%% %% This is file `hmintitle.mf', %% generated with the docstrip utility. %% %% The original source files were: %% %% humanist.dtx (with options: `mfd') %% %% Author: Peter Wilson (CUA) now at peter.r.wilson@boeing.com %% (or pandgwilson@earthlink.net) %% Copyright 2002, 2003 Peter R. Wilson %% %% This work may be distributed and/or modified under the %% conditions of the LaTeX Project Public License, either %% version 1.3 of this license or (at your option) any %% later version. %% The latest version of the license is in %% http://www.latex-project.org/lppl.txt %% and version 1.3 or later is part of all distributions of %% LaTeX version 2003/06/01 or later. %% %% This work has the LPPL maintenance status "author-maintained". %% %% This work consists of the files listed in the README file. %% def makebox(text rule) = for y=0,half_height,cap_height,body_height,x_height,-desc_depth,-body_depth: rule((l,y)t_,(r,y)t_); endfor % horizontals for x=l,r: rule((x,-body_depth)t_,(x,body_height)t_); endfor % verticals for x=u*(1+floor(1/u)) step u until r-1: rule((x,-body_depth)t_,(x,body_height)t_); endfor % more verticals if charic<>0: rule((r+charic*pt,h.o_),(r+charic*pt,.5h.o_)); fi % italic correction enddef; def proofpcbb(suffix $)(expr xoff, yoff) = if proofing > 0: x$bl = x$ - xoff; y$bl = y$ - yoff; % Bottom Left Hand Corner z$br = (x$bl+side, y$bl); % BRHC z$tr = (x$bl+side, y$bl+side); % TRHC z$tl = (x$bl, y$bl+side); % TLHC z$bc = 1/2[z$bl,z$br]; z$tc = 1/2[z$tl,z$tr]; % horizontal mid points pair hc, vc; hc = (2u,0); vc = (0,2u); pickup pensquare scaled 2; for s = z$bl, z$br, z$tr, z$tl, z$bc, z$tc: draw s-hc--s+hc; draw s-vc--s+vc; endfor fi enddef; def humanist_font_setup= % contains special stuff for humanist fonts define_pixels(side,half_height,carol_height,comma_width); define_pixels(u,dot_size,letter_size,cap_height,width_adj,serif_fit, cap_serif_fit,jut,clubjut,cap_jut,trijut); define_pixels(fig_width); define_whole_pixels(letter_fit,sb); define_whole_vertical_pixels(body_height,asc_height,cap_height,x_height, desc_depth,body_depth,fig_height); define_corrected_pixels(o); define_blacker_pixels(thick,thin); let adjust_fit = normal_adjust_fit; pickup pencircle scaled thin; stylus:=savepen; pickup pencircle scaled (1.5thin); thickstylus:=savepen; pickup pencircle xscaled thick yscaled thin rotated pangle; quill:=savepen; pickup pencircle xscaled 3/4thick yscaled thin rotated pangle; threequarterquill := savepen; pickup pencircle xscaled 1/2thick yscaled thin rotated pangle; halfquill := savepen; pickup pencircle xscaled 1/4thick yscaled thin rotated pangle; quarterquill := savepen; numeric pcshiftx#; % x value of LHS of box wrt origin of char box define_pixels(pcshiftx); numeric sqxside#; % x size of the square numeric sqyside#; % y size of the square define_pixels(sqxside,sqyside); enddef; % end of humanist_font_setup boolean ductus; ductus:=false; numeric qhor, qvert; qhor:=cosd(pangle); qvert:=sind(pangle); pair pdir; pdir=dir(pangle); pair ppdir; ppdir=dir(pangle+90); def draw_serif(suffix $, $$)(expr fr)= numeric beta, ajut, bjut; beta=1-fr; ajut=fr*jut; bjut=beta*jut; pair vec[]; vec1=unitvector(z$$-z$); vec2=ajut*vec1; z$a=z$ shifted vec2; z$b=z$a rotatedaround (z$,-90); boolean top_serif; if y$>y$$: top_serif := true; z$c=z$b shifted (-bjut*pdir); else: top_serif:=false; z$c=z$b shifted (bjut*pdir); fi if top_serif: draw z$c--z$b{pdir}..