—————#=======================================================================
# ____ ____ _____ _ ____ ___ ____
# | _ \| _ \| ___| _ _ / \ | _ \_ _| |___ \
# | |_) | | | | |_ (_) (_) / _ \ | |_) | | __) |
# | __/| |_| | _| _ _ / ___ \| __/| | / __/
# |_| |____/|_| (_) (_) /_/ \_\_| |___| |_____|
#
# A Perl Module Chain to faciliate the Creation and Modification
# of High-Quality "Portable Document Format (PDF)" Files.
#
#=======================================================================
#
# THIS IS A REUSED PERL MODULE, FOR PROPER LICENCING TERMS SEE BELOW:
#
#
# Copyright Martin Hosken <Martin_Hosken@sil.org>
#
# No warranty or expression of effectiveness, least of all regarding
# anyone's safety, is implied in this software or documentation.
#
# This specific module is licensed under the Perl Artistic License.
#
#
# $Id: Kern.pm,v 1.5 2004/06/15 09:13:37 fredo Exp $
#
#=======================================================================
package
PDF::API2::Basic::TTF::Kern;
=head1 NAME
PDF::API2::Basic::TTF::Kern - Kerning tables
=head1 DESCRIPTION
Kerning tables are held as an ordered collection of subtables each giving
incremental information regarding the kerning of various pairs of glyphs.
The basic structure of the kerning data structure is:
$kern = $f->{'kern'}{'tables'}[$tnum]{'kerns'}{$leftnum}{$rightnum};
Due to the possible complexity of some kerning tables the above information
is insufficient. Reference also needs to be made to the type of the table and
the coverage field.
=head1 INSTANCE VARIABLES
The instance variables for a kerning table are relatively straightforward.
=over 4
=item Version
Version number of the kerning table
=item Num
Number of subtables in the kerning table
=item tables
Array of subtables in the kerning table
=over 4
Each subtable has a number of instance variables.
=item kern
A two level hash array containing kerning values. The indexing is left
value and then right value. In the case of type 2 tables, the indexing
is via left class and right class. It may seem using hashes is strange,
but most tables are not type 2 and this method saves empty array values.
=item type
Stores the table type. Only type 0 and type 2 tables are specified for
TrueType so far.
=item coverage
A bit field of coverage information regarding the kerning value. See the
TrueType specification for details.
=item Version
Contains the version number of the table.
=item Num
Number of kerning pairs in this type 0 table.
=item left
An array indexed by glyph - left_first which returns a class number for
the glyph in type 2 tables.
=item right
An array indexed by glyph - right_first which returns a class number for
the glyph in type 2 tables.
=item left_first
the glyph number of the first element in the left array for type 2 tables.
=item right_first
the glyph number of the first element in the right array for type 2 tables.
=item num_left
Number of left classes
=item num_right
Number of right classes
=back
=back
=head1 METHODS
=cut
use
strict;
@ISA
=
qw(PDF::API2::Basic::TTF::Table)
;
=head2 $t->read
Reads the whole kerning table into structures
=cut
sub
read
{
my
(
$self
) =
@_
;
my
(
$fh
) =
$self
->{
' INFILE'
};
my
(
$dat
,
$i
,
$numt
,
$len
,
$cov
,
$t
);
$self
->SUPER::
read
or
return
$self
;
$fh
->
read
(
$dat
, 4);
(
$self
->{
'Version'
},
$numt
) =
unpack
(
"n2"
,
$dat
);
$self
->{
'Num'
} =
$numt
;
for
(
$i
= 0;
$i
<
$numt
;
$i
++)
{
$t
= {};
$fh
->
read
(
$dat
, 6);
(
$t
->{
'Version'
},
$len
,
$cov
) =
unpack
(
"n3"
,
$dat
);
$t
->{
'coverage'
} =
$cov
& 255;
$t
->{
'type'
} =
$cov
>> 8;
$fh
->
read
(
$dat
,
$len
- 6);
if
(
$t
->{
'Version'
} == 0)
{
my
(
$j
);
$t
->{
'Num'
} =
unpack
(
"n"
,
$dat
);
for
(
$j
= 0;
$j
<
$t
->{
'Num'
};
$j
