package YAML::Loader;
use YAML::Mo;
extends 'YAML::Loader::Base';
use YAML::Loader::Base;
use YAML::Types;
use YAML::Node;
# Context constants
use constant LEAF => 1;
use constant COLLECTION => 2;
use constant VALUE => "\x07YAML\x07VALUE\x07";
use constant COMMENT => "\x07YAML\x07COMMENT\x07";
# Common YAML character sets
my $ESCAPE_CHAR = '[\\x00-\\x08\\x0b-\\x0d\\x0e-\\x1f]';
my $FOLD_CHAR = '>';
my $LIT_CHAR = '|';
my $LIT_CHAR_RX = "\\$LIT_CHAR";
sub load {
my $self = shift;
$self->stream($_[0] || '');
return $self->_parse();
}
# Top level function for parsing. Parse each document in order and
# handle processing for YAML headers.
sub _parse {
my $self = shift;
my (%directives, $preface);
$self->{stream} =~ s|\015\012|\012|g;
$self->{stream} =~ s|\015|\012|g;
$self->line(0);
$self->die('YAML_PARSE_ERR_BAD_CHARS')
if $self->stream =~ /$ESCAPE_CHAR/;
$self->{stream} =~ s/(.)\n\Z/$1/s;
$self->lines([split /\x0a/, $self->stream, -1]);
$self->line(1);
# Throw away any comments or blanks before the header (or start of
# content for headerless streams)
$self->_parse_throwaway_comments();
$self->document(0);
$self->documents([]);
$self->zero_indent([]);
# Add an "assumed" header if there is no header and the stream is
# not empty (after initial throwaways).
if (not $self->eos) {
if ($self->lines->[0] !~ /^---(\s|$)/) {
unshift @{$self->lines}, '---';
$self->{line}--;
}
}
# Main Loop. Parse out all the top level nodes and return them.
while (not $self->eos) {
$self->anchor2node({});
$self->{document}++;
$self->done(0);
$self->level(0);
$self->offset->[0] = -1;
if ($self->lines->[0] =~ /^---\s*(.*)$/) {
my @words = split /\s/, $1;
%directives = ();
while (@words) {
if ($words[0] =~ /^#(\w+):(\S.*)$/) {
my ($key, $value) = ($1, $2);
shift(@words);
if (defined $directives{$key}) {
$self->warn('YAML_PARSE_WARN_MULTIPLE_DIRECTIVES',
$key, $self->document);
next;
}
$directives{$key} = $value;
}
elsif ($words[0] eq '') {
shift @words;
}
else {
last;
}
}
$self->preface(join ' ', @words);
}
else {
$self->die('YAML_PARSE_ERR_NO_SEPARATOR');
}
if (not $self->done) {
$self->_parse_next_line(COLLECTION);
}
if ($self->done) {
$self->{indent} = -1;
$self->content('');
}
$directives{YAML} ||= '1.0';
$directives{TAB} ||= 'NONE';
($self->{major_version}, $self->{minor_version}) =
split /\./, $directives{YAML}, 2;
$self->die('YAML_PARSE_ERR_BAD_MAJOR_VERSION', $directives{YAML})
if $self->major_version ne '1';
$self->warn('YAML_PARSE_WARN_BAD_MINOR_VERSION', $directives{YAML})
if $self->minor_version ne '0';
$self->die('Unrecognized TAB policy')
unless $directives{TAB} =~ /^(NONE|\d+)(:HARD)?$/;
push @{$self->documents}, $self->_parse_node();
}
return wantarray ? @{$self->documents} : $self->documents->[-1];
