lib->isa('MooseX::Types::Base')){require Moose::Util::TypeConstraints;my$types=$lib->type_storage;for my$name (sort keys %$types){my$moose=Moose::Util::TypeConstraints::find_type_constraint($types->{$name});my$tt=Types::TypeTiny::to_TypeTiny($moose);$caller->add_type($tt->create_child_type(library=>$caller,name=>$name,coercion=>$moose->has_coercion ? 1 : 0))}}elsif ($lib->isa('MouseX::Types::Base')){require Mouse::Util::TypeConstraints;my$types=$lib->type_storage;for my$name (sort keys %$types){my$mouse=Mouse::Util::TypeConstraints::find_type_constraint($types->{$name});my$tt=Types::TypeTiny::to_TypeTiny($mouse);$caller->add_type($tt->create_child_type(library=>$caller,name=>$name,coercion=>$mouse->has_coercion ? 1 : 0))}}else {_croak("'$lib' is not a type constraint library")}}}sub declare {my%opts;if (@_ % 2==0){%opts=@_;if (@_==2 and $_[0]=~ /^_*[A-Z]/ and $_[1]=~ /^[0-9]+$/){require Carp;Carp::carp("Possible missing comma after 'declare $_[0]'")}}else {(my($name),%opts)=@_;_croak "Cannot provide two names for type" if exists$opts{name};$opts{name}=$name}my$caller=caller($opts{_caller_level}|| 0);$opts{library}=$caller;if (defined$opts{parent}){$opts{parent}=to_TypeTiny($opts{parent});unless (TypeTiny->check($opts{parent})){$caller->isa("Type::Library")or _croak("Parent type cannot be a %s",ref($opts{parent})||'non-reference scalar');$opts{parent}=$caller->meta->get_type($opts{parent})or _croak("Could not find parent type")}}my$type;if (defined$opts{parent}){$type=delete($opts{parent})->create_child_type(%opts)}else {my$bless=delete($opts{bless})|| "Type::Tiny";eval "require $bless";$type=$bless->new(%opts)}if ($caller->isa("Type::Library")){$caller->meta->add_type($type)unless$type->is_anon}return$type}*subtype=\&declare;*type=\&declare;sub as (@) {parent=>@_}sub where (&;@) {constraint=>@_}sub message (&;@) {message=>@_}sub inline_as (&;@) {inlined=>@_}sub class_type {my$name=ref($_[0])? undef : shift;my%opts=%{shift or {}};if (defined$name){$opts{name}=$name unless exists$opts{name};$opts{class}=$name unless exists$opts{class};$opts{name}=~ s/:://g}$opts{bless}="Type::Tiny::Class";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub role_type {my$name=ref($_[0])? undef : shift;my%opts=%{shift or {}};if (defined$name){$opts{name}=$name unless exists$opts{name};$opts{role}=$name unless exists$opts{role};$opts{name}=~ s/:://g}$opts{bless}="Type::Tiny::Role";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub duck_type {my$name=ref($_[0])? undef : shift;my@methods=@{shift or []};my%opts;$opts{name}=$name if defined$name;$opts{methods}=\@methods;$opts{bless}="Type::Tiny::Duck";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub enum {my$name=ref($_[0])? undef : shift;my@values=@{shift or []};my%opts;$opts{name}=$name if defined$name;$opts{values}=\@values;$opts{bless}="Type::Tiny::Enum";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub union {my$name=ref($_[0])? undef : shift;my@tcs=@{shift or []};my%opts;$opts{name}=$name if defined$name;$opts{type_constraints}=\@tcs;$opts{bless}="Type::Tiny::Union";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub intersection {my$name=ref($_[0])? undef : shift;my@tcs=@{shift or []};my%opts;$opts{name}=$name if defined$name;$opts{type_constraints}=\@tcs;$opts{bless}="Type::Tiny::Intersection";{no warnings "numeric";$opts{_caller_level}++}declare(%opts)}sub declare_coercion {my%opts;$opts{name}=shift if!ref($_[0]);while (HashLike->check($_[0])and not TypeTiny->check($_[0])){%opts=(%opts,%{+shift})}my$caller=caller($opts{_caller_level}|| 0);$opts{library}=$caller;my$bless=delete($opts{bless})|| "Type::Coercion";eval "require $bless";my$c=$bless->new(%opts);my@C;if ($caller->isa("Type::Library")){my$meta=$caller->meta;$meta->add_coercion($c)unless$c->is_anon;while (@_){push@C,map {ref($_)? to_TypeTiny($_): $meta->get_type($_)||$_}shift;push@C,shift}}else {@C=@_}$c->add_type_coercions(@C);return$c->freeze}sub coerce {if ((scalar caller)->isa("Type::Library")){my$meta=(scalar caller)->meta;my ($type)=map {ref($_)? to_TypeTiny($_): $meta->get_type($_)||$_}shift;my@opts;while (@_){push@opts,map {ref($_)? to_TypeTiny($_): $meta->get_type($_)||$_}shift;push@opts,shift}return$type->coercion->add_type_coercions(@opts)}my ($type,@opts)=@_;$type=to_TypeTiny($type);return$type->coercion->add_type_coercions(@opts)}sub from (@) {return @_}sub to_type (@) {my$type=shift;unless (TypeTiny->check($type)){caller->isa("Type::Library")or _croak "Target type cannot be a string";$type=caller->meta->get_type($type)or _croak "Could not find target type"}return +{type_constraint=>$type },@_}sub via (&;@) {return @_}sub match_on_type {my$value=shift;while (@_){my$code;if (@_==1){$code=shift}else {(my($type),$code)=splice(@_,0,2);TypeTiny->($type)->check($value)or next}if (StringLike->check($code)){local $_=$value;if (wantarray){my@r=eval "$code";die $@ if $@;return@r}if (defined wantarray){my$r=eval "$code";die $@ if $@;return$r}eval "$code";die $@ if $@;return}else {CodeLike->($code);local $_=$value;return$code->($value)}}_croak("No cases matched for %s",Type::Tiny::_dd($value))}sub compile_match_on_type {my@code='sub { local $_ = $_[0]; ';my@checks;my@actions;my$els='';while (@_){my ($type,$code);if (@_==1){require Types::Standard;($type,$code)=(Types::Standard::Any(),shift)}else {($type,$code)=splice(@_,0,2);TypeTiny->($type)}if ($type->can_be_inlined){push@code,sprintf('%sif (%s)',$els,$type->inline_check('$_'))}else {push@checks,$type;push@code,sprintf('%sif ($checks[%d]->check($_))',$els,$#checks)}$els='els';if (StringLike->check($code)){push@code,sprintf(' { %s }',$code)}else {CodeLike->($code);push@actions,$code;push@code,sprintf(' { $actions[%d]->(@_) }',$#actions)}}push@code,'else',' { Type::Utils::_croak("No cases matched for %s", Type::Tiny::_dd($_[0])) }';push@code,'}';require Eval::TypeTiny;return Eval::TypeTiny::eval_closure(source=>\@code,environment=>{'@actions'=>\@actions,'@checks'=>\@checks,},)}sub classifier {my$i;compile_match_on_type(+(map {my$type=$_->[0];$type=>sub {$type}}sort {$b->[1]<=> $a->[1]or $a->[2]<=> $b->[2]}map [$_,scalar(my@parents=$_->parents),++$i],@_),q[ undef ],)}{package Type::Registry::DWIM;our@ISA=qw(Type::Registry);sub foreign_lookup {my$self=shift;my$r=$self->SUPER::foreign_lookup(@_);return$r if$r;if (my$assume=$self->{"~~assume"}and $_[0]=~ /[A-Z_a-z][0-9A-Z_a-z]*(?:::[0-9A-Z_a-z]+)*/){my@methods=ref($assume)? @$assume : $assume;for my$method (@methods){$r=$self->$method(@_);return$r if$r}}return}sub lookup_via_moose {my$self=shift;if ($INC{'Moose.pm'}){require Moose::Util::TypeConstraints;require Types::TypeTiny;my$r=Moose::Util::TypeConstraints::find_type_constraint($_[0]);return Types::TypeTiny::to_TypeTiny($r)if defined$r}return}sub lookup_via_mouse {my$self=shift;if ($INC{'Mouse.pm'}){require Mouse::Util::TypeConstraints;require Types::TypeTiny;my$r=Mouse::Util::TypeConstraints::find_type_constraint($_[0]);return Types::TypeTiny::to_TypeTiny($r)if defined$r}return}sub simple_lookup {my$self=shift;my$r;if (defined$self->{"~~chained"}){my$chained="Type::Registry"->for_class($self->{"~~chained"});$r=eval {$chained->simple_lookup(@_)}unless$self==$chained;return$r if defined$r}require Types::Standard;return 'Types::Standard'->get_type($_[0])if 'Types::Standard'->has_type($_[0]);return unless $_[1];my$meta;if (defined$self->{"~~chained"}){$meta ||= Moose::Util::find_meta($self->{"~~chained"})if$INC{'Moose.pm'};$meta ||= Mouse::Util::find_meta($self->{"~~chained"})if$INC{'Mouse.pm'}}if ($meta and $meta->isa('Class::MOP::Module')){$r=$self->lookup_via_moose(@_);return$r if$r}elsif ($meta and $meta->isa('Mouse::Meta::Module')){$r=$self->lookup_via_mouse(@_);return$r if$r}return$self->foreign_lookup(@_)}}our$dwimmer;sub dwim_type {my ($string,%opts)=@_;$opts{for}=caller unless defined$opts{for};$dwimmer ||= do {require Type::Registry;'Type::Registry::DWIM'->new};local$dwimmer->{'~~chained'}=$opts{for};local$dwimmer->{'~~assume'}=$opts{fallback}|| [qw/lookup_via_moose lookup_via_mouse/,$opts{does}? 'make_role_type' : 'make_class_type',];local $@=undef;my$type;unless (eval {$type=$dwimmer->lookup($string);1}){my$e=$@;die($e)unless$e =~ /not a known type constraint/}$type}sub english_list {my$conjunction=ref($_[0])eq 'SCALAR' ? ${+shift}: 'and';my@items=sort @_;return$items[0]if@items==1;return "$items[0] $conjunction $items[1]" if@items==2;my$tail=pop@items;join(', ',@items,"$conjunction $tail")}1;
TYPE_UTILS
$fatpacked{"Types/Common/Numeric.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_COMMON_NUMERIC';
package Types::Common::Numeric;use 5.006001;use strict;use warnings;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Types::Common::Numeric::AUTHORITY='cpan:TOBYINK';$Types::Common::Numeric::VERSION='1.002001'}use Type::Library -base,-declare=>qw(PositiveNum PositiveOrZeroNum PositiveInt PositiveOrZeroInt NegativeNum NegativeOrZeroNum NegativeInt NegativeOrZeroInt SingleDigit);use Type::Tiny ();use Types::Standard qw(Num Int);my$meta=__PACKAGE__->meta;$meta->add_type(name=>'PositiveNum',parent=>Num,constraint=>sub {$_ > 0},inlined=>sub {undef,qq($_ > 0)},message=>sub {"Must be a positive number"},);$meta->add_type(name=>'PositiveOrZeroNum',parent=>Num,constraint=>sub {$_ >= 0},inlined=>sub {undef,qq($_ >= 0)},message=>sub {"Must be a number greater than or equal to zero"},);my ($pos_int,$posz_int);if (Type::Tiny::_USE_XS){$pos_int=Type::Tiny::XS::get_coderef_for('PositiveInt');$posz_int=Type::Tiny::XS::get_coderef_for('PositiveOrZeroInt')}$meta->add_type(name=>'PositiveInt',parent=>Int,constraint=>sub {$_ > 0},inlined=>sub {if ($pos_int){my$xsub=Type::Tiny::XS::get_subname_for($_[0]->name);return "$xsub($_[1])" if$xsub}undef,qq($_ > 0)},message=>sub {"Must be a positive integer"},$pos_int ? (compiled_type_constraint=>$pos_int): (),);$meta->add_type(name=>'PositiveOrZeroInt',parent=>Int,constraint=>sub {$_ >= 0},inlined=>sub {if ($posz_int){my$xsub=Type::Tiny::XS::get_subname_for($_[0]->name);return "$xsub($_[1])" if$xsub}undef,qq($_ >= 0)},message=>sub {"Must be an integer greater than or equal to zero"},$posz_int ? (compiled_type_constraint=>$posz_int): (),);$meta->add_type(name=>'NegativeNum',parent=>Num,constraint=>sub {$_ < 0},inlined=>sub {undef,qq($_ < 0)},message=>sub {"Must be a negative number"},);$meta->add_type(name=>'NegativeOrZeroNum',parent=>Num,constraint=>sub {$_ <= 0},inlined=>sub {undef,qq($_ <= 0)},message=>sub {"Must be a number less than or equal to zero"},);$meta->add_type(name=>'NegativeInt',parent=>Int,constraint=>sub {$_ < 0},inlined=>sub {undef,qq($_ < 0)},message=>sub {"Must be a negative integer"},);$meta->add_type(name=>'NegativeOrZeroInt',parent=>Int,constraint=>sub {$_ <= 0},inlined=>sub {undef,qq($_ <= 0)},message=>sub {"Must be an integer less than or equal to zero"},);$meta->add_type(name=>'SingleDigit',parent=>Int,constraint=>sub {$_ >= -9 and $_ <= 9},inlined=>sub {undef,qq($_ >= -9),qq($_ <= 9)},message=>sub {"Must be a single digit"},);__PACKAGE__->meta->make_immutable;1;
TYPES_COMMON_NUMERIC
$fatpacked{"Types/Common/String.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_COMMON_STRING';
