package Font::TTF::Coverage;
=head1 NAME
Font::TTF::Coverage - Opentype coverage and class definition objects
=head1 DESCRIPTION
Coverage tables and class definition objects are virtually identical concepts
in OpenType. Their difference comes purely in their storage. Therefore we can
say that a coverage table is a class definition in which the class definition
for each glyph is the corresponding index in the coverage table. The resulting
data structure is that a Coverage table has the following fields:
=over
=item cover
A boolean to indicate whether this table is a coverage table (TRUE) or a
class definition (FALSE)
=item val
A hash of glyph ids against values (either coverage index or class value)
=item fmt
The storage format used is given here, but is recalculated when the table
is written out.
=item count
A count of the elements in a coverage table for use with add. Each subsequent
addition is added with the current count and increments the count.
=item max
Maximum class value in a class table.
=back
=head1 METHODS
=cut
=head2 new($isCover [, vals])
Creates a new coverage table or class definition table, depending upon the
value of $isCover. if $isCover then vals may be a list of glyphs to include in order.
If no $isCover, then vals is a hash of glyphs against class values.
=cut
our $dontsort;
sub new
{
my ($class) = shift;
my ($isCover) = shift;
my ($self) = {};
$self->{'cover'} = $isCover;
if ($isCover)
{
$self->{'count'} = 0;
my ($v);
foreach $v (@_)
{ $self->{'val'}{$v} = $self->{'count'}++; }
}
else
{
$self->{'max'} = 0;
$self->{'val'} = {@_};
foreach (values %{$self->{'val'}}) {$self->{'max'} = $_ if $_ > $self->{'max'}}
}
bless $self, $class;
}
=head2 read($fh)
Reads the coverage/class table from the given file handle
=cut
sub read
{
my ($self, $fh) = @_;
my ($dat, $fmt, $num, $i, $c);
$fh->read($dat, 4);
($fmt, $num) = unpack("n2", $dat);
$self->{'fmt'} = $fmt;
if ($self->{'cover'})
{
if ($fmt == 1)
{
$fh->read($dat, $num << 1);
map {$self->{'val'}{$_} = $i++} unpack("n*", $dat);
$self->{'count'} = $num;
} elsif ($fmt == 2)
{
$fh->read($dat, $num * 6);
for ($i = 0; $i < $num; $i++)
{
($first, $last, $c) = unpack("n3", substr($dat, $i * 6, 6));
map {$self->{'val'}{$_} = $c++} ($first .. $last);
}
$self->{'count'} = $c;
}
} elsif ($fmt == 1)
{
$fh->read($dat, 2);
$first = $num;
($num) = unpack("n", $dat);
$fh->read($dat, $num << 1);
map {$self->{'val'}{$first++} = $_; $self->{'max'} = $_ if ($_ > $self->{'max'})} unpack("n*", $dat);
} elsif ($fmt == 2)
{
$fh->read($dat, $num * 6);
for ($i = 0; $i < $num; $i++)
{
($first, $last, $c) = unpack("n3", substr($dat, $i * 6, 6));
map {$self->{'val'}{$_} = $c} ($first .. $last);
$self->{'max'} = $c if ($c > $self->{'max'});
}
}
$self;
}
=head2 out($fh, $state)
Writes the coverage/class table to the given file handle. If $state is 1 then
the output string is returned rather than being output to a filehandle.
