\ifx\DOLINES\relax\endinput\else\let\DOLINES=\relax\fi % \input only once % % dolines.tex: Meta-macros to separate arguments by newlines and by % empty lines. % version: 1.0 release: 15 April 1991 % % copyright (c) 1991 Marcel R. van der Goot % You can use these macros to typeset documents. You may % distribute this file freely, provided that you also distribute % the accompanying documentation. % You may make changes to this file, or extract portions % of it for inclusion in other files, provided that % (1) you change the name of the file; % (2) you give proper credit and include copyright % information where applicable; % (3) explain how an unchanged version can be obtained; and % (4) document the usage of your macros/changes (if usage % of your macros is not worth documenting, they must not % be worth using). % You are not allowed to use the name ``Midnight Macros'' for % any changed files. % The above rules for making changes do not apply where it % is explicitly noted in this file that something can be changed % to conform to your local installation. % % USAGE: % See the file dolines.doc % You need Midnight/loop.tex to use these macros. % % original: csvax.cs.caltech.edu [131.215.131.131] in pub/tex % (use anonymous ftp). Also in various archives. % % Caltech, Pasadena --- Marcel van der Goot % marcel@cs.caltech.edu % Caltech 256--80 % Pasadena, CA 91125 % USA % (818) 356--4603 % % update history: % version 1.0: This one. % release 15 April 1991: This one. % release 8 February 1991: Used \next instead of \do_next, which % occasionally conflicted with use of \next in other macros. %%%%%% CODE: (you don't need to read this to use the macros) \input Midnight/loop % CHANGE this filename to correspond to your installation %%%%%%% Reading from a different file % This is relatively simple, it can be done with a loop. The read function % reads a single line (that is what \read does). A file that is being % \read always ends with an empty line, therefore no test for eof(lines_in) % is needed in the inner loop. % % while (!eof(lines_in)) % { % read(lines_in, _ln); % if (_ln != empty_ln) % { % beforelines(); % do { everyline(_ln); % read(lines_in, _ln); % } while (_ln != empty_ln); % afterlines(); % } % } % {\catcode`\^^M=12 \endlinechar=-1 % 12 = other \catcode`\_=11 % 11 = letter (used to make macros private) \newread\lines_in \globaldefs=1 \def\empty_ln{\par} \def\filedolines#1% {{\openin\lines_in=#1 % \ifeof\lines_in\message{File #1 not found.}\fi \Loop\ifeof\lines_in \Break1 \fi \read\lines_in to\_ln \ifx\_ln\empty_ln \else {\beforelines \Loop\everyline{\_ln}% \read\lines_in to\_ln \ifx\_ln\empty_ln \Break1 \fi \Pool \afterlines }% \fi \Pool \closein\lines_in }} } % restore \catcode`\^^M, \catcode`\_, etc. %%%%%%% Reading from the current file % This is more complicated. The problem is that a line can only be % read at the end of a macro, because otherwise a part of the macro % itself will be read. Therefore, the above solution with \Loop cannot % be used. Instead, this is implemented as a finite state machine. The % FSM has two major states, outer_loop and inner_loop, corresponding to the % program above. In these states, the value of _ln is used to determine % what actions to take, and what the next state is. The next state % is indicated by the control-sequence \do_next. % There are two minor states, get_out and get_in. In each of them % the next line is read into _ln. After get_out, the next state is always % outer_loop; after get_in it is always inner_loop. % Here is a ``picure.'' `(...)' is a state, `...?' denotes the value % of _ln, and other texts are actions. ctrl-M stands for an empty line. % % /---<----\ % (get_out) | % \ ctrl-M? % begindolines V / % \->bgroup -> (get_out) -> (outer_loop) -> enddolines? -> egroup % ^ | ^ \-> (finish) % / | \ % afterlines --/ other? \-- afterlines % ^ V ^ % | beforelines | % ctrl-M? <--\ | /--> enddolines? % \ V / % (inner_loop) % / ^ % other? \ % | (get_in) % V | % \-everyline->/ % {\catcode`\^^M=12 \endlinechar=-1 % 12 = other \catcode`\_=11 % 11 = letter (used to make macros private) \globaldefs=1 \long\def\get_out#1^^M% here a line is read (as #1) {\gdef\_ln{#1}% \outer_loop } \long\def\get_in#1^^M% here a line is read (as #1) {\gdef\_ln{#1}% \inner_loop } \def\outer_loop {\ifx\_ln\enddolines \egroup\let\do_next=\finishdolines \else\ifx\_ln\empty \let\do_next=\get_out \else \beforelines\let\do_next=\inner_loop \fi \fi \do_next } \def\inner_loop {\ifx\_ln\enddolines \afterlines\let\do_next=\outer_loop \else\ifx\_ln\empty \afterlines\let\do_next=\outer_loop \else \everyline\_ln\let\do_next=\get_in \fi \fi \do_next } \def\begindolines {\bgroup \catcode`\^^M=12 % \get_out } } % restore \catcode`\^^M, \catcode`\_, etc. % We define \finishdolines and \enddolines, in case someone forgets: \let\finishdolines=\relax \def\enddolines{\enddolines}