{z$$-z$}z$a; % the serif else: draw z$c--z$b{-pdir}..{z$$-z$}z$a; fi labels($a,$b,$c); enddef; % end of draw_serif def draw_roundserif(suffix $, $$)(expr fr)= draw_serif($, $$, fr); undraw z$--z$a; enddef; % end of draw_roundserif def draw_flatserif(suffix $, $$)(expr fr)= numeric beta, ajut, bjut; beta=1-fr; ajut=fr*jut; bjut=beta*jut; pair vec[]; vec1=unitvector(z$$-z$); vec2=ajut*vec1; z$a=z$ shifted vec2; %%% z$b=z$a rotatedaround (z$,-90); boolean top_serif; if y$>y$$: top_serif := true; z$c=z$ shifted (-jut*pdir); else: top_serif:=false; z$c=z$ shifted (jut*pdir); fi z$b = fr[z$,z$c]; draw z$a--z$; if top_serif: draw z$c--z$b{pdir}..{z$$-z$}z$a; % the serif else: draw z$c--z$b{-pdir}..{z$$-z$}z$a; fi labels($a,$b,$c); enddef; % end of draw_flatserif def draw_clubserif(suffix $, $$)(expr fr)= numeric beta, ajut, bjut; %% beta=1-fr; ajut=clubjut; bjut=beta*jut; pair vec[]; vec1=unitvector(z$$-z$); %% vec2=ajut*vec1; %% z$a=z$ shifted vec2; boolean top_serif; if y$>y$$: top_serif := true; z$c=z$ shifted (-clubjut*pdir); else: top_serif:=false; z$c=z$ shifted (clubjut*pdir); fi z$a = fr[z$,z$$]; draw z$c..z$a{vec1}; labels($a,$b,$c); enddef; % end of draw_clubserif def draw_triserif(suffix $)(expr tj)= pen oldpen; oldpen:=currentpen; pickup quill; x$ts1'=lft x$; y$ts1'=bot y$; pickup stylus; lft x$ts1=x$ts1'; bot y$ts1=y$ts1'; x$ts2=x$ts1-tj; z$ts2=whatever[z$,z$ts1]; x$ts3=x$ts1; y$ts3=y$ts2-tj; pickup stylus; %% filldraw z$ts1--z$ts2--z$ts3--cycle; filldraw z$--z$ts2--z$ts3--cycle; pickup oldpen; labels($ts1,$ts2,$ts3); enddef; % end of draw_triserif def draw_istem(suffix $, $$)(expr fr)= draw_serif($, $$, fr); % top serif draw_serif($$, $, fr); % bottom serif draw z$a--z$$a; % the stem enddef; % end of draw_istem def draw_tstem(suffix $, $$)(expr fr)= %% draw_serif($$, $, fr); % the serif %% draw z$--z$$a; % the stem draw z$--z$$; enddef; % end of draw_tstem def draw_tlserif(suffix $, $$)(expr fr)= draw_serif($, $$, fr); % the serif draw z$a--z$$; % the stem enddef; % end of draw_tlserif def draw_flick(suffix $)(expr rise, fall, fjut)= rt x$b = x1+fjut; top y$b=y$-fall; x$a=0.5[x$,x$b]; top y$a=y$+rise; draw z$..z$a..z$b; labels($a,$b); enddef; % end of draw_flick def draw_wave(suffix $,$$)(expr f)= x$wl=x$; y$wl=y$-f; x$wr=x$$; y$wr=y$$+f; z$wc=0.5[z$wl,z$wr]; draw z$wl{pdir}..z$wc{right}..{pdir}z$wr; labels($wl,$wc,$wr); enddef; % end of draw_wave def draw_tail(suffix $)(expr fj)= pen oldpen; oldpen:=currentpen; pickup quill; x$tl' = lft x$; y$tl=bot y$; pickup stylus; lft x$tl=x$tl'; x$tb=x$tl-fj; bot y$tb=y$tl-1/2desc_depth; filldraw z${down}..{-pdir}z$tb & z$tb{pdir}..