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-rwxr-xr-xBuild/source/texk/texlive/linked_scripts/pkfix-helper/pkfix-helper1340
1 files changed, 0 insertions, 1340 deletions
diff --git a/Build/source/texk/texlive/linked_scripts/pkfix-helper/pkfix-helper b/Build/source/texk/texlive/linked_scripts/pkfix-helper/pkfix-helper
index 11c4ae7c103..e69de29bb2d 100755
--- a/Build/source/texk/texlive/linked_scripts/pkfix-helper/pkfix-helper
+++ b/Build/source/texk/texlive/linked_scripts/pkfix-helper/pkfix-helper
@@ -1,1340 +0,0 @@
-#! /usr/bin/env perl
-
-#############################################
-# Help pkfix decipher fonts in a PostScript #
-# file produced by an ancient dvips #
-# #
-# By Scott Pakin <scott+pkfh@pakin.org> #
-#############################################
-
-use File::Spec;
-use File::Temp qw (tempfile);
-use File::Basename;
-use Getopt::Long;
-use Pod::Usage;
-use warnings;
-use strict;
-
-# Define some global variables.
-my $progname = basename $0; # Name of this program
-our $VERSION = "1.2"; # Version number of this program
-my %name2chars; # Map from a font name to a character list
-my $GS = $ENV{"GS"} || "gs"; # Name of the Ghostscript interpreter
-my $TFTOPL = $ENV{"TFTOPL"} || "tftopl"; # Name of the TFM to PL converter
-my $dpi = 300; # Number of dots per inch used to generate bitmapped characters
-my @tfmlist; # List of TFM files to use
-my %fontmatch; # Map from a font name to its best match
-my $xinc = 36; # Width of font name in PostScript points
-my $yinc = 24; # Height of font in PostScript points
-my $init_yinc = 36; # Space after title
-my %tfmfontwidth; # Map from font name to character number to character width
-my %tfm2size; # Map from font name to design size
-my %tfmmissing; # Set of TFM files we looked for but didn't find
-my ($dvips_xscale, $dvips_yscale); # Scaling factors from Dvips's PostScript CTM
-my $discard_output = $^O eq "MSWin32" ? "> NUL:" : "> /dev/null 2>&1"; # Command suffix to discard all output
-
-# Define the global variables that the user can modify from the command line.
-my $wanthelp = 0; # 1=user wants to see the program's documentation
-my $wantversion = 0; # 1=user wants to see the program's version number
-my $verbose = 1; # 0=quiet; 1=verbose output; 2=more verbose output
-my @forced_fonts; # Font mappings the user asserts are correct
-my @exclude_res; # Regexps for fonts to exclude
-my @extra_tfms; # Extra TFM files to use
-my $sample_file_ps; # Name of a PostScript file of font samples to write
-my $sample_file_tex; # Name of a TeX file of font samples to write
-my $single_font_use = 0; # 1=one use per font; 0=allow repetitions
-my $samples_per_page = 25; # Number of font samples to print per page
-my $tfm_cache_file; # Name of a file in which to cache font metrics
-
-###########################################################################
-
-# Read %tfm2size, %tfmfontwidth, and %tfmmissing from a file named by
-# $tfm_cache_file.
-sub read_tfm_cache_file
-{
- open(CACHEFILE, "<", $tfm_cache_file) || do {
- print STDERR "Ignoring TFM cache file $tfm_cache_file ($!).\n" if $verbose;
- return;
- };
- print STDERR "Reading TFM data from $tfm_cache_file ... " if $verbose;
- my $numlines = 0;
- while (my $oneline = <CACHEFILE>) {
- chomp $oneline;
- my @fields = split " ", $oneline;
- die "${progname}: Internal error" if $#fields == -1;
- my $tfm = shift @fields;
- if ($#fields == -1) {
- # No metrics -- TFM file must not have been found.
- $tfmmissing{$tfm} = 1;
- }
- else {
- # Parse and store the TFM data.
- $tfm2size{$tfm} = shift @fields;
- my %widths = @fields;
- $tfmfontwidth{$tfm} = \%widths;
- }
- $numlines++;
- }
- close CACHEFILE;
- print STDERR "done ($numlines entries).\n" if $verbose;
-}
-
-
-# Write %tfm2size, %tfmfontwidth, and %tfmmissing to a file named by
-# $tfm_cache_file.
-sub write_tfm_cache_file
-{
- print STDERR "Writing TFM data to $tfm_cache_file ... " if $verbose;
- open(CACHEFILE, ">", $tfm_cache_file) || die "${progname}: Failed to create $tfm_cache_file ($!)\n";
- while (my ($tfm, $size) = each %tfm2size) {
- my @widths = %{$tfmfontwidth{$tfm}};
- print CACHEFILE "$tfm $size @widths\n";
- }
- foreach my $tfm (keys %tfmmissing) {
- print CACHEFILE "$tfm\n";
- }
- close CACHEFILE;
- print STDERR "done.\n" if $verbose;
-}
-
-
-# Given the base name of a .tfm file, process the file and return the
-# font's design size and a mapping from character number to character
-# width.
-sub tfm2widths ($)
-{
- my $tfmname = $_[0]; # Name of the TFM file
- my $designsize; # Design size of the font
- my %num2width; # Resultant mapping
- my $plname; # Name of PL file; some tftopl programs can't write to stdout.
- my $plfile; # Filehandle corresponding to $plname
-
- # First see if the information is already cached.
- if (defined $tfm2size{$tfmname}) {
- print STDERR " Processing $tfmname ... cached.\n" if $verbose >= 2;
- return [$tfm2size{$tfmname}, %{$tfmfontwidth{$tfmname}}];
- }
- if (defined $tfmmissing{$tfmname}) {
- print STDERR " Processing $tfmname ... cached as not found.\n" if $verbose >= 2;
- return [$designsize, %num2width];
- }
-
- # The information is not cached -- read it from a file.
- ($plfile, $plname) = tempfile (DIR => File::Spec->tmpdir(), SUFFIX => ".pl");
- close $plfile;
- if (!system "$TFTOPL $tfmname $plname $discard_output") {
- print STDERR " Processing $tfmname ... " if $verbose >= 2;
- open (PLFILE, "<$plname") || die "${progname}: Unable to open $tfmname ($!)\n";
- my $charnum; # Current character number
- while (my $oneline = <PLFILE>) {
- # Store the current character width.
- $oneline =~ /\(CHARWD R (\S+)\)/ && do {
- $num2width{$charnum} = $1 * $designsize;
- next;
- };
-
- # Store the current character number.
- $oneline =~ /\(CHARACTER (\S) (\S+)/ && do {
- if ($1 eq "O") {
- # Octal character number
- $charnum = oct $2;
- }
- elsif ($1 eq "C") {
- # ASCII character number
- $charnum = ord $2;
- }
- else {
- die "${progname}: Unknown TFM character type \"$1\"\n";
- }
- next;
- };
-
- # Store the font design size.
- $oneline =~ /\(DESIGNSIZE R (\S+)\)/ && do {
- $designsize = $1 + 0.0;
- next;
- };
- }
- close PLFILE;
- print STDERR "done.\n" if $verbose >= 2;
- }
- else {
- print STDERR " Discarding $tfmname (not found).\n" if $verbose >= 3;
- }
- unlink $plname;
- return [$designsize, %num2width];
-}
-
-
-# Given two character maps, one for a document font and one for a TFM
-# file, return the optimal scale factor for the TFM file to best match
-# the document font.
