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WRFONT.PS
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1993-05-27
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% Copyright (C) 1991, 1993 Aladdin Enterprises. All rights reserved.
%
% This file is part of Ghostscript.
%
% Ghostscript is distributed in the hope that it will be useful, but
% WITHOUT ANY WARRANTY. No author or distributor accepts responsibility
% to anyone for the consequences of using it or for whether it serves any
% particular purpose or works at all, unless he says so in writing. Refer
% to the Ghostscript General Public License for full details.
%
% Everyone is granted permission to copy, modify and redistribute
% Ghostscript, but only under the conditions described in the Ghostscript
% General Public License. A copy of this license is supposed to have been
% given to you along with Ghostscript so you can know your rights and
% responsibilities. It should be in a file named COPYING. Among other
% things, the copyright notice and this notice must be preserved on all
% copies.
% wrfont.ps
% Write out a Type 1 font in readable, reloadable form.
% Note that this does NOT work on protected fonts, such as Adobe fonts
% (unless you have loaded unprot.ps first, in which case you may be
% violating the Adobe license).
% ------ Options ------ %
% Define whether to write out the CharStrings in binary or in hex.
% Binary takes less space on the file, but isn't guaranteed portable.
/binary false def
% Define whether to use binary token encodings for the CharStrings.
% Binary tokens are smaller and load faster, but are a Level 2 feature.
% If binary_tokens is true, encrypt_CharStrings is ignored (always true).
/binary_tokens false def
% Define whether to encrypt the CharStrings on the file. (CharStrings
% are always encrypted in memory.) This increases loading time slightly,
% but it makes the files compress much better for transport.
/encrypt_CharStrings true def
% ------ Output utilities ------ %
% By convention, the output file is named psfile.
% Define some utilities for writing the output file.
/wtstring 100 string def
/wb {psfile exch write} bind def
/wnb {/wb load repeat} bind def
/ws {psfile exch writestring} bind def
/wl {ws (\n) ws} bind def
/wt {wtstring cvs ws ( ) ws} bind def
/wd % Write a dictionary.
{ dup length wt (dict dup begin) wl { we } forall
(end) ws
} bind def
/wld % Write a large dictionary more efficiently.
% Ignore the readonly attributes.
{ dup length wt (dict dup begin) wl
0 exch
{ exch wo wo () wl
1 add dup 200 eq
{ wo ({def} repeat) wl 0 }
if
}
forall
dup 0 ne
{ wo ({def} repeat) wl }
{ pop }
ifelse
(end) ws
} bind def
/we % Write a dictionary entry.
{ exch wo wo /def cvx wo (\n) ws
} bind def
/wcs % Write a CharString (or Subrs entry)
{ dup length string copy
binary_tokens
{ % Suppress recognizing the readonly status of the string.
wo
}
{ encrypt_CharStrings not { 4330 exch dup .type1decrypt exch pop } if
readonly dup length wo ( ) ws readproc ws wx
}
ifelse
} bind def
% Construct the inversion of the system name table.
/SystemNames where
{ pop /snit 256 dict def
0 1 255
{ dup SystemNames exch get
dup null ne { exch snit 3 1 roll put } { pop pop } ifelse
}
for
}
{ /snit 1 dict def
}
ifelse
% Write an object, using binary tokens if requested and possible.
/woa % write in ascii
{ psfile exch write==only
} bind def
% Lookup table for ASCII output.
/intbytes % int nbytes -> byte*
{ exch { dup 255 and exch -8 bitshift } repeat pop
} bind def
/wotta 8 dict dup begin
{ /booleantype /integertype /nulltype /realtype }
{ { ( ) ws woa } def }
forall
/nametype
{ dup xcheck { ( ) ws } if woa
} bind def
{ /arraytype /packedarraytype /stringtype }
{ { dup woa wop } def }
forall
end def
% Lookup table for binary output.