package Types::Common::String;use 5.006001;use strict;use warnings;use utf8;BEGIN {if ($] < 5.008){require Devel::TypeTiny::Perl56Compat}}BEGIN {$Types::Common::String::AUTHORITY='cpan:TOBYINK';$Types::Common::String::VERSION='1.002001'}use Type::Library -base,-declare=>qw(SimpleStr NonEmptySimpleStr NumericCode LowerCaseSimpleStr UpperCaseSimpleStr Password StrongPassword NonEmptyStr LowerCaseStr UpperCaseStr);use Type::Tiny ();use Types::Standard qw(Str);my$meta=__PACKAGE__->meta;$meta->add_type(name=>SimpleStr,parent=>Str,constraint=>sub {length($_)<= 255 and not /\n/},inlined=>sub {undef,qq(length($_) <= 255),qq($_ !~ /\\n/)},message=>sub {"Must be a single line of no more than 255 chars"},);$meta->add_type(name=>NonEmptySimpleStr,parent=>SimpleStr,constraint=>sub {length($_)> 0},inlined=>sub {undef,qq(length($_) > 0)},message=>sub {"Must be a non-empty single line of no more than 255 chars"},);$meta->add_type(name=>NumericCode,parent=>NonEmptySimpleStr,constraint=>sub {/^[0-9]+$/},inlined=>sub {SimpleStr->inline_check($_),qq($_ =~ m/^[0-9]+\$/)},message=>sub {'Must be a non-empty single line of no more than 255 chars that consists ' .'of numeric characters only'},);NumericCode->coercion->add_type_coercions(NonEmptySimpleStr,q[ do { (my $code = $_) =~ s/[[:punct:][:space:]]//g; $code } ],);$meta->add_type(name=>Password,parent=>NonEmptySimpleStr,constraint=>sub {length($_)> 3},inlined=>sub {SimpleStr->inline_check($_),qq(length($_) > 3)},message=>sub {"Must be between 4 and 255 chars"},);$meta->add_type(name=>StrongPassword,parent=>Password,constraint=>sub {length($_)> 7 and /[^a-zA-Z]/},inlined=>sub {SimpleStr()->inline_check($_),qq(length($_) > 7),qq($_ =~ /[^a-zA-Z]/)},message=>sub {"Must be between 8 and 255 chars, and contain a non-alpha char"},);my ($nestr);if (Type::Tiny::_USE_XS){$nestr=Type::Tiny::XS::get_coderef_for('NonEmptyStr')}$meta->add_type(name=>NonEmptyStr,parent=>Str,constraint=>sub {length($_)> 0},inlined=>sub {if ($nestr){my$xsub=Type::Tiny::XS::get_subname_for($_[0]->name);return "$xsub($_[1])" if$xsub}undef,qq(length($_) > 0)},message=>sub {"Must not be empty"},$nestr ? (compiled_type_constraint=>$nestr): (),);$meta->add_type(name=>LowerCaseStr,parent=>NonEmptyStr,constraint=>sub {!/\p{Upper}/ms},inlined=>sub {undef,qq($_ !~ /\\p{Upper}/ms)},message=>sub {"Must not contain upper case letters"},);LowerCaseStr->coercion->add_type_coercions(NonEmptyStr,q[ lc($_) ],);$meta->add_type(name=>UpperCaseStr,parent=>NonEmptyStr,constraint=>sub {!/\p{Lower}/ms},inlined=>sub {undef,qq($_ !~ /\\p{Lower}/ms)},message=>sub {"Must not contain lower case letters"},);UpperCaseStr->coercion->add_type_coercions(NonEmptyStr,q[ uc($_) ],);$meta->add_type(name=>LowerCaseSimpleStr,parent=>NonEmptySimpleStr,constraint=>sub {!/\p{Upper}/ms},inlined=>sub {undef,qq($_ !~ /\\p{Upper}/ms)},message=>sub {"Must not contain pper case letters"},);LowerCaseSimpleStr->coercion->add_type_coercions(NonEmptySimpleStr,q[ lc($_) ],);$meta->add_type(name=>UpperCaseSimpleStr,parent=>NonEmptySimpleStr,constraint=>sub {!/\p{Lower}/ms},inlined=>sub {undef,qq($_ !~ /\\p{Lower}/ms)},message=>sub {"Must not contain lower case letters"},);UpperCaseSimpleStr->coercion->add_type_coercions(NonEmptySimpleStr,q[ uc($_) ],);__PACKAGE__->meta->make_immutable;1;
TYPES_COMMON_STRING
$fatpacked{"Types/Serialiser.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_SERIALISER';
package Types::Serialiser;use common::sense;our$VERSION='1.0';BEGIN {package JSON::PP::Boolean;*Types::Serialiser::Boolean::=*JSON::PP::Boolean::}{package Types::Serialiser::BooleanBase;use overload "0+"=>sub {${$_[0]}},"++"=>sub {$_[0]=${$_[0]}+ 1},"--"=>sub {$_[0]=${$_[0]}- 1},fallback=>1;@Types::Serialiser::Boolean::ISA=Types::Serialiser::BooleanBase::}our$true=do {bless \(my$dummy=1),Types::Serialiser::Boolean::};our$false=do {bless \(my$dummy=0),Types::Serialiser::Boolean::};our$error=do {bless \(my$dummy),Types::Serialiser::Error::};sub true () {$true}sub false () {$false}sub error () {$error}sub is_bool ($) {UNIVERSAL::isa $_[0],Types::Serialiser::Boolean::}sub is_true ($) {$_[0]&& UNIVERSAL::isa $_[0],Types::Serialiser::Boolean::}sub is_false ($) {!$_[0]&& UNIVERSAL::isa $_[0],Types::Serialiser::Boolean::}sub is_error ($) {UNIVERSAL::isa $_[0],Types::Serialiser::Error::}package Types::Serialiser::Error;sub error {require Carp;Carp::croak ("caught attempt to use the Types::Serialiser::error value")};use overload "0+"=>\&error,"++"=>\&error,"--"=>\&error,fallback=>1;1
TYPES_SERIALISER
$fatpacked{"Types/Serialiser/Error.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_SERIALISER_ERROR';
use Types::Serialiser ();1
TYPES_SERIALISER_ERROR
$fatpacked{"Types/Standard.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD';
package Types::Standard;use 5.006001;use strict;use warnings;BEGIN {eval {require re};if ($] < 5.008){require Devel::TypeTiny::Perl56Compat};if ($] < 5.010){require Devel::TypeTiny::Perl58Compat}}BEGIN {$Types::Standard::AUTHORITY='cpan:TOBYINK';$Types::Standard::VERSION='1.002001'}use Type::Library -base;our@EXPORT_OK=qw(slurpy);use Scalar::Util qw(blessed looks_like_number);use Type::Tiny ();use Types::TypeTiny ();BEGIN {*_is_class_loaded=Type::Tiny::_USE_XS ? \&Type::Tiny::XS::Util::is_class_loaded : sub {return!!0 if ref $_[0];return!!0 if not $_[0];my$stash=do {no strict 'refs';\%{"$_[0]\::"}};return!!1 if exists$stash->{'ISA'};return!!1 if exists$stash->{'VERSION'};for my$globref (values %$stash){return!!1 if *{$globref}{CODE}}return!!0}};my$HAS_RUXS=eval {require Ref::Util::XS;Ref::Util::XS::->VERSION(0.100);1};my$add_core_type=sub {my$meta=shift;my ($typedef)=@_;my$name=$typedef->{name};my ($xsub,$xsubname);$typedef->{_is_core}=1 unless$name eq 'Map' || $name eq 'Tuple';if (Type::Tiny::_USE_XS and not ($name eq 'RegexpRef')){$xsub=Type::Tiny::XS::get_coderef_for($name);$xsubname=Type::Tiny::XS::get_subname_for($name)}elsif (Type::Tiny::_USE_MOUSE and not ($name eq 'RegexpRef' or $name eq 'Int' or $name eq 'Object')){require Mouse::Util::TypeConstraints;$xsub="Mouse::Util::TypeConstraints"->can($name);$xsubname="Mouse::Util::TypeConstraints::$name" if$xsub}$typedef->{compiled_type_constraint}=$xsub if$xsub;$typedef->{inlined}=sub {"$xsubname\($_[1])"}if defined($xsubname)and ($name eq 'Str' or $name eq 'Bool' or $name eq 'ClassName' or $name eq 'RegexpRef' or $name eq 'FileHandle');$meta->add_type($typedef)};sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}my$meta=__PACKAGE__->meta;sub Stringable (&) {package Types::Standard::_Stringable;use overload q[""]=>sub {$_[0]{text}||= $_[0]{code}->()},fallback=>1;bless +{code=>$_[0]}}sub LazyLoad ($$) {package Types::Standard::LazyLoad;use overload fallback=>1,q[&{}]=>sub {my ($typename,$function)=@{$_[0]};my$type=$meta->get_type($typename);my$class="Types::Standard::$typename";eval "require $class; 1" or die($@);for my$key (keys %$type){next unless ref($type->{$key})eq __PACKAGE__;my$f=$type->{$key}[1];$type->{$key}=$class->can("__$f")}return$class->can("__$function")};bless \@_}no warnings;BEGIN {*STRICTNUM=$ENV{PERL_TYPES_STANDARD_STRICTNUM}? sub(){!!1}: sub(){!!0}};my$_any=$meta->$add_core_type({name=>"Any",inlined=>sub {"!!1"},});my$_item=$meta->$add_core_type({name=>"Item",inlined=>sub {"!!1"},parent=>$_any,});$meta->$add_core_type({name=>"Bool",parent=>$_item,constraint=>sub {!defined $_ or $_ eq q() or $_ eq '0' or $_ eq '1'},inlined=>sub {"!defined $_[1] or $_[1] eq q() or $_[1] eq '0' or $_[1] eq '1'"},});my$_undef=$meta->$add_core_type({name=>"Undef",parent=>$_item,constraint=>sub {!defined $_},inlined=>sub {"!defined($_[1])"},});my$_def=$meta->$add_core_type({name=>"Defined",parent=>$_item,constraint=>sub {defined $_},inlined=>sub {"defined($_[1])"},});my$_val=$meta->$add_core_type({name=>"Value",parent=>$_def,constraint=>sub {not ref $_},inlined=>sub {"defined($_[1]) and not ref($_[1])"},});my$_str=$meta->$add_core_type({name=>"Str",parent=>$_val,constraint=>sub {ref(\$_)eq 'SCALAR' or ref(\(my$val=$_))eq 'SCALAR'},inlined=>sub {"defined($_[1]) and do { ref(\\$_[1]) eq 'SCALAR' or ref(\\(my \$val = $_[1])) eq 'SCALAR' }"},});my$_laxnum=$meta->add_type({name=>"LaxNum",parent=>$_str,constraint=>sub {looks_like_number $_},inlined=>sub {"defined($_[1]) && !ref($_[1]) && Scalar::Util::looks_like_number($_[1])"},});my$_strictnum=$meta->add_type({name=>"StrictNum",parent=>$_str,constraint=>sub {my$val=$_;($val =~ /\A[+-]?[0-9]+\z/)|| ($val =~ /\A(?:[+-]?) #matches optional +- in the beginning
(?=[0-9]|\.[0-9]) #matches previous +- only if there is something like 3 or .3
[0-9]* #matches 0-9 zero or more times
(?:\.[0-9]+)? #matches optional .89 or nothing
(?:[Ee](?:[+-]?[0-9]+))? #matches E1 or e1 or e-1 or e+1 etc
\z/x)},inlined=>sub {'my $val = '.$_[1].';'.Value()->inline_check('$val').' && ( $val =~ /\A[+-]?[0-9]+\z/ || ' .'$val =~ /\A(?:[+-]?) # matches optional +- in the beginning
(?=[0-9]|\.[0-9]) # matches previous +- only if there is something like 3 or .3
[0-9]* # matches 0-9 zero or more times
(?:\.[0-9]+)? # matches optional .89 or nothing
(?:[Ee](?:[+-]?[0-9]+))? # matches E1 or e1 or e-1 or e+1 etc
\z/x ); '},});my$_num=$meta->add_type({name=>"Num",parent=>(STRICTNUM ? $_strictnum : $_laxnum),});$meta->$add_core_type({name=>"Int",parent=>$_num,constraint=>sub {/\A-?[0-9]+\z/},inlined=>sub {"defined($_[1]) and !ref($_[1]) and $_[1] =~ /\\A-?[0-9]+\\z/"},});my$_classn=$meta->add_type({name=>"ClassName",parent=>$_str,constraint=>\&_is_class_loaded,inlined=>sub {"Types::Standard::_is_class_loaded(do { my \$tmp = $_[1] })"},});$meta->add_type({name=>"RoleName",parent=>$_classn,constraint=>sub {not $_->can("new")},inlined=>sub {"Types::Standard::_is_class_loaded(do { my \$tmp = $_[1] }) and not $_[1]\->can('new')"},});my$_ref=$meta->$add_core_type({name=>"Ref",parent=>$_def,constraint=>sub {ref $_},inlined=>sub {"!!ref($_[1])"},constraint_generator=>sub {return$meta->get_type('Ref')unless @_;my$reftype=shift;Types::TypeTiny::StringLike->check($reftype)or _croak("Parameter to Ref[`a] expected to be string; got $reftype");$reftype="$reftype";return sub {ref($_[0])and Scalar::Util::reftype($_[0])eq $reftype}},inline_generator=>sub {my$reftype=shift;return sub {my$v=$_[1];"ref($v) and Scalar::Util::reftype($v) eq q($reftype)"}},deep_explanation=>sub {require B;my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];return if$type->check($value);my$reftype=Scalar::Util::reftype($value);return [sprintf('"%s" constrains reftype(%s) to be equal to %s',$type,$varname,B::perlstring($param)),sprintf('reftype(%s) is %s',$varname,defined($reftype)? B::perlstring($reftype): "undef"),]},});$meta->$add_core_type({name=>"CodeRef",parent=>$_ref,constraint=>sub {ref $_ eq "CODE"},inlined=>$HAS_RUXS ? sub {"Ref::Util::XS::is_plain_coderef($_[1])"}: sub {"ref($_[1]) eq 'CODE'"},});my$_regexp=$meta->$add_core_type({name=>"RegexpRef",parent=>$_ref,constraint=>sub {ref($_)&&!!re::is_regexp($_)or blessed($_)&& $_->isa('Regexp')},inlined=>sub {my$v=$_[1];"ref($v) && !!re::is_regexp($v) or Scalar::Util::blessed($v) && $v\->isa('Regexp')"},});$meta->$add_core_type({name=>"GlobRef",parent=>$_ref,constraint=>sub {ref $_ eq "GLOB"},inlined=>$HAS_RUXS ? sub {"Ref::Util::XS::is_plain_globref($_[1])"}: sub {"ref($_[1]) eq 'GLOB'"},});$meta->$add_core_type({name=>"FileHandle",parent=>$_ref,constraint=>sub {(ref($_)eq "GLOB" && Scalar::Util::openhandle($_))or (blessed($_)&& $_->isa("IO::Handle"))},inlined=>sub {"(ref($_[1]) eq \"GLOB\" && Scalar::Util::openhandle($_[1])) "."or (Scalar::Util::blessed($_[1]) && $_[1]\->isa(\"IO::Handle\"))"},});my$_arr=$meta->$add_core_type({name=>"ArrayRef",parent=>$_ref,constraint=>sub {ref $_ eq "ARRAY"},inlined=>$HAS_RUXS ? sub {"Ref::Util::XS::is_plain_arrayref($_[1])"}: sub {"ref($_[1]) eq 'ARRAY'"},constraint_generator=>LazyLoad(ArrayRef=>'constraint_generator'),inline_generator=>LazyLoad(ArrayRef=>'inline_generator'),deep_explanation=>LazyLoad(ArrayRef=>'deep_explanation'),coercion_generator=>LazyLoad(ArrayRef=>'coercion_generator'),});my$_hash=$meta->$add_core_type({name=>"HashRef",parent=>$_ref,constraint=>sub {ref $_ eq "HASH"},inlined=>$HAS_RUXS ? sub {"Ref::Util::XS::is_plain_hashref($_[1])"}: sub {"ref($_[1]) eq 'HASH'"},constraint_generator=>LazyLoad(HashRef=>'constraint_generator'),inline_generator=>LazyLoad(HashRef=>'inline_generator'),deep_explanation=>LazyLoad(HashRef=>'deep_explanation'),coercion_generator=>LazyLoad(HashRef=>'coercion_generator'),my_methods=>{hashref_allows_key=>sub {my$self=shift;Str()->check($_[0])},hashref_allows_value=>sub {my$self=shift;my ($key,$value)=@_;return!!0 unless$self->my_hashref_allows_key($key);return!!1 if$self==HashRef();my$href=$self->find_parent(sub {$_->has_parent && $_->parent==HashRef()});my$param=$href->type_parameter;Str()->check($key)and $param->check($value)},},});$meta->$add_core_type({name=>"ScalarRef",parent=>$_ref,constraint=>sub {ref $_ eq "SCALAR" or ref $_ eq "REF"},inlined=>sub {"ref($_[1]) eq 'SCALAR' or ref($_[1]) eq 'REF'"},constraint_generator=>LazyLoad(ScalarRef=>'constraint_generator'),inline_generator=>LazyLoad(ScalarRef=>'inline_generator'),deep_explanation=>LazyLoad(ScalarRef=>'deep_explanation'),coercion_generator=>LazyLoad(ScalarRef=>'coercion_generator'),});my$_obj=$meta->$add_core_type({name=>"Object",parent=>$_ref,constraint=>sub {blessed $_},inlined=>$HAS_RUXS ? sub {"Ref::Util::XS::is_blessed_ref($_[1])"}: sub {"Scalar::Util::blessed($_[1])"},});$meta->$add_core_type({name=>"Maybe",parent=>$_item,constraint_generator=>sub {return$meta->get_type('Maybe')unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to Maybe[`a] expected to be a type constraint; got $param");my$param_compiled_check=$param->compiled_check;my@xsub;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($param_compiled_check);push@xsub,Type::Tiny::XS::get_coderef_for("Maybe[$paramname]")if$paramname}elsif (Type::Tiny::_USE_MOUSE and $param->_has_xsub){require Mouse::Util::TypeConstraints;my$maker="Mouse::Util::TypeConstraints"->can("_parameterize_Maybe_for");push@xsub,$maker->($param)if$maker}return(sub {my$value=shift;return!!1 