This file is indexed.

/usr/share/perl5/Biber/Entry.pm is in biber 2.7-2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

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package Biber::Entry;
use v5.24;
use strict;
use warnings;

use Biber::Utils;
use Biber::Internals;
use Biber::Constants;
use Data::Dump qw( pp );
use Digest::MD5 qw( md5_hex );
use Log::Log4perl qw( :no_extra_logdie_message );
use List::Util qw( first );

my $logger = Log::Log4perl::get_logger('main');

=encoding utf-8

=head1 NAME

Biber::Entry - Biber::Entry objects

=head2 new

    Initialize a Biber::Entry object

    There are three types of field possible in an entry:

    * data    - These are fields which derive directly from or are themselves fields in the
                data source. Things like YEAR, MONTH, DAY etc. are such fields which are
                derived from, for example, the DATE field. They are part of the original
                data implicitly, derived from a field.
    * derived - These are fields, often meta-information like labelname, labelalpha etc.
                which are more removed from the data fields.

    The reason for this division is largely the entry cloning required for the related entry and
    inheritance features. When we clone an entry or copy some fields from one entry to another
    we generally don't want the "derived" category as such derived meta-fields will often need
    to be re-created or ignored so we need to know which are the actual "data" fields to
    copy/clone.

=cut

sub new {
  my $class = shift;
  my $obj = shift;
  my $self;
  if (defined($obj) and ref($obj) eq 'HASH') {
    $self = bless $obj, $class;
  }
  else {
    $self = bless {}, $class;
  }
  return $self;
}

=head2 relclone

    Recursively create related entry clones starting with an entry

=cut

sub relclone {
  my $self = shift;
  my $citekey = $self->get_field('citekey');
  my $secnum = $Biber::MASTER->get_current_section;
  my $section = $Biber::MASTER->sections->get_section($secnum);
  my $dmh = Biber::Config->get_dm_helpers;
  if (my $relkeys = $self->get_field('related')) {
    if ($logger->is_debug()) {# performance tune
      $logger->debug("Found RELATED field in '$citekey' with contents " . join(',', @$relkeys));
    }
    my @clonekeys;
    foreach my $relkey (@$relkeys) {
      # Resolve any alias
      my $nrelkey = $section->get_citekey_alias($relkey) // $relkey;
      if ($logger->is_debug()) {# performance tune
        $logger->debug("Resolved RELATED key alias '$relkey' to '$nrelkey'") if $relkey ne $nrelkey;
        $logger->debug("Looking at RELATED key '$relkey'");
      }
      $relkey = $nrelkey;

      # Loop avoidance, in case we are back in an entry again in the guise of a clone
      # We can record the related clone but don't create it again
      if (my $ck = $section->get_keytorelclone($relkey)) {
        if ($logger->is_debug()) {# performance tune
          $logger->debug("Found RELATED key '$relkey' already has clone '$ck'");
        }
        push @clonekeys, $ck;

        # Save graph information if requested
        if (Biber::Config->getoption('output_format') eq 'dot') {
          Biber::Config->set_graph('related', $ck, $relkey, $citekey);
        }
      }
      else {
        my $relentry = $section->bibentry($relkey);
        my $clonekey = md5_hex($relkey);
        push @clonekeys, $clonekey;
        my $relclone = $relentry->clone($clonekey);
        if ($logger->is_debug()) {# performance tune
          $logger->debug("Created new related clone for '$relkey' with clone key '$clonekey'");
        }

        # *datesplit is a special non datafield and needs to be copied for things like era
        # output
        foreach my $df ($dmh->{datefields}->@*) {
          $df =~ s/date$//;
          if (my $ds = $self->get_field("${df}datesplit")) {
            $relclone->set_field("${df}datesplit", $ds);
          }
        }

        # Set related clone options
        if (my $relopts = $self->get_field('relatedoptions')) {
          # Check if this clone was also directly cited. If so, set skipbib/skipbiblist
          # if they are unset as otherwise this entry would appear twice in bibliographies
          # but with different keys.
          if ($section->has_citekey($relkey)) {
            $relopts = remove_entry_options($relopts, {skipbib => 1, skipbiblist => 1});
            push @$relopts, ('skipbib=true', 'skipbiblist=true');
          }
          process_entry_options($clonekey, $relopts);
          $relclone->set_datafield('options', $relopts);
        }
        else {
          process_entry_options($clonekey, ['skiplab','skipbiblist','uniquename=0','uniquelist=0']);
          # Preserve options already in the clone but add 'dataonly'
          $relclone->set_datafield('options', [ 'dataonly', @{$relclone->get_datafield('options') || []} ]);
        }