{up}z$tl--cycle; pickup oldpen; labels($tb,$tl); enddef; % end of draw_tail def draw_triangle(suffix $)(expr sz)= pen oldpen; oldpen:=currentpen; pickup stylus; x$t1=x$-sz/2; x$t3=x$+sz/2; y$t1=y$t3=y$; x$t2=x$; y$t2=y$-0.9sz; % approx sqrt(3)/2 filldraw z$t1--z$t2--z$t3--cycle; pickup oldpen; labels($t1,$t2,$t3); enddef; % end of draw_triangle def draw_utriangle(suffix $)(expr sz)= pen oldpen; oldpen:=currentpen; pickup stylus; x$t1=x$-sz/2; x$t3=x$+sz/2; y$t1=y$t3=y$; x$t2=x$; y$t2=y$+0.9sz; % approx sqrt(3)/2 filldraw z$t1--z$t2--z$t3--cycle; pickup oldpen; labels($t1,$t2,$t3); enddef; % end of draw_utriangle def draw_rtriangle(suffix $)(expr sz)= pen oldpen; oldpen:=currentpen; pickup stylus; x$t1=x$-sz; rt x$t3=x$; y$t1=y$t3=y$; x$t2=x$t3; y$t2=y$-sz; filldraw z$t1--z$t2--z$t3--cycle; pickup oldpen; labels($t1,$t2,$t3); enddef; % end of draw_rtriangle def draw_rutriangle(suffix $)(expr sz)= pen oldpen; oldpen:=currentpen; pickup stylus; x$t1=x$-sz; rt x$t3=x$; y$t1=y$t3=y$; x$t2=x$t3; y$t2=y$+sz; filldraw z$t1--z$t2--z$t3--cycle; pickup oldpen; labels($t1,$t2,$t3); enddef; % end of draw_rutriangle def draw_fork(suffix $, $$)(expr sz)= pen oldpen; oldpen:=currentpen; pickup quill; x$f1'=lft x$; y$f1'=bot y$; x$f3'=rt x$; y$f3'=top y$; pickup stylus; lft x$f1=x$f1'; bot y$f1=y$f1'; rt x$f3=x$f3'; y$f3-y$=2*(y$-y$f1); rt x$f2=x$$-sz; bot y$f2=y$$; rt x$f4= rt x$f5=x$$; bot y$f5=y$$-sz; top y$f4=y$$+1/2sz; filldraw z$f1--z$f2--z$f3--cycle; % the line draw z$f2{right}..z$f4; % upper fork draw z$f2{right}..z$f5; % lower fork pickup oldpen; labels($f1,$f2,$f3,$f4,$f5); enddef; % end of draw_fork def draw_urswish(suffix $, $$)= pen oldpen; oldpen:=currentpen; pickup quill; rt x$$s1=x$$-thick; top y$$s1=y$$; rt x$$s2=x$$; %% x$$s3=x$$-thick; lft x$$s3=x$$s1; bot y$$s3=y$$-thick; y$$s2=0.5[y$$s1,y$$s3]; %% draw z$---z$$s1{right}..z$$s2{down}..{-pdir}z$$s3; draw z$..z$$s1{pdir}..z$$s2{down}; labels($$s1,$$s2,$$s3); enddef; % end of draw_urswish def bowl_stem(suffix $, $$)= x$'=0.5[x$,x$$]; y$'=y$; % the mid-point z$''=z$' shifted (thick*pdir); x$i=x$$; z$i=whatever[z$',z$'']; labels($',$i); enddef; % end of bowl_stem def draw_clubbase(suffix $, $$)(expr st, lft, rt)= z$$l = z$$ shifted (lft*thick*(-pdir)); z$$r = z$$ shifted (rt*thick*(pdir)); z$$t = st[z$$,z$]; draw z$$t{z$$-z$}..z$$l--z$$r..{z$-z$$}z$$t; labels($$t,$$l,$$r); enddef; % end of draw_clubbase def draw_pdot(suffix $)(expr sz)= z$s = z$ shifted (0.5sz*left); z$t = z$ shifted (0.5sz*up); z$u = z$s shifted (sz*right); z$v = z$t shifted (sz*down); pickup stylus; filldraw z$s--z$t--z$u--z$v--cycle; labels($s,$t,$u,$v); enddef; % end of draw_pdot def draw_pcomma(suffix $)(expr sz, ar)= z$s = z$ shifted (0.5sz*left); z$t = z$s shifted (sz*right); x$v=x$s-ar; y$v=y$s-2ar; z$u = z$v shifted (sz*right); z$sv = (x$s, 1/3[y$s,y$v]); z$tu = (x$t, y$sv); z$uv = 1/3[z$u,z$v]; z$vu = 1/3[z$v,z$u]; pickup stylus; %% filldraw z$s--z$t--z$u--z$v--cycle; filldraw z$s--z$t--z$tu{down}..{left}z$uv--z$vu{right}..