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Code Editor : Tiny.pm
package YAML::Tiny; use strict; # 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; require Exporter; require Carp; $YAML::Tiny::VERSION = '1.51'; # $YAML::Tiny::VERSION = eval $YAML::Tiny::VERSION; @YAML::Tiny::ISA = qw{ Exporter }; @YAML::Tiny::EXPORT = qw{ Load Dump }; @YAML::Tiny::EXPORT_OK = qw{ LoadFile DumpFile freeze thaw }; # Error storage $YAML::Tiny::errstr = ''; } # The character class of all characters we need to escape # NOTE: Inlined, since it's only used once # my $RE_ESCAPE = '[\\x00-\\x08\\x0b-\\x0d\\x0e-\\x1f\"\n]'; # Printed form of the unprintable characters in the lowest range # of ASCII characters, listed by ASCII ordinal position. my @UNPRINTABLE = qw( z x01 x02 x03 x04 x05 x06 a x08 t n v f r x0e x0f x10 x11 x12 x13 x14 x15 x16 x17 x18 x19 x1a e x1c x1d x1e x1f ); # Printable characters for escapes my %UNESCAPES = ( z => "\x00", a => "\x07", t => "\x09", n => "\x0a", v => "\x0b", f => "\x0c", r => "\x0d", e => "\x1b", '\\' => '\\', ); # Special magic boolean words my %QUOTE = map { $_ => 1 } qw{ null Null NULL y Y yes Yes YES n N no No NO true True TRUE false False FALSE on On ON off Off OFF }; ##################################################################### # 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 = <CFG>; 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]; eval { unless ( defined $string ) { die \"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)/ ) { die \"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/ ) { die \"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($1) ], \@lines ); } else { die \"YAML::Tiny failed to classify the line '$lines[0]'"; } } }; if ( ref $@ eq 'SCALAR' ) { return $self->_error(${$@}); } elsif ( $@ ) { require Carp; Carp::croak($@); } return $self; } # Deparse a scalar string to the actual scalar sub _read_scalar { my ($self, $string, $indent, $lines) = @_; # Trim trailing whitespace $string =~ s/\s*\z//; # Explitic null/undef return undef if $string eq '~'; # Single quote if ( $string =~ /^\'(.*?)\'(?:\s+\#.*)?\z/ ) { return '' unless defined $1; $string = $1; $string =~ s/\'\'/\'/g; return $string; } # Double quote. # The commented out form is simpler, but overloaded the Perl regex # engine due to recursion and backtracking problems on strings # larger than 32,000ish characters. Keep it for reference purposes. # if ( $string =~ /^\"((?:\\.|[^\"])*)\"\z/ ) { if ( $string =~ /^\"([^\\"]*(?:\\.[^\\"]*)*)\"(?:\s+\#.*)?\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 ( $string =~ /^[\'\"!&]/ ) { die \"YAML::Tiny does not support a feature in line '$string'"; } return {} if $string =~ /^{}(?:\s+\#.*)?\z/; return [] if $string =~ /^\[\](?:\s+\#.*)?\z/; # Regular unquoted string if ( $string !~ /^[>|]/ ) { if ( $string =~ /^(?:-(?:\s|$)|[\@\%\`])/ or $string =~ /:(?:\s|$)/ ) { die \"YAML::Tiny found illegal characters in plain scalar: '$string'"; } $string =~ s/\s+#.*\z//; return $string; } # Error die \"YAML::Tiny failed to find multi-line scalar content" unless @$lines; # Check the indent depth $lines->[0] =~ /^(\s*)/; $indent->[-1] = length("$1"); if ( defined $indent->[-2] and $indent->[-1] <= $indent->[-2] ) { die \"YAML::Tiny found bad indenting in line '$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) > $indent->[-1] ) { die \"YAML::Tiny found bad indenting in line '$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") ], $lines ); } else { die \"YAML::Tiny failed to classify line '$lines->[0]'"; } } elsif ( defined $indent->[-2] and $indent->[-1] == $indent->[-2] ) { # This is probably a structure like the following... # --- # foo: # - list # bar: value # # ... so lets return and let the hash parser handle it return 1; } else { die \"YAML::Tiny failed to classify line '$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) > $indent->[-1] ) { die \"YAML::Tiny found bad indenting in line '$lines->[0]'"; } # Get the key unless ( $lines->[0] =~ s/^\s*([^\'\" ][^\n]*?)\s*:(\s+(?:\#.*)?|$)// ) { if ( $lines->[0] =~ /^\s*[?\'\"]/ ) { die \"YAML::Tiny does not support a feature in line '$lines->[0]'"; } die \"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; } # Save an object to a file sub write { my $self = shift; my $file = shift or return $self->_error('No file name provided'); # Write it to the file open( CFG, '>' . $file ) or return $self->_error( "Failed to open file '$file' for writing: $!" ); print CFG $self->write_string; close CFG; return 1; } # Save an object to a string sub write_string { my $self = shift; return '' unless @$self; # Iterate over the documents my $indent = 0; my @lines = (); foreach my $cursor ( @$self ) { push @lines, '---'; # An empty document if ( ! defined $cursor ) { # Do nothing # A scalar document } elsif ( ! ref $cursor ) { $lines[-1] .