}
# This function is the dispatcher for parsing each node. Every node
# recurses back through here. (Inlines are an exception as they have
# their own sub-parser.)
sub _parse_node {
my $self = shift;
my $preface = $self->preface;
$self->preface('');
my ($node, $type, $indicator, $chomp, $parsed_inline) = ('') x 5;
my ($anchor, $alias, $explicit, $implicit) = ('') x 4;
($anchor, $alias, $explicit, $implicit, $preface) =
$self->_parse_qualifiers($preface);
if ($anchor) {
$self->anchor2node->{$anchor} = CORE::bless [], 'YAML-anchor2node';
}
$self->inline('');
while (length $preface) {
if ($preface =~ s/^($FOLD_CHAR|$LIT_CHAR_RX)//) {
$indicator = $1;
if ($preface =~ s/^([+-])[0-9]*//) {
$chomp = $1;
}
elsif ($preface =~ s/^[0-9]+([+-]?)//) {
$chomp = $1;
}
if ($preface =~ s/^(?:\s+#.*$|\s*)$//) {
}
else {
$self->die('YAML_PARSE_ERR_TEXT_AFTER_INDICATOR');
}
}
else {
$self->inline($preface);
$preface = '';
}
}
if ($alias) {
$self->die('YAML_PARSE_ERR_NO_ANCHOR', $alias)
unless defined $self->anchor2node->{$alias};
if (ref($self->anchor2node->{$alias}) ne 'YAML-anchor2node') {
$node = $self->anchor2node->{$alias};
}
else {
$node = do {my $sv = "*$alias"};
push @{$self->anchor2node->{$alias}}, [\$node, $self->line];
}
}
elsif (length $self->inline) {
$node = $self->_parse_inline(1, $implicit, $explicit);
$parsed_inline = 1;
if (length $self->inline) {
$self->die('YAML_PARSE_ERR_SINGLE_LINE');
}
}
elsif ($indicator eq $LIT_CHAR) {
$self->{level}++;
$node = $self->_parse_block($chomp);
$node = $self->_parse_implicit($node) if $implicit;
$self->{level}--;
}
elsif ($indicator eq $FOLD_CHAR) {
$self->{level}++;
$node = $self->_parse_unfold($chomp);
$node = $self->_parse_implicit($node) if $implicit;
$self->{level}--;
}
else {
$self->{level}++;
$self->offset->[$self->level] ||= 0;
if ($self->indent == $self->offset->[$self->level]) {
if ($self->content =~ /^-( |$)/) {
$node = $self->_parse_seq($anchor);
}
elsif ($self->content =~ /(^\?|\:( |$))/) {
$node = $self->_parse_mapping($anchor);
}
elsif ($preface =~ /^\s*$/) {
$node = $self->_parse_implicit('');
}
else {
$self->die('YAML_PARSE_ERR_BAD_NODE');
}
}
else {
$node = undef;
}
$self->{level}--;
}
$#{$self->offset} = $self->level;
if ($explicit) {
$node = $self->_parse_explicit($node, $explicit) if !$parsed_inline;
}
if ($anchor) {
if (ref($self->anchor2node->{$anchor}) eq 'YAML-anchor2node') {
# XXX Can't remember what this code actually does
for my $ref (@{$self->anchor2node->{$anchor}}) {
${$ref->[0]} = $node;
$self->warn('YAML_LOAD_WARN_UNRESOLVED_ALIAS',
$anchor, $ref->[1]);
}
}
$self->anchor2node->{$anchor} = $node;
}
return $node;