-sub optimal_scale ($$)
-{
- my %docmap = %{$_[0]}; # Map for a document font
- my %tfmmap = %{$_[1]}; # Map for a TFM font
- my $doc_dot_tfm = 0.0; # Sum of $docmap{$c}*$tfmmap{$c} for all $c
- my $tfm_dot_tfm = 0.0; # Sum of $tfmmap{$c}**2 for all $c
-
- while (my ($char, $docwidth) = each %docmap) {
- my $tfmwidth = $tfmmap{$char};
- return undef if !defined $tfmwidth; # Match is impossible.
- $doc_dot_tfm += $docwidth * $tfmwidth;
- $tfm_dot_tfm += $tfmwidth**2;
- }
- return $doc_dot_tfm / $tfm_dot_tfm;
-}
-
-
-# Compare two character maps and return their mismatch (smaller is
-# better). The third, optional, argument is a scale factor for the
-# TFM file.
-sub compare_maps ($$;$)
-{
- my %docmap = %{$_[0]}; # Map for a document font
- my %tfmmap = %{$_[1]}; # Map for a TFM font
- my $scale = $_[2] || 1.0; # Scale for each TFM width
- my $sqdiff = 0; # Sum of squares of differences
-
- while (my ($char, $docwidth) = each %docmap) {
- my $tfmwidth = $tfmmap{$char};
- return 10**9 if !defined $tfmwidth; # Match is impossible.
- $sqdiff += ($docwidth - $tfmwidth*$scale) ** 2;
- }
- return $sqdiff;
-}
-
-
-# Given a Type 3 font definition, surround it with DVIPSBitmapFont comments.
-sub write_comments ($$)
-{
- my ($fontname, $fontdef) = @_;
- my $tfm = $fontmatch{$fontname}->{"tfm"};
- my $scale = $fontmatch{$fontname}->{"scale"};
- my $origsize = $tfm2size{$tfm};
- my $begincomment = sprintf '%%DVIPSBitmapFont: %s %s %.5g %d',
- $fontname, $tfm, $origsize*$scale, 1+$#{$name2chars{$fontname}};
- my $endcomment = '%EndDVIPSBitmapFont';
- return "\n" . $begincomment . "\n" . $fontdef . "\n" . $endcomment . "\n";
-}
-
-
-# Escape an array of characters for PostScript's benefit.
-sub psify (@)
-{
- my @ps_chars;
- foreach my $onechar (@_) {
- my $charnum = ord $onechar;
- if ($onechar =~ /[\\()]/) {
- push @ps_chars, "\\" . $onechar;
- }
- elsif ($charnum >= 32 && $charnum <= 126) {
- push @ps_chars, $onechar;
- }
- else {
- push @ps_chars, sprintf "\\%03o", $charnum;
- }
- }
- return @ps_chars;
-}
-
-
-# Escape an array of characters for TeX's benefit.
-sub texify (@)
-{
- my @texchars;
- foreach my $onechar (@_) {
- if ($onechar =~ m|[\000-\037\\{}\177-\377]|) {
- push @texchars, sprintf '\char"%02X{}', ord $onechar;
- }
- else {
- push @texchars, $onechar;
- }
- }
- return join "", @texchars;
-}
-
-
-# Parse a font specification into a hash of information.
-sub parse_font_spec ($)
-{
- my $spec = $_[0];
- my $parse_error = "${progname}: Unable to parse font specification \"$spec\"\n";
-
- if ($spec =~ /^\s*([-\w]+)(.*)$/o) {
- my $tfm = $1; # Name of tfm file (e.g., "cmr10")
- my $scale_info = $2; # Concatenation of scale type and scale factor
- my $scale_type; # "X"=multiply, "@"=assign
- my $scale_amount; # How much to scale the TFM file, "*"=automatic
-
- if ($scale_info =~ /^\s*$/o) {
- # Empty
- $scale_type = 'X';
- $scale_amount = 1.0;
- }
- elsif ($scale_info =~ /^\s*\@\s*([\d.]+)\s*X\s*$/io) {
- # "@ <number> X"
- $scale_type = 'X';
- $scale_amount = $1 + 0.0;
- }
- elsif ($scale_info =~ /^\s*\@\s*([\d.]+)\s*(pt|bp)\s*$/io) {
- # "@ <number> pt" or "@ <number> bp"
- $scale_type = '@';
- $scale_amount = $1;
- $scale_amount *= 72.0/72.27 if $2 eq "bp"; # Convert to TeX points
- }
- elsif ($scale_info =~ /^\s*\@\s*\*\s*$/o) {
- # "@ *"
- $scale_type = 'X';
- $scale_amount = "*"
- }
- else {
- die $parse_error;
- }
- return {"tfm" => $tfm,
- "scale_type" => $scale_type,
- "scale" => $scale_amount};
- }
- die $parse_error;
-}
-
-
-# Return all of the unique items in a given list.
-sub unique_items (@)
-{
- my %item_hash;
- foreach my $item (@_) {
- $item_hash{$item} = 1;
- }
- return keys %item_hash;
-}
-
-###########################################################################
-
-# Parse the command line.
-Getopt::Long::Configure ("bundling");
-GetOptions ("h|help" => \$wanthelp,
- "v|verbose+" => \$verbose,
- "V|version" => \$wantversion,
- "q|quiet" => sub {$verbose=0},
- "f|force=s" => \@forced_fonts,
- "i|include=s" => \@extra_tfms,
- "x|exclude=s" => \@exclude_res,
- "t|tex=s" => \$sample_file_tex,
- "p|ps=s" => \$sample_file_ps,
- "s|spp=i" => \$samples_per_page,
- "C|cache=s" => \$tfm_cache_file,
- "1|no-repeats" => \$single_font_use) || pod2usage(2);
-if ($wantversion) {
- print "pkfix-helper $VERSION\n";
- exit 0;
-}
-if ($wanthelp) {
- pod2usage (-verbose => $verbose,
- -exitval => "NOEXIT");
- print "Report bugs to scott+pkfh\@pakin.org.\n" if $verbose == 1;
- exit 0;
-}
-my $infilename = $#ARGV>=0 ? $ARGV[0] : "-";
-my $outfilename = $#ARGV>=1 ? $ARGV[1] : "-";
-die "${progname}: Samples per page must be at least 1 ($samples_per_page was specified)\n" if $samples_per_page < 1;
-
-# Convert any user-specified TFMs to the appropriate internal format.
-foreach my $tfm (@extra_tfms) {
- my $font_spec = parse_font_spec $tfm;
- push @tfmlist, $font_spec;
-}
-
-# Parse the list of forced font mappings.
-foreach my $mapstr (@forced_fonts) {
- $mapstr =~ /^(\w+)\s*=\s*(.*)$/ || die "${progname}: Unable to parse font specification \"$mapstr\"\n";
- $fontmatch{$1} = parse_font_spec $2;
-}
-
-# Construct a list of (possibly nonexistent) TFM files to try. These
-# should be in order of decreasing likelihood. Each entry in the list
-# is of the form {full name, scale factor}.