= ' ' . $self->_write_scalar( $cursor, $indent ); # A list at the root } elsif ( ref $cursor eq 'ARRAY' ) { unless ( @$cursor ) { $lines[-1] .= ' []'; next; } push @lines, $self->_write_array( $cursor, $indent, {} ); # A hash at the root } elsif ( ref $cursor eq 'HASH' ) { unless ( %$cursor ) { $lines[-1] .= ' {}'; next; } push @lines, $self->_write_hash( $cursor, $indent, {} ); } else { Carp::croak("Cannot serialize " . ref($cursor)); } } join '', map { "$_\n" } @lines; } sub _write_scalar { my $string = $_[1]; return '~' unless defined $string; return "''" unless length $string; if ( $string =~ /[\x00-\x08\x0b-\x0d\x0e-\x1f\"\'\n]/ ) { $string =~ s/\\/\\\\/g; $string =~ s/"/\\"/g; $string =~ s/\n/\\n/g; $string =~ s/([\x00-\x1f])/\\$UNPRINTABLE[ord($1)]/g; return qq|"$string"|; } if ( $string =~ /(?:^\W|\s|:\z)/ or $QUOTE{$string} ) { return "'$string'"; } return $string; } sub _write_array { my ($self, $array, $indent, $seen) = @_; if ( $seen->{refaddr($array)}++ ) { die "YAML::Tiny does not support circular references"; } my @lines = (); foreach my $el ( @$array ) { my $line = (' ' x $indent) . '-'; my $type = ref $el; if ( ! $type ) { $line .= ' ' . $self->_write_scalar( $el, $indent + 1 ); push @lines, $line; } elsif ( $type eq 'ARRAY' ) { if ( @$el ) { push @lines, $line; push @lines, $self->_write_array( $el, $indent + 1, $seen ); } else { $line .= ' []'; push @lines, $line; } } elsif ( $type eq 'HASH' ) { if ( keys %$el ) { push @lines, $line; push @lines, $self->_write_hash( $el, $indent + 1, $seen ); } else { $line .= ' {}'; push @lines, $line; } } else { die "YAML::Tiny does not support $type references"; } } @lines; } sub _write_hash { my ($self, $hash, $indent, $seen) = @_; if ( $seen->{refaddr($hash)}++ ) { die "YAML::Tiny does not support circular references"; } my @lines = (); foreach my $name ( sort keys %$hash ) { my $el = $hash->{$name}; my $line = (' ' x $indent) . "$name:"; my $type = ref $el; if ( ! $type ) { $line .= ' ' . $self->_write_scalar( $el, $indent + 1 ); push @lines, $line; } elsif ( $type eq 'ARRAY' ) { if ( @$el ) { push @lines, $line; push @lines, $self->_write_array( $el, $indent + 1, $seen ); } else { $line .= ' []'; push @lines, $line; } } elsif ( $type eq 'HASH' ) { if ( keys %$el ) { push @lines, $line; push @lines, $self->_write_hash( $el, $indent + 1, $seen ); } else { $line .= ' {}'; push @lines, $line; } } else { die "YAML::Tiny does not support $type references"; } } @lines; } # Set error sub _error { $YAML::Tiny::errstr = $_[1]; undef; } # Retrieve error sub errstr { $YAML::Tiny::errstr; } ##################################################################### # YAML Compatibility sub Dump { YAML::Tiny->new(@_)->write_string; } sub Load { my $self = YAML::Tiny->read_string(@_); unless ( $self ) { Carp::croak("Failed to load YAML document from string"); } if ( wantarray ) { return @$self; } else { # To match YAML.pm, return the last document return $self->[-1]; } } BEGIN { *freeze = *Dump; *thaw = *Load; } sub DumpFile { my $file = shift; YAML::Tiny->new(@_)->write($file); } sub LoadFile { my $self = YAML::Tiny->read($_[0]); unless ( $self ) { Carp::croak("Failed to load YAML document from '" . ($_[0] || '') . "'"); } if ( wantarray ) { return @$self; } else { # Return only the last document to match YAML.pm, return $self->[-1]; } } ##################################################################### # Use Scalar::Util if possible, otherwise emulate it BEGIN { local $@; eval { require Scalar::Util; }; my $v = eval("$Scalar::Util::VERSION") || 0; if ( $@ or $v < 1.18 ) { eval <<'END_PERL'; # Scalar::Util failed to load or too old 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 { *refaddr = *Scalar::Util::refaddr; } } 1; __END__ =pod =head1 NAME YAML::Tiny - Read/Write YAML files with as little code as possible =head1 PREAMBLE The YAML specification is huge. Really, B<really> huge. It contains all the functionality of XML, except with flexibility and choice, which makes it easier to read, but with a formal specification that is more complex than XML. The original pure-Perl implementation L<YAML> costs just over 4 megabytes of memory to load. Just like with Windows .ini files (3 meg to load) and CSS (3.5 meg to load) the situation is just asking for a B<YAML::Tiny> module, an incomplete but correct and usable subset of the functionality, in as little code as possible. Like the other C<::Tiny> modules, YAML::Tiny has no non-core dependencies, does not require a compiler to install, is back-compatible to Perl 5.004, and can be inlined into other modules if needed. In exchange for this adding this extreme flexibility, it provides support for only a limited subset of YAML. But the subset supported contains most of the features for the more common usese of YAML. =head1 SYNOPSIS ############################################# # In your file --- rootproperty: blah section: one: two three: four Foo: Bar empty: ~ ############################################# # In your program use YAML::Tiny; # Create a YAML file my $yaml = YAML::Tiny->new; # Open the config $yaml = YAML::Tiny->read( 'file.yml' ); # Reading properties my $root = $yaml->[0]->{rootproperty}; my $one = $yaml->[0]->{section}->{one}; my $Foo = $yaml->[0]->{section}->{Foo}; # Changing data $yaml->[0]->{newsection} = { this => 'that' }; # Add a section $yaml->[0]->{section}->{Foo} = 'Not Bar!'; # Change a value delete $yaml->[0]->{section}; # Delete a value # Add an entire document $yaml->[1] = [ 'foo', 'bar', 'baz' ]; # Save the file $yaml->write( 'file.conf' ); =head1 DESCRIPTION B<YAML::Tiny> is a perl class for reading and writing YAML-style files, written with as little code as possible, reducing load time and memory overhead. Most of the time it is accepted that Perl applications use a lot of memory and modules. The B<::Tiny> family of modules is specifically intended to provide an ultralight and zero-dependency alternative to many more-thorough standard modules. This module is primarily for reading human-written files (like simple config files) and generating very simple human-readable files. Note that I said B<human-readable> and not B<geek-readable>. The sort of files that your average manager or secretary should be able to look at and make sense of. L<YAML::Tiny> does not generate comments, it won't necesarily preserve the order of your hashes, and it will normalise if reading in and writing out again. It only supports a very basic subset of the full YAML specification. Usage is targetted at files like Perl's META.yml, for which a small and easily-embeddable module is extremely attractive. Features will only be added if they are human readable, and can be written in a few lines of code. Please don't be offended if your request is refused. Someone has to draw the line, and for YAML::Tiny that someone is me. If you need something with more power move up to L<YAML> (4 megabytes of memory overhead) or L<YAML::Syck> (275k, but requires libsyck and a C compiler). To restate, L<YAML::Tiny> does B<not> preserve your comments, whitespace, or the order of your YAML data. But it should round-trip from Perl structure to file and back again just fine. =head1 YAML TINY SPECIFICATION This section of the documentation provides a specification for "YAML Tiny", a subset of the YAML specification. It is based on and described comparatively to the YAML 1.1 Working Draft 2004-12-28 specification, located at L<http://yaml.org/spec/current.html>. Terminology and chapter numbers are based on that specification. =head2 1. Introduction and Goals The purpose of the YAML Tiny specification is to describe a useful subset of the YAML specification that can be used for typical document-oriented use cases such as configuration files and simple data structure dumps. Many specification elements that add flexibility or extensibility are intentionally removed, as is support for complex datastructures, class and object-orientation. In general, the YAML Tiny language targets only those data structures available in JSON, with the additional limitation that only simple keys are supported. As a result, all possible YAML Tiny documents should be able to be transformed into an equivalent JSON document, although the reverse is not necesarily true (but will be true in simple cases). As a result of these simplifications the YAML Tiny specification should be implementable in a (relatively) small amount of code in any language that supports Perl Compatible Regular Expressions (PCRE). =head2 2. Introduction YAML Tiny supports three data structures. These are scalars (in a variety of forms), block-form sequences and block-form mappings. Flow-style sequences and mappings are not supported, with some minor exceptions detailed later. The use of three dashes "---" to indicate the start of a new document is supported, and multiple documents per file/stream is allowed. Both line and inline comments are supported. Scalars are supported via the plain style, single quote and double quote, as well as literal-style and folded-style multi-line scalars. The use of explicit tags is not supported. The use of "null" type scalars is supported via the ~ character. The use of "bool" type scalars is not supported. However, serializer implementations should take care to explicitly escape strings that match a "bool" keyword in the following set to prevent other implementations that do support "bool" accidentally reading a string as a boolean y|Y|yes|Yes|YES|n|N|no|No|NO |true|True|TRUE|false|False|FALSE |on|On|ON|off|Off|OFF The use of anchors and aliases is not supported. The use of directives is supported only for the %YAML directive. =head2 3. Processing YAML Tiny Information B<Processes> The YAML specification dictates