}
# Preprocess the qualifiers that may be attached to any node.
sub _parse_qualifiers {
my $self = shift;
my ($preface) = @_;
my ($anchor, $alias, $explicit, $implicit, $token) = ('') x 5;
$self->inline('');
while ($preface =~ /^[&*!]/) {
if ($preface =~ s/^\!(\S+)\s*//) {
$self->die('YAML_PARSE_ERR_MANY_EXPLICIT') if $explicit;
$explicit = $1;
}
elsif ($preface =~ s/^\!\s*//) {
$self->die('YAML_PARSE_ERR_MANY_IMPLICIT') if $implicit;
$implicit = 1;
}
elsif ($preface =~ s/^\&([^ ,:]*)\s*//) {
$token = $1;
$self->die('YAML_PARSE_ERR_BAD_ANCHOR')
unless $token =~ /^[a-zA-Z0-9_.\/-]+$/;
$self->die('YAML_PARSE_ERR_MANY_ANCHOR') if $anchor;
$self->die('YAML_PARSE_ERR_ANCHOR_ALIAS') if $alias;
$anchor = $token;
}
elsif ($preface =~ s/^\*([^ ,:]*)\s*//) {
$token = $1;
$self->die('YAML_PARSE_ERR_BAD_ALIAS')
unless $token =~ /^[a-zA-Z0-9_.\/-]+$/;
$self->die('YAML_PARSE_ERR_MANY_ALIAS') if $alias;
$self->die('YAML_PARSE_ERR_ANCHOR_ALIAS') if $anchor;
$alias = $token;
}
}
return ($anchor, $alias, $explicit, $implicit, $preface);
}
# Morph a node to it's explicit type
sub _parse_explicit {
my $self = shift;
my ($node, $explicit) = @_;
my ($type, $class);
if ($explicit =~ /^\!?perl\/(hash|array|ref|scalar)(?:\:(\w(\w|\:\:)*)?)?$/) {
($type, $class) = (($1 || ''), ($2 || ''));
# FIXME # die unless uc($type) eq ref($node) ?
if ( $type eq "ref" ) {
$self->die('YAML_LOAD_ERR_NO_DEFAULT_VALUE', 'XXX', $explicit)
unless exists $node->{VALUE()} and scalar(keys %$node) == 1;
my $value = $node->{VALUE()};
$node = \$value;
}
if ( $type eq "scalar" and length($class) and !ref($node) ) {
my $value = $node;
$node = \$value;
}
if ( length($class) and $YAML::LoadBlessed ) {
CORE::bless($node, $class);
}
return $node;
}
if ($explicit =~ m{^!?perl/(glob|regexp|code)(?:\:(\w(\w|\:\:)*)?)?$}) {
($type, $class) = (($1 || ''), ($2 || ''));
my $type_class = "YAML::Type::$type";
no strict 'refs';
if ($type_class->can('yaml_load')) {
return $type_class->yaml_load($node, $class, $self);
}
else {
$self->die('YAML_LOAD_ERR_NO_CONVERT', 'XXX', $explicit);
}
}
# This !perl/@Foo and !perl/$Foo are deprecated but still parsed
elsif ($YAML::TagClass->{$explicit} ||
$explicit =~ m{^perl/(\@|\$)?([a-zA-Z](\w|::)+)$}
) {
$class = $YAML::TagClass->{$explicit} || $2;
if ($class->can('yaml_load')) {
require YAML::Node;
return $class->yaml_load(YAML::Node->new($node, $explicit));
}
elsif ($YAML::LoadBlessed) {
if (ref $node) {
return CORE::bless $node, $class;
}
else {
return CORE::bless \$node, $class;
}
}
else {
return $node;
}
}
elsif (ref $node) {
require YAML::Node;
return YAML::Node->new($node, $explicit);
}
else {
# XXX This is likely wrong. Failing test:
# --- !unknown 'scalar value'
return $node;
}
}
# Parse a YAML mapping into a Perl hash
sub _parse_mapping {
my $self = shift;
my ($anchor) = @_;
