input boxes; verbatimtex \documentclass{article} \usepackage{palatino} \usepackage{concmath} \usepackage{ccfonts} \begin{document} etex defaultfont:="cmssu30"; beginfig(1); numeric ymax, xmax, ymed,ylow; ymax = 2in; xmax = 3in; ymed = 1.25in; ylow = 0.2in; z1 = (xmax,0); z2 = (xmax,ymed); z5 = (xmax,ymax); z3 = z2+0.4*(z5-z2); z4 = z2+0.7*(z5-z2); z7 = (0,ymax); z6 = z5+0.7*(z7-z5); z9 = (0,ymed); z8 = z7+0.8*(z9-z7); z10= z9+0.5*(origin-z9); z11= (xmax/12,ymed); z13= (xmax/3,ymed); z14= (5*xmax/12,ymed); z15= (7*xmax/12,0.8*ymed); z16= (7*xmax/12,0.6*ymed); z17= (3*xmax/4,ymed); z18= (5*xmax/6,ymed); path a,b,c,d; a = z6{down}..z14..z15..z17..z4; b = z9--z2; c = z10..{right}z13..z2; d = z8..z11..z16..z18..z3; z12 = c intersectionpoint d; pickup pencircle scaled 2pt; draw origin--z1--z5--z7--cycle; draw a; draw b; draw c; draw d; % dotlabels.urt(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18); label.top(btex $h^-_{I\! I}$ etex,z15); label.bot(btex $h^+_{I\! I}$ etex,z16); label.lrt(btex $h_{I}$ etex,z10); label.urt(btex $h_0$ etex,(x12,ymed)); label.bot(btex $K_3/K_1$ etex,0.5*(z1-origin)); label.lft(btex $h$ etex,0.5*(z7-origin)); pickup pencircle scaled 0pt; draw (x11,0)--(x11,ymax); draw (x12,0)--(x12,ymax); draw (x13,0)--(x13,ymax); draw (x14,0)--(x14,ymax); draw (x17,0)--(x17,ymax); draw (x18,0)--(x18,ymax); label(btex $C_1$ etex,((x7+x11)/2,ylow)); label(btex $C_3$ etex,((x12+x11)/2,ylow)); label(btex $C_2$ etex,((x13+x12)/2,ylow)); label(btex $B$ etex,((x14+x13)/2,ylow)); label(btex $A_1$ etex,((x17+x14)/2,ylow)); label(btex $B$ etex,((x18+x17)/2,ylow)); label(btex $A_2$ etex,((x1+x18)/2,ylow)); endfig; beginfig(2); numeric ymax, xmax, i, j, noise, twist, grid, size, u, actsize; pair actpos, direct, one, two; u = 0.5mm; xmax = 9; ymax = 9; noise = 1u; size = 5u; pickup pencircle scaled u; grid = size + 3*noise; twist = 70/(grid*(xmax++ymax)); label.lft( btex tor\c{c}\~{a}o etex, grid*(-xmax-1,ymax) ); for i=-xmax upto -1: % twist for j=1 upto ymax: actpos:=(grid*i+noise*normaldeviate,grid*j+noise*normaldeviate); direct:=dir(90); actsize:=size*sind(3*(xpart actpos)*twist)/2; % direct:=dir(angle(actpos)+90); % actsize:=size*sind(abs(actpos)*twist)/2; one:=actpos-actsize*direct; two:=actpos+actsize*direct; draw one--two; endfor; endfor; label.rt( btex flex\~{a}o etex, grid*(xmax+1,ymax) ); for i=1 upto xmax: % bend for j=1 upto ymax: actpos:=(grid*i+noise*normaldeviate,grid*j+noise*normaldeviate); direct:=dir(angle(actpos)+90); actsize:=size/2; one:=actpos-actsize*direct; two:=actpos+actsize*direct; draw one--two; endfor; endfor; label.rt( btex sela etex, grid*(xmax+1,-ymax) ); for i=1 upto xmax: % saddle-splay for j=-ymax upto -1: actpos:=(grid*i+noise*normaldeviate,grid*j+noise*normaldeviate); direct:=dir(-angle(actpos)); actsize:=size*sind(abs(actpos)*twist)/2; one:=actpos-actsize*direct; two:=actpos+actsize*direct; draw one--two; endfor; endfor; label.lft( btex afunilamento etex, grid*(-xmax-1,-ymax) ); for i=-xmax upto -1: % splay for j=-ymax upto -1: actpos:=(grid*i+noise*normaldeviate,grid*j+noise*normaldeviate); direct:=unitvector(actpos); % actsize:=size/2; actsize:=size*sind(abs(actpos)*twist)/2; one:=actpos-actsize*direct; two:=actpos+actsize*direct; draw one--two; endfor; endfor; endfig; beginfig(3); numeric vertj; path ab, at, tb; vertj = 1cm; boxit.afun( btex afunilamento etex ); boxit.bend( btex flex\~{a}o etex ); boxit.torc( btex tor\c{c}\~{a}o etex ); afun.se=bend.sw-vertj*up; afun.ne=bend.nw-vertj*up; bend.se=torc.sw+2*vertj*up; bend.ne=torc.nw+2*vertj*up; drawunboxed( afun, bend, torc ); ab = afun.n{up}..{right}bend.w; at = afun.s{down}..{right}torc.w; tb = torc.n{up}..{left}bend.e; pickup pencircle scaled 1pt; drawarrow ab; drawarrow at; drawarrow tb; label.top( btex $\beta$ etex, point 0.5*length ab of ab ); label.bot( btex $\psi$ etex, point 0.5*length at of at ); label.rt( btex $\beta$ etex, point 0.5*length tb of tb ); endfig; verbatimtex \end{document} etex end;