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% oubraces.sty: Interleave \overbrace with \underbrace
% Donald Arseneau, 1993
%
% \overunderbraces{upper_braces}{main_formula}{lower_braces}
%
% Instructions are given below, after \endinput.
%
% First, set catcode of @ in case it isn't a "letter" already
\expandafter\edef\csname REST@catcode\endcsname
{\catcode`\noexpand\@=\the\catcode`\@
\let \csname SREST@catcode\endcsname \noexpand\UnDefinedButNoAt}
\catcode`\@=11
\def\overunderbraces #1#2#3{{%
\baselineskip\z@skip \lineskip4\p@ \lineskiplimit4\p@
\displaystyle % deliberately generate error if not in math mode!
% first, do the top half of the alignment in a save-box ...
\setbox\z@\vbox{\ialign{&\hfil${}##{}$\hfil\cr
\global\let\br\br@label #1\cr % upper labels
\global\let\br\br@down #1\cr % upper braces
#2\cr % main line of the formula
}}% finished partial alignment and \vbox.
\dimen@-\ht\z@ % Measure height of partial alignment --
% ... it is the height we want for the whole.
% Now do the whole alignment (notice the repetition from above)
\setbox\z@\vbox{\ialign{&\hfil${}##{}$\hfil\cr
\global\let\br\br@label #1\cr % upper labels
\global\let\br\br@down #1\cr % upper braces
#2\cr % main line of the formula
\global\let\br\br@up #3\cr % lower braces
\global\let\br\br@label #3\cr % lower labels
}}% finished whole alignment and \vbox.
\advance\dimen@\ht\z@ % calc. the necessary lowering
\lower\dimen@\hbox{\box\z@}% shift to get the desired height
}}
% Three aliases for \br.
% #1=number of spanned columns, #2=label
\def\br@up#1#2{\multispan{#1}\upbracefill}
\def\br@down#1#2{\multispan{#1}\downbracefill}
\def\br@label#1#2{\multispan{#1}\hidewidth $#2$\hidewidth}
\REST@catcode
\endinput
%
%-----------------------------------------------------------------
%
% oubraces.sty: Interleave \overbrace with \underbrace
% Donald Arseneau, 1993
%
% The syntax is:
%
% \overunderbraces{upper_braces}{main_formula}{lower_braces}
%
% Suppose we want the equation:
% x y
% ,-----^-----. ,-----^-----.
% a + b + c + d + e + f + g + h + i + j + k + l + m = \pi r^2
% `-----v-----'
% z
% There are seven segments:
% x y
% ,-----^-----. ,-----^-----.
% a + b + c + d + e + f + g + h + i + j + k + l + m = \pi r^2
% 11111111222222223333344455555666666667777777777...
% `-----v-----'
% z
% Insert & between each segment (where the tips of the braces point)
% to type the main_formula:
% x y
% ,-----^-----. ,-----^-----.
% a + b +&c + d +&e + f&+&g + h&+ i + j&+ k + l + m
% `-----v-----'
% z
% Each brace should be specified by typing
%
% \br{number_of_segments}{label},
%
% separated by & to indicate which segment to start at; and
% where & & skips a segment that has no brace. For our
% example formula, the upper and lower brace specifiers are:
%
% top row: &\br{2}{x}& &\br{2}{y}
% bot row: & &\br{3}{z}
%
% Now put them all together:
%
% \overunderbraces{&\br{2}{x}& &\br{2}{y}}%
% {a + b +&c + d +&e + f&+&g + h&+ i + j&+ k + l + m}%
% {& &\br{3}{z}}
% = \pi r^2
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