my $mapping = $self->preserve ? YAML::Node->new({}) : {};
$self->anchor2node->{$anchor} = $mapping;
my $key;
while (not $self->done and $self->indent == $self->offset->[$self->level]) {
# If structured key:
if ($self->{content} =~ s/^\?\s*//) {
$self->preface($self->content);
$self->_parse_next_line(COLLECTION);
$key = $self->_parse_node();
$key = "$key";
}
# If "default" key (equals sign)
elsif ($self->{content} =~ s/^\=\s*(?=:)//) {
$key = VALUE;
}
# If "comment" key (slash slash)
elsif ($self->{content} =~ s/^\=\s*(?=:)//) {
$key = COMMENT;
}
# Regular scalar key:
else {
$self->inline($self->content);
$key = $self->_parse_inline();
$key = "$key";
$self->content($self->inline);
$self->inline('');
}
unless ($self->{content} =~ s/^:(?:\s+#.*$|\s*)//) {
$self->die('YAML_LOAD_ERR_BAD_MAP_ELEMENT');
}
$self->preface($self->content);
my $level = $self->level;
# we can get a zero indented sequence, possibly
my $zero_indent = $self->zero_indent;
$zero_indent->[ $level ] = 0;
$self->_parse_next_line(COLLECTION);
my $value = $self->_parse_node();
$#$zero_indent = $level;
if (exists $mapping->{$key}) {
$self->warn('YAML_LOAD_WARN_DUPLICATE_KEY', $key);
}
else {
$mapping->{$key} = $value;
}
}
return $mapping;
}
# Parse a YAML sequence into a Perl array
sub _parse_seq {
my $self = shift;
my ($anchor) = @_;
my $seq = [];
$self->anchor2node->{$anchor} = $seq;
while (not $self->done and $self->indent == $self->offset->[$self->level]) {
if ($self->content =~ /^-(?: (.*))?$/) {
$self->preface(defined($1) ? $1 : '');
}
else {
if ($self->zero_indent->[ $self->level ]) {
last;
}
$self->die('YAML_LOAD_ERR_BAD_SEQ_ELEMENT');
}
# Check whether the preface looks like a YAML mapping ("key: value").
# This is complicated because it has to account for the possibility
# that a key is a quoted string, which itself may contain escaped
# quotes.
my $preface = $self->preface;
if ($preface =~ m/^ (\s*) ( - (?: \ .* | $ ) ) /x) {
$self->indent($self->offset->[$self->level] + 2 + length($1));
$self->content($2);
$self->level($self->level + 1);
$self->offset->[$self->level] = $self->indent;
$self->preface('');
push @$seq, $self->_parse_seq('');
$self->{level}--;
$#{$self->offset} = $self->level;
}
elsif (
$preface =~ /^ (\s*) ((') (?:''|[^'])*? ' \s* \: (?:\ |$).*) $/x or
$preface =~ /^ (\s*) ((") (?:\\\\|[^"])*? " \s* \: (?:\ |$).*) $/x or
$preface =~ /^ (\s*) (\?.*$)/x or
$preface =~ /^ (\s*) ([^'"\s:#&!\[\]\{\},*|>].*\:(\ .*|$))/x
) {
$self->indent($self->offset->[$self->level] + 2 + length($1));
$self->content($2);
$self->level($self->level + 1);
$self->offset->[$self->level] = $self->indent;
$self->preface('');
push @$seq, $self->_parse_mapping('');
$self->{level}--;
$#{$self->offset} = $self->level;
}
else {
$self->_parse_next_line(COLLECTION);
push @$seq, $self->_parse_node();
}
}
return $seq;
