package PDF::API2::Resource::Font::Postscript;
use base 'PDF::API2::Resource::Font';
use strict;
no warnings qw[ deprecated recursion uninitialized ];
our $VERSION = '2.043'; # VERSION
use Encode qw(:all);
use IO::File qw();
use PDF::API2::Util;
use PDF::API2::Basic::PDF::Utils;
sub new {
my ($class, $pdf, $psfile, %opts) = @_;
my ($self,$encoding);
my (@w,$data);
if(defined $opts{-afmfile}) {
$data = $class->readAFM($opts{-afmfile});
} elsif(defined $opts{-pfmfile}) {
$data = $class->readPFM($opts{-pfmfile});
} elsif(defined $opts{-xfmfile}) {
$data = $class->readXFM($opts{-xfmfile});
} else {
die "no proper font-metrics file specified for '$psfile'.";
}
$class = ref $class if ref $class;
$self = $class->SUPER::new($pdf, $data->{apiname}.pdfkey().'~'.time());
$pdf->new_obj($self) unless($self->is_obj($pdf));
$self->{' data'}=$data;
if($opts{-pdfname}) {
$self->name($opts{-pdfname});
}
$self->{'Subtype'} = PDFName("Type1");
$self->{'FontDescriptor'}=$self->descrByData();
if(-f $psfile)
{
$self->{'BaseFont'} = PDFName(pdfkey().'+'.($self->fontname).'~'.time());
my ($l1,$l2,$l3,$stream)=$self->readPFAPFB($psfile);
my $s = PDFDict();
$self->{'FontDescriptor'}->{'FontFile'} = $s;
$s->{'Length1'} = PDFNum($l1);
$s->{'Length2'} = PDFNum($l2);
$s->{'Length3'} = PDFNum($l3);
$s->{'Filter'} = PDFArray(PDFName("FlateDecode"));
$s->{' stream'} = $stream;
if(defined $pdf) {
$pdf->new_obj($s);
}
}
else
{
$self->{'BaseFont'} = PDFName($self->fontname);
}
$self->encodeByData($opts{-encode});
$self->{-nocomps}=1 if($opts{-nocomps});
$self->{-dokern}=1 if($opts{-dokern});
return($self);
}
sub readPFAPFB {
my ($self,$file) = @_;
my ($l1,$l2,$l3,$stream,$t1stream,@lines,$line,$head,$body,$tail);
die "cannot find font '$file' ..." unless(-f $file);
my $l=-s $file;
open(my $inf, "<", $file) or die "$!: $file";
binmode($inf,':raw');
read($inf,$line,2);
@lines=unpack('C*',$line);
if(($lines[0]==0x80) && ($lines[1]==1)) {
read($inf,$line,4);
$l1=unpack('V',$line);
seek($inf,$l1,1);
read($inf,$line,2);
@lines=unpack('C*',$line);
if(($lines[0]==0x80) && ($lines[1]==2)) {
read($inf,$line,4);
$l2=unpack('V',$line);
} else {
die "corrupt pfb in file '$file' at marker='2'.";
}
seek($inf,$l2,1);
read($inf,$line,2);
@lines=unpack('C*',$line);
if(($lines[0]==0x80) && ($lines[1]==1)) {
read($inf,$line,4);
$l3=unpack('V',$line);
} else {
die "corrupt pfb in file '$file' at marker='3'.";
}
seek($inf,0,0);
@lines=<$inf>;
$stream=join('',@lines);
$t1stream=substr($stream,6,$l1);
$t1stream.=substr($stream,12+$l1,$l2);
$t1stream.=substr($stream,18+$l1+$l2,$l3);
} elsif($line eq '%!') {
seek($inf,0,0);
while($line=<$inf>) {
if(!$l1) {
$head.=$line;
if($line=~/eexec$/){
chomp($head);
$head.="\x0d";
$l1=length($head);
}
} elsif(!$l2) {
if($line=~/^0+$/) {
$l2=length($body);
$tail=$line;
} else {
chomp($line);
$body.=pack('H*',$line);
}
} else {
$tail.=$line;