        $section->bibentries->add_entry($clonekey, $relclone);
        $section->keytorelclone($relkey, $clonekey);

        # Save graph information if requested
        if (Biber::Config->getoption('output_format') eq 'dot') {
          Biber::Config->set_graph('related', $clonekey, $relkey, $citekey);
        }

        # recurse so we can do cascading related entries
        if ($logger->is_debug()) {# performance tune
          $logger->debug("Recursing into RELATED entry '$clonekey'");
        }
        $relclone->relclone;
      }
    }
    # point to clone keys and add to citekeys
    # We have to add the citekeys as we need these clones in the .bbl
    # but the dataonly will cause biblatex not to print them in the bib
    $section->add_citekeys(@clonekeys);
    $self->set_datafield('related', [ @clonekeys ]);
  }
}

=head2 clone

    Clone a Biber::Entry object and return a copy
    Accepts optionally a key for the copy

=cut

sub clone {
  my ($self, $newkey) = @_;
  my $new = new Biber::Entry;
  while (my ($k, $v) = each(%{$self->{datafields}})) {
    $new->{datafields}{$k} = $v;
  }
  while (my ($k, $v) = each(%{$self->{origfields}})) {
    $new->{origfields}{$k} = $v;
  }
  # Need to add entrytype and datatype
  $new->{derivedfields}{entrytype} = $self->{derivedfields}{entrytype};
  $new->{derivedfields}{datatype} = $self->{derivedfields}{datatype};
  # put in key if specified
  if ($newkey) {
    $new->{derivedfields}{citekey} = $newkey;
  }
  # Record the key of the source of the clone in the clone. Useful for loop detection etc.
  # in biblatex
  $new->{derivedfields}{clonesourcekey} = $self->get_field('citekey');
  return $new;
}

=head2 notnull

    Test for an empty object

=cut

sub notnull {
  my $self = shift;
  my @arr = keys %$self;
  return $#arr > -1 ? 1 : 0;
}

=head2 set_labelname_info

  Record the labelname information. This is special
  meta-information so we have a separate method for this
  Takes a hash ref with the information.

=cut

sub set_labelname_info {
  my ($self, $data) = @_;
  $self->{labelnameinfo} = $data;
  return;
}

=head2 get_labelname_info

  Retrieve the labelname information. This is special
  meta-information so we have a separate method for this
  Returns a hash ref with the information.

=cut

sub get_labelname_info {
  my $self = shift;
  return $self->{labelnameinfo};
}

=head2 set_labelnamefh_info

  Record the fullhash labelname information. This is special
  meta-information so we have a separate method for this
  Takes a hash ref with the information.

=cut

sub set_labelnamefh_info {
  my ($self, $data) = @_;
  $self->{labelnamefhinfo} = $data;
  return;
}

=head2 get_labelnamefh_info

  Retrieve the fullhash labelname information. This is special
  meta-information so we have a separate method for this
  Returns a hash ref with the information.

=cut

sub get_labelnamefh_info {
  my $self = shift;
  return $self->{labelnamefhinfo};
}

=head2 set_labeltitle_info

  Record the labeltitle information. This is special
  meta-information so we have a separate method for this
  Takes a hash ref with the information.

=cut

sub set_labeltitle_info {
  my ($self, $data) = @_;
  $self->{labeltitleinfo} = $data;
  return;
}

=head2 get_labeltitle_info

  Retrieve the labeltitle information. This is special
  meta-information so we have a separate method for this
  Returns a hash ref with the information.

=cut

sub get_labeltitle_info {
  my $self = shift;
  return $self->{labeltitleinfo};
}


=head2 set_labeldate_info

  Record the labeldate information. This is special
  meta-information so we have a separate method for this
  Takes a hash ref with the information.

=cut

sub set_labeldate_info {
  my ($self, $data) = @_;
  $self->{labeldateinfo} = $data;
  return;
}

=head2 get_labeldate_info

  Retrieve the labeldate information. This is special
  meta-information so we have a separate method for this
  Returns a hash ref with the information.

=cut

sub get_labeldate_info {
  my $self = shift;
  return $self->{labeldateinfo};
}


=head2 set_field

  Set a derived field for a Biber::Entry object, that is, a field
  which was not an actual bibliography field

=cut

sub set_field {
  my ($self, $key, $val) = @_;
  # All derived fields can be null
  $self->{derivedfields}{$key} = $val;
  return;
}


=head2 get_field

    Get a field for a Biber::Entry object
    Uses // as fields can be null (end dates etc).