-@exclude_res = ('^\s*$') if $#exclude_res == -1;
-foreach my $size_scale ([10, 1.0],
- [12, 1.0],
- [10, 1.1],
- [17, 1.0],
- [ 9, 1.0],
- [ 8, 1.0],
- [ 7, 1.0],
- [ 6, 1.0],
- [ 5, 1.0],
- [10, 1.2],
- # The following are common cmbx12 section headings.
- [12, 14.40/12],
- [12, 17.28/12],
- [12, 20.74/12],
- [12, 24.88/12]) {
- my ($pointsize, $scale) = @$size_scale;
- FONTLOOP:
- foreach my $basefont (qw (cmr cmb cmtt cmbsy cmbx cmbxsl cmbxti
- cmcsc cmex cmitt cmmi cmmib cmsl cmsltt
- cmss cmssbx cmssi cmsy cmti lasy lasyb
- msam msbm cmssdc cmtcsc)) {
- my $friendly_name = sprintf "%s%d \@ %.5gX", $basefont, $pointsize, $scale;
- foreach my $regexp (@exclude_res) {
- next FONTLOOP if $friendly_name =~ $regexp;
- }
- push @tfmlist, {"tfm" => $basefont . $pointsize,
- "scale_type" => "X",
- "scale" => $scale};
- }
-}
-
-# Read the entire input file.
-$| = 1;
-if ($verbose) {
- printf STDERR "Reading %s ... ", $infilename eq "-" ? "standard input" : $infilename;
-}
-my $entirefile;
-{
- local $/ = undef;
- open (INFILE, "<$infilename") || die "open(\"$infilename\"): $!\n";
- binmode INFILE;
- $entirefile = <INFILE>;
- close INFILE;
-}
-print STDERR "done.\n" if $verbose;
-
-# Construct a mapping from each document font name to a list of valid
-# characters in that font.
-while ($entirefile =~ m|/(\S+)\s+\d+\s+\d+\s+df(.*?>[^<>]*?[DI])\s+E|gs) {
- my $fontname = $1; # Name of current font (e.g., "Fa")
- my $fontbody = $2; # List of character definitions as hexadecimal strings
- my $charnum = 0; # Current character number
- my @charlist = (); # List of valid characters in PostScript-friendly format
-
- while ($fontbody =~ /<[0-9A-F\s]+>(.*?[DI])/gs) {
- # Put the current character number in $charnum then append the
- # corresponding character to @charlist.
- my @chardef = split " ", $1;
- if ($chardef[$#chardef] eq "I") {
- $charnum++;
- }
- else {
- $charnum = $chardef[$#chardef-1];
- }
- push @charlist, chr $charnum;
- }
- $name2chars{$fontname} = \@charlist;
-}
-my @sortedfontnames = sort {$#{$name2chars{$b}} <=> $#{$name2chars{$a}}
- || $a cmp $b} keys %name2chars;
-if ($verbose) {
- printf STDERR "Number of Type 3 fonts encountered: %d\n", 1+$#sortedfontnames;
- if ($verbose >= 2) {
- foreach my $fontname (@sortedfontnames) {
- printf STDERR " %s -- %3d character(s)\n", $fontname, 1+$#{$name2chars{$fontname}};
- }
- }
-}
-die "${progname}: No Type 3 fonts were encountered in the input file\n" if $#sortedfontnames==-1;
-
-# Determine the number of dots per inch used to generate the bitmaps.
-if ($entirefile =~ /dpi=(\d+)/i
- || $entirefile =~ /Resolution (\d+)dpi/i) {
- $dpi = $1 + 0;
- printf STDERR "Bitmapped fonts are typeset at $dpi DPI.\n" if $verbose;
-}
-else {
- warn "${progname}: Could not determine the target printer resolution; assuming $dpi DPI\n";
-}
-
-# Insert some helper code after the first ProcSet.
-my $output_width_ps = $entirefile; # PostScript code to output character widths
-my $showfontnamecode = <<"SHOWFONTNAME";
-\%\%BeginProcSet: $progname.pro
-TeXDict begin
-
-% char0 char1 PRINT-WIDTH -
-%
-% Output the name of the current font (font-name-string), its character
-% number (char0), and the character's width in PostScript points.
-
-/print-width {
- pop
- (FONT: ) print font-name-string print
- ( CHAR: ) print 8 string cvs print
- ( XPOS: ) print currentpoint pop 80 string cvs print
- (\\n) print
-} bind def
-
-% font-name sample-string PRINT-CHAR-WIDTHS -
-%
-% Store the name of font-name in the string font-name-string. Then, select
-% font-name and, for each character of test-string, call print-width
-% to output its width.
-
-/print-char-widths {
- /sample-string exch def
- /font-name exch def
- font-name 8 string cvs /font-name-string exch def
- font-name cvx exec {print-width} sample-string kshow
-} bind def
-
-end
-\%\%EndProcSet
-SHOWFONTNAME
- ;#'
-if ($output_width_ps !~ s/\%\%EndProcSet/$&\n$showfontnamecode/s) {
- print STDERR 'No %%EndProcSet comment was found. We have to guess where to inject PostScript code.', "\n" if $verbose >= 3;
- die "${progname}: Unable to inject prologue code\n" if $output_width_ps !~ s/TeXDict begin\s+\d+\s+\d+\s+bop/\n$showfontnamecode\n$&/s;
-}
-
-# Define some code to display the width of every valid character in
-# every bitmapped font. Fonts are displayed in decreasing order of
-# the number of characters used.
-my $displaycode = "\%\%Page: 1 1\nTeXDict begin\n1 0 bop\n";
-foreach my $fontnum (0 .. $#sortedfontnames) {
- # Duplicate the last character of the sample string so kshow can
- # process the final character delta.
- my $fontname = $sortedfontnames[$fontnum];
- my @charlist = psify @{$name2chars{$fontname}};
- my $samplestring = join("", @charlist) . $charlist[$#charlist];
-
- # Typeset the string starting at horizontal offset 0.
- $displaycode .= sprintf "0 0 moveto\n";
- $displaycode .= "/$fontname ($samplestring) print-char-widths\n";
-}
-
-# Dvips scales the page. Determine the scaling it uses.
-$displaycode .= <<'ENDDISPLAYCODE';
-(CURRENTMATRIX: ) print
-matrix currentmatrix ==
-(\n) print
-eop
-end
-ENDDISPLAYCODE
- ;
-
-# Replace the bulk of the PostScript file with the display code.
-if ($output_width_ps !~ s/\%\%Page:.*(\%\%Trailer)/$displaycode$1/s) {
- print STDERR 'No %%Page and/or %%Trailer comments were found. We have to guess where to inject PostScript code.', "\n" if $verbose >= 3;
- die "${progname}: Unable to inject display code\n" if $output_width_ps !~ s/TeXDict begin\s+\d+\s+\d+\s+bop.*eop\s+end/\n$displaycode\n/s;
-}
-
-# Output the modified PostScript code to a temporary file, run
-# Ghostscript on the temporary file, and process Ghostscript's output.