}
# Parse an inline value. Since YAML supports inline collections, this is
# the top level of a sub parsing.
sub _parse_inline {
my $self = shift;
my ($top, $top_implicit, $top_explicit) = (@_, '', '', '');
$self->{inline} =~ s/^\s*(.*)\s*$/$1/; # OUCH - mugwump
my ($node, $anchor, $alias, $explicit, $implicit) = ('') x 5;
($anchor, $alias, $explicit, $implicit, $self->{inline}) =
$self->_parse_qualifiers($self->inline);
if ($anchor) {
$self->anchor2node->{$anchor} = CORE::bless [], 'YAML-anchor2node';
}
$implicit ||= $top_implicit;
$explicit ||= $top_explicit;
($top_implicit, $top_explicit) = ('', '');
if ($alias) {
$self->die('YAML_PARSE_ERR_NO_ANCHOR', $alias)
unless defined $self->anchor2node->{$alias};
if (ref($self->anchor2node->{$alias}) ne 'YAML-anchor2node') {
$node = $self->anchor2node->{$alias};
}
else {
$node = do {my $sv = "*$alias"};
push @{$self->anchor2node->{$alias}}, [\$node, $self->line];
}
}
elsif ($self->inline =~ /^\{/) {
$node = $self->_parse_inline_mapping($anchor);
}
elsif ($self->inline =~ /^\[/) {
$node = $self->_parse_inline_seq($anchor);
}
elsif ($self->inline =~ /^"/) {
$node = $self->_parse_inline_double_quoted();
$node = $self->_unescape($node);
$node = $self->_parse_implicit($node) if $implicit;
}
elsif ($self->inline =~ /^'/) {
$node = $self->_parse_inline_single_quoted();
$node = $self->_parse_implicit($node) if $implicit;
}
else {
if ($top) {
$node = $self->inline;
$self->inline('');
}
else {
$node = $self->_parse_inline_simple();
}
$node = $self->_parse_implicit($node) unless $explicit;
if ($self->numify and defined $node and not ref $node and length $node
and $node =~ m/\A-?(?:0|[1-9][0-9]*)?(?:\.[0-9]*)?(?:[eE][+-]?[0-9]+)?\z/) {
$node += 0;
}
}
if ($explicit) {
$node = $self->_parse_explicit($node, $explicit);
}
if ($anchor) {
if (ref($self->anchor2node->{$anchor}) eq 'YAML-anchor2node') {
for my $ref (@{$self->anchor2node->{$anchor}}) {
${$ref->[0]} = $node;
$self->warn('YAML_LOAD_WARN_UNRESOLVED_ALIAS',
$anchor, $ref->[1]);
}
}
$self->anchor2node->{$anchor} = $node;
}
return $node;
}
# Parse the inline YAML mapping into a Perl hash
sub _parse_inline_mapping {
my $self = shift;
my ($anchor) = @_;
my $node = {};
$self->anchor2node->{$anchor} = $node;
$self->die('YAML_PARSE_ERR_INLINE_MAP')
unless $self->{inline} =~ s/^\{\s*//;
while (not $self->{inline} =~ s/^\s*\}(\s+#.*$|\s*)//) {
my $key = $self->_parse_inline();
$self->die('YAML_PARSE_ERR_INLINE_MAP')
unless $self->{inline} =~ s/^\: \s*//;
my $value = $self->_parse_inline();
if (exists $node->{$key}) {
$self->warn('YAML_LOAD_WARN_DUPLICATE_KEY', $key);
}
else {
$node->{$key} = $value;
}
next if $self->inline =~ /^\s*\}/;
$self->die('YAML_PARSE_ERR_INLINE_MAP')
unless $self->{inline} =~ s/^\,\s*//;
}
return $node;
}
# Parse the inline YAML sequence into a Perl array
sub _parse_inline_seq {
my $self = shift;
my ($anchor) = @_;
my $node = [];
$self->anchor2node->{$anchor} = $node;
$self->die('YAML_PARSE_ERR_INLINE_SEQUENCE')
unless $self->{inline} =~ s/^\[\s*//;
while (not $self->{inline} =~ s/^\s*\](\s+#.*$|\s*)//) {
my $value = $self->_parse_inline();
push @$node, $value;
next if $self->inline =~ /^\s*\]/;
$self->die('YAML_PARSE_ERR_INLINE_SEQUENCE')
unless $self->{inline} =~ s/^\,\s*//;
}
return $node;
}
# Parse the inline double quoted string.
sub _parse_inline_double_quoted {
my $self = shift;
my $inline = $self->inline;
if ($inline =~ s/^"//) {
my $node = '';
while ($inline =~ s/^(\\.|[^"\\]+)//) {
my $capture = $1;
$capture =~ s/^\\"/"/;
$node .= $capture;
last unless length $inline;
}
if ($inline =~ s/^"(?:\s+#.*|\s*)//) {
$self->inline($inline);
return $node;
}
}
$self->die('YAML_PARSE_ERR_BAD_DOUBLE');