=cut

sub get_field {
  my ($self, $key) = @_;
  return undef unless $key;
  return $self->{datafields}{$key} //
         $self->{derivedfields}{$key};
}


=head2 set_datafield

    Set a field which is in the .bib data file

=cut

sub set_datafield {
  my ($self, $key, $val) = @_;
  $self->{datafields}{$key} = $val;
  return;
}

=head2 get_datafield

    Get a field that was in the original data file

=cut

sub get_datafield {
  my ($self, $key) = @_;
  return $self->{datafields}{$key};
}


=head2 del_field

    Delete a field in a Biber::Entry object

=cut

sub del_field {
  my ($self, $key) = @_;
  delete $self->{datafields}{$key};
  delete $self->{derivedfields}{$key};
  return;
}

=head2 del_datafield

    Delete an original data source data field in a Biber::Entry object

=cut

sub del_datafield {
  my ($self, $key) = @_;
  delete $self->{datafields}{$key};
  return;
}


=head2 field_exists

    Check whether a field exists (even if null)

=cut

sub field_exists {
  my ($self, $key) = @_;
  return (exists($self->{datafields}{$key}) ||
          exists($self->{derivedfields}{$key})) ? 1 : 0;
}

=head2 date_fields_exist

    Check whether any parts of a date field exist when passed a datepart field name

=cut

sub date_fields_exist {
  my ($self, $field) = @_;
  my $t = $field =~ s/(?:end)?(?:year|month|day|hour|minute|second|season|timezone)$//r;
  foreach my $dp ('year', 'month', 'day', 'hour', 'minute', 'second', 'season', 'timezone') {
    if (exists($self->{datafields}{"$t$dp"}) or exists($self->{datafields}{"${t}end$dp"})) {
      return 1;
    }
  }
  return 0;
}

=head2 datafields

    Returns a sorted array of the fields which came from the data source

=cut

sub datafields {
  my $self = shift;
  use locale;
  return sort keys %{$self->{datafields}};
}

=head2 count_datafields

    Returns the number of datafields

=cut

sub count_datafields {
  my $self = shift;
  return keys %{$self->{datafields}};
}

=head2 derivedfields

    Returns a sorted array of the fields which were added during processing

=cut

sub derivedfields {
  my $self = shift;
  use locale;
  return sort keys %{$self->{derivedfields}};
}

=head2 fields

    Returns a sorted array of all field names, including ones
    added during processing which are not necessarily fields
    which came from the data file

=cut

sub fields {
  my $self = shift;
  use locale;
  my %keys = (%{$self->{derivedfields}}, %{$self->{datafields}});
  return sort keys %keys;
}

=head2 count_fields

    Returns the number of fields

=cut

sub count_fields {
  my $self = shift;
  my %keys = (%{$self->{derivedfields}}, %{$self->{datafields}});
  return keys %keys;
}


=head2 has_keyword

    Check if a Biber::Entry object has a particular keyword in
    in the KEYWORDS field.

=cut

sub has_keyword {
  no autovivification;
  my $self = shift;
  my $keyword = shift;
  if (my $keywords = $self->{datafields}{keywords}) {
    return (first {$_ eq $keyword} @$keywords) ? 1 : 0;
  }
  else {
    return 0;
  }
  return undef; # shouldn't get here
}



=head2 add_warning

    Append a warning to a Biber::Entry object

=cut

sub add_warning {
  my ($self, $warning) = @_;
  push $self->{derivedfields}{warnings}->@*, $warning;
  return;
}


=head2 set_inherit_from

    Inherit fields from parent entry

    $entry->set_inherit_from($parententry);

    Takes a second Biber::Entry object as argument
    Tailored for set inheritance which is a straight 1:1 inheritance,
    excluding certain fields for backwards compatibility

=cut

sub set_inherit_from {
  my ($self, $parent) = @_;
  my $dmh = Biber::Config->get_dm_helpers;

  # Data source fields
  foreach my $field ($parent->datafields) {
    next if $self->field_exists($field); # Don't overwrite existing fields
    $self->set_datafield($field, $parent->get_field($field));
  }
  # Datesplit is a special non datafield and needs to be inherited for any
  # validation checks which may occur later
  foreach my $df ($dmh->{datefields}->@*) {
    $df =~ s/date$//;
    if (my $ds = $parent->get_field("${df}datesplit")) {
      $self->set_field("${df}datesplit", $ds);
    }
  }
  return;
}

