#! /usr/bin/env perl =begin COPYRIGHT ---------------------------------------------------------------------------- Copyright (C) 2005-2012 Marc Penninga. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA ---------------------------------------------------------------------------- =end COPYRIGHT =cut use strict; use warnings; use File::Path (); use File::Spec (); use Getopt::Long (); my ($d, $m, $y) = (localtime time)[3 .. 5]; my $TODAY = sprintf "%04d/%02d/%02d", $y + 1900, $m + 1, $d; =begin Comment The next three tables map the names of weights, widths and shapes to NFSS codes. New entries can be added, but the names should be all lowercase. Also make sure that the NFSS 'series' attribute (the concatenation of weight and width) is unique! The 'book' and 'regular' weights and the 'regular' width are mapped to an empty string rather than 'm', because the 'm' disappears when weight and width are combined into the NFSS series (unless *both* are 'regular', but we deal with that case separately). The 'oblique' (aka 'slanted') shape is mapped to 'it' to make things easier for ourselves. This means the program will fail for font families that have both italic and oblique shapes, but I doubt whether these exist (apart from Computer Modern, of course). =end Comment =cut my %FD_WEIGHT = ( thin => 't', ultralight => 'ul', extralight => 'el', light => 'l', book => '', regular => '', medium => 'mb', demibold => 'db', demi => 'db', semibold => 'sb', bold => 'b', extrabold => 'eb', ultra => 'ub', ultrabold => 'ub', black => 'k', extrablack => 'ek', ultrablack => 'uk', heavy => 'h', poster => 'r', ); my %FD_WIDTH = ( ultracompressed => 'up', extracompressed => 'ep', compressed => 'p', comp => 'p', cmp => 'p', compact => 'p', ultracondensed => 'uc', extracondensed => 'ec', condensed => 'c', cond => 'c', narrow => 'n', semicondensed => 'sc', regular => '', semiextended => 'sx', extended => 'x', expanded => 'e', wide => 'w', ); my %FD_SHAPE = ( roman => 'n', upright => 'n', italic => 'it', ita => 'it', it => 'it', cursive => 'it', kursiv => 'it', inclined => 'it', incline => 'it', oblique => 'it', slanted => 'it', slant => 'it', romani => 'n', # Adobe Silentium Pro has two roman shapes; romanii => 'it', # we map the second one to 'it' ); =begin Comment The next table is used to generate extra DeclareFontShape rules in the .fd files that map slanted shapes to italic. Note that the rules should be read 'backwards': so "it => 'sl'" means that 'it' replaces 'sl'. Sorry about that. =end Comment =cut my %FD_SSUB = ( it => 'sl', scit => 'scsl', tlit => 'tlsl', ); =begin Comment The following tables are used in deciding which font families and shapes to generate. Each hash governs one of these aspects: - 'figure style' (lining, oldstyle, tabular, proportional, superior, inferior etc.); each of these will become a separate font family. - 'shape' (normal, small caps, swash, titling or textcomp). Each key in the %STYLE hash names a figure style; the corresponding value is an anonymous hash with four key/value pairs: reqd A list of required OpenType features; this style is built if the font supports at least *one* of these features. nice A list of optional OpenType features; these are used if the font supports them, but don't prevent this style from being built when missing. extra Extra options passed to otftotfm when creating this style. shape An anonymous array of 'variant' shapes to build with this figure style. Ornaments are treated as a separate 'figure style'. This may seem a bit weird, but is actually the easiest way to do it. Each key in the %SHAPE hash names a shape; the corresponding value is (again) an anonymous hash with several key/value pairs: code An anonymous hash with two possible keys: 'n' -> the NFSS code to use for this variant shape if the 'basic shape' is upright; 'it' -> the NFSS code to use for this variant shape if the 'basic shape' is italic, slanted or oblique; If the 'n' or 'it' entry is missing, the upright or italic version of this variant shape will not be built. reqd A list of required OpenType features; this shape is built if the font supports at least *one* of these features. nice A list of optional OpenType features; these are used if the font supports them, but don't prevent this shape from being built when missing. extra Extra options passed to otftotfm when creating this shape. name A string added to the name of the generated font, to make it unique. =end Comment =cut my %STYLE = ( TLF => { reqd => [], nice => ['lnum', 'tnum'], extra => '', shapes => ['normal', 'smallcaps', 'swash', 'titling', 'textcomp'], }, LF => { reqd => ['pnum'], nice => ['lnum'], extra => '', shapes => ['normal', 'smallcaps', 'swash', 'titling', 'textcomp'], }, TOsF => { reqd => ['onum'], nice => ['tnum'], extra => '', shapes => ['normal', 'smallcaps', 'swash', 'textcomp'], }, OsF => { reqd => ['onum','pnum'], nice => [], extra => '', shapes => ['normal', 'smallcaps', 'swash', 'textcomp'], }, Sup => { reqd => ['sups'], nice => [], extra => '--ligkern="* {KL} *"', shapes => ['normal'], }, Inf => { reqd => ['sinf'], nice => [], extra => '--ligkern="* {KL} *"', shapes => ['normal'], }, Numr => { reqd => ['numr'], nice => [], extra => '--ligkern="* {KL} *"', shapes => ['normal'], }, Dnom => { reqd => ['dnom'], nice => [], extra => '--ligkern="* {KL} *"', shapes => ['normal'], }, Orn => { reqd => ['ornm'], nice => [], extra => '--ligkern="* {KL} *"', shapes => ['normal'], }, ); my %SHAPE = ( normal => { code => {n => 'n', it => 'it'}, reqd => [], nice => ['kern', 'liga'], extra => '', name => '', }, smallcaps => { code => {n => 'sc', it => 'scit'}, reqd => ['smcp'], nice => ['kern', 'liga'], extra => '--unicoding="germandbls =: SSsmall"', name => 'sc', }, swash => { code => {n => 'nw', it => 'sw'}, reqd => ['swsh', 'dlig'], nice => ['kern', 'liga'], extra => '--include-alternates="*.swash" -faalt', name => 'swash', }, titling => { code => {n => 'tl', it => 'tlit'}, reqd => ['titl', 'case', 'cpsp'], nice => ['kern', 'liga'], extra => '', name => 'titling', }, textcomp => { code => {n => 'n', it => 'it'}, reqd => [], nice => ['onum'], extra => '', name => '', }, ); ############################################################################ #----------------------------------------------------------------------- # The main routine. What else? #----------------------------------------------------------------------- sub main { ARGV::parse_options(); my @fonts = map { Fontinfo::parse_fontinfo($_) } @ARGV; Fontinfo::assert_unique(@fonts); # For each font, figure out the shapes, styles and encodings to generate my @worklist = cleanup(expand_encodings(expand_shapes(expand_styles(@fonts)))); # Organize the worklist by family, encoding, style, series and shape my %fddata; for my $item (@worklist) { my $family = $item->{font}{family}; my $encoding = $item->{encoding}[1]; my $style = $item->{style}; my $series = $item->{font}{fdseries}; my $shape = $item->{fdshape}; my $minsize = $item->{font}{minsize}; my $maxsize = $item->{font}{maxsize}; push @{$fddata{$family}{$encoding}{$style}{$series}{$shape}}, [ $minsize, $maxsize, $item->{fontname} ]; } while (my ($fam, $famdata) = each %fddata) { LaTeX::write_stylefile($fam, $famdata); while (my ($enc, $encdata) = each %$famdata) { while (my ($sty, $stydata) = each %$encdata) { LaTeX::write_fdfile($fam, $enc, $sty, $stydata); } } } make_commands(@worklist); return; } #----------------------------------------------------------------------- # Determine which figure styles to create for each font; # return a list of (font, style) tuples #----------------------------------------------------------------------- sub expand_styles { return map { my $font = $_; map { { font => $font, style => $_ } } grep { has_reqd($font, $STYLE{$_}) } keys %STYLE } @_; } #----------------------------------------------------------------------- # Determine which shapes to create for each (font, style) combination; # return a list of (font, style, shape) tuples #----------------------------------------------------------------------- sub expand_shapes { return map { my ($font, $style) = @{$_}{qw(font style)}; map { { font => $font, style => $style, shape => $_ } } grep { has_reqd($font, $SHAPE{$_}) } @{$STYLE{$style}{shapes}}; } @_; } #----------------------------------------------------------------------- # Check if $font has (at least one of the) features mentioned in the # 'reqd' subtable of $target #----------------------------------------------------------------------- sub has_reqd { my ($font, $target) = @_; return 0 unless defined $target; return 1 unless @{$target->{reqd}}; return grep { $font->{feature}{$_} } @{$target->{reqd}}; } #----------------------------------------------------------------------- # Determine which encodings to use for each (font, style, shape) combi; # return a list of (font, style, shape, encoding) tuples #----------------------------------------------------------------------- sub expand_encodings { return map { my ($font, $style, $shape) = @{$_}{qw(font style shape)}; my @encodings = $shape eq 'textcomp' ? (['fontools_ts1', 'ts1']) : $style eq 'Orn' ? ([Fontinfo::get_orn($font), 'u']) : map { [lc $_, lc $_] } @{$ARGV{encoding}} ; map { { font => $font, style => $style, shape => $shape, encoding => $_, } } @encodings; } @_; } #----------------------------------------------------------------------- # Add some finishing touches to the work list #----------------------------------------------------------------------- sub cleanup { my @worklist = @_; for my $item (@worklist) { my ($font, $style, $shape, $encoding) = @{$item}{qw(font style shape encoding)}; # generate unique name for this font $item->{fontname} = join '-', grep { $_ } $font->{name}, lc $style, lc $SHAPE{$shape}{name}, lc $encoding->[1]; # look up NFSS code for font's shape $item->{fdshape} = $SHAPE{$shape}{code}{$font->{basicshape}}; # compile list of OpenType features to use with this font my %feature = map { ($_ => 1) } grep { $font->{feature}{$_} } ( @{$STYLE{$style}{reqd}}, @{$STYLE{$style}{nice}}, @{$SHAPE{$shape}{reqd}}, @{$SHAPE{$shape}{nice}}, ); if ($feature{lnum} && $feature{onum}) { delete $feature{lnum}; } $item->{features} = [ sort keys %feature ]; # add finishing touches to name and NFSS code of encoding $item->{encoding}[0] =~ s/\A (ot1|t1|ly1) \z/fontools_$1/xms; $item->{encoding}[1] = uc $item->{encoding}[1]; } return @worklist; } #----------------------------------------------------------------------- # Generate all otftotfm commands, and either save or execute them #----------------------------------------------------------------------- sub make_commands { my @worklist = @_; my @commands = map { make_cmdline($_) } @worklist; # make sure the last command *does* call updmap $commands[-1] =~ s/--no-updmap//xms if $ARGV{updmap}; if ($ARGV{manual}) { open my $BAT, '>', 'autoinst.bat' or die "[ERROR] Can't create 'autoinst.bat': $!"; print {$BAT} "$_\n" for @commands; close $BAT; } else { if (grep { system $_ } @commands) { warn "[WARNING] 'otftotfm' returned non-zero; something's wrong!"; } } return; } # The official names for various coding schemes my %SCHEME = ( fontools_ly1 => 'TEX TYPEWRITER AND WINDOWS ANSI', fontools_t1 => 'EXTENDED TEX FONT ENCODING - LATIN', fontools_ot1 => 'TEX TEXT', fontools_ts1 => 'TEX TEXT COMPANION SYMBOLS 1---TS1', ); #----------------------------------------------------------------------- # Generate a command line for otftotfm #----------------------------------------------------------------------- sub make_cmdline { my $item = shift; return join ' ', 'otftotfm', ($ARGV{manual} ? '--pl' : '--automatic'), "--encoding=$item->{encoding}[0]", set_targetdirs($item->{font}{family}), '--no-updmap', ($item->{font}{filename} =~ m/[.]ttf\z/xms ? '--no-type1' : ''), ($SCHEME{$item->{encoding}[0]} ? qq(--coding-scheme="$SCHEME{$item->{encoding}[0]}") : ''), (map { "--feature=$_" } @{$item->{features}}), ((grep { $_ eq 'liga' } @{$item->{features}}) ? '' : ( '--ligkern="f i =: fi"', '--ligkern="f l =: fl"', '--ligkern="f f =: ff"', '--ligkern="ff i =: ffi"', '--ligkern="ff l =: ffl"' )), $STYLE{$item->{style}}{extra}, $SHAPE{$item->{shape}}{extra}, $ARGV{extra}, qq("$item->{font}{filename}"), $item->{fontname}, ; } #----------------------------------------------------------------------- # Return a string with all "directory" options for otftotfm set #----------------------------------------------------------------------- sub set_targetdirs { my $family = shift; my %dir = map { ($_ => File::Spec->catdir( $ARGV{target}, 'fonts', $_, $ARGV{vendor}, $ARGV{typeface} || $family)) } qw(tfm vf pl vpl type1 truetype type42); $dir{$_} = File::Spec->catdir( $ARGV{target}, 'fonts', $_, 'dvips', $ARGV{vendor}) for qw(enc map); File::Path::make_path(values %dir); my $result = join ' ', map { "--${_}-directory=$dir{$_}" } qw(tfm vf pl vpl type1 truetype type42); $result .= " --encoding-directory=$dir{enc} --map-file=" . File::Spec->catfile($dir{map}, "${family}.map"); return $result; } ############################################################################ package ARGV; my $USAGE =<<'END_USAGE'; 'autoinst' is a wrapper around Eddie Kohler's TypeTools (http://www.lcdf.org/type/), for installing OpenType fonts in LaTeX. Usage: autoinst [options] font[s] Possible options: -encoding=ENC[,ENC]* Specify text encoding(s) (default: OT1,T1,LY1) -(no)ts1 Toggle creation of TS1 fonts -(no)smallcaps Toggle creation of smallcaps shape -(no)swash Toggle creation of swash shape -(no)titling Toggle creation of titling shape -(no)superiors Toggle creation of fonts with superior characters -(no)inferiors Toggle creation of fonts with inferior characters -(no)ornaments Toggle creation of ornament fonts -(no)fractions Toggle creation of fonts with digits for fractions -sanserif Install font as sanserif font -typewriter Install font as typewriter font -extra="TEXT" Add TEXT to the command line for 'otftotfm' -target="DIRECTORY" Install files into specified TEXMF tree -vendor="VENDOR" Only used for naming directories -typeface="TYPEFACE" Only used for