}
# Parse the inline single quoted string.
sub _parse_inline_single_quoted {
my $self = shift;
my $inline = $self->inline;
if ($inline =~ s/^'//) {
my $node = '';
while ($inline =~ s/^(''|[^']+)//) {
my $capture = $1;
$capture =~ s/^''/'/;
$node .= $capture;
last unless length $inline;
}
if ($inline =~ s/^'(?:\s+#.*|\s*)//) {
$self->inline($inline);
return $node;
}
}
$self->die('YAML_PARSE_ERR_BAD_SINGLE');
}
# Parse the inline unquoted string and do implicit typing.
sub _parse_inline_simple {
my $self = shift;
my $value;
if ($self->inline =~ /^(|[^!@#%^&*].*?)(?=[\[\]\{\},]|, |: |- |:\s*$|$)/) {
$value = $1;
substr($self->{inline}, 0, length($1)) = '';
}
else {
$self->die('YAML_PARSE_ERR_BAD_INLINE_IMPLICIT', $value);
}
return $value;
}
sub _parse_implicit {
my $self = shift;
my ($value) = @_;
# remove trailing comments and whitespace
$value =~ s/^#.*$//;
$value =~ s/\s+#.*$//;
$value =~ s/\s*$//;
return $value if $value eq '';
return undef if $value =~ /^~$/;
return $value
unless $value =~ /^[\@\`]/ or
$value =~ /^[\-\?]\s/;
$self->die('YAML_PARSE_ERR_BAD_IMPLICIT', $value);
}
# Unfold a YAML multiline scalar into a single string.
sub _parse_unfold {
my $self = shift;
my ($chomp) = @_;
my $node = '';
my $space = 0;
while (not $self->done and $self->indent == $self->offset->[$self->level]) {
$node .= $self->content. "\n";
$self->_parse_next_line(LEAF);
}
$node =~ s/^(\S.*)\n(?=\S)/$1 /gm;
$node =~ s/^(\S.*)\n(\n+\S)/$1$2/gm;
$node =~ s/\n*\Z// unless $chomp eq '+';
$node .= "\n" unless $chomp;
return $node;
}
# Parse a YAML block style scalar. This is like a Perl here-document.
sub _parse_block {
my $self = shift;
my ($chomp) = @_;
my $node = '';
while (not $self->done and $self->indent == $self->offset->[$self->level]) {
$node .= $self->content . "\n";
$self->_parse_next_line(LEAF);
}
return $node if '+' eq $chomp;
$node =~ s/\n*\Z/\n/;
$node =~ s/\n\Z// if $chomp eq '-';
return $node;
}
# Handle Perl style '#' comments. Comments must be at the same indentation
# level as the collection line following them.
sub _parse_throwaway_comments {
my $self = shift;
while (@{$self->lines} and
$self->lines->[0] =~ m{^\s*(\#|$)}
) {
shift @{$self->lines};
$self->{line}++;
}
$self->eos($self->{done} = not @{$self->lines});
}
# This is the routine that controls what line is being parsed. It gets called
# once for each line in the YAML stream.
#
# This routine must:
# 1) Skip past the current line
# 2) Determine the indentation offset for a new level
# 3) Find the next _content_ line
# A) Skip over any throwaways (Comments/blanks)
# B) Set $self->indent, $self->content, $self->line
# 4) Expand tabs appropriately
sub _parse_next_line {
my $self = shift;
my ($type) = @_;
my $level = $self->level;
my $offset = $self->offset->[$level];
$self->die('YAML_EMIT_ERR_BAD_LEVEL') unless defined $offset;
shift @{$self->lines};
$self->eos($self->{done} = not @{$self->lines});
if ($self->eos) {
$self->offset->[$level + 1] = $offset + 1;
return;
}
$self->{line}++;
# Determine the offset for a new leaf node
# TODO
if ($self->preface =~
qr/(?:^|\s)(?:$FOLD_CHAR|$LIT_CHAR_RX)(?:[+-]([0-9]*)|([0-9]*)[+-]?)(?:\s+#.*|\s*)$/
) {
my $explicit_indent = defined $1 ? $1 : defined $2 ? $2 : '';
$self->die('YAML_PARSE_ERR_ZERO_INDENT')
if length($explicit_indent) and $explicit_indent == 0;
$type = LEAF;
if (length($explicit_indent)) {
$self->offset->[$level + 1] = $offset + $explicit_indent;