{up}z$sv--cycle; labels($s,$t,$u,$v); enddef; % end of draw_pcomma def draw_plq(suffix $)(expr sz, ar)= z$s = z$ shifted (0.5sz*left); z$t = z$s shifted (sz*right); x$v=x$s+ar; y$v=y$s-2ar; z$u = z$v shifted (sz*right); z$sv = (x$s, 1/3[y$s,y$v]); z$tu = (x$t, y$sv); z$uv = 1/3[z$u,z$v]; z$vu = 1/3[z$v,z$u]; pickup stylus; %% filldraw z$s--z$t--z$u--z$v--cycle; filldraw z$s--z$t--z$tu{down}..{right}z$uv--z$vu{left}..{up}z$sv--cycle; labels($s,$t,$u,$v); enddef; % end of draw_plq path obouter, obinner, obfirst, obsecond; def offsetbowl(suffix $)(expr sx, sy, fx, fy)= numeric inx, iny, cx, cy; pair pt[]; path pth[]; inx := 1/2thick*cosd(pangle); iny := 1/2thick*sind(pangle); cx := x$+fx*sx; cy := y$+fy*sy; z$obc = (cx,cy); if pangle = 90: z$wt=(x$+1/2thin, cy); z$et=(x$+sx-1/2thin, cy); else: z$wt=(x$+inx, cy); z$et=(x$+sx-inx, cy); penpos$wt(thick,pangle); penpos$et(thick,pangle); fi if pangle = 0: z$nh=(cx, y$+sy-1/2thin); z$sh=(cx, y$+1/2thin); else: z$nh=(cx, y$+sy-iny); z$sh=(cx, y$+iny); penpos$nh(thick,pangle); penpos$sh(thick,pangle); fi obfirst := z$nh{right}..z$et{down}..z$sh{left}..z$wt{up}..cycle; if pangle = 90: z$minl = z$wt; z$maxr = z$nh; z$minr = z$et; z$maxl = z$sh; else: if pangle = 0: z$minl = z$nh; z$maxr = z$et; z$minr = z$sh; z$maxl = z$wt; else: z$minl = directionpoint dir(pangle) of obfirst; z$minr = directionpoint -dir(pangle) of obfirst; pt1 := z$minr - z$minl; % direction pt2 := (- ypart pt1, xpart pt1); % perpendicular pt3 := 1/2[z$minl, z$minr]; pt4 := pt3 shifted pt2; pt5 := pt3 shifted -pt2; pth1 := pt3--pt4; pth2 := pt3--pt5; z$maxr = pth1 intersectionpoint obfirst; z$maxl = pth2 intersectionpoint obfirst; \fi \fi penpos$minl(thin,pangle+90); penpos$maxr(thick,pangle); penpos$minr(thin,pangle+90); penpos$maxl(thick,pangle); obsecond := z$minl..z$maxr..z$minr..z$maxl..cycle; z$minlo = z$minl.r; z$maxro = z$maxr.r; z$minro = z$minr.l; z$maxlo = z$maxl.l; obouter := z$minlo{dir(pangle)}...z$maxro...z$minro{-dir(pangle)}...z$maxlo...cycle; z$minli = z$minl.l; z$maxri = z$maxr.l; z$minri = z$minr.r; z$maxli = z$maxl.r; obinner := z$minli...z$maxri...z$minri...z$maxli...cycle; labels($obc, $nh, $et, $sh, $wt); labels($minl, $maxr, $minr, $maxl); labels($minlo, $maxro, $minro, $maxlo); labels($minli, $maxri, $minri, $maxli); enddef; def obowl(suffix $)(expr sx, sy)= offsetbowl($, sx, sy, 1/2, 1/2); enddef; primarydef v scalarprod w = (xpart v * ypart w - ypart v * xpart w) enddef; def tangentpoint(suffix $)(expr pth)= pair vecll, veclr, veclm; % "tangent" line directions numeric pl, pr, pm; % path parameter values pair vecpl, vecpr, vecpm; % path directions pair ptl, ptr, ptm; % path points numeric sl, sr, sm; % scalar products of path/line directions numeric stpsize; % size of current binary step numeric tantol; % tolerance boolean wtest; % a boolean tantol := eps; pl:=0; pr:=length pth; pm:=0.5(pl+pr); stpsize:=pr-pl; ptl := point pl of pth; ptm := point pm of pth; ptr := point pr of pth; vecll := unitvector (z$-ptl); veclm := unitvector (z$-ptm); veclr := unitvector (z$-ptr); vecpl := unitvector (direction pl of pth); vecpm := unitvector (direction pm of pth); vecpr := unitvector (direction pr of pth); sl := vecll scalarprod vecpl; sm := veclm scalarprod vecpm; sr := veclr scalarprod vecpr; wtest := (stpsize < tantol) or (sl*sr > 0) or (abs sl < tantol) or (abs sm < tantol) or (abs sr < tantol); if wtest: if (stpsize < tantol): z$tan=(0,0); errmessage("No tangent; path too short"); else: if (sl*sr > 0): z$tan=(0,0); errmessage("No tangent; end products have the same sign"); else: if (abs sl < tantol): z$tan=ptl; else: if (abs sm < tantol): z$tan=ptm; else: z$tan=ptr; fi fi fi fi else: forever: if (sl*sm < 0): % opposite signs, look between pl & pm pr:=pm; pm:=0.5(pr+pl); vecpr := vecpm; veclr := veclm; sr:=sm; else: pl:=pm; pm:=0.5(pr+pl); vecpl:=vecpm; vecll:=veclm; sl:=sm; fi stpsize:=pr-pl; ptm := point pm of pth; veclm := unitvector (z$-ptm); vecpm := unitvector (direction pm of pth); sm := veclm scalarprod vecpm; wtest := (stpsize < tantol) or (abs sm < tantol); if wtest: if (abs sm < tantol): z$tan = ptm; else: z$tan = ptm; %%%%%% errmessage("Warning: tangent approximated"); fi fi exitif wtest; endfor fi enddef; font_coding_scheme:="ASCII minuscules and punctuation"; mode_setup; humanist_font_setup; input hminl; % lower case input hminu; % capitals input hminpunct; % punctuation input hminlig; % the several dashes input hmindig; % arabic digits font_slant slant; font_x_height x_height#; if monospace: font_normal_space vstretch*9u#; % no stretching or shrinking font_quad vstretch*18u#; font_extra_space vstretch*9u#; else: font_normal_space vstretch*6u#+2letter_fit#; font_normal_stretch vstretch*3u#; font_normal_shrink vstretch*2u#; font_quad vstretch*18u#+4letter_fit#; font_extra_space vstretch*2u#; fi bye. k#:=-.5u#; kk#:=-1.5u#; kkk#:=-2u#; % three degrees of kerning kks#:=-4u#; kkx#:=-1.5u#; kkj#:=-2u#; kkr#:=-5u#; kkrs#:=-2u#; kkrl#:=-8u#; ligtable "s": "a" kern kks#, "A" kern kks#, "c" kern kks#, "C" kern kks#, "d" kern kks#, "D" kern kks#, "e" kern kks#, "E" kern kks#, "f" kern kks#, "F" kern kks#, "g" kern kks#, "G" kern kks#, "i" kern kks#, "I" kern kks#, "j" kern kks#, "J" kern kks#, "k" kern kks#, "K" kern kks#, "m" kern kks#, "M" kern kks#, "n" kern kks#, "N" kern kks#, "o" kern kks#, "O" kern kks#, "p" kern kks#, "P" kern kks#, "q" kern kks#, "Q" kern kks#, "r" kern kks#, "R" kern kks#, "t" kern kks#, "T" kern kks#, "u" kern kks#, "U" kern kks#, "v" kern kks#, "V" kern kks#, "w" kern kks#, "W" kern kks#, "x" kern kks#, "X" kern kks#, "y" kern kks#, "Y" kern kks#, "z" kern kks#, "Z" kern kks#; ligtable "S": "a" kern kks#, "A" kern kks#, "c" kern kks#, "C" kern kks#, "d" kern kks#, "D" kern kks#, "e" kern kks#, "E" kern kks#, "f" kern kks#, "F" kern kks#, "g" kern kks#, "G" kern kks#, "i" kern kks#, "I" kern kks#, "j" kern kks#, "J" kern kks#, "k" kern kks#, "K" kern kks#, "m" kern kks#, "M" kern kks#, "n" kern kks#, "N" kern kks#, "o" kern kks#, "O" kern kks#, "p" kern kks#, "P" kern kks#, "q" kern