/wottb 8 dict dup begin
wotta currentdict copy pop
/integertype
{ dup dup 127 le exch -128 ge and
{ 136 wb 255 and wb
}
{ ( ) ws woa
}
ifelse
} bind def
/nametype
{ dup snit exch known
{ dup xcheck { 146 } { 145 } ifelse wb
snit exch get wb
}
{ wotta /nametype get exec
}
ifelse
} bind def
/stringtype
{ dup dup length dup 255 le { 142 2 } { 2 intbytes 143 3 } ifelse wnb
ws wop
} bind def
end def
/wop % Write object protection
{ wcheck not { /readonly cvx wo } if
} bind def
/wo % Write an object.
{ dup type binary_tokens { wottb } { wotta } ifelse
exch get exec
} bind def
% Write a hex string for Subrs or CharStrings.
/wx % string ->
{ binary
{ ws
}
{ % Some systems choke on very long lines, so
% we break up the hexstring into chunks of 50 characters.
{ dup length 25 le {exit} if
dup 0 25 getinterval psfile exch writehexstring (\n) ws
dup length 25 sub 25 exch getinterval
} loop
psfile exch writehexstring
} ifelse
} bind def
% ------ The main program ------ %
% Define the dictionary of actions for special entries in the dictionaries.
% We lump the font and the Private dictionary together, because
% the set of keys doesn't overlap.
[/CharStrings /Encoding /FID /FontInfo /Metrics /Private /Subrs]
dup length dict begin
{ null cvx def } forall
currentdict end /specialkeys exch def
% Define the procedures for the Private dictionary.
% These must be defined without `bind',
% for the sake of the DISKFONTS feature.
4 dict begin
/-! {string currentfile exch readhexstring pop} def
/-| {string currentfile exch readstring pop} def
/|- {readonly def} def
/| {readonly put} def
currentdict end /encrypted_procs exch def
4 dict begin
/-! {string currentfile exch readhexstring pop
4330 exch dup .type1encrypt exch pop} def
/-| {string currentfile exch readstring pop
4330 exch dup .type1encrypt exch pop} def
/|- {readonly def} def
/| {readonly put} def
currentdict end /unencrypted_procs exch def
% Construct an inverse dictionary of encodings.
4 dict begin
StandardEncoding /StandardEncoding def
ISOLatin1Encoding /ISOLatin1Encoding def
SymbolEncoding /SymbolEncoding def
DingbatsEncoding /DingbatsEncoding def
currentdict end /encodingnames exch def
/writefont % psfile -> [writes the current font]
{ /psfile exch def
/Font currentfont def
/readproc binary { (-| ) } { (-! ) } ifelse def
/privateprocs
encrypt_CharStrings binary_tokens not and
{ encrypted_procs } { unencrypted_procs } ifelse
def
(%!FontType1-1.0: ) ws currentfont /FontName get wt (000.000) wl
% Turn on binary tokens if relevant.
binary_tokens { (currentobjectformat 1 setobjectformat) wl } if
% If the file has a UniqueID, write out a check against loading it twice.
Font /UniqueID known
{ ({} FontDirectory) ws Font /FontName get dup wo ( known) wl
( {) ws wo ( findfont dup /UniqueID known) wl
( { dup /UniqueID get) ws Font /UniqueID get wo ( eq exch /FontType get 1 eq and }) wl
( { pop false } ifelse) wl
( { pop save /restore load } if) wl
( } if) wl
}
if
% Write out the creation of the font dictionary and FontInfo.
Font length 1 add wt (dict begin) wl % +1 for FontFile
Font begin
(/FontInfo ) ws FontInfo wd ( readonly def) wl
% Write out the other fixed entries in the font dictionary.
Font
{ 1 index specialkeys exch known
{ pop pop } { we } ifelse
} forall
/Encoding
encodingnames Encoding known
{ encodingnames Encoding get cvx }
{ Encoding }
ifelse we
% Write out the Metrics, if any.
Font /Metrics known
{ (/Metrics ) ws Metrics wld ( readonly def) wl
}
if
% Close the font dictionary.
(currentdict end) wl
% The rest of the file could be in eexec form, but we don't see any point
% in doing this, because we