-my ($psfile, $psfilename) = tempfile ("pkfix-helper-XXXXXX",
- DIR => File::Spec->tmpdir(),
- SUFFIX => ".ps");
-binmode $psfile;
-print $psfile $output_width_ps;
-close $psfile;
-undef $output_width_ps;
-my %fontwidth; # Map from font name to character number to character width
-my @previnfo = ("", 0.0); # Previous font name and final character position
-my $gscmd = "$GS -q -dNOPAUSE -dBATCH -dNODISPLAY $psfilename";
-print STDERR "Finding character widths ... " if $verbose >= 1;
-print STDERR "\n Invoking: $gscmd\n" if $verbose >= 2;
-print STDERR "done.\n" if $verbose >= 1;
-open (GSCMD, "$gscmd|") || die "${progname}: failed to fork ($!)\n";
-while (my $oneline = <GSCMD>) {
- if ($oneline =~ /FONT: (\S+)\s*CHAR: (\d+)\s*XPOS: (\S+)/o) {
- my ($fontname, $charnum, $xpos) = ($1, $2, $3);
- my $width = $xpos + 0.0;
- $width -= $previnfo[1] if $fontname eq $previnfo[0];
- $fontwidth{$fontname}->{$charnum} = $width * 72.27 / $dpi;
- @previnfo = ($fontname, $xpos);
- }
- elsif ($oneline =~ /CURRENTMATRIX: \[\s*([-\d.]+)\s+[-\d.]+\s+[-\d.]+\s+([-\d.]+)\s+[-\d.]+\s+[-\d.]+\s*\]/o) {
- $dvips_xscale = $1 * 1.0;
- $dvips_yscale = $2 * -1.0;
- }
-}
-close GSCMD || die "${progname}: failed to run $GS ($!)\n";
-unlink $psfilename;
-die "${progname}: No character-width information was found\n" if !%fontwidth;
-
-# Read TFM font metrics from a cache file if specified.
-read_tfm_cache_file() if defined $tfm_cache_file;
-
-# Read each TFM file and store its design size and character widths.
-print STDERR "Reading TFM files ... " if $verbose;
-print STDERR "\n" if $verbose >= 2;
-foreach my $tfm (sort {$a cmp $b}
- unique_items map {$_->{"tfm"}} (@tfmlist, values %fontmatch)) {
- my ($designsize, %num2widths) = @{tfm2widths $tfm};
- if (%num2widths) {
- $tfmfontwidth{$tfm} = \%num2widths;
- $tfm2size{$tfm} = $designsize * 1.0;
- }
- else {
- $tfmmissing{$tfm} = 1;
- }
-}
-
-# Remove nonexistent fonts from @tfmlist and replace all absolute
-# ("@") scaling with relative ("X") scaling.
-my @goodtfmlist;
-foreach my $tfminfo (@tfmlist) {
- my $tfm = $tfminfo->{"tfm"};
- next if !defined ($tfmfontwidth{$tfm});
- $tfminfo->{"designsize"} = $tfm2size{$tfm};
- if ($tfminfo->{"scale_type"} eq "@") {
- # Convert absolute to relative sizes.
- $tfminfo->{"scale_type"} = "X";
- $tfminfo->{"scale"} /= $tfminfo->{"designsize"};
- }
- push @goodtfmlist, $tfminfo;
-}
-@tfmlist = @goodtfmlist;
-undef @goodtfmlist;
-
-# Do the same for all user-specified font mappings.
-while (my ($fontname, $tfminfo) = each %fontmatch) {
- my $tfm = $tfminfo->{"tfm"};
- if (!defined ($tfmfontwidth{$tfm})) {
- print STDERR "failed.\n" if $verbose;
- die "${progname}: Unable to process user-specified TFM file \"$tfm\"\n";
- }
- $tfminfo->{"designsize"} = $tfm2size{$tfm};
- if ($tfminfo->{"scale_type"} eq "@") {
- # Convert absolute to relative sizes.
- $tfminfo->{"scale_type"} = "X";
- $tfminfo->{"scale"} /= $tfminfo->{"designsize"};
- }
-}
-
-# Report the number of fonts in our repertoire.
-my $numtfms = keys %tfm2size;
-my $numfonts = 1 + $#tfmlist;
-print STDERR "done ($numtfms TFMs in $numfonts scaling variations).\n" if $verbose;
-die "${progname}: No TFM files were processed successfully\n" if !$numtfms;
-
-# Write the TFM font metrics to a a cache file if specified.
-write_tfm_cache_file() if defined $tfm_cache_file;
-
-# Compare every document font (ordered by decreasing number of
-# characters utilized) to every TFM file (in increasing order of
-# obscurity).
-print STDERR "Matching fonts:\n" if $verbose;
-foreach my $fontname (@sortedfontnames) {
- my @besttfms; # Best matching TFM file(s), sizes, and scales
- my $bestmatch = 10**9; # Best matching value
-
- # Determine the list of eligible fonts to compare against.
- my @eligible_tfms;
- foreach my $tfminfo ($fontmatch{$fontname} || @tfmlist) {
- if ($tfminfo->{"scale"} eq "*") {
- # Replace "*" with the best scaling factor we can find.
- my $newscale = optimal_scale $fontwidth{$fontname}, $tfmfontwidth{$tfminfo->{"tfm"}};
- if (defined $newscale) {
- # Replace the "*" with the optimal multiplier.
- my %newtfminfo = %$tfminfo;
- $newtfminfo{"scale"} = $newscale;
- push @eligible_tfms, \%newtfminfo;
- }
- else {
- # Fonts are incomparable.
- my $tfm = $tfminfo->{"tfm"};
- print STDERR " Not scaling $tfm; ${fontname}'s character set is not a subset of ${tfm}'s.\n" if $verbose >= 2;
- }
- }
- else {
- # The desired scaling factor is specified explicitly.
- push @eligible_tfms, $tfminfo;
- }
- }
- die "${progname}: No fonts are eligible to match $fontname\n" if !@eligible_tfms;
-
- # Try each TFM file in increasing order of obscurity.
- print STDERR " Processing $fontname ... " if $verbose == 1;
- foreach my $tfminfo (@eligible_tfms) {
- my $tfm = $tfminfo->{"tfm"};
- my $scale = $tfminfo->{"scale"};
- printf STDERR " Comparing %s and %s \@ %.5gX ... ", $fontname, $tfm, $scale if $verbose >= 2;
- my $match = compare_maps $fontwidth{$fontname}, $tfmfontwidth{$tfm}, $scale;
- if ($bestmatch > $match) {
- # We found a closer match than what we had before.
- $bestmatch = $match;
- @besttfms = ($tfminfo);
- }
- elsif ($bestmatch == $match) {
- # We found an equal match to what we had before.
- push @besttfms, $tfminfo;
- }
- printf STDERR "done (mismatch=%.5f).\n", $match if $verbose >= 2;
- }
-
- # Select the first of the best matches.