unless defined$value;return$param->check($value)},@xsub,)},inline_generator=>sub {my$param=shift;my$param_compiled_check=$param->compiled_check;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($param_compiled_check);my$xsubname=Type::Tiny::XS::get_subname_for("Maybe[$paramname]");return sub {"$xsubname\($_[1]\)"}if$xsubname}return unless$param->can_be_inlined;return sub {my$v=$_[1];my$param_check=$param->inline_check($v);"!defined($v) or $param_check"}},deep_explanation=>sub {my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];return [sprintf('%s is defined',Type::Tiny::_dd($value)),sprintf('"%s" constrains the value with "%s" if it is defined',$type,$param),@{$param->validate_explain($value,$varname)},]},coercion_generator=>sub {my ($parent,$child,$param)=@_;return unless$param->has_coercion;return$param->coercion},});my$_map=$meta->$add_core_type({name=>"Map",parent=>$_hash,constraint_generator=>LazyLoad(Map=>'constraint_generator'),inline_generator=>LazyLoad(Map=>'inline_generator'),deep_explanation=>LazyLoad(Map=>'deep_explanation'),coercion_generator=>LazyLoad(Map=>'coercion_generator'),my_methods=>{hashref_allows_key=>sub {my$self=shift;my ($key)=@_;return Str()->check($key)if$self==Map();my$map=$self->find_parent(sub {$_->has_parent && $_->parent==Map()});my ($kcheck,$vcheck)=@{$map->parameters};($kcheck or Any())->check($key)},hashref_allows_value=>sub {my$self=shift;my ($key,$value)=@_;return!!0 unless$self->my_hashref_allows_key($key);return!!1 if$self==Map();my$map=$self->find_parent(sub {$_->has_parent && $_->parent==Map()});my ($kcheck,$vcheck)=@{$map->parameters};($kcheck or Any())->check($key)and ($vcheck or Any())->check($value)},},});my$_Optional=$meta->add_type({name=>"Optional",parent=>$_item,constraint_generator=>sub {return$meta->get_type('Optional')unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to Optional[`a] expected to be a type constraint; got $param");sub {$param->check($_[0])}},inline_generator=>sub {my$param=shift;return unless$param->can_be_inlined;return sub {my$v=$_[1];$param->inline_check($v)}},deep_explanation=>sub {my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];return [sprintf('%s exists',$varname),sprintf('"%s" constrains %s with "%s" if it exists',$type,$varname,$param),@{$param->validate_explain($value,$varname)},]},coercion_generator=>sub {my ($parent,$child,$param)=@_;return unless$param->has_coercion;return$param->coercion},});sub slurpy {my$t=shift;wantarray ? (+{slurpy=>$t },@_): +{slurpy=>$t }}$meta->$add_core_type({name=>"Tuple",parent=>$_arr,name_generator=>sub {my ($s,@a)=@_;sprintf('%s[%s]',$s,join q[,],map {ref($_)eq "HASH" ? sprintf("slurpy %s",$_->{slurpy}): $_}@a)},constraint_generator=>LazyLoad(Tuple=>'constraint_generator'),inline_generator=>LazyLoad(Tuple=>'inline_generator'),deep_explanation=>LazyLoad(Tuple=>'deep_explanation'),coercion_generator=>LazyLoad(Tuple=>'coercion_generator'),});$meta->add_type({name=>"CycleTuple",parent=>$_arr,name_generator=>sub {my ($s,@a)=@_;sprintf('%s[%s]',$s,join q[,],@a)},constraint_generator=>LazyLoad(CycleTuple=>'constraint_generator'),inline_generator=>LazyLoad(CycleTuple=>'inline_generator'),deep_explanation=>LazyLoad(CycleTuple=>'deep_explanation'),coercion_generator=>LazyLoad(CycleTuple=>'coercion_generator'),});$meta->add_type({name=>"Dict",parent=>$_hash,name_generator=>sub {my ($s,@p)=@_;my$l=ref($p[-1])eq q(HASH) ? pop(@p)->{slurpy}: undef;my%a=@p;sprintf('%s[%s%s]',$s,join(q[,],map sprintf("%s=>%s",$_,$a{$_}),sort keys%a),$l ? ",slurpy $l" : '')},constraint_generator=>LazyLoad(Dict=>'constraint_generator'),inline_generator=>LazyLoad(Dict=>'inline_generator'),deep_explanation=>LazyLoad(Dict=>'deep_explanation'),coercion_generator=>LazyLoad(Dict=>'coercion_generator'),my_methods=>{dict_is_slurpy=>sub {my$self=shift;return!!0 if$self==Dict();my$dict=$self->find_parent(sub {$_->has_parent && $_->parent==Dict()});ref($dict->parameters->[-1])eq q(HASH) ? $dict->parameters->[-1]{slurpy}:!!0},hashref_allows_key=>sub {my$self=shift;my ($key)=@_;return Str()->check($key)if$self==Dict();my$dict=$self->find_parent(sub {$_->has_parent && $_->parent==Dict()});my%params;my$slurpy=$dict->my_dict_is_slurpy;if ($slurpy){my@args=@{$dict->parameters};pop@args;%params=@args}else {%params=@{$dict->parameters}}return!!1 if exists($params{$key});return!!0 if!$slurpy;return Str()->check($key)if$slurpy==Any()|| $slurpy==Item()|| $slurpy==Defined()|| $slurpy==Ref();return$slurpy->my_hashref_allows_key($key)if$slurpy->is_a_type_of(HashRef());return!!0},hashref_allows_value=>sub {my$self=shift;my ($key,$value)=@_;return!!0 unless$self->my_hashref_allows_key($key);return!!1 if$self==Dict();my$dict=$self->find_parent(sub {$_->has_parent && $_->parent==Dict()});my%params;my$slurpy=$dict->my_dict_is_slurpy;if ($slurpy){my@args=@{$dict->parameters};pop@args;%params=@args}else {%params=@{$dict->parameters}}return!!1 if exists($params{$key})&& $params{$key}->check($value);return!!0 if!$slurpy;return!!1 if$slurpy==Any()|| $slurpy==Item()|| $slurpy==Defined()|| $slurpy==Ref();return$slurpy->my_hashref_allows_value($key,$value)if$slurpy->is_a_type_of(HashRef());return!!0},},});use overload ();$meta->add_type({name=>"Overload",parent=>$_obj,constraint=>sub {overload::Overloaded($_)},inlined=>sub {"Scalar::Util::blessed($_[1]) and overload::Overloaded($_[1])"},constraint_generator=>sub {return$meta->get_type('Overload')unless @_;my@operations=map {Types::TypeTiny::StringLike->check($_)? "$_" : _croak("Parameters to Overload[`a] expected to be a strings; got $_")}@_;return sub {my$value=shift;for my$op (@operations){return unless overload::Method($value,$op)}return!!1}},inline_generator=>sub {my@operations=@_;return sub {my$v=$_[1];join " and ","Scalar::Util::blessed($v)",map "overload::Method($v, q[$_])",@operations}},});our%_StrMatch;my$has_regexp_util;my$serialize_regexp=sub {$has_regexp_util=eval {require Regexp::Util;Regexp::Util->VERSION('0.003');1}|| 0 unless defined$has_regexp_util;my$re=shift;my$serialized;if ($has_regexp_util){$serialized=eval {Regexp::Util::serialize_regexp($re)}}if (!$serialized){my$key=sprintf('%s|%s',ref($re),$re);$_StrMatch{$key}=$re;$serialized=sprintf('$Types::Standard::_StrMatch{%s}',B::perlstring($key))}return$serialized};$meta->add_type({name=>"StrMatch",parent=>$_str,constraint_generator=>sub {return$meta->get_type('StrMatch')unless @_;my ($regexp,$checker)=@_;$_regexp->check($regexp)or _croak("First parameter to StrMatch[`a] expected to be a Regexp; got $regexp");if (@_ > 1){$checker=Types::TypeTiny::to_TypeTiny($checker);Types::TypeTiny::TypeTiny->check($checker)or _croak("Second parameter to StrMatch[`a] expected to be a type constraint; got $checker")}$checker ? sub {my$value=shift;return if ref($value);my@m=($value =~ $regexp);$checker->check(\@m)}: sub {my$value=shift;!ref($value)and $value =~ $regexp}},inline_generator=>sub {require B;my ($regexp,$checker)=@_;if ($checker){return unless$checker->can_be_inlined;my$serialized_re=$regexp->$serialize_regexp;return sub {my$v=$_[1];sprintf "!ref($v) and do { my \$m = [$v =~ %s]; %s }",$serialized_re,$checker->inline_check('$m'),}}else {my$regexp_string="$regexp";if ($regexp_string =~ /\A\(\?\^u?:(\.+)\)\z/){my$length=length $1;return sub {"!ref($_) and length($_)>=$length"}}if ($regexp_string =~ /\A\(\?\^u?:\\A(\.+)\\z\)\z/){my$length=length $1;return sub {"!ref($_) and length($_)==$length"}}my$serialized_re=$regexp->$serialize_regexp;return sub {my$v=$_[1];"!ref($v) and $v =~ $serialized_re"}}},});$meta->add_type({name=>"OptList",parent=>$_arr,constraint=>sub {for my$inner (@$_){return unless ref($inner)eq q(ARRAY);return unless @$inner==2;return unless is_Str($inner->[0])}return!!1},inlined=>sub {my ($self,$var)=@_;my$Str_check=Str()->inline_check('$inner->[0]');my@code='do { my $ok = 1; ';push@code,sprintf('for my $inner (@{%s}) { no warnings; ',$var);push@code,sprintf('($ok=0) && last unless ref($inner) eq q(ARRAY) && @$inner == 2 && (%s); ',$Str_check);push@code,'} ';push@code,'$ok }';return (undef,join(q( ),@code))},});$meta->add_type({name=>"Tied",parent=>$_ref,constraint=>sub {!!tied(Scalar::Util::reftype($_)eq 'HASH' ? %{$_}: Scalar::Util::reftype($_)eq 'ARRAY' ? @{$_}: ${$_})},inlined=>sub {my ($self,$var)=@_;$self->parent->inline_check($var)." and !!tied(Scalar::Util::reftype($var) eq 'HASH' ? \%{$var} : Scalar::Util::reftype($var) eq 'ARRAY' ? \@{$var} : \${$var})"},name_generator=>sub {my$self=shift;my$param=Types::TypeTiny::to_TypeTiny(shift);unless (Types::TypeTiny::TypeTiny->check($param)){Types::TypeTiny::StringLike->check($param)or _croak("Parameter to Tied[`a] expected to be a class name; got $param");require B;return sprintf("%s[%s]",$self,B::perlstring($param))}return sprintf("%s[%s]",$self,$param)},constraint_generator=>sub {return$meta->get_type('Tied')unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);unless (Types::TypeTiny::TypeTiny->check($param)){Types::TypeTiny::StringLike->check($param)or _croak("Parameter to Tied[`a] expected to be a class name; got $param");require Type::Tiny::Class;$param="Type::Tiny::Class"->new(class=>"$param")}my$check=$param->compiled_check;return sub {$check->(tied(Scalar::Util::reftype($_)eq 'HASH' ? %{$_}: Scalar::Util::reftype($_)eq 'ARRAY' ? @{$_}: ${$_}))}},inline_generator=>sub {my$param=Types::TypeTiny::to_TypeTiny(shift);unless (Types::TypeTiny::TypeTiny->check($param)){Types::TypeTiny::StringLike->check($param)or _croak("Parameter to Tied[`a] expected to be a class name; got $param");require Type::Tiny::Class;$param="Type::Tiny::Class"->new(class=>"$param")}return unless$param->can_be_inlined;return sub {require B;my$var=$_[1];sprintf("%s and do { my \$TIED = tied(Scalar::Util::reftype($var) eq 'HASH' ? \%{$var} : Scalar::Util::reftype($var) eq 'ARRAY' ? \@{$var} : \${$var}); %s }",Ref()->inline_check($var),$param->inline_check('$TIED'))}},});$meta->add_type({name=>"InstanceOf",parent=>$_obj,constraint_generator=>sub {return$meta->get_type('InstanceOf')unless @_;require Type::Tiny::Class;my@classes=map {Types::TypeTiny::TypeTiny->check($_)? $_ : "Type::Tiny::Class"->new(class=>$_,display_name=>sprintf('InstanceOf[%s]',B::perlstring($_)))}@_;return$classes[0]if@classes==1;require B;require Type::Tiny::Union;return "Type::Tiny::Union"->new(type_constraints=>\@classes,display_name=>sprintf('InstanceOf[%s]',join q[,],map B::perlstring($_->class),@classes),)},});$meta->add_type({name=>"ConsumerOf",parent=>$_obj,constraint_generator=>sub {return$meta->get_type('ConsumerOf')unless @_;require B;require Type::Tiny::Role;my@roles=map {Types::TypeTiny::TypeTiny->check($_)? $_ : "Type::Tiny::Role"->new(role=>$_,display_name=>sprintf('ConsumerOf[%s]',B::perlstring($_)))}@_;return$roles[0]if@roles==1;require Type::Tiny::Intersection;return "Type::Tiny::Intersection"->new(type_constraints=>\@roles,display_name=>sprintf('ConsumerOf[%s]',join q[,],map B::perlstring($_->role),@roles),)},});$meta->add_type({name=>"HasMethods",parent=>$_obj,constraint_generator=>sub {return$meta->get_type('HasMethods')unless @_;require B;require Type::Tiny::Duck;return "Type::Tiny::Duck"->new(methods=>\@_,display_name=>sprintf('HasMethods[%s]',join q[,],map B::perlstring($_),@_),)},});$meta->add_type({name=>"Enum",parent=>$_str,constraint_generator=>sub {return$meta->get_type('Enum')unless @_;require B;require Type::Tiny::Enum;return "Type::Tiny::Enum"->new(values=>\@_,display_name=>sprintf('Enum[%s]',join q[,],map B::perlstring($_),@_),)},});$meta->add_coercion({name=>"MkOpt",type_constraint=>$meta->get_type("OptList"),type_coercion_map=>[$_arr,q{ Exporter::Tiny::mkopt($_) },$_hash,q{ Exporter::Tiny::mkopt($_) },$_undef,q{ [] },],});$meta->add_coercion({name=>"Join",type_constraint=>$_str,coercion_generator=>sub {my ($self,$target,$sep)=@_;Types::TypeTiny::StringLike->check($sep)or _croak("Parameter to Join[`a] expected to be a string; got $sep");require B;$sep=B::perlstring($sep);return (ArrayRef(),qq{ join($sep, \@\$_) })},});$meta->add_coercion({name=>"Split",type_constraint=>$_arr,coercion_generator=>sub {my ($self,$target,$re)=@_;ref($re)eq q(Regexp) or _croak("Parameter to Split[`a] expected to be a regular expresssion; got $re");my$regexp_string="$re";$regexp_string =~ s/\\\//\\\\\//g;return (Str(),qq{ [split /$regexp_string/, \$_] })},});__PACKAGE__->meta->make_immutable;1;
TYPES_STANDARD
$fatpacked{"Types/Standard/ArrayRef.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_ARRAYREF';