=head2 resolve_xdata

    Recursively resolve XDATA fields in an entry

    $entry->resolve_xdata($xdata_entry);

=cut

sub resolve_xdata {
  my ($self, $xdata) = @_;
  my $secnum = $Biber::MASTER->get_current_section;
  my $section = $Biber::MASTER->sections->get_section($secnum);
  my $entry_key = $self->get_field('citekey');

  foreach my $xdatum (@$xdata) {
    unless (my $xdatum_entry = $section->bibentry($xdatum)) {
      biber_warn("Entry '$entry_key' references XDATA entry '$xdatum' which does not exist in section $secnum");
      next;
    }
    else {
      # Skip xdata inheritance if we've already done it
      # This will only ever be between two XDATA entrytypes since we
      # always start at a non-XDATA entrytype, which we'll not look at again
      # and recursion is always between XDATA entrytypes.
      next if Biber::Config->get_inheritance('xdata', $xdatum, $entry_key);

      # record the XDATA resolve between these entries to prevent loops
      Biber::Config->set_inheritance('xdata', $xdatum, $entry_key);

      # Detect XDATA loops
      unless (Biber::Config->is_inheritance_path('xdata', $entry_key, $xdatum)) {
        if (my $recurse_xdata = $xdatum_entry->get_field('xdata')) { # recurse
          $xdatum_entry->resolve_xdata($recurse_xdata);
        }
        foreach my $field ($xdatum_entry->datafields()) { # set fields
          next if $field eq 'ids'; # Never inherit aliases
          $self->set_datafield($field, $xdatum_entry->get_field($field));

          # Record graphing information if required
          if (Biber::Config->getoption('output_format') eq 'dot') {
            Biber::Config->set_graph('xdata', $xdatum_entry->get_field('citekey'), $entry_key, $field, $field);
          }
          if ($logger->is_debug()) { # performance tune
            $logger->debug("Setting field '$field' in entry '$entry_key' via XDATA");
          }
        }
      }
      else {
        biber_error("Circular XDATA inheritance between '$xdatum'<->'$entry_key'");
      }
    }
  }
}

=head2 inherit_from

    Inherit fields from parent entry (as indicated by the crossref field)

    $entry->inherit_from($parententry);

    Takes a second Biber::Entry object as argument
    Uses the crossref inheritance specifications from the .bcf

=cut

sub inherit_from {
  my ($self, $parent) = @_;
  my $dmh = Biber::Config->get_dm_helpers;

  my $secnum = $Biber::MASTER->get_current_section;
  my $section = $Biber::MASTER->sections->get_section($secnum);

  my $target_key = $self->get_field('citekey'); # target/child key
  my $source_key = $parent->get_field('citekey'); # source/parent key

  # record the inheritance between these entries to prevent loops and repeats.
  Biber::Config->set_inheritance('crossref', $source_key, $target_key);

  # Detect crossref loops
  unless (Biber::Config->is_inheritance_path('crossref', $target_key, $source_key)) {
    # cascading crossrefs
    if (my $ppkey = $parent->get_field('crossref')) {
      $parent->inherit_from($section->bibentry($ppkey));
    }
  }
  else {
    biber_error("Circular inheritance between '$source_key'<->'$target_key'");
  }

  my $type        = $self->get_field('entrytype');
  my $parenttype  = $parent->get_field('entrytype');
  my $inheritance = Biber::Config->getblxoption('inheritance');
  my %processed;
  # get defaults
  my $defaults = $inheritance->{defaults};
  # global defaults ...
  my $inherit_all = $defaults->{inherit_all};
  my $override_target = $defaults->{override_target};
  my $dignore = $defaults->{ignore};

  # override with type_pair specific defaults if they exist ...
  foreach my $type_pair ($defaults->{type_pair}->@*) {
    if (($type_pair->{source} eq '*' or $type_pair->{source} eq $parenttype) and
        ($type_pair->{target} eq '*' or $type_pair->{target} eq $type)) {
      $inherit_all = $type_pair->{inherit_all} if $type_pair->{inherit_all};
      $override_target = $type_pair->{override_target} if $type_pair->{override_target};
      $dignore = $type_pair->{ignore} if defined($type_pair->{ignore});
    }
  }

