Improve build script for amsmath
[latex2e.git] / latex2e-20160201 / base / utf8ienc.dtx
blob19158952c48597d3bcc436e868ccdc2873f74559
1 % \iffalse meta-comment
3 % Copyright 1993-2016
4 % The LaTeX3 Project and any individual authors listed elsewhere
5 % in this file.
7 % This file is part of the LaTeX base system.
8 % -------------------------------------------
10 % It may be distributed and/or modified under the
11 % conditions of the LaTeX Project Public License, either version 1.3c
12 % of this license or (at your option) any later version.
13 % The latest version of this license is in
14 %    http://www.latex-project.org/lppl.txt
15 % and version 1.3c or later is part of all distributions of LaTeX
16 % version 2005/12/01 or later.
18 % This file has the LPPL maintenance status "maintained".
20 % The list of all files belonging to the LaTeX base distribution is
21 % given in the file `manifest.txt'. See also `legal.txt' for additional
22 % information.
24 % The list of derived (unpacked) files belonging to the distribution
25 % and covered by LPPL is defined by the unpacking scripts (with
26 % extension .ins) which are part of the distribution.
28 % \fi
30 % \iffalse
31 %<*driver>
32 \documentclass{ltxdoc}
33 \GetFileInfo{utf8.def}
34 \title{Providing some UTF-8 support via \texttt{inputenc}}
35 \date{\fileversion\space\filedate{} printed \today}
36  \author{%
37   Frank Mittelbach \and Chris Rowley\thanks{Borrowing heavily from
38       code by David Carlisle and tables by Sebastian Rahtz; some table
39       and code cleanup by Javier Bezos}}
40 \usepackage[utf8]{inputenc}
41 \begin{document}
42  \MaintainedByLaTeXTeam{latex}
43  \maketitle
44  \tableofcontents
45  \DocInput{utf8ienc.dtx}
46 \end{document}
47 %</driver>
48 % \fi
50 % \CheckSum{1518}
52 % \newpage
54 % \section{Introduction}
56 % [The whole section is rather unfinished \ldots\ just like the code, sorry!]
58 % \subsection{Background and general stuff}
60 % For many reasons what this package provides is a long way from any
61 % type of `Unicode compliance'.
63 % In stark contrast to 8-bit character sets, with 16 or more bits it can
64 % easily be very inefficient to support the full range.\footnote{In
65 % fact, \LaTeX's current 8-bit support does not go so far as to make
66 % all 8-bit characters into valid input.}  Moreover, useful support of
67 % character input by a typesetting system overwhelmingly means finding
68 % an acceptable visual representation of a sequence of characters and
69 % this, for \LaTeX{}, means having available a suitably encoded 8-bit
70 % font.
72 % Unfortunately it is not possible to predict exactly what valid UTF-8
73 % octet sequences will appear in a particular file so it is best to
74 % make all the unsupported but valid sequences produce a reasonably
75 % clear and noticeable error message.
77 % There are two directions from which to approach the question of what
78 % to load.  One is to specify the ranges of Unicode characters that will
79 % result in some sensible typesetting; this requires the provider to
80 % ensure that suitable fonts are loaded and that these input characters
81 % generate the correct typesetting via the encodings of those fonts.  The
82 % other is to inspect the font encodings to be used and use these to
83 % define which input Unicode characters should be supported.
85 % For Western European languages, at least, going in either direction
86 % leads to many straightforward decisions and a few that are more
87 % subjective.  In both cases some of the specifications are \TeX{}
88 % specific whilst most are independent of the particular typesetting
89 % software in use.
91 % As we have argued elsewhere, \LaTeX{} needs to refer to characters via
92 % `seven-bit-text' names and, so far, these have been chosen by
93 % reference to historical sources such as Plain \TeX{} or Adobe encoding
94 % descriptions.  It is unclear whether this ad hoc naming structure should
95 % simply be extended or whether it would be useful to
96 % supplement it with standardised internal Unicode character names such as
97 % one or more of the following:\footnote{Burkhard und Holger Mittelbach
98 %   spielen mit mir!  Sie haben etwas hier geschrieben.}
100 % \begin{verbatim}
101 %   \ltxutwochar <4 hex digits>
103 %   \ltxuchar {<hex digits>}
104 %     B H U R R R
106 %   \ltxueightchartwo   <2 utf8 octets as 8-bit char tokens>
107 %   \ltxueightcharthree <3 utf8 octets ...>
108 %   \ltxueightcharfour  <4 utf8 octets ...>
109 % \end{verbatim}
112 % \subsection{More specific stuff}
114 % In addition to setting up the mechanism for reading UTF-8 characters
115 % and specifying the \LaTeX-level support available, this package
116 % contains support for some default historically expected \TeX-related
117 % characters and some example `Unicode definition files' for standard
118 % font encodings.
121 % \subsection{Notes}
123 % This package does not support Unicode combining characters as \TeX{}
124 % is not really equipped to make this possible.
126 %  No attempt is made to be useful beyond Latin, and maybe Cyrillic,
127 %  for European languages (as of now).
130 % \subsection{Basic operation of the code}
132 % The \texttt{inputenc} package makes the upper 8-bit characters active and
133 %    assigns to all of them an error message. It then waits for the
134 %    input encoding files to change this set-up.  Similarly, whenever
135 %    |\inputencoding| is encountered in a document, first the upper
136 %    8-bit characters are set back to produce an error and then the
137 %    definitions for the new input encoding are loaded, changing some of the
138 %    previous settings.
140 %    The 8-bit input encodings currently supported by \texttt{inputenc}
141 %    all use declarations such as |\DeclareInputText| and the like to map an
142 %    8-bit number to some \LaTeX{} internal form, e.g.~to |\"a|.
144 %    The situation when supporting UTF-8 as the input encoding is
145 %    different, however. Here we only have to set up the actions of
146 %    those 8-bit numbers that can be the first octet in a UTF-8
147 %    representation of a Unicode character.  But we cannot simply set
148 %    this to some internal \LaTeX{} form since the Unicode character
149 %    consists of more than one octet; instead we have to define this
150 %    starting octet to parse the right number of further octets that
151 %    together form the UTF-8 representation of some Unicode character.
153 %    Therefore when switching to \texttt{utf8} within the
154 %    \texttt{inputenc} framework the characters with numbers (hex)
155 %    from \texttt{"C2} to \texttt{"DF} are defined to parse for a
156 %    second octet following, the characters from \texttt{"E0} to
157 %    \texttt{"EF} are defined to parse for two more octets and finally
158 %    the characters from \texttt{"F0} to \texttt{"F3} are defined to
159 %    parse for three additional octets.  These additional octets are
160 %    always in the range \texttt{"80} to \texttt{"B9}.
162 %    Thus, when such a character is encountered in the document (so
163 %    long as expansion is not prohibited) a defined number of
164 %    additional octets (8-bit characters) are read and from them a
165 %    unique control sequence name is immediately constructed.
167 %    This control sequence is either defined (good) or undefined
168 %    (likely); in the latter case the user gets an error message
169 %    saying that this UTF-8 sequence (or, better, Unicode character)
170 %    is not supported.
172 %    If the control sequence is set up to do something useful then it will
173 %    expand to a \LaTeX{} internal form: e.g.~for the utf8 sequence of
174 %    two octets \texttt{"C3 "A4} we get |\"a| as the
175 %    internal form which then, depending on the font encoding,
176 %    eventually resolves to the single glyph `latin-a-umlaut' or to
177 %    the composite glyph `latin-a with an umlaut accent'.
179 %    These mappings from (UTF-8 encoded) Unicode characters to \LaTeX{}
180 %    internal forms are made indirectly.  The code below provides a
181 %    declaration |\DeclareUnicodeCharacter| which maps Unicode numbers
182 %    (as hexadecimal) to \LaTeX{} internal forms.
184 %    This mapping needs to be set up only once so it is done at
185 %    |\begin{document}| by looking at the list of font encodings that
186 %    are loaded by the document and providing mappings related to
187 %    those font encodings whenever these are available. Thus at most
188 %    only those Unicode characters that can be represented by the glyphs
189 %    available in these encodings will be defined.
191 %    Technically this is done by loading one file per encoding,
192 %    if available, that is supposed to provide the necessary mapping
193 %    information.
196 % \StopEventually{}
201 % \section{Coding}
203 % \subsection{Housekeeping}
205 %    The usual introductory bits and pieces:
207 %    \begin{macrocode}
208 %<utf8>\ProvidesFile{utf8.def}
209 %<test>\ProvidesFile{utf8-test.tex}
210 %<+lcy> \ProvidesFile{lcyenc.dfu}
211 %<+ly1> \ProvidesFile{ly1enc.dfu}
212 %<+oms> \ProvidesFile{omsenc.dfu}
213 %<+ot1> \ProvidesFile{ot1enc.dfu}
214 %<+ot2> \ProvidesFile{ot2enc.dfu}
215 %<+t1>  \ProvidesFile{t1enc.dfu}
216 %<+t2a> \ProvidesFile{t2aenc.dfu}
217 %<+t2b> \ProvidesFile{t2benc.dfu}
218 %<+t2c> \ProvidesFile{t2cenc.dfu}
219 %<+ts1> \ProvidesFile{ts1enc.dfu}
220 %<+x2>  \ProvidesFile{x2enc.dfu}
221 %<+all> \ProvidesFile{utf8enc.dfu}
222    [2015/12/03 v1.1r UTF-8 support for inputenc]
223 %    \end{macrocode}
225 %    \begin{macrocode}
226 %<*utf8>
227 \makeatletter
228 %    \end{macrocode}
229 %    We restore the |\catcode| of space (which is set to ignore in
230 %    \texttt{inputenc}) while reading \texttt{.def} files. Otherwise
231 %    we would need to explicitly use |\space| all over the place in
232 %    error and log messages.
233 % \changes{v1.1d}{2004/05/08}{Explicitly set catcode of space}
234 %    \begin{macrocode}
235 \catcode`\ \saved@space@catcode
236 %    \end{macrocode}
240 % \subsection{Parsing UTF-8 input}
242 % \begin{macro}{\UTFviii@two@octets}
243 % \begin{macro}{\UTFviii@three@octets}
244 % \begin{macro}{\UTFviii@four@octets}
245 %    A UTF-8 char (that is not actually a 7-bit char, i.e.~a single
246 %    octet) is parsed as follows: each starting octet is an active
247 %    \TeX{} character token; each of these is defined below to be a
248 %    macro with one to three arguments nominally (depending on the
249 %    starting octet). It calls one of |\UTFviii@two@octets|,
250 %    |\UTFviii@three@octets|, or |\UTFviii@four@octets| which then
251 %    actually picks up the argument(s).
253 %    From the arguments a control sequence with a name of the form
254 %    \verb=u8:#1#2...= is constructed where the |#i| ($i>1$) are the
255 %    arguments and |#1| is the starting octet (as a \TeX{} character
256 %    token).  Since some or even all of these characters are active
257 %    (when inputenc is loaded) we need to use |\string| when building
258 %    the csname.
260 %    The csname thus constructed can of course be undefined but to
261 %    avoid producing an unhelpful low-level undefined command error we
262 %    pass it to |\UTFviii@defined| which is responsible for producing
263 %    a more sensible error message (not yet done!!).  If, however, it is
264 %    defined we simply execute the thing (which should then expand to
265 %    an encoding specific internal \LaTeX{} form).
