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-rw-r--r--Master/texmf-dist/fonts/source/public/apl/cmapl10.mf3174
-rw-r--r--Master/texmf-dist/fonts/tfm/public/apl/cmapl10.tfmbin764 -> 0 bytes
-rw-r--r--Master/texmf-dist/source/fonts/apl/apldef.tex106
-rw-r--r--Master/texmf-dist/source/fonts/apl/aplstyle.tex29
-rw-r--r--Master/texmf-dist/source/fonts/apl/aplverb.tex45
-rw-r--r--Master/texmf-dist/source/fonts/apl/clean.pas226
-rw-r--r--Master/texmf-dist/source/fonts/apl/convert.pas117
-rw-r--r--Master/texmf-dist/source/fonts/apl/fontnotes97
-rw-r--r--Master/texmf-dist/source/fonts/apl/ninesize.tex34
-rw-r--r--Master/texmf-dist/source/fonts/apl/problems.tex316
-rw-r--r--Master/texmf-dist/source/fonts/apl/readme28
-rw-r--r--Master/texmf-dist/source/fonts/apl/readme.txt129
-rw-r--r--Master/texmf-dist/source/fonts/apl/sample.tex124
-rw-r--r--Master/texmf-dist/source/fonts/apl/solutions.tex198
-rw-r--r--Master/texmf-dist/source/fonts/apl/tugboat.tex530
-rw-r--r--Master/texmf-dist/source/fonts/apl/tugboat2.tex534
-rw-r--r--Master/texmf-dist/source/fonts/apl/versatim.tex66
-rw-r--r--Master/texmf-dist/tex/latex/apl/apl.sty37
-rw-r--r--Master/texmf-dist/tex/latex/apl/aplstyle.sty35
-rw-r--r--Master/tlpkg/tlpsrc/apl.tlpsrc0
20 files changed, 0 insertions, 5825 deletions
diff --git a/Master/texmf-dist/fonts/source/public/apl/cmapl10.mf b/Master/texmf-dist/fonts/source/public/apl/cmapl10.mf
deleted file mode 100644
index 64b68cd3416..00000000000
--- a/Master/texmf-dist/fonts/source/public/apl/cmapl10.mf
+++ /dev/null
@@ -1,3174 +0,0 @@
-
-%====================================================================
-% This material is from C M T E X 1 0 . M F
-%====================================================================
-
-% Computer Modern TeX extended ASCII characters for use with 10 point
-if unknown cmbase: input cmbase fi
-
-font_identifier:="CMAPL"; font_size 10pt#;
-
-u#:=21/36pt#; % unit width
-width_adj#:=0pt#; % width adjustment for certain characters
-serif_fit#:=0pt#; % extra sidebar near lowercase serifs
-cap_serif_fit#:=0pt#; % extra sidebar near uppercase serifs
-letter_fit#:=0pt#; % extra space added to all sidebars
-
-body_height#:=250/36pt#; % height of tallest characters
-asc_height#:=220/36pt#; % height of lowercase ascenders
-cap_height#:=220/36pt#; % height of caps
-fig_height#:=220/36pt#; % height of numerals
-x_height#:=155/36pt#; % height of lowercase without ascenders
-math_axis#:=110/36pt#; % axis of symmetry for math symbols
-bar_height#:=79/36pt#; % height of crossbar in lowercase e
-comma_depth#:=50/36pt#; % depth of comma below baseline
-desc_depth#:=80/36pt#; % depth of lowercase descenders
-
-crisp#:=22/36pt#; % diameter of serif corners
-tiny#:=22/36pt#; % diameter of rounded corners
-fine#:=21/36pt#; % diameter of sharply rounded corners
-thin_join#:=21/36pt#; % width of extrafine details
-hair#:=25/36pt#; % lowercase hairline breadth
-stem#:=25/36pt#; % lowercase stem breadth
-curve#:=25/36pt#; % lowercase curve breadth
-ess#:=22/36pt#; % breadth in middle of lowercase s
-flare#:=32/36pt#; % diameter of bulbs or breadth of terminals
-dot_size#:=36/36pt#; % diameter of dots
-cap_hair#:=25/36pt#; % uppercase hairline breadth
-cap_stem#:=25/36pt#; % uppercase stem breadth
-cap_curve#:=25/36pt#; % uppercase curve breadth
-cap_ess#:=25/36pt#; % breadth in middle of uppercase s
-rule_thickness#:=25/36pt#; % thickness of lines in math symbols
-
-dish#:=0pt#; % amount erased at top or bottom of serifs
-bracket#:=0pt#; % vertical distance from serif base to tangent
-jut#:=34/36pt#; % protrusion of lowercase serifs
-cap_jut#:=34/36pt#; % protrusion of uppercase serifs
-beak_jut#:=0pt#; % horizontal protrusion of beak serifs
-beak#:=34/36pt#; % vertical protrusion of beak serifs
-vair#:=22/36pt#; % vertical diameter of hairlines
-notch_cut#:=25/36pt#; % maximum breadth above or below notches
-bar#:=22/36pt#; % lowercase bar thickness
-slab#:=22/36pt#; % serif and arm thickness
-cap_bar#:=22/36pt#; % uppercase bar thickness
-cap_band#:=22/36pt#; % uppercase thickness above/below lobes
-cap_notch_cut#:=25/36pt#; % max breadth above/below uppercase notches
-serif_drop#:=0pt#; % vertical drop of sloped serifs
-stem_corr#:=0pt#; % for small refinements of stem breadth
-vair_corr#:=0pt#; % for small refinements of hairline height
-apex_corr#:=10/36pt#; % extra width at diagonal junctions
-
-o#:=4/36pt#; % amount of overshoot for curves
-apex_o#:=3/36pt#; % amount of overshoot for diagonal junctions
-
-%-------------------------------------------
-% (AH) the tilt ratio has been changed to 0.
-%-------------------------------------------
-
-slant:=0; % tilt ratio $(\Delta x/\Delta y)$
-fudge:=0.81; % factor applied to weights of heavy characters
-math_spread:=-1; % extra openness of math symbols
-superness:=1/sqrt2; % parameter for superellipses
-superpull:=0; % extra openness inside bowls
-beak_darkness:=0; % fraction of triangle inside beak serifs
-ligs:=0; % level of ligatures to be included
-
-square_dots:=false; % should dots be square?
-hefty:=true; % should we try hard not to be overweight?
-serifs:=true; % should serifs and bulbs be attached?
-monospace:=true; % should all characters have the same width?
-variant_g:=false; % should an italic-style g be used?
-low_asterisk:=true; % should the asterisk be centered at the axis?
-math_fitting:=false; % should math-mode spacing be used?
-
-
-
-
-%===============================================================
-% This material is from T E X S E T . M F
-%===============================================================
-
-
-
-% Special version of Computer Modern for \TeX's extended ASCII character set
-
-font_coding_scheme:="TeX extended ASCII";
-
-mode_setup; font_setup; mono_charic#:=0;
-
-
- cmchar "An empty space"; % This character
- beginchar(" ",8u#,0,0); % was entirely
- adjust_fit(0,0); % defined by
- endchar; % O J K .
-
-
-
-% These characters were copied from greekl.mf and
-% with character positions changed and italic corrections added to the width.
-
-
-cmchar "Lowercase Greek alpha for extended ASCII";
-beginchar(oct"004",11u#,x_height#,0);
-italcorr max(1/3x_height#*slant+.5hair#+.5u#,x_height#*slant-.5u#);
-adjust_fit(0,0); pickup fine.nib;
-pos0(hair,0); pos1(vair,-90); pos2(curve,-180); pos3(vair,-270);
-z4=(w-3.25u,9/16h); z5=(w-2.75u,.5[vair,y4]);
-numeric theta; theta=angle(z4-z5)-90;
-pos4(stem,theta); pos5(stem,theta);
-pos6(vair,90); pos7(hair,180);
-rt x0r=hround(w-u); x1=x3=.5w-u; lft x2r=hround(1.5u-.5curve);
-x6=w-u; x7+.5hair=hround(w+.5hair-eps);
-top y0=vround .8[bar_height,h]; bot y1r=bot y6l=-oo;
-y2=.5[y1,y3]; top y3r=h+oo; y7=1/4bar_height;
-filldraw stroke z0e{down}...pulled_arc.e(1,2) & pulled_arc.e(2,3)
- ...z4e---z5e...z6e{right}...{up}z7e; % diagonal, bowl, and hook
-penlabels(0,1,2,3,4,5,6,7); endchar;
-
-
-
-
- % Rejected(OJK) at this stage %
-% cmchar "Lowercase Greek epsilon"; %=============================%
-% beginchar(oct"002",8u#,x_height#,0);
-% italcorr x_height#*slant+.5hair#-2u#;
-% adjust_fit(0,0); pickup fine.nib;
-% pos0(bar,90); pos1(bar,90); pos2(curve,180);
-% pos3(vair,270); pos4(hair,300); pos6(bar,90); pos7(bar,90);
-% x1=.5w+.5u; x0=x1+u; lft x2r=hround(1.5u-.5curve); x3=.5[x0,x1];
-% x4r=good.x(w-u); x5=w+.5u; x6=x0; z7=z2l;
-% top y0r=top y1r=h; y2=y5=y6=bar_height; bot y3r=-oo;
-% path p; p=z3r{right}...{up}z5;
-% numeric t; t=ypart(((x4r,y3r)--(x4r,y5))intersectiontimes p);
-% y4r=ypart point t of p;
-% filldraw circ_stroke z0e..pulled_arc.e(1,2) & pulled_arc.e(2,3)
-% ..z4e{direction t of p}; % arc
-% filldraw circ_stroke z6e--z7e; % bar
-% penlabels(0,1,2,3,4,5,6,7); endchar;
-
-% This letter has been copied from ITALMS.MF as the
-% original iota from GREEKL.MF had only one hook (the
-% iota symbol in APL needs two)
-cmchar "iota";
-beginchar(oct"015",5u#,x_height#,0);
-italcorr 1/3x_height#*slant+.5hair#+.5u#;
-adjust_fit(if monospace:u#,u# else: 0,0 fi); pickup fine.nib;
-x0=0; x5=w; x2=.5w+.25u; x3=.5w-.25u;
-hook_in(0,1,2)(skewed); hook_out(3,4,5)(skewed); % hooks
-filldraw stroke z2e--z3e; % stem
-math_fit(-2/3x_height#*slant+.5hair#+.5u#,ic#);
-penlabels(0,1,2,3,4,5); endchar;
-
-cmchar "Lowercase Greek rho";
-beginchar(oct"014",8.25u#,x_height#,desc_depth#);
-italcorr .7x_height#*slant+.5curve#-u# if math_fitting:-.5u# fi;
-adjust_fit(0,0); pickup fine.nib;
-pos1(stem,180); pos2(stem,180); pos3(vair,90);
-pos4(curve,0); pos5(vair,-90); pos6(hair,-180);
-lft x2r=hround(1.5u-.5stem); x1=x2=x6; x3=x5=.5[x2,x4];
-rt x4r=hround(w-1.5u+.5curve);
-y1-.5stem=-d-o; y2=y4=y6=.5[y3,y5]; top y3r=h+oo; bot y5r=-oo;
-filldraw circ_stroke z1e..pulled_arc.e(2,3) & pulled_arc.e(3,4)
- & pulled_arc.e(4,5) & pulled_arc.e(5,6); % stem and bowl
-penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "Lowercase Greek omega";
-beginchar(oct"005",11u#,x_height#,0);
-italcorr x_height#*slant;
-adjust_fit(0,0); pickup fine.nib;
-pos2(hair,-180); lft x2r=hround.5u; y2=y4=y6=y8=bar_height;
-y1+.5hair=h; x1=x2+.75u; pos1(hair,angle(2(x1-x2),y1-y2)+90);
-pos3(vstem+dw,-90); pos4(hair,0); pos5(vair,90);
-pos6(hair,180); pos7(vstem+dw,270); pos8(hair,360);
-bot y3r=bot y7r=-oo; top y5r=vround(.2[y4,h]+.5vair);
-x3=.5[x2,x4]; x7+.25u=.5[x6,x8]; rt x8r=hround(w-.5u);
-x5+.5stem=hround(.5w+.5stem)+eps;
-x5=.5[x4,x6]; rt x4r-lft x6r=min(stem,2hair)+2eps;
-if x4l<x6l: x4l:=x6l:=x5; fi
-filldraw circ_stroke z1e{2(x2-x1),y2-y1}...z2e{down}...z3e{right}
- ...{up}z4e...{left}z5e; % left arc
-filldraw stroke z5e{left}...z6e{down}...z7e{right}...{up}z8e; % right arc
-v_bulb(8,9); % closing bulb
-penlabels(0,1,2,3,4,5,6,7,8,9);
-endchar;
-
-%=================================================================
-% (the end of Greek characters for APL)
-%=================================================================
-
-
-currenttransform:=identity yscaled aspect_ratio scaled granularity;
-
-
-
-%==================================================================
-% from R O M A N D . M F
-%==================================================================
-
-% Computer Modern Roman digits:
-% Character codes \0060 through \0071 are generated.
-
-% All digits have the same height, width, depth, and italic correction.
-
-cmchar "The numeral 0";
-beginchar("0",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-penpos1(vair,90); penpos3(vair,-90); penpos2(curve,180); penpos4(curve,0);
-if not monospace: interim superness:=sqrt(more_super*hein_super); fi
-x2r=hround max(.7u,1.45u-.5curve); x4r=w-x2r; x1=x3=.5w;
-y1r=h+o; y3r=-o; y2=y4=.5h-vair_corr; y2l:=y4l:=.52h;
-penstroke pulled_arc.e(1,2) & pulled_arc.e(2,3)
- & pulled_arc.e(3,4) & pulled_arc.e(4,1) & cycle; % bowl
-penlabels(1,2,3,4); endchar;
-
-cmchar "The numeral 1";
-beginchar("1",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric light_stem; light_stem=hround .4[stem',cap_stem'];
-pickup tiny.nib;
-pos1(light_stem,0); pos2(light_stem,0);
-lft x1l=lft x2l=hround(.5(w+.5u)-.5cap_stem'); top y1=h+o; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-if not serifs: save slab; slab=bar; fi
-dish_serif(2,1,a,1/3,min(2.25u,lft x2l-1.5u),
- b,1/3,min(2.25u,w-1.25u-rt x2r)); % serif
-pickup crisp.nib; pos3(slab,-90); pos4(bar,-90);
-top y3l=h+o; top y4l=if monospace: .8 else: .9 fi\\ h+o;
-lft x4=max(1.25u,tiny.lft x1l-2.35u);
-tiny.rt x1r=lft x3+.25[tiny,hair];
-erase fill z3l{x4l-x3l,3(y4l-y3l)}...z4l{left}
- --(x4l,h+o+1)--(x3l,h+o+1)--cycle; % erase excess at top
-filldraw stroke z3e{x4e-x3e,3(y4e-y3e)}..z4e{left}; % point
-penlabels(1,2,3,4); endchar;
-
-cmchar "The numeral 2";
-beginchar("2",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric arm_thickness, hair_vair; hair_vair=.25[vair,hair];
-arm_thickness=Vround(if hefty:slab+2stem_corr else:.4[stem,cap_stem] fi);
-pickup crisp.nib; pos7(arm_thickness,-90); pos8(hair,0);
-bot y7r=0; lft x7=hround .9u; rt x8r=hround(w-.9u); y8=good.y(y7l+beak/2)+eps;
-arm(7,8,a,.3beak_darkness,beak_jut); % arm and beak
-pickup fine.nib; pos2(slab,90); pos3(.4[curve,cap_curve],0);
-top y2r=h+o; x2=.5(w-.5u); rt x3r=hround(w-.9u); y3+.5vair=.75h;
-if serifs: numeric bulb_diam; bulb_diam=hround(flare+2/3(cap_stem-stem));
- pos0(bulb_diam,180); pos1(cap_hair,180);
- lft x1r=hround .9u; y1-.5bulb_diam=2/3h;
- (x,y2l)=whatever[z1l,z2r]; x2l:=x; bulb(2,1,0); % bulb and arc
-else: x2l:=x2l-.25u; pos1(flare,angle(-9u,h));
- lft x1r=hround .75u; bot y1l=vround .7h; y1r:=good.y y1r+eps; x1l:=good.x x1l;
- filldraw stroke term.e(2,1,left,.9,4); fi % terminal and arc
-pos4(.25[hair_vair,cap_stem],0);
-pos5(hair_vair,0); pos6(hair_vair,0);
-y5=arm_thickness; y4=.3[y5,y3]; top y6=min(y5,slab,top y7l);
-lft x6l=crisp.lft x7; z4l=whatever[z6l,(x3l,bot .58h)]; z5l=whatever[z6l,z4l];
-erase fill z4l--z6l--lft z6l--(lft x6l,y4l)--cycle; % erase excess at left
-filldraw stroke z2e{right}..tension atleast .9 and atleast 1
- ..z3e{down}.. z4e---z5e--z6e; % stroke
-penlabels(0,1,2,3,4,5,6,7,8); endchar;
-
-cmchar "The numeral 3";
-beginchar("3",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric top_thickness,mid_thickness,bot_thickness;
-top_thickness=max(fine.breadth,vround(slab-2vair_corr));
-mid_thickness=max(fine.breadth,vround 2/3vair);
-bot_thickness=max(fine.breadth,vround(slab-vair_corr));
-pickup fine.nib; pos2(top_thickness,90); top y2r=h+o;
-pos3(max(fine.breadth,.6[curve,cap_curve]-stem_corr),0);
-rt x3r=hround(w-1.25u);
-pos4(vair,-90); pos5(vair,-90);
-pos6(mid_thickness,90); x2=x6=x8=.5[1.5u,x7];
-pos7(cap_curve,0); rt x7r=hround(w-.75u); lft x5=min(hround 3u,lft x6)-eps;
-pos8(bot_thickness,-90); bot y8r=-o;
-y3=.6[top y4l,bot y2l]; y7=.5[bot y6l,top y8l];
-top y5l=vround(.54h+.5vair); y5r=y6l;
-x4=1/3[x5,x3l]; z4=z5+whatever*(150u,h);
-filldraw stroke pulled_super_arc.e(2,3)(.5superpull)
- & z3e{down}...z4e---z5e; % upper bowl
-filldraw z5r--z6l--z6r--z5l---cycle; % middle tip
-filldraw stroke pulled_super_arc.e(6,7)(.5superpull)
- & pulled_super_arc.e(7,8)(.5superpull); % lower bowl
-if serifs: numeric bulb_diam[];
- bulb_diam1=flare+.5(cap_stem-stem); bulb_diam2=flare+cap_stem-stem;
- pos0(bulb_diam1,180); pos1(hair,180);
- lft x0r=hround 1.25u; y0=min(.9h-.5bulb_diam1,.75h+.5bulb_diam1);
- bulb(2,1,0); % upper bulb
- pos10(bulb_diam2,-180); pos9(cap_hair,-180);
- lft x10r=hround .75u; y10=max(.1h+.5bulb_diam2,.3h-.5bulb_diam2);
- bulb(8,9,10); % lower bulb
-else: pos1(.5[vair,flare],angle(-8u,h));
- lft x1r=hround u; bot y1l=vround .75h+o;
- y1r:=good.y y1r+eps; x1l:=good.x x1l;
- pos9(bot_thickness,angle(-2u,-h));
- lft x9r=hround .75u; top y9l=vround .25h-o;
- y9r:=good.y y9r-eps; x9l:=good.x x9l;
- filldraw stroke term.e(2,1,left,1,4); % upper terminal
- filldraw stroke term.e(8,9,left,1,4); fi % lower terminal
-penlabels(0,1,2,3,4,5,6,7,8,9,10); endchar;
-
-cmchar "The numeral 4";
-beginchar("4",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric light_stem, light_stem', diag_stem, alpha, cut; cut=.75notch_cut;
-light_stem=hround .4[fudged.stem,fudged.cap_stem];
-light_stem'=hround max(tiny.breadth,light_stem-2stem_corr);
-diag_stem=max(tiny.breadth,.4[vair,fudged.hair]);
-pickup crisp.nib; pos5(cap_bar,90); pos6(cap_bar,90);
-lft x5=hround .5u; rt x6=hround(w-.5u);
-top y5r=vround(if serifs: 5/18[slab,h-light_stem]+1
- else:.35(h-light_stem) fi+.5cap_bar);
-z4l=top lft z5r; y2=y2'=y5=y6; x1r=x2r=hround(w-3u+.5light_stem);
-penpos1(light_stem',0); penpos2(light_stem',0); y1=y3=h+apex_o+apex_oo;
-x3r+apex_corr=x1r; alpha=diag_ratio(1,diag_stem,y3-y4l,x3r-x4l);
-penpos3(alpha*diag_stem,0); penpos4(alpha*diag_stem,0);
-x0=x1l; z0=whatever[z3r,z4r];
-x5'=x5; z5''=z5'+penoffset z4-z3 of currentpen=whatever[z4l,z3l];
-fill diag_end(2r,1r,1,.5,3l,4l)---z5''...lft z5'
- ---lft z5l -- (x4r,y5l) -- z4r
- if y0<h-cut:{z3r-z4r}...{up}(x1l-1,h-cut)
- --(x1l,h-cut) else: -- z0 fi
- --z2l--z2r--cycle; % diagonal and upper stem
-filldraw stroke z5e--z6e; % bar
-pickup tiny.nib; pos7(light_stem,0); rt x7r=x1r; bot y7=0;
-pos2'(light_stem,0); x2'=x7;
-filldraw stroke z2'e--z7e; % lower stem
-if serifs: dish_serif(7,2',a,1/3,1.75u,
- b,1/3,min(1.75u,w-.5u-rt x7r)); fi % serif
-penlabels(0,1,2,3,4,5,6,7); endchar;
-
-cmchar "The numeral 5";
-beginchar("5",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric bot_thickness,light_hair;
-bot_thickness=max(fine.breadth,vround(slab-vair_corr));
-light_hair=hround(cap_hair if hefty: -\\2stem_corr fi);
-pickup tiny.nib; pos5(vair,180); pos6(vair,90);
-bot y5=vround(.53h-vair); top y6r=max(vround .61803h+o,top y6r+y5+eps-y6l);
-pos3(light_hair,0); pos4(light_hair,0);
-lft x3l=max(1.35u,2.1u-.5light_hair); x3=x4=x5; y4=y5;
-top y3=h if not hefty: +\\o fi;
-filldraw stroke z3e--z4e; % thin stem
-penpos7(cap_stem-fine,0); penpos8(bot_thickness-fine,-90);
-fine.rt x7r=hround(w-.9u); x8=.5[u,x7]; x6=.5[x5,x7];
-erase fill z5--bot z5--(x6,bot y5)--z6{left}
- ..tension .9 and 1..{x5-x6,3(y5-y6)}cycle; % erase excess in middle
-filldraw stroke z6e{left}..tension .9 and 1..{x5-x6,3(y5-y6)}z5e; % link
-pickup fine.nib; pos6'(vair,90); z6'=z6;
-y7=.5[y6,y8]; bot y8r=-o;
-filldraw stroke pulled_arc.e(6',7) & pulled_arc.e(7,8); % bowl
-if serifs: pos9(hair,-180); y9=.5y5; lft x9r=hround .9u;
- pos10(flare+1/3(cap_stem-stem),-180); bulb(8,9,10); % bulb
