%% e-upTeX macro %% derived from $TEXMF/tex/plain/etex/etex.src, eptex.src %% e-upTeX: euptex *euptex.src % Assume a purely IniTeX environment and set up a minimal \catcode r\'egime \catcode `\{=1 \catcode `\}=2 \catcode `\#=6 \catcode `\^=7 \catcode `\@=\catcode `\A % Define the basic error-reporting and abort mechanisms: \def \et@xmsg #1#2% {\begingroup \def \n {^^J}% \def \ { }% \newlinechar=\expandafter `\n \if E#1% \errorcontextlines=0 \errmessage {e-TeX error: #2}% \else \message {\n ! e-TeX \if I#1 message% \else \if W#1 warning% \else \if F#1 fatal error% \else \ unknown (#1)% \fi \fi \fi: #2% }% \fi \endgroup } % Note: a future version may report errors in the %--[, ] % format, allowing the more verbose s to be read from file rather than % stored in the format. \def \et@xabort #1% {\et@xmsg {F}{#1}% \batchmode \end } % Make sure this file is being read by e-TeX in extended mode; % If it is, prepare to check version/revision compatibility, otherwise abort. \ifx \undefined \eTeXversion \et@xabort {this file can be processed only in extended mode;\n \ \ did you perhaps forget the asterisk?% }% \else \begingroup \catcode `\%=12 \catcode `\?=14 \xdef \et@xfilehdr {\detokenize {%% e-TeX V}\the \eTeXversion \eTeXrevision}? \xdef \et@xlibhdr {\detokenize {%% e-TeXlib V}\the \eTeXversion \eTeXrevision}? \endgroup \fi % Assume extended mode, but no additional \catcodes/\defs yet; % set up a simple e-TeX condition-reporting system: \def \et@xinf #1{\et@xmsg {I}{#1}} %%% not currently used \def \et@xwarn #1{\et@xmsg {W}{#1}} \def \et@xerr #1#2{{\errhelp={#2}\et@xmsg {E}{#1}}} % deactivate the processing of patterns and exceptions; these will be % reinstated later, after the \uselanguage mechanism has been defined. \let \et@xpatterns=\patterns \def \patterns {\begingroup \everyeof={\fi \endgroup}% \message {[skipping from \noexpand \patterns to end-of-file...]}% \iffalse } % Read "uptex.tex" (\patterns & \hyphenation will be skipped) \input uptex % restore the catcode of commercial-at (@), which will just have been clobbered \catcode `\@=\catcode `\A % Assume an extended Plain environment (i.e. there are no longer any % restrictions on the coding techniques we can use). First prepare to % carry out consistency checks on the file headers and the current e-TeX % version/revision levels: \newread \et@xinput \def \etexhdrchk #1#2% {\openin \et@xinput=#2 \ifeof \et@xinput \chardef \etexstatus=0 % V1.0-1 \else \begingroup \endlinechar=-1 \readline \et@xinput to \et@xbuf \closein \et@xinput \def \p@rtition ##1.##2\endp@rtition {##1}% V2.1%0 \xdef \et@xbuf {\expandafter \p@rtition \et@xbuf .\endp@rtition}% V2.1;0 \xdef \et@xtmp {\csname et@x#1hdr\endcsname}% \xdef \et@xtmp {\expandafter \p@rtition \et@xtmp .\endp@rtition}% V2.1;0 \endgroup \ifx \et@xtmp \et@xbuf \chardef \etexstatus=2 % V1.1;4 \else \chardef \etexstatus=1 % V1.1;4 \fi \fi } % Check the version number of etex.src: \def \et@xfmtsrc {etex.src} \etexhdrchk {file} {\et@xfmtsrc} \ifcase \etexstatus \et@xerr {unable to open format source file "\et@xfmtsrc";} {This should not happen; please ensure that your system allows a file to be opened for reading more than once concurrently.% }% \or \et@xwarn {format source file "\et@xfmtsrc" has wrong header;\n \ \ expected: "\et@xfilehdr"; found: "\et@xbuf";% }% {You are using a version of e-TeX which may be incompatible with the source for the format file you are trying to compile; please ensure that you have the most recent version of each. I will proceed, but you should treat the results with caution...