#!perl # # This file is part of MooX-Options # # This software is copyright (c) 2011 by Geistteufel . # # This is free software; you can redistribute it and/or modify it under # the same terms as the Perl 5 programming language system itself. # use warnings; use strict; use Test::More 0.94; # Include a cut-down version of YAML::Tiny so we don't introduce unnecessary # dependencies ourselves. package Local::YAML::Tiny; use strict; use Carp 'croak'; # UTF Support? sub HAVE_UTF8 () { $] >= 5.007003 } BEGIN { if (HAVE_UTF8) { # The string eval helps hide this from Test::MinimumVersion eval "require utf8;"; die "Failed to load UTF-8 support" if $@; } # Class structure require 5.004; $YAML::Tiny::VERSION = '1.40'; # Error storage $YAML::Tiny::errstr = ''; } # Printable characters for escapes my %UNESCAPES = ( z => "\x00", a => "\x07", t => "\x09", n => "\x0a", v => "\x0b", f => "\x0c", r => "\x0d", e => "\x1b", '\\' => '\\', ); ##################################################################### # Implementation # Create an empty YAML::Tiny object sub new { my $class = shift; bless [@_], $class; } # Create an object from a file sub read { my $class = ref $_[0] ? ref shift : shift; # Check the file my $file = shift or return $class->_error('You did not specify a file name'); return $class->_error("File '$file' does not exist") unless -e $file; return $class->_error("'$file' is a directory, not a file") unless -f _; return $class->_error("Insufficient permissions to read '$file'") unless -r _; # Slurp in the file local $/ = undef; local *CFG; unless ( open( CFG, $file ) ) { return $class->_error("Failed to open file '$file': $!"); } my $contents = ; unless ( close(CFG) ) { return $class->_error("Failed to close file '$file': $!"); } $class->read_string($contents); } # Create an object from a string sub read_string { my $class = ref $_[0] ? ref shift : shift; my $self = bless [], $class; my $string = $_[0]; unless ( defined $string ) { return $self->_error("Did not provide a string to load"); } # Byte order marks # NOTE: Keeping this here to educate maintainers # my %BOM = ( # "\357\273\277" => 'UTF-8', # "\376\377" => 'UTF-16BE', # "\377\376" => 'UTF-16LE', # "\377\376\0\0" => 'UTF-32LE' # "\0\0\376\377" => 'UTF-32BE', # ); if ( $string =~ /^(?:\376\377|\377\376|\377\376\0\0|\0\0\376\377)/ ) { return $self->_error("Stream has a non UTF-8 BOM"); } else { # Strip UTF-8 bom if found, we'll just ignore it $string =~ s/^\357\273\277//; } # Try to decode as utf8 utf8::decode($string) if HAVE_UTF8; # Check for some special cases return $self unless length $string; unless ( $string =~ /[\012\015]+\z/ ) { return $self->_error("Stream does not end with newline character"); } # Split the file into lines my @lines = grep { !/^\s*(?:\#.*)?\z/ } split /(?:\015{1,2}\012|\015|\012)/, $string; # Strip the initial YAML header @lines and $lines[0] =~ /^\%YAML[: ][\d\.]+.*\z/ and shift @lines; # A nibbling parser while (@lines) { # Do we have a document header? if ( $lines[0] =~ /^---\s*(?:(.+)\s*)?\z/ ) { # Handle scalar documents shift @lines; if ( defined $1 and $1 !~ /^(?:\#.+|\%YAML[: ][\d\.]+)\z/ ) { push @$self, $self->_read_scalar( "$1", [undef], \@lines ); next; } } if ( !@lines or $lines[0] =~ /^(?:---|\.\.\.)/ ) { # A naked document push @$self, undef; while ( @lines and $lines[0] !