package Types::Standard::ArrayRef;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::ArrayRef::AUTHORITY='cpan:TOBYINK';$Types::Standard::ArrayRef::VERSION='1.002001'}use Type::Tiny ();use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}no warnings;sub __constraint_generator {return Types::Standard::ArrayRef unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to ArrayRef[`a] expected to be a type constraint; got $param");_croak("Only one parameter to ArrayRef[`a] expected; got @{[ 1 + @_ ]}. Did you mean to use Tuple[`a]?")if @_;my$param_compiled_check=$param->compiled_check;my$xsub;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($param_compiled_check);$xsub=Type::Tiny::XS::get_coderef_for("ArrayRef[$paramname]")if$paramname}elsif (Type::Tiny::_USE_MOUSE and $param->_has_xsub){require Mouse::Util::TypeConstraints;my$maker="Mouse::Util::TypeConstraints"->can("_parameterize_ArrayRef_for");$xsub=$maker->($param)if$maker}return (sub {my$array=shift;$param->check($_)|| return for @$array;return!!1},$xsub,)}sub __inline_generator {my$param=shift;my$param_compiled_check=$param->compiled_check;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($param_compiled_check);my$xsubname=Type::Tiny::XS::get_subname_for("ArrayRef[$paramname]");return sub {"$xsubname\($_[1]\)"}if$xsubname}return unless$param->can_be_inlined;my$param_check=$param->inline_check('$i');return sub {my$v=$_[1];my$p=Types::Standard::ArrayRef->inline_check($v);"$p and do { " ."my \$ok = 1; " ."for my \$i (\@{$v}) { " ."(\$ok = 0, last) unless $param_check " ."}; " ."\$ok " ."}"}}sub __deep_explanation {my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];for my$i (0 .. $#$value){my$item=$value->[$i];next if$param->check($item);return [sprintf('"%s" constrains each value in the array with "%s"',$type,$param),@{$param->validate_explain($item,sprintf('%s->[%d]',$varname,$i))},]}return}sub __coercion_generator {my ($parent,$child,$param)=@_;return unless$param->has_coercion;my$coercable_item=$param->coercion->_source_type_union;my$C="Type::Coercion"->new(type_constraint=>$child);if ($param->coercion->can_be_inlined and $coercable_item->can_be_inlined){$C->add_type_coercions($parent=>Types::Standard::Stringable {my@code;push@code,'do { my ($orig, $return_orig, @new) = ($_, 0);';push@code,'for (@$orig) {';push@code,sprintf('++$return_orig && last unless (%s);',$coercable_item->inline_check('$_'));push@code,sprintf('push @new, (%s);',$param->coercion->inline_coercion('$_'));push@code,'}';push@code,'$return_orig ? $orig : \\@new';push@code,'}';"@code"})}else {$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;my@new;for my$item (@$value){return$value unless$coercable_item->check($item);push@new,$param->coerce($item)}return \@new},)}return$C}1;
TYPES_STANDARD_ARRAYREF
$fatpacked{"Types/Standard/CycleTuple.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_CYCLETUPLE';
package Types::Standard::CycleTuple;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::CycleTuple::AUTHORITY='cpan:TOBYINK';$Types::Standard::CycleTuple::VERSION='1.002001'}use Type::Tiny ();use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}my$_Optional=Types::Standard::Optional;my$_arr=Types::Standard::ArrayRef;no warnings;my$cycleuniq=0;sub __constraint_generator {my@params=map {ref($_)eq 'HASH' and exists($_->{slurpy})and _croak("Parameters to CycleTuple[`a] cannot be slurpy");my$param=Types::TypeTiny::to_TypeTiny($_);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to CycleTuple[`a] expected to be a type constraint; got $param");$param}@_;my$count=@params;my$tuple=Types::Standard::Tuple()->of(@params);_croak("Parameters to CycleTuple[`a] cannot be optional")if grep!!$_->is_strictly_a_type_of($_Optional),@params;sub {my$value=shift;return unless$_arr->check($value);return if @$value % $count;my$i=0;while ($i < $#$value){my$tmp=[@$value[$i .. $i+$count-1 ]];return unless$tuple->check($tmp);$i += $count}!!1}}sub __inline_generator {my@params=map {my$param=Types::TypeTiny::to_TypeTiny($_);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to CycleTuple[`a] expected to be a type constraint; got $param");$param}@_;my$count=@params;my$tuple=Types::Standard::Tuple()->of(@params);return unless$tuple->can_be_inlined;sub {$cycleuniq++;my$v=$_[1];my@checks=$_arr->inline_check($v);push@checks,sprintf('not(@%s %% %d)',($v=~/\A\$[a-z0-9_]+\z/i ? $v : "{$v}"),$count,);push@checks,sprintf('do { my $cyclecount%d = 0; my $cycleok%d = 1; while ($cyclecount%d < $#{%s}) { my $cycletmp%d = [@{%s}[$cyclecount%d .. $cyclecount%d+%d]]; unless (%s) { $cycleok%d = 0; last; }; $cyclecount%d += %d; }; $cycleok%d; }',$cycleuniq,$cycleuniq,$cycleuniq,$v,$cycleuniq,$v,$cycleuniq,$cycleuniq,$count - 1,$tuple->inline_check("\$cycletmp$cycleuniq"),$cycleuniq,$cycleuniq,$count,$cycleuniq,)if grep {$_->inline_check('$xyz')ne '(!!1)'}@params;join(' && ',@checks)}}sub __deep_explanation {my ($type,$value,$varname)=@_;my@constraints=map Types::TypeTiny::to_TypeTiny($_),@{$type->parameters};if (@$value % @constraints){return [sprintf('"%s" expects a multiple of %d values in the array',$type,scalar(@constraints)),sprintf('%d values found',scalar(@$value)),]}for my$i (0 .. $#$value){my$constraint=$constraints[$i % @constraints];next if$constraint->check($value->[$i]);return [sprintf('"%s" constrains value at index %d of array with "%s"',$type,$i,$constraint),@{$constraint->validate_explain($value->[$i],sprintf('%s->[%s]',$varname,$i))},]}return}my$label_counter=0;sub __coercion_generator {my ($parent,$child,@tuple)=@_;my$child_coercions_exist=0;my$all_inlinable=1;for my$tc (@tuple){$all_inlinable=0 if!$tc->can_be_inlined;$all_inlinable=0 if$tc->has_coercion &&!$tc->coercion->can_be_inlined;$child_coercions_exist++ if$tc->has_coercion}return unless$child_coercions_exist;my$C="Type::Coercion"->new(type_constraint=>$child);if ($all_inlinable){$C->add_type_coercions($parent=>Types::Standard::Stringable {my$label=sprintf("CTUPLELABEL%d",++$label_counter);my$label2=sprintf("CTUPLEINNER%d",$label_counter);my@code;push@code,'do { my ($orig, $return_orig, $tmp, @new) = ($_, 0);';push@code,"$label: {";push@code,sprintf('(($return_orig = 1), last %s) if scalar(@$orig) %% %d != 0;',$label,scalar@tuple);push@code,sprintf('my $%s = 0; while ($%s < @$orig) {',$label2,$label2);for my$i (0 .. $#tuple){my$ct=$tuple[$i];my$ct_coerce=$ct->has_coercion;push@code,sprintf('do { $tmp = %s; (%s) ? ($new[$%s + %d]=$tmp) : (($return_orig=1), last %s) };',$ct_coerce ? $ct->coercion->inline_coercion("\$orig->[\$$label2 + $i]"): "\$orig->[\$$label2 + $i]",$ct->inline_check('$tmp'),$label2,$i,$label,)}push@code,sprintf('$%s += %d;',$label2,scalar(@tuple));push@code,'}';push@code,'}';push@code,'$return_orig ? $orig : \\@new';push@code,'}';"@code"})}else {$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;if (scalar(@$value)% scalar(@tuple)!=0){return$value}my@new;for my$i (0 .. $#$value){my$ct=$tuple[$i % @tuple];my$x=$ct->has_coercion ? $ct->coerce($value->[$i]): $value->[$i];return$value unless$ct->check($x);$new[$i]=$x}return \@new},)};return$C}1;
TYPES_STANDARD_CYCLETUPLE
$fatpacked{"Types/Standard/Dict.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_DICT';
package Types::Standard::Dict;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::Dict::AUTHORITY='cpan:TOBYINK';$Types::Standard::Dict::VERSION='1.002001'}use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}my$_optional=Types::Standard::Optional;my$_hash=Types::Standard::HashRef;my$_map=Types::Standard::Map;my$_any=Types::Standard::Any;no warnings;sub __constraint_generator {my$slurpy=ref($_[-1])eq q(HASH) ? pop(@_)->{slurpy}: undef;my%constraints=@_;my%is_optional;while (my ($k,$v)=each%constraints){$constraints{$k}=Types::TypeTiny::to_TypeTiny($v);$is_optional{$k}=!!$constraints{$k}->is_strictly_a_type_of($_optional);Types::TypeTiny::TypeTiny->check($v)or _croak("Parameter to Dict[`a] for key '$k' expected to be a type constraint; got $v")}return sub {my$value=$_[0];if ($slurpy){my%tmp=map {exists($constraints{$_})? (): ($_=>$value->{$_})}keys %$value;return unless$slurpy->check(\%tmp)}else {exists($constraints{$_})|| return for sort keys %$value}for my$k (sort keys%constraints){exists($value->{$k})or ($is_optional{$k}? next : return);$constraints{$k}->check($value->{$k})or return}return!!1}}sub __inline_generator {my$slurpy=ref($_[-1])eq q(HASH) ? pop(@_)->{slurpy}: undef;return if$slurpy &&!$slurpy->can_be_inlined;my$slurpy_is_any=$slurpy && $_hash->is_a_type_of($slurpy);my$slurpy_is_map=$slurpy && $slurpy->is_parameterized && (($slurpy->parent->strictly_equals($_map)&& $slurpy->parameters)||($slurpy->parent->strictly_equals($_hash)&& [$_any,$slurpy->parameters->[0]]));my%constraints=@_;for my$c (values%constraints){next if$c->can_be_inlined;return}my$regexp=join "|",map quotemeta,sort keys%constraints;return sub {require B;my$h=$_[1];join " and ",Types::Standard::HashRef->inline_check($h),($slurpy_is_any ? (): $slurpy_is_map ? do {'(not grep {' ."my \$v = ($h)->{\$_};" .sprintf('not((/\\A(?:%s)\\z/) or ((%s) and (%s)))',$regexp,$slurpy_is_map->[0]->inline_check('$_'),$slurpy_is_map->[1]->inline_check('$v'),)."} keys \%{$h})"}: $slurpy ? do {'do {' ."my \$slurpy_tmp = +{ map /\\A(?:$regexp)\\z/ ? () : (\$_ => ($h)->{\$_}), keys \%{$h} };" .$slurpy->inline_check('$slurpy_tmp').'}'}: "not(grep !/\\A(?:$regexp)\\z/, keys \%{$h})"),(map {my$k=B::perlstring($_);$constraints{$_}->is_strictly_a_type_of($_optional)? sprintf('(!exists %s->{%s} or %s)',$h,$k,$constraints{$_}->inline_check("$h\->{$k}")): ("exists($h\->{$k})",$constraints{$_}->inline_check("$h\->{$k}"))}sort keys%constraints),}}sub __deep_explanation {require B;my ($type,$value,$varname)=@_;my@params=@{$type->parameters};my$slurpy=ref($params[-1])eq q(HASH) ? pop(@params)->{slurpy}: undef;my%constraints=@params;for my$k (sort keys%constraints){next if$constraints{$k}->parent==Types::Standard::Optional &&!exists$value->{$k};next if$constraints{$k}->check($value->{$k});return [sprintf('"%s" requires key %s to appear in hash',$type,B::perlstring($k))]unless exists$value->{$k};return [sprintf('"%s" constrains value at key %s of hash with "%s"',$type,B::perlstring($k),$constraints{$k}),@{$constraints{$k}->validate_explain($value->{$k},sprintf('%s->{%s}',$varname,B::perlstring($k)))},]}if ($slurpy){my%tmp=map {exists($constraints{$_})? (): ($_=>$value->{$_})}keys %$value;my$explain=$slurpy->validate_explain(\%tmp,'$slurpy');return [sprintf('"%s" requires the hashref of additional key/value pairs to conform to "%s"',$type,$slurpy),@$explain,]if$explain}else {for my$k (sort keys %$value){return [sprintf('"%s" does not allow key %s to appear in hash',$type,B::perlstring($k))]unless exists$constraints{$k}}}return}my$label_counter=0;our ($keycheck_counter,@KEYCHECK)=-1;sub __coercion_generator {my$slurpy=ref($_[-1])eq q(HASH) ? pop(@_)->{slurpy}: undef;my ($parent,$child,%dict)=@_;my$C="Type::Coercion"->new(type_constraint=>$child);my$all_inlinable=1;my$child_coercions_exist=0;for my$tc (values%dict){$all_inlinable=0 if!$tc->can_be_inlined;$all_inlinable=0 if$tc->has_coercion &&!$tc->coercion->can_be_inlined;$child_coercions_exist++ if$tc->has_coercion}$all_inlinable=0 if$slurpy &&!$slurpy->can_be_inlined;$all_inlinable=0 if$slurpy && $slurpy->has_coercion &&!$slurpy->coercion->can_be_inlined;$child_coercions_exist++ if$slurpy && $slurpy->has_coercion;return unless$child_coercions_exist;if ($all_inlinable){$C->add_type_coercions($parent=>Types::Standard::Stringable {require B;my$keycheck=join "|",map quotemeta,sort {length($b)<=> length($a)or $a cmp $b}keys%dict;$keycheck=$KEYCHECK[++$keycheck_counter]=qr{^($keycheck)$}ms;my$label=sprintf("DICTLABEL%d",++$label_counter);my@code;push@code,'do { my ($orig, $return_orig, $tmp, %new) = ($_, 0);';push@code,"$label: {";if ($slurpy){push@code,sprintf('my $slurped = +{ map +($_=~$%s::KEYCHECK[%d])?():($_=>$orig->{$_}), keys %%$orig };',__PACKAGE__,$keycheck_counter);if ($slurpy->has_coercion){push@code,sprintf('my $coerced = %s;',$slurpy->coercion->inline_coercion('$slurped'));push@code,sprintf('((%s)&&(%s))?(%%new=%%$coerced):(($return_orig = 1), last %s);',$_hash->inline_check('$coerced'),$slurpy->inline_check('$coerced'),$label)}else {push@code,sprintf('(%s)?(%%new=%%$slurped):(($return_orig = 1), last %s);',$slurpy->inline_check('$slurped'),$label)}}else {push@code,sprintf('($_ =~ $%s::KEYCHECK[%d])||(($return_orig = 1), last %s) for sort keys %%$orig;',__PACKAGE__,$keycheck_counter,$label)}for my$k (keys%dict){my$ct=$dict{$k};my$ct_coerce=$ct->has_coercion;my$ct_optional=$ct->is_a_type_of($_optional);my$K=B::perlstring($k);push@code,sprintf('if (exists $orig->{%s}) { $tmp = %s; (%s) ? ($new{%s}=$tmp) : (($return_orig=1), last %s) }',$K,$ct_coerce ? $ct->coercion->inline_coercion("\$orig->{$K}"): "\$orig->{$K}",$ct->inline_check('$tmp'),$K,$label,)}push@code,'}';push@code,'$return_orig ? $orig : \\%new';push@code,'}';"@code"})}else {my%is_optional=map {;$_=>!!$dict{$_}->is_strictly_a_type_of($_optional)}sort keys%dict;$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;my%new;if ($slurpy){my%slurped=map exists($dict{$_})? (): ($_=>$value->{$_}),keys %$value;if ($slurpy->check(\%slurped)){%new=%slurped}elsif ($slurpy->has_coercion){my$coerced=$slurpy->coerce(\%slurped);$slurpy->check($coerced)? (%new=%$coerced): (return$value)}else {return$value}}else {for my$k (keys %$value){return$value unless exists$dict{$k}}}for my$k (keys%dict){next if$is_optional{$k}and not exists$value->{$k};my$ct=$dict{$k};my$x=$ct->has_coercion ? $ct->coerce($value->{$k}): $value->{$k};return$value unless$ct->check($x);$new{$k}=$x}return \%new},)}return$C}1;