- $fontmatch{$fontname} = $besttfms[0];
- my $besttfminfo = $fontmatch{$fontname};
- my $besttfm = $besttfminfo->{"tfm"};
- my $bestscale = $besttfminfo->{"scale"};
- if ($verbose >= 2) {
- if ($#besttfms == 0) {
- # Single winner
- printf STDERR " Best match for %s is %s \@ %.5gX with mismatch=%.5f.\n\n",
- $fontname, $besttfm, $bestscale, $bestmatch;
- }
- else {
- # Tie for first place
- printf STDERR " Best match for %s is %s \@ %.5gX (tied among %s) with mismatch=%.5f.\n\n",
- $fontname, $besttfm, $bestscale,
- join("/", map {sprintf "%s\@%.5gX", $_->{"tfm"}, $_->{"scale"}} @besttfms),
- $bestmatch;
- }
- }
- elsif ($verbose == 1) {
- printf STDERR "done (%s \@ %.5gX, mismatch=%.5f).\n", $besttfm, $bestscale, $bestmatch;
- }
- warn "${progname}: Best match for $fontname is rather poor\n" if $bestmatch>=1.0;
-
- # Optionally remove the font from @goodtfmlist.
- if ($single_font_use) {
- @tfmlist = grep {$_->{"tfm"} ne $besttfm
- || $_->{"scale"} != $bestscale} @tfmlist;
- }
-}
-
-# Insert %DVIPSBitmapFont comments around every Type 3 font definition.
-my $commented_ps = $entirefile;
-my $infilename_ps = $infilename; # PostScript version of $infilename
-$infilename_ps =~ s/[()\\]/\\$1/g;
-$commented_ps =~ s|^\%(End)?DVIPSBitmapFont.*$||gm; # Remove existing comments (if any)
-$commented_ps =~ s|/(\S+)\s+\d+\s+\d+\s+df.*?>[^<]*?[DI]\s+E|write_comments($1, $&)|gse;
-if ($commented_ps !~ /\%\%EndProlog/) {
- # pkfix fails silently if it doesn't see an %%EndProlog.
- print STDERR "No %%EndProlog comment was found. Adding one.\n" if $verbose >= 3;
- $commented_ps =~ s|TeXDict begin\s+\d+\s+\d+\s+bop|\%\%EndProlog\n$&|s;
-}
-
-# Help pkfix handle ancient versions of dvips by artificially making
-# dvips look newer.
-$commented_ps =~ s|(\%\%Creator: dvips\S*) \S+|$1 5.62|; # pkfix rejects dvips <= 5.58
-if ($commented_ps =~ s|(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+\@start|$1 $2 $3 $4 $5 ($infilename_ps) \@start|gx) {
- # pkfix expects *six* arguments to @start, not five as in old
- # versions of dvips.
- $commented_ps =~ s|/\@start\s*\{|$& pop |;
-}
-if ($commented_ps !~ /^%DVIPSParameters:.*dpi=([\dx]+)/) {
- # Tell pkfix what resolution to use.
- my $dvips_params = "\%DVIPSParameters: dpi=$dpi";
- if ($commented_ps !~ s|^\%\%EndComments.*$|$&\n$dvips_params|m) {
- # Comments must have been stripped.
- $commented_ps =~ s|\n|\n$dvips_params\n|;
- }
-}
-
-# Write the modified PostScript code to the specified file.
-open (OUTFILE, ">$outfilename") || die "${progname}: Unable to open $outfilename ($!)\n";
-print OUTFILE $commented_ps;
-close OUTFILE;
-undef $commented_ps;
-
-# If the user requested a PostScript font sample, produce that.
-if (defined $sample_file_ps) {
- # Insert some helper code at an appropriate place in the file.
- my $sample_ps = $entirefile;
- my $showfontnamecode = <<"SHOWFONTNAME";
-\%\%BeginProcSet: $progname.pro
-TeXDict begin
-
-% font-name sample-string PRINT-FONT-SAMPLE -
-%
-% Store the name of font-name in the string font-name-string. Then,
-% output font-name-string in Times Bold in case the user wants to view
-% the font samples. Next, select font-name and output the sample
-% string. Finally, move the cursor to the next line in preparation for
-% the next invocation of print-font-sample.
-/print-font-sample {
- /sample-string exch def
- /font-name exch def
- font-name 8 string cvs /font-name-string exch def
- gsave
- /Times-Bold 12 selectfont
- font-name-string show (:) show
- grestore
- gsave
- 36 0 rmoveto
- font-name cvx exec
- currentfont bitmap-font-transform makefont setfont
- sample-string show
- grestore
- 0 -24 rmoveto
-} def
-
-\% Define a transformation matrix for dvips bitmapped fonts. We _could_
-\% do this dynamically but there seems to be a bug in GhostView (v3.6.1)
-\% or GhostScript (ESP v7.07.1) that causes the page layout to change
-\% with rescaling. To avoid problems we simply hardwire the scaling
-\% factor.
-/bitmap-font-transform [$dvips_xscale 0.0 0.0 $dvips_yscale 0 0] def
-
-end
-\%\%EndProcSet
-SHOWFONTNAME
- ;
- if ($sample_ps !~ s/\%\%EndProcSet/$&\n$showfontnamecode/) {
- print STDERR 'No %%EndProcSet comment was found. We have to guess where to inject PostScript code.', "\n" if $verbose >= 3;
- die "${progname}: Unable to inject prologue code\n" if $sample_ps !~ s/TeXDict begin\s+\d+\s+\d+\s+bop/\n$showfontnamecode\n$&/s;
- }
-
- # Generate code to output a sample of each font in turn.
- my $displaycode = <<"PAGEHEADER";
-\%\%Page: 1 1
-TeXDict begin
-1 0 bop
-
-\% Display a page title.
-0 0 moveto
-initmatrix
-gsave
- /Helvetica 18 selectfont
- (Fonts used by $infilename_ps) show
-grestore
-0 -$init_yinc rmoveto
-
-\% Display samples of each document font in decreasing order of the number
-\% of characters utilized from the font.
-PAGEHEADER
-;
- my $pageno = 1;
- foreach my $fontnum (0 .. $#sortedfontnames) {
- my $fontname = $sortedfontnames[$fontnum];
- my $samplestring = join("", psify @{$name2chars{$fontname}});
- $displaycode .= "/$fontname ($samplestring) print-font-sample\n";
- if ($fontnum % $samples_per_page == $samples_per_page-1
- && $fontnum != $#sortedfontnames) {
- # Insert a page break after every $samples_per_page font samples.
- $pageno++;
- $displaycode .= <<"PAGETRANSITION";
-eop
-end
-\%\%Page: $pageno $pageno
-TeXDict begin
-$pageno @{[$pageno-1]} bop
-0 0 moveto
-initmatrix
-PAGETRANSITION
-;
- }
- }
- $displaycode .= "eop\nend\n";
- if ($sample_ps !~ s/\%\%Page:.*(\%\%Trailer)/$displaycode$1/s) {
- print STDERR 'No %%Page and/or %%Trailer comments were found. We have to guess where to inject PostScript code.', "\n" if $verbose >= 3;
- die "${progname}: Unable to inject display code\n" if $sample_ps !~ s/TeXDict begin\s+\d+\s+\d+\s+bop.*eop\s+end/\n$displaycode\n/s;
- }
-
- # Write the PostScript file.
- open (SAMPLE_PS, ">$sample_file_ps") || die "${progname}: Unable to open $sample_file_ps ($!)\n";
- binmode SAMPLE_PS;
- print SAMPLE_PS $sample_ps;
- close SAMPLE_PS;
- undef $sample_ps;
-}
-
-# If the user requested a TeX font sample, produce that.
-if (defined $sample_file_tex) {
- my $oneline; # One line to write to the TeX file.