}
}
$l3=length($tail);
$t1stream="$head$body$tail";
} else {
die "unsupported font-format in file '$file' at marker='1'.";
}
close($inf);
return($l1,$l2,$l3,$t1stream);
}
# $datahashref = $self->readAFM( $afmfile );
sub readAFM
{
my ($self,$file)=@_;
my $data={};
$data->{wx}={};
$data->{bbox}={};
$data->{char}=[];
$data->{firstchar}=255;
$data->{lastchar}=0;
if(! -e $file) {die "file='$file' not existant.";}
open(my $afmf, "<", $file) or die "Can't find the AFM file for $file";
local($/, $_) = ("\n", undef); # ensure correct $INPUT_RECORD_SEPARATOR
while ($_=<$afmf>)
{
if (/^StartCharMetrics/ .. /^EndCharMetrics/)
{
# only lines that start with "C" or "CH" are parsed
next unless $_=~/^CH?\s/;
my($ch) = $_=~/^CH?\s+(\d+)\s*;/;
$ch=$ch||0;
my($name) = $_=~/\bN\s+(\.?\w+)\s*;/;
my($wx) = $_=~/\bWX\s+(\d+)\s*;/;
my($bbox) = $_=~/\bB\s+([^;]+);/;
$bbox =~ s/\s+$//;
# Should also parse lingature data (format: L successor lignature)
$data->{avgwidth2} += $wx ;
$data->{maxwidth} = $data->{maxwidth}<$wx ? $wx : $data->{maxwidth};
$data->{wx}->{$name} = $wx ;
$data->{bbox}->{$name} = [split(/\s+/,$bbox)];
if($ch>0) {
$data->{'char'}->[$ch]=$name ;
}
$data->{lastchar} = $data->{lastchar}<$ch ? $ch : $data->{lastchar};
$data->{firstchar} = $data->{firstchar}>$ch ? $ch : $data->{firstchar};
next;
}
elsif(/^StartKernData/ .. /^EndKernData/)
{
$data->{kern}||={};
if($_=~m|^KPX\s+(\S+)\s+(\S+)\s+(\S+)\s*$|i)
{
$data->{kern}->{"$1:$2"}=$3;
}
}
elsif(/^StartComposites/ .. /^EndComposites/)
{
$data->{comps}||={};
if($_=~m|^CC\s+(\S+)\s+(\S+)\s+;|i)
{
my ($name,$comp)=($1,$2);
my @cv=split(/;/,$_);
shift @cv;
my $rng=[];
foreach (1..$comp)
{
my @c1=split(/\s+/,shift @cv);
push @{$rng},$c1[1],$c1[2],$c1[3];
}
$data->{comps}->{$name}=$rng;
}
}
last if $_=~/^EndFontMetrics/;
if (/(^\w+)\s+(.*)/)
{
my($key,$val) = ($1, $2);
$key = lc $key;
if (defined $data->{$key})
{
# $data->{$key} = [ $data->{$key} ] unless ref $data->{$key};
# push(@{$data->{$key}}, $val);
}
else
{
$val=~s/[\x00\x1f]+//g;
$data->{$key} = $val;
}
}
else
{
## print STDERR "Can't parse: $_";
}
}
close($afmf);
unless (exists $data->{wx}->{'.notdef'})
{
$data->{wx}->{'.notdef'} = 0;
$data->{bbox}{'.notdef'} = [0, 0, 0, 0];
}
$data->{avgwidth2} /= scalar keys %{$data->{bbox}} ;
$data->{avgwidth2} = int($data->{avgwidth2});
$data->{fontname}=~s/[\x00-\x20]+//og;
## $data->{fontname}=~s/[^A-Za-z0-9]+//og;
if(defined $data->{fullname})
{
$data->{altname}=$data->{fullname};
}
else
{
$data->{altname}=$data->{familyname};
$data->{altname}.=' Italic' if($data->{italicangle}<0);
$data->{altname}.=' Oblique' if($data->{italicangle}>0);
$data->{altname}.=' '.$data->{weight};
}
$data->{apiname}=$data->{altname};
$data->{altname}=~s/[^A-Za-z0-9]+//og;
$data->{subname}=$data->{weight};
$data->{subname}.=' Italic' if($data->{italicangle}<0);
$data->{subname}.=' Oblique' if($data->{italicangle}>0);