-else: pos9(3/7[bot_thickness,flare],angle(-7u,-h));
- lft x9r=hround(tiny.lft x3l-.75u); bot y9r=vround .15h-o;
- x9l:=good.x x9l; y9l:=good.y y9l;
- filldraw stroke term.e(8,9,left,1,4); fi % terminal
-if hefty: pickup crisp.nib; pos1(slab,90); pos2(hair,0);
- top y1r=h; x1=x4; rt x2r=hround(w-1.5u); y2=y1l-eps;
- arm(1,2,a,0,0); % arm
-else: numeric flag_breadth; flag_breadth=7/8[vair,cap_curve];
- pos1(flag_breadth,90); pos2(flag_breadth,60);
- pos0(vair,90); top y1r=tiny.top y3; top y2r=vround .95h+o; y0r=y1r;
- lft x1=tiny.lft x3l; x2r=.5[x1,x0]; rt x0=hround(w-1.6u);
- erase fill top z1r--z1r...{right}z2r
- --(x2r,top y1r)--cycle; % erase excess at top
- filldraw stroke z1e...{right}z2e...z0e; fi % flag
-penlabels(0,1,2,3,4,5,6,7,8,9,10); endchar;
-
-cmchar "The numeral 6";
-beginchar("6",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric top_thickness,bot_thickness,side_thickness,pull;
-top_thickness=max(fine.breadth,vround(slab-2vair_corr));
-bot_thickness=max(fine.breadth,vround(slab-vair_corr));
-side_thickness=max(fine.breadth,hround 1/3[curve,cap_curve]);
-pull=min(.25,1.5superpull);
-pickup fine.nib; pos2(top_thickness,-270);
-pos3(side_thickness,-180); pos4(bot_thickness,-90);
-pos5(side_thickness,0); pos6(vair,90);
-lft x3r=w-rt x5r=hround max(.75u,1.5u-.5side_thickness);
-x4=x6-.1u=x2-u=.5w;
-top y2r=h+o; y3=.5[y2,y4]; bot y4r=-o;
-y5=.5[y4,y6]; top y6=vround 5/8h+o;
-path p; p=pulled_super_arc.l(3,4)(pull);
-numeric t; t=xpart(p intersectiontimes((x3r,y5)--(x4,y5)));
-pos7(thin_join,180); z7l=point t of p;
-(x,y6r)=whatever[z7l,z6l]; x6r:=min(x,.5[x5r,x6]);
-filldraw stroke pulled_super_arc.e(2,3)(pull)
- & {{interim superness:=more_super; pulled_super_arc.e(3,4)(pull)}}
- & {{less_tense; pulled_super_arc.e(4,5)(pull) & pulled_super_arc.e(5,6)(pull)}}
- & z6e{left}...{direction t of p}z7e; % arc and bowl
-if serifs: pos1(hair,-360); pos0(flare,-360);
- rt x0r=max(rt x2+eps,hround(w-1.2u));
- y0=vround min(.9h-.5flare,.85h+.5flare)+o;
- {{less_tense; bulb(2,1,0)}}; % arc and bulb
-else: pos1(vround .1[top_thickness,flare],90);
- top y1r=vround .97h+o; rt x1=hround(x5-.5);
- filldraw stroke term.e(2,1,right,.9,4); fi % terminal
-penlabels(0,1,2,3,4,5,6,7); endchar;
-
-cmchar "The numeral 7";
-beginchar("7",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric arm_thickness, bot_width, top_shift, top_hair;
-if hefty: arm_thickness=Vround(slab+2stem_corr); top_shift=0;
- bot_width=hround .51[curve,cap_curve]; top_hair=.4[thin_join,bot_width];
-else: arm_thickness=Vround .4[stem,cap_stem]; top_shift=.5u;
- bot_width=flare; top_hair=cap_hair; fi
-if top_hair<tiny.breadth: top_hair:=tiny.breadth; fi
-pickup crisp.nib; pos2(arm_thickness,90); pos1(hair,180);
-top y2r=h; rt x2=hround(w-.75u+top_shift);
-lft x1r=hround(.75u+.5top_shift); y1=good.y(y2l-beak/2)-eps;
-arm(2,1,a,.3beak_darkness,-beak_jut); % arm and beak
-pos3(hair,180); y3=good.y(y2r+beak/6)+eps; z3r=whatever[z1r,z.a0];
-penpos2'(eps,-90); z2'=z2r;
-arm(2',3,b,beak_darkness,x3r-x.a0); % upward extension of beak
-pickup tiny.nib; pos4(top_hair,0); pos6(bot_width,0);
-bot y4=max(h-arm_thickness,h-slab,bot y2l); rt x4r=crisp.rt x2;
-lft x6l=hround(3.5u+top_shift-.5bot_width);
-if serifs: y6-.5bot_width=-o; filldraw z6l{down}..{up}z6r--cycle; % bulb
-else: bot y6=-oo; fi
-if hefty: erase fill rt z4r--z4r...{down}z6r
- --(rt x4r,y6)--cycle; % erase excess at top
- filldraw stroke z4e...{down}z6e; % stroke
-else: pos5(top_hair,0); y5=2/3h; z5=whatever[z4,(.75u,y6)];
- erase fill rt z4r--z4r--z5r--(rt x4r,y5)--cycle; % erase excess at top
- filldraw stroke z4e---z5e...{down}z6e; fi % stroke
-penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The numeral 8";
-beginchar("8",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric top_thickness,mid_thickness,bot_thickness,upper_side,lower_side,theta;
-top_thickness=max(fine.breadth,vround(slab-2vair_corr));
-bot_thickness=max(fine.breadth,vround(slab-vair_corr));
-x0=.5w; y0=.54h;
-if hefty: mid_thickness=vround 2/3vair; upper_side=hround(stem-3stem_corr);
- lower_side=hround min(.5[curve,cap_curve]-stem_corr,upper_side+.25u);
- penpos1(top_thickness,90); penpos2(upper_side,180);
- penpos3(mid_thickness,270); penpos8(upper_side,360);
- penpos4(mid_thickness,90); penpos7(lower_side,180);
- penpos6(bot_thickness,270); penpos5(lower_side,360);
- penpos0(vair,90); z3l=z0r; z4l=z0l;
- x1=x6=.5w; x2r=w-x8r=hround u; x7r=w-x5r=hround .75u;
- top y1r=h+o; bot y6r=-o; y2=y8=.5[y1l,y3l]; y7=y5=.5[y4l,y6l];
- filldraw stroke pulled_arc.e(1,2)
- & pulled_arc.e(2,3); % left half of upper bowl
- filldraw stroke pulled_arc.e(4,5)
- & pulled_arc.e(5,6); % right half of lower bowl
- filldraw stroke pulled_arc.e(6,7)
- & pulled_arc.e(7,4); % left half of lower bowl
- filldraw stroke pulled_arc.e(3,8)
- & pulled_arc.e(8,1); % right half of upper bowl
-else: pickup fine.nib; theta=90-angle(18u,h); slope:=-h/18u;
- upper_side=max(fine.breadth,hround(.5[hair,stem]-stem_corr));
- lower_side=hround(.5[hair,stem]+stem_corr);
- pos1(top_thickness,-90); pos6(bot_thickness,-90);
- x1=x6=.5w; top y1l=h+o; bot y6r=-o; pos0(cap_stem,theta);
- lft x2l=w-rt x8l=hround 1.25u; lft x7r=w-rt x5r=hround .75u;
- x2r-x2l=upper_side-fine; x5r-x5l=lower_side-fine;
- ellipse_set(1l,2l,3l,0l); ellipse_set(1r,2r,3r,0r);
- ellipse_set(6l,5l,4l,0l); ellipse_set(6r,5r,4r,0r);
- numeric tau; tau=max(.8,.20710678/(superness-.5));
- filldraw stroke z1e{left}..tension atleast tau..z2e{down}
- ..z3e---z4e..z5e{down}..tension atleast tau..z6e{left}; % S stroke
- pos7(lower_side,180); pos8(upper_side,180);
- y7=.5[y5l,y5r]; y8=.5[y2l,y2r]; pos9(vair,90); z9=z0;
- filldraw stroke z1e{right}..tension atleast tau..z8e{down}
- ..tension atleast tau and atleast 1..{-18u,-.618h}z9e; % upper right stroke
- filldraw stroke z6e{left}..tension atleast tau..z7e{up}
- ..tension atleast tau and atleast 1..{18u,.5h}z9e; fi % lower left stroke
-penlabels(0,1,2,3,4,5,6,7,8,9); endchar;
-
-cmchar "The numeral 9";
-beginchar("9",9u#,fig_height#,0);
-italcorr fig_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric top_thickness,bot_thickness,side_thickness,pull;
-top_thickness=max(fine.breadth,vround(slab-2vair_corr));
-bot_thickness=max(fine.breadth,vround(slab-vair_corr));
-side_thickness=max(fine.breadth,hround 1/3[curve,cap_curve]);
-pull=min(.25,1.5superpull);
-pickup fine.nib; pos2(bot_thickness,-90);
-pos3(side_thickness,0); pos4(top_thickness,90);
-pos5(side_thickness,180); pos6(vair,270);
-w-rt x3r=lft x5r=hround max(.75u,1.5u-.5side_thickness);
-x4-.1u=x6+.1u=x2+.75u=.5w;
-bot y2r=-o; y3=.5[y2,y4]; top y4r=h+o;
-y5=.5[y4,y6]; bot y6=vround 3/8h-o;
-path p; p=pulled_super_arc.l(3,4)(pull);
-numeric t; t=xpart(p intersectiontimes((x3r,y5)--(x4,y5)));
-pos7(thin_join,360); z7l=point t of p;
-(x,y6r)=whatever[z7l,z6l]; x6r:=max(x,.5[x5r,x6]);
-filldraw stroke pulled_super_arc.e(2,3)(pull)
- & {{interim superness:=more_super; pulled_super_arc.e(3,4)(pull)}}
- & {{less_tense; pulled_super_arc.e(4,5)(pull) & pulled_super_arc.e(5,6)(pull)}}
- & z6e{right}...{direction t of p}z7e; % arc and bowl
-if serifs: pos1(hair,-180); pos0(flare,-180);
- lft x0r=min(lft x2-eps,hround 1.2u);
- y0=vround max(.1h+.5flare,.15h-.5flare)-o;
- {{less_tense; bulb(2,1,0)}}; % arc and bulb
-else: pos1(.1[bot_thickness,flare],-120);
- bot y1r=vround .07h-o; lft x1r=hround 1.3u;
- filldraw stroke term.e(2,1,left,.9,4); fi % terminal
-penlabels(0,1,2,3,4,5,6,7); endchar;
-
- % R O M A N D ends %
-
-%=======================================================================
-% from P U N C T . M F
-%=======================================================================
-
-
-cmchar "Exclamation point";
-beginchar("!",5u#+width_adj#,asc_height#,0);
-italcorr asc_height#*slant-2u#-.5width_adj#+.5dot_size#;
-adjust_fit(0,0);
-pickup tiny.nib; pos3(dot_size,0); pos4(dot_size,90);
-lft x3l=hround(.5w-.5dot_size); bot y4l=0; z3=z4; dot(3,4); % dot
-numeric bot_width;
-bot_width=if hefty:max(hround .8dot_size,fine.breadth) else: hair fi;
-pickup fine.nib; pos1(dot_size,0); pos2(bot_width,0);
-x1=x2=x3; bot y2=.25[top y4r,x_height]+1;
-if square_dots: top y1=h;
- filldraw stroke z1e--z2e; % stem
-else: top z0=(x1,h+o); y1+.5dot_size=h+o;
- filldraw z1r...z0...z1l---z2l--z2r---cycle; fi % stem and bulb
-penlabels(0,1,2,3,4); endchar;
-
-cmchar "Left parenthesis";
-beginchar("(",7u# if monospace: -u# fi,body_height#,paren_depth#);
-italcorr body_height#*slant-.5u#;
-adjust_fit(0,0); pickup fine.nib;
-pos1(vair,0); pos2(.75[hair,stem],0); pos3(vair,0);
-rt x1r=rt x3r=hround(w-u); lft x2l=hround(x1-4u if monospace: +4/3u fi);
-top y1=h; y2=.5[y1,y3]=math_axis;
-filldraw stroke z1e{3(x2e-x1e),y2-y1}...z2e
- ...{3(x3e-x2e),y3-y2}z3e; % arc
-penlabels(1,2,3); endchar;
-
-cmchar "Right parenthesis";
-beginchar(")",7u# if monospace: -u# fi,body_height#,paren_depth#);
-italcorr math_axis#*slant-.5u#;
-adjust_fit(0,0); pickup fine.nib;
-pos1(vair,0); pos2(.75[hair,stem],0); pos3(vair,0);
-lft x1l=lft x3l=hround u; rt x2r=hround(x1+4u if monospace: -4/3u fi);
-top y1=h; y2=.5[y1,y3]=math_axis;
-filldraw stroke z1e{3(x2e-x1e),y2-y1}...z2e
- ...{3(x3e-x2e),y3-y2}z3e; % arc
-penlabels(1,2,3); endchar;
-
-cmchar "Five-pointed star";
-beginchar("*",9u#,v_center(x_height#));
-adjust_fit(0,0); pickup crisp.nib;
-numeric theta; theta=360/5; % degrees between points
-pos0(curve,0); pos1(rule_thickness,90); x0=x1=good.x .5w;
-top y1r=vround(math_axis+.4x_height+.5rule_thickness); %@ .5 by .4
-ypart(.5[z1,z0+(z1-z2) rotated 2theta])=math_axis;
-pos2(curve,theta); pos3(rule_thickness,90+theta);
-z2=z0; z3-z0=(z1-z0) rotated theta;
-z4=whatever[z0l,z1r]=whatever[z2r,z3r];
-filldraw for n=0 upto 4:
- z0+(z1r-z0)rotated(n*theta)--z0+(z4-z0)rotated(n*theta)--endfor
- cycle; % star
-penlabels(0,1,2,3,4); endchar;
-
-cmchar "Plus sign";
-beginarithchar("+"); pickup light_rule.nib;
-x1=x2=good.x .5w; top y1=h+eps; .5[y1,y2]=math_axis;
-lft x3=hround u-eps; x4=w-x3; y3=y4=math_axis;
-draw z1--z2; % stem
-draw z3--z4; % crossbar
-labels(1,2,3,4); endchar;
-
-cmchar "Comma";
-numeric dot_diam#; dot_diam#=if monospace: 5/4 fi\\ dot_size#;
-define_whole_blacker_pixels(dot_diam);
-beginchar(",",5u#,dot_diam#,comma_depth#);
-adjust_fit(0,0);
-x1-.5dot_diam=hround(.5w-.5dot_diam); y1-.5dot_diam=0;
-comma(1,a,dot_diam,.2u,comma_depth); % dot and tail
-penlabels(1); endchar;
-
-cmchar "Period";
-numeric dot_diam#; dot_diam#=if monospace: 5/4 fi\\ dot_size#;
-define_whole_blacker_pixels(dot_diam);
-beginchar(".",5u#,dot_diam#,0);
-adjust_fit(0,0); pickup fine.nib;
-pos1(dot_diam,0); pos2(dot_diam,90);
-lft x1l=hround(.5w-.5dot_diam); bot y2l=0; z1=z2; dot(1,2); % dot
-penlabels(1,2); endchar;
-
-cmchar "Virgule (slash)";
-beginchar("/",9u#,body_height#,paren_depth#);
-italcorr body_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib;
-rt x1=hround(w-u)+eps; top y1=h+eps;
-lft x2=hround u-eps; bot y2=-d-eps;
-draw z1--z2; % diagonal
-penlabels(1,2); endchar;
-
-cmchar "Colon";
-numeric dot_diam#; dot_diam#=if monospace: 5/4 fi\\ dot_size#;
-define_whole_blacker_pixels(dot_diam);
-beginchar(":",5u#,x_height#,0);
-italcorr x_height#*slant+.5dot_diam#-2u#;
-adjust_fit(0,0); pickup fine.nib;
-pos1(dot_diam,0); pos2(dot_diam,90);
-lft x1l=hround(.5w-.5dot_diam); top y2r=h; z1=z2; dot(1,2); % upper dot
-pos3(dot_diam,0); pos4(dot_diam,90);
-x3=x1; bot y4l=0; z3=z4; dot(3,4); % lower dot
-penlabels(1,2,3,4); endchar;
-
-cmchar "Semicolon";
-numeric dot_diam#; dot_diam#=if monospace: 5/4 fi\\ dot_size#;
-define_whole_blacker_pixels(dot_diam);
-beginchar(";",5u#,x_height#,comma_depth#);
-italcorr x_height#*slant+.5dot_diam#-2u#;
-adjust_fit(0,0); pickup fine.nib;
-pos1(dot_diam,0); pos2(dot_diam,90);
-lft x1l=hround(.5w-.5dot_diam); top y2r=h; z1=z2; dot(1,2); % upper dot
-x3-.5dot_diam=hround(.5w-.5dot_diam); y3-.5dot_diam=0;
-comma(3,a,dot_diam,.05u,comma_depth); % lower dot and tail
-penlabels(1,2,3); endchar;
-
-cmchar "Equals sign";
-compute_spread(.45x_height#,.55x_height#);
-beginchar("=",14u#,v_center(spread#+rule_thickness#));
-italcorr h#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround u-eps; x3=x1; x2=x4=w-x1;
-y1=y2; y3=y4; y1-y3=spread; .5[y1,y3]=math_axis;
-draw z1--z2; % upper bar
-draw z3--z4; % lower bar
-labels(1,2,3,4); endchar;
-
-
-cmchar "Left bracket";
-numeric wd#; wd#=max(5u#,4.5u#+.5if hefty:stem# else:rule_thickness# fi);
-beginchar("[",wd#,body_height#,paren_depth#);
-italcorr body_height#*slant;
-adjust_fit(0,0);
-numeric top_thickness,side_thickness;
-if hefty: top_thickness=vair;
- side_thickness=max(crisp.breadth,stem-2stem_corr);
-else: top_thickness=side_thickness=rule_thickness; fi;
-pickup crisp.nib; pos1(side_thickness,0); pos2(side_thickness,0);
-top y1=h; bot y2=-d; lft x1l=lft x2l=hround(2.5u-.5side_thickness)-1-eps;
-filldraw stroke z1e--z2e; % stem
-pos3(top_thickness,90); pos4(top_thickness,90);
-pos5(top_thickness,90); pos6(top_thickness,90);
-x3=x5=x1l; rt x4=rt x6=ceiling(w-.4u)+eps; y3r=y4r=y1; y5l=y6l=y2;
-filldraw stroke z3e--z4e; % upper bar
-filldraw stroke z5e--z6e; % lower bar
-penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "Right bracket";
-numeric wd#; wd#=max(5u#,4.5u#+.5if hefty:stem# else:rule_thickness# fi);
-beginchar("]",wd#,body_height#,paren_depth#);
-italcorr body_height#*slant-2u#+.5if hefty:stem# else:rule_thickness# fi;
-adjust_fit(0,0);
-numeric top_thickness,side_thickness;
-if hefty: top_thickness=vair;
- side_thickness=max(crisp.breadth,stem-2stem_corr);
-else: top_thickness=side_thickness=rule_thickness; fi;
-pickup crisp.nib; pos1(side_thickness,0); pos2(side_thickness,0);
-top y1=h; bot y2=-d; rt x1r=rt x2r=hround(w-2.5u+.5side_thickness)+1+eps;
-filldraw stroke z1e--z2e; % stem
-pos3(top_thickness,90); pos4(top_thickness,90);
-pos5(top_thickness,90); pos6(top_thickness,90);
-x3=x5=x1r; lft x4=lft x6=floor .4u-eps; y3r=y4r=y1; y5l=y6l=y2;
-filldraw stroke z3e--z4e; % upper bar
-filldraw stroke z5e--z6e; % lower bar
-penlabels(1,2,3,4,5,6); endchar;
-
-
- % P U N C T ends %
-
-
-%=======================================================================
-% from R O M A N P . M F
-%=======================================================================
-
-cmchar "Dollar sign";
-beginchar("$",9u#,body_height#,body_height#-asc_height#);
-italcorr fig_height#*slant-.5u#; % same as for digits
-adjust_fit(0,0);
-numeric theta; theta=90-angle(50u,asc_height); slope:=-asc_height/50u;
-pickup fine.nib; pos2(slab,-90);
-pos0(cap_stem,theta); pos7(slab,-90);
-x2=x0=x7=.5w; top y2l=asc_height+oo; bot y7r=-oo;
-y0=.52asc_height; lft x3l=hround u; rt x6r=hround(w-u);
-x3r-x3l=x6r-x6l=hround .35[slab,cap_stem]-fine;
-ellipse_set(2l,3l,4l,0l); ellipse_set(2r,3r,4r,0r); y3=y3r;
-ellipse_set(7l,6l,5l,0l); ellipse_set(7r,6r,5r,0r); y6=y6r;
-filldraw stroke super_arc.e(2,3) & z3e{down}
- ..z4e---z5e..z6e{down} & super_arc.e(6,7); % main stroke
-if serifs: pos1(hair,0); pos8(hair,180);
- pos10(flare,0); pos9(flare,180);
- rt x1r=hround(w-u); lft x8r=hround u; y1=.5[y0,y2]; y8=.5[y0,y7];
- {{less_tense; pos2'(slab,90); z2'=z2; bulb(2',1,10); % upper arc and bulb
- bulb(7,8,9)}}; % lower arc and bulb
-else: pos1(.6[slab,flare],-100); pos8(flare,-100);
- rt x1l=hround(w-1.3u); lft x8r=hround .8u;
- top y1l=vround .92asc_height+oo; bot y8r=vround .1asc_height-oo;
- filldraw stroke term.e(2,1,right,.9,4); % upper arc and terminal
- filldraw stroke term.e(7,8,left,1,4); fi % lower arc and terminal
-pickup crisp.nib; pos12(bar,0); pos11(bar,0);
-lft x12l=lft x11l=hround(.5w-.5bar); top y12=h; bot y11=-d;
-filldraw stroke z12e--z11e; % vertical crossbar
-penlabels(0,1,2,3,4,5,6,7,8,9,10,11,12); endchar;
-
-cmchar "Question mark";
-beginchar("?",8.5u#,asc_height#,0);
-italcorr .8asc_height#*slant;
-adjust_fit(0,0);
-pickup tiny.nib; pos7(dot_size,0); pos8(dot_size,90);
-lft x7l=hround(.5w-.25u-.5dot_size); bot y8l=0; z7=z8; dot(7,8); % dot
-numeric bot_width;
-bot_width=if hefty:max(hround .8dot_size,fine.breadth) else: hair fi;
-pickup fine.nib; pos2(vair,90); pos3(curve,0);
-pos4(vair,-90); pos5(bot_width,0); pos6(bot_width,0);
-x2=x4=x5=x6=x7; rt x3r=hround(w-u); bot y6=1+.25[top y8r,x_height];
-top y2r=h+oo; y3=.75[y6,y2]; y4=.5[y6,y2]; y5=.1[y6,y2];
-{{interim superness:=more_super;
-filldraw stroke pulled_super_arc.e(2,3)(superpull)
- & subpath (0,1) of super_arc.e(3,4) .. z5e---z6e\\}}; % arc and stem
-if serifs: pos1(hair,180); pos0(flare,180);
- lft x1r=hround u; y1=y3; bulb(2,1,0); % bulb
-else: pos1(Vround 5/7[vair,flare],110);
- lft x1r=hround u; top y1r=vround .9[y6,top y2r];
- filldraw stroke term.e(2,1,left,1,4); fi % terminal
-penlabels(0,1,2,3,4,5,6,7,8); endchar;
-
- % R O M A N P ends %
-
-%=======================================================================
-% from T S E T
-%=======================================================================
-
-
-% Special characters for ``extended ASCII character set'' fonts
-
-
-dieresis=oct"007"; % (AH) this is the high double dot in APL
-high_minus=oct"025"; % (AH) this is the high minus symbol in APL
-elt=oct"006";
-down_arrow=oct"037";
-meet=oct"046";
-comment=oct"042"; % (OJK) This is the comment symbol in APL.