-
- open (SAMPLE_TEX, ">$sample_file_tex") || die "${progname}: Unable to open $sample_file_tex ($!)\n";
- select (SAMPLE_TEX);
- $| = 1;
- select (STDOUT);
- format SAMPLE_TEX =
-% ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<< ~~
-$oneline
-.
- $oneline = <<"TEX_HEADER";
-This file was generated by $0. DO NOT EDIT. Edit $progname instead.
-Note that this is a Plain TeX document. Compile it with tex, *not*
-latex.
-TEX_HEADER
- ;
- write SAMPLE_TEX;
- print SAMPLE_TEX <<'TEX_BOILERPLATE';
-
-% Make printable all special characters between
-% \makeprintable...\endmakeprintable except for "\", "{", and "}".
-\def\makeprintable{%
- \begingroup
- \def\do##1{\catcode`##1=12}%
- \dospecials
- \catcode`\\=0\relax
- \catcode`\{=1\relax
- \catcode`\}=2\relax
-}
-\let\endmakeprintable=\endgroup
-
-% Put a piece of text at specific PostScript coordinates.
-\newdimen\xofs
-\newdimen\yofs
-\def\put(#1,#2)#{%
- \leavevmode
- \begingroup
- \makeprintable
- \xofs=#1bp
- \yofs=#2bp
- \afterassignment\puthelper
- \toks0=%
-}
-\def\puthelper{%
- \lower\yofs
- \rlap{\hskip\xofs\the\toks0}%
- \endmakeprintable
- \endgroup
-}
-
-% We use Times Bold at 12 point for font names.
-\font\timesbXII=ptmb at 12bp
-
-% Don't add extra space to paragraphs.
-\parindent=0pt
-\parskip=0pt
-
-% Output the document's title.
-\font\somefont=phvr at 18bp
-TEX_BOILERPLATE
- ;
- # Output the document's title.
- my $infilename_tex = texify split "", $infilename;
- print SAMPLE_TEX '\put(0, 0){\somefont New fonts to use for ', "$infilename_tex}\n";
-
- # Output samples of each font in turn.
- print SAMPLE_TEX "\n\% Output font samples.\n";
- my $firstfontnum = 0;
- foreach my $fontnum (0 .. $#sortedfontnames) {
- # Output a single font sample.
- my $fontname = $sortedfontnames[$fontnum];
- my $samplestring = texify @{$name2chars{$fontname}};
- my $yoffset = ($fontnum-$firstfontnum)*$yinc + $init_yinc;
- printf SAMPLE_TEX "\\put(0, %d){\\timesbXII %s:}%%\n", $yoffset, $fontname;
- my $tfm = $fontmatch{$fontname}->{"tfm"};
- my $scale = $fontmatch{$fontname}->{"scale"};
- my $size = $tfm2size{$tfm};
- printf SAMPLE_TEX "\\font\\somefont=%s%s\\somefont\n",
- $tfm, $scale==1.0 ? "" : sprintf(" at %.5gbp", $scale*$size);
- printf SAMPLE_TEX "\\put(%d, %d){%s}%%\n", $xinc, $yoffset, $samplestring;
-
- if ($fontnum % $samples_per_page == $samples_per_page-1) {
- # Insert a page break after every $samples_per_page font samples.
- print SAMPLE_TEX "\\vskip 0pt plus 1fill\\eject\n";
- $firstfontnum = $fontnum;
- }
- }
-
- # Complete the TeX file.
- print SAMPLE_TEX "\n\\bye\n";
- close SAMPLE_TEX;
-}
-
-###########################################################################
-
-__END__
-
-=head1 NAME
-
-pkfix-helper - preprocess dvips-produced PostScript documents before passing them to pkfix
-
-
-=head1 SYNOPSIS
-
-pkfix-helper
-[B<--help>]
-[B<--verbose>]
-[B<--force>=I<name>=I<fontspec>]
-[B<--ps>=I<filename.ps>]
-[B<--tex>=I<filename.tex>]
-[B<--cache>=I<filename>]
-[B<--include>=I<fontspec>]
-[B<--exclude>=I<regexp>]
-[B<--quiet>]
-[B<--no-repeats>]
-[B<--spp>=I<number>]
-[I<input.ps> [I<output.ps>]]
-
-
-=head1 DESCRIPTION
-
-=head2 Motivation
-
-PostScript documents created with old versions of B<dvips> almost
-invariably utilize bitmapped (PostScript S<Type 3>) fonts. The
-problem with bitmapped fonts is that they target a specific device
-resolution; a PostScript file produced using S<300 DPI> fonts will
-look grainy on a S<600 DPI> printer. Even worse, I<all> bitmapped
-fonts look grainy when zoomed in on screen. The solution is to use
-vector (PostScript S<Type 1>) fonts, which are resolution-independent
-and appear crisp at any size or scale.
-
-While it is no longer difficult to configure B<dvips> to use vector
-fonts, it is not always possible to rerun B<dvips> on an old F<.dvi>
-file. The F<.dvi> file and document source may have been lost; or,
-the source may no longer compile because packages it depends upon may
-no longer be available.
-
-Heiko Oberdiek's B<pkfix> script replaces bitmapped fonts in
-B<dvips>-produced PostScript files with the corresponding vector
-fonts. It works by parsing the PostScript comments with which
-B<dvips> surrounds bitmapped-font definitions. For example, a font
-definition beginning with the comment C<%DVIPSBitmapFont: Fi cmss10 11
-28> and ending with a matching C<%EndDVIPSBitmapFont> is known to
-define font C<Fi> as C<cmss10> (Computer Modern Sans Serif at a design
-size of S<10 points>) scaled to S<C<11> points>. Only the C<28>
-characters actually used by the document are defined. B<pkfix> then
-replaces the font definition with one that defines C<Fi> using the
-same set of characters but taken from the F<cmss10.pfb> vector font
-file.
-
-Unfortunately, B<pkfix> works only with versions of B<dvips> newer
-than v5.58 S<(ca. 1996)>. Naturally, the older a PostScript document,
-the less likely its sources still exist and can still be recompiled.
-Older versions of B<dvips> lack C<%DVIPSBitmapFont> comments and
-various other PostScript comments on which B<pkfix> relies. Without
-PostScript comments to guide it, B<pkfix> is unable to determine which
-vector fonts correspond with which bitmapped fonts.
-
-=head2 Overview
-
-The B<pkfix-helper> script is a preprocessor for B<pkfix> that
-attempts to determine the association between each document-font name
-S<(e.g., C<Fi>)> in a PostScript file and the original font S<(e.g.,
-C<cmss10>)> and fonts size (e.g., S<C<11> points>). It then
-fabricates the PostScript comments that B<pkfix> expects to see so
-that B<pkfix> can do its job.
-
-B<pkfix-helper> works by comparing every document font against every
-F<.tfm> font file it knows about (assuming that each such font has a
-corresponding F<.pfb> vector version) and selecting the best matching
-F<.tfm> file for every document font. B<pkfix-helper> has access only
-to the widths of characters and only to those characters actually used
-in the document. Also, the program recognizes only a limited set of
-the most popular F<.tfm> files and scaling factors. Consequently, the
-comparison is imperfect and B<pkfix-helper> may attribute an incorrect
-font to a given name. Fonts comprising only one or two characters
-actually used in a document are particularly problematic for
-B<pkfix-helper> because many fonts may be near-enough matches to fool
-the problem.