three-phase serialization and three-phase deserialization. The YAML Tiny specification does not mandate any particular methodology or mechanism for parsing. Any compliant parser is only required to parse a single document at a time. The ability to support streaming documents is optional and most likely non-typical. Because anchors and aliases are not supported, the resulting representation graph is thus directed but (unlike the main YAML specification) B<acyclic>. Circular references/pointers are not possible, and any YAML Tiny serializer detecting a circular reference should error with an appropriate message. B<Presentation Stream> YAML Tiny is notionally unicode, but support for unicode is required if the underlying language or system being used to implement a parser does not support Unicode. If unicode is encountered in this case an error should be returned. B<Loading Failure Points> YAML Tiny parsers and emitters are not expected to recover from adapt to errors. The specific error modality of any implementation is not dictated (return codes, exceptions, etc) but is expected to be consistant. =head2 4. Syntax B<Character Set> YAML Tiny streams are implemented primarily using the ASCII character set, although the use of Unicode inside strings is allowed if support by the implementation. Specific YAML Tiny encoded document types aiming for maximum compatibility should restrict themselves to ASCII. The escaping and unescaping of the 8-bit YAML escapes is required. The escaping and unescaping of 16-bit and 32-bit YAML escapes is not required. B<Indicator Characters> Support for the "~" null/undefined indicator is required. Implementations may represent this as appropriate for the underlying language. Support for the "-" block sequence indicator is required. Support for the "?" mapping key indicator is B<not> required. Support for the ":" mapping value indicator is required. Support for the "," flow collection indicator is B<not> required. Support for the "[" flow sequence indicator is B<not> required, with one exception (detailed below). Support for the "]" flow sequence indicator is B<not> required, with one exception (detailed below). Support for the "{" flow mapping indicator is B<not> required, with one exception (detailed below). Support for the "}" flow mapping indicator is B<not> required, with one exception (detailed below). Support for the "#" comment indicator is required. Support for the "&" anchor indicator is B<not> required. Support for the "*" alias indicator is B<not> required. Support for the "!" tag indicator is B<not> required. Support for the "|" literal block indicator is required. Support for the ">" folded block indicator is required. Support for the "'" single quote indicator is required. Support for the """ double quote indicator is required. Support for the "%" directive indicator is required, but only for the special case of a %YAML version directive before the "---" document header, or on the same line as the document header. For example: %YAML 1.1 --- - A sequence with a single element Special Exception: To provide the ability to support empty sequences and mappings, support for the constructs [] (empty sequence) and {} (empty mapping) are required. For example, %YAML 1.1 # A document consisting of only an empty mapping --- {} # A document consisting of only an empty sequence --- [] # A document consisting of an empty mapping within a sequence - foo - {} - bar B<Syntax Primitives> Other than the empty sequence and mapping cases described above, YAML Tiny supports only the indentation-based block-style group of contexts. All five scalar contexts are supported. Indentation spaces work as per the YAML specification in all cases. Comments work as per the YAML specification in all simple cases. Support for indented multi-line comments is B<not> required. Seperation spaces work as per the YAML specification in all cases. B<YAML Tiny Character Stream> The only directive supported by the YAML Tiny specification is the %YAML language/version identifier. Although detected, this directive will have no control over the parsing itself. The parser must recognise both the YAML 1.0 and YAML 1.1+ formatting of this directive (as well as the commented form, although no explicit code should be needed to deal with this case, being a comment anyway) That is, all of the following should be supported. --- #YAML:1.0 - foo %YAML:1.0 --- - foo % YAML 1.1 --- - foo Support for the %TAG directive is B<not> required. Support for additional directives is B<not> required. Support for the document boundary marker "---" is required. Support for the document boundary market "..." is B<not> required. If necesary, a document boundary should simply by indicated with a "---" marker, with not preceding "..." marker. Support for empty streams (containing no documents) is required. Support