-up_arrow=oct"136";
-subset=oct"022";
-superset=oct"023";
-cap=oct"021";
-cup=oct"020";
-left_arrow=oct"137";
-right_arrow=oct"036";
-neq=oct"027";
-negation=oct"026";
-diamond=oct"011";
-leq=oct"012";
-geq=oct"013";
-join=oct"010";
-minus=oct"055";
-less=oct"074";
-greater=oct"076";
-backslash=oct"134";
-underbar=oct"024";
-left_brace=oct"173";
-vertical=oct"174";
-right_brace=oct"175";
-
-
-%=====================================================================
-% from S Y M
-%=====================================================================
-
-
-iff known minus: cmchar "Minus sign";
-beginarithchar(minus); pickup light_rule.nib;
-lft x1=hround 1.5u-eps; x2=w-x1; y1=y2=math_axis;
-draw z1--z2; % bar
-labels(1,2); endchar;
-
-% iff known high_minus: cmchar "High minus sign";
-% beginchar(high_minus,12u#,asc_height#,0);
-% pickup light_rule.nib; % light rule, since high_minus is like a superscript
-% lft x1=.5*w; x2=w; y1=y2=h+o;
-% draw z1--z2; % bar
-% labels(1,2); endchar;
-
-
- %==============================================%
- % Inserted(OJK), with changes, from ACCENT.MF %
- %==============================================%
-
-
-cmchar "Macron (bar) accent";
-numeric macron_breadth#; macron_breadth#=.2[vair#,stem#];
-beginchar(high_minus,9u#,.4[x_height#,asc_height#]+macron_breadth#,0);
-italcorr h#*slant-.75u#;
-adjust_fit(0,0);
-numeric macron_breadth; macron_breadth:=Vround .2[vair,stem];
-pickup if serifs: crisp.nib else: fine.nib fi;
-pos1(macron_breadth,90); pos2(macron_breadth,90);
-top y1r=top y2r=h+o; lft x1=w-rt x2=hround 1.25u;
-filldraw stroke z1e--z2e; % bar
-penlabels(1,2); endchar;
-
-
-
-cmchar "Umlaut (double dot) accent";
-numeric dot_diam#,dot_diam;
-dot_diam#=max(dot_size#,cap_curve#);
-beginchar(dieresis,9u#,min(asc_height#,10/7x_height#+.5dot_diam#),0);
-dot_diam=max(tiny.breadth,hround(max(dot_size,cap_curve)-2stem_corr));
-italcorr h#*slant+.5dot_diam#-2.25u#;
-adjust_fit(0,0);
-pickup tiny.nib; pos1(dot_diam,0); pos2(dot_diam,90);
-x1=x2=2.75u; top y2r=h+1;
-if bot y2l<x_height+o+slab: y2l:=min(y2r-eps,x_height+o+slab+.5tiny); fi
-y1=.5[y2l,y2r]; dot(1,2); % left dot
-pos3(dot_diam,0); penpos4(y2r-y2l,90); y3=y4=y1; x3=x4=w-x1;
-dot(3,4); % right dot
-penlabels(1,2,3,4); endchar;
-
-
- %==================%
- % S Y M continues %
- %==================%
-
-
-iff known cup: cmchar "Set union sign";
-beginchar(cup,12u#,.8asc_height#,0);
-italcorr .8asc_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x1=hround u; x2=x1; x3=w-x3; x4=x5=w-x1;
-y1=good.y h+o; bot y3=-o; y2=y4=2/3[y1,y3]; y5=y1;
-draw z1---z2...z3...z4---z5; % stems and cup
-labels(1,2,3,4,5); endchar;
-
-iff known cap: cmchar "Set intersection sign";
-beginchar(cap,12u#,.8asc_height#,0);
-italcorr .8asc_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x1=hround u; x2=x1; x3=w-x3; x4=x5=w-x1;
-y3=good.y h+o; bot y1=-o; y2=y4=2/3[y1,y3]; y5=y1;
-draw z1---z2...z3...z4---z5; % stems and cap
-labels(1,2,3,4,5); endchar;
-
-
- %========================
- % Symbol designed by OJK:
- %========================
- % (using "cap")
-% cmchar "Comment sign";
-% beginchar(comment,12u#,.8asc_height#,0);
-% italcorr .8asc_height#*slant-.5u#;
-% adjust_fit(0,0); pickup light_rule.nib; autorounded;
-% lft x1=hround u; x2=x0; x4=w-x4; x6=x9=w-x1;
-% y4=good.y h+o; bot y0=-o; y2=y6=2/3[y1,y4]; y9=y0;
-% circle_points; draw_circle; % circle
-% draw z0---z2...z4...z6---z9; % stems and cap
-% labels(0,1,2,3,4,5,6,7,8,9); endchar;
-
-cmchar "Comment sign";
-beginchar(comment,12u#,.8asc_height#,0);
-italcorr .8asc_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x1=hround u; x2=x1; x3=w-x3; x4=x5=w-x1;
-y3=good.y h+o; bot y1=-o; y2=y4=2/3[y1,y3]; y5=y1;
-draw z1---z2...z3...z4---z5; % stems and cap
-x0=.5w; y3-y0=x4-x0;
-z6-z0 =(z3-z0) rotated 60;
-z7-z0 =(z6-z0) rotated 60;
-z8-z0 =(z7-z0) rotated 60;
-z9-z0 =(z8-z0) rotated 60;
-z10-z0=(z9-z0) rotated 60;
-draw z3...z6...z7...z8...z9...z10...cycle; % circle
-labels(0,1,2,3,4,5,6,7,8,9,10); endchar;
-
-
-iff known meet: cmchar "Lattice infimum (logical and) sign";
-beginchar(meet,12u#,.8asc_height#,0);
-italcorr .8asc_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround u-eps; x3=w-x3; x5=w-x1;
-y3=good.y h+o; bot y1=-o; y5=y1;
-draw z1--z3--z5; % diagonals
-labels(1,3,5); endchar;
-
-
-iff known join: cmchar "Lattice supremum (logical or) sign";
-beginchar(join,12u#,.8asc_height#,0);
-italcorr .8asc_height#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround u-eps; x3=w-x3; x5=w-x1;
-y1=good.y h+o; bot y3=-o; y5=y1;
-draw z1--z3--z5; % diagonals
-labels(1,3,5); endchar;
-
-
-iff known down_arrow: cmchar "Downward arrow";
-beginchar(down_arrow,9u#,asc_height#,asc_depth#);
-adjust_fit(0,0); pickup light_rule.nib;
-pos1(rule_thickness,0); pos2(rule_thickness,0);
-pos3(bar,90); pos4(bar,90);
-lft x1l=hround(.5w-.5rule_thickness); y1+.5rule_thickness=h;
-x0=x1=x2; bot y0=-d; x0-x3=x4-x0=3u+eps;
-y3=y4=y0+.24asc_height+eps;
-pos5(bar,angle(z4-z0)); z5l=z0;
-pos6(bar,angle(z3-z0)); z6l=z0;
-z9=.381966[.5[z3,z4],z0];
-numeric t; path p; p=z4r{z9-z4}..z6r;
-t=xpart(p intersectiontimes((x2r,-d)--(x2r,h))); y2=ypart point t of p;
-filldraw z0..{z4-z9}z4l--subpath (0,t) of\\(z4r{z9-z4}..z6r)
- --z2r---z1r..z1l---z2l--subpath (t,0) of\\(z3r{z9-z3}..z5r)
- --z3l{z9-z3}..z0 & cycle; % arrowhead and stem
-penlabels(0,1,2,3,4,5,6,9); endchar;
-
-iff known up_arrow: cmchar "Upward arrow";
-beginchar(up_arrow,9u#,asc_height#,asc_depth#);
-italcorr .76asc_height#*slant+.5crisp#-u#;
-adjust_fit(0,0); pickup light_rule.nib;
-pos1(rule_thickness,0); pos2(rule_thickness,0);
-pos3(bar,90); pos4(bar,90);
-lft x1l=hround(.5w-.5rule_thickness); y1-.5rule_thickness=-d;
-x0=x1=x2; top y0=h; x0-x3=x4-x0=3u+eps;
-y3=y4=y0-.24asc_height-eps;
-pos5(bar,angle(z4-z0)); z5l=z0;
-pos6(bar,angle(z3-z0)); z6l=z0;
-z9=.381966[.5[z3,z4],z0];
-numeric t; path p; p=z4l{z9-z4}..z6r;
-t=xpart(p intersectiontimes((x2r,-d)--(x2r,h))); y2=ypart point t of p;
-filldraw z0..{z4-z9}z4r--subpath (0,t) of\\(z4l{z9-z4}..z6r)
- --z2r---z1r..z1l---z2l--subpath (t,0) of\\(z3l{z9-z3}..z5r)
- --z3r{z9-z3}..z0 & cycle; % arrowhead and stem
-penlabels(0,1,2,3,4,5,6,9); endchar;
-
-iff known left_arrow: cmchar "Leftward arrow";
-compute_spread(.45x_height#,.55x_height#);
-beginchar(left_arrow,18u#,v_center(spread#+rule_thickness#));
-adjust_fit(0,0); pickup light_rule.nib;
-pos1(rule_thickness,90); pos2(rule_thickness,90); pos3(bar,0); pos4(bar,0);
-y0=y1=y2=math_axis; x1+.5rule_thickness=hround(w-u); lft x0=hround u;
-y3-y0=y0-y4=.24asc_height+eps; x3=x4=x0+3u+eps;
-pos5(bar,angle(z4-z0)); z5l=z0; pos6(bar,angle(z3-z0)); z6l=z0;
-z9=.381966[.5[z3,z4],z0];
-numeric t; path p; p=z4r{z9-z4}..z6r;
-t=xpart(p intersectiontimes((0,y2l)--(w,y2l))); x2=xpart point t of p;
-filldraw z0..{z4-z9}z4l--subpath (0,t) of\\(z4r{z9-z4}..z6r)
- --z2l---z1l..z1r---z2r--subpath (t,0) of\\(z3r{z9-z3}..z5r)
- --z3l{z9-z3}..z0 & cycle; % arrowhead and stem
-penlabels(0,1,2,3,4,5,6,9); endchar;
-
-iff known right_arrow: cmchar "Rightward arrow";
-compute_spread(.45x_height#,.55x_height#);
-beginchar(right_arrow,18u#,v_center(spread#+rule_thickness#));
-adjust_fit(0,0); pickup light_rule.nib;
-pos1(rule_thickness,90); pos2(rule_thickness,90); pos3(bar,0); pos4(bar,0);
-y0=y1=y2=math_axis; x1-.5rule_thickness=hround u; rt x0=hround(w-u);
-y3-y0=y0-y4=.24asc_height+eps; x3=x4=x0-3u-eps;
-pos5(bar,angle(z4-z0)); z5l=z0; pos6(bar,angle(z3-z0)); z6l=z0;
-z9=.381966[.5[z3,z4],z0];
-numeric t; path p; p=z4l{z9-z4}..z6r;
-t=xpart(p intersectiontimes((0,y2l)--(w,y2l))); x2=xpart point t of p;
-filldraw z0..{z4-z9}z4r--subpath (0,t) of\\(z4l{z9-z4}..z6r)
- --z2l---z1l..z1r---z2r--subpath (t,0) of\\(z3l{z9-z3}..z5r)
- --z3r{z9-z3}..z0 & cycle; % arrowhead and stem
-penlabels(0,1,2,3,4,5,6,9); endchar;
-
-
-iff known subset: cmchar "Proper subset sign";
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(subset,14u#,v_center(spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x2=hround 1.5u-eps; x1=x3=w-x2;
-y1-y3=spread; y2=.5[y1,y3]=math_axis;
-x4=x5=.5w; y4=y1; y5=y3;
-draw z1---z4...z2{down}...z5---z3; % arc and bars
-labels(1,2,3,4,5); endchar;
-
-iff known superset: cmchar "Proper superset sign";
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(superset,14u#,v_center(spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x1=hround 1.5u-eps; x2=w-x1; x3=x1;
-y1-y3=spread; y2=.5[y1,y3]=math_axis;
-x4=x5=.5w; y4=y1; y5=y3;
-draw z1---z4...z2{down}...z5---z3; % arc and bars
-labels(1,2,3,4,5); endchar;
-
-
-iff known less: cmchar "Less than sign";
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(less,14u#,v_center(spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x2=hround 1.5u-eps; x1=x3=w-x2;
-y1-y3=spread; y2=.5[y1,y3]=math_axis;
-draw z1--z2--z3; % diagonals
-labels(1,2,3); endchar;
-
-iff known greater: cmchar "Greater than sign";
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(greater,14u#,v_center(spread#+rule_thickness#));
-italcorr math_axis#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib;
-rt x2=hround(w-1.5u)+eps; x1=x3=w-x2;
-y1-y3=spread; y2=.5[y1,y3]=math_axis;
-draw z1--z2--z3; % diagonals
-labels(1,2,3); endchar;
-
-iff known underbar: cmchar "Underbar suitable for < and >";
-compute_spread((5/8+.45)*x_height#,(3/4+.55)*x_height#);
-beginchar(underbar,14u#,0,spread#-math_axis#+.5rule_thickness#);
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround 1.5u-eps; x2=w-x1; bot y1=bot y2=-d;
-draw z1--z2; % bar
-labels(1,2); endchar;
- %=======================%
- % Rejected (?): %
- %=======================%
-% cmchar "Overbar";
-% compute_spread((5/8+.45)*x_height#,(3/4+.55)*x_height#);
-% beginchar(oct"142",14u#,body_height#,0);
-% adjust_fit(0,0); pickup rule.nib;
-% lft x1=hround 1.5u-eps; x2=w-x1; top y1=top y2=h+o;
-% draw z1--z2; % bar
-% labels(1,2); endchar;
-
-iff known neq: cmchar "Unequals sign";
-compute_spread(.45x_height#,.55x_height#);
-beginchar(neq,14u#,v_center(4spread#+rule_thickness#));
-italcorr h#*slant-.5u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround u-eps; x3=x1; x2=x4=w-x1;
-y1=y2; y3=y4; y1-y3=spread; .5[y1,y3]=math_axis;
-draw z1--z2; draw z3--z4; % bars
-lft x6=hround 3.5u-eps; x5=w-x6; top y5=h+o; bot y6=-d-o;
-draw z5--z6; % diagonal
-labels(1,2,3,4,5,6); endchar;
-
-iff known leq: cmchar "Less than or equal to sign";
-compute_spread(.45x_height#,.55x_height#);
-spread#':=spread#; spread':=spread; % the spread of `$=$'
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(leq,14u#,v_center(spread#'+spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x2=hround 1.5u-eps; x1=x3=w-x2;
-y1-y3=spread; y2=.5[y1,y3]; top y1=h;
-draw z1--z2--z3; % diagonals
-x8=x1; x9=x2; y8=y9; y3-y9=spread'; draw z8--z9; % bar
-labels(1,2,3,8,9); endchar;
-
-iff known geq: cmchar "Greater than or equal to sign";
-compute_spread(.45x_height#,.55x_height#);
-spread#':=spread#; spread':=spread; % the spread of `$=$'
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(geq,14u#,v_center(spread#'+spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround 1.5u-eps; x2=w-x1; x3=x1;
-y1-y3=spread; y2=.5[y1,y3]; top y1=h;
-draw z1--z2--z3; % diagonals
-x8=x1; x9=x2; y8=y9; y3-y9=spread'; draw z8--z9; % bar
-labels(1,2,3,8,9); endchar;
-
-iff known backslash: cmchar "Reverse slash (backslash)";
-beginchar(backslash,9u#,body_height#,paren_depth#);
-adjust_fit(0,0); pickup light_rule.nib;
-lft x1=hround u-eps; top y1=h+eps;
-rt x2=hround(w-u)+eps; bot y2=-d-eps;
-draw z1--z2; % diagonal
-labels(1,2); endchar;
-
-iff known vertical: cmchar "Vertical line";
-beginchar(vertical,5u#,body_height#,paren_depth#);
-italcorr body_height#*slant+.5rule_thickness#-2u#;
-adjust_fit(0,0); pickup light_rule.nib;
-x1=x2=good.x .5w; top y1=h+eps; bot y2=-d-eps;
-draw z1--z2; % stem
-labels(1,2); endchar;
-
-% % modified from cdot (AH)
-% iff known dieresis: cmchar "High double dot in APL";
-% beginchar(dieresis,7u#,asc_height#);
-% adjust_fit(0,0); pickup fine.nib;
-% numeric dot_diam#; dot_diam#=if monospace: 5/4 fi\\ dot_size#;
-% define_whole_blacker_pixels(dot_diam);
-% pos1(dot_diam,0); pos2(dot_diam,90);
-% pos3(dot_diam,0); pos4(dot_diam,90);
-% lft x1l=hround(.25w-.5dot_diam);y1=h;
-% lft x3l=hround(.75w-.5dot_diam);y3=h;
-% z1=z2; dot(1,2); % first dot
-% z3=z4; dot(3,4); % second dot
-% penlabels(1,2,3,4); endchar;
-
-
-% changed (AH) from the original diamond since the diamond
-% operator in APL is taller than a square rotated by 45 degrees
-iff known diamond: cmchar "Diamond operator";
-beginchar(diamond,9u#,v_center(7u#));
-italcorr math_axis#*slant;
-adjust_fit(0,0); pickup light_rule.nib;
-numeric a; a=(lft 3.5u)*sqrt(3.14159/2); % an attempt to match circle area
-x4=x8=good.x .5w; w:=r:=2x4; x2=w-x6=good.x(x4+a);
-y2=y6=.5[y4,y8]=math_axis; y8=good.y(y2+1.5a);
-draw z2--z4--z6--z8--cycle; % bowl
-labels(2,4,6,8); endchar;
-
-iff known left_brace: cmchar "Left curly brace";
-beginchar(left_brace,9u#,body_height#,paren_depth#);
-italcorr body_height#*slant+.5vair#-u#;
-adjust_fit(0,0); pickup fine.nib;
-forsuffixes $=1,1',4,4',7,7': pos$(vair,0); endfor
-forsuffixes $=2,3,5,6: pos$(stem,0); endfor
-x2=x3=x5=x6; x1=x1'=x7=x7'=w-x4=w-x4';
-lft x4l=hround(1.5u-.5vair); lft x2l=hround(.5w-.5stem);
-top y1=h; bot y7=-d; .5[y4,y4']=.5[y1,y7]=.5[y2,y6]=.5[y3,y5];
-y1-y2=y3-y4=(y1-y4)/4; y1-y1'=y4-y4'=y7'-y7=vair-fine;
-filldraw z1l{left}...z2l---z3l...{left}z4l
- --z4'l{right}...z5l---z6l...{right}z7l
- --z7r--z7'r{left}...z6r---z5r...{left}.5[z4r,z4'r]{right}
- ...z3r---z2r...{right}z1'r--z1r--cycle; % stroke
-penlabels(1,2,3,4,5,6,7); endchar;
-
-iff known right_brace: cmchar "Right curly brace";
-beginchar(right_brace,9u#,body_height#,paren_depth#);
-italcorr math_axis#*slant+.5vair#-u#;
-adjust_fit(0,0); pickup fine.nib;
-forsuffixes $=1,1',4,4',7,7': pos$(vair,0); endfor
-forsuffixes $=2,3,5,6: pos$(stem,0); endfor
-x2=x3=x5=x6; x1=x1'=x7=x7'=w-x4=w-x4';
-rt x4r=hround(w-1.5u+.5vair); rt x2r=hround(.5w+.5stem);
-top y1=h; bot y7=-d; .5[y4,y4']=.5[y1,y7]=.5[y2,y6]=.5[y3,y5];
-y1-y2=y3-y4=(y1-y4)/4; y1-y1'=y4-y4'=y7'-y7=vair-fine;
-filldraw z1r{right}...z2r---z3r...{right}z4r
- --z4'r{left}...z5r---z6r...{left}z7r
- --z7l--z7'l{right}...z6l---z5l...{right}.5[z4l,z4'l]{left}
- ...z3l---z2l...{left}z1'l--z1l--cycle; % stroke
-penlabels(1,2,3,4,5,6,7); endchar;
-
-% cmchar "APL quote";
-% beginchar("'",9u#,asc_height#,0);
-% numeric top_width#,spread#; top_width#=if serifs: flare# else: stem# fi;
-% spread#=max(3u#,top_width#+.5u#); define_pixels(spread);
-% italcorr asc_height#*slant+.5top_width#+.5spread#-4u#;
-% adjust_fit(0,0);