naming directories -(no)updmap Toggle running of updmap -manual Manual mode (see documentation) -(no)figurekern Keep or remove kerns between tabular figures -help Print this text -verbose Make some noise font[s] The fonts (either .otf or .ttf) to install. Please report any bugs or suggestions to . END_USAGE # Default values for the command-line arguments %ARGV = ( encoding => 'OT1,T1,LY1', textcomp => '2', # 0 = no, 1 = yes, 2 = (enc eq 'T1' ? yes : no) smallcaps => '1', # 0 = no, 1 = yes swash => '1', # 0 = no, 1 = yes titling => '1', # 0 = no, 1 = yes superiors => '1', # 0 = no, 1 = yes inferiors => '0', # 0 = no, 1 = yes ornaments => '1', # 0 = no, 1 = yes fractions => '0', # 0 = no, 1 = yes nfss => 'rm', extra => '', target => '', vendor => 'lcdftools', typeface => '', updmap => '1', # 0 = no, 1 = yes manual => '0', # 0 = no, 1 = yes verbose => '0', # 0 = no, 1 = yes figurekern => '1', # 0 = no, 1 = yes ); #----------------------------------------------------------------------- # Process command-line arguments #----------------------------------------------------------------------- sub parse_options { my $cmdline = "$0 " . join ' ', @ARGV; Getopt::Long::GetOptions( 'help|?' => sub { print $USAGE; exit; }, 'encoding=s' => \$ARGV{encoding}, 'ts1!' => \$ARGV{textcomp}, 'smallcaps!' => \$ARGV{smallcaps}, 'swash!' => \$ARGV{swash}, 'titling!' => \$ARGV{titling}, 'superiors!' => \$ARGV{superiors}, 'inferiors!' => \$ARGV{inferiors}, 'ornaments!' => \$ARGV{ornaments}, 'fractions!' => \$ARGV{fractions}, 'sanserif' => sub { $ARGV{nfss} = 'sf' }, 'typewriter' => sub { $ARGV{nfss} = 'tt' }, 'extra=s' => \$ARGV{extra}, 'target=s' => \$ARGV{target}, 'vendor=s' => \$ARGV{vendor}, 'typeface=s' => \$ARGV{typeface}, 'updmap!' => \$ARGV{updmap}, 'manual' => \$ARGV{manual}, 'figurekern!' => \$ARGV{figurekern}, 'verbose' => \$ARGV{verbose}, ) or die "$USAGE"; die "$USAGE" unless @ARGV; if (!$ARGV{smallcaps}) { delete $SHAPE{smallcaps} } if (!$ARGV{swash} ) { delete $SHAPE{swash} } if (!$ARGV{titling} ) { delete $SHAPE{titling} } if (!$ARGV{superiors}) { delete $STYLE{Sup} } if (!$ARGV{inferiors}) { delete $STYLE{Inf} } if (!$ARGV{ornaments}) { delete $STYLE{Orn} } if (!$ARGV{fractions}) { delete @STYLE{qw(Numr Dnom)} } $ARGV{encoding} =~ s/\s+//xmsg; my @textencodings = grep { $_ ne 'TS1' } map { uc } split /,/, $ARGV{encoding}; $ARGV{encoding} = \@textencodings; # TS1-encoded fonts are generated if: # - the user explicitly asked for TS1, or # - the text encodings contain T1 and the user didn't turn off TS1 unless ( (grep { $_ eq 'T1' } @{$ARGV{encoding}} and $ARGV{textcomp}) or $ARGV{textcomp} == 1) { delete $SHAPE{textcomp}; } if ($ARGV{manual}) { warn "[WARNING] option '--target' overridden by '--manual'!" if $ARGV{target}; $ARGV{target} = File::Spec->curdir(); } elsif (not $ARGV{target}) { my @dirs = grep { -w $_ } map { split m/:/xms, substr $_, 0, -1 } ( `kpsewhich --expand-path='\$TEXMFLOCAL'`, `kpsewhich --expand-path='\$TEXMFHOME'`, ); $ARGV{target} = $dirs[0] || File::Spec->curdir(); } if (!$ARGV{figurekern}) { my @digits = qw(zero one two three four five six seven eight nine); my $tkern = join ' ', map { my $left = $_; map { qq(--ligkern="$left {} $_") } @digits } @digits; $STYLE{TLF}{extra} = $tkern; $STYLE{TOsF}{extra} = $tkern; } if ($ARGV{verbose}) { print <<"END_ARGUMENTS"; $cmdline I'm using the following options: encoding(s): @{[ join ', ', @{$ARGV{encoding}} ]} NFSS: $ARGV{nfss} @{[ $ARGV{nfss} eq 'rm' ? '(serif)' : $ARGV{nfss} eq 'sf' ? '(sanserif)' : $ARGV{nfss} eq 'tt' ? '(typewriter)' : '(unknown)' ]} (no)ts1: @{[ $SHAPE{textcomp} ? 'ts1' : 'nots1' ]} (no)smallcaps: @{[ $ARGV{smallcaps} ? 'smallcaps' : 'nosmallcaps' ]} (no)swash: @{[ $ARGV{swash} ? 'swash' : 'noswash' ]} (no)titling: @{[ $ARGV{titling} ? 'titling' : 'notitling' ]} (no)superiors: @{[ $ARGV{superiors} ? 'superiors' : 'nosuperiors' ]} (no)inferiors: @{[ $ARGV{inferiors} ? 'inferiors' : 'noinferiors' ]} (no)ornaments: @{[ $ARGV{ornaments} ? 'ornaments' : 'noornaments' ]} (no)fractions: @{[ $ARGV{fractions} ? 'fractions' : 'nofractions' ]} verbosity: @{[ $ARGV{verbose} ? 'verbose' : 'quiet' ]} target: $ARGV{target} auto/manual: @{[ $ARGV{manual} ? 'manual' : 'automatic' ]} extra: @{[ $ARGV{extra} || 'empty' ]} figurekern: @{[ $ARGV{figurekern} ? 'keep' : 'discard' ]} END_ARGUMENTS } } ############################################################################ package Fontinfo; #----------------------------------------------------------------------- # Return ref to hash with all relevant info about this font #----------------------------------------------------------------------- sub parse_fontinfo { my ($filename) = @_; my $info = { filename => $filename, width => 'regular', weight => 'regular', shape => 'roman', minsize => 0, maxsize => 0, }; parse_basicinfo($info); parse_sizeinfo($info); parse_features($info); if ($ARGV{verbose}) { print <<"END_FONTINFO"; $info->{filename} Name: $info->{name} Family: $info->{family} Subfamily: $info->{subfamily} Width: $info->{width} Weight: $info->{weight} Shape: $info->{shape} Size: $info->{minsize}-$info->{maxsize} Features: @{[ join ', ', sort keys %{$info->{feature}} ]} END_FONTINFO } return $info; } # table for converting digits in font names to text (safer for LaTeX) my @DIGITS = qw(Zero One Two Three Four Five Six Seven Eight Nine); #----------------------------------------------------------------------- # Get some basic info (family, weight, width, shape) about this font #----------------------------------------------------------------------- sub parse_basicinfo { my $info = shift; open my $otfinfo, '-|', qq(otfinfo --info "$info->{filename}") or die "[ERROR] 'otfinfo --info $info->{filename}' failed"; my %data = map { my ($k,$v) = m/\A\s* ([^:]+?) \s*:\s* ([^\r\n]+)/xms; $k =~ s/\s+//xmsg; $v =~ s/\s+//xmsg; (lc $k => $v); } grep { m/\A\s* [^:]+? \s*:\s* [^\r\n]+/xms } <$otfinfo>; close $otfinfo; $data{family} = $data{preferredfamily} || $data{family}; $data{subfamily} = $data{preferredsubfamily} || $data{subfamily}; $data{fullname} =~ s/\A$data{family}//xms; $data{fullname} = lc $data{fullname}; $data{family} =~ s/\A(?: Adobe | ITC | LT | MT)//xms; $data{family} =~ s/(\d)/$DIGITS[$1]/xmsge; for my $width (mqrs(keys %FD_WIDTH)) { if ($data{fullname} =~ s/${width}//xmsi) { $info->{width} = $width; last; } } for my $weight (mqrs(keys %FD_WEIGHT)) { if ($data{fullname} =~ s/${weight}//xmsi) { $info->{weight} = $weight; last; } } for my $shape (mqrs(keys %FD_SHAPE)) { if ($data{fullname} =~ s/${shape}//xmsi) { $info->{shape} = $shape; last; } } $data{subfamily} =~ s/$info->{width}//xmsi; $data{subfamily} =~ s/$info->{weight}//xmsi; $data{subfamily} =~ s/$info->{shape}//xmsi; $info->{name} = $data{postscriptname}; $info->{family} = $data{family}; $info->{subfamily} = $data{subfamily}; $info->{basicshape} = $FD_SHAPE{$info->{shape}}; $info->{fdseries} = ($FD_WEIGHT{$info->{weight}} . $FD_WIDTH{$info->{width}}) || 'm'; return $info; } #----------------------------------------------------------------------- # When