TYPES_STANDARD_DICT
$fatpacked{"Types/Standard/HashRef.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_HASHREF';
package Types::Standard::HashRef;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::HashRef::AUTHORITY='cpan:TOBYINK';$Types::Standard::HashRef::VERSION='1.002001'}use Type::Tiny ();use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}no warnings;sub __constraint_generator {return Types::Standard::HashRef unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to HashRef[`a] expected to be a type constraint; got $param");my$param_compiled_check=$param->compiled_check;my$xsub;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($param_compiled_check);$xsub=Type::Tiny::XS::get_coderef_for("HashRef[$paramname]")if$paramname}elsif (Type::Tiny::_USE_MOUSE and $param->_has_xsub){require Mouse::Util::TypeConstraints;my$maker="Mouse::Util::TypeConstraints"->can("_parameterize_HashRef_for");$xsub=$maker->($param)if$maker}return (sub {my$hash=shift;$param->check($_)|| return for values %$hash;return!!1},$xsub,)}sub __inline_generator {my$param=shift;my$compiled=$param->compiled_check;if (Type::Tiny::_USE_XS){my$paramname=Type::Tiny::XS::is_known($compiled);my$xsubname=Type::Tiny::XS::get_subname_for("HashRef[$paramname]");return sub {"$xsubname\($_[1]\)"}if$xsubname}return unless$param->can_be_inlined;my$param_check=$param->inline_check('$i');return sub {my$v=$_[1];my$p=Types::Standard::HashRef->inline_check($v);"$p and do { " ."my \$ok = 1; " ."for my \$i (values \%{$v}) { " ."(\$ok = 0, last) unless $param_check " ."}; " ."\$ok " ."}"}}sub __deep_explanation {require B;my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];for my$k (sort keys %$value){my$item=$value->{$k};next if$param->check($item);return [sprintf('"%s" constrains each value in the hash with "%s"',$type,$param),@{$param->validate_explain($item,sprintf('%s->{%s}',$varname,B::perlstring($k)))},]}return}sub __coercion_generator {my ($parent,$child,$param)=@_;return unless$param->has_coercion;my$coercable_item=$param->coercion->_source_type_union;my$C="Type::Coercion"->new(type_constraint=>$child);if ($param->coercion->can_be_inlined and $coercable_item->can_be_inlined){$C->add_type_coercions($parent=>Types::Standard::Stringable {my@code;push@code,'do { my ($orig, $return_orig, %new) = ($_, 0);';push@code,'for (keys %$orig) {';push@code,sprintf('$return_orig++ && last unless (%s);',$coercable_item->inline_check('$orig->{$_}'));push@code,sprintf('$new{$_} = (%s);',$param->coercion->inline_coercion('$orig->{$_}'));push@code,'}';push@code,'$return_orig ? $orig : \\%new';push@code,'}';"@code"})}else {$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;my%new;for my$k (keys %$value){return$value unless$coercable_item->check($value->{$k});$new{$k}=$param->coerce($value->{$k})}return \%new},)}return$C}1;
TYPES_STANDARD_HASHREF
$fatpacked{"Types/Standard/Map.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_MAP';
package Types::Standard::Map;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::Map::AUTHORITY='cpan:TOBYINK';$Types::Standard::Map::VERSION='1.002001'}use Type::Tiny ();use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}my$meta=Types::Standard->meta;no warnings;sub __constraint_generator {return$meta->get_type('Map')unless @_;my ($keys,$values)=map Types::TypeTiny::to_TypeTiny($_),@_;Types::TypeTiny::TypeTiny->check($keys)or _croak("First parameter to Map[`k,`v] expected to be a type constraint; got $keys");Types::TypeTiny::TypeTiny->check($values)or _croak("Second parameter to Map[`k,`v] expected to be a type constraint; got $values");my@xsub;if (Type::Tiny::_USE_XS){my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}($keys,$values);if (@known==2){my$xsub=Type::Tiny::XS::get_coderef_for(sprintf "Map[%s,%s]",@known);push@xsub,$xsub if$xsub}}sub {my$hash=shift;$keys->check($_)|| return for keys %$hash;$values->check($_)|| return for values %$hash;return!!1},@xsub}sub __inline_generator {my ($k,$v)=@_;return unless$k->can_be_inlined && $v->can_be_inlined;if (Type::Tiny::_USE_XS){my@known=map {my$known=Type::Tiny::XS::is_known($_->compiled_check);defined($known)? $known : ()}($k,$v);if (@known==2){my$xsub=Type::Tiny::XS::get_subname_for(sprintf "Map[%s,%s]",@known);return sub {my$var=$_[1];"$xsub\($var\)"}if$xsub}}my$k_check=$k->inline_check('$k');my$v_check=$v->inline_check('$v');return sub {my$h=$_[1];my$p=Types::Standard::HashRef->inline_check($h);"$p and do { " ."my \$ok = 1; " ."for my \$v (values \%{$h}) { " ."(\$ok = 0, last) unless $v_check " ."}; " ."for my \$k (keys \%{$h}) { " ."(\$ok = 0, last) unless $k_check " ."}; " ."\$ok " ."}"}}sub __deep_explanation {require B;my ($type,$value,$varname)=@_;my ($kparam,$vparam)=@{$type->parameters};for my$k (sort keys %$value){unless ($kparam->check($k)){return [sprintf('"%s" constrains each key in the hash with "%s"',$type,$kparam),@{$kparam->validate_explain($k,sprintf('key %s->{%s}',$varname,B::perlstring($k)))},]}unless ($vparam->check($value->{$k})){return [sprintf('"%s" constrains each value in the hash with "%s"',$type,$vparam),@{$vparam->validate_explain($value->{$k},sprintf('%s->{%s}',$varname,B::perlstring($k)))},]}}return}sub __coercion_generator {my ($parent,$child,$kparam,$vparam)=@_;return unless$kparam->has_coercion || $vparam->has_coercion;my$kcoercable_item=$kparam->has_coercion ? $kparam->coercion->_source_type_union : $kparam;my$vcoercable_item=$vparam->has_coercion ? $vparam->coercion->_source_type_union : $vparam;my$C="Type::Coercion"->new(type_constraint=>$child);if ((!$kparam->has_coercion or $kparam->coercion->can_be_inlined)and (!$vparam->has_coercion or $vparam->coercion->can_be_inlined)and $kcoercable_item->can_be_inlined and $vcoercable_item->can_be_inlined){$C->add_type_coercions($parent=>Types::Standard::Stringable {my@code;push@code,'do { my ($orig, $return_orig, %new) = ($_, 0);';push@code,'for (keys %$orig) {';push@code,sprintf('++$return_orig && last unless (%s);',$kcoercable_item->inline_check('$_'));push@code,sprintf('++$return_orig && last unless (%s);',$vcoercable_item->inline_check('$orig->{$_}'));push@code,sprintf('$new{(%s)} = (%s);',$kparam->has_coercion ? $kparam->coercion->inline_coercion('$_'): '$_',$vparam->has_coercion ? $vparam->coercion->inline_coercion('$orig->{$_}'): '$orig->{$_}',);push@code,'}';push@code,'$return_orig ? $orig : \\%new';push@code,'}';"@code"})}else {$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;my%new;for my$k (keys %$value){return$value unless$kcoercable_item->check($k)&& $vcoercable_item->check($value->{$k});$new{$kparam->has_coercion ? $kparam->coerce($k): $k}=$vparam->has_coercion ? $vparam->coerce($value->{$k}): $value->{$k}}return \%new},)}return$C}1;
TYPES_STANDARD_MAP
$fatpacked{"Types/Standard/ScalarRef.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_SCALARREF';
package Types::Standard::ScalarRef;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::ScalarRef::AUTHORITY='cpan:TOBYINK';$Types::Standard::ScalarRef::VERSION='1.002001'}use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}no warnings;sub __constraint_generator {return Types::Standard::ScalarRef unless @_;my$param=Types::TypeTiny::to_TypeTiny(shift);Types::TypeTiny::TypeTiny->check($param)or _croak("Parameter to ScalarRef[`a] expected to be a type constraint; got $param");return sub {my$ref=shift;$param->check($$ref)|| return;return!!1}}sub __inline_generator {my$param=shift;return unless$param->can_be_inlined;return sub {my$v=$_[1];my$param_check=$param->inline_check("\${$v}");"(ref($v) eq 'SCALAR' or ref($v) eq 'REF') and $param_check"}}sub __deep_explanation {my ($type,$value,$varname)=@_;my$param=$type->parameters->[0];for my$item ($$value){next if$param->check($item);return [sprintf('"%s" constrains the referenced scalar value with "%s"',$type,$param),@{$param->validate_explain($item,sprintf('${%s}',$varname))},]}return}sub __coercion_generator {my ($parent,$child,$param)=@_;return unless$param->has_coercion;my$coercable_item=$param->coercion->_source_type_union;my$C="Type::Coercion"->new(type_constraint=>$child);if ($param->coercion->can_be_inlined and $coercable_item->can_be_inlined){$C->add_type_coercions($parent=>Types::Standard::Stringable {my@code;push@code,'do { my ($orig, $return_orig, $new) = ($_, 0);';push@code,'for ($$orig) {';push@code,sprintf('++$return_orig && last unless (%s);',$coercable_item->inline_check('$_'));push@code,sprintf('$new = (%s);',$param->coercion->inline_coercion('$_'));push@code,'}';push@code,'$return_orig ? $orig : \\$new';push@code,'}';"@code"})}else {$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;my$new;for my$item ($$value){return$value unless$coercable_item->check($item);$new=$param->coerce($item)}return \$new},)}return$C}1;
TYPES_STANDARD_SCALARREF
$fatpacked{"Types/Standard/Tuple.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_STANDARD_TUPLE';
package Types::Standard::Tuple;use 5.006001;use strict;use warnings;BEGIN {$Types::Standard::Tuple::AUTHORITY='cpan:TOBYINK';$Types::Standard::Tuple::VERSION='1.002001'}use Type::Tiny ();use Types::Standard ();use Types::TypeTiny ();sub _croak ($;@) {require Error::TypeTiny;goto \&Error::TypeTiny::croak}my$_Optional=Types::Standard::Optional;no warnings;sub __constraint_generator {my@constraints=@_;my$slurpy;if (exists$constraints[-1]and ref$constraints[-1]eq "HASH"){$slurpy=Types::TypeTiny::to_TypeTiny(pop(@constraints)->{slurpy});Types::TypeTiny::TypeTiny->check($slurpy)or _croak("Slurpy parameter to Tuple[...] expected to be a type constraint; got $slurpy")}@constraints=map Types::TypeTiny::to_TypeTiny($_),@constraints;for (@constraints){Types::TypeTiny::TypeTiny->check($_)or _croak("Parameters to Tuple[...] expected to be type constraints; got $_")}my@xsub;if (Type::Tiny::_USE_XS and!$slurpy){my@known=map {my$known;$known=Type::Tiny::XS::is_known($_->compiled_check)unless $_->is_strictly_a_type_of($_Optional);defined($known)? $known : ()}@constraints;if (@known==@constraints){my$xsub=Type::Tiny::XS::get_coderef_for(sprintf "Tuple[%s]",join(',',@known));push@xsub,$xsub if$xsub}}my@is_optional=map!!$_->is_strictly_a_type_of($_Optional),@constraints;my$slurp_hash=$slurpy && $slurpy->is_a_type_of(Types::Standard::HashRef);my$slurp_any=$slurpy && $slurpy->equals(Types::Standard::Any);sub {my$value=$_[0];if ($#constraints < $#$value){return!!0 unless$slurpy;my$tmp;if ($slurp_hash){($#$value - $#constraints+1)% 2 or return;$tmp=+{@$value[$#constraints+1 .. $#$value]};$slurpy->check($tmp)or return}elsif (not $slurp_any){$tmp=+[@$value[$#constraints+1 .. $#$value]];$slurpy->check($tmp)or return}}for my$i (0 .. $#constraints){($i > $#$value)and return!!$is_optional[$i];$constraints[$i]->check($value->[$i])or return!!0}return!!1},@xsub}sub __inline_generator {my@constraints=@_;my$slurpy;if (exists$constraints[-1]and ref$constraints[-1]eq "HASH"){$slurpy=pop(@constraints)->{slurpy}}return if grep {not $_->can_be_inlined}@constraints;return if defined$slurpy &&!$slurpy->can_be_inlined;if (Type::Tiny::_USE_XS and!$slurpy){my@known=map {my$known;$known=Type::Tiny::XS::is_known($_->compiled_check)unless $_->is_strictly_a_type_of($_Optional);defined($known)? $known : ()}@constraints;if (@known==@constraints){my$xsub=Type::Tiny::XS::get_subname_for(sprintf "Tuple[%s]",join(',',@known));return sub {my$var=$_[1];"$xsub\($var\)"}if$xsub}}my$tmpl="do { my \$tmp = +[\@{%s}[%d..\$#{%s}]]; %s }";my$slurpy_any;if (defined$slurpy){$tmpl='do { my ($orig, $from, $to) = (%s, %d, $#{%s});' .'($to-$from % 2) and do { my $tmp = +{@{$orig}[$from..$to]}; %s }' .'}' if$slurpy->is_a_type_of(Types::Standard::HashRef);$slurpy_any=1 if$slurpy->equals(Types::Standard::Any)}my@is_optional=map!!