$data->{subname}=~s/[^A-Za-z0-9]+//og;
$data->{missingwidth}||=$data->{avgwidth2};
$data->{issymbol} = 0;
$data->{fontbbox} = [ split(/\s+/,$data->{fontbbox}) ];
$data->{apiname}=join('', map { ucfirst(lc(substr($_, 0, 2))) } split m/[^A-Za-z0-9\s]+/, $data->{apiname});
$data->{flags} = 34;
$data->{uni}||=[];
foreach my $n (0..255)
{
$data->{uni}->[$n]=uniByName($data->{char}->[$n] || '.notdef') || 0;
}
delete $data->{bbox};
return($data);
}
sub readPFM {
my ($self,$file)=@_;
if(! -e $file) {die "pfmfile='$file' not existant.";}
my $fh=IO::File->new();
my $data={};
$data->{issymbol} = 0;
$data->{wx}={};
$data->{bbox}={};
$data->{kern}={};
$data->{char}=[];
my $buf;
open($fh, "<", $file) || return;
binmode($fh,':raw');
read($fh,$buf,117 + 30);
my %df;
# Packing structure for PFM Header
( $df{Version},
$df{Size},
$df{Copyright},
$df{Type},
$df{Point},
$df{VertRes},
$df{HorizRes},
$df{Ascent},
$df{InternalLeading},
$df{ExternalLeading},
$df{Italic},
$df{Underline},
$df{StrikeOut},
$df{Weight},
#define FW_DONTCARE 0
#define FW_THIN 100
#define FW_EXTRALIGHT 200
#define FW_ULTRALIGHT FW_EXTRALIGHT
#define FW_LIGHT 300
#define FW_NORMAL 400
#define FW_REGULAR 400
#define FW_MEDIUM 500
#define FW_SEMIBOLD 600
#define FW_DEMIBOLD FW_SEMIBOLD
#define FW_BOLD 700
#define FW_EXTRABOLD 800
#define FW_ULTRABOLD FW_EXTRABOLD
#define FW_HEAVY 900
#define FW_BLACK FW_HEAVY
$df{CharSet},
#define ANSI_CHARSET 0
#define DEFAULT_CHARSET 1
#define SYMBOL_CHARSET 2
#define SHIFTJIS_CHARSET 128
#define HANGEUL_CHARSET 129
#define HANGUL_CHARSET 129
#define GB2312_CHARSET 134
#define CHINESEBIG5_CHARSET 136
#define GREEK_CHARSET 161
#define TURKISH_CHARSET 162
#define HEBREW_CHARSET 177
#define ARABIC_CHARSET 178
#define BALTIC_CHARSET 186
#define RUSSIAN_CHARSET 204
#define THAI_CHARSET 222
#define EASTEUROPE_CHARSET 238
#define OEM_CHARSET 255
#define JOHAB_CHARSET 130
#define VIETNAMESE_CHARSET 163
#define MAC_CHARSET 77
#define BALTIC_CHARSET 186
#define JOHAB_CHARSET 130
#define VIETNAMESE_CHARSET 163
$df{PixWidth},
$df{PixHeight},
$df{PitchAndFamily},
#define DEFAULT_PITCH 0
#define FIXED_PITCH 1
#define VARIABLE_PITCH 2
#define MONO_FONT 8
#define FF_DECORATIVE 80
#define FF_DONTCARE 0
#define FF_MODERN 48
#define FF_ROMAN 16
#define FF_SCRIPT 64
#define FF_SWISS 32
$df{AvgWidth},
$df{MaxWidth},
$df{FirstChar},
$df{LastChar},
$df{DefaultChar},
$df{BreakChar},
$df{WidthBytes},
$df{Device},
$df{Face},
$df{BitsPointer},
$df{BitsOffset},
$df{SizeFields}, # Two bytes, the size of extension section
$df{ExtMetricsOffset}, # Four bytes, offset value to the 'Extended Text Metrics' section
$df{ExtentTable}, # Four bytes Offset value to the Extent Table
$df{OriginTable}, # Four bytes 0
$df{PairKernTable}, # Four bytes 0
$df{TrackKernTable}, # Four bytes 0
$df{DriverInfo}, # Four bytes Offset value to the PostScript font name string