-
-B<pkfix-helper> is designed so that a user can guide the
-font-selection process by manually designating matching fonts. With a
-modicum of diligence and patience a user can correct any mismatched
-fonts and help the program provide proper input to B<pkfix>.
-
-
-=head1 OPTIONS
-
-B<pkfix-helper> accepts on the command line the filename of a
-PostScript document to process (with the default being the standard
-input device) and the filename of a modified PostScript document to
-create (with the default being the standard output device). The
-program also accepts the following command-line options:
-
-=head2 Frequently Used Options
-
-=over 4
-
-=item B<-h>, B<--help>
-
-Display usage information and exit. The B<--verbose> and B<--quiet>
-options can be used to increase and decrease the amount of information
-presented.
-
-=item B<-v>, B<--verbose>
-
-Increase the amount of status information that B<pkfix-helper>
-displays as it runs. Additional instances of B<--verbose> on the
-command line further increase the program's verbosity. By default,
-only major operations are displayed. A single B<--verbose>
-additionally displays information about individual font comparisons.
-A second B<--verbose> additionally displays details about some of the
-program's internal operations.
-
-=item B<-f> I<name>=I<fontspec>, B<--force>=I<name>=I<fontspec>
-
-Force B<pkfix-helper> to associate a specific font with a given font
-name appearing the document. I<name> is a two-character B<dvips> font
-name such as C<Fa>. I<fontspec> is a font specification such as
-S<C<cmsy10 @ 1.1X>>. The B<--force> option can be specified
-repeatedly on the command line.
-
-=item B<-p> I<filename.ps>, B<--ps>=I<filename.ps>
-
-Create a PostScript file called I<filename.ps> that shows the B<dvips>
-name and a font sample of every font used by the input document.
-
-=item B<-t> I<filename.tex>, B<--tex>=I<filename.tex>
-
-Create a Plain TeX file called I<filename.tex> that shows the B<dvips>
-name and a font sample of every font that B<pkfix-helper> used in the
-output document.
-
-=back
-
-=head2 Infrequently Used Options
-
-=over 4
-
-=item B<-C> I<filename>, B<--cache>=I<filename>
-
-Speed up TFM file processing by caching character metrics into file
-I<filename>. On some systems it takes a long time to read a TFM file,
-spawn F<tftopl> to convert it to PL format, and extract from the PL
-data the metrics for each character. The first time B<--cache> is
-specified, B<pkfix-helper> proceeds as normal then writes all of the
-extracted character metrics to I<filename>. On subsequent runs in
-which B<--cache>=I<filename> is specified, B<pkfix-helper> reads the
-previously extracted metrics from I<filename>, going through the
-F<tftopl>-based process only for TFM files that were not previously
-encountered.
-
-=item B<-i> I<fontspec>, B<--include>=I<fontspec>
-
-Add I<fontspec> to the list of font specifications against which
-B<pkfix-helper> compares I<every> document font. (In contrast,
-B<--force> designates a font specification to use only for a
-I<specific> document font.) The B<--include> option can be specified
-repeatedly on the command line.
-
-=item B<-x> I<regexp>, B<--exclude>=I<regexp>
-
-Remove all font specifications matching regular expression I<regexp>
-from B<pkfix-helper>'s list of known fonts. The B<--exclude> option
-can be specified repeatedly on the command line.
-
-=item B<-q>, B<--quiet>
-
-Instruct B<pkfix-helper> to produce no output during its run except
-for fatal error messages.
-
-=item B<-1>, B<--no-repeats>
-
-Prevent B<pkfix-helper> from associating the same I<fontspec> with
-more than one B<dvips> font name.
-
-=item B<-s>, B<--spp>
-
-Specify the number of font samples per page to print to the files
-indicated using the B<--ps> and B<--tex> options. The default
-S<value, 25,> should work well in most circumstances.
-
-=back
-
-
-=head1 DIAGNOSTICS
-
-=over 4
-
-=item C<Best match for I<name> is rather poor>
-
-The best font B<pkfix-helper> found for B<dvips> font name I<name> has
-a mismatch value greater than or equal S<to 1.0>. (The mismatch value
-is the sum of the squares of the difference between the character
-widths of a document font and a potential replacement font.) Use the
-B<--force> option to designate an alternative replacement font or
-scaling amount.
-
-=back
-
-
-=head1 EXAMPLES
-
-For the purpose of the following examples, assume that F<oldfile.ps>
-is the name of a PostScript file produced by an old version of
-B<dvips> and utilizing at least one bitmapped font. It's always worth
-verifying that B<pkfix> can't convert the file on its own:
-
- $ pkfix oldfile.ps newfile.ps
- PKFIX 1.3, 2005/02/25 - Copyright (c) 2001, 2005 by Heiko Oberdiek.
- ==> no fonts converted
-
-(Alternatively B<pkfix> may issue an error message such as C<!!!
-Error: Parse error (@start parameters)!>.) Only when B<pkfix> can't
-replace bitmapped fonts with vector fonts is B<pkfix-helper> needed.
-In its simplest form, B<pkfix-helper> takes the name of an input file
-(F<oldfile.ps> in this example) and the name of an output file
-(F<pkfix-oldfile.ps>), which will have the same contents as the input
-file but serve as suitable input for B<pkfix>:
-
- $ pkfix-helper oldfile.ps pkfix-oldfile.ps
- Reading netpipe.ps ... done.
- Number of Type 3 fonts encountered: 10
- Bitmapped fonts are typeset at 600 DPI.
- Finding character widths ... done.
- Reading TFM files ... done (103 TFMs in 193 scaling variations).
- Matching fonts:
- Processing Fi ... done (cmr10 @ 1X, mismatch=0.11683).
- Processing Fa ... done (cmti10 @ 1X, mismatch=0.08892).
- Processing Fb ... done (cmr8 @ 1X, mismatch=0.07133).
- Processing Ff ... done (cmbx12 @ 1.2X, mismatch=0.02948).
- Processing Fh ... done (cmtt10 @ 1X, mismatch=0.06895).
- Processing Fd ... done (cmmi10 @ 1X, mismatch=0.03966).
- Processing Fj ... done (cmbx12 @ 1X, mismatch=0.03972).
- Processing Fe ... done (cmbx10 @ 1X, mismatch=0.00762).
- Processing Fg ... done (cmsy10 @ 1X, mismatch=0.00875).
- Processing Fc ... done (cmr6 @ 1X, mismatch=0.00284).
-
- $ pkfix pkfix-oldfile.ps newfile.ps
- PKFIX 1.3, 2005/02/25 - Copyright (c) 2001, 2005 by Heiko Oberdiek.
- *** Font conversion: `cmti10' -> `CMTI10'.
- *** Font conversion: `cmr8' -> `CMR8'.
- *** Font conversion: `cmr6' -> `CMR6'.
- *** Font conversion: `cmmi10' -> `CMMI10'.
- *** Font conversion: `cmbx10' -> `CMBX10'.
- *** Font conversion: `cmbx12' -> `CMBX12'.
- *** Font conversion: `cmsy10' -> `CMSY10'.
- *** Font conversion: `cmtt10' -> `CMTT10'.