$_->is_strictly_a_type_of($_Optional),@constraints;my$min=0 + grep!$_,@is_optional;return sub {my$v=$_[1];join " and ",Types::Standard::ArrayRef->inline_check($v),((scalar@constraints==$min and not $slurpy)? "\@{$v} == $min" : ("\@{$v} >= $min",($slurpy_any ? (): ($slurpy ? sprintf($tmpl,$v,$#constraints+1,$v,$slurpy->inline_check('$tmp')): sprintf("\@{$v} <= %d",scalar@constraints))),)),map {my$inline=$constraints[$_]->inline_check("$v\->[$_]");$inline eq '(!!1)' ? (): ($is_optional[$_]? sprintf('(@{%s} <= %d or %s)',$v,$_,$inline): $inline)}0 .. $#constraints}}sub __deep_explanation {my ($type,$value,$varname)=@_;my@constraints=@{$type->parameters};my$slurpy;if (exists$constraints[-1]and ref$constraints[-1]eq "HASH"){$slurpy=Types::TypeTiny::to_TypeTiny(pop(@constraints)->{slurpy})}@constraints=map Types::TypeTiny::to_TypeTiny($_),@constraints;if (@constraints < @$value and not $slurpy){return [sprintf('"%s" expects at most %d values in the array',$type,scalar(@constraints)),sprintf('%d values found; too many',scalar(@$value)),]}for my$i (0 .. $#constraints){next if$constraints[$i]->is_strictly_a_type_of(Types::Standard::Optional)&& $i > $#$value;next if$constraints[$i]->check($value->[$i]);return [sprintf('"%s" constrains value at index %d of array with "%s"',$type,$i,$constraints[$i]),@{$constraints[$i]->validate_explain($value->[$i],sprintf('%s->[%s]',$varname,$i))},]}if (defined($slurpy)){my$tmp=$slurpy->is_a_type_of(Types::Standard::HashRef)? +{@$value[$#constraints+1 .. $#$value]}: +[@$value[$#constraints+1 .. $#$value]];$slurpy->check($tmp)or return [sprintf('Array elements from index %d are slurped into a %s which is constrained with "%s"',$#constraints+1,$slurpy->is_a_type_of(Types::Standard::HashRef)? 'hashref' : 'arrayref',$slurpy,),@{$slurpy->validate_explain($tmp,'$SLURPY')},]}return}my$label_counter=0;sub __coercion_generator {my ($parent,$child,@tuple)=@_;my$slurpy;if (exists$tuple[-1]and ref$tuple[-1]eq "HASH"){$slurpy=pop(@tuple)->{slurpy}}my$child_coercions_exist=0;my$all_inlinable=1;for my$tc (@tuple,($slurpy ? $slurpy : ())){$all_inlinable=0 if!$tc->can_be_inlined;$all_inlinable=0 if$tc->has_coercion &&!$tc->coercion->can_be_inlined;$child_coercions_exist++ if$tc->has_coercion}return unless$child_coercions_exist;my$C="Type::Coercion"->new(type_constraint=>$child);if ($all_inlinable){$C->add_type_coercions($parent=>Types::Standard::Stringable {my$label=sprintf("TUPLELABEL%d",++$label_counter);my@code;push@code,'do { my ($orig, $return_orig, $tmp, @new) = ($_, 0);';push@code,"$label: {";push@code,sprintf('(($return_orig = 1), last %s) if @$orig > %d;',$label,scalar@tuple)unless$slurpy;for my$i (0 .. $#tuple){my$ct=$tuple[$i];my$ct_coerce=$ct->has_coercion;my$ct_optional=$ct->is_a_type_of(Types::Standard::Optional);push@code,sprintf('if (@$orig > %d) { $tmp = %s; (%s) ? ($new[%d]=$tmp) : (($return_orig=1), last %s) }',$i,$ct_coerce ? $ct->coercion->inline_coercion("\$orig->[$i]"): "\$orig->[$i]",$ct->inline_check('$tmp'),$i,$label,)}if ($slurpy){my$size=@tuple;push@code,sprintf('if (@$orig > %d) {',$size);push@code,sprintf('my $tail = [ @{$orig}[%d .. $#$orig] ];',$size);push@code,$slurpy->has_coercion ? sprintf('$tail = %s;',$slurpy->coercion->inline_coercion('$tail')): q();push@code,sprintf('(%s) ? push(@new, @$tail) : ($return_orig++);',$slurpy->inline_check('$tail'),);push@code,'}'}push@code,'}';push@code,'$return_orig ? $orig : \\@new';push@code,'}';"@code"})}else {my@is_optional=map!!$_->is_strictly_a_type_of($_Optional),@tuple;$C->add_type_coercions($parent=>sub {my$value=@_ ? $_[0]: $_;if (!$slurpy and @$value > @tuple){return$value}my@new;for my$i (0 .. $#tuple){return \@new if$i > $#$value and $is_optional[$i];my$ct=$tuple[$i];my$x=$ct->has_coercion ? $ct->coerce($value->[$i]): $value->[$i];return$value unless$ct->check($x);$new[$i]=$x}if ($slurpy and @$value > @tuple){my$tmp=$slurpy->has_coercion ? $slurpy->coerce([@{$value}[@tuple .. $#$value]]): [@{$value}[@tuple .. $#$value]];$slurpy->check($tmp)? push(@new,@$tmp): return($value)}return \@new},)};return$C}1;
TYPES_STANDARD_TUPLE
$fatpacked{"Types/TypeTiny.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'TYPES_TYPETINY';
package Types::TypeTiny;use strict;use warnings;our$AUTHORITY='cpan:TOBYINK';our$VERSION='1.002001';use Scalar::Util qw<blessed refaddr weaken>;our@EXPORT_OK=(__PACKAGE__->type_names,qw/to_TypeTiny/);my%cache;sub import {no warnings "redefine";our@ISA=qw(Exporter::Tiny);require Exporter::Tiny;my$next=\&Exporter::Tiny::import;*import=$next;my$class=shift;my$opts={ref($_[0])? %{+shift}: ()};$opts->{into}||= scalar(caller);return$class->$next($opts,@_)}sub meta {return $_[0]}sub type_names {qw(CodeLike StringLike TypeTiny HashLike ArrayLike)}sub has_type {my%has=map +($_=>1),shift->type_names;!!$has{$_[0]}}sub get_type {my$self=shift;return unless$self->has_type(@_);no strict qw(refs);&{$_[0]}()}sub coercion_names {qw()}sub has_coercion {my%has=map +($_=>1),shift->coercion_names;!!$has{$_[0]}}sub get_coercion {my$self=shift;return unless$self->has_coercion(@_);no strict qw(refs);&{$_[0]}()}sub StringLike () {require Type::Tiny;$cache{StringLike}||= "Type::Tiny"->new(name=>"StringLike",constraint=>sub {defined($_)&&!ref($_)or Scalar::Util::blessed($_)&& overload::Method($_,q[""])},inlined=>sub {qq/defined($_[1]) && !ref($_[1]) or Scalar::Util::blessed($_[1]) && overload::Method($_[1], q[""])/},library=>__PACKAGE__,)}sub HashLike () {require Type::Tiny;$cache{HashLike}||= "Type::Tiny"->new(name=>"HashLike",constraint=>sub {ref($_)eq q[HASH] or Scalar::Util::blessed($_)&& overload::Method($_,q[%{}])},inlined=>sub {qq/ref($_[1]) eq q[HASH] or Scalar::Util::blessed($_[1]) && overload::Method($_[1], q[\%{}])/},library=>__PACKAGE__,)}sub ArrayLike () {require Type::Tiny;$cache{ArrayLike}||= "Type::Tiny"->new(name=>"ArrayLike",constraint=>sub {ref($_)eq q[ARRAY] or Scalar::Util::blessed($_)&& overload::Method($_,q[@{}])},inlined=>sub {qq/ref($_[1]) eq q[ARRAY] or Scalar::Util::blessed($_[1]) && overload::Method($_[1], q[\@{}])/},library=>__PACKAGE__,)}sub CodeLike () {require Type::Tiny;$cache{CodeLike}||= "Type::Tiny"->new(name=>"CodeLike",constraint=>sub {ref($_)eq q[CODE] or Scalar::Util::blessed($_)&& overload::Method($_,q[&{}])},inlined=>sub {qq/ref($_[1]) eq q[CODE] or Scalar::Util::blessed($_[1]) && overload::Method($_[1], q[\&{}])/},library=>__PACKAGE__,)}sub TypeTiny () {require Type::Tiny;$cache{TypeTiny}||= "Type::Tiny"->new(name=>"TypeTiny",constraint=>sub {Scalar::Util::blessed($_)&& $_ ->isa(q[Type::Tiny])},inlined=>sub {my$var=$_[1];"Scalar::Util::blessed($var) && $var\->isa(q[Type::Tiny])"},library=>__PACKAGE__,)}my%ttt_cache;sub to_TypeTiny {my$t=$_[0];return$t unless (my$ref=ref$t);return$t if$ref =~ /^Type::Tiny\b/;return$ttt_cache{refaddr($t)}if$ttt_cache{refaddr($t)};if (my$class=blessed$t){return$t if$class->isa("Type::Tiny");return _TypeTinyFromMoose($t)if$class->isa("Moose::Meta::TypeConstraint");return _TypeTinyFromMoose($t)if$class->isa("MooseX::Types::TypeDecorator");return _TypeTinyFromValidationClass($t)if$class->isa("Validation::Class::Simple");return _TypeTinyFromValidationClass($t)if$class->isa("Validation::Class");return _TypeTinyFromGeneric($t)if$t->can("check")&& $t->can("get_message")}return _TypeTinyFromCodeRef($t)if$ref eq q(CODE);$t}sub _TypeTinyFromMoose {my$t=$_[0];if (ref$t->{"Types::TypeTiny::to_TypeTiny"}){return$t->{"Types::TypeTiny::to_TypeTiny"}}if ($t->name ne '__ANON__'){require Types::Standard;my$ts='Types::Standard'->get_type($t->name);return$ts if$ts->{_is_core}}my%opts;$opts{display_name}=$t->name;$opts{constraint}=$t->constraint;$opts{parent}=to_TypeTiny($t->parent)if$t->has_parent;$opts{inlined}=sub {shift;$t->_inline_check(@_)}if$t->can("can_be_inlined")&& $t->can_be_inlined;$opts{message}=sub {$t->get_message($_)}if$t->has_message;$opts{moose_type}=$t;require Type::Tiny;my$new='Type::Tiny'->new(%opts);$ttt_cache{refaddr($t)}=$new;weaken($ttt_cache{refaddr($t)});$new->{coercion}=do {require Type::Coercion::FromMoose;'Type::Coercion::FromMoose'->new(type_constraint=>$new,moose_coercion=>$t->coercion,)}if$t->has_coercion;return$new}sub _TypeTinyFromValidationClass {my$t=$_[0];require Type::Tiny;require Types::Standard;my%opts=(parent=>Types::Standard::HashRef(),_validation_class=>$t,);if ($t->VERSION >= "7.900048"){$opts{constraint}=sub {$t->params->clear;$t->params->add(%$_);my$f=$t->filtering;$t->filtering('off');my$r=eval {$t->validate};$t->filtering($f || 'pre');return$r};$opts{message}=sub {$t->params->clear;$t->params->add(%$_);my$f=$t->filtering;$t->filtering('off');my$r=(eval {$t->validate}? "OK" : $t->errors_to_string);$t->filtering($f || 'pre');return$r}}else {$opts{constraint}=sub {$t->params->clear;$t->params->add(%$_);no warnings "redefine";local*Validation::Class::Directive::Filters::execute_filtering=sub {$_[0]};eval {$t->validate}};$opts{message}=sub {$t->params->clear;$t->params->add(%$_);no warnings "redefine";local*Validation::Class::Directive::Filters::execute_filtering=sub {$_[0]};eval {$t->validate}? "OK" : $t->errors_to_string}}require Type::Tiny;my$new="Type::Tiny"->new(%opts);$new->coercion->add_type_coercions(Types::Standard::HashRef()=>sub {my%params=%$_;for my$k (keys%params){delete$params{$_}unless$t->get_fields($k)};$t->params->clear;$t->params->add(%params);eval {$t->validate};$t->get_hash},);$ttt_cache{refaddr($t)}=$new;weaken($ttt_cache{refaddr($t)});return$new}sub _TypeTinyFromGeneric {my$t=$_[0];my%opts=(constraint=>sub {$t->check(@_ ? @_ : $_)},message=>sub {$t->get_message(@_ ? @_ : $_)},);$opts{display_name}=$t->name if$t->can("name");$opts{coercion}=sub {$t->coerce(@_ ? @_ : $_)}if$t->can("has_coercion")&& $t->has_coercion && $t->can("coerce");require Type::Tiny;my$new="Type::Tiny"->new(%opts);$ttt_cache{refaddr($t)}=$new;weaken($ttt_cache{refaddr($t)});return$new}my$QFS;sub _TypeTinyFromCodeRef {my$t=$_[0];my%opts=(constraint=>sub {return!!eval {$t->($_)}},message=>sub {local $@;eval {$t->($_);1}or do {chomp $@;return $@ if $@};return sprintf('%s did not pass type constraint',Type::Tiny::_dd($_))},);if ($QFS ||= "Sub::Quote"->can("quoted_from_sub")){my (undef,$perlstring,$captures)=@{$QFS->($t)|| []};if ($perlstring){$perlstring="!!eval{ $perlstring }";$opts{inlined}=sub {my$var=$_[1];Sub::Quote::inlinify($perlstring,$var,$var eq q($_) ? '' : "local \$_ = $var;",1,)}if$perlstring &&!$captures}}require Type::Tiny;my$new="Type::Tiny"->new(%opts);$ttt_cache{refaddr($t)}=$new;weaken($ttt_cache{refaddr($t)});return$new}1;
TYPES_TYPETINY
$fatpacked{"common/sense.pm"} = '#line '.(1+__LINE__).' "'.__FILE__."\"\n".<<'X86_64-LINUX-THREAD-MULTI_COMMON_SENSE';
package common::sense;our$VERSION=3.74;sub import {local $^W;${^WARNING_BITS} ^= ${^WARNING_BITS} ^ "\x0c\x3f\x33\x00\x0f\xf0\x0f\xc0\xf0\xfc\x33\x00\x00\x00\x0c\x00\x00\x00\x00";$^H |= 0x1c820fc0;@^H{qw(feature_state feature_fc feature_evalbytes feature_unicode feature_switch feature_say feature___SUB__)}=(1)x 7}1
X86_64-LINUX-THREAD-MULTI_COMMON_SENSE
s/^ //mg for values %fatpacked;
my $class = 'FatPacked::'.(0+\%fatpacked);
no strict 'refs';
*{"${class}::files"} = sub { keys %{$_[0]} };
if ($] < 5.008) {
*{"${class}::INC"} = sub {
if (my $fat = $_[0]{$_[1]}) {
my $pos = 0;
my $last = length $fat;
return (sub {
return 0 if $pos == $last;
my $next = (1 + index $fat, "\n", $pos) || $last;
$_ .= substr $fat, $pos, $next - $pos;
$pos = $next;
return 1;
});
}
};
}
else {
*{"${class}::INC"} = sub {
if (my $fat = $_[0]{$_[1]}) {
open my $fh, '<', \$fat
or die "FatPacker error loading $_[1] (could be a perl installation issue?)";
return $fh;
}
return;
};
}
unshift @INC, bless \%fatpacked, $class;
} # END OF FATPACK CODE
#
# Igor - dotfile management for perl hackers
# Copyright (C) 2017, 2018 Simon Schuster
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
use warnings;
use strict;
use version; our $VERSION = version->declare("v0.2.1");
use App::Igor::CLI;
# Simply dispatch, wuhu
App::Igor::CLI::main(@ARGV);
__END__
=encoding utf8
=head1 NAME
igor - Because nothing makes you feel so as home like a good igor
I<A humble attempt at configuration management - dotfile management for perl hackers>
=head1 SYNOPSIS
igor [general options] <subcommand> [subcommand options]
General Options:
--help|-h|-? Display help
--config|-c Configuration file to use
--verbose|-v Be Verbose
Subcommands:
apply Apply the specifiec configuration
diff Show differences between applied and stored configuration
gc Show obsolete files
=head1 OPTIONS
=over 8
=item B<C<--help|-h|-?>>
Print a brief help message and exits. Can be passed multiple times. Passing
twice will show the full documentation.
