Meeting Pearls 3

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Wrap

Text File | 1992-03-18 | 4KB | 125 lines

% BEZIER DOCUMENT-STYLE OPTION - released 17 December 1985 % for LaTeX version 2.09 % Copyright (C) 1985 by Leslie Lamport % In a picture environment, writing % % \bezier{N}(AX,AY)(BX,BY)(CX,CY) % % plots a quadratic Bezier curve from (AX,AY) to (CX,CY), with (BX,BY) % as the third Bezier point, using N+1 equally spaced points. % % \bezier{N}(AX,AY)(BX,BY)(CX,CY) == % BEGIN % @sc := N % @scp := @sc+1 % \@xb := 2 * (BX - AX) * \unitlength % \@xa := ((CX-AX)*\unitlength - \@xb)/@sc % \@yb := 2 * (BY - AY) * \unitlength % \@ya := ((CY-AY)*\unitlength - \@yb)/@sc % \@pt := square rule of width \@wholewidth % @t := 0 % WHILE @t < @scp % DO \@x := ((@t*\@xa + @xb) / @sc) * t % \@y := ((@t*\@ya + @yb) / @sc) * t % plot pt with relative coords (\@x,\@y) % @t := @t+1 % OD \newcounter{@sc} \newcounter{@scp} \newcounter{@t} \newlength{\@x} \newlength{\@xa} \newlength{\@xb} \newlength{\@y} \newlength{\@ya} \newlength{\@yb} \newsavebox{\@pt} \def\bezier#1(#2,#3)(#4,#5)(#6,#7){\c@@sc#1\relax \c@@scp\c@@sc \advance\c@@scp\@ne \@xb #4\unitlength \advance\@xb -#2\unitlength \multiply\@xb \tw@ \@xa #6\unitlength \advance\@xa -#2\unitlength \advance\@xa -\@xb \divide\@xa\c@@sc \@yb #5\unitlength \advance\@yb -#3\unitlength \multiply\@yb \tw@ \@ya #7\unitlength \advance\@ya -#3\unitlength \advance\@ya -\@yb \divide\@ya\c@@sc \setbox\@pt\hbox{\vrule height\@halfwidth depth\@halfwidth width\@wholewidth}\c@@t\z@ \put(#2,#3){\@whilenum{\c@@t<\c@@scp}\do {\@x\c@@t\@xa \advance\@x\@xb \divide\@x\c@@sc \multiply\@x\c@@t \@y\c@@t\@ya \advance\@y\@yb \divide\@y\c@@sc \multiply\@y\c@@t \raise \@y \hbox to \z@{\hskip \@x\unhcopy\@pt\hss}% \advance\c@@t\@ne}}} % of commands of the type specified below, does the following, % where t, dt, dx, and dy are counters, % % t := 0 % dt := DT % dx := 0 % dy := 0 % WHILE t < MAX % DO plot the point (X + (dx/SCALE)), Y + (dy/SCALE)) % t := t + dt % execute COMMANDS % OD % % COMMANDS may include only the commands \set, \add, \mul, or \div, % defined as follows, where % CTR == counter name, % VAL == either an integer (like 2145 or -7), or % \value{CTR'}, where CTR' a counter name, or % -\value{CTR'} % % \set{CTR}{VAL} % This command performs the operation CTR := VAL % % \add{CTR}{VAL} % Performs the operation CTR := CTR + VAL % % \mul{CTR}{VAL} % Performs the operation CTR := CTR * VAL % % \div{CTR}{VAL} % Performs the operation CTR := CTR / VAL % (this is integer division, with 5/3 = 1 and % -5/3 = 5/(-3) = -1) % % There should be no spaces in COMMANDS. However, the command \ can % be used for readabiilty--e.g., % \set{foo}{dt}\ \mul{foo}{3} % % % HINTS: % \plot'ing takes a long time, so start with DT large, and make it % small only for the final draft. % %\newcounter{t} %\newcounter{dt} %\newcounter{dx} %\newcounter{dy} % %\def\set#1#2{\csname c@#1\endcsname#2} %\def\@div#1#2{\divide\csname c@#1\endcsname#2} %\def\mul#1#2{\multiply\csname c@#1\endcsname#2} %\def\add#1#2{\advance\csname c@#1\endcsname#2} % %\def\plot#1#2#3#4{\let\div\@div \def\ {}\c@t\z@ \c@t\z@ % \c@dt#1\c@dx\z@ \c@dy\z@\edef\@tempa{#4}\@tempdima\unitlength % \divide\@tempdima #3\relax % \setbox\@pt\hbox{\vrule height\@halfwidth depth\@halfwidth % width\@wholewidth}\@whilenum{\c@t<#2}\do % {\raise \c@dy\@tempdima \hbox to \z@{\hskip \c@dx\@tempdima % \unhcopy\@pt\hss % }\advance\c@t\c@dt\@tempa}} % \endinput