-% x1=x2; x3=x4=w-x1; x3-x1=0; y1=y3;
-% y2=y4=max(.5[bar_height,x_height]+.5vair,h-x_height);
-% if serifs: pickup crisp.nib; pos1(flare,0); pos2(vair,0);
-% pos3(flare,0); pos4(vair,0);
-% y1+.5stem=h; filldraw circ_stroke z1e--z2e; % left stem and bulb
-% filldraw circ_stroke z3e--z4e; % right stem and bulb
-% else: pickup fine.nib; pos1(stem,0); pos2(vair,0);
-% top y1=h; filldraw stroke z1e--z2e; % left stem
-% pos3(stem,0); pos4(vair,0);
-% filldraw stroke z3e--z4e; fi % right stem
-% penlabels(1,2,3,4); endchar;
-
-
- %================================================================%
- % The next definition inserted(OJK), with changes, from PUNCT.MF %
- %================================================================%
-
-
-% cmchar "Apostrophe";
-% beginchar("'",5u#,asc_height#,0);
-% italcorr asc_height#*slant+.5dot_size#-2u#;
-% adjust_fit(0,0);
-% x1-.5dot_size=hround(.5w-.5dot_size); y1+.5dot_size=h;
-% if monospace: comma(1,a,dot_size,.28u,vround 1.5comma_depth); % large comma
-% else: comma(1,a,dot_size,.25u,comma_depth); fi % comma with increased jut
-% penlabels(1); endchar;
-
-
- %=================================%
- % This trial is from QUOTE.MF(?): %
- %=================================%
-
-
-%cmchar "Straight single quote";
-%beginchar("'",5u#,asc_height#,0);
-%italcorr asc_height#*slant+.5 if serifs: flare# else: stem# fi -2u#;
-%adjust_fit(0,0);
-%x1=x2=.5w; y2=max(.5[bar_height,x_height]+.5vair,h-x_height);
-%if serifs: pickup crisp.nib; pos1(flare,0); pos2(vair,0);
-% y1+.5stem=h; filldraw circ_stroke z1e--z2e; % stem and bulb
-%else: pickup fine.nib; pos1(stem,0); pos2(vair,0);
-% top y1=h; filldraw stroke z1e--z2e; fi % stem
-%penlabels(1,2,3,4); endchar;
-
-
-
-%cmchar "Straight single quote";
-%beginchar("'",5u#,asc_height#,0);
-%adjust_fit(0,0); pickup light_rule.nib;
-%bot y1=vround(5/7*h); y2=y1; top y3=h+2o; y4=y3;
-%.5[x1,x2]=x5=good.x .5w; w:=r:=2x5;
-%lft x1=hround(.5w-1/28*h);
-%.5[x3,x4]=x6=good.x .5w; w:=r:=2x6;
-%lft x3=hround(.5w-1/7*h);
-%filldraw z1--z2--z4--z3--cycle;
-%penlabels(1,2,3,4); endchar;
-
-
-cmchar "Straight single quote";
-beginchar("'",5u#,asc_height#,0);
-italcorr asc_height#*slant+.5 if serifs: flare# else: stem# fi -2u#;
-adjust_fit(0,0);
-x1=x2=.5w; y2=max(.5[bar_height,x_height]+.5vair,h-x_height);
-if serifs: pickup rule.nib; pos1(flare,0); pos2(vair,0);
- y1+.5stem=h; filldraw circ_stroke z1e--z2e; % stem and bulb
-else: pickup crisp.nib; pos1(stem,0); pos2(vair,0);
- top y1=h; filldraw stroke z1e--z2e; fi % stem
-penlabels(1,2,3,4); endchar;
-
-
-
-
- % S Y M ends %
-
-
-% The following definitions are copied from S Y M B O L . M F
-
-cmchar "Times operator";
-beginarithchar("#"); pickup light_rule.nib;
-x1=good.x(1/sqrt2)[.5w,rt u]; y1=good.y(1/sqrt2)[math_axis,bot h];
-x2=x3=w-x1; x4=x1; .5[y1,y2]=.5[y3,y4]=math_axis; y2=y4;
-draw z1--z2; draw z3--z4; % diagonals
-labels(1,2,3,4); endchar;
-
-%cmchar "Division operator";
-%beginarithchar("%"); pickup light_rule.nib;
-%x3-.5dot_size=hround(.5w-.5dot_size); w:=r:=2x3;
-%y3+.5dot_size=vround(math_axis+math_spread[.3x_height,.4x_height]+.5dot_size);
-%lft x1=hround u-eps; x2=w-x1; y1=y2=math_axis;
-%draw z1--z2; % bar
-%pos3(dot_size,0); pos4(dot_size,90); z3=z4;
-%pos5(dot_size,0); pos6(dot_size,90); z5=z6; x5=x3; .5[y3,y5]=math_axis;
-%dot(3,4); dot(5,6); % dots
-%penlabels(1,2,3,4,5,6); endchar;
-
-
-cmchar "Division operator";
-beginarithchar("%"); pickup light_rule.nib;
-x3-.5dot_size=hround(.5w-.5dot_size); w:=r:=2x3;
-y3=vround(math_axis+1.5dot_size);
-lft x1=hround u-eps; x2=w-x1; y1=y2=math_axis;
-draw z1--z2; % bar
-pos3(dot_size,0); pos4(dot_size,90); z3=z4;
-pos5(dot_size,0); pos6(dot_size,90); z5=z6;
-x5=x3; .5[y3,y5]=math_axis+.1rule_thickness;
-dot(3,4); dot(5,6); % dots
-penlabels(1,2,3,4,5,6); endchar;
-
- %=========================================
- % To be replaced by the next definition...
-
-% cmchar "Circle operator";
-% beginchar(oct"017",9u#,v_center(9u#));
-% adjust_fit(0,0); pickup light_rule.nib; autorounded;
-% lft x6=hround u; x2=w-x6; y2=math_axis; top y8=h;
-% circle_points; draw_circle; % circle
-% labels(1,2,3,4,5,6,7,8); endchar;
-
-
-cmchar "Circle operator";
-beginchar(oct"017",16u#,v_center(16u#)); %@ For test purposes!
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x1=hround u; x0=.5w; y1=y0=math_axis;
-z2-z0=(z1-z0) rotated 45;
-z3-z0=(z2-z0) rotated 45;
-z4-z0=(z3-z0) rotated 45;
-z5-z0=(z4-z0) rotated 45;
-z6-z0=(z5-z0) rotated 45;
-z7-z0=(z6-z0) rotated 45;
-z8-z0=(z7-z0) rotated 45;
-draw z1...z2...z3...z4...z5...z6...z7...z8...cycle; % Circle(OJK) which is
-labels(0,1,2,3,4,5,6,7,8); endchar; % round as it should.
-
-
-
-cmchar "Small circle";
-beginchar(oct"016",5u#,v_center(5u#));
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x6=hround u; x2=w-x6; top y8=h-.3x_height; y2=math_axis-.3x_height; %@ Addition here!
-circle_points; draw_circle; % circle
-labels(1,2,3,4,5,6,7,8); endchar;
-
-% cmchar "Circle stile operator";
-% beginchar(oct"175",8u#,v_center(8u#));
-% pickup light_rule.nib; autorounded;
-% lft x6=hround u; x2=w-x6; y2=math_axis; top y8=h;
-% circle_points; draw_circle; % circle
-% top y10=body_height#;
-% bot y9=-paren_depth#;
-% x9=x10=x4;
-% draw z9--z10; % stile
-% labels(1,2,3,4,5,6,7,8); endchar;
-
-% cmchar "Circle slope operator";
-% beginchar(oct"176",8u#,v_center(8u#));
-% pickup light_rule.nib; autorounded;
-% lft x6=hround u; x2=w-x6; y2=math_axis; top y8=h;
-% circle_points; draw_circle; % circle
-% top y10=body_height#;
-% bot y9=-paren_depth#;
-% x9=x10=x4;
-% draw z9--z10; % slope
-% labels(1,2,3,4,5,6,7,8); endchar;
-
-iff known elt: cmchar "Element sign";
-compute_spread(5/4x_height#,3/2x_height#);
-beginchar(elt,12u#,v_center(spread#+rule_thickness#));
-italcorr h#*slant-u#;
-adjust_fit(0,0); pickup light_rule.nib; autorounded;
-lft x2=hround 1.5u-eps; x1=x3=x6=w-x2;
-y1-y3=spread; y2=y6=.5[y1,y3]=math_axis;
-x4=x5=.5w+u; y4=y1; y5=y3;
-draw z1---z4...z2{down}...z5---z3; % arc and bars
-draw z2--z6; % middle bar
-labels(1,2,3,4,5,6); endchar;
-
-cmchar "Negation";
-compute_spread(.45x_height#,.55x_height#);
-beginchar(negation,14u#,v_center(spread#+rule_thickness#));
-adjust_fit(0,0);
-pickup pencircle xscaled .7rule_thickness yscaled 1.4rule_thickness;
-if vair#>.8curve#: pickup light_rule.nib; autorounded; fi % monoline
-lft x1=hround u; x2=4u; x3=w-x2; x4=w-x1;
-bot y1=bot y3=-d; top y2=top y4=h;
-draw z1{up}...z2{right}..{right}z3...{up}z4; % stroke
-labels(1,2,3,4); endchar;
-
-% sqrt48 was changed (AH) to 6.5 since the Delta symbol in APL has
-% a narrower base than the original triangle symbol
-cmchar "Delta";
-beginchar(oct"003",16u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-bot y1=0; y2=y1; top y3=h+2o;
-.5[x1,x2]=x3=good.x .5w; w:=r:=2x3; lft x1=hround(.5w-u*6.25);
-draw z1--z2--z3--cycle; % stroke
-labels(1,2,3); endchar;
-
-% sqrt48 was changed to 6.25 since the Del symbol in APL has
-% a narrower top than the original reversed triangle symbol
-% Moreover, Del must be lifted up to the same line as Delta,
-cmchar "Del";
-beginchar(oct"002",16u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-top y1=h+2o; y2=y1; bot y3=0;
-.5[x1,x2]=x3=good.x .5w; w:=r:=2x3; lft x1=hround(.5w-u*6.25);
-draw z1--z2--z3--cycle; % stroke
-labels(1,2,3); endchar;
-
-cmchar "Lattice top";
-beginchar(oct"030",14u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-x1=x2=good.x .5w; w:=r:=2x1; lft x3=hround u; x4=r-x3;
-bot y1=0; y2-y1=x4-x3;
-if top y2>h: y2:=bot h; fi
-y3=y4=y2;
-draw z1--z2; % stem
-draw z3--z4; % bar
-labels(1,2,3,4); endchar;
-
-cmchar "Perpendicular sign or lattice bottom";
-beginchar(oct"031",14u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-x1=x2=good.x .5w; w:=r:=2x1; lft x3=hround u; x4=r-x3;
-bot y1=0; y2-y1=x4-x3;
-if top y2>h: y2:=bot h; fi
-y3=y4=y1;
-draw z1--z2; % stem
-draw z3--z4; % bar
-labels(1,2,3,4); endchar;
-
-cmchar "Left turnstile";
-beginchar(oct"033",11u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-.5[y1,y2]=y3=y4; x1=x2=x3;
-lft x3=hround u; x4=w-x3; top y1=h; bot y2=0;
-draw z1--z2; % stem
-draw z3--z4; % bar
-labels(1,2,3,4); endchar;
-
-cmchar "Right turnstile";
-beginchar(oct"032",11u#,asc_height#,0);
-adjust_fit(0,0); pickup light_rule.nib;
-.5[y1,y2]=y3=y4; x1=x2=x4;
-lft x3=hround u; x4=w-x3; top y1=h; bot y2=0;
-draw z1--z2; % stem
-draw z3--z4; % bar
-labels(1,2,3,4); endchar;
-
-cmchar "Left floor bracket";
-beginchar(oct"034",8u#,body_height#,paren_depth#);
-adjust_fit(0,0); pickup light_rule.nib;
-x1=x2=good.x 3.5u; x3=x1+3.75u+eps;
-top y1=h; .5[y1,y2]=math_axis; y3=y2;
-draw z1--z2--z3; % stem and bar
-labels(1,2,3); endchar;
-
-cmchar "Left ceiling bracket";
-beginchar(oct"035",8u#,body_height#,paren_depth#);
-adjust_fit(0,0); pickup light_rule.nib;
-x1=x2=good.x 3.5u; x3=x1+3.75u+eps;
-top y1=h; .5[y1,y2]=math_axis; y3=y1;
-draw z3--z1--z2; % stem and bar
-labels(1,2,3); endchar;
-
-%================================================================
-
-% The quad symbol is created by using the definition of Del
-
-cmchar "Quad";
-beginchar(oct"001",16u#,body_height#,0); %@ body or asc
-adjust_fit(0,0); pickup light_rule.nib;
-bot y1=0; y2=y1; top y3=h+2o; y4=y3;
-.5[x1,x2]=x5=good.x .5w; w:=r:=2x5;
-% The quad box is slightly wider than Del
-lft x1=hround(.5w-u*7); %@ -u*7 or -5/14*h
-x3=x1; x4=x2;
-draw z1--z2--z4--z3--cycle; % box
-labels(1,2,3,4); endchar;
-
-%% The divide quad is built as a primary character
-% NOT AFTER ALL
-
-%cmchar "Divide quad";
-%beginchar(oct"001",16u#,body_height#,paren_depth#);
-%adjust_fit(0,0); pickup light_rule.nib;
-%bot y1=0; y2=y1; top y3=h+2o;top y4=h+2o;
-%.5[x1,x2]=x5=good.x .5w; w:=r:=2x5;
-% the quad box is slightly wider than Del
-%lft x1=hround(.5w-u*7);
-%x3=x1;x4=x2;
-%draw z1--z2--z4--z3--cycle; % box
-%pickup rule.nib;
-%x8-.5dot_size=hround(.5w-.5dot_size); w:=r:=2x8;
-%
-%y8=vround(.5y3+1.75dot_size); %@ 1 by 1.75
-%lft x6=x1; x7=x2; y6=y7=.5y3;
-%draw z6--z7; % bar
-%pos8(dot_size,0); pos9(dot_size,90); z8=z9;
-%pos10(dot_size,0); pos11(dot_size,90);z10=z11;
-%x10=x8; .5[y8,y10]=.5y3; %@ +rule_thickness#;
-%dot(8,9); dot(10,11); % dots
-%penlabels(1,2,3,4,5,6,7,8,9,10,11); endchar;
-
-
-
-% (AH)
-% Before loading in the definitions of the upper case Roman letters,
-% we have to load in the preamble for the slanted typewriter font
-% since that is the style of letters in APL.
-%
-
-
-%=====================================================================
-% This material comes from C M S L T T 1 0
-%=====================================================================
-
-
-u#:=21/36pt#; % unit width
-width_adj#:=0pt#; % width adjustment for certain characters
-serif_fit#:=0pt#; % extra sidebar near lowercase serifs
-cap_serif_fit#:=0pt#; % extra sidebar near uppercase serifs
-letter_fit#:=0pt#; % extra space added to all sidebars
-
-body_height#:=250/36pt#; % height of tallest characters
-asc_height#:=220/36pt#; % height of lowercase ascenders
-cap_height#:=220/36pt#; % height of caps
-fig_height#:=220/36pt#; % height of numerals
-x_height#:=155/36pt#; % height of lowercase without ascenders
-math_axis#:=110/36pt#; % axis of symmetry for math symbols
-bar_height#:=79/36pt#; % height of crossbar in lowercase e
-comma_depth#:=50/36pt#; % depth of comma below baseline
-desc_depth#:=80/36pt#; % depth of lowercase descenders
-
-crisp#:=22/36pt#; % diameter of serif corners
-tiny#:=22/36pt#; % diameter of rounded corners
-fine#:=21/36pt#; % diameter of sharply rounded corners
-thin_join#:=21/36pt#; % width of extrafine details
-hair#:=25/36pt#; % lowercase hairline breadth
-stem#:=25/36pt#; % lowercase stem breadth
-curve#:=25/36pt#; % lowercase curve breadth
-ess#:=22/36pt#; % breadth in middle of lowercase s
-flare#:=32/36pt#; % diameter of bulbs or breadth of terminals
-dot_size#:=36/36pt#; % diameter of dots
-cap_hair#:=25/36pt#; % uppercase hairline breadth
-cap_stem#:=25/36pt#; % uppercase stem breadth
-cap_curve#:=25/36pt#; % uppercase curve breadth
-cap_ess#:=25/36pt#; % breadth in middle of uppercase s
-rule_thickness#:=25/36pt#; % thickness of lines in math symbols
-
-dish#:=0pt#; % amount erased at top or bottom of serifs
-bracket#:=0pt#; % vertical distance from serif base to tangent
-jut#:=34/36pt#; % protrusion of lowercase serifs
-cap_jut#:=34/36pt#; % protrusion of uppercase serifs
-beak_jut#:=0pt#; % horizontal protrusion of beak serifs
-beak#:=34/36pt#; % vertical protrusion of beak serifs
-vair#:=22/36pt#; % vertical diameter of hairlines
-notch_cut#:=25/36pt#; % maximum breadth above or below notches
-bar#:=22/36pt#; % lowercase bar thickness
-slab#:=22/36pt#; % serif and arm thickness
-cap_bar#:=22/36pt#; % uppercase bar thickness
-cap_band#:=22/36pt#; % uppercase thickness above/below lobes
-cap_notch_cut#:=25/36pt#; % max breadth above/below uppercase notches
-serif_drop#:=0pt#; % vertical drop of sloped serifs
-stem_corr#:=0pt#; % for small refinements of stem breadth
-vair_corr#:=0pt#; % for small refinements of hairline height
-apex_corr#:=10/36pt#; % extra width at diagonal junctions
-
-o#:=4/36pt#; % amount of overshoot for curves
-apex_o#:=3/36pt#; % amount of overshoot for diagonal junctions
-
-slant:=1/5; % tilt ratio $(\Delta x/\Delta y)$
-fudge:=0.81; % factor applied to weights of heavy characters
-math_spread:=-1; % extra openness of math symbols
-superness:=1/sqrt2; % parameter for superellipses
-superpull:=0; % extra openness inside bowls
-beak_darkness:=0; % fraction of triangle inside beak serifs
-ligs:=0; % level of ligatures to be included
-
-square_dots:=false; % should dots be square?
-hefty:=true; % should we try hard not to be overweight?
-serifs:=true; % should serifs and bulbs be attached?
-monospace:=true; % should all characters have the same width?
-variant_g:=false; % should an italic-style g be used?
-low_asterisk:=true; % should the asterisk be centered at the axis?
-math_fitting:=false; % should math-mode spacing be used?
-
- %========================
- mode_setup;font_setup;
- %========================
-
-%====================================================================
-% input romanu; % upper case (majuscules)
-%====================================================================
-
-% Computer Modern Roman upper case:
-% These letters were originally coded by D. E. Knuth in November, 1979,
-% inspired by the Monotype faces used in {\sl The Art of Computer Programming}.
-% Sans serif designs by Richard Southall were added in April, 1982.
-% The programs were revised for the new \MF\ conventions in 1985.
-
-% Character codes \0101 through \0132 are generated.