=item B<C<--config|-c> conffile>
Set the config file to use, instead of F<config.toml> in the current directory
=item B<C<--verbose|-v>>
Be a bit more verbose when conduction business. Can be passed multiple times.
Passing once enables the C<debug> mode most useful to debug issues with the
current configuration. C<trace> is even more verbose and logs various internal
states.
=back
=head1 SUBCOMMANDS
=head2 apply
Apply a configuration to this computer.
The default is to use the configuration specified by this computers hostname.
=over 8
=item B<C<--dry-run>>
Only list what would be done, but do not actually perform the operations.
=item B<C<--task> T>
Apply configuration C<T> instead of the default one
=back
=head2 diff
Show changes between stored and effective configuration
=head3 gc
Show obsolete files
=head1 DOCUMENTATION
=head2 FUNDAMENTALS
Igors approach to dotfile management mirrors the concept of traditional package
management. Therefore, instead of delivering all dotfiles at once, files are
grouped into L<packages|/PACKAGES> which can be enabled for individual hosts
selectively.
L<Configurations|/CONFIGURATION> describe the set of packages that igor should
activate. By providing L<facts|/facts> for the current environment, they further
allow igor to customize the packages and their templates before deployment.
=head2 PACKAGES
Igor manages individual configuration files as packages. Each package comprises
a set of files relating to a specific task or aspect of the system. Often,
this will coincide with a program (e.g.: the C<zsh> package might contain
F<.zprofile>, F<.zshrc> and F<.zshenv>), while the can also relate to
functionality (e.g.: C<mail> comprising a F<.muttrc>, F<.mbsyncrc> and
F<.msmtprc>).
=head3 Filesystem Layout
In the filesystem, each package is represented as a directory. In the simplest
case, a package consists of the mandatory package description file (either
F<package.toml> or F<package.pl>, see below L<[1]|/"TOML">
L<[2]|/"Perl-style package description">).
In the simplest case, all actual configuration files to install for the package
reside in a flat flat folder alongside the package description file:
vim
├── package.toml
├── env.sh
├── vimrc
├── runinstall.sh
└── neobundle.toml.tmpl
However, you are free to reorganize them into subfolders as you see fit:
vim
├── files
│ ├── env.sh
│ └── vimrc
├── hooks
│ └── runinstall.sh
├── package.toml
└── templates
└── neobundle.toml.tmpl
The package description file then specifies what actions should be performed on
these files.
=head3 TOML
The operations to be performed by a package are described by the
F<package.toml> file, which describes the operations to be performed
in L<TOML syntax|https://github.com/toml-lang/toml>.
Each package consists of four components:
=over
=item Files
A list of files or directories that should be deployed into the filesystem.
The most basic operation a package can perform is symlinking a file (e.g.
F<./symlink> to F<~/test/symlink>):
[[files]]
source = "./symlink"
dest = "~/test/symlink"
operation = "symlink"
Specifying the operation in this example is not strictly necessary, as
C<"symlink"> actually constitutes the default. Sometimes, however, it is
necessary to actually copy the package file, which can be forced by the
C<"copy"> operation. Optionally, you can also specify the filesystem
permissions of the copied file there:
[[files]]
source = "./copy"
dest = "~/test/copy"
operation = "copy"
perm = "0644"
However, often it is not enough to simply copy complete files. For instance,
the shell's C<.*-profile> usually comprises environment variables from several
packages. To this end, igor provides I<collections>, whose contents are collected
from all files specified in the package configuration:
[[files]]
source = "./env.sh"
collection = "profile"
Here, C<profile> specifies the name of the collection. All content from all
configured packages for said collection is collected, merged and then deployed
on the host.
The merge and deployment of named collections is configured in the
L<top level configuration file|/CONFIGURATION>.
=item Templates
Sometimes, it is useful to adapt configuration files before deployment and
provide tailored variations.
Example: On work computers, I want to set my work email address as the default
git C<user.email>.
To this end, the user can configure facts for any active configuration inside
the L<top level configuration file|/CONFIGURATION> or derive them automatically
from the environments via L<factors|/Custom factors>.
This information can then be interpolated into template files. The templating
is based on L<Text::Template|https://metacpan.org/pod/Text::Template>, which
uses perl as its templating language. The default escape characters are curly
braces C<{}>:
# In ./gitconfig.tmpl
[user]
name = Nixus Minimax
email = { $facts{dev}->{git}->{email} }
To deploy apply templating and deploy this file, specify the destination (see
Files above for the syntax for dest/collection) in the F<package.toml> file:
[[templates]]
source = "./gitconfig.tmpl"
dest = "~/.config/git/config"
perm = "..."
However, configuration files often already use C<{}> as syntactical elements.
Therefore, it is possible to use custom delimiters:
# In package.toml
[[templates]]
source = "./files/config"
dest = "~/.config/git/config"
delimiters = { open = "#BEGIN_TEMPLATE", close = "#END_TEMPLATE"}
# In ./gitconfig.tmpl
[user]
name = Nixus Minimax
#BEGIN_TEMPLATE
<<"EOF"
email = $facts{dev}->{git}->{email}
EOF
#END_TEMPLATE
...
=item Dependencies
Furthermore, sometimes there is interdependence between configuration files.
For instance, my C<i3> configuration spawns C<rofi> for running programs.
Therefore, whenever the package C<i3> is deployed, C<rofi>'s configuration
should be installed as well. This can be enforced by declaring the dependency
in C<i3>'s F<package.toml> file:
# in i3/package.toml
dependencies = [ 'rofi' ]
=item Hooks
Hooks allow to run certain commands before and after package installation. To
this end, igor provides two lists (C<precmds> and C<postcmds>) which make it
possible to specify commands to be run before and after installation
respectively.
precmds = [
"mkdir -p ~/.cache/vim/",
"echo hallo welt"
]
postcmds = [
["./hooks/runinstall.sh"],
["echo", "hallo", "welt"]
]
The arrays can either store the commands as string, which will be executed by
the default users shell. Alternatively, the hooks can be specified as an array
of strings. In that case, the systems shell is bypassed and the command will be
invoked directly using exec, bypassing the system shell.
=back
=head4 Perl-style package description
Please see the L<section TOML|/TOML> for a full description of the individual
fields.
The TOML-style package description is the preferred way of package description.
However, in some cases, a more programmatic way of specifying package-contents
might be desired: For instance by omitting certain files or by automatically
generating a large number of file operations to cope with hundreds of
individual files inside a package.
In this case, the C<package.pl> package description format provides a mechanism
to create the relevant datastructure describing the package via perl code:
sub {
my ($config) = @_; # effective configuration
# $config->{facts} comprises the configured facts
# $config->{pacakges} lists the packages being installed
my $package = ...; # perform calculations
return $package;
}
The return type C<$package> is a perl hash with keys analogous to the
L<TOML|/TOML> components, for example:
my $package = {
files => [ { source => "./file", dest => "~/.myfile" }
, { source => "./file2", dest => "~/.myfile", operation => 'copy' }
],
dependencies => ['otherpackage1', 'otherpackage2'],
template => [ { source => "...", dest => "..."}
, { source => "..."}, collection => "collectionname" }
],
postcmds => [ 'command arg1 arg2', [ 'cmd2', 'arg21', 'arg22'] ]
}
=head2 CONFIGURATION
A configurations specifies which packages to install and defines parameters for
the current deployment.
The configuration is expressed in a L<TOML|https://github.com/toml-lang/toml>
configuration file.
By default, igor looks for a file named F<config.toml> in the pwd.
This default can be overwritten by passing an alternative filename to
C<-c|--config>.
The configuration file stores different configurations as TOML tables:
[defaults]
...
[configurations.cfg1]
...
[configurations.cfg2]
=head3 Configuration format
Each configuration block describes the various attributes of the desired system
state.
=over 4
=item Repositories and Packages
Most importantly, the configuration defines which repositories to
consult when resolving package names and the list of packages to be installed:
[configurations.config]
repositories = {
repository1 = { path = './repo1' }
repository2 = { path = './repo2' }
}
packages = ['pkg1', 'repository1/pkg2', 'repository2/pkg2', 'repository2/pkg42']
The above snippet configures igor to search for packages in two repositories located
at F<./repo1> and F<./repo2> I<relative to the configuration file> and installs three
packages from those repositories.
Repositories are named (C<repository1> and C<repository2>).
The list of packages to be installed is specified in the C<packages> list. By
default, igor tries to resolve packagenames in all configured repositories.
However, in case the package name is ambiguous, an error will be reported and
the execution is terminated. In that case, the packagename can be explicitly
namespaced by the repository name (e.g. C<repository1/pkg2> and C<repository2/pkg2>).
=item Facts
Templates as well as perl-style packages allow to tailor packages and package
contents to the host environment. C<facts> allow to describe attributes of the
current configuration. Examples include: the username of the current user, the
git commit email address that should be used, which development plugins for
which programming languages should be configured in the vimrc, ...
In the configuration, facts are represented as a (potentially nested) hash:
[configurations.config.facts]
git_email = mail@example.org
dev = { languages = { viml = true, perl = true, haskell = false }}
mailaccounts = [
{ user = 'work@biz.example.org', server = 'mx.example.org' },
{ user = 'private@example.org', server = 'hugo.example.org' },
]
hostname = 'luggage'
In addition to explicitly specified facts, some facts (e.g. C<hostname> above)
can be automatically gathered for all hosts using L<factors|/Custom factors>.
Inside templates, those automatic facts are stored in the hash C<%automatic>.
=item Vaults
Sometimes, credentials are required within configuration files. While
it may be unproblematic to have these stored in plaintext on certain
boxes (e.g. my feedreader password on my private laptop), it is often
not desireable to have them stored in the clear on all other
(potentially less trusted) computers igor is run on. While this
problem can be mitigated by using multiple
L<repositories|/Repositories and Packages>, it is overkill for only
this paticular item. Vaults offer a way to store facts in an
encrypted fashion and decrypt them automatically when required.
[[configurations.computer.vaults]]
path = './vaults/newsboat.gpg'
type = 'shell'
cacheable = 1
command = 'gpg --batch --yes -o "${IGOR_OUTFILE}" -d "${IGOR_VAULT}"'
Each configuration can store a list of vaults that will automatically
be unlocked when the configuration is activated on the host.
A vault consists of a filepath to the vault and a type. Currently,
only the C<shell> type is implemented. It allows to run a provided
C<command> to decrypt the vault. The commandline used may refer to two
environment variables for the filepath to the vault file
(C<$IGOR_VAULT>) and the output file (C<$IGOR_OUTFILE>).
The vault itself should decrypt to a TOML-File containing the
secrets. After decryption, the vault will be merged into the context
and available to Perl-style packages and Templates as
C<%secrets>.