~ /^---/ ) { shift @lines; } } elsif ( $lines[0] =~ /^\s*\-/ ) { # An array at the root my $document = []; push @$self, $document; $self->_read_array( $document, [0], \@lines ); } elsif ( $lines[0] =~ /^(\s*)\S/ ) { # A hash at the root my $document = {}; push @$self, $document; $self->_read_hash( $document, [ length($1) ], \@lines ); } else { croak("YAML::Tiny failed to classify the line '$lines[0]'"); } } $self; } # Deparse a scalar string to the actual scalar sub _read_scalar { my ( $self, $string, $indent, $lines ) = @_; # Trim trailing whitespace $string =~ s/\s*\z//; # Explitic null/undef return undef if $string eq '~'; # Quotes if ( $string =~ /^\'(.*?)\'\z/ ) { return '' unless defined $1; $string = $1; $string =~ s/\'\'/\'/g; return $string; } if ( $string =~ /^\"((?:\\.|[^\"])*)\"\z/ ) { # Reusing the variable is a little ugly, # but avoids a new variable and a string copy. $string = $1; $string =~ s/\\"/"/g; $string =~ s/\\([never\\fartz]|x([0-9a-fA-F]{2}))/(length($1)>1)?pack("H2",$2):$UNESCAPES{$1}/gex; return $string; } # Special cases if ( $string =~ /^[\'\"!&]/ ) { croak("YAML::Tiny does not support a feature in line '$lines->[0]'"); } return {} if $string eq '{}'; return [] if $string eq '[]'; # Regular unquoted string return $string unless $string =~ /^[>|]/; # Error croak("YAML::Tiny failed to find multi-line scalar content") unless @$lines; # Check the indent depth $lines->[0] =~ /^(\s*)/; $indent->[-1] = length("$1"); if ( defined $indent->[-2] and $indent->[-1] <= $indent->[-2] ) { croak("YAML::Tiny found bad indenting in line '$lines->[0]'"); } # Pull the lines my @multiline = (); while (@$lines) { $lines->[0] =~ /^(\s*)/; last unless length($1) >= $indent->[-1]; push @multiline, substr( shift(@$lines), length($1) ); } my $j = ( substr( $string, 0, 1 ) eq '>' ) ? ' ' : "\n"; my $t = ( substr( $string, 1, 1 ) eq '-' ) ? '' : "\n"; return join( $j, @multiline ) . $t; } # Parse an array sub _read_array { my ( $self, $array, $indent, $lines ) = @_; while (@$lines) { # Check for a new document if ( $lines->[0] =~ /^(?:---|\.\.\.)/ ) { while ( @$lines and $lines->[0] !~ /^---/ ) { shift @$lines; } return 1; } # Check the indent level $lines->[0] =~ /^(\s*)/; if ( length($1) < $indent->[-1] ) { return 1; } elsif ( length($1) > $indent->[-1] ) { croak("YAML::Tiny found bad indenting in line '$lines->[0]'"); } if ( $lines->[0] =~ /^(\s*\-\s+)[^\'\"]\S*\s*:(?:\s+|$)/ ) { # Inline nested hash my $indent2 = length("$1"); $lines->[0] =~ s/-/ /; push @$array, {}; $self->_read_hash( $array->[-1], [ @$indent, $indent2 ], $lines ); } elsif ( $lines->[0] =~ /^\s*\-(\s*)(.+?)\s*\z/ ) { # Array entry with a value shift @$lines; push @$array, $self->_read_scalar( "$2", [ @$indent, undef ], $lines ); } elsif ( $lines->[0] =~ /^\s*\-\s*\z/ ) { shift @$lines; unless (@$lines) { push @$array, undef; return 1; } if ( $lines->[0] =~ /^(\s*)\-/ ) { my $indent2 = length("$1"); if ( $indent->[-1] == $indent2 ) { # Null array entry push @$array, undef; } else { # Naked indenter push @$array, []; $self->_read_array( $array->[-1], [ @$indent, $indent2 ], $lines ); } } elsif ( $lines->[0] =~ /^(\s*)\S/ ) { push @$array, {}; $self->_read_hash( $array->[-1], [ @$indent, length("$1") ], $lines ); } else { croak("YAML::Tiny failed to classify line '$lines->[0]'"); } } elsif ( defined $indent->[-2] and $indent->[-1] == $indent->[-2] ) { # This is probably a structure like the following... # --- # foo: # - list # bar: value # # ... so lets return and let the hash parser handle it return 1; } else { croak("YAML::Tiny failed to classify line '$lines->[0]'"); } } return 1; } # Parse an array sub _read_hash { my ( $self, $hash, $indent, $lines ) = @_; while (@$lines) { # Check for a new document if ( $lines->[0] =~ /^(?:---|\.