% }% \fi % Module handling now implemented (V1.0-2) \def \module #1{\iftrue} \let \endmodule=\fi \newtoks \et@xtoks \def \et@xl@@d #1 #2\endl@ad %%% the "#1 #2" code avoids trailing spaces {\ifcsname module:#1\endcsname \et@xwarn {duplicate module name "#1"}% \else \csname module:#1\endcsname %%% we exploit the side-effect explicitly \et@xtoks=\expandafter {\the \et@xtoks \expandafter \let \csname module:#1\endcsname=\undefined }% \fi } \def \et@xl@ad #1#2,#3\endl@ad %%% the #1#2 code avoids spurious leading spaces {\et@xl@@d #1#2 \endl@ad \if *#3* \let \n@xt=\relax \else \def \n@xt {\et@xl@ad #3\endl@ad}% \fi \n@xt } \def \et@xload #1 %%% needed because of the embedded \ifs... {\def \module ##1% {\unless \ifcsname module:##1\endcsname \message {Skipping module "##1";}% \else \message {Loading module "##1";}% }% \input #1 \def \module ##1{\iftrue}% } \def \load #1 from #2 %%% selective module loading from an e-TeX library file {%\etexhdrchk {lib} {#2}% \ifcase \etexstatus \et@xerr {unable to open library file "#2"; load aborted.} {I got an on trying to open your library file; please make sure it exists, is readable and is not locked.% }% \or \et@xerr {library file "#2" has wrong header;\n \ \ expected: "\et@xlibhdr"; found: "\et@xbuf";\n \ \ load aborted.% }% {The first line of your library does not start with the correct e-TeX header; you may need to update the file to be compatible with the current version of e-TeX, or you may simply have specified the wrong file.% }% \else \et@xtoks={\et@xtoks={}}% \et@xl@ad #1,\endl@ad \et@xload {#2} \the \et@xtoks \fi } \load interactionmodes from eptexdefs.lib %%% \load [, ...] from \def \@sk #1#2#3% {\ifnum \interactionmode=\interactionmodes {errorstop} %%% V2.0;15 \def \pr@mpt {\csname #1 \endcsname}% \edef \pr@mptloop {{\escapechar=-1 \global \readline 16 to \pr@mpt}}% \loop \pr@mptloop \ch@ckforyn \pr@mpt {#2}% \ifb@dresponse \message {Please answer Y[es] or N[o]}% \repeat \else \def \pr@mpt {#3}% \ch@ckforyn \pr@mpt {#2}% \fi } \def \ch@ckforyn #1#2% Bernd Raichle's improved version, V1.0-1 {\edef \@nswer {#1}% \def \p@rse ##1##2\endp@rse {\lowercase {\if y##1}\b@dresponsefalse \csname #2true\endcsname \else \lowercase {\if n##1}\b@dresponsefalse \csname #2false\endcsname \else \b@dresponsetrue \fi \fi }% \expandafter \p@rse \@nswer \endp@rse } \def \usef@llback %%% V1.0-3 {\message {Using fallback mode (USenglish)}% \addlanguage {USenglish}{hyphen}{}{2}{3}% } % OK, that's all the utilities defined; on with the real work: % First, re-instate \patterns: \let \patterns=\et@xpatterns % Define the language-handling commands \def \et@xlang {\csname newlanguage\endcsname} \def \uselanguage #1% {\ifcsname lang@#1\endcsname \language=\csname lang@#1\endcsname \lefthyphenmin=\csname lhm@#1\endcsname \righthyphenmin=\csname rhm@#1\endcsname \ifdefined \uselanguage@hook % V1.0-1 \uselanguage@hook {#1}% % V1.0-1 \fi \else \et@xerr {language #1 undefined.}% {You are trying to use a language which has not previously been defined; remember that any language you want to use will need to have been specified at the time the format was created.% }% \fi } \def \addlanguage #1#2#3#4#5% language patterns exceptions lhm rhm {\expandafter \et@xlang \csname lang@#1\endcsname \expandafter \chardef \csname lhm@#1\endcsname=#4 % V1.0-1 \expandafter \chardef \csname rhm@#1\endcsname=#5 % V1.0-1 \uselanguage {#1}% \input #2 \if *#3*\else \input #3 \fi \ifdefined \addlanguage@hook % V1.0-4 \addlanguage@hook {#1}% % V1.0-4 \fi \edef \fmtversion {\fmtversion/#1}% } % Decrement \count 19, because \newlanguage will increment it again \advance \count 19 by -1 % We are about to try to process a user/site-specific file "language.def", % which establishes a Babel-like language selection environment. Since % there is always a risk of a spurious file of that name being found, % we look for an e-TeX header in the first line. If the file can be opened, % but doesn't have the right header, we interrogate the user as to whether % to use fallback mode; in this mode, we simply establish USenglish as the % sole language, with the et@x patterns, exceptions and left- and right- % hyphen minima for TeX. If we can't interrogate the user (e.g. not in % \errorstopmode), or if the user elects not to use fallback, we abort; % if the file can't be found/opened, we use fallback unconditionally. \newif \ifb@dresponse \newif \ifusef@llback \def \l@ngdefnfile {language.def} \etexhdrchk {file} {\l@ngdefnfile} \ifcase \etexstatus \et@xwarn {unable to open file "\l@ngdefnfile";}% \usef@llback % unable to open "language.def" \or \et@xwarn {file "\l@ngdefnfile" has wrong header;\n \ \ expected: "\et@xfilehdr"; found: "\et@xbuf";% }% \@sk {Use fallback?} {usef@llback} {y}% \ifusef@llback \usef@llback \else \input \l@ngdefnfile % use "language.def" after warning \fi \else \bgroup \count@=128 \loop\ifnum\count@<256\relax \lccode\count@=\count@\advance\count@\@ne \repeat \count@=0 \loop\ifnum\count@<32\relax \lccode\count@=\count@\advance\count@\@ne \repeat \input \l@ngdefnfile % "language.def" open & valid \egroup % the above empty line is needed to end the argument of \input \fi % All that was just to set up natural language handling... % The "real" work of "etex.src", however, is to augment the non-primitives % of Plain.TeX to incorporate e-TeX specific features, and to add new % non-primitives to simplify access to new e-TeX specific primitives. \message {Augmenting the Plain TeX definitions:} \message {\string \tracingall;} \def \tracingall {\tracingonline=\@ne \tracingcommands=\thr@@ % plain.tex has \tw@ \tracingstats=\tw@ \tracingpages=\@ne \tracingoutput=\@ne \tracinglostchars=\tw@ % plain.tex has \@ne \tracingmacros=\tw@ \tracingparagraphs=\@ne \tracingrestores=\@ne \showboxbreadth=\maxdimen \showboxdepth=\maxdimen \errorstopmode \tracinggroups=\@ne \tracingifs=\@ne \tracingscantokens=\@ne \tracingnesting=\@ne \tracingassigns=\tw@ } \message {Adding new e-TeX definitions:} \message {\string \eTeX, \string \epTeX, \string \eupTeX, } \def \eTeX {$\varepsilon$-\TeX} %%% the simple version, not suitable for maths; %%% a more sophisticated one may find its way %%% into "eptexdefs.lib" in due course. \def \epTeX {$\varepsilon$-p\TeX} \def \eupTeX {$\varepsilon$-up\TeX} \message {\string \loggingall,} \def \loggingall {\tracingall \tracingonline=\z@} \message {\string \tracingnone,} \def \tracingnone {\tracingassigns=\z@ \tracingnesting=\z@ \tracingscantokens=\z@ \tracingifs=\z@ \tracinggroups=\z@ \showboxdepth=\thr@@ \showboxbreadth=5 \tracingrestores=\z@ \tracingparagraphs=\z@ \tracingmacros=\z@ \tracinglostchars=\@ne \tracingoutput=\z@ \tracingpages=\z@ \tracingstats=\z@ \tracingcommands=\z@ \tracingonline=\z@ } \message {register allocation;} \newcount \et@xins % our insertion counter (\insc@unt is used differently) % We have to adjust the Plain TeX register allocation counts for our % slightly modified book-keeping: \advance \count 10 by 1 % \count 10=23 % allocates \count registers 23, 24, ... \advance \count 11 by 1 % \count 11=10 % allocates \dimen registers 10, 11, ... \advance \count 12 by 1 % \count 12=10 % allocates \skip registers 10, 11, ... \advance \count 13 by 1 % \count 13=10 % allocates \muskip registers 10, 11, ... \advance \count 14 by 1 % \count 14=10 % allocates \box registers 10, 11, ... \advance \count 15 by 1 % \count 15=10 % allocates \toks registers 10, 11, ... \advance \count 16 by 1 % \count 16=0 % allocates input streams 0, 1, ... \advance \count 17 by 1 % \count 17=0 % allocates output streams 0, 1, ... \advance \count 18 by 1 % \count 18=4 % allocates math families 4, 5, ... \advance \count 19 by 1 % \count 19=0 % allocates \language codes 0, 1, ... \et@xins=\insc@unt % \et@xins=255 % allocates insertions 254, 253, ... % We don't change the Plain TeX definitions of \newcount, etc., but the % \alloc@ macro doing the actual work is redefined. % When the normal register pool for \count, \dimen, \skip, \muskip, % \box, or \toks registers is exhausted, we switch to the extended pool. \def \alloc@ #1#2#3#4#5% {\ifnum \count 1#1 < #4% make sure there's still room \allocationnumber=\count 1#1 \global \advance \count 1#1 by \@ne \global #3#5=\allocationnumber \wlog {\string #5=\string #2\the \allocationnumber}% \else \ifnum #1 < 6 \begingroup \escapechar=\m@ne \expandafter \alloc@@ \expandafter {\string #2}#5% \else \errmessage {No room for a new #2}% \fi \fi } % The \expandafter construction used here allows the generation of % \newcount and \globcount from #1=count. Moreover (and more important) % this construction avoids the appearance of \outer macros inside % macro definitions or conditionals. \def \alloc@@ #1#2% {\endgroup % restore \escapechar \message {Normal \csname#1\endcsname register pool exhausted, switching to extended pool.}% \global \expandafter \let \csname new#1\expandafter \endcsname \csname glob#1\endcsname \csname new#1\endcsname#2% } % We do change the Plain TeX definition of \newinsert \outer \def \newinsert #1%make sure there's still room for ... {\ch@ck 0 \et@xins \count % ... a \count, ... {\ch@ck 1 \et@xins \dimen % ... \dimen, ... {\ch@ck 2 \et@xins \skip % ... \skip, ... {\ch@ck 4 \et@xins \box % ... and \box register {\global \advance \et@xins by \m@ne \unless \ifnum \insc@unt < \et@xins \global \insc@unt=\et@xins \fi \allocationnumber=\et@xins \global \chardef #1=\allocationnumber \wlog {\string #1=\string \insert \the \allocationnumber}% }% }% }% }% } \def \ch@ck #1#2#3#4% {\ifnum \count 1#1 < #2#4\else \errmessage {No room for a new #3}\fi} % And we define \reserveinserts, so that you can say \reserveinserts{17} % in order to reserve room for up to 17 additional insertion classes that will % not be taken away by \newcount, \newdimen, \newskip, or \newbox. \outer \def \reserveinserts#1% {\global \insc@unt=\numexpr \et@xins \ifnum #1 > \z@ -#1\fi \relax} \message {extended register allocation;} % Now, we define \globcount, \globbox, etc., so that you can say % \globcount\foo and \foo will be defined (with \countdef) to be the % next count register from the vastly larger but somewhat less efficient % extended register pool. We also define \loccount, etc., but these % register definitions are local to the current group. \count 260=277 % globally allocates \count registers 277, 278, ... \count 261=\@cclvi % globally allocates \dimen registers 256, 257, ... \count 262=\@cclvi % globally allocates \skip registers 256, 257, ... \count 263=\@cclvi % globally allocates \muskip registers 256, 257, ... \count 264=\@cclvi % globally allocates \box registers 256, 257, ... \count 265=\@cclvi % globally allocates \toks registers 256, 257, ... \count 266=\@ne % globally allocates \marks classes 1, 2, ... \def \et@xmaxregs {32768} \count 270=\et@xmaxregs % locally allocates \count registers 32767, 32766, ... \count 271=\et@xmaxregs % ditto for \dimen registers \count 272=\et@xmaxregs % ditto for \skip registers \count 273=\et@xmaxregs % ditto for \muskip registers \count 274=\et@xmaxregs % ditto for \box registers \count 275=\et@xmaxregs % ditto for \toks registers \count 276=\et@xmaxregs % ditto for \marks classes % \count registers 256-259 and 267-269 are not (yet) used \outer \def \globcount {\et@xglob 0 \count \countdef} \def \loccount {\et@xloc 0 \count \countdef} \outer \def \globdimen {\et@xglob 1 \dimen \dimendef} \def \locdimen {\et@xloc 1 \dimen \dimendef} \outer \def \globskip {\et@xglob 2 \skip \skipdef} \def \locskip {\et@xloc 2 \skip \skipdef} \outer \def \globmuskip {\et@xglob 3 \muskip \muskipdef} \def \locmuskip {\et@xloc 3 \muskip \muskipdef} \outer \def \globbox {\et@xglob 4 \box \mathchardef} \def \locbox {\et@xloc 4 \box \mathchardef} \outer \def \globtoks {\et@xglob 5 \toks \toksdef} \def \loctoks {\et@xloc 5 \toks \toksdef} \outer \def \globmarks {\et@xglob 6 \marks \mathchardef} \def \locmarks {\et@xloc 6 \marks \mathchardef} \let\newmark=\globmarks %%% 2.0;14 \let\newmarks=\globmarks \def \et@xglob #1#2#3#4% {\et@xchk #1#2% make sure there's still room {\allocationnumber=\count 26#1 \global \advance \count 26#1 by \@ne \global #3#4=\allocationnumber \wlog {\string #4=\string #2\the \allocationnumber}% }% } \def \et@xloc#1#2#3#4% {\et@xchk #1#2% make sure there's still room {\advance \count 27#1 by \m@ne \allocationnumber=\count 27#1 #3#4=\allocationnumber \wlog {\string #4=\string #2\the \allocationnumber \space (local)}% }% } \def \et@xchk #1#2#3% {\ifnum \count 26#1 < \count 27#1 #3% \else \errmessage {No room for a new #2}% \fi } % Next we define \globcountblk, \loccountblk, etc., so that one can % write \globcountblk\foo{17} and \foo will be defined (with \mathchardef) % as the first (the zeroth?) of a block of 17 consecutive registers. % Thus the user is intended to reference elements <\foo+0> to <\foo+n-1>, % where n is the length of the block allocated. \outer \def \globcountblk {\et@xgblk 0 \count} \def \loccountblk {\et@xlblk 0 \count} \outer \def \globdimenblk {\et@xgblk 1 \dimen} \def \locdimenblk {\et@xlblk 1 \dimen} \outer \def \globskipblk {\et@xgblk 2 \skip} \def \locskipblk {\et@xlblk 2 \skip} \outer \def \globmuskipblk {\et@xgblk 3 \muskip} \def \locmuskipblk {\et@xlblk 3 \muskip} \outer \def \globboxblk {\et@xgblk 4 \box} \def \locboxblk {\et@xlblk 4 \box} \outer \def \globtoksblk {\et@xgblk 5 \toks} \def \loctoksblk {\et@xlblk 5 \toks} \outer \def \globmarksblk {\et@xgblk 6 \marks} \def \locmarksblk {\et@xlblk 6 \marks} % And, both to provide a higher-level interface to the block allocation % scheme, and to demonstrate possible applications of the new \...expr % primitives, we also define \globcountvector and \loccountvector (etc) % which allow the user to access elements with embedded arithmetic, as in % \globcountvector \foo {12} % \foo {\count 0 + 3} = \foo {\count 1 * 2} \outer \def \globcountvector {\et@xgvec 0 \count} \def \loccountvector {\et@xlvec 0 \count} \outer \def \globdimenvector {\et@xgvec 1 \dimen} \def \locdimenvector {\et@xlvec 1 \dimen} \outer \def \globskipvector {\et@xgvec 2 \skip} \def \locskipvector {\et@xlvec 2 \skip} \outer \def \globmuskipvector {\et@xgvec 3 \muskip} \def \locmuskipvector {\et@xlvec 3 \muskip} \outer \def \globboxvector {\et@xgvec 4 \box} \def \locboxvector {\et@xlvec 4 \box} \outer \def \globtoksvector {\et@xgvec 5 \toks} \def \loctoksvector {\et@xlvec 5 \toks} \outer \def \globmarksvector {\et@xgvec 6 \marks} \def \locmarksvector {\et@xlvec 6 \marks} \def \et@xgblk #1#2#3#4% {\et@xchkblk #1#2{#4}% make sure there's still room {\allocationnumber=\count 26#1 \global \advance \count 26#1 by #4% \global \mathchardef #3=\allocationnumber \wlog {\string #3=\string #2blk{\number #4} at \the \allocationnumber}% }% } \def \et@xlblk #1#2#3#4% {\et@xchkblk #1#2{#4}% make sure there's still room {\advance \count 