=cut
sub out
{
my ($self, $fh, $state) = @_;
my ($g, $eff, $grp, $out);
my ($shipout) = ($state ? sub {$out .= $_[0];} : sub {$fh->print($_[0]);});
my (@gids) = sort {$a <=> $b} keys %{$self->{'val'}};
if ($self->{'cover'})
{ $self->sort() unless ($self->{'dontsort'} or $dontsort); }
else
{ @gids = grep {$self->{'val'}{$_} > 0} @gids;} # class value=0 is not explicitly coded in class table
$fmt = 1; $grp = 1; $eff = 0;
for ($i = 1; $i <= $#gids; $i++)
{
if ($self->{'val'}{$gids[$i]} < $self->{'val'}{$gids[$i-1]} && $self->{'cover'})
{
$fmt = 2;
last;
} elsif ($gids[$i] == $gids[$i-1] + 1 && ($self->{'cover'} || $self->{'val'}{$gids[$i]} == $self->{'val'}{$gids[$i-1]}))
{ $eff++; }
else
{
$grp++;
$eff += $gids[$i] - $gids[$i-1] if (!$self->{'cover'});
}
}
# if ($self->{'cover'})
{ $fmt = 2 if ($eff / $grp > 3 || scalar (@gids) == 0); }
# else
# { $fmt = 2 if ($grp > 1); }
if ($fmt == 1 && $self->{'cover'})
{
my ($last) = 0;
&$shipout(pack('n2', 1, scalar @gids));
&$shipout(pack('n*', @gids));
} elsif ($fmt == 1)
{
my ($last) = $gids[0];
&$shipout(pack("n3", 1, $last, $gids[-1] - $last + 1));
foreach $g (@gids)
{
if ($g > $last + 1)
{ &$shipout(pack('n*', (0) x ($g - $last - 1))); }
&$shipout(pack('n', $self->{'val'}{$g}));
$last = $g;
}
} else
{
my ($start, $end, $ind, $numloc, $endloc, $num);
&$shipout(pack("n2", 2, 0));
$numloc = $fh->tell() - 2 unless $state;
$start = 0; $end = 0; $num = 0;
while ($end < $#gids)
{
if ($gids[$end + 1] == $gids[$end] + 1
&& $self->{'val'}{$gids[$end + 1]}
== $self->{'val'}{$gids[$end]}
+ ($self->{'cover'} ? 1 : 0))
{
$end++;
next;
}
&$shipout(pack("n3", $gids[$start], $gids[$end],
$self->{'val'}{$gids[$start]}));
$start = $end + 1;
$end++;
$num++;
}
if (scalar(@gids))
{
&$shipout(pack("n3", $gids[$start], $gids[$end],
$self->{'val'}{$gids[$start]}));
$num++;
}
if ($state)
{ substr($out, 2, 2) = pack('n', $num); }
else
{
$endloc = $fh->tell();
$fh->seek($numloc, 0);
$fh->print(pack("n", $num));
$fh->seek($endloc, 0);
}
}
return ($state ? $out : $self);
}
=head2 $c->add($glyphid[, $class])
Adds a glyph id to the coverage or class table.
Returns the index or class number of the glyphid added.
=cut
sub add
{
my ($self, $gid, $class) = @_;
return $self->{'val'}{$gid} if (defined $self->{'val'}{$gid});
if ($self->{'cover'})
{
$self->{'val'}{$gid} = $self->{'count'};
return $self->{'count'}++;
}
else
{
$self->{'val'}{$gid} = $class || '0';
$self->{'max'} = $class if ($class > $self->{'max'});
return $class;
}
}
=head2 $c->signature
Returns a vector of all the glyph ids covered by this coverage table or class
=cut
sub signature
{
my ($self) = @_;
my ($vec, $range, $size);
if (0)
{
if ($self->{'cover'})
{ $range = 1; $size = 1; }
else
{
$range = $self->{'max'};
$size = 1;
while ($range > 1)
{
$size = $size << 1;
$range = $range >> 1;
}
$range = $self->{'max'} + 1;
}
foreach (keys %{$self->{'val'}})
{ vec($vec, $_, $size) = $self->{'val'}{$_} > $range ? $range : $self->{'val'}{$_}; }
length($vec) . ":" . $vec;
}
$vec = join(";", map{"$_,$self->{'val'}{$_}"} sort { $a <=> $b} keys %{$self->{'val'}});
}
=head2 @map=$c->sort
Sorts the coverage table so that indexes are in ascending order of glyphid.
Returns a map such that $map[$new_index]=$old_index.
=cut
sub sort
{
my ($self) = @_;
my (@res, $i);
foreach (sort {$a <=> $b} keys %{$self->{'val'}})
{
push(@res, $self->{'val'}{$_});
$self->{'val'}{$_} = $i++;
}
@res;
}
=head2 $c->out_xml($context)
Outputs this coverage/class in XML
=cut
sub out_xml
{
my ($self, $context, $depth) = @_;
my ($fh) = $context->{'fh'};
$fh->print("$depth<" . ($self->{'cover'} ? 'coverage' : 'class') . ">\n");
foreach $gid (sort {$a <=> $b} keys %{$self->{'val'}})
{
$fh->printf("$depth$context->{'indent'}<gref glyph='%s' val='%s'/>\n", $gid, $self->{'val'}{$gid});
}
$fh->print("$depth</" . ($self->{'cover'} ? 'coverage' : 'class') . ">\n");
$self;
}
sub release
{ }
1;
=head1 AUTHOR
Martin Hosken L<http://scripts.sil.org/FontUtils>.
=head1 LICENSING
Copyright (c) 1998-2016, SIL International (http://www.sil.org)
This module is released under the terms of the Artistic License 2.0.
For details, see the full text of the license in the file LICENSE.
=cut