matching against data, try longer strings before shorter ones #----------------------------------------------------------------------- sub mqrs { return map { quotemeta } reverse sort { length($a) <=> length($b) } @_; } #----------------------------------------------------------------------- # Get all features this font supports #----------------------------------------------------------------------- sub parse_features { my $info = shift; open my $otfinfo, '-|', qq(otfinfo --features "$info->{filename}") or die "[ERROR] 'otfinfo --features $info->{filename}' failed"; %{$info->{feature}} = map { (substr($_, 0, 4) => 1) } <$otfinfo>; close $otfinfo; open $otfinfo, '-|', qq(otfinfo --tables "$info->{filename}") or die "[ERROR] 'otfinfo --tables $info->{filename}' failed"; $info->{feature}{kern} = 1 if grep { m/\d+ \s+ kern/xms } <$otfinfo>; close $otfinfo; return $info; } #----------------------------------------------------------------------- # Get the optical sizes for this font #----------------------------------------------------------------------- sub parse_sizeinfo { my $info = shift; open my $otfinfo, '-|', qq(otfinfo --optical-size "$info->{filename}") or die "[ERROR] 'otfinfo --optical-size $info->{filename}' failed"; if (my ($minsize, $maxsize) = <$otfinfo> =~ m/[(] ([\d.]+) \s* pt, \s* ([\d.]+) \s* pt \s* []]/xms ) { # fix some known bugs if ($info->{name} eq 'GaramondPremrPro-It' && $minsize == 6 && $maxsize == 8.9) { ($minsize, $maxsize) = (8.9, 14.9); } elsif ($info->{family} eq 'KeplerStd' && $info->{subfamily} =~ m/Caption/xms && $minsize == 8.9 && $maxsize == 13.9) { ($minsize, $maxsize) = (6, 8.9); } elsif ($info->{family} eq 'KeplerStd' && $info->{subfamily} =~ m/Subhead/xms && $minsize == 8.9 && $maxsize == 13.9) { ($minsize, $maxsize) = (13.9, 23); } elsif ($info->{family} eq 'KeplerStd' && $info->{subfamily} =~ m/Display/xms && $minsize == 8.9 && $maxsize == 13.9) { ($minsize, $maxsize) = (23, 72); } @{$info}{qw(minsize maxsize)} = ($minsize, $maxsize); } close $otfinfo; return $info; } # Error messages, used in assert_unique() my $WARN_PARSE =<<'END_WARN_PARSE'; [WARNING] I failed to parse all fonts in a unique way, so I will split your font family into multiple subfamilies and try again: %s Please check the output! END_WARN_PARSE my $ERR_PARSE =<<'END_ERR_PARSE'; [ERROR] I failed to parse all fonts in a unique way; presumably some fonts have unusual widths, weights or shapes. Try one of the following: - Run 'autoinst' on a smaller set of fonts, omitting the ones that weren't parsed correctly; - Add the missing widths, weights or shapes to the tables '%FD_WIDTH', '%FD_WEIGHT' or '%FD_SHAPE' near the top of the source code; Please also send a bug report to the author. END_ERR_PARSE my $ERR_DETAIL =<<'END_ERR_DETAIL'; [ERROR] I've parsed both %s and %s as Family: %s Width: %s Weight: %s Shape: %s Size: %s-%s END_ERR_DETAIL #----------------------------------------------------------------------- # Assert all font infos are unique #----------------------------------------------------------------------- sub assert_unique { my @fonts = @_; # These attributes should uniquely identify each font my @attributes = qw(family width weight shape minsize maxsize); ATTEMPT: for my $attempt (1 .. 2) { my (%seen, $err_details); for my $font (@fonts) { my $key = join "\x00", @{$font}{ @attributes }; if ($seen{$key}) { $err_details .= sprintf $ERR_DETAIL, $seen{$key}{filename}, $font->{filename}, @{$font}{ @attributes }; } else { $seen{$key} = $font; } } # If the font infos aren't unique, append 'Subfamily' to 'Family' # and try again if ($err_details) { if ($attempt == 1) { $err_details =~ s/\[ERROR\]/[WARNING]/xmsg; warn $err_details; for my $font (@fonts) { $font->{family} .= $font->{subfamily}; } my @subfamilies = sort keys %{{ map { ($_->{family} => 1) } @fonts }}; warn sprintf $WARN_PARSE, join ', ', @subfamilies; next ATTEMPT; } else { die $err_details, $ERR_PARSE; } } last ATTEMPT; } return 1; } #----------------------------------------------------------------------- # Generate (font-specific) encoding vector for ornament glyphs #----------------------------------------------------------------------- sub get_orn { my ($font) = @_; my $fontfile = $font->{filename}; my $enc_name = $font->{family} . '_orn'; if (not -e "$enc_name.enc") { # Default ornament names: 'orn.' plus three digits my @encoding = map { sprintf "orn.%03d", $_ } 1 .. 256; open my $OTFINFO, '-|', qq(otfinfo --glyphs "$font->{filename}") or die "[ERROR] 'otfinfo --glyphs $font->{filename}' failed"; chop(my @glyphnames = <$OTFINFO>); close $OTFINFO; # Test for some known alternative names (probably not exhaustive) my @ornaments = sort grep { m/\A (?: orn|u2022[.]|word[.]|hand|bullet[.]) | [.]orn \z/xms } @glyphnames; @encoding[0 .. $#ornaments] = @ornaments; open my $ORN, '>', "$enc_name.enc" or die "[ERROR] Can't create '$enc_name.enc': $!"; print {$ORN} "/$font->{family}OrnamentEncoding [\n"; map { print {$ORN} " /$_\n" } @encoding[0 .. 255]; print {$ORN} "] def\n"; close $ORN; } return $enc_name; } ############################################################################ package LaTeX; #----------------------------------------------------------------------- # Create a style file for LaTeX #----------------------------------------------------------------------- sub write_stylefile { my ($fam, $data) = @_; my %seen = %{ get_keys($data) }; my $fn = sprintf "%s.sty", $fam; my $dir = File::Spec->catdir( $ARGV{target}, 'tex', 'latex', $ARGV{typeface} || $fam); File::Path::make_path($dir); $fn = File::Spec->catfile($dir, $fn); open my $STY, '>', $fn or die "[ERROR] Can't create '$fn': $!"; print {$STY} <<"END_STY_HEADER"; %% Generated by autoinst on $TODAY %% \\NeedsTeXFormat{LaTeX2e} \\ProvidesPackage{$fam} [$TODAY (autoinst) Style file for $fam.] END_STY_HEADER my $enc = join ',', grep { $_ ne 'OT1' } @{$ARGV{encoding}}; print {$STY} "\\RequirePackage[$enc]{fontenc}\n" if $enc; print {$STY} "\\RequirePackage{textcomp}\n" if $seen{TS1}; print {$STY} <<'END_STY_FONTAXES_START'; \IfFileExists{fontaxes.sty}{ \RequirePackage{fontaxes} END_STY_FONTAXES_START if ($seen{tl} or $seen{tlit}) { print {$STY} <<'END_STY_FONTAXES_TL'; \providecommand{\tldefault}{tl} \DeclareRobustCommand\tlshape{\not@math@alphabet\tlshape\relax \fontsecondaryshape\tldefault\selectfont} \DeclareTextFontCommand{\texttl}{\tlshape} \let\texttitling\texttl \fa@naming@exception{shape}{{n}{tl}}{tl} \fa@naming@exception{shape}{{it}{tl}}{tlit} END_STY_FONTAXES_TL } if ($seen{nw} or $seen{sw}) { print {$STY} <<'END_STY_FONTAXES_SW'; \DeclareRobustCommand\swshape{\not@math@alphabet\swshape\relax \fontprimaryshape\itdefault\fontsecondaryshape\swdefault\selectfont} \fa@naming@exception{shape}{{n}{sw}}{nw} \fa@naming@exception{shape}{{it}{sw}}{sw} END_STY_FONTAXES_SW } if ($seen{Sup}) { print {$STY} <<'END_STY_FONTAXES_SUP'; \fa@naming@exception{figures}{{superior}{proportional}}{Sup} \fa@naming@exception{figures}{{superior}{tabular}}{Sup} \def\sufigures{\@nomath\sufigures \fontfigurestyle{superior}\selectfont} \DeclareTextFontCommand{\textsu}{\sufigures} \let\textsuperior\textsu END_STY_FONTAXES_SUP } if ($seen{Inf}) { print {$STY} <<'END_STY_FONTAXES_INF'; \fa@naming@exception{figures}{{inferior}{proportional}}{Inf} \fa@naming@exception{figures}{{inferior}{tabular}}{Inf} \def\infigures{\@nomath\infigures \fontfigurestyle{inferior}\selectfont} \DeclareTextFontCommand{\textin}{\infigures} \let\textinferior\textin END_STY_FONTAXES_INF } if ($seen{Orn}) { print {$STY} <<'END_STY_FONTAXES_ORN'; \fa@naming@exception{figures}{{ornament}{proportional}}{Orn} \fa@naming@exception{figures}{{ornament}{tabular}}{Orn} \def\ornaments{\@nomath\ornaments \fontencoding{U}\fontfigurestyle{ornament}\selectfont} \DeclareTextFontCommand{\textornaments}{\ornaments} \providecommand{\ornament}[1]{\textornaments{\char##1}} END_STY_FONTAXES_ORN } if ($seen{Numr}) { print {$STY} <<'END_STY_FONTAXES_NUMR'; \fa@naming@exception{figures}{{numerators}{proportional}}{Numr} \fa@naming@exception{figures}{{numerators}{tabular}}{Numr} END_STY_FONTAXES_NUMR } if ($seen{Dnom}) { print {$STY} <<'END_STY_FONTAXES_DNOM'; \fa@naming@exception{figures}{{denominators}{proportional}}{Dnom} \fa@naming@exception{figures}{{denominators}{tabular}}{Dnom} END_STY_FONTAXES_DNOM } print {$STY} "}{}\n\n"; print {$STY} <<"END_STY_XKEYVAL"; \\IfFileExists{xkeyval.sty}{ \\newcommand*{\\$fam\@scale}{1} \\RequirePackage{xkeyval} \\DeclareOptionX{scaled}{\\renewcommand*{\\$fam\@scale}{##1}} }{ \\let\\DeclareOptionX\\DeclareOption \\let\\ExecuteOptionsX\\ExecuteOptions \\let\\ProcessOptionsX\\ProcessOptions } END_STY_XKEYVAL if ($seen{LF} or $seen{TLF}) { print {$STY} "\\DeclareOptionX{lining}{\\edef\\$fam\@figurestyle{LF}}\n"; } if ($seen{OsF} or $seen{TOsF}) { print {$STY} "\\DeclareOptionX{oldstyle}{\\edef\\$fam\@figurestyle{OsF}}\n"; } if ($seen{TLF} or $seen{TOsF}) { print {$STY} "\\DeclareOptionX{tabular}{\\edef\\$fam\@figurealign{T}}\n"; } if ($seen{LF} or $seen{OsF}) { print {$STY} "\\DeclareOptionX{proportional}{\\edef\\$fam\@figurealign{}}\n"; } my $defaults = $seen{OsF} ? 'oldstyle,proportional' : $seen{TOsF} ? 'oldstyle,tabular' : $seen{LF} ? 'lining,proportional' : $seen{TLF} ? 'lining,tabular' : die "[ERROR] Internal bug, please report!"; my $default_bold; for my $series ( qw(ultrablack ultrabold heavy extrablack black extrabold demibold semibold bold)) { if ($seen{$FD_WEIGHT{$series}}) { printf {$STY} "\\DeclareOptionX{%s}{\\renewcommand*{\\bfdefault}{%s}}\n", $series, $FD_WEIGHT{$series}; $default_bold = $series; } } $defaults .= ",$default_bold" if $default_bold; my $default_regular; for my $series ( qw(light medium regular)) { if ($seen{$FD_WEIGHT{$series} || 'm'}) { printf {$STY} "\\DeclareOptionX{%s}{\\renewcommand*{\\mddefault}{%s}}\n", $series, $FD_WEIGHT{$series} || 'm'; $default_regular = $series; } } $defaults .= ",$default_regular" if $default_regular; print {$STY} <<"END_STYLE_REST"; \\ExecuteOptionsX{$defaults} \\ProcessOptionsX\\relax \\renewcommand* {\\$ARGV{nfss}default} {$fam-\\$fam\@figurealign\\$fam\@figurestyle} \\renewcommand*{\\familydefault}{\\$ARGV{nfss}default} \\endinput END_STYLE_REST close $STY; return; } #----------------------------------------------------------------------- # Walk a nested dictionary, return lookup table with all keys #----------------------------------------------------------------------- sub get_keys { my $dict = shift; my $seen = shift || {}; while (my ($k, $v) = each %$dict) { $seen->{$k} = 1; get_keys($v, $seen) if ref $v eq 'HASH'; } return $seen; } #----------------------------------------------------------------------- # Create a .fd file for LaTeX's NFSS #----------------------------------------------------------------------- sub write_fdfile { my ($fam, $enc, $sty, $data) = @_; my $fn = sprintf "%s%s-%s.fd", $enc, $fam, $sty; my $dir = File::Spec->catdir( $ARGV{target}, 'tex', 'latex', $ARGV{typeface} || $fam); File::Path::make_path($dir); $fn = File::Spec->catfile($dir, $fn); open my $FD, '>', $fn or die "[ERROR] Can't create '$fn': $!"; print {$FD} <<"END_FD_HEADER"; %% Generated by autoinst on $TODAY %% \\ProvidesFile{${enc}${fam}-${sty}.fd} [$TODAY (autoinst) Font definitions for ${enc}/${fam}-${sty}.] \\expandafter\\ifx\\csname ${fam}\@scale\\endcsname\\relax \\let\\${fam}\@\@scale\\\@empty \\else \\edef\\${fam}\@\@scale{s*[\\csname ${fam}\@scale\\endcsname]}% \\fi \\DeclareFontFamily{${enc}}{${fam}-${sty}}{} END_FD_HEADER while (my ($series, $fdseries) = each %$data) { while (my ($shape, $fdshape) = each %$fdseries) { print {$FD} "\\DeclareFontShape{$enc}{${fam}-${sty}}{$series}{$shape}{\n"; my @items = sort { $a->[0] <=> $b->[0] } @{$fdshape}; $items[0][0] = $items[-1][1] = ''; $items[$_][0] = $items[$_ - 1][1] for (1 .. $#items); for my $item (@items) { print {$FD} " <$item->[0]-$item->[1]>", " \\${fam}\@\@scale $item->[2]\n"; } print {$FD} "}{}\n\n"; if (exists $FD_SSUB{$shape}) { print {$FD} <<"END_FD_SSUB"; \\DeclareFontShape{$enc}{${fam}-${sty}}{$series}{$FD_SSUB{$shape}}{ <-> ssub * ${fam}-${sty}/${series}/${shape} }{} END_FD_SSUB } } } print {$FD} "\\endinput\n"; close $FD; return; } ############################################################################ package main; main(); __END__ ############################################################################ To create the documentation: pod2man --center="Marc Penninga" --release="fontools" --section=1 \ autoinst - | groff -Tps -man - | ps2pdf - autoinst.pdf =pod =head1 NAME autoinst - wrapper around the F, for installing OpenType fonts in LaTeX. =head1 SYNOPSIS B [I] B =head1 DESCRIPTION Eddie Kohler's F, especially F, are superb tools for installing OpenType fonts in LaTeX, but their use (even in automatic mode) is complicated: they need many long command lines and don't generate the F and F files LaTeX needs. B simplifies the font installation process with F by generating and executing all command lines and by creating and installing all F and F files. Given a family of font files (in either F or F format), B will create several LaTeX font families: =over 2 =over 3 =item - Four text families (with lining and oldstyle digits, in both tabular and proportional variants), each with the following shapes: =over 2 =over 6 =item I Roman text =item I Small caps =item I "Upright swash"; usually normal text with some extra "oldstyle" ligatures, such as ct, sp and st. =item I Titling shape. Meant for all-caps text only (even though it sometimes contains lowercase glyphs as well), where letterspacing and the positioning of punctuation characters have been adjusted to suit all-caps text. This shape is generated only for the families with lining digits, since all-caps text doesn't mix with old-style digits. =item I Italic (or oblique) text =item I Italic small caps =item I Swash =item I Italic titling =back =back =item - For each text family: a family of TS1-encoded symbol fonts, in roman and italic shapes. =item - Four families with superiors, inferiors, numerators and denominators, in roman and italic shapes. =item - An ornament