-
-cmchar "The letter A";
-beginchar("A",13u#,cap_height#,0);
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric left_stem,right_stem,outer_jut,alpha;
-right_stem=cap_stem-stem_corr;
-left_stem=min(cap_hair if hefty: -3stem_corr fi,right_stem);
-outer_jut=.8cap_jut; x1l=w-x4r=l+letter_fit+outer_jut+.5u; y1=y4=0;
-x2-x1=x4-x3; x3r=x2r+apex_corr; y2=y3=h+apex_o+apex_oo;
-alpha=diag_ratio(2,left_stem,y2-y1,x4r-x1l-apex_corr);
-penpos1(alpha*left_stem,0); penpos2(alpha*left_stem,0);
-penpos3(alpha*right_stem,0); penpos4(alpha*right_stem,0);
-z0=whatever[z1r,z2r]=whatever[z3l,z4l];
-if y0<h-cap_notch_cut: y0:=h-cap_notch_cut;
- fill z0+.5right{down}...{z4-z3}diag_end(3l,4l,1,1,4r,3r)
- --diag_end(4r,3r,1,1,2l,1l)--diag_end(2l,1l,1,1,1r,2r){z2-z1}
- ...{up}z0+.5left--cycle; % left and right diagonals
-else: fill z0--diag_end(0,4l,1,1,4r,3r)--diag_end(4r,3r,1,1,2l,1l)
- --diag_end(2l,1l,1,1,1r,0)--cycle; fi % left and right diagonals
-penpos5(whatever,angle(z2-z1)); z5=whatever[z1,z2];
-penpos6(whatever,angle(z3-z4)); z6=whatever[z3,z4]; y6=y5;
-if hefty: y5r else: y5 fi =5/12y0;
-y5r-y5l=y6r-y6l=cap_band; penstroke z5e--z6e; % bar line
-if serifs: numeric inner_jut; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(4,3);
- if rt x1'r+cap_jut+.5u+1<=lft x4'l-cap_jut: inner_jut=cap_jut;
- else: rt x1'r+inner_jut+.5u+1=lft x4'l-inner_jut; fi
- dish_serif(1',2,a,1/2,outer_jut,b,.6,inner_jut)(dark); % left serif
- dish_serif(4',3,c,1/2,inner_jut,d,1/3,outer_jut); fi % right serif
-penlabels(0,1,2,3,4,5,6); endchar;
-
-cmchar "The letter B";
-beginchar("B",12.5u#,cap_height#,0);
-italcorr .75cap_height#*slant-.5u#;
-adjust_fit(cap_serif_fit#,0);
-numeric left_stem,right_curve,middle_weight;
-left_stem=cap_stem-hround 2stem_corr; middle_weight=.6vair+.5;
-pickup tiny.nib; pos1(left_stem,0); pos2(left_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5left_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-penpos3(cap_band,90); penpos4(cap_band,90);
-penpos6(middle_weight,-90); penpos7(middle_weight,-90);
-penpos8(middle_weight,90); penpos9(middle_weight,90);
-penpos5(right_curve-stem_corr,0); penpos10(right_curve,0);
-penpos11(cap_band,-90); penpos12(cap_band,-90);
-z3r=top z1; y4=y3; y5=.5[y4,y6]; y6=y7; y7l-y8l=vair;
-z12r=bot z2; y11=y12; y10=.5[y11,y9]; y8=y9; .5[y7l,y8l]=.52h;
-x4=x6; x9=x11=x4+.5u; x7=x8=x1; x9l:=x4+.25u;
-x5r=hround(w-1.5u); x10r=hround(w-u);
-if serifs: right_curve=cap_curve-stem_corr; x4=.5[x1,w-1.5u];
-else: right_curve=cap_curve-3stem_corr; x4=.5[x1,w-2.5u];
- x4l:=x4l-.5u; x9l:=x9l-.5u; fi
-x6l:=x6l-.5u; x11l:=x11l-.5u;
-fill stroke z3e..super_arc.e(4,5) & super_arc.e(5,6)..z7e; % upper lobe
-fill stroke z8e..super_arc.e(9,10) & super_arc.e(10,11)..z12e; % lower lobe
-if serifs: nodish_serif(1,2,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- nodish_serif(2,1,c,1/3,cap_jut,d,1/3,.5cap_jut); fi % lower serif
-math_fit(0,.5ic#); penlabels(1,2,3,4,5,6,7,8,9,10,11,12); endchar;
-
-cmchar "The letter C";
-if serifs: beginchar("C",13u#,cap_height#,0);
- italcorr cap_height#*slant-.5u#;
- adjust_fit(0,0);
- pickup fine.nib; pos1(cap_hair,0); pos2(cap_band,90);
- pos3(cap_curve,180); pos4(cap_band,270); pos5(hair,360);
- rt x1r=rt x5r=hround(w-u); lft x3r=hround u; x2=x4=.55[x3,x1];
- top y2r=h+o; bot y4r=-o; y3=.5[y2,y4];
- bot y1=min(vround max(.6h,x_height-.5vair),bot y2l-eps);
- y5=max(good.y .95(h-y1),y4l+eps);
- (x2l',y2l)=whatever[z2r,z1l]; x2l:=min(x2l',x2l+.5u);
- (x4l',y4l)=whatever[z4r,z5l]; x4l:=min(x4l',x4l+.5u);
- filldraw stroke z1e{x2-x1,10(y2-y1)}
- ...pulled_arc.e(2,3) & pulled_arc.e(3,4)...{up}z5e; % arc
- pos6(.3[fine.breadth,cap_hair],0); x6r=x1r; top y6=h+o;
- x1r-x1'=2cap_curve-fine; y1'=y1;
- path upper_arc; upper_arc=z1{x2-x1,10(y2-y1)}..z2{left};
- numeric t; t=xpart(upper_arc intersectiontimes (z6l--z1'));
- filldraw z1r--z6r--z6l--subpath(t,0) of upper_arc--cycle; % barb
-else: beginchar("C",11.5u#,cap_height#,0);
- italcorr cap_height#*slant-.5u#;
- adjust_fit(0,0);
- pickup fine.nib; pos1(1.2flare,80); pos2(slab,90);
- pos3(cap_curve,180); pos4(slab,270); pos5(flare,275);
- rt x1r=hround(w-1.1u); x2=x4=.5w+1.25u;
- lft x3r=hround max(u,2u-.5cap_curve); rt x5r=hround(w-.9u);
- top y1r=vround .95h+o; top y2r=h+o; y3=.5h;
- bot y4r=-o; bot y5r=vround .08h-o; y5l:=good.y y5l; x5l:=good.x x5l;
- filldraw stroke rterm.e(2,1,right,.9,4) & super_arc.e(2,3)
- & super_arc.e(3,4) & term.e(4,5,right,.8,4); fi % arc and terminals
-math_fit(-.3cap_height#*slant-.5u#,.5ic#);
-penlabels(1,1',2,3,4,5,6); endchar;
-
-cmchar "The letter D";
-beginchar("D",13.5u#,cap_height#,0);
-italcorr .7cap_height#*slant-.5u#;
-adjust_fit(cap_serif_fit#,0);
-pickup tiny.nib; pos1(cap_stem',0); pos2(cap_stem',0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem'); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-penpos3(cap_band,90); penpos4(cap_band,90);
-penpos5(cap_curve-stem_corr,0);
-penpos6(cap_band,-90); penpos7(cap_band,-90);
-z3r=top z1; y4=y3; y5=.51[y4,y6]; y6=y7;
-z7r=bot z2; x4=x6=.5w+.25u; x5r=hround(w-u);
-x4l:=x6l:=x4-.25cap_curve;
-fill stroke z3e..pulled_arc.e(4,5) & pulled_arc.e(5,6)..z7e; % lobe
-if serifs: nodish_serif(1,2,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- nodish_serif(2,1,c,1/3,cap_jut,d,1/3,.5cap_jut); fi % lower serif
-math_fit(0,ic#-.5u#); penlabels(1,2,3,4,5,6,7); endchar;
-
-cmchar "The letter E";
-beginchar("E",12u#-width_adj#,cap_height#,0);
-italcorr cap_height#*slant-beak_jut#-.5u#;
-adjust_fit(cap_serif_fit#,0);
-h:=vround(h-stem_corr);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-pickup crisp.nib; pos3(slab,90); pos4(hair,0);
-top y3r=h; x3=x1; rt x4r=hround(w-u); y4=good.y(y3l-beak)-eps;
-arm(3,4,e,beak_darkness,beak_jut); % upper arm and beak
-pos5(cap_bar,-90); pos6(hair,0);
-top y5l=vround(.52[y2,y1]+.5cap_bar); x5=x1;
-pos0(cap_bar,90); pos7(hair,0);
-z0=z5; x6=x7; y6-y5l=y0l-y7;
-if serifs: rt x6r=hround(w-4.4u+.5hair); y6=good.y(y5l+.6beak)+eps;
- rt x9r=hround(w-.5u);
-else: rt x6r=hround(w-1.5u); y6=y5l+eps; rt x9r=hround(w-.75u); fi
-arm(5,6,f,beak_darkness,0); arm(0,7,g,beak_darkness,0); % middle arm and serif
-pos8(slab if not serifs:+2stem_corr fi,-90); pos9(hair,0);
-bot y8r=0; x8=x2; y9=good.y(y8l+7/6beak)+eps;
-arm(8,9,h,beak_darkness,1.5beak_jut); % lower arm and beak
-if serifs: nodish_serif(1,2,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- nodish_serif(2,1,c,1/3,cap_jut,d,1/3,.5cap_jut); fi % lower serif
-math_fit(0,.5ic#); penlabels(0,1,2,3,4,5,6,7,8,9); endchar;
-
-cmchar "The letter F";
-beginchar("F",11.5u#-width_adj#,cap_height#,0);
-italcorr cap_height#*slant-beak_jut#-.25u#;
-adjust_fit(cap_serif_fit#,0);
-h:=vround(h-stem_corr);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-pickup crisp.nib; pos3(slab,90); pos4(hair,0);
-top y3r=h; x3=x1; rt x4r=hround(w-.75u); y4=good.y(y3l-beak)-eps;
-arm(3,4,e,beak_darkness,beak_jut); % upper arm and beak
-pos5(cap_bar,-90); pos6(hair,0);
-top y5l=vround(.5[y2,y1]+.5cap_bar); x5=x1;
-pos0(cap_bar,90); pos7(hair,0);
-z0=z5; x6=x7; y6-y5l=y0l-y7;
-if serifs: rt x6r=hround(w-4u+.5hair); y6=good.y(y5l+.6beak)+eps;
- rt x9r=hround(w-.5u);
-else: rt x6r=hround(w-1.5u); y6=y5l+eps; rt x9r=hround(w-.75u); fi
-arm(5,6,f,beak_darkness,0); arm(0,7,g,beak_darkness,0); % middle arm and serif
-if serifs: nodish_serif(1,2,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- dish_serif(2,1,c,1/3,cap_jut,d,1/3,1.25cap_jut); fi % lower serif
-math_fit(0,ic#-2.5u#); penlabels(0,1,2,3,4,5,6,7,8,9); endchar;
-
-cmchar "The letter G";
-if serifs: beginchar("G",14u#,cap_height#,0);
- italcorr cap_height#*slant-1.5u#-.5cap_serif_fit#;
- adjust_fit(0,.5cap_serif_fit#);
- pickup tiny.nib; pos0(cap_stem,0); pos7(cap_stem,0);
- rt x0r=hround(w-2u); y0=good.y(.1[bar_height,x_height]+1); x7=x0;
- pickup fine.nib;
- if hefty: bot y7=0; pos5(cap_stem,0); x5=x0; top y5=tiny.top y0;
- else: pos5(cap_hair,0); pos8(cap_stem,0);
- y7=.5bar_height; z5l=z8l; z8=z7; x9=x8r; bot y9=0;
- filldraw z8l{down}..{4(x9-x8),y9-y8}z9--z8r--cycle; fi % spur
- pos1(cap_hair,0); pos2(cap_band,90);
- pos3(cap_curve,180); pos4(cap_band,270);
- rt x1r=hround(w-2u); lft x3r=hround u; x2=x4=.55[x3,x1];
- top y2r=h+o; bot y4r=-o; y3=.5[y2,y4];
- bot y1=min(vround max(.6h,x_height-.5vair),bot y2l-eps);
- (x2l',y2l)=whatever[z2r,z1l]; x2l:=min(x2l',x2l+.5u);
- (x4l',y4l)=whatever[z4r,z5l]; x4l:=min(x4l',x4l+.5u);
- filldraw stroke z1e{x2-x1,10(y2-y1)}
- ...pulled_arc.e(2,3) & pulled_arc.e(3,4)...z5e{up}; % arc
- pos6(.3[fine.breadth,cap_hair],0); x6r=x1r; top y6=h+o;
- x1r-x1'=2cap_curve-fine; y1'=y1;
- path upper_arc; upper_arc=z1{x2-x1,10(y2-y1)}..z2{left};
- numeric t; t=xpart(upper_arc intersectiontimes (z6l--z1'));
- filldraw z1r--z6r--z6l--subpath(t,0) of upper_arc--cycle; % barb
- pickup tiny.nib; filldraw stroke z0e--z7e; % stem
- dish_serif(0,7,a,1/3,max(cap_jut,2.25u),b,1/3,1.25u); % serif
- math_fit(-.3cap_height#*slant-.5u#,ic#);
-else: beginchar("G",12u#,cap_height#,0);
- italcorr cap_height#*slant-.5u#;
- adjust_fit(0,0);
- pickup fine.nib; pos1(1.2flare,80); pos2(slab,90);
- pos3(cap_curve,180); pos4(slab,270); pos5(flare,270);
- rt x1r=hround(w-1.35u); x2=x4=.5w+u;
- lft x3r=hround max(u,2u-.5cap_curve); rt x5l=hround(w-1.2u);
- top y1r=vround .93h+o; top y2r=h+o; y3=.5h;
- bot y4r=-o; bot y5r=vround .07h-o;
- filldraw stroke rterm.e(2,1,right,.9,4)&super_arc.e(2,3)
- & super_arc.e(3,4) & term.e(4,5,right,1,4); % arc and terminals
- pos0(stem,0); pos7(stem,0);
- z7r=z5r; x0=x7; top y0=1+vround .35[bar_height,x_height];
- filldraw stroke z0e--z7e; % stem
- pos8(cap_bar,90); pos9(cap_bar,90);
- z0r=z9r; y8=y9; lft x8=hround x4;
- filldraw stroke z8e--z9e; % bar
- math_fit(-.3cap_height#*slant-.5u#,.5ic#); fi
-penlabels(0,1,1',2,3,4,5,6,7,8,9); endchar;
-
-cmchar "The letter H";
-beginchar("H",13u#+width_adj#,cap_height#,0);
-italcorr cap_height#*slant-cap_serif_fit#+cap_jut#-2.5u#+min(.5cap_stem#,u#);
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-pos3(cap_stem,0); pos4(cap_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem); x3=x4=w-x1;
-top y1=top y3=h; bot y2=bot y4=0;
-filldraw stroke z1e--z2e; % left stem
-filldraw stroke z3e--z4e; % right stem
-penpos5(cap_bar,90); penpos6(cap_bar,90);
-x5=x1; x6=x3; y5=y6=.52h;
-fill stroke z5e--z6e; % bar
-if serifs: numeric inner_jut;
- if rt x1r+cap_jut+.5u+1<=lft x3l-cap_jut: inner_jut=cap_jut;
- else: rt x1r+inner_jut+.5u+1=lft x3l-inner_jut; fi
- dish_serif(1,2,a,1/3,cap_jut,b,1/3,inner_jut); % upper left serif
- dish_serif(2,1,c,1/3,cap_jut,d,1/3,inner_jut); % lower left serif
- dish_serif(3,4,e,1/3,inner_jut,f,1/3,cap_jut); % upper left serif
- dish_serif(4,3,g,1/3,inner_jut,h,1/3,cap_jut); fi % lower left serif
-math_fit(0,.5ic#); penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The letter I";
-beginchar("I",max(6u#,4u#+cap_stem#),cap_height#,0);
-italcorr cap_height#*slant-.25u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-lft x1l=lft x2l=hround(.5w-.5cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-if serifs: dish_serif(1,2,a,1/3,1.05cap_jut,b,1/3,1.05cap_jut); % upper serif
- dish_serif(2,1,c,1/3,1.05cap_jut,d,1/3,1.05cap_jut); fi % lower serif
-math_fit(0,.5ic#); penlabels(1,2); endchar;
-
-cmchar "The letter J";
-beginchar("J",9u#,cap_height#,0);
-italcorr cap_height#*slant-cap_serif_fit#
- +.75cap_jut#-2.5u#+min(.5cap_stem#,u#);
-adjust_fit(0,cap_serif_fit#);
-pickup tiny.nib; pos1(cap_stem',0); pos2(cap_stem',0);
-top y1=h; rt x1r=hround(w-2u); x2=x1; y2=.21h;
-if serifs: pos3(vair,-90); pos4(cap_hair,-180);
- pos5(flare+(cap_stem-stem),-180);
- bot y3r=-o; x3=.5[x4,x2]; y5=1/6h; rt x5l=hround 2.75u; z5r=z4r;
- filldraw stroke z1e--z2e&super_arc.e(2,3); % stem and arc
- dish_serif(1,2,a,1/3,1.3cap_jut,b,1/3,.75cap_jut); % serif
- bulb(3,4,5); % bulb
-else: filldraw stroke z1e--z2e; % stem
- pickup fine.nib; pos3(cap_stem',0); z3=z2;
- pos4(flare,angle(6.5u,-h)); pos5(1.1flare,-100);
- bot y4r=-o; x4r=.5[x5r,x3r]; lft x5r=hround.75u; bot y5r=vround.06h-o;
- filldraw stroke z3e{down}....term.e(4,5,left,1,4); fi % arc and terminal
-math_fit(0,.5ic#-.5u#); penlabels(1,2,3,4,5); endchar;
-
-cmchar "The letter K";
-beginchar("K",13.5u#,cap_height#,0);
-italcorr cap_height#*slant-.5u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric right_jut,stem[],alpha[];
-if serifs: right_jut=.6cap_jut;
-else: right_jut=.4tiny; fi
-pickup tiny.nib; pos1(fudged.cap_stem,0); pos2(fudged.cap_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5fudged.cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-stem2=max(tiny.breadth,fudged.cap_stem-3stem_corr);
-stem1=max(tiny.breadth,fudged.hair if hefty:-3stem_corr fi);
-top y3=h; rt x3r=hround(r-letter_fit-u-right_jut);
-bot y6=0; rt x6r=hround(r-letter_fit-.75u-right_jut);
-x4=x1; y4=1/3h;
-alpha1=diag_ratio(1,.5(stem1-tiny),y3-y4,x3r-x4);
-penpos3(alpha1*(stem1-tiny),0); penpos4(whatever,-90);
-alpha2=diag_ratio(1,.5(stem2-tiny),y1-y6,x6r-x1);
-penpos6(alpha2*(stem2-tiny),0);
-forsuffixes $=l,r: y3'$=h; y6'$=0; z4$=z3'$+whatever*(z3-z4);
- z5$=z6'$+whatever*(z1-z6)=whatever[z3,z4]; endfor
-z5=.5[z5l,z5r];
-z3'r=z3r+penoffset z3-z4 of currentpen+whatever*(z3-z4);
-% we have also |z3'l=z3l+penoffset z4-z3 of currentpen+whatever*(z3-z4)|;\]
-z6'r=z6r+penoffset z1-z6 of currentpen+whatever*(z1-z6);
-z6'l=z6l+penoffset z6-z1 of currentpen+whatever*(z1-z6);
-fill z4r--diag_end(4r,3'r,1,.5,3'l,4l)--z4l--cycle; % upper diagonal
-fill z5l--diag_end(5l,6'l,.5,1,6'r,5r)--z5r--cycle; % lower diagonal
-if serifs: numeric inner_jut;
- if rt x2r+cap_jut+.5u+1<=lft x6l-cap_jut: inner_jut=cap_jut;
- else: rt x2r+cap_jut+.5u+1=lft x6l-inner_jut; fi
- dish_serif(1,2,a,1/3,cap_jut,b,1/3,cap_jut); % upper stem serif
- dish_serif(2,1,c,1/3,cap_jut,d,1/3,cap_jut); % lower stem serif
- dish_serif(3,4,e,2/3,1.2cap_jut,f,1/2,right_jut)(dark); % upper diagonal serif
- dish_serif(6,5,g,1/2,inner_jut,h,1/3,right_jut)(dark);fi % lower diagonal serif
-math_fit(0,.5ic#); penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The letter L";
-beginchar("L",11u#-width_adj#,cap_height#,0);
-adjust_fit(cap_serif_fit#,0);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-pickup crisp.nib; pos3(slab,-90); pos4(hair,0);
-bot y3r=0; x3=x2; y4=y3l+7/6beak+eps; rt x4r=hround(w-.75u);
-arm(3,4,e,1.2beak_darkness,beak_jut); % lower arm and beak
-if serifs: dish_serif(1,2,a,1/3,cap_jut,b,1/3,1.25cap_jut); % upper serif
- nodish_serif(2,1,c,1/3,cap_jut,d,1/3,.5cap_jut); fi % lower serif
-math_fit(0,u#); penlabels(1,2,3,4); endchar;
-
-cmchar "The letter M";
-beginchar("M",16u#+width_adj#,cap_height#,0);
-italcorr cap_height#*slant-cap_serif_fit#+cap_jut#-2.5u#+min(.5cap_stem#,u#);
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric stem[]; % thicknesses of the four strokes
-stem1=hround(fudged.hair+stem_corr);
-stem2=hround(fudged.cap_stem-4stem_corr);
-stem3=hround(fudged.hair-stem_corr);
-stem4=hround(fudged.cap_stem-3stem_corr);
-if stem4<stem1: stem4:=stem1; fi
-pickup tiny.nib; pos1(stem1,0); pos2(stem1,0);
-pos3(stem4,0); pos4(stem4,0);
-x1=x2; x3=x4; x1l=w-x3r; rt x3r=hround min(w-2u,w-3u+.5stem4);
-top y1=top y3=h; bot y2=bot y4=0;
-filldraw stroke z1e--z2e; % left stem
-filldraw stroke z3e--z4e; % right stem
-penpos5(stem2,0); penpos6(stem2,0); penpos7(stem3,0); penpos8(stem3,0);
-x5l=x1; x6l=x7l; x8=lft x3l; x6-x5=x8-x7; y5=y8=h; y6=y7;
-if hefty: y6=if monospace: vround 1/3h else: o fi;
- numeric upper_notch,lower_notch;
- upper_notch=h-cap_notch_cut; lower_notch=y6+cap_notch_cut;
- x1'=rt x1r; z1'=whatever[z5l,z6l]; x3'=lft x3l; z3'=whatever[z7r,z8r];
- z0=whatever[z5r,z6r]=whatever[z7l,z8l];
- fill z5l..