266 %    \begin{macrocode}
267 \def\UTFviii@two@octets#1#2{\expandafter
268     \UTFviii@defined\csname u8:#1\string#2\endcsname}
269 %    \end{macrocode}
270 % \end{macro}
272 %    \begin{macrocode}
273 \def\UTFviii@three@octets#1#2#3{\expandafter
274     \UTFviii@defined\csname u8:#1\string#2\string#3\endcsname}
275 %    \end{macrocode}
276 % \end{macro}
278 %    \begin{macrocode}
279 \def\UTFviii@four@octets#1#2#3#4{\expandafter
280     \UTFviii@defined\csname u8:#1\string#2\string#3\string#4\endcsname}
281 %    \end{macrocode}
282 % \end{macro}
284 % \begin{macro}{\UTFviii@defined}
285 %    This tests whether its argument is different from |\relax|: it
286 %    either calls for a sensible error message (not done), or it gets
287 %    the |\fi| out of the way (in case the command has arguments) and
288 %    executes it.
289 %    \begin{macrocode}
290 \def\UTFviii@defined#1{%
291   \ifx#1\relax
292 %    \end{macrocode}
293 %    The endline character has a special definition within the
294 %    inputenc package (it is gobbling spaces). For this reason we
295 %    can't produce multiline strings without some precaution.
296 % \changes{v1.1b}{2004/02/09}{No newlines allowed in error messages}
297 % \changes{v1.1g}{2005/09/27}{Real spaces do not show up so use \cs{space}}
298 % \changes{v1.1o}{2015/08/28}{Show Unicode number of character in hex}
299 %    \begin{macrocode}
300       \PackageError{inputenc}{Unicode\space char\space\expandafter
301                               \UTFviii@splitcsname\string#1\relax
302                               \MessageBreak
303                               not\space set\space up\space
304                               for\space use\space with\space LaTeX}\@eha
305   \else\expandafter
306     #1%
307   \fi
309 %    \end{macrocode}
310 % \end{macro}
312 % \begin{macro}{\UTFviii@loop}
313 %    This wonderful bit of code from Dr Carlisle defines the starting
314 %    octets to call |\UTFviii@two@octets| etc as appropriate. The starting
315 %    octet itself is passed directly as the first argument, the others
316 %    are picked up later en route.
318 %    The |\UTFviii@loop| loops through the numbers starting at
319 %    |\count@| and ending at |\@tempcnta|${} - 1$, each time executing
320 %    the code in |\UTFviii@tmp|.
322 %    All this is done in a group so that temporary catcode changes
323 %    etc.~vanish after everything is set up.
325 %    It may be a good idea to add code to deal with `illegal utf8 octets':
326 %    at present these will be handled by whatever code was in use for 8-bit
327 %    input before this code is executed.
329 %    \begin{macrocode}
330 \begingroup
331 \catcode`\~13
332 \catcode`\"12
333 %    \end{macrocode}
335 %    \begin{macrocode}
336 \def\UTFviii@loop{%
337   \uccode`\~\count@
338   \uppercase\expandafter{\UTFviii@tmp}%
339   \advance\count@\@ne
340   \ifnum\count@<\@tempcnta
341   \expandafter\UTFviii@loop
342   \fi}
343 %    \end{macrocode}
345 %    Setting up 2-byte UTF-8:
346 %    \begin{macrocode}
347     \count@"C2
348     \@tempcnta"E0
349     \def\UTFviii@tmp{\xdef~{\noexpand\UTFviii@two@octets\string~}}
350 \UTFviii@loop
351 %    \end{macrocode}
352 %    Setting up 3-byte UTF-8:
353 %    \begin{macrocode}
354     \count@"E0
355     \@tempcnta"F0
356     \def\UTFviii@tmp{\xdef~{\noexpand\UTFviii@three@octets\string~}}
357 \UTFviii@loop
358 %    \end{macrocode}
360 %    Setting up 4-byte UTF-8:
361 %    \begin{macrocode}
362     \count@"F0
363     \@tempcnta"F4
364     \def\UTFviii@tmp{\xdef~{\noexpand\UTFviii@four@octets\string~}}
365 \UTFviii@loop
366 \endgroup
367 %    \end{macrocode}
368 % \end{macro}
370 %    For this case we must disable the warning generated by
371 %    \texttt{inputenc} if it doesn't see any new |\DeclareInputText|
372 %    commands.
373 %    \begin{macrocode}
374 \@inpenc@test
375 %    \end{macrocode}
378 %    If this file (\texttt{utf8.def}) is not being read while setting
379 %    up \texttt{inputenc}, i.e.~in the preamble, but when
380 %    |\inputencoding| is called somewhere within the document, we do not
381 %    need to input the specific Unicode mappings again. We therefore
382 %    stop reading the file at this point.
383 %    \begin{macrocode}
384 \ifx\@begindocumenthook\@undefined
385   \makeatother
386 %    \end{macrocode}
387 %    The |\fi| must be on the same line as |\endinput| or else it will
388 %    never be seen!
389 %    \begin{macrocode}
390   \endinput \fi
391 %    \end{macrocode}
394 % \subsection{Mapping Unicode codes to \LaTeX{} internal forms}
397 % \begin{macro}{\DeclareUnicodeCharacter}
398 %    The |\DeclareUnicodeCharacter| declaration defines a mapping from
399 %    a Unicode character code point to a \LaTeX{} internal form. The first
400 %    argument is the Unicode number as hexadecimal digits and the second is
401 %    the actual \LaTeX{} internal form.
403 %    We start by making sure that some characters have the right
404 %    |\catcode| when they are used in the definitions below.
405 %    \begin{macrocode}
406 \begingroup
407 \catcode`\"=12
408 \catcode`\<=12
409 \catcode`\.=12
410 \catcode`\,=12
411 \catcode`\;=12
412 \catcode`\!=12
413 \catcode`\~=13
414 %    \end{macrocode}
416 %    \begin{macrocode}
417 \gdef\DeclareUnicodeCharacter#1#2{%
418   \count@"#1\relax
419   \wlog{ \space\space defining Unicode char U+#1 (decimal \the\count@)}%
420   \begingroup
421 %    \end{macrocode}
422 %    Next we do the parsing of the number stored in |\count@| and assign the
423 %    result to |\UTFviii@tmp|. Actually all this could be done in-line,
424 %    the macro |\parse@XML@charref| is only there to extend this code
425 %    to parsing Unicode numbers in other contexts one day (perhaps).
426 %    \begin{macrocode}
427     \parse@XML@charref
428 %    \end{macrocode}
430 %    Here is an example of what is happening, for the pair \texttt{"C2 "A3}
431 %    (which is the utf8 represenation for the character \textsterling{}).
432 %    After |\parse@XML@charref| we have, stored in |\UTFviii@tmp|, a
433 %    single command with two character tokens as arguments:
434 %    \begin{quote}
435 %      [$t_{C2}$ and $t_{A3}$ are the characters corresponding to these
436 %      two octets]\\
437 %      |\UTFviii@two@octets| $t_{\rm C2}t_{\rm A3}$
438 %    \end{quote}
439 %    what we actually need to produce is a definition of the form
440 %    \begin{quote}
441 %    |\def\u8:|$t_{\rm C2}$$t_{\rm A3}$ |{|\textit{\LaTeX{} internal form}|}|\,.
442 %    \end{quote}
443 %    So here we temporarily redefine the prefix commands
444 %    |\UTFviii@two@octets|, etc.~to
445 %    generate the csname that we wish to define>  the |\string|s are
446 %    added in case these tokens are still active.
447 %    \begin{macrocode}
448     \def\UTFviii@two@octets##1##2{\csname u8:##1\string##2\endcsname}%
449     \def\UTFviii@three@octets##1##2##3{\csname u8:##1%
450                                      \string##2\string##3\endcsname}%
451     \def\UTFviii@four@octets##1##2##3##4{\csname u8:##1%
452                            \string##2\string##3\string##4\endcsname}%
453 %    \end{macrocode}
454 %    Now we simply:-) need to use the right number of |\expandafter|s to
455 %    finally construct the definition: expanding |\UTFviii@tmp| once to get
456 %    its contents, a second time to replace the prefix command by its
457 %    |\csname| expansion, and a third time to turn the expansion into
458 %    a csname after which the |\gdef| finally gets applied.
459 %    We add an irrelevant |\IeC| and braces around the definition, in
460 %    order to avoid any space after the command being gobbled up
461 %    when the text is written out to an auxiliary file (see
462 %    \texttt{inputenc} for further details
463 %    \begin{macrocode}
464     \expandafter\expandafter\expandafter
465     \expandafter\expandafter\expandafter
466     \expandafter
467      \gdef\UTFviii@tmp{\IeC{#2}}%
468    \endgroup
470 %    \end{macrocode}
471 % \end{macro}
474 % \begin{macro}{\parse@XML@charref}
475 %    This macro parses a Unicode number (decimal) and returns its
476 %    UTF-8 representation as a sequence of non-active \TeX{} character
477 %    tokens. In the
478 %    original code it had two arguments delimited by \texttt{;} here,
479 %    however, we supply the Unicode number implicitly.
480 %    \begin{macrocode}
481 \gdef\parse@XML@charref{%
482 %    \end{macrocode}
483 %    We need to keep a few things local, mainly the |\uccode|'s that
484 %    are set up below. However, the group originally used here is
485 %    actually unnecessary since we call this macro only within another
486 %    group; but it will be important to restore the group if this
487 %    macro gets used for other purposes.
488 %    \begin{macrocode}
489 %  \begingroup
490 %    \end{macrocode}
491 %    The original code from David supported the convention that a
492 %    Unicode slot number could be given either as a decimal or as a
493 %    hexadecimal (by starting with \texttt{x}).  We do not do this so
494 %    this code is also removed.  This could be reactivated if one
495 %    wants to support document commands that accept Unicode numbers
496 %    (but then the first case needs to be changed from an error
497 %    message back to something more useful again).
498 %    \begin{macrocode}
499 %  \uppercase{\count@\if x\noexpand#1"\else#1\fi#2}\relax
500 %    \end{macrocode}
501 %    As |\count@| already contains the right value we make
502 %    |\parse@XML@charref| work without arguments.
503 % \changes{v1.1g}{2005/09/27}{Real spaces do not show up so use \cs{space}}
504 %    \begin{macrocode}
505   \ifnum\count@<"A0\relax
506      \PackageError{inputenc}{Cannot\space define\space Unicode\space
507                              char\space value\space <\space 00A0}\@eha
508 %    \end{macrocode}
509 %    Do not ask us to provide an explanation for the code below, it is
510 %    borrowed straight from \texttt{xmltex} by David and we trust him
511 %    totally (and we are too lazy to reread the Unicode book to see if
512 %    this is the correct algorithm).\footnote{We were hoping to also
513 %    find in his work the \TeX{} code for going the other way: from
514 %    UTF-8 octets to Unicode slot number, but no luck!
515 %    This has now been added as \cs{decode@UTFviii}}
516 %    \begin{macrocode}
517   \else\ifnum\count@<"800\relax
518      \parse@UTFviii@a,%
519      \parse@UTFviii@b C\UTFviii@two@octets.,%
520   \else\ifnum\count@<"10000\relax
521      \parse@UTFviii@a;%
522      \parse@UTFviii@a,%
523      \parse@UTFviii@b E\UTFviii@three@octets.{,;}%
524    \else
525      \parse@UTFviii@a;%
526      \parse@UTFviii@a,%
527      \parse@UTFviii@a!%
528      \parse@UTFviii@b F\UTFviii@four@octets.{!,;}%
529     \fi
530     \fi
531   \fi
532 %  \endgroup
534 %    \end{macrocode}
535 % \end{macro}
537 % \begin{macro}{\parse@UTFviii@a}
538 %    \ldots so somebody else can document this part :-) \ldots~David?:-))))!