family, in roman and italic shapes. =back =back Of course, if the fonts don't contain oldstyle digits, small caps etc., the corresponding shapes and families are not created. Furthermore, the creation of most families and shapes can be controlled by command-line options (see L below). The generated font families are named I<< - >>, where I<< >> is one of =over 8 =item I proportional (i.e., figures have varying widths) lining figures =item I tabular (i.e., all figures have the same width) lining figures =item I proportional oldstyle figures =item I tabular oldstyle figures =item I superior characters (many fonts have only an incomplete set of superior characters: digits, some punctuation and the letters I; normal forms will then be used for the other characters) =item I inferior characters; usually only digits and punctuation, normal forms for the other characters =item I ornaments =item I numerators =item I denominators =back The generated fonts are named I<< --- >>, where I<< >> is the same as above (but in lowercase), I<< >> is either empty, "sc", "swash" or "titling", and I<< >> is the encoding. A typical name in this scheme would be "MinionPro-Regular-osf-sc-ly1". =head2 On the choice of text encoding By default, B generates text fonts with OT1, T1 and LY1 encodings, and the generated style files use LY1 as the default text encoding. LY1 has been chosen over T1 because it has some empty slots to accomodate the additional ligatures and alternate glyphs provided by many OpenType fonts. Different encodings can be selected using the I<-encoding> command-line option (see L below). =head2 Using the fonts in your LaTeX documents B generates a style file for using the font in LaTeX documents, named F<< .sty >>. This style file also takes care of loading the F and F packages, if necessary. To use the font, simply put C<<< \usepackage{I<< >>} >>> in the preamble of your document. This style file defines a number of options: =over 4 =item I Choose which digits will be used for the text fonts. The defaults are "oldstyle" and "proportional" (if available). =item I Choose the weight that LaTeX will use for the "bold" weight (i.e., the value of C<\bfdefault>). =item I Choose the weight that LaTeX will use for the "regular" weight (i.e., the value of C<\mddefault>). =item I<< scaled= >> Scale the font by a factor of I<< >>. For example: to increase the size of the font by 5%, use the command C<<< \usepackage[scaled=1.05]{I<< >>} >>>. This option is only available when the F package is found in your TeX installation. =back The style file will also try to load the F package, which gives easy access to various font shapes and styles. It is available from CTAN (F). Using the machinery set up by F, the generated style file also defines a number of commands (which take the text to be typeset as argument) and declarations (which don't take arguments, but affect all text up to the end of the current group) of its own: DECLARATION COMMAND SHORT FORM OF COMMAND \tlshape \texttitling \texttl \sufigures \textsuperior \textsu \infigures \textinferior \textin In addition, the C<\swshape> and C<\textsw> commands are redefined to place swash on the secondary shape axis (F places it on the primary shape axis); this makes these commands behave properly when nested, so that C<\swshape\upshape> will give upright swash. There are no commands for accessing the numerator and denominator fonts; these can be selected using F' standard commands, e.g., C<\fontfigurestyle{numerator}\selectfont>. The style file also provides a command C<<< \ornament{I<< >>} >>>, where C<<< I<< >> >>> is a number from 0 to the total number of ornaments minus one. Ornaments are always typeset using the current family, series and shape. A list of all ornaments in a font can be created by running LaTeX on the file F (part of a standard LaTeX installation) and supplying the name of the ornament font. To access the ornaments, B creates a font-specific encoding file F<< _orn.enc >>, but only if that file doesn't yet exist. This is a deliberate feature that allows you to provide your own encoding vector, e.g. if your fonts use non-standard glyph names for ornaments. These commands are only generated for shapes and number styles that actually exist; no commands are generated for shapes and styles that don't exist, or whose generation has been turned off. Please note that these commands are built on top of F; if that package cannot be found, you're limited to using the lower-level commands from standard NFSS (C<\fontfamily>, C<\fontseries>, C<\fontshape> etc.). =head2 Using multiple font families in one document If you want to use more than one font family in a document, be aware that style files generated by versions of B older dan 2009 are incompatible with those generated by newer versions. =head2 NFSS codes NFSS identifies fonts by a combination of family, series (weight plus width), shape and size. B parses the output of C to determine these parameters. When this fails (e.g., because the font family contains uncommon widths or weights), B ends up with different fonts having the I values for the font parameters, which means that these fonts cannot be used in NFSS. B will then split the font family into multiple subfamilies (based on each font file's "Subfamily" value) and try again. (Since many font families misunderstand the "Subfamily" concept and make each font file a separate subfamily, this strategy is only used as a last resort.) If this proliferation of font families is unwanted, either run B on a smaller set of fonts (omitting the ones that failed to parse correctly) or else add the missing widths, weights and shapes to the tables C<%FD_WIDTH>, C<%FD_WEIGHT> and C<%FD_SHAPE>, near the top of the source code. Please also send a bug report (see L below). B maps widths, weights and shapes to NFSS codes using the following tables. These are based both on the standard I scheme and on the tables in Philipp Lehman's F, but some changes had to be made to avoid name clashes in font families with many different widths and weights. WEIGHT WIDTH Thin t Ultra Compressed up Ultra Light ul Extra Compressed ep Extra Light el Compressed, Compact p Light l Compact p Book [1] Ultra Condensed uc Regular [1] Extra Condensed ec Medium mb Condensed c Demibold db Narrow n Semibold sb Semicondensed sc Bold b Regular [1] Extra Bold eb Semiextended sx Ultra ub Extended x Ultra Bold ub Expanded e Black k Wide w Extra Black ek Ultra Black uk Heavy h SHAPE Poster r Roman, Upright n [2] Italic it Cursive, Kursiv it Oblique, Slanted it [3] Incline(d) it [3] =head3 Notes: =over 4 =item [1] When I weight and width are empty, the "series" attribute becomes "m". =item [2] Adobe Silentium Pro contains two "Roman" shapes ("RomanI" and "RomanII"); the first of these is mapped to "n", the second one to "it". =item [3] Mapping the "Slanted", "Oblique" or "Inclined" shape to "it" instead of "sl" simplifies B. Since font families with both italic and slanted shapes do - to the best of my knowledge - not exist (apart from Computer Modern, of course), this shouldn't cause problems in real life. =back =head2 A note for MiKTeX users Automatically installing the fonts into a suitable TEXMF tree (as B does by default) requires a TeX-installation that uses the F library; with TeX distributions that implement their own directory searching (such as MiKTeX), B will complain that it cannot find the F program and install all generated files into subdirectories of the current directory. If you use such a TeX distribution, you should either move these files to their correct destinations by hand, or use the I<-target> option (see L below) to specify a TEXMF tree. Also, some OpenType fonts lead to F and F files that are too big for MiKTeX's F and F; the versions that come with W32TeX (F) and TeXLive (F) don't have this problem. =head1 COMMAND-LINE OPTIONS You may use either one or two dashes before options, and option names may be shortened to a unique prefix (e.g., B<-encoding> may be abbreviated to B<-enc> or even B<-en>, but B<-e> is ambiguous (B<-encoding>, B<-extra>). =over 4 =item B<-encoding>=I Use the specified encodings for the text fonts. The default is "OT1,T1,LY1". For each encoding, a file F<< .enc >> (in all I) should be somewhere where F can find it. Suitable encoding files for OT1, T1/TS1 and LY1 come with B. (Note that these files are called F etc. to avoid name clashes with other packages; the "fontools_" prefix doesn't need to be specified.) Multiple text encodings can be specified as a comma-separated list: C<-encoding=OT1,T1>. The encodings are passed to F in the order specified, so the last one will be the default text encoding. =item B<-sanserif> Install the font as a sanserif font, accessed via C<\sffamily> and C<\textsf>. Note that the generated style file redefines C<\familydefault>, so including it will still make this font the default text font. =item B<-typewriter> Install the font as a typewriter font, accessed via C<\ttfamily> and C<\texttt>. Note that the generated style file redefines C<\familydefault>, so including it will still make this font the default text font. =item B<-ts1> =item B<-nots1> Turn the creation of TS1-encoded fonts on or off. The default is B<-ts1> if the text encodings (see I<-encoding> above) include T1, B<-nots1> otherwise. =item B<-smallcaps> =item B<-nosmallcaps> Turn the creation of small caps fonts on or off. The default is B<-smallcaps>. =item B<-swash> =item B<-noswash> Turn the creation of swash fonts on or off. The default is B<-swash>. =item B<-titling> =item B<-notitling> Turn the creation of titling fonts on or off. The default is B<-titling>. =item B<-superiors> =item B<-nosuperiors> Turn the creation of fonts with superior characters on or off. The default is B<-superiors>. =item B<-inferiors> =item B<-noinferiors> Turn the creation of fonts with inferior digits on or off. The default is B<-noinferiors>. =item B<-fractions> =item B<-nofractions> Turn the creation of fonts with numerators and denominators on or off. The default is B<-nofractions>. =item B<-ornaments> =item B<-noornaments> Turn the creation of ornament fonts on or off. The default is B<-ornaments>. =item B<-verbose> Verbose mode; print detailed info about what B thinks it's doing. =item B<-extra>=I Pass I as options to I. To prevent I from accidentily being interpreted as options to B, it should be properly quoted. =item B<-figurekern> =item B<-nofigurekern> Some fonts provide kerning pairs for tabular figures. This is probably unwanted (e.g., numbers in tables won't line up exactly). The option B<-nofigurekern> adds extra I< --ligkern> options to the command lines for I to suppress such kerns (but only for the "TLF" and "TOsF" families). Since this leads to very long command lines (it adds one hundred such options) and the problem affects only few fonts, the default is B<-figurekern>. =item B<-manual> Manual mode. By default, B executes all F command lines it generates; with the B<-manual> option, these commands are instead written to a file F. Also, the generated F command lines specify the I< --pl> option (which tells F to generate readable/editable F and F files instead of the default F and F files) and leave out the I< --automatic> option (which tells F to leave all generated files in the current directory, rather than install them into your TEXMF tree). When using this option, you should run F and F after executing all commands, to convert the F and F files to F and F format. =back The following options are only meaningful in automatic mode, and hence ignored in manual mode: =over 4 =item B<-target>=I Install all generated files into the TEXMF tree at I. By default, B searches your $TEXMFLOCAL and $TEXMFHOME paths and installs all files into subdirectories of the first writable TEXMF tree it finds (or into subdirectories of the current directory, if no writable directory is found). =item B<-vendor>=I =item B<-typeface>=I These options are equivalent to F's I< --vendor> and I< --typeface> options: they change the "vendor" and "typeface" parts of the names of the subdirectories in the TEXMF tree where generated files will be stored. The default values are "lcdftools" and the font's FontFamily name. Please note that these options change I directory names, not the names of any generated files. =item B<-updmap> =item B<-noupdmap> Control whether or not F is called after the last call to F. The default is B<-updmap>. =back =head1 SEE ALSO Eddie Kohler's TypeTools (F). Perl is pre-installed on most Linux and Unix systems; on Windows, try ActiveState's ActivePerl (available from F) or Strawberry Perl (F). XeTeX (F) and LuaTeX (F) are TeX extensions that can use any font (including both flavours of OpenType) without TeX-specific support files. The FontPro project (F) offers very complete support for Adobe's Minion Pro and Myriad Pro (including math), and is currently working on Cronos Pro as well. John Owens' F (available from CTAN) is another wrapper around F, and may work for you when B doesn't. =head1 AUTHOR Marc Penninga When sending a bug report, please give as much relevant information as possible; this includes at least (but may not be limited to) the output from running B with the I<-verbose> option. Please make sure that this output includes all (if any) error messages. =head1 COPYRIGHT Copyright (C) 2005-2012 Marc Penninga. =head1 LICENSE This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. A copy of the GNU General Public License is included with B; see the file F. =head1 DISCLAIMER 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. See the GNU General Public License for more details. =head1 RECENT CHANGES (See the source code for the rest of the story.) =over 12 =item I<2012-10-25> Added extra "ssub" rules to the F files that substitute italic shapes for slanted ones. =item I<2012-09-25> Added the I<-vendor>, I<-typeface> and I<-(no)updmap> command line options. =item I<2012-07-06> Documentation update. =item I<2012-03-06> Implemented the "splitting the font family into multiple