However, it is laborous to repeatedly enter the vault password for every
igor run being performed. So igor can cache unlocked faults for you.
the unlocked vaults are stored in C<defaults.cachedirectory> (defaulting
to F<./.cache>):
[defaults]
cachedirectory = './.cache'
B<IMPORTANT:> The cache is currently B<not> cleared by igor
itself. Old unlocked vaultfile-states will be cached indefinitly.
It is the responsiblity of the user to clean the cache (by deleting
the files within the cache directory).
Caching has to be manually activated for the individual vaults by
setting C<cacheable> to C<1>. Setting it to C<0> (default) will
disable caching.
=item Collections
Often, certain files store configuration that relates to different system
components and as such to different packages (e.g. your shells environment
file, which might export environment variables for your editor (e.g. C<EDITOR>,
your own C<PATH>, ...)).
Collections allow to receive input from multiple packages and merge those into
a single file.
[configurations.computer.collections]
'env.sh' = {
destination = '~/env.sh', # Storage location of the merged file
perm = "0644", # Permissions for the generated file
}
If no permissions (C<perm>) are specified, the default umask is used.
Inside the packages, collections can be used as a substitute to the C<dest> parameter:
[[files]]
source = "./files/env.sh"
collection = "env.sh"
By default, all entries are merged by sorting the components by packagename and
concatenating those together. As this simplistic strategy is not sufficient for
complex files (e.g.: we always need the C<env> package first, which declares
important variables like C<HOME>, C<XDG_*>, ... and are used by other
components within the generated collection file F<env.sh>). Therefore,
alternative merge strategies can be specified:
[configurations.config]
mergers = { envmerger = './mergers/envmerger.pl' }
collections = {
'env.sh' = {
destination = '~/env.sh'
merger = 'envmerger' # name in the mergers hash
}
}
For the contents of F<./mergers/envmerger.pl> see the section on
L<custom mergers|/Custom collection mergers>
=item Advanced features: C<dependencies>, C<factors>, C<mergers> and C<mergeconfigs>
For the advanced features like C<dependencies>, C<factors>, C<mergers> and
C<mergeconfigs>, see below.
=back
=head3 Cascade
However, igor does not confine itself to merely defining individual
configurations. Instead, at the core of igor is a cascading configuration
system: The basic idea is that each system's configuration actually consists of
several aspects.
For instance, all configurations share a common set of default values and basic
packages (e.g. I use a z-Shell everywhere,...) and on top of that, I have
configurations for developing Haskell, reading Mail, running graphical
environments, etc. These actually (hopefully) form a directed acyclic graph,
as displayed in the image below:
+---------------------------------------------------------------------------+
| defaults |
| repositories = { repo1 = ... } |
| facts = { |
| opt1 = false, opt2 = 'def', opt3 = 1, opt4 = { rec = true }, |
| opt5 = [ 1, 2, 3 ] |
| } |
| packages = [ 'pkg1', 'pkg2' ] |
| |
+---------------------------------------------------------------------------+
^ ^ ^
| | |
+-------------------+ +-------------------+ +-------------------+
| cfg1 | | cfg2 | | cfg3 |
| facts = | | facts = | | facts = |
| {opt1 = false} | | {opt1 = false, | | {opt4 = |
+-------------------+ | optX = 'hallo'} | | {rec = false} |
^ | packages = | | opt3 = 42} |
| | ['pkg2', 'pkg3'] | +-------------------+
| +-------------------+ ^
| ^ ^ |
| | | |
+-------------------+ | +-------------------+
| cfg4 | | | cfg5 |
| facts = | | | facts = |
| {opt1 = false} | | | {opt1 = true} |
+-------------------+ | +-------------------+
| ^
| |
+-------------------+
| cfg6 |
| packages = |
| [ 'pkg42' ] |
+-------------------+
^
|
active configuration
Dependencies between configurations are declared by the C<dependencies> member
inside the configuration block in F<config.toml>.
[configurations.cfg6]
dependencies = ['cfg2', 'cfg5']
Igor merges the set of (transitively) active configurations from top to bottom:
defaults -> cfg2 -> cfg3 -> cfg5 -> cfg6
Therefore, the above results in the following effective configuration:
repositories = { repo1 = ...}
facts = {
opt1 = true,
opt2 = 'def',
opt3 = 42,
opt4 = {rec = false },
opt5 = [1, 2, 3],
optX = 'hallo'
}
packages = ['pkg1', 'pkg2', 'pkg3', 'pkg42']
C<repositories> and C<facts> are merged by the NestedHash merge strategy.
Descend into the nested hash as far as possible. As soon as something is found
that is not a hash, its value is replaced by the value of the overlay. That
way, the key C<facts.opt4.rec> will be toggled from C<true> to C<false> when
C<cfg3> is merged into C<defaults>.
The list C<packages> on the other hand is merged by concatenation of the lists
(and eliminating duplicates).
To configure such context-preserving merge strategies for individual keys
within C<facts>, custom mergers can be defined (see L</Custom fact mergers>).
=head3 Custom fact mergers
Custom fact mergers allow to specify how multiple values inside the C<facts>
section of configurations should be merged inside the cascade described in the
preceding section. The declaration consists of three components.
=over 4
=item 1.
Description of the modified merge strategy as a file (e.g.
F<./mergers/althashmerger.pl>):
sub {
my ($l, $r, $breadcrumbs) = @_;
# $l : left (= less specific) fact value
# $r : right (= more specific) fact value
# $breadcrumbs: arrayref describing the position in the facts hash,
# e.g. ['dev', 'languages'] for key 'facts.dev.languages'
# Here, we simply take the more specific value (default behaviour)
return $r;
}
Of course, you can call utility functions from igors codebase where useful:
sub {
# Cheating, actually we simply call the default hash merging strategy... :)
App::Igor::Merge::uniq_list_merge(@_)
}
=item 2.
The declaration of the merger inside the main configuration file. This is the
path to a file containing the code as a perl subroutine, which we symbolically
bind to the name C<altmerger>:
[defaults]
mergers = { altmerger = './mergers/althashmerger.pl' }
B<Note:> As fact-mergers are used to merge configurations, they can only be
specified within the C<[defaults]> section.
=item 3.
A description to what elements this merger should be applied. This configuration
is represented as a nested hash, where the leafs name the merger that should be
used to merge the specified values inside configurations. In the example, it
registers the C<altmerger> declared above for the facts in C<recursive.hell>.
[defaults]
mergeconfig = { facts = { recursive = {hell = 'altmerger' } } }
B<Note:> As fact-mergers are used to merge configurations, they can only be
specified within the C<[defaults]> section.
=back
=head3 Custom collection mergers
Custom collection mergers are declared analogous to custom fact mergers by
defining the merge routine as a perl sub inside a file and symbolically naming
it insed the main config file:
[configurations.config]
mergers = {
envmerger = './mergers/envmerger.pl',
}
Contents of F<./mergers/envmerger.pl>, which ensures that the contents of the
C<main/base> package will be at the head of the merged configuration file:
sub {
my $hash = shift;
# Hash of packagename -> filecontens
# Perform a copy as we will do destructive updates below
my %copy = %$hash;
# Extract the contents of the "base"-packages, as we want to prepend it
my $base = $copy{'main/base'};
delete $copy{'main/base'};
# Order the other artifacts in alphabetic order by package name
my @keys = sort { $a cmp $b } keys %copy;
join('', $base, map {$copy{$_}} @keys)
}
Those custom mergers can then be referenced by setting the C<merger> parameter
for specified collections:
[configurations.config]
collections = {
'env.sh' = {
destination = '~/env.sh',
merger = 'envmerger',
}
}
=head3 Custom factors
Some facts can be automatically obtained from the execution environment by
executing so called C<factors>, which are declared in the C<defaults.factors>
array in the main configuration file:
[defaults]
factors = [
{path = './factors/executables.sh', type = 'script'},
{path = './factors/environment.pl', type = 'perl'},
]
There are two types of factors:
=over 4
=item C<script> factors
[defaults]
factors = [
{path = './factors/executables.sh', type = 'script'},
}
Execute scripts using C<system> und parse the scripts stdout as
L<TOML|https://github.com/toml-lang/toml>, e.g.:
# ./factors/executables.sh
#!/usr/bin/env sh
# Find all executable binaries in PATH and store them in the "automatic.executables"
# fact as an array.
echo "executables = ["
IFS=':';
for i in $PATH; do
test -d "$i" && find "$i" -maxdepth 1 -executable -type f -exec basename {} \;;
done | sort -u | sed 's/^/\t"/g;s/$/",/g'
echo "]"
=item C<perl> factors
[defaults]
factors = [
{path = './factors/environment.pl', type = 'perl'},
]
Execute a perl sub and use the returned perl datastructure as automatically
generated facts, e.g.:
# ./factors/environment.pl
sub {
# store the environment variables as an automatic fact in "automatic.env"
{env => \%ENV}
}
=back
=head3 Task selection
If no task/configuration is specified at the command line using the C<--task>
command line argument, igor tries to autodetect the configuration to apply.
The first step is guessing an identifier by determining the fully qualified
domain name (FQDN) and falling back to the plain hostname if the FQDN is
unavailable.
The C<configuration.pattern> options and configuration names are matched
against this guessed identifier. If the selection is unique, this
configuration will be automatically used and applied. If multiple patterns
match, an error will be signaled instead. Patterns are matched as perl-style
regexes.
=head2 EXAMPLE
Here, a more complete example showing of the different features in TOML syntax.
[defaults]
repositories = {
main = { path = './repo' }
}
facts = {
haskell = true,
}
factors = [
{path = './factors/executables.sh', type = 'script'},
{path = './factors/environment.pl', type = 'perl'},
]
mergers = { altmerger = './mergers/althashmerger.pl' }
mergeconfig = { facts = { recursive = {hell = 'altmerger' } } }
[configurations.interactive]
packages = ['tmux']
facts = {
haskell = true,
perl = true,
recursive = {
hell = ['hades'],
truth = 42,
}
}
[configurations.computer]
dependencies = ['interactive']
packages = ['vim', 'file-test', 'perlpackage-test']
facts = {
haskell = false,
recursive = {hell = ['hades', 'hel']},
}
mergers = {
envmerger = './mergers/envmerger.pl',
}
collections = {
'env.sh' = {
destination = '~/env.sh',
merger = 'envmerger',
},
'test1.collection' = {
destination = '~/test/test1.collection',
perm = "0644",
},
'test2.collection' = {
destination = '~/test/test2.collection',
}
}
=head2 INSTALLATION / DISTRIBUTION
Igor is designed to be portable and not require an actual installation on
the host system (even more: it is actually designed with public systems such
as university infrastructure in mind, where the user might not possess
administrator privileges).
Instead, igor is best distributed as a single script file (fatpacked, that is
containing all dependencies) alongside your dotfiles.
To obtain the fatpacked script, either download it from the official release
page or build it yourself:
# Install all dependencies locally to ./local using carton
# See DEVELOPMENT SETUP below for details
carton install
./maint/fatpack.sh
The fatpacked script can be found in F<./igor.fatpacked.pl> and be executed
standalone.
=head2 HACKING
=head3 DESIGN/CODE STRUCTURE
C<App::Igor::CLI::main> in F<lib/Igor/CLI.pl> constitutes igor's entrypoint and
outlines the overall execution flow.
The main steps are:
=over 4
=item 1. Command line parsing and setup
=item 2. Parsing the config
=item 3. Using the layering system to determine the config to apply
=item 4. Building the package database and configuring the individual packages
=item 5. Applying the relevant subcommand (eiter applying a configuration, diff, gc...)
=back
The last step (5.) borrows a lot of its internal structure from the layout of
compilers: Each package is deconstructed into a set of C<transactions>. These
transactions describe the operations to install the package. Available
operations include: Collecting facts (C<RunFactor>), executing commands
(C<RunCommand>), symlinking or copying files (C<FileTransfer>) and installing
templates (C<Template>) and finally merging and emitting collections
(C<EmitCollection>). Each transaction has an attribute (C<Operation::order>)
that defines the execution order of the individual transaction.
=head3 LIBRARIES
Igor uses a couple of external libraries that ease development and foster code
reuse. However, to maintain portability and the ability to fatpack igor for
distribution, B<all libraries used have to be pure perl libraries>.
All libraries used can be found in the F<cpanfile>.
The most ubiquitous libraries that you will notice when working with the code are:
=over 4
=item C<Class::Tiny>
Igor uses an object-oriented design. C<Class::Tiny> is used to ease class
construction in a lightweight fashion.
=item C<Log::ger>
Used internally for logging. Provides C<log_(trace|debug|info|warn|error)>
functions to log on different verbosity levels. C<App::Igor::Util::colored> can be
used to modify the text printed to the terminal (e.g. C<log_info colored(['bold
blue'] "Text")> will print C<Text> to stdout in bold blue).
=item C<Path::Tiny>
All variables describing filepaths are converted to C<Path::Tiny> at first
opportunity. The objects provide a wide variety of auxiliary functions for dealing
with files.
=item C<Types::Standard>
C<Types::Standard> is used to verify conformance of parsed, nested configuration
data structures with the expected format.
=back
=head3 DEVELOPMENT SETUP
=head4 Installing dependencies
Igor provides a F<cartonfile> to declare and manage its library dependencies.
Therefore L<carton|https://metacpan.org/release/carton> can be used to install
the required nonstandard libraries:
carton install
Carton can then be used to execute C<igor> with those locally installed libs:
carton exec -- ./scripts/igor.pl --help
=head4 Running tests
Several unittests are provided. They are written with C<Test::More> and reside
in the folder F<./t> and can be executed using C<prove> or, when using carton
by running C<carton exec prove>.
In addition, an example configuration is provided in F<./test/test_minimal> as
an integration test case.
B<WARNING:> Running the following command on your development machine might
overwrite configuration files on the host. Only execute them in a virtual
machine or container.
./scripts/igor.pl apply -vv --dry-run -c ./test/test_minimal/config.toml --task computer
To ease development, two scripts are provided to create and manage docker
containers for igor development.
F<maint/builddocker.pl> will generate a set of dockerfiles in the folder
F<./docker> for minimal configurations of various operating systems configured
in F<maint/builddocker.pl> and builds the corresponding images.
F<maint/devup.sh> will start the archlinux-image and mount the igor-folder into
the container in read-only mode. There, new changes of igor can be tested.
Instead of using carton, you can use the fatpacked script inside the container,
which emulates the behaviour on typical hosts. (Yet, igor will prefer local
modules from the F<lib/Igor> folder to those fatpacked: that way, changes
can be tested without rerunning F<maint/fatpack.sh>).
# On host
# Build/Prepare
./maint/builddocker.pl # just once
./maint/fatpack.sh # just once
# Start the container
./maint/devup.sh
# In the container
./igor.packed.pl --help
=head1 AUTHOR
Simon Schuster C<perl -e 'print "git . remove stuff like this . rationality.eu" =~ s/ . remove stuff like this . /@/rg'>
=head1 COPYRIGHT
Copyright 2019- Simon Schuster
=head1 LICENSE
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
=cut
|