\.\.)/ ) { while ( @$lines and $lines->[0] !~ /^---/ ) { shift @$lines; } return 1; } # Check the indent level $lines->[0] =~ /^(\s*)/; if ( length($1) < $indent->[-1] ) { return 1; } elsif ( length($1) > $indent->[-1] ) { croak("YAML::Tiny found bad indenting in line '$lines->[0]'"); } # Get the key unless ( $lines->[0] =~ s/^\s*([^\'\" ][^\n]*?)\s*:(\s+|$)// ) { if ( $lines->[0] =~ /^\s*[?\'\"]/ ) { croak( "YAML::Tiny does not support a feature in line '$lines->[0]'" ); } croak("YAML::Tiny failed to classify line '$lines->[0]'"); } my $key = $1; # Do we have a value? if ( length $lines->[0] ) { # Yes $hash->{$key} = $self->_read_scalar( shift(@$lines), [ @$indent, undef ], $lines ); } else { # An indent shift @$lines; unless (@$lines) { $hash->{$key} = undef; return 1; } if ( $lines->[0] =~ /^(\s*)-/ ) { $hash->{$key} = []; $self->_read_array( $hash->{$key}, [ @$indent, length($1) ], $lines ); } elsif ( $lines->[0] =~ /^(\s*)./ ) { my $indent2 = length("$1"); if ( $indent->[-1] >= $indent2 ) { # Null hash entry $hash->{$key} = undef; } else { $hash->{$key} = {}; $self->_read_hash( $hash->{$key}, [ @$indent, length($1) ], $lines ); } } } } return 1; } # Set error sub _error { $YAML::Tiny::errstr = $_[1]; undef; } # Retrieve error sub errstr { $YAML::Tiny::errstr; } ##################################################################### # Use Scalar::Util if possible, otherwise emulate it BEGIN { eval { require Scalar::Util; }; if ($@) { # Failed to load Scalar::Util eval <<'END_PERL'; sub refaddr { my $pkg = ref($_[0]) or return undef; if (!!UNIVERSAL::can($_[0], 'can')) { bless $_[0], 'Scalar::Util::Fake'; } else { $pkg = undef; } "$_[0]" =~ /0x(\w+)/; my $i = do { local $^W; hex $1 }; bless $_[0], $pkg if defined $pkg; $i; } END_PERL } else { Scalar::Util->import('refaddr'); } } ##################################################################### # main test ##################################################################### package main; BEGIN { # Skip modules that either don't want to be loaded directly, such as # Module::Install, or that mess with the test count, such as the Test::* # modules listed here. # # Moose::Role conflicts if Moose is loaded as well, but Moose::Role is in # the Moose distribution and it's certain that someone who uses # Moose::Role also uses Moose somewhere, so if we disallow Moose::Role, # we'll still get the relevant version number. my %skip = map { $_ => 1 } qw( App::FatPacker Class::Accessor::Classy Devel::Cover Module::Install Moose::Role POE::Loop::Tk Template::Test Test::Kwalitee Test::Pod::Coverage Test::Portability::Files Test::YAML::Meta open ); my $Test = Test::Builder->new; $Test->plan( skip_all => "META.yml could not be found" ) unless -f 'META.yml' and -r _; my $meta = ( Local::YAML::Tiny->read('META.yml') )->[0]; my %requires; for my $require_key ( grep {/requires/} keys %$meta ) { my %h = %{ $meta->{$require_key} }; $requires{$_}++ for keys %h; } delete $requires{perl}; diag("Testing with Perl $], $^X"); for my $module ( sort keys %requires ) { if ( $skip{$module} ) { note "$module doesn't want to be loaded directly, skipping"; next; } local $SIG{__WARN__} = sub { note "$module: $_[0]" }; require_ok $module or BAIL_OUT("can't load $module"); my $version = $module->VERSION; $version = 'undefined' unless defined $version; diag(" $module version is $version"); } done_testing; }