kks#, "Q" kern kks#, "r" kern kks#, "R" kern kks#, "t" kern kks#, "T" kern kks#, "u" kern kks#, "U" kern kks#, "v" kern kks#, "V" kern kks#, "w" kern kks#, "W" kern kks#, "x" kern kks#, "X" kern kks#, "y" kern kks#, "Y" kern kks#, "z" kern kks#, "Z" kern kks#; ligtable "x": "a" kern kkx#, "A" kern kkx#, "b" kern kkx#, "B" kern kkx#, "c" kern kkx#, "C" kern kkx#, "d" kern kkx#, "D" kern kkx#, "e" kern kkx#, "E" kern kkx#, "g" kern kkx#, "G" kern kkx#, "j" kern kkx#, "J" kern kkx#, "l" kern kkx#, "L" kern kkx#, "o" kern kkx#, "O" kern kkx#, "q" kern kkx#, "Q" kern kkx#, "t" kern kkx#, "T" kern kkx#, "u" kern kkx#, "U" kern kkx#, "v" kern kkx#, "V" kern kkx#, "w" kern kkx#, "W" kern kkx#, "y" kern kkx#, "Y" kern kkx#; ligtable "X": "a" kern kkx#, "A" kern kkx#, "b" kern kkx#, "B" kern kkx#, "c" kern kkx#, "C" kern kkx#, "d" kern kkx#, "D" kern kkx#, "e" kern kkx#, "E" kern kkx#, "g" kern kkx#, "G" kern kkx#, "j" kern kkx#, "J" kern kkx#, "l" kern kkx#, "L" kern kkx#, "o" kern kkx#, "O" kern kkx#, "q" kern kkx#, "Q" kern kkx#, "t" kern kkx#, "T" kern kkx#, "u" kern kkx#, "U" kern kkx#, "v" kern kkx#, "V" kern kkx#, "w" kern kkx#, "W" kern kkx#, "y" kern kkx#, "Y" kern kkx#; ligtable "a": "A": "b": "B": "c": "C": "d": "D": "e": "E": "h": "H": "i": "I": "k": "K": "l": "L": "m": "M": "n": "N": "o": "O": "p": "P": "t": "T": "u": "U": "v": "V": "w": "W": "z": "Z": "j" kern kkj#, "J" kern kkj#; ligtable "r": "a" kern kkr#, "A" kern kkr#, "b" kern kkr#, "B" kern kkr#, "c" kern kkr#, "C" kern kkr#, "d" kern kkr#, "D" kern kkr#, "e" kern kkr#, "E" kern kkr#, "f" kern kkrs#, "F" kern kkrs#, "g" kern kkrs#, "G" kern kkrs#, "h" kern kkr#, "H" kern kkr#, "i" kern kkr#, "I" kern kkr#, "j" kern kkj#, "J" kern kkj#, "k" kern kkrs#, "K" kern kkrs#, "l" kern kkr#, "L" kern kkr#, "m" kern kkr#, "M" kern kkr#, "n" kern kkrs#, "N" kern kkrs#, "o" kern kkr#, "O" kern kkr#, "p" kern kkrs#, "P" kern kkrs#, "q" kern kkr#, "Q" kern kkr#, "r" kern kkrs#, "R" kern kkrs#, "s" kern kkr#, "S" kern kkr#, "t" kern kkr#, "T" kern kkr#, "u" kern kkr#, "U" kern kkr#, "v" kern kkr#, "V" kern kkr#, "w" kern kkr#, "W" kern kkr#, "x" kern kkx#, "X" kern kkx#, "y" kern kkr#, "Y" kern kkr#, "z" kern kkr#, "Z" kern kkr#; ligtable "R": "a" kern kkr#, "A" kern kkr#, "b" kern kkr#, "B" kern kkr#, "c" kern kkr#, "C" kern kkr#, "d" kern kkr#, "D" kern kkr#, "e" kern kkr#, "E" kern kkr#, "f" kern kkrs#, "F" kern kkrs#, "g" kern kkrs#, "G" kern kkrs#, "h" kern kkr#, "H" kern kkr#, "i" kern kkr#, "I" kern kkr#, "j" kern kkj#, "J" kern kkj#, "k" kern kkrs#, "K" kern kkrs#, "l" kern kkr#, "L" kern kkr#, "m" kern kkr#, "M" kern kkr#, "n" kern kkrs#, "N" kern kkrs#, "o" kern kkr#, "O" kern kkr#, "p" kern kkrs#, "P" kern kkrs#, "q" kern kkr#, "Q" kern kkr#, "r" kern kkrs#, "R" kern kkrs#, "s" kern kkr#, "S" kern kkr#, "t" kern kkr#, "T" kern kkr#, "u" kern kkr#, "U" kern kkr#, "v" kern kkr#, "V" kern kkr#, "w" kern kkr#, "W" kern kkr#, "x" kern kkx#, "X" kern kkx#, "y" kern kkr#, "Y" kern kkr#, "z" kern kkr#, "Z" kern kkr#; fi bye.