27#1 by -#4% \allocationnumber=\count 27#1 \mathchardef #3=\allocationnumber \wlog {\string #3=\string #2blk{\number #4} at \the \allocationnumber \space (local)% }% }% } \begingroup \catcode `\# = 12 \gdef \et@xhash {#} \endgroup \def \et@xgvec #1#2#3#4% {\et@xchkblk #1#2{#4}% make sure there's still room {\allocationnumber=\count 26#1 \global \advance \count 26#1 by #4% \ifx #2\box \def \2{}% \else \ifx #2\marks \def \2{}% \else \def \2{\string #2}% \fi \fi \xdef #3##1{\2 \noexpand \numexpr \the \allocationnumber+##1\relax}% \wlog {\string #3 {\et@xhash 1} = \2 {\the \allocationnumber+\et@xhash 1} (global #2 vector)% }% }% } \def \et@xlvec #1#2#3#4% {\et@xchkblk #1#2{#4}% make sure there's still room {\advance \count 27#1 by -#4% \allocationnumber=\count27#1 \mathchardef #3=\allocationnumber \ifx #2\box \def \2{}% \else \ifx #2\marks \def \2{}% \else \def \2{\string #2}% \fi \fi \edef #3##1{\2 \noexpand \numexpr \the \allocationnumber+##1\relax}% \wlog {\string #3 {\et@xhash 1} = \2 {\the \allocationnumber+\et@xhash 1} (local #2 vector)% }% }% } \def \et@xchkblk #1#2#3#4% {\ifnum #3 < \z@ \errmessage {Negative register block size \number #3}% \else \ifnum \numexpr \count 26#1+#3 > \count 27#1 \errmessage {No room for new #2block of size \number#3}% \else #4% \fi \fi } % In an attempt to reduce the overheads of e-TeX, we recycle all possible % resources, including (as a penultimate step) the recycler itself... % The user can circumvent (or force) this during format creation, % by \letting \ifrecycle=\iffalse (or \iftrue, to force it). % As this file has grown by accretion, it is possible that we are no % longer recycling all the resources we could; this will be investigated. \def \mayber@cycle {\expandafter \ifrecycle} \def \forcer@cycle {\expandafter \iftrue} \ifdefined \ifrecycle \mayber@cycle \else \forcer@cycle \fi % There's a concealed \if... lurking here, which explains the % strange indentation of the code that follows (V1.0-1) \def \r@cycle #1% {\ifdefined #1 \message {\string #1,}\let #1=\und@fined \else \message {\string #1 (not defined),} \fi } {\newlinechar=`\! \message {!Recycling:}} \r@cycle \addlanguage \r@cycle \@nswer \r@cycle \@sk \r@cycle \b@dresponsetrue \r@cycle \b@dresponsefalse \r@cycle \ch@ckforyn \r@cycle \mayber@cycle \r@cycle \et@xabort \r@cycle \et@xbuf \r@cycle \et@xfmtsrc \r@cycle \et@xfilehdr \r@cycle \et@xinf \r@cycle \et@xpatterns % \r@cycle \ifb@dresponse % \r@cycle \ifusef@llback \r@cycle \l@ngdefnfile \r@cycle \n@xt \r@cycle \p@rse \r@cycle \pr@mpt \r@cycle \pr@mptloop \r@cycle \forcer@cycle \r@cycle \usef@llback \r@cycle \usef@llbacktrue \r@cycle \usef@llbackfalse % The following are retained, since they may be needed by user code; with a few % (regrettable) exceptions, all of these are given the \etex or \et@x prefix, % to reduce as far as possible the risk of them clashing with other used-defined % names. % The e-TeX team are willing to change the names of the remaining, at-risk, % control sequences if it is demonstrated that the current names cause problems % or difficulties. \def \r@tain #1% {\ifdefined #1 \message {\string #1,} \else \message {\string #1 (not defined),} \fi } {\newlinechar=`\! \message {!Retaining:}} \r@tain \et@xerr \r@tain \et@xinput \r@tain \et@xlibhdr \r@tain \et@xmsg \r@tain \et@xtoks \r@tain \et@xwarn \r@tain \et@xl@@d \r@tain \et@xl@ad \r@tain \et@xload \r@tain \et@xlang \r@tain \et@xhash \r@tain \eTeX \r@tain \epTeX \r@tain \eupTeX \r@tain \etexhdrchk % \r@tain \endmodule \r@tain \etexstatus \r@tain \module \r@tain \uselanguage \r@cycle \r@tain \r@cycle \r@cycle \fi % And finally re-catcode commercial-at \catcode `\@=12 \dump \endinput