subfamilies" emergency strategy when font info parsing fails. Added recognition for a number of unusual widths, weights and shapes. =item I<2012-02-29> Fixed a bug in the font parsing code, where possible widths, weights and shapes where tested in the wrong order; this led to "ExtraLight" fonts being recognised as "Light". Added recognition for "Narrow" and "Wide" widths. Also added the I<-(no)figurekern> command-line option. =item I<2012-02-01> Reorganised the code, and fixed some bugs in the process. Added the I<-target> command-line option. Made B install the F and F files in the same TEXMF tree as the other generated files. Generate OT1, T1 and LY1 encoded text fonts by default. Made I<-titling> a default option (instead of I<-notitling>). Updated the documentation. =back =begin Really_old_history =over 12 =item I<2011-06-15> Fixed the font info parsing code for some fonts that are too lazy to spell out "Italic" in full. =item I<2010-04-29> The I< --feature=kern> option is only used for fonts that contain either a I feature or a I table. Font feature selection commands in the F file are only generated for shapes and figure styles that are supported by the current font, and whose generation has not been turned off using the command-line options. Fixed the font info parsing to work with the Condensed fonts in the Minion Pro family. =item I<2010-04-23> Always provide the I< --feature=kern> option to F, even if the font doesn't have a I feature; this will make F use the I table if present. For fonts without a I feature, add I< --ligkern> options for the common f-ligatures to the F command line, so that any ligatures present in the font will still be used. Bug fix: the generated F files now work for font families with names containing digits. =item I<2009-04-09> Prefixed the filenames of the included encoding files with I, to prevent name clashes with other packages. =item I<2009-04-06> A small patch to the C subroutine: it now also recognises the I ornament glyphs in Adobe Kepler Pro. =item I<2007-08-07> Fixed a small bug with filename quoting on Windows. =item I<2007-07-31> Changed the tables that map weights and widths to NFSS codes: in some extended families, different combinations of weight and width were mapped to the same series. Added a work-around for incorrect size info in some Kepler fonts. Fixed a small bug in the generated commands for otftotfm (sometimes, the "onum" feature was included twice). Added encoding file for OT1 to the I collection. =item I<2007-07-27> Two bugfixes: a closing brace was missing in the generated style file, and the NFSS series was formed as "width plus weight" instead of the reverse. =item I<2007-06-10> Bugfix: silently replacing \DeclareOption, \ProcessOptions and \ExecuteOptions with their counterparts from the xkeyval package caused problems for some other packages. =item I<2007-06-04> Added the I< --no-updmap> option to all generated commands for F (except the last); this should yield a significant speed-up for large families (suggested by Steven E. Harris). Tweaked the font info parsing to work around a bug in the naming of some FontFont fonts, where every font is in a family of its own. Added the "scaled" option (including the loading of F) to the generated style file. Extended the output of the I<-verbose> option. =item I<2007-02-08> Yet Another Complete Rewrite. The code is now much more readable and more flexible; the program can now handle fonts from different families, as well as multiple text encodings. Rewrote the font info parsing code to work for Arno Pro. =item I<2006-10-11> The program determines the fonts' weights, widths and shapes by parsing the output from C instead of the font filename. This should make B work for non-Adobe fonts. Filenames with spaces now work as well. =item I<2006-08-31> Made the generated style files try to include "fontaxes.sty"; changed the names of the generated fonts and families (to make the previous change possible); added command-line options for most font styles and shapes; tweaked the filename parsing code for Cronos Pro and Gill Sans Pro; added runtime generation of encoding vectors for ornament fonts (because GaramondPremier's ornament names differ from other fonts); changed the NFSS-code for italic small caps and titling to "scit" and "tlit" (to work with F); and edited (and hopefully improved) the documentation. =item I<2005-10-03> When creating LY1, T1, OT1 or TS1 encoded fonts, the I<-coding-scheme> option is added to the commands for F; this should make the generated F and F files acceptable to I. Also elaborated the documentation somewhat and fixed a small bug. =item I<2005-09-22> Added check to see if filename parsing succeeded; updated the filename parsing code to cater for GaramondPremier, Silentium and some non-Adobe fonts; added the I<-sanserif> and I<-typewriter> options and hacked the style files to support using several different font families in one document. =item I<2005-09-12> Cleaned up the code (it now runs under the F and F pragmas); fixed a (rather obscure) bug that occurred when creating TS1-encoded fonts for families with multiple optical masters and oldstyle digits; added the I etc. options to the style file; and improved the layout of the generated files. =item I<2005-08-11> The generated commands weren't actually executed, only printed.... Also added a small hack to cater for fonts (such as some recent versions of MinionPro) that contain swash characters but don't provide a "swsh" feature. =item I<2005-08-10> Dropped the "fontname" scheme in favor of a more verbose naming scheme, since many filenames were still more than eight characters long anyway. Added F-like commands to the generated style file. Changed the default encoding to LY1 and added the "inferior" shape. =item I<2005-08-01> Rewrote (and hopefully improved) the user interface; changed the program to by default execute the generated F command lines rather than writing them to a file; added automatic determination of the "fontname" code for the font family; changed the NFSS code for italic small caps to "si"; added titling shapes; changed the generated style file to include an interface for the ornaments and to load Lehman's NFSS extensions F if this is installed; corrected the "fontname" codes for OT1, T1, LY1 and user-specific encodings; extended the output generated by the I<-verbose> option; and rewrote and extended the documentation. =item I<2005-06-16> Did some more finetuning to the filename-parsing code. =item I<2005-05-31> Generate correct fontname for OT1-encoded fonts. =item I<2005-05-18> Tried to make the filename-parsing code a bit more robust by adding several weights and widths; changed the error that's displayed when filename parsing fails; commented the code. =item I<2005-04-29> Rewrote large parts of the code (yes it I even worse). =item I<2005-04-18> Changed default text-encoding to T1, added TS1. =item I<2005-03-29> Added support for font families with multiple widths. =item I<2005-03-15> First version. =back =end Really_old_history