for implicit document starts is required. That is, the following must be equivalent. # Full form %YAML 1.1 --- foo: bar # Implicit form foo: bar B<Nodes> Support for nodes optional anchor and tag properties are B<not> required. Support for node anchors is B<not> required. Support for node tags is B<not> required. Support for alias nodes is B<not> required. Support for flow nodes is B<not> required. Support for block nodes is required. B<Scalar Styles> Support for all five scalar styles are required as per the YAML specification, although support for quoted scalars spanning more than one line is B<not> required. Support for the chomping indicators on multi-line scalar styles is required. B<Collection Styles> Support for block-style sequences is required. Support for flow-style sequences is B<not> required. Support for block-style mappings is required. Support for flow-style mappings is B<not> required. Both sequences and mappings should be able to be arbitrarily nested. Support for plain-style mapping keys is required. Support for quoted keys in mappings is B<not> required. Support for "?"-indicated explicit keys is B<not> required. Here endeth the specification. =head2 Additional Perl-Specific Notes For some Perl applications, it's important to know if you really have a number and not a string. That is, in some contexts is important that 3 the number is distinctive from "3" the string. Because even Perl itself is not trivially able to understand the difference (certainly without XS-based modules) Perl implementations of the YAML Tiny specification are not required to retain the distinctiveness of 3 vs "3". =head1 METHODS =head2 new The constructor C<new> creates and returns an empty C<YAML::Tiny> object. =head2 read $filename The C<read> constructor reads a YAML file from a file name, and returns a new C<YAML::Tiny> object containing the parsed content. Returns the object on success, or C<undef> on error. When C<read> fails, C<YAML::Tiny> sets an error message internally you can recover via C<YAML::Tiny-E<gt>errstr>. Although in B<some> cases a failed C<read> will also set the operating system error variable C<$!>, not all errors do and you should not rely on using the C<$!> variable. =head2 read_string $string; The C<read> constructor reads a YAML file from a file name, and returns a new C<YAML::Tiny> object containing the parsed content. Returns the object on success, or C<undef> on error. =head2 write $filename The C<write> method generates the file content for the properties, and writes it to disk to the filename specified. Returns true on success or C<undef> on error. =head2 write_string Generates the file content for the object and returns it as a string. =head2 errstr When an error occurs, you can retrieve the error message either from the C<$YAML::Tiny::errstr> variable, or using the C<errstr()> method. =head1 FUNCTIONS YAML::Tiny implements a number of functions to add compatibility with the L<YAML> API. These should be a drop-in replacement, except that YAML::Tiny will B<not> export functions by default, and so you will need to explicitly import the functions. =head2 Dump my $string = Dump(list-of-Perl-data-structures); Turn Perl data into YAML. This function works very much like Data::Dumper::Dumper(). It takes a list of Perl data strucures and dumps them into a serialized form. It returns a string containing the YAML stream. The structures can be references or plain scalars. =head2 Load my @documents = Load(string-containing-a-YAML-stream); Turn YAML into Perl data. This is the opposite of Dump. Just like L<Storable>'s thaw() function or the eval() function in relation to L<Data::Dumper>. It parses a string containing a valid YAML stream into a list of Perl data structures. =head2 freeze() and thaw() Aliases to Dump() and Load() for L<Storable> fans. This will also allow YAML::Tiny to be plugged directly into modules like POE.pm, that use the freeze/thaw API for internal serialization. =head2 DumpFile(filepath, list) Writes the YAML stream to a file instead of just returning a string. =head2 LoadFile(filepath) Reads the YAML stream from a file instead of a string. =head1 SUPPORT Bugs should be reported via the CPAN bug tracker at L<http://rt.cpan.org/NoAuth/ReportBug.html?Queue=YAML-Tiny> =begin html For other issues, or commercial enhancement or support, please contact <a href="http://ali.as/">Adam Kennedy</a> directly. =end html =head1 AUTHOR Adam Kennedy E<lt>adamk@cpan.orgE<gt> =head1 SEE ALSO L<YAML>, L<YAML::Syck>, L<Config::Tiny>, L<CSS::Tiny>, L<http://use.perl.org/~Alias/journal/29427>, L<http://ali.as/> =head1 COPYRIGHT Copyright 2006 - 2012 Adam Kennedy. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. The full text of the license can be found in the LICENSE file included with this module. =cut
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