539 % \changes{v1.1b}{2004/02/09}{Space in the wrong place \cs{count @64}}
540 %    \begin{macrocode}
541 \gdef\parse@UTFviii@a#1{%
542      \@tempcnta\count@
543      \divide\count@ 64
544      \@tempcntb\count@
545      \multiply\count@ 64
546      \advance\@tempcnta-\count@
547      \advance\@tempcnta 128
548      \uccode`#1\@tempcnta
549      \count@\@tempcntb}
550 %    \end{macrocode}
551 % \end{macro}
553 % \begin{macro}{\parse@UTFviii@b}
554 %    \ldots same here
555 %    \begin{macrocode}
556 \gdef\parse@UTFviii@b#1#2#3#4{%
557      \advance\count@ "#10\relax
558      \uccode`#3\count@
559      \uppercase{\gdef\UTFviii@tmp{#2#3#4}}}
560 %    \end{macrocode}
561 % \end{macro}
563 % \begin{macro}{\decode@UTFviii}
564 % \changes{v1.1o}{2015/08/28}{Macro added}
565 %    In the reverse direction, take a sequence of octects(bytes)
566 %    representing a character in UTF-8 and construct the Unicode number.
567 %    The sequence is terminated by |\relax|.
569 %    In this version, if the sequence is not valid UTF-8 you probably
570 %    get a low level arithmetic error from |\numexpr| or stray characters
571 %    at the end. Getting a better error message would be somewhat expensive.
572 %    As the main use is for reporting characters in messages, this is done
573 %    just using expansion, so |\numexpr| is used, A stub returning 0 is defined
574 %    if |\numexpr| is not available.
575 %    \begin{macrocode}
576 \ifx\numexpr\@undefined
577 %    \end{macrocode}
579 %    \begin{macrocode}
580 \gdef\decode@UTFviii#1{0}
581 %    \end{macrocode}
583 %    \begin{macrocode}
584 \else
585 %    \end{macrocode}
587 % If the input is malformed UTF-8 there may not be enough closing ) so
588 % add 5 so there are always some remaining then cleanup and remove
589 % any remaining ones at the end. This avoids |\numexpr| parse errors
590 % while outputting a package error.
591 %    \begin{macrocode}
592 \gdef\decode@UTFviii#1\relax{%
593   \expandafter\UTFviii@cleanup
594     \the\numexpr\dec@de@UTFviii#1\relax)))))\@empty}
595 %    \end{macrocode}
597 %    \begin{macrocode}
598 \gdef\UTFviii@cleanup#1)#2\@empty{#1}
599 %    \end{macrocode}
601 %    \begin{macrocode}
602 \gdef\dec@de@UTFviii#1{%
603 \ifx\relax#1%
604 \else
605   \ifnum`#1>"EF 
606     ((((`#1-"F0)%
607   \else
608     \ifnum`#1>"DF 
609       (((`#1-"E0)%
610     \else
611       \ifnum`#1>"BF 
612         ((`#1-"C0)%
613       \else
614         \ifnum`#1>"7F 
615         )*64+(`#1-"80)%
616         \else
617         +`#1 %
618         \fi
619       \fi
620     \fi
621   \fi
622   \expandafter\dec@de@UTFviii
623 \fi}
624 %    \end{macrocode}
626 %    \begin{macrocode}
628 %    \end{macrocode}
629 % \end{macro}
631 % \begin{macro}{\UTFviii@hexnumber}
632 % \changes{v1.1o}{2015/08/28}{Macro added}
633 %    Convert a number to a sequence of uppercase hex digits.
634 % If |\numexpr| is not available, it returns its argument unchanged.
635 %    \begin{macrocode}
636 \ifx\numexpr\@undefined
637 %    \end{macrocode}
638 %    \begin{macrocode}
639 \global\let\UTFviii@hexnumber\@firstofone
640 \global\UTFviii@hexdigit\hexnumber@
641 %    \end{macrocode}
642 %    \begin{macrocode}
643 \else
644 %    \end{macrocode}
645 %    \begin{macrocode}
646 \gdef\UTFviii@hexnumber#1{%
647 \ifnum#1>15 %
648 \expandafter\UTFviii@hexnumber\expandafter{\the\numexpr(#1-8)/16\relax}%
650 \UTFviii@hexdigit{\numexpr#1\ifnum#1>0-((#1-8)/16)*16\fi\relax}%
652 %    \end{macrocode}
654 % Almost but not quite |\hexnumber@|.
655 %    \begin{macrocode}
656 \gdef\UTFviii@hexdigit#1{\ifcase\numexpr#1\relax
657   0\or1\or2\or3\or4\or5\or6\or7\or8\or9\or
658   A\or B\or C\or D\or E\or F\fi}
659 %    \end{macrocode}
661 %    \begin{macrocode}
663 %    \end{macrocode}
664 % \end{macro}
666 % \begin{macro}{\UTFviii@splitcsname}
667 % \changes{v1.1o}{2015/08/28}{Macro added}
668 %    Split a csname representing a unicode character and return
669 %    the character and (if |\numexpr| is defined) the unicode number in hex.
670 %    \begin{macrocode}
671 \ifx\numexpr\@undefined
672 \gdef\UTFviii@splitcsname#1:#2\relax{#2}}
673 \else
674 \gdef\UTFviii@splitcsname#1:#2\relax{%
675 %    \end{macrocode}
676 % Need to pre-expand the argument to ensure cleanup in case of mal-formed UTF-8.
677 %    \begin{macrocode}
678 #2 (U+\expandafter\UTFviii@hexnumber\expandafter{%
679                      \the\numexpr\decode@UTFviii#2\relax})
682 %    \end{macrocode}
683 % \end{macro}
685 %    \begin{macrocode}
686 \endgroup
687 %    \end{macrocode}
689 %    \begin{macrocode}
690 \@onlypreamble\DeclareUnicodeCharacter
691 %    \end{macrocode}
692 %    These are preamble only as long as we don't support Unicode
693 %    charrefs in documents.
694 %    \begin{macrocode}
695 \@onlypreamble\parse@XML@charref
696 \@onlypreamble\parse@UTFviii@a
697 \@onlypreamble\parse@UTFviii@b
698 %    \end{macrocode}
701 % \subsection{Loading Unicode mappings at begin document}
703 % The original plan was to set up the UTF-8 support at
704 % |\begin{document}|; but then any text characters used in the preamble
705 % (as people do even though advised against it) would fail in one way or
706 % the other.
707 % So the implementation was changed and the Unicode definition files
708 % for already defined encodings are loaded here.
710 %    We loop through all defined font encodings
711 %    (stored in |\cdp@list|) and for each load a file
712 %    \textit{name}\texttt{enc.dfu} if it exist. That file is then
713 %    supposed to contain |\DeclareUnicodeCharacter| declarations.
714 %    \begin{macrocode}
715 \begingroup
716   \def\cdp@elt#1#2#3#4{%
717     \wlog{Now handling font encoding #1 ...}%
718     \lowercase{%
719         \InputIfFileExists{#1enc.dfu}}%
720            {\wlog{... processing UTF-8 mapping file for font %
721                      encoding #1}%
722 %    \end{macrocode}
723 % \changes{v1.1m}{2008/04/05}{Ensure we don't lose spaces in the log}
724 %    The previous line is written to the log with the newline char being
725 %    ignored (thus not producing a space). Therefore either everything has to
726 %    be on a single input line or some special care must be taken.  From this
727 %    point on we ignore spaces again, i.e., while we are reading the
728 %    \texttt{.dfu} file. The |\endgroup| below will restore it again.
729 % \changes{v1.1d}{2004/05/08}{Explicitly set catcode of space}
730 % \changes{v1.1g}{2005/09/27}{We lost the ``false'' case}
731 %    \begin{macrocode}
732             \catcode`\ 9\relax}%
733           {\wlog{... no UTF-8 mapping file for font encoding #1}}%
734   }
735   \cdp@list
736 \endgroup
737 %    \end{macrocode}
738 % However, we don't know if there are font encodings still to be
739 % loaded (either with \texttt{fontenc} or directly with |\input| by
740 % some some package). Font encoding files are loaded only if the
741 % corresponding encoding has not been loaded yet, and they always
742 % begin with |\DeclareFontEncoding|. We now redefine the internal
743 % kernel version of the latter to load the Unicode file if available.
745 %    \begin{macrocode}
746 \def\DeclareFontEncoding@#1#2#3{%
747   \expandafter
748   \ifx\csname T@#1\endcsname\relax
749     \def\cdp@elt{\noexpand\cdp@elt}%
750     \xdef\cdp@list{\cdp@list\cdp@elt{#1}%
751                     {\default@family}{\default@series}%
752                     {\default@shape}}%
753     \expandafter\let\csname#1-cmd\endcsname\@changed@cmd
754     \begingroup
755       \wlog{Now handling font encoding #1 ...}%
756       \lowercase{%
757         \InputIfFileExists{#1enc.dfu}}%
758            {\wlog{... processing UTF-8 mapping file for font %
759                       encoding #1}}%
760            {\wlog{... no UTF-8 mapping file for font encoding #1}}%
761     \endgroup
762   \else
763      \@font@info{Redeclaring font encoding #1}%
764   \fi
765   \global\@namedef{T@#1}{#2}%
766   \global\@namedef{M@#1}{\default@M#3}%
767   \xdef\LastDeclaredEncoding{#1}%
768   }
769 %</utf8>
770 %    \end{macrocode}
774 % \section{Mapping characters ---\newline based on font (glyph) encodings}
776 % This section is a first attempt to provide Unicode definitions for
777 % characters whose standard glyphs are currently provided by the
778 % standard \LaTeX{} font-encodings |T1|, |OT1|, etc. They are by
779 % no means completed and need checking.
781 % For example, one should check the already existing input encodings
782 %    for glyphs that may in fact be available and required,
783 %    e.g.~\texttt{latin4} has a number of glyphs with the |\=|
784 %    accent. Since the |T1| encoding does not provide such glyphs,
785 %    these characters are not listed below (yet).
787 % The list below was generated by looking at the current \LaTeX{} font
788 %    encoding files, e.g., \texttt{t1enc.def} and using the work by
789 %    Sebastian Rahtz (in \texttt{ucharacters.sty}) with a few
790 %    modifications. In combinations such as |\^\i| the preferred form
791 %    is that and not |\^i|.
793 % This list has been built from several sources, obviously including
794 % the Unicode Standard itself. These sources include Passive \TeX{} by
795 % Sebastian Rahtz, the \texttt{unicode}
796 % package by Dominique P. G. Unruh (mainly for Latin encodings) and
797 % \texttt{text4ht} by Eitan Gurari (for Cyrillic ones).
799 % Note that it strictly follows the Mittelbach principles for
800 % input character encodings: thus it offers no support for using utf8
801 % representations of math symbols such as $\times$ or $\div$ (in math mode).
804 % \subsection{About the table itself}
806 % In addition to generating individual files, the table below is, at present,
807 % a one-one (we think) partial relationship between the (ill-defined) set
808 % of LICRs and the Unicode slots "0080 to "FFFF.  At present these entries
809 % are used only to define a collection of partial mappings from Unicode
810 % slots to LICRs; each of these mappings becomes full if we add an exception
811 % value (`not defined') to the set of LICRs.
813 % It is probably not essential for the relationship in the full table to be
814 % one-one; this raises questions such as: the exact role of LICRs;
815 % the formal relationships on the set of LICRs; the (non-mathematical)
816 % relationship between
817 % LICRs and Unicode (which has its own somewhat fuzzy equivalences);
818 % and ultimately what a character is and what a character representation
819 % and/or name is.