++)
{
my
(
$f
,
$l
,
$v
) = TTF_Unpack(
"SSs"
,
substr
(
$dat
,
$j
* 6 + 8, 6));
$t
->{
'kern'
}{
$f
}{
$l
} =
$v
;
}
}
elsif
(
$t
->{
'Version'
} == 2)
{
my
(
$wid
,
$off
,
$numg
,
$maxl
,
$maxr
,
$j
);
$wid
=
unpack
(
"n"
,
$dat
);
$off
=
unpack
(
"n"
,
substr
(
$dat
, 2));
(
$t
->{
'left_first'
},
$numg
) =
unpack
(
"n2"
,
substr
(
$dat
,
$off
));
$t
->{
'left'
} = [
unpack
(
"C$numg"
,
substr
(
$dat
,
$off
+ 4))];
foreach
(@{
$t
->{
'left'
}})
{
$_
/=
$wid
;
$maxl
=
$_
if
(
$_
>
$maxl
);
}
$t
->{
'left_max'
} =
$maxl
;
$off
=
unpack
(
"n"
,
substr
(
$dat
, 4));
(
$t
->{
'right_first'
},
$numg
) =
unpack
(
"n2"
,
substr
(
$dat
,
$off
));
$t
->{
'right'
} = [
unpack
(
"C$numg"
,
substr
(
$dat
,
$off
+ 4))];
foreach
(@{
$t
->{
'right'
}})
{
$_
>>= 1;
$maxr
=
$_
if
(
$_
>
$maxr
);
}
$t
->{
'right_max'
} =
$maxr
;
$off
=
unpack
(
"n"
,
substr
(
$dat
, 6));
for
(
$j
= 0;
$j
<=
$maxl
;
$j
++)
{
my
(
$k
) = 0;
map
{
$t
->{
'kern'
}{
$j
}{
$k
} =
$_
if
$_
;
$k
++; }
unpack
(
"n$maxr"
,
substr
(
$dat
,
$off
+
$wid
*
$j
));
}
}
push
(@{
$self
->{
'tables'
}},
$t
);
}
$self
;
}
=head2 $t->out($fh)
Outputs the kerning tables to the given file
=cut
sub
out
{
my
(
$self
,
$fh
) =
@_
;
my
(
$i
,
$l
,
$r
,
$loc
,
$loc1
,
$t
);
return
$self
->SUPER::out(
$fh
)
unless
(
$self
->{
' read'
});
$fh
->
(
pack
(
"n2"
,
$self
->{
'Version'
},
$self
->{
'Num'
}));
for
(
$i
= 0;
$i
<
$self
->{
'Num'
};
$i
++)
{
$t
=
$self
->{
'tables'
}[
$i
];
$loc
=
$fh
->
tell
();
$fh
->
(
pack
(
"nnn"
,
$t
->{
'Version'
}, 0,
$t
->{
'coverage'
}));
if
(
$t
->{
'Version'
} == 0)
{
my
(
$dat
);
foreach
$l
(
sort
{
$a
<=>
$b
}
keys
%{
$t
->{
'kern'
}})
{
foreach
$r
(
sort
{
$a
<=>
$b
}
keys
%{
$t
->{
'kern'
}{
$l
}})
{
$dat
.= TTF_Pack(
"SSs"
,
$l
,
$r
,
$t
->{
'kern'
}{
$l
}{
$r
}); }
}
$fh
->
(TTF_Pack(
"SSSS"
, PDF::API2::Basic::TTF::Utils::TTF_bininfo(
length
(
$dat
) / 6, 6)));
$fh
->
(
$dat
);
}
elsif
(
$t
->{
'Version'
} == 2)
{
my
(
$arr
);
$fh
->
(
pack
(
"nnnn"
,
$t
->{
'right_max'
} << 1, 8, ($
#{$t->{'left'}} + 7) << 1,
($
#{$t->{'left'}} + $#{$t->{'right'}} + 10) << 1));
$fh
->
(
pack
(
"nn"
,
$t
->{
'left_first'
}, $
#{$t->{'left'}} + 1));
foreach
(@{
$t
->{
'left'
}})
{
$fh
->
(
pack
(
"C"
,
$_
* ((
$t
->{
'left_max'
} + 1) << 1))); }
$fh
->
(
pack
(
"nn"
,
$t
->{
'right_first'
}, $
#{$t->{'right'}} + 1));
foreach
(@{
$t
->{
'right'
}})
{
$fh
->
(
pack
(
"C"
,
$_
<< 1)); }
$arr
=
"\000\000"
x ((
$t
->{
'left_max'
} + 1) * (
$t
->{
'right_max'
} + 1));
foreach
$l
(
keys
%{
$t
->{
'kern'
}})
{
foreach
$r
(
keys
%{
$t
->{
'kern'
}{
$l
}})
{
substr
(
$arr
, (
$l
* (
$t
->{
'left_max'
} + 1) +
$r
) << 1, 2)
=
pack
(
"n"
,
$t
->{
'kern'
}{
$l
}{
$r
}); }
}
$fh
->
(
$arr
);
}
$loc1
=
$fh
->
tell
();
$fh
->
seek
(
$loc
+ 2, 0);
$fh
->
(
pack
(
"n"
,
$loc1
-
$loc
));
$fh
->
seek
(
$loc1
, 0);
}
$self
;
}
=head2 $t->XML_element($context, $depth, $key, $value)
Handles outputting the kern hash into XML a little more tidily
=cut
sub
XML_element
{
my
(
$self
) =
shift
;
my
(
$context
,
$depth
,
$key
,
$value
) =
@_
;
my
(
$fh
) =
$context
->{
'fh'
};
my
(
$f
,
$l
);
return
$self
->SUPER::XML_element(
@_
)
unless
(
$key
eq
'kern'
);
$fh
->
(
"$depth<kern-table>\n"
);
foreach
$f
(
sort
{
$a
<=>
$b
}
keys
%{
$value
})
{
foreach
$l
(
sort
{
$a
<=>
$b
}
keys
%{
$value
->{
$f
}})
{
$fh
->
(
"$depth$context->{'indent'}<adjust first='$f' last='$l' dist='$value->{$f}{$l}'/>\n"
); }
}
$fh
->
(
"$depth</kern-table>\n"
);
$self
;
}
1;
=head1 BUGS
=over 4
=item *
Only supports kerning table types 0 & 2.
=item *
No real support functions to I<do> anything with the kerning tables yet.
=back
=head1 AUTHOR
Martin Hosken Martin_Hosken@sil.org. See L<PDF::API2::Basic::TTF::Font> for copyright and
licensing.
=cut