- if y1'<upper_notch: {right}(x1'+1,upper_notch){down}... fi
- {z6-z5}diag_in(5l,6l,1,6r)..diag_out(7l,1,7r,8r){z8-z7}
- if y3'<upper_notch: ...{up}(x3'-1,upper_notch){right} fi
- ..z8r--diag_out(8r,1,8l,7l){z7-z8}
- if y0<=lower_notch: ..{z7-z8}z0{z5-z6}..
- else: ...{down}(x0+.5,lower_notch)--(x0-.5,lower_notch){up}... fi
- {z5-z6}diag_in(6r,5r,1,5l)--cycle; % diagonals
-else: y6=0; z0=whatever[z5r,z6r]=whatever[z7l,z8l];
- fill z5l..{z6-z5}diag_in(5l,6l,1,6r)..diag_out(7l,1,7r,8r){z8-z7}
- ..z8r--diag_out(8r,1,8l,7l){z7-z8}..{z7-z8}z0{z5-z6}
- ..{z5-z6}diag_in(6r,5r,1,5l)--cycle; fi % diagonals
-if serifs: serif(1,2,a,1/3,-cap_jut); % upper left serif
- dish_serif(2,1,b,1/2,cap_jut,c,1/2,cap_jut)(dark); % lower left serif
- serif(3,4,d,1/3,cap_jut); % upper right serif
- dish_serif(4,3,e,1/3,cap_jut,f,1/3,cap_jut); fi % lower right serif
-math_fit(0,max(.5ic#-.5u#,0));
-penlabels(0,1,1',2,3,3',4,5,6,7,8); endchar;
-
-cmchar "The letter N";
-beginchar("N",13u#+width_adj#,cap_height#,0);
-italcorr cap_height#*slant-cap_serif_fit#+cap_jut#-2.5u#+min(.5cap_stem#,u#);
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric thin_stem; thin_stem=hround(fudged.hair+stem_corr);
-pickup tiny.nib; pos1(thin_stem,0); pos2(thin_stem,0);
-pos3(thin_stem,0); pos4(thin_stem,0);
-pickup tiny.nib; top y1=top y3=h; bot y2=bot y4=0;
-x1=x2; x3=x4; x1l=w-x3r;
-rt x3r=hround min(w-2u,w-3u+.5fudged.cap_stem);
-filldraw stroke z1e--z2e; % left stem
-filldraw stroke z3e--z4e; % right stem
-if hefty: penpos5(fudged.cap_stem,0); penpos6(fudged.cap_stem,0);
- x5l=x1; x6r=x4; y5=h; y6=0;
- numeric upper_notch,lower_notch;
- upper_notch=h-cap_notch_cut; lower_notch=cap_notch_cut;
- x1'=rt x1r; z1'=whatever[z5l,z6l]; x4'=lft x4l; z4'=whatever[z5r,z6r];
- fill z5l..
- if y1'<upper_notch: {right}(x1'+1,upper_notch){down}... fi
- {z6-z5}diag_in(5l,6l,1,6r)--z6r..
- if y4'>lower_notch: {left}(x4'-1,lower_notch){up}... fi
- {z5-z6}diag_in(6r,5r,1,5l)--cycle; % diagonal
-else: penpos5(whatever,0); penpos6(whatever,90);
- z5l=z1l; z6l=z4l;
- z7=z6l+(max(eps,cap_stem-3stem_corr-tiny),0) rotated (angle(z5l-z6l)-90);
- z5r=z7+whatever*(z5l-z6l); z6r=z7+whatever*(z5l-z6l);
- filldraw stroke z5e..z6e; fi % diagonal
-if serifs: if hefty: serif(1,2,a,1/3,-cap_jut); % upper left serif
- else: serif(5,6,a,1/3,-cap_jut); fi % upper left serif
- dish_serif(2,1,b,1/2,cap_jut,c,1/2,cap_jut)(dark); % lower left serif
- dish_serif(3,4,e,1/2,cap_jut,f,1/2,cap_jut)(dark); fi % upper right serif
-math_fit(0,max(.5ic#-.5u#,0)); penlabels(1,1',2,3,4,4',5,6,7); endchar;
-
-cmchar "The letter O";
-beginchar("O",14u#-width_adj#,cap_height#,0);
-italcorr .7cap_height#*slant-.5u#;
-adjust_fit(0,0);
-penpos1(vair',90); penpos3(vround(vair+1.5vair_corr),-90);
-penpos2(cap_curve,180); penpos4(cap_curve,0);
-if monospace: x2r=hround 1.5u;
- interim superness:=sqrt superness; % make |"O"|, not |"0"|
-else: x2r=hround u; fi
-x4r=w-x2r; x1=x3=.5w; y1r=h+o; y3r=-o;
-y2=y4=.5h-vair_corr; y2l:=y4l:=.52h;
-penstroke pulled_super_arc.e(1,2)(.5superpull)
- & pulled_super_arc.e(2,3)(.5superpull)
- & pulled_super_arc.e(3,4)(.5superpull)
- & pulled_super_arc.e(4,1)(.5superpull) & cycle; % bowl
-math_fit(-.3cap_height#*slant-.5u#,ic#-.5u#); penlabels(1,2,3,4); endchar;
-
-cmchar "The letter P";
-beginchar("P",12u#,cap_height#,0);
-italcorr .75cap_height#*slant-.5u#;
-adjust_fit(cap_serif_fit#,0);
-pickup tiny.nib; penpos1(cap_stem'-tiny,0); penpos2(cap_stem-tiny,0);
-pos0(cap_stem',0); pos0'(cap_stem,0);
-lft x1l=hround max(2u,3u-.5cap_stem'); top y1=h; bot y2=0;
-x1l=x2l=x0l=x0'l; y0=y0'=y7;
-penpos3(cap_band,90); penpos4(cap_band,90);
-penpos5(cap_curve if hefty:-3stem_corr fi,0);
-penpos6(.5[vair,cap_band],-90); penpos7(.5[vair,cap_band],-90);
-z3r=top z1; y4=y3; y5=.5[y4l,y6l]; y6=y7;
-x7=x2; y7l=vround .5h; x4=x6=.5w+.75u; x5r=hround(w-u);
-x4l:=x6l:=x4-.25cap_curve;
-filldraw stroke z1e--z0e--z0'e--z2e; % stem
-fill stroke z3e..pulled_arc.e(4,5) & pulled_arc.e(5,6)..z7e; % lobe
-if serifs: nodish_serif(1,0,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- dish_serif(2,0',c,1/3,cap_jut,d,1/3,cap_jut); fi % lower serif
-math_fit(0,ic#-2.5u#); penlabels(0,1,2,3,4,5,6,7); endchar;
-
-cmchar "The letter Q";
-beginchar("Q",14u#-width_adj#,cap_height#,comma_depth#);
-italcorr .7cap_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric light_curve; light_curve=cap_curve-hround stem_corr;
-penpos1(vair',90); penpos3(vair',-90);
-penpos2(light_curve,180); penpos4(light_curve,0);
-if monospace: x2r=hround 1.5u;
- interim superness:=sqrt superness; % make |"Q"| like |"O"|
-else: x2r=hround u; fi
-x4r=w-x2r; x1=x3=.5w; y1r=h+o; y2=y4=.5h-vair_corr; y3r=-o;
-penstroke pulled_super_arc.e(1,2)(.5superpull)
- & pulled_super_arc.e(2,3)(.5superpull)
- & pulled_super_arc.e(3,4)(.5superpull)
- & pulled_super_arc.e(4,1)(.5superpull) & cycle; % bowl
-pickup tiny.nib;
-if hefty: penpos5(1.2(.5[cap_bar,light_curve]),0); penpos6(1.2light_curve,0);
- x5=.5w; x6r=hround(w-1.5u);
- y5=vround .28h; y6=-d;
- fill diag_end(6r,5r,.25,1,5l,6l)--diag_end(5l,6l,.5,1,6r,5r)--cycle; % tail
-else: pos3'(vair,270); pos5(vair,180); pos6(vair,90);
- pos7(cap_curve,85); penpos8(eps,180);
- z3'=z3; x6=x3; top y6r=vround(.2h+.5vair);
- lft x5r=hround(.5w-1.25u-.5vair); y5=.5[y3,y6];
- bot y7l=-d; x7l=2/3[x6,x8]; y8=0; rt x8=hround(x4r+.1u);
- filldraw stroke z3'e{left}...z5e{up}...z6e{right}
- ..z7e{right}...z8e{up}; fi % tail
-math_fit(-.3cap_height#*slant-.5u#,ic#); penlabels(1,2,3,4,5,6,7); endchar;
-
-cmchar "The letter R";
-beginchar("R",if serifs: 12u#+.5max(2u#,cap_curve#)
- else:12.5u#-.5width_adj# fi,cap_height#,0);
-italcorr .75cap_height#*slant- if serifs: 1.75 else: .5 fi\\ u#;
-adjust_fit(cap_serif_fit#,0);
-pickup tiny.nib; pos1(cap_stem',0); pos2(cap_stem',0);
-lft x1l=lft x2l=hround max(2u,3u-.5cap_stem'); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-penpos3(cap_band,90); penpos4(cap_band,90);
-penpos5(cap_curve if hefty:-3stem_corr fi,0);
-penpos6(vair,-90); penpos7(vair,-90);
-z3r=top z1; y4=y3; y5=.5[y4l,y6l]; y6=y7;
-x7=x2; y7l=vround(.5h+.5vair); x4=x6;
-if serifs: x4=.5w-.5u; x5r=hround(w-2.25u);
-else: x4=.5w+.5u; x5r=hround(w-u); fi
-x4l:=x6l:=x4-.125cap_curve;
-fill stroke z3e..pulled_arc.e(4,5) & pulled_arc.e(5,6)..z7e; % lobe
-if serifs: pos6'(vair,-90); pos0(cap_stem,180);
- pos8(cap_curve,180); pos9(vair,-90); pos10(hair,0);
- z6'=z6; lft x0r=lft x8r=hround(x5-2/3u-.5cap_curve);
- y8=1/3[y2,y7]; y0=3/5[y2,y7]; x9=.5[x8l,x10r];
- bot y9r=-o; rt x10r=hround(w-.05u); y10=1/4[y2,y7];
- filldraw stroke z6'e{right}..z0e---z8e....z9e{right}..z10e{up}; % tail
- nodish_serif(1,2,a,1/3,cap_jut,b,1/3,.5cap_jut); % upper serif
- dish_serif(2,1,c,1/3,cap_jut,d,1/3,cap_jut); % lower serif
-else: penpos8(cap_stem-2stem_corr,0); penpos9(cap_stem,0);
- x8=x6+.5u; y8=y6; x9r=hround(w-.5u); y9=0;
- fill z8l--diag_end(8l,9l,.5,1,9r,8r)--z8r--cycle; fi % tail
-math_fit(0,.75ic#); penlabels(0,1,2,3,4,5,6,7,8,9,10); endchar;
-
-cmchar "The letter S";
-beginchar("S",10u#,cap_height#,0);
-italcorr cap_height#*slant-u#;
-adjust_fit(0,0);
-numeric theta; theta=90-angle(50u,h); slope:=-h/50u; % angle at middle
-numeric s_slab; s_slab=if serifs:slab else:vround .2[slab,cap_stem] fi;
-numeric ess'; ess'=max(fine.breadth,cap_ess);
-pickup fine.nib; pos2(max(fine.breadth,s_slab-vround vair_corr),-90);
-pos0(ess',theta); pos7(s_slab,-90);
-x2+x7=2x0=w; x7-x2=if serifs: u else: 0 fi; top y2l=h+o; bot y7r=-o;
-y0=.52h; lft x3l=hround u; rt x6r=hround(w-u);
-x3r-x3l=x6r-x6l=hround .5[s_slab,ess']-fine;
-ellipse_set(2l,3l,4l,0l); ellipse_set(2r,3r,4r,0r); y3=y3r;
-ellipse_set(7l,6l,5l,0l); ellipse_set(7r,6r,5r,0r); y6=y6r;
-filldraw stroke super_arc.e(2,3) & z3e{down}
- ..z4e---z5e..z6e{down} & super_arc.e(6,7); % main stroke
-if serifs: pos1(hair,180); pos8(hair,180);
- rt x1l=hround(w-1.5u); lft x8r=hround u;
- bot y1=vround 2/3h+1; top y8=vround 1/3h-1;
- filldraw stroke z1e{x2-x1,10(y2-y1)}....{left}z2e; % upper arc
- filldraw stroke z7e{left}....{up}z8e; % lower arc
- path upper_arc, lower_arc;
- upper_arc=z1{x2-x1,10(y2-y1)}....{left}z2;
- lower_arc=z7{left}....{up}z8;
- pos10(.3[fine.breadth,cap_hair],0); pos9(.3[fine.breadth,cap_hair],0);
- x10r=x1l; top y10=top y2l; x9l=x8r; bot y9=bot y7r;
- x1l-x1'=x8'-x8r=1.6cap_curve-fine; y1'=y1; y8'=y8;
- numeric t; t=xpart(upper_arc intersectiontimes(z10l--z1'));
- filldraw z1l--z10r--z10l--subpath(t,0) of upper_arc--cycle; % upper barb
- t:=xpart(lower_arc intersectiontimes(z9r--z8'));
- filldraw z8r--z9l--z9r--subpath(t,1) of lower_arc--cycle; % lower barb
-else: pos1(1.2flare,-100); pos8(1.2flare,-100);
- x1l=good.x(x1l+w-1.75u-rt x1); lft x8r=hround .8u;
- top y1l=vround .93h+o; bot y8r=vround .1h-o;
- filldraw stroke term.e(2,1,right,.9,4); % upper arc and terminal
- filldraw stroke term.e(7,8,left,1,4); fi % lower arc and terminal
-math_fit(0,.5ic#); penlabels(0,1,1',2,3,4,5,6,7,8,8',9,10); endchar;
-
-cmchar "The letter T";
-beginchar("T",13u#-width_adj#,cap_height#,0);
-italcorr cap_height#*slant-beak_jut#-.25u#;
-adjust_fit(0,0);
-h:=vround(h-2stem_corr);
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-lft x1l=lft x2l=hround(.5w-.5cap_stem); top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-pickup crisp.nib; pos3(slab,90); pos4(hair,0);
-top y3r=h; x3=x1; rt x4r=hround(w-.65u); y4=good.y(y3l-beak)-eps;
-arm(3,4,e,beak_darkness,.7beak_jut); % right arm and beak
-pos5(hair,180); x5=w-x4; y5=y4;
-arm(3,5,f,beak_darkness,-.7beak_jut); % left arm and beak
-if serifs: dish_serif(2,1,c,1/3,1.414cap_jut,d,1/3,1.414cap_jut); % lower serif
- nodish_serif(1,2,a,1/3,.5cap_jut,b,1/3,.5cap_jut); fi % upper bracketing
-math_fit(-.75cap_height#*slant,ic#-2.5u#); penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The letter U";
-beginchar("U",13u#+.5width_adj#,cap_height#,0);
-italcorr cap_height#*slant-cap_serif_fit#+cap_jut#-2.5u#+min(.5cap_stem#,u#);
-if monospace: adjust_fit(cap_serif_fit#-.5u#,cap_serif_fit#-.5u#)
-else: adjust_fit(cap_serif_fit#,cap_serif_fit#) fi;
-pickup tiny.nib; pos1(cap_stem,0); pos2(cap_stem,0);
-pos2'(cap_stem,180); z2'=z2;
-pos3(cap_band,-90);
-pos4(cap_hair,0); pos5(cap_hair,0);
-x1=x2; x3=.5[x1,x5]; x4=x5; x1l=w-x5r;
-top y1=top y5=h; y2=y4=1/3h; bot y3r=-o;
-lft x1l=hround max(2u,3u-.5cap_stem);
-filldraw stroke z1e--z2e; % left stem
-filldraw stroke pulled_arc.e(2',3)
- & pulled_arc.e(3,4)&z4e--z5e; % arc and right stem
-if serifs: dish_serif(1,2,a,1/3,cap_jut,b,1/3,cap_jut); % left serif
- dish_serif(5,4,c,1/2,cap_jut,d,1/2,cap_jut)(dark); fi % right serif
-math_fit(-cap_serif_fit#-.3cap_height#*slant-min(cap_height#*slant,u#),
- max(.5ic#-.5u#,0)); penlabels(1,2,3,4,5); endchar;
-
-cmchar "The letter V";
-beginchar("V",13u#,cap_height#,0);
-italcorr cap_height#*slant+.25u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric left_stem,right_stem,outer_jut,alpha;
-left_stem=cap_stem-stem_corr;
-right_stem=min(cap_hair if hefty:-2stem_corr fi,left_stem);
-outer_jut=.75cap_jut; x1l=w-x4r=l+letter_fit+outer_jut+.25u; y1=y4=h;
-x2-x1=x4-x3; x2l+apex_corr=x3l; y2=y3=-apex_o;
-alpha=diag_ratio(2,right_stem,y1-y2,x4r-x1l-apex_corr);
-penpos1(alpha*left_stem,0); penpos2(alpha*left_stem,0);
-penpos3(alpha*right_stem,0); penpos4(alpha*right_stem,0);
-z0=whatever[z1r,z2r]=whatever[z3l,z4l];
-if y0>cap_notch_cut: y0:=cap_notch_cut;
- fill z0+.5right{up}...{z4-z3}diag_end(3l,4l,1,1,4r,3r)
- --diag_end(4r,3r,1,1,2l,1l)--diag_end(2l,1l,1,1,1r,2r){z2-z1}
- ...{down}z0+.5left--cycle; % left and right diagonals
-else: fill z0--diag_end(0,4l,1,1,4r,3r)--diag_end(4r,3r,1,1,2l,1l)
- --diag_end(2l,1l,1,1,1r,0)--cycle; fi % left and right diagonals
-if serifs: numeric inner_jut; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(4,3);
- if rt x1'r+cap_jut+.5u+1<=lft x4'l-cap_jut: inner_jut=cap_jut;
- else: rt x1'r+inner_jut+.5u+1=lft x4'l-inner_jut; fi
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut); % left serif
- dish_serif(4',3,c,.6,inner_jut,d,1/2,outer_jut)(dark); fi % right serif
-math_fit(.75u#-cap_height#*slant,ic#-4u#); penlabels(0,1,2,3,4); endchar;
-
-cmchar "The letter W";
-beginchar("W",18u#,cap_height#,0);
-italcorr cap_height#*slant+.25u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric stem[],outer_jut,upper_notch,alpha,mid_corr;
-outer_jut=.7cap_jut; x1l=w-x8r=l+letter_fit+outer_jut+.25u;
-stem1=fudged.cap_stem-stem_corr;
-stem4=min(fudged.hair if hefty:-2stem_corr fi,stem1);
-stem2=stem4 if hefty:-2stem_corr fi;
-stem3=stem1 if hefty:-2stem_corr fi;
-x2-x1=x4-x3=x6-x5=x8-x7; x2l+apex_corr=x3l; x6l+apex_corr=x7l;
-y1=y8=h; y2=y3=y6=y7=-apex_o; y4=y5=if monospace: vround .6 fi\\ h;
-mid_corr=if monospace or hefty:-apex_corr else: 1/3jut fi;
-alpha=diag_ratio(4,stem2-stem3+stem4,y1-y2,x8r-x1l+mid_corr-2apex_corr);
-penpos1(alpha*stem1,0); penpos2(alpha*stem1,0);
-penpos3(alpha*stem2,0); penpos4(alpha*stem2,0);
-penpos5(alpha*stem3,0); penpos6(alpha*stem3,0);
-penpos7(alpha*stem4,0); penpos8(alpha*stem4,0);
-x4l-x1l=floor(x4l-x1l+.5(x5r+mid_corr-x4r)); % |x5r+mid_corr| $\approx$ |x4r|
-z23=whatever[z1r,z2r]=whatever[z3l,z4l];
-z45=whatever[z3r,z4r]=whatever[z5l,z6l];
-z67=whatever[z5r,z6r]=whatever[z7l,z8l]; upper_notch=y4-cap_notch_cut;
-fill diag_end(1l,2l,1,1,3r,4r){z4-z3}
- ...if y45<upper_notch:(x45,upper_notch)+.5left{up}
- --(x45,upper_notch)+.5right{down} else: z45&z45 fi
- ...{z6-z5}diag_end(5l,6l,1,1,7r,8r)--diag_end(7r,8r,1,1,8l,7l){z7-z8}
- ...if y67>cap_notch_cut:(x67,cap_notch_cut)+.5right{down}
- --(x67,cap_notch_cut)+.5left{up} else: z67&z67 fi
- ...{z5-z6}special_diag_end(6,5,4,3){z3-z4}
- ...if y23>cap_notch_cut:(x23,cap_notch_cut)+.5right{down}
- --(x23,cap_notch_cut)+.5left{up} else: z23&z23 fi
- ...{z1-z2}diag_end(2r,1r,1,1,1l,2l)--cycle; % diagonals
-if serifs: numeric inner_jut[]; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(5,6); prime_points_inside(8,7);
- if monospace: inner_jut1=inner_jut4=1.5cap_jut;
- elseif hefty: inner_jut1=inner_jut4=cap_jut;
- else: fill diag_end(6r,5r,1,1,5l,6l)
- --.5[z5l,z6l]--.5[z5r,z6r]--cycle; % middle stem
- inner_jut2=.7inner_jut1; inner_jut4=1.1inner_jut3;
- if rt x1'r+cap_jut+.5u+1<=lft x5'l-.7cap_jut: inner_jut1=cap_jut;