821 % It is unclear the extent to which entries in this table should
822 % resemble the closely related ones in the 8-bit \texttt{inputenc} files.
823 % The Unicode standard claims that the first 256 slots `are' ASCII and
824 % Latin-1.
826 % Of course, \TeX{} itself typically does not treat even many perfectly
827 % `normal text' 7-bit slots as text characters, so it is unclear
828 % whether \LaTeX{} should even attempt to deal in any consistent way with
829 % those Unicode slots that are not definitive text characters.
832 % \subsection{The mapping table}
834 % Note that the first argument must be a hex-digit number greater
835 % than \texttt{00BF} and at most \texttt{10FFFF}.
837 % There are few notes about inconsistencies etc at the end of the table.
839 % \changes{v1.1o}{2015/08/28}{Add U+00A0 and U+00AD}
840 % \changes{v1.1q}{2015/12/02}{Add remaining latin uses of accents in T1}
841 % \changes{v1.1r}{2015/12/03}{Add some more ogoneck cases}
842 % \changes{v1.1s}{2016/01/11}{Add some more caron and acute}
843 %    \begin{macrocode}
844 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00A0}{\nobreakspace}
845 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00A1}{\textexclamdown}
846 %<all,ts1,ly1>\DeclareUnicodeCharacter{00A2}{\textcent}
847 %<all,ts1,t1,ot1,ly1>\DeclareUnicodeCharacter{00A3}{\textsterling}
848 %<all,x2,ts1,t2c,t2b,t2a,ly1,lcy>\DeclareUnicodeCharacter{00A4}{\textcurrency}
849 %<all,ts1,ly1>\DeclareUnicodeCharacter{00A5}{\textyen}
850 %<all,ts1,ly1>\DeclareUnicodeCharacter{00A6}{\textbrokenbar}
851 %<all,x2,ts1,t2c,t2b,t2a,oms,ly1>\DeclareUnicodeCharacter{00A7}{\textsection}
852 %<all,ts1>\DeclareUnicodeCharacter{00A8}{\textasciidieresis}
853 %<all,ts1,utf8>\DeclareUnicodeCharacter{00A9}{\textcopyright}
854 %<all,ts1,ly1,utf8>\DeclareUnicodeCharacter{00AA}{\textordfeminine}
855 %<*all,x2,t2c,t2b,t2a,t1,ot2,ly1,lcy>
856 \DeclareUnicodeCharacter{00AB}{\guillemotleft}
857 %</all,x2,t2c,t2b,t2a,t1,ot2,ly1,lcy>
858 %<all,ts1>\DeclareUnicodeCharacter{00AC}{\textlnot}
859 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00AD}{\-}
860 %<all,ts1,ly1,utf8>\DeclareUnicodeCharacter{00AE}{\textregistered}
861 %<all,ts1>\DeclareUnicodeCharacter{00AF}{\textasciimacron}
862 %<all,ts1,ly1>\DeclareUnicodeCharacter{00B0}{\textdegree}
863 %<all,ts1>\DeclareUnicodeCharacter{00B1}{\textpm}
864 %<all,ts1>\DeclareUnicodeCharacter{00B2}{\texttwosuperior}
865 %<all,ts1>\DeclareUnicodeCharacter{00B3}{\textthreesuperior}
866 %<all,ts1>\DeclareUnicodeCharacter{00B4}{\textasciiacute}
867 %<all,ts1,ly1>\DeclareUnicodeCharacter{00B5}{\textmu} % micro sign
868 %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{00B6}{\textparagraph}
869 %<all,oms,ts1,ly1>\DeclareUnicodeCharacter{00B7}{\textperiodcentered}
870 %<all,ot1>\DeclareUnicodeCharacter{00B8}{\c\ }
871 %<all,ts1>\DeclareUnicodeCharacter{00B9}{\textonesuperior}
872 %<all,ts1,ly1,utf8>\DeclareUnicodeCharacter{00BA}{\textordmasculine}
873 %<*all,x2,t2c,t2b,t2a,t1,ot2,ly1,lcy>
874 \DeclareUnicodeCharacter{00BB}{\guillemotright}
875 %</all,x2,t2c,t2b,t2a,t1,ot2,ly1,lcy>
876 %<all,ts1,ly1>\DeclareUnicodeCharacter{00BC}{\textonequarter}
877 %<all,ts1,ly1>\DeclareUnicodeCharacter{00BD}{\textonehalf}
878 %<all,ts1,ly1>\DeclareUnicodeCharacter{00BE}{\textthreequarters}
879 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00BF}{\textquestiondown}
880 %<all,t1,ly1>\DeclareUnicodeCharacter{00C0}{\@tabacckludge`A}
881 %<all,t1,ly1>\DeclareUnicodeCharacter{00C1}{\@tabacckludge'A}
882 %<all,t1,ly1>\DeclareUnicodeCharacter{00C2}{\^A}
883 %<all,t1,ly1>\DeclareUnicodeCharacter{00C3}{\~A}
884 %<all,t1,ly1>\DeclareUnicodeCharacter{00C4}{\"A}
885 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00C5}{\r A}
886 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{00C6}{\AE}
887 %<all,t1,ly1>\DeclareUnicodeCharacter{00C7}{\c C}
888 %<all,t1,ly1>\DeclareUnicodeCharacter{00C8}{\@tabacckludge`E}
889 %<all,t1,ly1>\DeclareUnicodeCharacter{00C9}{\@tabacckludge'E}
890 %<all,t1,ly1>\DeclareUnicodeCharacter{00CA}{\^E}
891 %<all,t1,ly1>\DeclareUnicodeCharacter{00CB}{\"E}
892 %<all,t1,ly1>\DeclareUnicodeCharacter{00CC}{\@tabacckludge`I}
893 %<all,t1,ly1>\DeclareUnicodeCharacter{00CD}{\@tabacckludge'I}
894 %<all,t1,ly1>\DeclareUnicodeCharacter{00CE}{\^I}
895 %<all,t1,ly1>\DeclareUnicodeCharacter{00CF}{\"I}
896 %<all,t1,ly1>\DeclareUnicodeCharacter{00D0}{\DH}
897 %<all,t1,ly1>\DeclareUnicodeCharacter{00D1}{\~N}
898 %<all,t1,ly1>\DeclareUnicodeCharacter{00D2}{\@tabacckludge`O}
899 %<all,t1,ly1>\DeclareUnicodeCharacter{00D3}{\@tabacckludge'O}
900 %<all,t1,ly1>\DeclareUnicodeCharacter{00D4}{\^O}
901 %<all,t1,ly1>\DeclareUnicodeCharacter{00D5}{\~O}
902 %<all,t1,ly1>\DeclareUnicodeCharacter{00D6}{\"O}
903 %<all,ts1>\DeclareUnicodeCharacter{00D7}{\texttimes}
904 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{00D8}{\O}
905 %<all,t1,ly1>\DeclareUnicodeCharacter{00D9}{\@tabacckludge`U}
906 %<all,t1,ly1>\DeclareUnicodeCharacter{00DA}{\@tabacckludge'U}
907 %<all,t1,ly1>\DeclareUnicodeCharacter{00DB}{\^U}
908 %<all,t1,ly1>\DeclareUnicodeCharacter{00DC}{\"U}
909 %<all,t1,ly1>\DeclareUnicodeCharacter{00DD}{\@tabacckludge'Y}
910 %<all,t1,ly1>\DeclareUnicodeCharacter{00DE}{\TH}
911 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{00DF}{\ss}
912 %<all,t1,ly1>\DeclareUnicodeCharacter{00E0}{\@tabacckludge`a}
913 %<all,t1,ly1>\DeclareUnicodeCharacter{00E1}{\@tabacckludge'a}
914 %<all,t1,ly1>\DeclareUnicodeCharacter{00E2}{\^a}
915 %<all,t1,ly1>\DeclareUnicodeCharacter{00E3}{\~a}
916 %<all,t1,ly1>\DeclareUnicodeCharacter{00E4}{\"a}
917 %<all,t1,ly1>\DeclareUnicodeCharacter{00E5}{\r a}
918 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{00E6}{\ae}
919 %<all,t1,ly1>\DeclareUnicodeCharacter{00E7}{\c c}
920 %<all,t1,ly1>\DeclareUnicodeCharacter{00E8}{\@tabacckludge`e}
921 %<all,t1,ly1>\DeclareUnicodeCharacter{00E9}{\@tabacckludge'e}
922 %<all,t1,ly1>\DeclareUnicodeCharacter{00EA}{\^e}
923 %<all,t1,ly1>\DeclareUnicodeCharacter{00EB}{\"e}
924 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00EC}{\@tabacckludge`\i}
925 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00ED}{\@tabacckludge'\i}
926 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00EE}{\^\i}
927 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{00EF}{\"\i}
928 %<all,t1,ly1>\DeclareUnicodeCharacter{00F0}{\dh}
929 %<all,t1,ly1>\DeclareUnicodeCharacter{00F1}{\~n}
930 %<all,t1,ly1>\DeclareUnicodeCharacter{00F2}{\@tabacckludge`o}
931 %<all,t1,ly1>\DeclareUnicodeCharacter{00F3}{\@tabacckludge'o}
932 %<all,t1,ly1>\DeclareUnicodeCharacter{00F4}{\^o}
933 %<all,t1,ly1>\DeclareUnicodeCharacter{00F5}{\~o}
934 %<all,t1,ly1>\DeclareUnicodeCharacter{00F6}{\"o}
935 %<all,ts1>\DeclareUnicodeCharacter{00F7}{\textdiv}
936 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{00F8}{\o}
937 %<all,t1,ly1>\DeclareUnicodeCharacter{00F9}{\@tabacckludge`u}
938 %<all,t1,ly1>\DeclareUnicodeCharacter{00FA}{\@tabacckludge'u}
939 %<all,t1,ly1>\DeclareUnicodeCharacter{00FB}{\^u}
940 %<all,t1,ly1>\DeclareUnicodeCharacter{00FC}{\"u}
941 %<all,t1,ly1>\DeclareUnicodeCharacter{00FD}{\@tabacckludge'y}
942 %<all,t1,ly1>\DeclareUnicodeCharacter{00FE}{\th}
943 %<all,t1,ly1>\DeclareUnicodeCharacter{00FF}{\"y}
944 %<all,t1>\DeclareUnicodeCharacter{0100}{\@tabacckludge=A}
945 %<all,t1>\DeclareUnicodeCharacter{0101}{\@tabacckludge=a}
946 %<all,t1>\DeclareUnicodeCharacter{0102}{\u A}
947 %<all,t1>\DeclareUnicodeCharacter{0103}{\u a}
948 %<all,t1>\DeclareUnicodeCharacter{0104}{\k A}
949 %<all,t1>\DeclareUnicodeCharacter{0105}{\k a}
950 %<all,t1>\DeclareUnicodeCharacter{0106}{\@tabacckludge'C}
951 %<all,t1>\DeclareUnicodeCharacter{0107}{\@tabacckludge'c}
952 %<all,t1>\DeclareUnicodeCharacter{0108}{\^C}
953 %<all,t1>\DeclareUnicodeCharacter{0109}{\^c}
954 %<all,t1>\DeclareUnicodeCharacter{010A}{\.C}
955 %<all,t1>\DeclareUnicodeCharacter{010B}{\.c}
956 %<all,t1>\DeclareUnicodeCharacter{010C}{\v C}
957 %<all,t1>\DeclareUnicodeCharacter{010D}{\v c}
958 %<all,t1>\DeclareUnicodeCharacter{010E}{\v D}