$df{Reserved}, # Four bytes 0
) = unpack("vVa60vvvvvvvCCCvCvvCvvCCCCvVVVV vVVVVVVV",$buf); # PFM Header + Ext
seek($fh,$df{Device},0);
read($fh,$buf,250);
($df{postScript}) = unpack("Z*",$buf);
$buf=substr($buf,length($df{postScript})+1,250);
($df{windowsName}) = unpack("Z*",$buf);
$buf=substr($buf,length($df{windowsName})+1,250);
($df{psName}) = unpack("Z*",$buf);
seek($fh,$df{ExtMetricsOffset},0);
read($fh,$buf,52);
( $df{etmSize},
$df{PointSize},
$df{Orientation},
$df{MasterHeight},
$df{MinScale},
$df{MaxScale},
$df{MasterUnits},
$df{CapHeight},
$df{xHeight},
$df{LowerCaseAscent},
$df{LowerCaseDescent},
$df{Slant},
$df{SuperScript},
$df{SubScript},
$df{SuperScriptSize},
$df{SubScriptSize},
$df{UnderlineOffset},
$df{UnderlineWidth},
$df{DoubleUpperUnderlineOffset},
$df{DoubleLowerUnderlineOffset},
$df{DoubleUpperUnderlineWidth},
$df{DoubleLowerUnderlineWidth},
$df{StrikeOutOffset},
$df{StrikeOutWidth},
$df{KernPairs},
$df{KernTracks} ) = unpack('v*',$buf);
$data->{fontname}=$df{psName};
$data->{fontname}=~s/[^A-Za-z0-9]+//og;
$data->{apiname}=join('', map { ucfirst(lc(substr($_, 0, 2))) } split m/[^A-Za-z0-9\s]+/, $df{windowsName});
$data->{upem}=1000;
$data->{fontbbox}=[-100,-100,$df{MaxWidth},$df{Ascent}];
$data->{stemv}=0;
$data->{stemh}=0;
$data->{lastchar}=$df{LastChar};
$data->{firstchar}=$df{FirstChar};
$data->{missingwidth}=$df{AvgWidth};
$data->{maxwidth}=$df{MaxWidth};
$data->{ascender}=$df{Ascent};
$data->{descender}=-$df{LowerCaseDescent};
$data->{flags} = 0;
# FixedPitch 1
$data->{flags} |= 1 if((($df{PitchAndFamily} & 1) || ($df{PitchAndFamily} & 8)) && !($df{PitchAndFamily} & 2));
# Serif 2
$data->{flags} |= 2 if(($df{PitchAndFamily} & 16) && !($df{PitchAndFamily} & 32));
# Symbolic 4
$data->{flags} |= 4 if($df{PitchAndFamily} & 80);
# Script 8
$data->{flags} |= 8 if($df{PitchAndFamily} & 64);
# Nonsymbolic 32
$data->{flags} |= 32 unless($df{PitchAndFamily} & 80);
# Italic 64
$data->{flags} |= 64 if($df{Italic});
#bit 17 AllCap
#bit 18 SmallCap
#bit 19 ForceBold
$data->{capheight}=$df{CapHeight};
$data->{xheight}=$df{xHeight};
$data->{uni}=[ unpack('U*',decode('cp1252',pack('C*',(0..255)))) ];
$data->{char}=[ map { nameByUni($_) || '.notdef' } @{$data->{uni}} ];
$data->{italicangle}=-12*$df{Italic};
$data->{isfixedpitch}=(($df{PitchAndFamily} & 8) || ($df{PitchAndFamily} & 1));
$data->{underlineposition}=-$df{UnderlineOffset};
$data->{underlinethickness}=$df{UnderlineWidth};
seek($fh,$df{ExtentTable},0);
foreach my $k ($df{FirstChar} .. $df{LastChar}) {
read($fh,$buf,2);
my ($wx)=unpack('v',$buf);
$data->{wx}->{$data->{char}->[$k]}=$wx;
# print STDERR "e: c=$k n='".$data->{char}->[$k]."' wx='$wx'\n";
}
$data->{pfm}=\%df;
close($fh);
return($data);
}
sub readXFM {
my ($class,$xfmfile) = @_;
die "cannot find font '$xfmfile' ..." unless(-f $xfmfile);
my $data={};
return($data);
}
1;