- else: rt x1'r+inner_jut1+.5u+1=lft x5'l-inner_jut2; fi
- if rt x5'r+cap_jut+.5u+1<=lft x8'l-1.1cap_jut: inner_jut3=cap_jut;
- else: rt x5'r+inner_jut3+.5u+1=lft x8'l-inner_jut4; fi
- dish_serif(5',6,e,1/3,inner_jut2,f,1/2,inner_jut3); fi % middle serif
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut1); % left serif
- dish_serif(8',7,c,.6,inner_jut4,d,1/2,outer_jut)(dark); fi % right serif
-math_fit(.75u#-cap_height#*slant,ic#-2.5u#);
-penlabels(0,1,2,3,4,5,6,7,8,23,45,67); endchar;
-
-cmchar "The letter X";
-beginchar("X",13u#,cap_height#,0);
-italcorr cap_height#*slant-.25u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric stem[],outer_jut,xjut,alpha[];
-stem1=cap_stem-2stem_corr; stem2=min(cap_hair,stem1);
-outer_jut=.75cap_jut; xjut= if serifs: (stem1-stem2)/4 else: 0 fi;
-x1l=l+letter_fit+.5u+outer_jut; x2r=r-letter_fit-u-outer_jut-xjut;
-x3l=l+letter_fit+.25u+outer_jut+xjut; x4r=r-letter_fit-.25u-outer_jut;
-y1=y2=h; y3=y4=0;
-alpha1=diag_ratio(1,stem1,h,x4r-x1l);
-alpha2=diag_ratio(1,stem2,h,x2r-x3l);
-penpos1(alpha1*stem1,0); penpos2(alpha2*stem2,0);
-penpos3(alpha2*stem2,0); penpos4(alpha1*stem1,0);
-if hefty: z0=whatever[z1,z4]=whatever[z2,z3];
- x12=x34=x0; y13=y24=y0;
- z12=whatever[z2l,z3l]; z13=whatever[z2l,z3l];
- z24=whatever[z2r,z3r]; z34=whatever[z2r,z3r];
- forsuffixes $=13,24,34: z$'=.1[z$,z0]; endfor
- fill diag_end(12,1r,.5,1,1l,13')--z13'--diag_end(13',3l,1,.5,3r,34')--z34'
- --diag_end(34',4l,.5,1,4r,24')--z24'
- --diag_end(24',2r,1,.5,2l,12)--z12--cycle; % diagonals
-else: fill diag_end(4r,1r,.5,1,1l,4l)
- --diag_end(1l,4l,.5,1,4r,1r)--cycle; % left diagonal
- fill diag_end(2l,3l,.5,1,3r,2r)
- --diag_end(3r,2r,.5,1,2l,3l)--cycle; fi % right diagonal
-if serifs: numeric inner_jut[]; pickup tiny.nib;
- prime_points_inside(1,4); prime_points_inside(2,3);
- prime_points_inside(3,2); prime_points_inside(4,1);
- if rt x1'r+cap_jut+.5u+1<=lft x2'l-cap_jut-xjut: inner_jut1=cap_jut;
- else: rt x1'r+inner_jut1+.5u+1=lft x2'l-inner_jut1-xjut; fi
- if rt x3'r+cap_jut+.5u+1<=lft x4'l-cap_jut-xjut: inner_jut2=cap_jut;
- else: rt x3'r+inner_jut2+.5u+1=lft x4'l-inner_jut2-xjut; fi
- dish_serif(1',4,a,1/3,outer_jut,b,2/3,inner_jut1); % upper left serif
- dish_serif(4',1,c,2/3,inner_jut2,d,1/3,outer_jut); % lowers right serif
- dish_serif(2',3,e,2/3,inner_jut1+xjut,
- f,1/2,outer_jut+xjut)(dark); % upper right serif
- dish_serif(3',2,g,1/2,outer_jut+xjut,
- h,2/3,inner_jut2+xjut)(dark); fi % lower left serif
-math_fit(0,.5ic#); penlabels(0,1,2,3,4,12,13,24,34); endchar;
-
-cmchar "The letter Y";
-beginchar("Y",13u#,cap_height#,0);
-italcorr cap_height#*slant+.45u#;
-adjust_fit(cap_serif_fit#,cap_serif_fit#);
-numeric left_stem,right_stem,outer_jut,dy,alpha;
-left_stem=cap_stem-stem_corr;
-right_stem=min(cap_hair if hefty:-2stem_corr fi,left_stem);
-outer_jut=.75cap_jut; x1l=w-x4r=l+letter_fit+outer_jut+.05u;
-x2l=x5l=hround(.5w-.5left_stem); x3r=x5r; y1=y4=h; y2=y3=y5=.4h;
-dy=y1-y2; alpha=((x2l-x1l)++dy)/dy;
-penpos1(alpha*left_stem,0); penpos2(alpha*left_stem,0);
-penpos3(alpha*right_stem,0); penpos4(alpha*right_stem,0);
-penpos5(left_stem,0); penpos6(left_stem,0); x5=x6; y6=0;
-z0=whatever[z1r,z2r]=whatever[z3l,z4l];
-if y0>y2+cap_notch_cut: y0:=y2+cap_notch_cut;
- fill z0+.5right{up}...{z4-z3}diag_end(3l,4l,1,1,4r,3r)--z5r
- --diag_end(5r,6r,1,1,6l,5l)--z5l--diag_end(2l,1l,1,1,1r,2r){z2-z1}
- ...{down}z0+.5left--cycle; % diagonals and stem
-else: fill z0--diag_end(0,4l,1,1,4r,3r)--z5r
- --diag_end(5r,6r,1,1,6l,5l)--z5l
- --diag_end(2l,1l,1,1,1r,0)--cycle; fi % diagonals and stem
-if serifs: numeric inner_jut; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(4,3); prime_points_inside(6,5);
- if rt x1'r+cap_jut+.5u+1<=lft x4'l-cap_jut: inner_jut=cap_jut;
- else: rt x1'r+inner_jut+.5u+1=lft x4'l-inner_jut; fi
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut); % upper left serif
- dish_serif(4',3,c,.6,inner_jut,d,1/2,outer_jut)(dark); % upper right serif
- dish_serif(6',5,e,1/3,cap_jut,f,1/3,cap_jut); fi % lower serif
-math_fit(.5u#-cap_height#*slant,ic#-4u#);
-penlabels(0,1,2,3,4,5,6); endchar;
-
-cmchar "The letter Z";
-beginchar("Z",11u#,cap_height#,0);
-italcorr cap_height#*slant-.5u#;
-adjust_fit(0,0);
-numeric arm_thickness[],z_stem;
-if hefty: arm_thickness1=Vround(slab-vair_corr); arm_thickness2=slab;
- z_stem=.8[vair,cap_stem];
-else: arm_thickness1=slab; arm_thickness2=vround(slab+vair_corr);
- z_stem=.9[vair,cap_stem]; fi
-pickup tiny.nib; x3l=x4l=w-x1r=w-x2r; lft x3l=hround u;
-top y1=h; y2=min(y1,h-2/3arm_thickness1);
-bot y4=0; y3=max(y4,2/3arm_thickness2);
-numeric alpha; alpha=diag_ratio(1,z_stem-tiny,y2-y3,x2r-x3l);
-penpos1(alpha*(z_stem-tiny),0); penpos2(alpha*(z_stem-tiny),0);
-penpos3(alpha*(z_stem-tiny),0); penpos4(alpha*(z_stem-tiny),0);
-pair delta; delta=penoffset z3-z2 of currentpen;
-fill top lft z1l--z2l+delta---z3l+delta..lft z3l---lft z4l..bot z4l
- ---bot rt z4r--z3r-delta---z2r-delta..rt z2r---rt z1r..top z1r
- ---cycle; % diagonal
-pickup crisp.nib; pos5(arm_thickness1,90); pos6(hair,180);
-top y5r=h; x5=x1; lft x6r=hround 1.25u; y6=good.y(y5l-beak)-eps;
-arm(5,6,a,beak_darkness**.8,-.4beak_jut); % upper arm and beak
-pos7(arm_thickness2,-90); pos8(hair,0);
-bot y7r=0; x7=x4; rt x8r=hround(w-.9u); y8=good.y(y7l+1.2beak)+eps;
-arm(7,8,b,beak_darkness**.9,.6beak_jut); % lower arm and beak
-math_fit(0,.5ic#); penlabels(1,2,3,4,5,6,7,8); endchar;
-
- % R O M A N U ends %
-
-
-
- %=============================================%
- % The last characters are from R O M A N L %
- %=============================================%
-
-
-
-% Computer Modern Roman lower case:
-% These letters were originally coded by D. E. Knuth in November, 1979,
-% inspired by the Monotype faces used in {\sl The Art of Computer Programming}.
-% Sans serif designs by Richard Southall were added in April, 1982.
-% The programs were revised for the new \MF\ conventions in 1985.
-
-% Character codes \0141 through \0172 are generated.
-
-cmchar "The letter a";
-beginchar("a",9u#,x_height#,0);
-bh#:=min(bar_height#,1.14x_height#-bar_height#); define_pixels(bh);
-italcorr 1/3[bh#,x_height#]*slant+.5stem#-serif_fit#-2u#;
-adjust_fit(0,serif_fit# if serifs: if hair#+.5stem#>1.5u#:-.25u# fi\\fi);
-pickup fine.nib; top y3r=h+vround 1.5oo;
-if serifs: pos1(flare,180); pos2(hair,180);
- pos3(vair,90); lft x1r=hround max(u,2.1u-.5flare); x3=.5w-.5u;
- y1=min(bh+.5flare+2vair+2,.9[bh,h]-.5flare);
- bulb(3,2,1); % bulb
-else: pos1(5/7[vair,flare],95); x1l=good.x 1.5u; x1r:=good.x x1r;
- pos3(1/8[vair,thin_join],90);
- x3=.5w-.2u; top y1r=vround .82[bh,top y3r];
- filldraw stroke term.e(3,1,left,.9,4); fi % terminal
-pos4(stem,0); rt x4r=hround(w-2.5u+.5stem); y4=1/3[bh,h];
-pos5(stem,0); x5=x4; y5=max(.55bh,2vair);
-filldraw stroke super_arc.e(3,4)&z4e..z5e; % arc and stem
-pos6(.3[thin_join,vair],90); x6=x4; bot y6=bh;
-pos7(hround(curve-2stem_corr),180);
-lft x7r=hround max(.5u,1.5u-.5curve); y7=1/3[top y8l,top y6r];
-pos8(vair,270); x8l=.5w-.75u; bot y8r=-oo;
-pos9(thin_join,360); z9l=z5l;
-(x,y8r)=whatever[z8l,z9l]; x8r:=max(x,x8-u);
-{{interim superness:=more_super;
- filldraw stroke z9e{down}...z8e{left}...{up}z7e&super_arc.e(7,6)}}; % bowl
-if serifs: numeric shaved_stem; shaved_stem=hround(stem-3stem_corr);
- if hair#+.5stem#>1.5u#: pickup tiny.nib;
- pos5'(shaved_stem,0); rt x5'r=fine.rt x5r; y5'=y5;
- pos10(shaved_stem,0); x10=x5'; y10=.2[.5tiny,bh];
- pos11(shaved_stem,0); rt x11r=hround(w-.25u); bot y11=0;
- pos12(shaved_stem,0); x11=x12; top y12=slab+eps;
- filldraw z5'l---z10l...z11l{right}--z11r
- --z12r{left}...z10r+.75(z12-z11)---z5'r--cycle; % foot
- else: pickup crisp.nib; pos5'(shaved_stem,0); rt x5'r=fine.rt x5r; y5'=y5;
- pos10(shaved_stem,0); x10=x5'; y10=1/3bh;
- pos11(.2[vair,stem],90); x11r=.5[x10r,x12r]; bot y11l=-vround .5oo;
- pos12(hair,180); rt x12l=hround(w-.1u); y12=max(y10,y11+vair);
- pos13(hair,180); x13=x12; top y13=max(vround .6bh,top y12);
- (x',y11l)=whatever[z11r,z12r]; x11l:=max(x',x10);
- filldraw stroke z5'e---z10e...z11e{right}...z12e---z13e; fi % hook
-else: numeric shaved_stem; shaved_stem=hround(stem-stem_corr);
- pickup tiny.nib; pos5'(shaved_stem,0); rt x5'r=fine.rt x5r; y5'=y5;
- pos10(shaved_stem,0); x10=x5'; bot y10=0;
- filldraw stroke z5'e--z10e; fi % base of stem
-penlabels(1,2,3,4,5,6,7,8,9,10,11,12,13); endchar;
-
-cmchar "The letter b";
-beginchar("b",10u#+serif_fit#,asc_height#,0);
-italcorr .5x_height#*slant+min(.5curve#-u#,-.25u#);
-adjust_fit(serif_fit#,0);
-pickup tiny.nib; pos1(stem',0); pos2(stem,0);
-pos0'(stem',0); pos0(stem,0); z0l=z0'l; x0'=x1; x0=x2;
-lft x1l=hround(2.5u-.5stem'); top y1=h;
-numeric edge; edge=rt x2r;
-pickup fine.nib; pos3(if hefty:thin_join else: hair fi,180);
-pos4(vair,90); pos5(curve,0); pos6(vair,-90); penpos7(x3l-x3r,-180);
-rt x3l=max(rt x3l-(lft x3r-tiny.lft x2l),1/3[rt x2,edge]);
-y3=1/8[bar_height,x_height];
-x4l=w-.5(w-serif_fit)+.5u; top y4r=x_height+oo;
-rt x5r=hround min(w-1.35u+.5curve,w-.6u); y5=.5x_height;
-x6l=x4l-.2u; bot y6r=-oo;
-x7=x3; y7=min(y3,y6+y4-y3+.6vair);
-(x,y4r)=whatever[z3l,z4l]; x4r:=min(x,.5[x4,x5r]);
-(x',y6r)=whatever[z7l,z6l]; x6r:=min(x',.5[x6,x5r]);
-filldraw stroke z3e{up}...pulled_arc.e(4,5)&pulled_arc.e(5,6)...{up}z7e; % bowl
-y0=ypart(((edge,h)--(edge,0))intersectionpoint(z3l{up}...{right}z4l));
-y2=ypart(((edge,h)--(edge,0))intersectionpoint(z6l{left}...{up}z7l));
-pickup tiny.nib; filldraw stroke z1e--z0'e--z0e--z2e; % stem
-pickup crisp.nib; pos8(hair,0); pos7'(stem,0);
-z7'=z2; x8l=x7'l; bot y8=0;
-filldraw stroke z7'e--z8e; % point
-if serifs: sloped_serif.l(1,0',a,1/3,jut,serif_drop); fi % upper serif
-penlabels(0,1,2,3,4,5,6,7,8); endchar;
-
-cmchar "The letter c";
-beginchar("c",8u#,x_height#,0);
-italcorr x_height#*slant-.2u#;
-adjust_fit(if monospace: .5u#,.5u# else: 0,0 fi);
-pickup fine.nib; pos2(vair',90); pos4(vair',270);
-x2=x4=.5(w+u); top y2r=vround(h+1.5oo); bot y4r=-oo;
-pos3(curve,180); lft x3r=hround max(.6u,1.35u-.5curve); y3=.5h;
-if serifs: pos1(hair,0); pos0(flare,0);
- y1=min(bar_height+.5flare+2vair'+2,.9[bar_height,h]-.5flare);
- rt x1r=hround(w-.7u); bulb(2,1,0); % bulb
- pos5(hair,0); rt x5r=hround(w-.5u);
- y5=max(good.y(.5bar_height-.9),y4l+vair');
- (x,y4l)=whatever[z4r,z5l]; x4l:=min(x,x4l+.5u);
- filldraw stroke pulled_super_arc.e(2,3)(.7superpull)
- & pulled_super_arc.e(3,4)(.5superpull)
- ..tension .9 and 1..{x5-x4,5(y5-y4)}z5e; % arc and lower terminal
-else: pos1(4/7[vair',flare],80);
- rt x1r=hround(w-.6u); top y1r=vround .82[bar_height,top y2r];
- filldraw stroke term.e(2,1,right,.8,4); % upper terminal
- pos5(.6[vair',flare],275); rt x5r=hround(w-.5u);
- y5r=good.y(y5r+1/3bar_height-y5); y5l:=good.y y5l; x5l:=good.x x5l;
- forsuffixes e=l,r: path p.e; p.e=z4e{right}..tension .9 and 1..z5e;
- if angle direction 1 of p.e>75:
- p.e:=z4e{right}..tension atleast.9 and 1..{dir 75}z5e; fi endfor
- filldraw stroke pulled_super_arc.e(2,3)(.7superpull)
- & pulled_super_arc.e(3,4)(.5superpull) & p.e; fi % arc and lower terminal
-penlabels(0,1,2,3,4,5); endchar;
-
-cmchar "The letter d";
-beginchar("d",10u#+serif_fit#,asc_height#,0);
-italcorr asc_height#*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(0,serif_fit#);
-pickup tiny.nib; pos1(stem',0); pos2(stem,0);
-pos0'(stem',0); pos0(stem,0); z0r=z0'r; x0'=x1; x0=x2;
-rt x1r=hround(w-2.5u+.5stem'); top y1=h;
-numeric edge; edge=lft x2l;
-pickup fine.nib; pos3(if hefty:thin_join else: hair fi,0);
-pos4(vair,90); pos5(curve,180); pos6(vair,270); penpos7(x3r-x3l,360);
-lft x3l=min(lft x3l-(rt x3r-tiny.rt x2r),1/3[lft x2,edge]);
-y3=1/8[bar_height,x_height];
-x4l=.5(w-serif_fit)-.3u; top y4r=x_height+oo;
-lft x5r=hround max(1.35u-.5curve,.6u); y5=.5x_height;
-x6l=x4l-.2u; bot y6r=-oo;
-x7=x3; y7=min(y3,y6+y4-y3+.6vair);
-(x,y4r)=whatever[z3l,z4l]; x4r:=max(x,.5[x5r,x4]);
-(x',y6r)=whatever[z7l,z6l]; x6r:=max(x',.5[x5r,x6]);
-filldraw stroke z3e{up}...pulled_arc.e(4,5)
- & pulled_arc.e(5,6)...{up}z7e; % bowl
-y0=ypart(((edge,h)--(edge,0))intersectionpoint(z3l{up}...{left}z4l));
-pickup tiny.nib; bot y2=if serifs:-min(oo,serif_drop) else: 0 fi;
-filldraw stroke z1e--z0'e--z0e--z2e; % stem
-if serifs: sloped_serif.l(1,0',a,1/3,jut,serif_drop); % upper serif
- sloped_serif.r(2,0,b,1/3,jut,min(oo,serif_drop)); fi % lower serif
-penlabels(0,1,2,3,4,5,6,7); endchar;
-
-cmchar "The letter e";
-beginchar("e",7.25u#+max(.75u#,.5curve#),x_height#,0);
-italcorr .5[bar_height#,x_height#]*slant+.5min(curve#-1.5u#,0);
-adjust_fit(if monospace: .25u#,.5u# else: 0,0 fi);
-numeric left_curve,right_curve;
-left_curve=right_curve+6stem_corr=curve if not serifs: -3stem_corr fi;
-if right_curve<tiny.breadth: right_curve:=tiny.breadth; fi
-if left_curve<tiny.breadth: left_curve:=tiny.breadth; fi
-pickup tiny.nib; pos1(right_curve,0);
-pos2(vair,90); pos3(left_curve,180);
-y1=good.y bar_height; top y2r=h+vround 1.5oo; y0l=bot y1;
-rt x1r=hround min(w-.5u,w-u+.5right_curve);
-lft x3r=hround max(.5u,1.25u-.5left_curve); x2=.5w+.25u;
-{{interim superness:=more_super;
- filldraw stroke super_arc.e(1,2)}}; % right bowl
-y3=.5[y2,y4]; bot y4r=-oo; x4=x2+.25u;
-if serifs: pos4(vair',270); pos5(hair,360);
- y5=max(good.y(.5bar_height-.9),y4l+vair); x5r=x1r;
- (x,y4l)=whatever[z4r,z5]; x4l:=min(x,x4l+.5u);
- filldraw stroke pulled_arc.e(2,3) & pulled_arc.e(3,4)
- ...{x5-x4,5(y5-y4)}z5e; % left bowl, arc, and terminal
-else: pos4(vair,270);
- filldraw stroke super_arc.e(2,3) & super_arc.e(3,4); % left bowl and arc
- pickup fine.nib; pos4'(vair,270); z4=z4';
- pos5(.5[vair,flare],275); rt x5r=hround(w-.6u);
- y5r=good.y(y5r+1/3bar_height-y5); y5l:=good.y y5l; x5l:=good.x x5l;
- filldraw stroke term.e(4',5,right,1,4); fi % terminal
-path testpath; testpath=super_arc.r(2,3) & super_arc.r(3,4);
-y1'r=y0r=y0l+.6[thin_join,vair]; y1'l=y0l; x1'l=x1'r=x1;
-forsuffixes $=l,r:
- x0$=xpart(((0,y0$)--(x1,y0$)) intersectionpoint testpath); endfor
-fill stroke z0e--z1'e; % crossbar
-penlabels(0,1,2,3,4,5); endchar;
-
-cmchar "The letter f";
-beginchar("f",5.5u#,asc_height#,0);
-italcorr asc_height#*slant+if serifs:flare#-.25u# else: 1.25u# fi;