959 %<all,t1>\DeclareUnicodeCharacter{010F}{\v d}
960 %<all,t1>\DeclareUnicodeCharacter{0110}{\DJ}
961 %<all,t1>\DeclareUnicodeCharacter{0111}{\dj}
962 %<all,t1>\DeclareUnicodeCharacter{0112}{\@tabacckludge=E}
963 %<all,t1>\DeclareUnicodeCharacter{0113}{\@tabacckludge=e}
964 %<all,t1>\DeclareUnicodeCharacter{0114}{\u E}
965 %<all,t1>\DeclareUnicodeCharacter{0115}{\u e}
966 %<all,t1>\DeclareUnicodeCharacter{0116}{\.E}
967 %<all,t1>\DeclareUnicodeCharacter{0117}{\.e}
968 %<all,t1>\DeclareUnicodeCharacter{0118}{\k E}
969 %<all,t1>\DeclareUnicodeCharacter{0119}{\k e}
970 %<all,t1>\DeclareUnicodeCharacter{011A}{\v E}
971 %<all,t1>\DeclareUnicodeCharacter{011B}{\v e}
972 %<all,t1>\DeclareUnicodeCharacter{011C}{\^G}
973 %<all,t1>\DeclareUnicodeCharacter{011D}{\^g}
974 %<all,t1>\DeclareUnicodeCharacter{011E}{\u G}
975 %<all,t1>\DeclareUnicodeCharacter{011F}{\u g}
976 %<all,t1>\DeclareUnicodeCharacter{0120}{\.G}
977 %<all,t1>\DeclareUnicodeCharacter{0121}{\.g}
978 %<all,t1>\DeclareUnicodeCharacter{0122}{\c G}
979 %<all,t1>\DeclareUnicodeCharacter{0123}{\c g}
980 %<all,t1>\DeclareUnicodeCharacter{0124}{\^H}
981 %<all,t1>\DeclareUnicodeCharacter{0125}{\^h}
982 %<all,t1>\DeclareUnicodeCharacter{0128}{\~I}
983 %<all,t1>\DeclareUnicodeCharacter{0129}{\~\i}
984 %<all,t1>\DeclareUnicodeCharacter{012A}{\@tabacckludge=I}
985 %<all,t1>\DeclareUnicodeCharacter{012B}{\@tabacckludge=\i}
986 %<all,t1>\DeclareUnicodeCharacter{012C}{\u I}
987 %<all,t1>\DeclareUnicodeCharacter{012D}{\u\i}
988 %<all,t1>\DeclareUnicodeCharacter{012E}{\k I}
989 %<all,t1>\DeclareUnicodeCharacter{012F}{\k\i}
990 %<all,t1>\DeclareUnicodeCharacter{0130}{\.I}
991 %<all,t2c,t2b,t2a,t1,ot2,ot1,ly1,lcy>\DeclareUnicodeCharacter{0131}{\i}
992 %<all,t1>\DeclareUnicodeCharacter{0132}{\IJ}
993 %<all,t1>\DeclareUnicodeCharacter{0133}{\ij}
994 %<all,t1>\DeclareUnicodeCharacter{0134}{\^J}
995 %<all,t1>\DeclareUnicodeCharacter{0135}{\^\j}
996 %<all,t1>\DeclareUnicodeCharacter{0136}{\c K}
997 %<all,t1>\DeclareUnicodeCharacter{0137}{\c k}
998 %<all,t1>\DeclareUnicodeCharacter{0139}{\@tabacckludge'L}
999 %<all,t1>\DeclareUnicodeCharacter{013A}{\@tabacckludge'l}
1000 %<all,t1>\DeclareUnicodeCharacter{013B}{\c L}
1001 %<all,t1>\DeclareUnicodeCharacter{013C}{\c l}
1002 %<all,t1>\DeclareUnicodeCharacter{013D}{\v L}
1003 %<all,t1>\DeclareUnicodeCharacter{013E}{\v l}
1004 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0141}{\L}
1005 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0142}{\l}
1006 %<all,t1>\DeclareUnicodeCharacter{0143}{\@tabacckludge'N}
1007 %<all,t1>\DeclareUnicodeCharacter{0144}{\@tabacckludge'n}
1008 %<all,t1>\DeclareUnicodeCharacter{0145}{\c N}
1009 %<all,t1>\DeclareUnicodeCharacter{0146}{\c n}
1010 %<all,t1>\DeclareUnicodeCharacter{0147}{\v N}
1011 %<all,t1>\DeclareUnicodeCharacter{0148}{\v n}
1012 %<all,t1>\DeclareUnicodeCharacter{014A}{\NG}
1013 %<all,t1>\DeclareUnicodeCharacter{014B}{\ng}
1014 %<all,t1>\DeclareUnicodeCharacter{014C}{\@tabacckludge=O}
1015 %<all,t1>\DeclareUnicodeCharacter{014D}{\@tabacckludge=o}
1016 %<all,t1>\DeclareUnicodeCharacter{014E}{\u O}
1017 %<all,t1>\DeclareUnicodeCharacter{014F}{\u o}
1018 %<all,t1>\DeclareUnicodeCharacter{0150}{\H O}
1019 %<all,t1>\DeclareUnicodeCharacter{0151}{\H o}
1020 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{0152}{\OE}
1021 %<all,t1,ot1,ly1,lcy>\DeclareUnicodeCharacter{0153}{\oe}
1022 %<all,t1>\DeclareUnicodeCharacter{0154}{\@tabacckludge'R}
1023 %<all,t1>\DeclareUnicodeCharacter{0155}{\@tabacckludge'r}
1024 %<all,t1>\DeclareUnicodeCharacter{0156}{\c R}
1025 %<all,t1>\DeclareUnicodeCharacter{0157}{\c r}
1026 %<all,t1>\DeclareUnicodeCharacter{0158}{\v R}
1027 %<all,t1>\DeclareUnicodeCharacter{0159}{\v r}
1028 %<all,t1>\DeclareUnicodeCharacter{015A}{\@tabacckludge'S}
1029 %<all,t1>\DeclareUnicodeCharacter{015B}{\@tabacckludge's}
1030 %<all,t1>\DeclareUnicodeCharacter{015C}{\^S}
1031 %<all,t1>\DeclareUnicodeCharacter{015D}{\^s}
1032 %<all,t1>\DeclareUnicodeCharacter{015E}{\c S}
1033 %<all,t1>\DeclareUnicodeCharacter{015F}{\c s}
1034 %<all,t1,ly1>\DeclareUnicodeCharacter{0160}{\v S}
1035 %<all,t1,ly1>\DeclareUnicodeCharacter{0161}{\v s}
1036 %<all,t1>\DeclareUnicodeCharacter{0162}{\c T}
1037 %<all,t1>\DeclareUnicodeCharacter{0163}{\c t}
1038 %<all,t1>\DeclareUnicodeCharacter{0164}{\v T}
1039 %<all,t1>\DeclareUnicodeCharacter{0165}{\v t}
1040 %<all,t1>\DeclareUnicodeCharacter{0168}{\~U}
1041 %<all,t1>\DeclareUnicodeCharacter{0169}{\~u}
1042 %<all,t1>\DeclareUnicodeCharacter{016A}{\@tabacckludge=U}
1043 %<all,t1>\DeclareUnicodeCharacter{016B}{\@tabacckludge=u}
1044 %<all,t1>\DeclareUnicodeCharacter{016C}{\u U}
1045 %<all,t1>\DeclareUnicodeCharacter{016D}{\u u}
1046 %<all,t1>\DeclareUnicodeCharacter{016E}{\r U}
1047 %<all,t1>\DeclareUnicodeCharacter{016F}{\r u}
1048 %<all,t1>\DeclareUnicodeCharacter{0170}{\H U}
1049 %<all,t1>\DeclareUnicodeCharacter{0171}{\H u}
1050 %<all,t1>\DeclareUnicodeCharacter{0172}{\k U}
1051 %<all,t1>\DeclareUnicodeCharacter{0173}{\k u}
1052 %    \end{macrocode}
1054 % \changes{v1.1p}{2015/09/07}{Welsh circumflex combinations}
1055 %    \begin{macrocode}
1056 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0174}{\^W}
1057 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0175}{\^w}
1058 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0176}{\^Y}
1059 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0177}{\^y}
1060 %<all,t1,ly1>\DeclareUnicodeCharacter{0178}{\"Y}
1061 %<all,t1>\DeclareUnicodeCharacter{0179}{\@tabacckludge'Z}
1062 %<all,t1>\DeclareUnicodeCharacter{017A}{\@tabacckludge'z}
1063 %<all,t1>\DeclareUnicodeCharacter{017B}{\.Z}
1064 %<all,t1>\DeclareUnicodeCharacter{017C}{\.z}
1065 %<all,t1,ly1>\DeclareUnicodeCharacter{017D}{\v Z}
1066 %<all,t1,ly1>\DeclareUnicodeCharacter{017E}{\v z}
1067 %<all,ts1,ly1>\DeclareUnicodeCharacter{0192}{\textflorin}
1068 %    \end{macrocode}
1069 % \changes{v1.1s}{2016/01/11}{add 01CD-01F4}
1070 %    \begin{macrocode}
1071 %<all,t1>\DeclareUnicodeCharacter{01CD}{\v A}
1072 %<all,t1>\DeclareUnicodeCharacter{01CE}{\v a}
1073 %<all,t1>\DeclareUnicodeCharacter{01CF}{\v I}
1074 %<all,t1>\DeclareUnicodeCharacter{01D0}{\v \i}
1075 %<all,t1>\DeclareUnicodeCharacter{01D1}{\v O}
1076 %<all,t1>\DeclareUnicodeCharacter{01D2}{\v o}
1077 %<all,t1>\DeclareUnicodeCharacter{01D3}{\v U}
1078 %<all,t1>\DeclareUnicodeCharacter{01D4}{\v u}
1079 %<all,t1>\DeclareUnicodeCharacter{01E2}{\@tabacckludge=\AE}
1080 %<all,t1>\DeclareUnicodeCharacter{01E3}{\@tabacckludge=\ae}
1081 %<all,t1>\DeclareUnicodeCharacter{01E6}{\v G}
1082 %<all,t1>\DeclareUnicodeCharacter{01E7}{\v g}
1083 %<all,t1>\DeclareUnicodeCharacter{01E8}{\v K}
1084 %<all,t1>\DeclareUnicodeCharacter{01E9}{\v k}
1085 %<all,t1>\DeclareUnicodeCharacter{01EA}{\k O}
1086 %<all,t1>\DeclareUnicodeCharacter{01EB}{\k o}
1087 %<all,t1>\DeclareUnicodeCharacter{01F0}{\v\j}
1088 %<all,t1>\DeclareUnicodeCharacter{01F4}{\@tabacckludge'G}
1089 %    \end{macrocode}
1090 %    \begin{macrocode}
1091 %<all,t1>\DeclareUnicodeCharacter{01F5}{\@tabacckludge'g}
1094 % \changes{v1.1o}{2015/08/28}{comma accent latex/4414}
1095 %    \begin{macrocode}
1096 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0218}{\textcommabelow S}
1097 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{0219}{\textcommabelow s}
1098 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{021A}{\textcommabelow T}
1099 %<all,t1,ot1,ly1>\DeclareUnicodeCharacter{021B}{\textcommabelow t}
1100 %    \end{macrocode}
1102 %    \begin{macrocode}
1103 %<all,ly1,utf8>\DeclareUnicodeCharacter{02C6}{\textasciicircum}
1104 %<all,ts1>\DeclareUnicodeCharacter{02C7}{\textasciicaron}
1105 %<all,ly1,utf8>\DeclareUnicodeCharacter{02DC}{\textasciitilde}
1106 %<all,ts1>\DeclareUnicodeCharacter{02D8}{\textasciibreve}
1107 %<all,ts1>\DeclareUnicodeCharacter{02DD}{\textacutedbl}
1108 %    \end{macrocode}
1109 %    The Cyrillic code points have been recently checked (2007) and extended
1110 %    and corrected by Matthias Noe (\verb=a9931078@unet.univie.ac.at=) --- thanks.