  # First process any fields that have special treatment
  foreach my $inherit ($inheritance->{inherit}->@*) {
    # Match for this combination of entry and crossref parent?
    foreach my $type_pair ($inherit->{type_pair}->@*) {
      if (($type_pair->{source} eq '*' or $type_pair->{source} eq $parenttype) and
          ($type_pair->{target} eq '*' or $type_pair->{target} eq $type)) {
        foreach my $field ($inherit->{field}->@*) {
          # Skip for fields in the per-entry noinerit datafield set
          if (my $niset = Biber::Config->getblxoption('noinherit', undef, $target_key) and
             exists($field->{target})) {
            if (first {$field->{target} eq $_} $DATAFIELD_SETS{$niset}->@*) {
              next;
            }
          }
          next unless $parent->field_exists($field->{source});
          $processed{$field->{source}} = 1;
          # localise defaults according to field, if specified
          my $field_override_target = $field->{override_target} // 'false';
          # Skip this field if requested
          if ($field->{skip}) {
            $processed{$field->{source}} = 1;
          }
          # Set the field if it doesn't exist or override is requested
          elsif (not $self->field_exists($field->{target}) or
                 $field_override_target eq 'true') {
            if ($logger->is_debug()) {# performance tune
              $logger->debug("Entry '$target_key' is inheriting field '" .
                             $field->{source}.
                             "' as '" .
                             $field->{target} .
                             "' from entry '$source_key'");
            }

            $self->set_datafield($field->{target}, $parent->get_field($field->{source}));

            # Ignore uniqueness information tracking for this inheritance?
            my $ignore = $inherit->{ignore} || $dignore;
            Biber::Config->add_uniq_ignore($target_key, $field->{target}, $ignore);

            # Record graphing information if required
            if (Biber::Config->getoption('output_format') eq 'dot') {
              Biber::Config->set_graph('crossref', $source_key, $target_key, $field->{source}, $field->{target});
            }
          }
        }
      }
    }
  }

  # Now process the rest of the (original data only) fields, if necessary
  if ($inherit_all eq 'true') {
    my @fields = $parent->datafields;

    # Special case - if the child has any Xdate datepart, don't inherit any Xdateparts
    # from parent otherwise you can end up with rather broken dates in the child.
    # Remove such fields before we start since it can't be done in the loop because
    # as soon as one Xdatepart field has been inherited, no more will be.
    my @filtered_fields;
    foreach my $field (@fields) {
      if (first {$_ eq $field} $dmh->{dateparts}->@*) {
        next if $self->date_fields_exist($field);
      }
      push @filtered_fields, $field;
    }
    @fields = @filtered_fields;

    foreach my $field (@fields) {
      # Skip for fields in the per-entry noinherit datafield set
      if (my $niset = Biber::Config->getblxoption('noinherit', undef, $target_key)) {
        if (first {$field eq $_} $DATAFIELD_SETS{$niset}->@*) {
          next;
        }
      }
      next if $processed{$field}; # Skip if we have already dealt with this field above

      # Set the field if it doesn't exist or override is requested
      if (not $self->field_exists($field) or $override_target eq 'true') {
        if ($logger->is_debug()) { # performance tune
          $logger->debug("Entry '$target_key' is inheriting field '$field' from entry '$source_key'");
        }

        $self->set_datafield($field, $parent->get_field($field));

        # Ignore uniqueness information tracking for this inheritance?
        Biber::Config->add_uniq_ignore($target_key, $field, $dignore);

        # Record graphing information if required
        if (Biber::Config->getoption('output_format') eq 'dot') {
          Biber::Config->set_graph('crossref', $source_key, $target_key, $field, $field);
        }
      }
    }
  }
  # Datesplit is a special non datafield and needs to be inherited for any
  # validation checks which may occur later
  foreach my $df ($dmh->{datefields}->@*) {
    $df =~ s/date$//;
    if (my $ds = $parent->get_field("${df}datesplit")) {
      $self->set_field("${df}datesplit", $ds);
    }
  }

  return;
}

=head2 dump

    Dump Biber::Entry object

=cut

sub dump {
  my $self = shift;
  return pp($self);
}

1;

__END__

=head1 AUTHORS

François Charette, C<< <firmicus at ankabut.net> >>
Philip Kime C<< <philip at kime.org.uk> >>

=head1 BUGS

Please report any bugs or feature requests on our Github tracker at
L<https://github.com/plk/biber/issues>.

=head1 COPYRIGHT & LICENSE

Copyright 2009-2016 François Charette and Philip Kime, all rights reserved.

This module is free software.  You can redistribute it and/or
modify it under the terms of the Artistic License 2.0.

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.

=cut