- *** Font conversion: `cmr10' -> `CMR10'.
- *** Font conversion: `cmbx12' -> `CMBX12'.
- *** Merging font `CMBX12' (2).
- ==> 10 converted fonts.
- ==> 1 merged font.
-
-Although B<pkfix-helper> tries to automate as much as possible the
-font-detection process, some fonts will invariably be incorrectly
-identified. The program outputs a warning message if it I<knows> a
-match is bad but the lack of a warning message does not necessarily
-indicate that B<pkfix-helper> did a good job. It is therefore
-strongly recommended that the user produce "before" and "after" font
-sheets:
-
- $ pkfix-helper -q oldfile.ps pkfix-oldfile.ps \
- --ps=oldfonts.ps --tex=newfonts.tex
-
- $ tex newfonts.tex
- This is TeX, Version 3.14159 (Web2C 7.4.5)
- (./newfonts.tex [1] )
- Output written on newfonts.dvi (1 page, 1292 bytes).
- Transcript written on newfonts.log.
-
- $ dvips newfonts.dvi -o newfonts.ps
- This is dvips(k) 5.92b Copyright 2002 Radical Eye Software (www.radicaleye.com)
- ' TeX output 2006.06.11:1636' -> newfonts.ps
- <texc.pro><8r.enc><texps.pro>. <cmr6.pfb><cmsy10.pfb><cmbx10.pfb><cmbx12.pfb>
- <cmmi10.pfb><cmtt10.pfb><cmr8.pfb><cmti10.pfb><cmr10.pfb>[1]
-
-After running the preceding commands, F<oldfonts.ps> shows samples of
-the fonts in F<oldfile.ps> and F<newfonts.ps> shows samples of the
-replacement fonts that B<pkfix-helper> used to produce
-F<pkfix-oldfile.ps>. Print F<oldfonts.ps> and F<newfonts.ps> and
-compare them carefully for incorrect fonts and sizes.
-
-Suppose that the choice of C<cmbx12 @ 1.2X> for font C<Ff> looks
-wrong; say the characters look taller in F<oldfonts.ps> than in
-F<newfonts.ps>. This is where the trial-and-error stage begins.
-Let's hypothesize that C<cmb12> is a better match than C<cmbx12> but
-we don't know how much to scale the font. Fortunately,
-B<pkfix-helper> allows C<*> to be used as a scaling factor to tell the
-program to automatically detect an optimal scaling factor, even if
-doing so means choosing a highly nonstandard font size:
-
- $ pkfix-helper oldfile.ps pkfix-oldfile.ps --force="Ff=cmb12 @ *"
- Reading netpipe.ps ... done.
- Number of Type 3 fonts encountered: 10
- Bitmapped fonts are typeset at 600 DPI.
- Finding character widths ... done.
- Reading TFM files ... failed.
- pkfix-helper: Unable to process user-specified TFM file "cmb12"
-
-Oops, it looks like we don't have a F<cmb12.tfm> file on our system.
-Let's try scaling up F<cmb10.tfm> instead:
-
- $ pkfix-helper oldfile.ps pkfix-oldfile.ps --force="Ff=cmb10 @ *"
- Reading netpipe.ps ... done.
- Number of Type 3 fonts encountered: 10
- Bitmapped fonts are typeset at 600 DPI.
- Finding character widths ... done.
- Reading TFM files ... done (103 TFMs in 193 scaling variations).
- Matching fonts:
- Processing Fi ... done (cmr10 @ 1X, mismatch=0.11683).
- Processing Fa ... done (cmti10 @ 1X, mismatch=0.08892).
- Processing Fb ... done (cmr8 @ 1X, mismatch=0.07133).
- Processing Ff ... done (cmb10 @ 1.5708X, mismatch=0.00035).
- Processing Fh ... done (cmtt10 @ 1X, mismatch=0.06895).
- Processing Fd ... done (cmmi10 @ 1X, mismatch=0.03966).
- Processing Fj ... done (cmbx12 @ 1X, mismatch=0.03972).
- Processing Fe ... done (cmbx10 @ 1X, mismatch=0.00762).
- Processing Fg ... done (cmsy10 @ 1X, mismatch=0.00875).
- Processing Fc ... done (cmr6 @ 1X, mismatch=0.00284).
-
-The match has definitely improved, although S<15.708 pt.> is certainly
-an odd size for a font. Then again, many documents I<do> use
-nonstandard sizes so this may in fact be correct. The best way to
-verify is once again to produce, print, and compare a pair of font
-samples and iterate until all of the fonts look correct. Use one
-instance of B<--force> for each font you want to alter.
-
-
-=head1 ENVIRONMENT
-
-B<pkfix-helper> honors the following environment variables:
-
-=over 8
-
-=item GS
-
-The name of the Ghostscript interpreter (default: F<gs>)
-
-=item TFTOPL
-
-The name of a utility for converting F<.tfm> files to F<.pl> files
-(default: F<tftopl>)
-
-=back
-
-
-=head1 BUGS
-
-Even when B<pkfix-helper> finds a perfect match S<(i.e., the> correct
-font in the correct size) the mismatch value is still typically
-nonzero. The same error is probably what causes B<pkfix-helper>
-sometimes to consider the wrong font as being a better match than the
-correct font. Suggestions for fixing these bugs are welcome.
-
-
-=head1 RESTRICTIONS
-
-B<pkfix-helper> works only with PostScript files produced by B<dvips>,
-not with arbitrary PostScript files. The program has not been tested
-with output from versions of B<dvips> older than v5.490 S<(ca. 1992)>;
-output from older versions may or may not work. Only bitmapped fonts
-loaded by B<dvips> can be analyzed, not bitmapped fonts loaded by
-embedded graphics.
-
-B<pkfix-helper> works by comparing character widths, not the actual
-glyphs. Consequently, it is misled by sets of fonts with similar
-character widths (at least for those characters used by a given
-document). As an extreme example, all Computer Modern Teletype fonts
-of a given design size (e.g., C<cmtt10>, C<cmsltt10>, and C<cmitt10>)
-use exactly the same widths for all characters. Human assistance is
-generally needed to guide B<pkfix-helper>'s font-matching procedures.
-
-
-=head1 NOTES
-
-Files produced using the B<--tex> option are Plain TeX files and
-therefore must be compiled with F<tex> (or a variation such F<etex>,
-F<pdftex>, F<pdfetex>, etc.), I<not> with F<latex>.
-
-
-=head1 SEE ALSO
-
-pkfix(1), dvips(1), tex(1), gs(1)
-
-PostScript Language Reference, Third Edition.
-Published by Addison-Wesley, ISBN 0-201-37922-8,
-L<http://www.adobe.com/products/postscript/pdfs/PLRM.pdf>.
-
-
-=head1 AUTHOR
-
-Scott Pakin, I<scott+pkfh@pakin.org>
-
-
-=head1 COPYRIGHT AND LICENSE
-
-Copyright (C) 2009, Scott Pakin
-
-This file may be distributed and/or modified under the conditions of
-the LaTeX Project Public License, either version 1.3c of this license
-or (at your option) any later version. The latest version of this
-license is in L<http://www.latex-project.org/lppl.txt> and version
-1.3c or later is part of all distributions of LaTeX version 2006/05/20
-or later.