1111 % \changes{v1.1j}{2007/11/09}{Added a few new unicode decls in cyrillic (pr/3988)}
1112 % \changes{v1.1k}{2007/11/11}{Added and further unicode decls in cyrillic}
1113 % \changes{v1.1n}{2015/06/27}{correct accent http://tex.stackexchange.com/q/252521}
1114 %    \begin{macrocode}
1115 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1116 \DeclareUnicodeCharacter{0400}{\@tabacckludge`\CYRE}
1117 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1118 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{0401}{\CYRYO}
1119 %<all,x2,t2a,ot2>\DeclareUnicodeCharacter{0402}{\CYRDJE}
1120 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1121 \DeclareUnicodeCharacter{0403}{\@tabacckludge'\CYRG}
1122 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1123 %<all,x2,t2a,ot2,lcy>\DeclareUnicodeCharacter{0404}{\CYRIE}
1124 %<all,x2,t2c,t2b,t2a,ot2>\DeclareUnicodeCharacter{0405}{\CYRDZE}
1125 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{0406}{\CYRII}
1126 %<all,x2,t2a,lcy>\DeclareUnicodeCharacter{0407}{\CYRYI}
1127 %<all,x2,t2c,t2b,t2a,ot2>\DeclareUnicodeCharacter{0408}{\CYRJE}
1128 %<all,x2,t2b,t2a,ot2>\DeclareUnicodeCharacter{0409}{\CYRLJE}
1129 %<all,x2,t2b,t2a,ot2>\DeclareUnicodeCharacter{040A}{\CYRNJE}
1130 %<all,x2,t2a,ot2>\DeclareUnicodeCharacter{040B}{\CYRTSHE}
1131 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1132 \DeclareUnicodeCharacter{040C}{\@tabacckludge'\CYRK}
1133 \DeclareUnicodeCharacter{040D}{\@tabacckludge`\CYRI}
1134 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1135 %<all,x2,t2b,t2a,lcy>\DeclareUnicodeCharacter{040E}{\CYRUSHRT}
1136 %<all,x2,t2c,t2a,ot2>\DeclareUnicodeCharacter{040F}{\CYRDZHE}
1137 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1138 \DeclareUnicodeCharacter{0410}{\CYRA}
1139 \DeclareUnicodeCharacter{0411}{\CYRB}
1140 \DeclareUnicodeCharacter{0412}{\CYRV}
1141 \DeclareUnicodeCharacter{0413}{\CYRG}
1142 \DeclareUnicodeCharacter{0414}{\CYRD}
1143 \DeclareUnicodeCharacter{0415}{\CYRE}
1144 \DeclareUnicodeCharacter{0416}{\CYRZH}
1145 \DeclareUnicodeCharacter{0417}{\CYRZ}
1146 \DeclareUnicodeCharacter{0418}{\CYRI}
1147 \DeclareUnicodeCharacter{0419}{\CYRISHRT}
1148 \DeclareUnicodeCharacter{041A}{\CYRK}
1149 \DeclareUnicodeCharacter{041B}{\CYRL}
1150 \DeclareUnicodeCharacter{041C}{\CYRM}
1151 \DeclareUnicodeCharacter{041D}{\CYRN}
1152 \DeclareUnicodeCharacter{041E}{\CYRO}
1153 \DeclareUnicodeCharacter{041F}{\CYRP}
1154 \DeclareUnicodeCharacter{0420}{\CYRR}
1155 \DeclareUnicodeCharacter{0421}{\CYRS}
1156 \DeclareUnicodeCharacter{0422}{\CYRT}
1157 \DeclareUnicodeCharacter{0423}{\CYRU}
1158 \DeclareUnicodeCharacter{0424}{\CYRF}
1159 \DeclareUnicodeCharacter{0425}{\CYRH}
1160 \DeclareUnicodeCharacter{0426}{\CYRC}
1161 \DeclareUnicodeCharacter{0427}{\CYRCH}
1162 \DeclareUnicodeCharacter{0428}{\CYRSH}
1163 \DeclareUnicodeCharacter{0429}{\CYRSHCH}
1164 \DeclareUnicodeCharacter{042A}{\CYRHRDSN}
1165 \DeclareUnicodeCharacter{042B}{\CYRERY}
1166 \DeclareUnicodeCharacter{042C}{\CYRSFTSN}
1167 \DeclareUnicodeCharacter{042D}{\CYREREV}
1168 \DeclareUnicodeCharacter{042E}{\CYRYU}
1169 \DeclareUnicodeCharacter{042F}{\CYRYA}
1170 \DeclareUnicodeCharacter{0430}{\cyra}
1171 \DeclareUnicodeCharacter{0431}{\cyrb}
1172 \DeclareUnicodeCharacter{0432}{\cyrv}
1173 \DeclareUnicodeCharacter{0433}{\cyrg}
1174 \DeclareUnicodeCharacter{0434}{\cyrd}
1175 \DeclareUnicodeCharacter{0435}{\cyre}
1176 \DeclareUnicodeCharacter{0436}{\cyrzh}
1177 \DeclareUnicodeCharacter{0437}{\cyrz}
1178 \DeclareUnicodeCharacter{0438}{\cyri}
1179 \DeclareUnicodeCharacter{0439}{\cyrishrt}
1180 \DeclareUnicodeCharacter{043A}{\cyrk}
1181 \DeclareUnicodeCharacter{043B}{\cyrl}
1182 \DeclareUnicodeCharacter{043C}{\cyrm}
1183 \DeclareUnicodeCharacter{043D}{\cyrn}
1184 \DeclareUnicodeCharacter{043E}{\cyro}
1185 \DeclareUnicodeCharacter{043F}{\cyrp}
1186 \DeclareUnicodeCharacter{0440}{\cyrr}
1187 \DeclareUnicodeCharacter{0441}{\cyrs}
1188 \DeclareUnicodeCharacter{0442}{\cyrt}
1189 \DeclareUnicodeCharacter{0443}{\cyru}
1190 \DeclareUnicodeCharacter{0444}{\cyrf}
1191 \DeclareUnicodeCharacter{0445}{\cyrh}
1192 \DeclareUnicodeCharacter{0446}{\cyrc}
1193 \DeclareUnicodeCharacter{0447}{\cyrch}
1194 \DeclareUnicodeCharacter{0448}{\cyrsh}
1195 \DeclareUnicodeCharacter{0449}{\cyrshch}
1196 \DeclareUnicodeCharacter{044A}{\cyrhrdsn}
1197 \DeclareUnicodeCharacter{044B}{\cyrery}
1198 \DeclareUnicodeCharacter{044C}{\cyrsftsn}
1199 \DeclareUnicodeCharacter{044D}{\cyrerev}
1200 \DeclareUnicodeCharacter{044E}{\cyryu}
1201 \DeclareUnicodeCharacter{044F}{\cyrya}
1202 \DeclareUnicodeCharacter{0450}{\@tabacckludge`\cyre}
1203 \DeclareUnicodeCharacter{0451}{\cyryo}
1204 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1205 %<all,x2,t2a,ot2>\DeclareUnicodeCharacter{0452}{\cyrdje}
1206 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1207 \DeclareUnicodeCharacter{0453}{\@tabacckludge'\cyrg}
1208 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1209 %<all,x2,t2a,ot2,lcy>\DeclareUnicodeCharacter{0454}{\cyrie}
1210 %<all,x2,t2c,t2b,t2a,ot2>\DeclareUnicodeCharacter{0455}{\cyrdze}
1211 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{0456}{\cyrii}
1212 %<all,x2,t2a,lcy>\DeclareUnicodeCharacter{0457}{\cyryi}
1213 %<all,x2,t2c,t2b,t2a,ot2>\DeclareUnicodeCharacter{0458}{\cyrje}
1214 %<all,x2,t2b,t2a,ot2>\DeclareUnicodeCharacter{0459}{\cyrlje}
1215 %<all,x2,t2b,t2a,ot2>\DeclareUnicodeCharacter{045A}{\cyrnje}
1216 %<all,x2,t2a,ot2>\DeclareUnicodeCharacter{045B}{\cyrtshe}
1217 %<*all,x2,t2c,t2b,t2a,ot2,lcy>
1218 \DeclareUnicodeCharacter{045C}{\@tabacckludge'\cyrk}
1219 \DeclareUnicodeCharacter{045D}{\@tabacckludge`\cyri}
1220 %</all,x2,t2c,t2b,t2a,ot2,lcy>
1221 %<all,x2,t2b,t2a,lcy>\DeclareUnicodeCharacter{045E}{\cyrushrt}
1222 %<all,x2,t2c,t2a,ot2>\DeclareUnicodeCharacter{045F}{\cyrdzhe}
1223 %<all,x2,ot2>\DeclareUnicodeCharacter{0462}{\CYRYAT}
1224 %<all,x2,ot2>\DeclareUnicodeCharacter{0463}{\cyryat}
1225 %<all,x2>\DeclareUnicodeCharacter{046A}{\CYRBYUS}
1226 %<all,x2>\DeclareUnicodeCharacter{046B}{\cyrbyus}
1227 %    \end{macrocode}
1228 %    The next two declarations are questionable, the encoding definition
1229 %    should probably contain |\CYROTLD| and |\cyrotld|. Or alternatively, if
1230 %    the characters in the X2 encodings are really meant to represent the
1231 %    historical characters in Ux0472 and Ux0473 (they look like them) then
1232 %    they would need to change instead.
1234 %    However, their looks are probably a font designers decision and the next
1235 %    two mappings are wrong or rather the names in OT2 should change for
1236 %    consistency.
1238 %    On the other hand the names |\CYROTLD| are somewhat questionabled as the
1239 %    Unicode standard only describes ``Cyrillic barred O'' while |TLD| refers
1240 %    to a tilde (which is more less what the ``Cyrillic FITA looks according
1241 %    to the Unicode book).
1242 %    \begin{macrocode}
1243 %<all,ot2>\DeclareUnicodeCharacter{0472}{\CYRFITA}
1244 %<all,ot2>\DeclareUnicodeCharacter{0473}{\cyrfita}
1245 %    \end{macrocode}
1247 %    \begin{macrocode}
1248 %<all,x2,ot2>\DeclareUnicodeCharacter{0474}{\CYRIZH}
1249 %<all,x2,ot2>\DeclareUnicodeCharacter{0475}{\cyrizh}
1250 %    \end{macrocode}
1251 %    While the double grave accent seems to exist in X2, T2A, T2B and T2C
1252 %    encoding, the letter izhitsa exists only in X2 and OT2. Therefore,
1253 %    izhitsa with double grave seems to be possible only using X2.