}
else {
# First get rid of any comments.
while (@{$self->lines} && ($self->lines->[0] =~ /^\s*#/)) {
$self->lines->[0] =~ /^( *)/;
last unless length($1) <= $offset;
shift @{$self->lines};
$self->{line}++;
}
$self->eos($self->{done} = not @{$self->lines});
return if $self->eos;
if ($self->lines->[0] =~ /^( *)\S/ and length($1) > $offset) {
$self->offset->[$level+1] = length($1);
}
else {
$self->offset->[$level+1] = $offset + 1;
}
}
$offset = $self->offset->[++$level];
}
# Determine the offset for a new collection level
elsif ($type == COLLECTION and
$self->preface =~ /^(\s*(\!\S*|\&\S+))*\s*$/) {
$self->_parse_throwaway_comments();
my $zero_indent = $self->zero_indent;
if ($self->eos) {
$self->offset->[$level+1] = $offset + 1;
return;
}
elsif (
defined $zero_indent->[ $level ]
and not $zero_indent->[ $level ]
and $self->lines->[0] =~ /^( {$offset,})-(?: |$)/
) {
my $new_offset = length($1);
$self->offset->[$level+1] = $new_offset;
if ($new_offset == $offset) {
$zero_indent->[ $level+1 ] = 1;
}
}
else {
$self->lines->[0] =~ /^( *)\S/ or
$self->die('YAML_PARSE_ERR_NONSPACE_INDENTATION');
if (length($1) > $offset) {
$self->offset->[$level+1] = length($1);
}
else {
$self->offset->[$level+1] = $offset + 1;
}
}
$offset = $self->offset->[++$level];
}
if ($type == LEAF) {
if (@{$self->lines} and
$self->lines->[0] =~ m{^( *)(\#)} and
length($1) < $offset
) {
if ( length($1) < $offset) {
shift @{$self->lines};
$self->{line}++;
# every comment after that is also thrown away regardless
# of identation
while (@{$self->lines} and
$self->lines->[0] =~ m{^( *)(\#)}
) {
shift @{$self->lines};
$self->{line}++;
}
}
}
$self->eos($self->{done} = not @{$self->lines});
}
else {
$self->_parse_throwaway_comments();
}
return if $self->eos;
if ($self->lines->[0] =~ /^---(\s|$)/) {
$self->done(1);
return;
}
if ($type == LEAF and
$self->lines->[0] =~ /^ {$offset}(.*)$/
) {
$self->indent($offset);
$self->content($1);
}
elsif ($self->lines->[0] =~ /^\s*$/) {
$self->indent($offset);
$self->content('');
}
else {
$self->lines->[0] =~ /^( *)(\S.*)$/;
while ($self->offset->[$level] > length($1)) {
$level--;
}
$self->die('YAML_PARSE_ERR_INCONSISTENT_INDENTATION')
if $self->offset->[$level] != length($1);
$self->indent(length($1));
$self->content($2);
}
$self->die('YAML_PARSE_ERR_INDENTATION')
if $self->indent - $offset > 1;
}
#==============================================================================
# Utility subroutines.
#==============================================================================
# Printable characters for escapes
my %unescapes = (
0 => "\x00",
a => "\x07",
t => "\x09",
n => "\x0a",
'v' => "\x0b", # Potential v-string error on 5.6.2 if not quoted
f => "\x0c",
r => "\x0d",
e => "\x1b",
'\\' => '\\',
);
# Transform all the backslash style escape characters to their literal meaning
sub _unescape {
my $self = shift;
my ($node) = @_;
$node =~ s/\\([never\\fart0]|x([0-9a-fA-F]{2}))/
(length($1)>1)?pack("H2",$2):$unescapes{$1}/gex;
return $node;
}
1;
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