1254 %    \begin{macrocode}
1255 %<all,x2>\DeclareUnicodeCharacter{0476}{\C\CYRIZH}
1256 %<all,x2>\DeclareUnicodeCharacter{0477}{\C\cyrizh}
1257 %    \end{macrocode}
1259 %    \begin{macrocode}
1260 %<all,t2c>\DeclareUnicodeCharacter{048C}{\CYRSEMISFTSN}
1261 %<all,t2c>\DeclareUnicodeCharacter{048D}{\cyrsemisftsn}
1262 %<all,t2c>\DeclareUnicodeCharacter{048E}{\CYRRTICK}
1263 %<all,t2c>\DeclareUnicodeCharacter{048F}{\cyrrtick}
1264 %<all,x2,t2a,lcy>\DeclareUnicodeCharacter{0490}{\CYRGUP}
1265 %<all,x2,t2a,lcy>\DeclareUnicodeCharacter{0491}{\cyrgup}
1266 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{0492}{\CYRGHCRS}
1267 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{0493}{\cyrghcrs}
1268 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{0494}{\CYRGHK}
1269 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{0495}{\cyrghk}
1270 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{0496}{\CYRZHDSC}
1271 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{0497}{\cyrzhdsc}
1272 %<all,x2,t2a>\DeclareUnicodeCharacter{0498}{\CYRZDSC}
1273 %<all,x2,t2a>\DeclareUnicodeCharacter{0499}{\cyrzdsc}
1274 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{049A}{\CYRKDSC}
1275 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{049B}{\cyrkdsc}
1276 %<all,x2,t2a>\DeclareUnicodeCharacter{049C}{\CYRKVCRS}
1277 %<all,x2,t2a>\DeclareUnicodeCharacter{049D}{\cyrkvcrs}
1278 %<all,x2,t2c>\DeclareUnicodeCharacter{049E}{\CYRKHCRS}
1279 %<all,x2,t2c>\DeclareUnicodeCharacter{049F}{\cyrkhcrs}
1280 %<all,x2,t2a>\DeclareUnicodeCharacter{04A0}{\CYRKBEAK}
1281 %<all,x2,t2a>\DeclareUnicodeCharacter{04A1}{\cyrkbeak}
1282 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04A2}{\CYRNDSC}
1283 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04A3}{\cyrndsc}
1284 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{04A4}{\CYRNG}
1285 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{04A5}{\cyrng}
1286 %<all,x2,t2c>\DeclareUnicodeCharacter{04A6}{\CYRPHK}
1287 %<all,x2,t2c>\DeclareUnicodeCharacter{04A7}{\cyrphk}
1288 %<all,x2,t2c>\DeclareUnicodeCharacter{04A8}{\CYRABHHA}
1289 %<all,x2,t2c>\DeclareUnicodeCharacter{04A9}{\cyrabhha}
1290 %<all,x2,t2a>\DeclareUnicodeCharacter{04AA}{\CYRSDSC}
1291 %<all,x2,t2a>\DeclareUnicodeCharacter{04AB}{\cyrsdsc}
1292 %<all,x2,t2c>\DeclareUnicodeCharacter{04AC}{\CYRTDSC}
1293 %<all,x2,t2c>\DeclareUnicodeCharacter{04AD}{\cyrtdsc}
1294 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{04AE}{\CYRY}
1295 %<all,x2,t2b,t2a>\DeclareUnicodeCharacter{04AF}{\cyry}
1296 %<all,x2,t2a>\DeclareUnicodeCharacter{04B0}{\CYRYHCRS}
1297 %<all,x2,t2a>\DeclareUnicodeCharacter{04B1}{\cyryhcrs}
1298 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04B2}{\CYRHDSC}
1299 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04B3}{\cyrhdsc}
1300 %<all,x2,t2c>\DeclareUnicodeCharacter{04B4}{\CYRTETSE}
1301 %<all,x2,t2c>\DeclareUnicodeCharacter{04B5}{\cyrtetse}
1302 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04B6}{\CYRCHRDSC}
1303 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04B7}{\cyrchrdsc}
1304 %<all,x2,t2a>\DeclareUnicodeCharacter{04B8}{\CYRCHVCRS}
1305 %<all,x2,t2a>\DeclareUnicodeCharacter{04B9}{\cyrchvcrs}
1306 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04BA}{\CYRSHHA}
1307 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04BB}{\cyrshha}
1308 %<all,x2,t2c>\DeclareUnicodeCharacter{04BC}{\CYRABHCH}
1309 %<all,x2,t2c>\DeclareUnicodeCharacter{04BD}{\cyrabhch}
1310 %<all,x2,t2c>\DeclareUnicodeCharacter{04BE}{\CYRABHCHDSC}
1311 %<all,x2,t2c>\DeclareUnicodeCharacter{04BF}{\cyrabhchdsc}
1312 %    \end{macrocode}
1313 %    The character |\CYRpalochka| is not defined by OT2 and LCY. However it is
1314 %    looking identical to |\CYRII| and the Unicode standard explicitly refers
1315 %    to that (and to Latin I). So perhaps those encodings could get an alias?
1316 %    On the other hand, why are there two distinct slots in the T2 encodings
1317 %    even though they are so pressed for space? Perhaps they don't always look
1318 %    alike.
1319 %    \begin{macrocode}
1320 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04C0}{\CYRpalochka}
1321 %    \end{macrocode}
1323 %    \begin{macrocode}
1324 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04C1}{\U\CYRZH}
1325 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04C2}{\U\cyrzh}
1326 %<all,x2,t2b>\DeclareUnicodeCharacter{04C3}{\CYRKHK}
1327 %<all,x2,t2b>\DeclareUnicodeCharacter{04C4}{\cyrkhk}
1328 %    \end{macrocode}
1329 %    According to the Unicode standard Ux04C5 should be an L with ``tail'' not
1330 %    with descender (which also exists as Ux04A2) but it looks as if the char
1331 %    names do not make this distinction). Should they?
1332 %    \begin{macrocode}
1333 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04C5}{\CYRLDSC}
1334 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04C6}{\cyrldsc}
1335 %    \end{macrocode}
1337 %    \begin{macrocode}
1338 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04C7}{\CYRNHK}
1339 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04C8}{\cyrnhk}
1340 %<all,x2,t2b>\DeclareUnicodeCharacter{04CB}{\CYRCHLDSC}
1341 %<all,x2,t2b>\DeclareUnicodeCharacter{04CC}{\cyrchldsc}
1342 %    \end{macrocode}
1343 %    According to the Unicode standard Ux04CD should be an M with ``tail'' not
1344 %    with descender. However this time there is no M with descender in the
1345 %    Unicode standard.
1346 %    \begin{macrocode}
1347 %<all,x2,t2c>\DeclareUnicodeCharacter{04CD}{\CYRMDSC}
1348 %<all,x2,t2c>\DeclareUnicodeCharacter{04CE}{\cyrmdsc}
1349 %    \end{macrocode}
1351 %    \begin{macrocode}
1352 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D0}{\U\CYRA}
1353 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D1}{\U\cyra}
1354 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D2}{\"\CYRA}
1355 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D3}{\"\cyra}
1356 %<all,x2,t2a>\DeclareUnicodeCharacter{04D4}{\CYRAE}
1357 %<all,x2,t2a>\DeclareUnicodeCharacter{04D5}{\cyrae}
1358 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D6}{\U\CYRE}
1359 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04D7}{\U\cyre}
1360 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04D8}{\CYRSCHWA}
1361 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04D9}{\cyrschwa}
1362 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04DA}{\"\CYRSCHWA}
1363 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04DB}{\"\cyrschwa}
1364 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04DC}{\"\CYRZH}
1365 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04DD}{\"\cyrzh}
1366 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04DE}{\"\CYRZ}
1367 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04DF}{\"\cyrz}
1368 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04E0}{\CYRABHDZE}
1369 %<all,x2,t2c,t2b>\DeclareUnicodeCharacter{04E1}{\cyrabhdze}
1370 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E2}{\@tabacckludge=\CYRI}
1371 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E3}{\@tabacckludge=\cyri}
1372 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E4}{\"\CYRI}
1373 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E5}{\"\cyri}
1374 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E6}{\"\CYRO}
1375 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04E7}{\"\cyro}
1376 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04E8}{\CYROTLD}
1377 %<all,x2,t2c,t2b,t2a>\DeclareUnicodeCharacter{04E9}{\cyrotld}
1378 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04EC}{\"\CYREREV}
1379 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04ED}{\"\cyrerev}
1380 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04EE}{\@tabacckludge=\CYRU}
1381 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04EF}{\@tabacckludge=\cyru}
1382 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F0}{\"\CYRU}
1383 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F1}{\"\cyru}
1384 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F2}{\H\CYRU}
1385 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F3}{\H\cyru}
1386 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F4}{\"\CYRCH}
1387 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F5}{\"\cyrch}
1388 %<all,x2,t2b>\DeclareUnicodeCharacter{04F6}{\CYRGDSC}
1389 %<all,x2,t2b>\DeclareUnicodeCharacter{04F7}{\cyrgdsc}
1390 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F8}{\"\CYRERY}
1391 %<all,x2,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{04F9}{\"\cyrery}
1392 %<all,t2b>\DeclareUnicodeCharacter{04FA}{\CYRGDSCHCRS}
1393 %<all,t2b>\DeclareUnicodeCharacter{04FB}{\cyrgdschcrs}
1394 %<all,x2,t2b>\DeclareUnicodeCharacter{04FC}{\CYRHHK}
1395 %<all,x2,t2b>\DeclareUnicodeCharacter{04FD}{\cyrhhk}
1396 %<all,t2b>\DeclareUnicodeCharacter{04FE}{\CYRHHCRS}
1397 %<all,t2b>\DeclareUnicodeCharacter{04FF}{\cyrhhcrs}
1398 %<all,ts1>\DeclareUnicodeCharacter{0E3F}{\textbaht}
1399 %<all,t1>\DeclareUnicodeCharacter{01E02}{\.B}
1400 %<all,t1>\DeclareUnicodeCharacter{01E03}{\.b}
1401 %<all,x2,t2c,t2b,t2a,t1,utf8>\DeclareUnicodeCharacter{200C}{\textcompwordmark}
1402 %<*all,x2,t2c,t2b,t2a,t1,ot2,ot1,ly1,lcy>
1403 \DeclareUnicodeCharacter{2013}{\textendash}
1404 \DeclareUnicodeCharacter{2014}{\textemdash}
1405 %</all,x2,t2c,t2b,t2a,t1,ot2,ot1,ly1,lcy>
1406 %<all,ts1>\DeclareUnicodeCharacter{2016}{\textbardbl}
1407 %<*all,x2,t2c,t2b,t2a,t1,ot2,ot1,lcy>
1408 \DeclareUnicodeCharacter{2018}{\textquoteleft}
1409 \DeclareUnicodeCharacter{2019}{\textquoteright}
1410 %</all,x2,t2c,t2b,t2a,t1,ot2,ot1,lcy>
1411 %<all,t1>\DeclareUnicodeCharacter{201A}{\quotesinglbase}
1412 %<*all,x2,t2c,t2b,t2a,t1,ot2,ot1,ly1,lcy>
1413 \DeclareUnicodeCharacter{201C}{\textquotedblleft}
1414 \DeclareUnicodeCharacter{201D}{\textquotedblright}
1415 %</all,x2,t2c,t2b,t2a,t1,ot2,ot1,ly1,lcy>
1416 %<all,x2,t2c,t2b,t2a,t1,lcy>\DeclareUnicodeCharacter{201E}{\quotedblbase}
1417 %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{2020}{\textdagger}
1418 %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{2021}{\textdaggerdbl}
1419 %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{2022}{\textbullet}
1420 %<all,ly1,utf8>\DeclareUnicodeCharacter{2026}{\textellipsis}
1421 %<*all,x2,ts1,t2c,t2b,t2a,t1,ly1>
1422 \DeclareUnicodeCharacter{2030}{\textperthousand}
1423 %</all,x2,ts1,t2c,t2b,t2a,t1,ly1>
1424 %<*all,x2,ts1,t2c,t2b,t2a,t1>
1425 \DeclareUnicodeCharacter{2031}{\textpertenthousand}
1426 %</all,x2,ts1,t2c,t2b,t2a,t1>
1427 %<all,t1,ly1>\DeclareUnicodeCharacter{2039}{\guilsinglleft}
1428 %<all,t1,ly1>\DeclareUnicodeCharacter{203A}{\guilsinglright}
1429 %<all,ts1>\DeclareUnicodeCharacter{203B}{\textreferencemark}
1430 %<all,ts1>\DeclareUnicodeCharacter{203D}{\textinterrobang}
1431 %<all,ts1>\DeclareUnicodeCharacter{2044}{\textfractionsolidus}
1432 %<all,ts1>\DeclareUnicodeCharacter{204E}{\textasteriskcentered}
1433 %<all,ts1>\DeclareUnicodeCharacter{2052}{\textdiscount}
1434 %<all,ts1>\DeclareUnicodeCharacter{20A1}{\textcolonmonetary}
1435 %<all,ts1>\DeclareUnicodeCharacter{20A4}{\textlira}
1436 %<all,ts1>\DeclareUnicodeCharacter{20A6}{\textnaira}
1437 %<all,ts1>\DeclareUnicodeCharacter{20A9}{\textwon}
1438 %<all,ts1>\DeclareUnicodeCharacter{20AB}{\textdong}
1439 %<all,ts1>\DeclareUnicodeCharacter{20AC}{\texteuro}
1440 %<all,ts1>\DeclareUnicodeCharacter{20B1}{\textpeso}
1441 %<all,ts1>\DeclareUnicodeCharacter{2103}{\textcelsius}
1442 %<all,x2,ts1,t2c,t2b,t2a,ot2,lcy>\DeclareUnicodeCharacter{2116}{\textnumero}
1443 %<all,ts1>\DeclareUnicodeCharacter{2117}{\textcircledP}
1444 %<all,ts1>\DeclareUnicodeCharacter{211E}{\textrecipe}
1445 %<all,ts1>\DeclareUnicodeCharacter{2120}{\textservicemark}
1446 %<all,ts1,ly1,utf8>\DeclareUnicodeCharacter{2122}{\texttrademark}
1447 %<all,ts1>\DeclareUnicodeCharacter{2126}{\textohm}
1448 %<all,ts1>\DeclareUnicodeCharacter{2127}{\textmho}
1449 %<all,ts1>\DeclareUnicodeCharacter{212E}{\textestimated}
1450 %<all,ts1>\DeclareUnicodeCharacter{2190}{\textleftarrow}
1451 %<all,ts1>\DeclareUnicodeCharacter{2191}{\textuparrow}
1452 %<all,ts1>\DeclareUnicodeCharacter{2192}{\textrightarrow}
1453 %<all,ts1>\DeclareUnicodeCharacter{2193}{\textdownarrow}
1454 %<all,x2,ts1,t2c,t2b,t2a>\DeclareUnicodeCharacter{2329}{\textlangle}
1455 %<all,x2,ts1,t2c,t2b,t2a>\DeclareUnicodeCharacter{232A}{\textrangle}
1456 %<all,ts1>\DeclareUnicodeCharacter{2422}{\textblank}
1457 %<all,x2,t2c,t2b,t2a,t1,utf8>\DeclareUnicodeCharacter{2423}{\textvisiblespace}
1458 %<all,ts1>\DeclareUnicodeCharacter{25E6}{\textopenbullet}
1459 %<all,ts1>\DeclareUnicodeCharacter{25EF}{\textbigcircle}
1460 %<all,ts1>\DeclareUnicodeCharacter{266A}{\textmusicalnote}
1461 %    \end{macrocode}
1463 % \subsection{Notes}
1465 % \changes{v1.1e}{2004/05/22}{Added notes on inconsistency with `8-bit files'.}
1466 % The following inputs are inconsistent with the 8-bit inputenc files
1467 % since they will always only produce the `text character'.  This is an
1468 % area where inputenc is notoriously confused.
1469 % \begin{verbatim}
1470 % %<all,ts1,t1,ot1,ly1>\DeclareUnicodeCharacter{00A3}{\textsterling}
1471 % %<*all,x2,ts1,t2c,t2b,t2a,oms,ly1>
1472 % \DeclareUnicodeCharacter{00A7}{\textsection}
1473 % %</all,x2,ts1,t2c,t2b,t2a,oms,ly1>
1474 % %<all,ts1,utf8>\DeclareUnicodeCharacter{00A9}{\textcopyright}
1475 % %<all,ts1>\DeclareUnicodeCharacter{00B1}{\textpm}
1476 % %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{00B6}{\textparagraph}
1477 % %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{2020}{\textdagger}
1478 % %<all,ts1,oms,ly1>\DeclareUnicodeCharacter{2021}{\textdaggerdbl}
1479 % %<all,ly1,utf8>\DeclareUnicodeCharacter{2026}{\textellipsis}
1480 % \end{verbatim}
1482 %    The following definitions are in an encoding file but have no
1483 %    direct equivalent in Unicode, or they simply do not make sense in that
1484 %    context (or we have not yet found anything or \ldots :-).  For
1485 %    example, the non-combining accent characters are certainly
1486 %    available somewhere but these are not equivalent to a \TeX{}
1487 %    accent command.
1488 %\begin{verbatim}
1489 %\DeclareTextSymbol{\j}{OT1}{17}
1490 %\DeclareTextSymbol{\SS}{T1}{223}
1491 %\DeclareTextSymbol{\textcompwordmark}{T1}{23}
1493 %\DeclareTextAccent{\"}{OT1}{127}
1494 %\DeclareTextAccent{\'}{OT1}{19}
1495 %\DeclareTextAccent{\.}{OT1}{95}
1496 %\DeclareTextAccent{\=}{OT1}{22}
1497 %\DeclareTextAccent{\H}{OT1}{125}
1498 %\DeclareTextAccent{\^}{OT1}{94}
1499 %\DeclareTextAccent{\`}{OT1}{18}
1500 %\DeclareTextAccent{\r}{OT1}{23}
1501 %\DeclareTextAccent{\u}{OT1}{21}
1502 %\DeclareTextAccent{\v}{OT1}{20}
1503 %\DeclareTextAccent{\~}{OT1}{126}
1504 %\DeclareTextCommand{\b}{OT1}[1]
1505 %\DeclareTextCommand{\c}{OT1}[1]
1506 %\DeclareTextCommand{\d}{OT1}[1]
1507 %\DeclareTextCommand{\k}{T1}[1]
1508 %\end{verbatim}
1512 % \subsection{Mappings for OT1 glyphs}
1514 %    This is even more incomplete as again it covers only the single
1515 %    glyphs from |OT1| plus some that have been explicitly defined for
1516 %    this encoding. Everything that is provided in |T1|, and that
1517 %    could be provided as composite glyphs via |OT1|, could and
1518 %    probably should be set up as well.  Which leaves the many things
1519 %    that are not provided in |T1| but can be provided in |OT1| (and
1520 %    in |T1|) by composite glyphs.
1522 %    \begin{macrocode}
1523 %    \end{macrocode}
1524 % Stuff not mapped (note that |\j| ($\jmath$) is not equivalent to any
1525 % Unicode character):
1526 %\begin{verbatim}
1527 %\DeclareTextSymbol{\j}{OT1}{17}
1528 %\DeclareTextAccent{\"}{OT1}{127}
1529 %\DeclareTextAccent{\'}{OT1}{19}
1530 %\DeclareTextAccent{\.}{OT1}{95}
1531 %\DeclareTextAccent{\=}{OT1}{22}
1532 %\DeclareTextAccent{\^}{OT1}{94}
1533 %\DeclareTextAccent{\`}{OT1}{18}
1534 %\DeclareTextAccent{\~}{OT1}{126}
1535 %\DeclareTextAccent{\H}{OT1}{125}
1536 %\DeclareTextAccent{\u}{OT1}{21}
1537 %\DeclareTextAccent{\v}{OT1}{20}
1538 %\DeclareTextAccent{\r}{OT1}{23}
1539 %\DeclareTextCommand{\b}{OT1}[1]
1540 %\DeclareTextCommand{\c}{OT1}[1]
1541 %\DeclareTextCommand{\d}{OT1}[1]
1542 %\end{verbatim}
1546 % \subsection{Mappings for OMS glyphs}
1548 % Characters like |\textbackslash| are not mapped as they are
1549 %    (primarily) only in the lower 127 and the code here only sets up
1550 %    mappings for UTF-8 characters that are at least 2 octets long.
1551 %\begin{verbatim}
1552 %\DeclareTextSymbol{\textbackslash}{OMS}{110}        % "6E
1553 %\DeclareTextSymbol{\textbar}{OMS}{106}              % "6A
1554 %\DeclareTextSymbol{\textbraceleft}{OMS}{102}        % "66
1555 %\DeclareTextSymbol{\textbraceright}{OMS}{103}       % "67
1556 %\end{verbatim}
1558 % But the following (and some others) might actually lurk in Unicode
1559 %    somewhere\ldots
1560 %\begin{verbatim}
1561 %\DeclareTextSymbol{\textasteriskcentered}{OMS}{3}   % "03
1562 %\DeclareTextCommand{\textcircled}{OMS}
1563 %\end{verbatim}
1568 % \subsection{Mappings for TS1 glyphs}
1570 % Exercise for somebody else.
1573 % \subsection{Mappings for \texttt{latex.ltx} glyphs}
1575 % There is also a collection of characters already set up in the kernel,
1576 % one way or the other. Since these do not clearly relate to any
1577 %    particular font encoding they are mapped when the
1578 % \texttt{utf8} support is first set up.
1580 % Also there are a number of |\providecommand|s in the various input
1581 % encoding files which may or may not go into this part.
1582 % \changes{v1.1b}{2004/02/09}{Added commands already defined in the kernel}
1583 %    \begin{macrocode}
1584 %<*utf8>
1585 % This space is intentionally empty ...
1586 %</utf8>
1587 %    \end{macrocode}
1590 % \section{A test document}
1592 %    Here is a very small test document which may or may not survive
1593 %    if the current document is transferred from one place to the
1594 %    other.
1595 %    \begin{macrocode}
1596 %<*test>
1597 \documentclass{article}
1599 \usepackage[latin1,utf8]{inputenc}
1600 \usepackage[T1]{fontenc}
1601 \usepackage{trace}
1603 \scrollmode  % to run past the error below
1605 \begin{document}
1607  German umlauts in UTF-8: ^^c3^^a4^^c3^^b6^^c3^^bc  %%% äöü
1609 \inputencoding{latin1}  % switch to latin1
1611  German umlauts in UTF-8 but read by latin1 (and will produce one
1612  error since \verb=\textcurrency= is not provided):
1613  ^^c3^^a4^^c3^^b6^^c3^^bc
1615 \inputencoding{utf8}    % switch back to utf8
1617  German umlauts in UTF-8: ^^c3^^a4^^c3^^b6^^c3^^bc
1620 Some codes that should produce errors as nothing is set up
1621 for them: ^^c3F ^^e1^^a4^^b6
1623 And some that are not legal utf8 sequences: ^^c3X ^^e1XY
1625 \showoutput
1626 \tracingstats=2
1627 \stop
1628 %</test>
1629 %    \end{macrocode}
1631 % \Finale
1633 \endinput