-adjust_fit(stem_shift#,if monospace: .5u# else:-stem_shift# fi);
-pickup tiny.nib; pos1(stem',0); lft x1l=hround(2.5u-.5stem');
-pickup fine.nib; numeric bulb_diam;
-if serifs: bulb_diam=hround .8[stem,flare];
- pos2(bulb_diam,0); y2+.5bulb_diam=.9[x_height,h+oo];
- if monospace: rt x2r=hround(w-.5u)+1 else: lft x2l=hround(w-.75u+.5) fi;
-else: pos2(5/7[vair,flare],90); top y2r=h;
- rt x2=hround(if monospace:w-.5u else:w+.75u fi); fi
-f_stroke(1,2,a,b,c,jut,if not monospace:1.25fi\\ jut); % stem, terminal, serif
-pickup crisp.nib; top y3r=top y4r=x_height; lft x3=hround .5u-1;
-pos3(bar,90); pos4(bar,90);
-rt x4=hround(w-if monospace:.75u+1 else:1/3u fi);
-filldraw stroke z3e--z4e; % bar
-penlabels(1,2,3,4); endchar;
-
-iff not variant_g: cmchar "The letter g";
-beginchar("g",9u#,x_height#,desc_depth#);
-italcorr x_height#*slant+.25u#;
-adjust_fit(0,0);
-numeric light_vair,light_curve,loop_top,loop_side;
-light_vair=Vround(.5[thin_join,vair]+vair_corr);
-light_curve=max(fine.breadth,hround(curve-3stem_corr));
-loop_top=Vround .77[vair,fudged.stem];
-loop_side=hround .64[vair,fudged.stem];
-pickup fine.nib; pos1(light_vair,90);
-pos2(light_curve,180); pos3(light_vair,270);
-pos4(light_curve,360); pos11(loop_top,90);
-y11r=good.y(y11r+.15bar_height-y11); x1=x3=.5[x2,x4]; y2=y4=.5[y1,y3];
-lft x2r=hround(1.75u-.5light_curve); rt x4r=hround(w-2.75u+.5light_curve);
-top y1r=h+oo; y3r=good.y(y3r+.27[top y11r,bot y1l]-y3);
-filldraw stroke pulled_arc.e(1,2) & pulled_arc.e(2,3); % left half of bowl
-filldraw stroke pulled_arc.e(3,4) & pulled_arc.e(4,1); % right half of bowl
-x0=superness[x1r,x4r]; y0=superness[y4r,y1r]; % NE point on the super bowl
-x8'=superness[x3r,x2r]; y8'=superness[y2r,y3r]; % SW point on the super bowl
-x8''=superness[x3,x2]; y8''=superness[y2,y3];
-pos0(thin_join,angle(z0-z8')+90);
-pos8(thin_join,angle(z0-z8')-90); z8=.618[z8',z8''];
-if serifs: pos5(vair,90);
- pos6(hair,0); pos7(.5[hair,flare],0); x5=.75[x0,x6]; top y5r=h+o;
- rt x6r=hround(w-.25u); y6+(.5[hair,flare])/2=.95[bar_height,h]+oo;
- filldraw stroke z0e..{right}z5e; bulb(5,6,7); % ear
-else: pos5(vair',100); top y5r=h+oo;
- rt x5l=hround(w-.25u); y5l:=good.y y5l;
- filldraw z0l{z5-z0}..z5l--z5r{left}..{curl 1}z0r--cycle; fi % ear
-pos10(loop_top,90); x10=x8+.75u; y10=y11;
-pos12(loop_side,0); pos13(light_vair,-90);
-pos14(loop_side,-180); pos10'(.5[thin_join,vair],-270);
-rt x12r=hround max(w-1.25u+.5loop_side,w-.5u); y12=y14=.5[y11,y13];
-x11=x13=max(.5w,x10+eps); bot y13r=-d-oo-1; x14=w-x12; z10'l=z10l;
-filldraw stroke z8e{z8-z0}..z10e---z11e; % link
-filldraw stroke {{interim superness:=hein_super; super_arc.e(11,12)}}
- & super_arc.e(12,13) & super_arc.e(13,14) & super_arc.e(14,10'); % loop
-penlabels(0,1,2,3,4,5,6,7,8,10,11,12,13,14); labels(8',8''); endchar;
-
-iff variant_g: cmchar "Variant letter g";
-beginchar("g",10u#+serif_fit#,x_height#,desc_depth#);
-italcorr x_height#*slant-serif_fit#+.5stem#-2u# if serifs:+.5u# fi;
-adjust_fit(0,serif_fit# if serifs: -.5u# fi);
-pickup tiny.nib; pos1(stem',0); pos2(stem,0);
-pos0'(stem',0); pos0(stem,0); z0r=z0'r; x0'=x1; x0=x2;
-rt x1r=hround(w-2.5u+.5stem');
-numeric edge; edge=lft x2l;
-path edge_path; edge_path=(edge,h)--(edge,0);
-pickup fine.nib; pos3(if hefty:thin_join else: hair fi,0);
-pos4(vair,90); pos5(curve,180); pos6(vair,270); penpos7(x3r-x3l,360);
-lft x3l=min(lft x3l-(rt x3r-tiny.rt x2r),2/3[lft x2,edge]); y3=bar_height;
-x4l=.5(w-serif_fit)-.3u; top y4r=x_height+oo;
-lft x5r=hround max(1.35u-.5curve,.6u); y5=.5x_height;
-x6l=x4l-.2u; bot y6r=vround 1/3vair;
-lft x7l=edge; y7=min(y3,y6+y4-y3+.6vair);
-(x,y4r)=whatever[z3l,z4l]; x4r:=max(x,.5[x5r,x4]);
-(x',y6r)=whatever[z7l,z6l]; x6r:=max(x',.5[x5r,x6]);
-filldraw stroke z3e{up}...{left}z4e&super_arc.e(4,5)
- &super_arc.e(5,6)&z6e{right}...{up}z7e; % bowl
-y1=ypart(edge_path intersectionpoint(z3l{up}...{left}z4l));
-y0=ypart(edge_path intersectionpoint(z7l{down}...{left}z6l));
-pickup tiny.nib; bot y2=if serifs: -.25d else: 0 fi;
-filldraw stroke z1e--z0'e--z0e--z2e; % stem
-pickup crisp.nib;
-pos8(hround(hair-stem_corr),0); pos7'(stem',0);
-z7'=z1; x8r=x7'r; top y8=h+oo;
-filldraw stroke z7'e--z8e; % point
-if serifs: pickup tiny.nib;
- pos9(vair,-90); x9=.5[x2,x10]; bot y9r=-d-o-1;
- pos10(hair,-180); lft x10r=hround u; y10=-.75d+.5flare;
- pos11(flare,-180); z11r=z10r;
- bulb(9,10,11); filldraw stroke super_arc.e(2,9); % tail
-else: pickup fine.nib; pos2'(stem,0); z2'=z2;
- z2''r=z2'r; z2''=z2'; z2''l=(x2'l,0);
- pos9(vair,-90); x9=4.5u; bot y9r=-d-o-1;
- pos10(.5[vair,flare],-90); lft x10=hround 1.25u;
- y10r=good.y -5/6d; y10l:=good.y y10l;
- filldraw stroke z2'e..z2''e&super_arc.e(2'',9)
- & term.e(9,10,left,.9,4); fi % tail
-penlabels(0,1,2,3,4,5,6,7,8,9,10,11); endchar;
-
-cmchar "The letter h";
-beginchar("h",10u#,asc_height#,0);
-italcorr .5[bar_height#,x_height#]*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+stem_shift#,serif_fit#-stem_shift#);
-pickup tiny.nib; pos1(stem,0); pos2(stem,0);
-pos1'(stem',0); pos2'(stem',0); pos3(stem,0);
-lft x1l=hround(2.5u-.5stem); x1l=x1'l=x2l=x2'l; x3=w-x1;
-top y1=h; bot y2=0; y1=y1'; y2=y2';
-filldraw stroke z1'e--z2'e; % left stem
-h_stroke(2,a,3,4); % arch and right stem
-if serifs: sloped_serif.l(1',2',b,1/3,jut,serif_drop); % upper left serif
- numeric inner_jut; pickup tiny.nib;
- if rt x2r+jut+.5u+1<=lft x4l-jut: inner_jut=jut;
- else: rt x2r+jut+.5u+1=lft x4l-inner_jut; fi
- dish_serif(2,1,c,1/3,jut,d,1/3,jut); % lower left serif
- dish_serif(4,3,e,1/3,inner_jut,f,1/3,jut); fi % lower right serif
-penlabels(1,2,3,4); endchar;
-
-cmchar "The letter i";
-numeric dot_diam#; dot_diam#=max(dot_size#,cap_curve#);
-beginchar("i",5u#,min(asc_height#,10/7x_height#+.5dot_diam#),0);
-define_whole_blacker_pixels(dot_diam);
-italcorr h#*slant-serif_fit# + .5dot_diam# -2u#;
-adjust_fit(serif_fit#+stem_shift# if monospace:+.25u#fi,serif_fit#-stem_shift#);
-pickup tiny.nib; pos1(stem',0); pos2(stem',0);
-if odd(w-stem'): change_width; fi
-lft x1l=hround(.5w-.5stem'); x1=x2;
-top y1=x_height if serifs: +min(oo,serif_drop) fi; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-pos3(dot_diam,0); pos4(dot_diam,90);
-if serifs: x3r=max(x1r,x1+.5(dot_diam-tiny)-.2jut) else: x3=x1-.5 fi;
-top y4r=h+1;
-if bot y4l-top y1<slab: y4l:=min(y4r-eps,y1+tiny+slab); fi
-x3=x4; y3=.5[y4l,y4r]; dot(3,4); % dot
-if serifs: sloped_serif.l(1,2,a,1/3,.95jut,serif_drop); % upper serif
- dish_serif(2,1,b,1/3,jut,c,1/3,.9jut); fi % lower serif
-penlabels(1,2,3,4); endchar;
-
-cmchar "The letter j";
-numeric dot_diam#; dot_diam#=max(dot_size#,cap_curve#);
-beginchar("j",5.5u#,min(asc_height#,10/7x_height#+.5dot_diam#),desc_depth#);
-define_whole_blacker_pixels(dot_diam);
-italcorr h#*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+2stem_shift# if monospace:+\\.5u# fi,
- serif_fit#-2stem_shift# if monospace:-.5u# fi);
-pickup tiny.nib; pos1(stem',0); pos2(stem',0);
-rt x1r=hround(.5w+.25u+.5stem'); x1=x2;
-top y1=x_height if serifs: +min(oo,serif_drop) fi; bot y2=-1/3d;
-filldraw stroke z1e--z2e; % stem
-pos3(dot_diam,0); pos4(dot_diam,90);
-x3r=x1r; top y4r=h+1;
-if bot y4l-top y1<slab: y4l:=min(y4r-eps,y1+tiny+slab); fi
-x3=x4; y3=.5[y4l,y4r]; dot(3,4); % dot
-if serifs: sloped_serif.l(1,2,a,1/3,1.1jut,serif_drop); % upper serif
- pickup tiny.nib; pos5(vair,-90); pos6(hair,-180); pos7(flare,-180);
- x5=.5[x2,x6r]; bot y5r=-d-oo; y6-.5flare=-.88d;
- if monospace: lft x6r=0 else: z6r=z7r; rt x7l=floor .75u fi;
- (x,y5r)=whatever[z5l,z2l]; x5r:=max(x,.5[x6r,x5]);
- filldraw stroke z2e{down}...z5e{left}; bulb(5,6,7); % arc and bulb
-else: pickup fine.nib; pos2'(stem',0); z2'=z2;
- pos6(.2[vair,stem'],-90); pos7(vair,-90);
- lft x7r=hround -.75u; bot y7r=vround 5/6(-d-oo);
- (x,y7l)=whatever[z7r,z3]; x7l:=x;
- z5r=z2'r; (x2'l,y5l)=whatever[z7l,z5r]; x5l=x2'l; y5=y5r;
- x6r=.5[x7r,x5r]; x6l:=.5[x7l,x5l]; bot y6r=-d-oo;
- filldraw stroke z2'e..{down}z5e & super_arc.e(5,6)
- & z6e{left}..z7e; fi % arc and terminal
-penlabels(1,2,3,4,5,6,7); endchar;
-
-cmchar "The letter k";
-beginchar("k",9.5u#,asc_height#,0);
-italcorr x_height#*slant-.2u#;
-adjust_fit(serif_fit#,serif_fit#); pickup tiny.nib;
-numeric right_jut,stem[],alpha[];
-stem1=max(tiny.breadth,hround(fudged.stem-stem_corr));
-stem2=max(tiny.breadth,hround(fudged.stem-2stem_corr));
-stem3=max(tiny.breadth,hround(fudged.hair if hefty:-\\4stem_corr fi));
-stem4=max(tiny.breadth,hround(fudged.stem-3stem_corr));
-if serifs: right_jut=.6jut; else: right_jut=.4tiny; fi
-pos1(stem1,0); pos2(stem2,0); top y1=h; bot y2=0;
-lft x1l=lft x2l=hround(2.5u-.5stem1);
-top y3=x_height; rt x3r=hround(r-letter_fit-.7u-right_jut)+eps;
-bot y6=0; rt x6r=hround(r-letter_fit-.3u-right_jut)+eps;
-x4=x11=x1; y4=.7bar_height; y11=y3;
-alpha1=diag_ratio(1,.5(stem3-tiny),y3-y4,x3r-x4);
-alpha2=diag_ratio(1,.5(stem4-tiny),y11-y6,x6r-x1);
-penpos3(alpha1*(stem3-tiny),0); penpos4(whatever,-90);
-z5=.5[z5l,z5r]; penpos6(alpha2*(stem4-tiny),0);
-forsuffixes $=l,r: y3'$=x_height; y6'$=0; z4$=z3'$+whatever*(z3-z4);
- z5$=z6'$+whatever*(z11-z6)=whatever[z3,z4]; endfor
-z3'r=z3r+penoffset z3-z4 of currentpen+whatever*(z3-z4);
-% we have also |z3'l=z3l+penoffset z4-z3 of currentpen+whatever*(z3-z4)|;\]
-z6'r=z6r+penoffset z11-z6 of currentpen+whatever*(z11-z6);
-z6'l=z6l+penoffset z6-z11 of currentpen+whatever*(z11-z6);
-fill z4r--diag_end(4r,3'r,1,.5,3'l,4l)--z4l--cycle; % upper diagonal
-fill z5l--diag_end(5l,6'l,.5,1,6'r,5r)--z5r--cycle; % lower diagonal
-pos0(stem1,0); pos0'(stem2,0); y0=y0'; x0=x1; x0'=x2;
-rt z0r=whatever[z3,z4]; filldraw stroke z1e..z0e--z0'e..z2e; % stem
-if serifs: numeric inner_jut;
- if rt x2r+jut+.5u+1<=lft x6l-jut: inner_jut=jut;
- else: rt x2r+inner_jut+.5u+1=lft x6l-inner_jut; fi
- sloped_serif.l(1,0,a,1/3,jut,serif_drop); % upper stem serif
- dish_serif(2,0',b,1/3,jut,c,1/3,inner_jut); % lower stem serif
- dish_serif(3,4,d,2/3,1.4jut,e,1/2,right_jut)(dark); % upper diagonal serif
- dish_serif(6,5,f,1/2,inner_jut,g,1/3,right_jut)(dark);fi % lower diagonal serif
-penlabels(0,1,2,3,4,5,6,11); endchar;
-
-cmchar "The letter l";
-beginchar("l",5u#,asc_height#,0); l_width#:=5u#+2serif_fit#;
-italcorr asc_height#*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+stem_shift#,serif_fit#-stem_shift#);
-pickup tiny.nib; pos1(stem',0); pos2(stem',0);
-if odd(w-stem'): change_width; fi
-lft x1l=hround(.5w-.5stem'); x1=x2; top y1=h; bot y2=0;
-filldraw stroke z1e--z2e; % stem
-if serifs: sloped_serif.l(1,2,a,1/3,jut,serif_drop); % upper serif
- dish_serif(2,1,b,1/3,jut,c,1/3,jut); fi % lower serif
-penlabels(1,2); endchar;
-
-cmchar "The letter m";
-beginchar("m",15u#,x_height#,0);
-italcorr .5[bar_height#,x_height#]*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+stem_shift#,serif_fit#-stem_shift#);
-numeric shaved_stem; shaved_stem=hround(mfudged.stem-2stem_corr);
-pickup tiny.nib; pos1(mfudged.stem,0); pos2(mfudged.stem,0);
-pos1'(shaved_stem,0); pos2'(shaved_stem,0);
-pos3(mfudged.stem,0); pos5(mfudged.stem,0);
-lft x1l=hround(2.5u-.5stem); x1l=x1'l=x2l=x2'l;
-lft x3l=hround(.5w-.5stem); x5-x3=x3-x1;
-if not monospace: r:=hround(x5+x1)-l; fi % change width for better fit
-top y1=h+min(oo,serif_drop); bot y2=0; y1=y1'; y2=y2';
-filldraw stroke z1'e--z2'e; % left stem
-h_stroke(2,a,3,4); % left arch and middle stem
-h_stroke(4,b,5,6); % right arch and right stem
-if serifs: sloped_serif.l(1',2',c,1/3,jut,serif_drop); % upper left serif
- numeric inner_jut; pickup tiny.nib;
- if rt x2r+jut+.5u+1<=lft x4l-jut: inner_jut=jut;
- else: rt x2r+jut+.5u+1=lft x4l-inner_jut; fi
- dish_serif(2,1,d,1/3,jut,e,1/3,jut); % lower left serif
- dish_serif(4,3,f,1/3,inner_jut,g,1/3,jut); % lower middle serif
- dish_serif(6,5,h,1/3,inner_jut,i,1/3,jut); fi % lower right serif
-penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The letter n";
-beginchar("n",10u#,x_height#,0);
-italcorr .5[bar_height#,x_height#]*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+stem_shift#,serif_fit#-stem_shift#);
-pickup tiny.nib; pos1(stem,0); pos2(stem,0);
-numeric shaved_stem; shaved_stem=hround(stem-2stem_corr);
-pos1'(shaved_stem,0); pos2'(shaved_stem,0); pos3(stem,0);
-lft x1l=hround(2.5u-.5stem); x1l=x1'l=x2l=x2'l; x3=w-x1;
-top y1=h+min(oo,serif_drop); bot y2=0; y1=y1'; y2=y2';
-filldraw stroke z1'e--z2'e; % left stem
-h_stroke(2,a,3,4); % arch and right stem
-if serifs: sloped_serif.l(1',2',b,1/3,jut,serif_drop); % upper left serif
- numeric inner_jut; pickup tiny.nib;
- if rt x2r+jut+.5u+1<=lft x4l-jut: inner_jut=jut;
- else: rt x2r+jut+.5u+1=lft x4l-inner_jut; fi
- dish_serif(2,1,c,1/3,jut,d,1/3,jut); % lower left serif
- dish_serif(4,3,e,1/3,inner_jut,f,1/3,jut); fi % lower right serif
-penlabels(1,2,3,4); endchar;
-
-cmchar "The letter o";
-beginchar("o",9u#,x_height#,0);
-italcorr .7x_height#*slant;
-adjust_fit(if monospace: .5u#,.5u# else: 0,0 fi);
-penpos1(vair,90); penpos3(vair',-90);
-penpos2(curve,180); penpos4(curve,0);
-x2r=hround max(.5u,1.25u-.5curve);
-x4r=w-x2r; x1=x3=.5w; y1r=h+vround 1.5oo; y3r=-oo;
-y2=y4=.5h-vair_corr; y2l:=y4l:=.52h;
-penstroke pulled_arc.e(1,2) & pulled_arc.e(2,3)
- & pulled_arc.e(3,4) & pulled_arc.e(4,1) & cycle; % bowl
-penlabels(1,2,3,4); endchar;
-
-cmchar "The letter p";
-beginchar("p",10u#+serif_fit#,x_height#,desc_depth#);
-italcorr .5x_height#*slant+min(.5curve#-.85u#,-.1u#);
-adjust_fit(serif_fit#,0);
-pickup tiny.nib; pos1(stem',0); pos2(stem,0);
-pos0'(stem',0); pos0(stem,0); z0l=z0'l; x0'=x1; x0=x2;
-lft x1l=hround(2.5u-.5stem'); top y1=h if serifs: +min(oo,serif_drop) fi;
-numeric edge; edge=rt x2r;
-pickup fine.nib; pos3(if hefty:thin_join else: hair fi,180);
-pos4(vair',90); pos5(curve,0); pos6(vair,-90); penpos7(x3l-x3r,-180);
-rt x3l=max(rt x3l-(lft x3r-tiny.lft x2l), 1/3[rt x2,edge]);
-y3=1/8[bar_height,x_height];
-x4l=w-.5(w-serif_fit)+.5u; top y4r=x_height+oo;
-rt x5r=hround min(w-1.35u+.5curve,w-.6u); y5=.5x_height;
-x6l=x4l-.2u; bot y6r=-oo;
-x7=x3; y7=min(y3,y6+y4-y3+.6vair);
-(x,y4r)=whatever[z3l,z4l]; x4r:=min(x,.5[x5r,x4]);
-(x',y6r)=whatever[z7l,z6l]; x6r:=min(x',.5[x5r,x6]);
-filldraw stroke z3e{up}...{right}z4e&super_arc.e(4,5)
- &super_arc.e(5,6)&z6e{left}...{up}z7e; % bowl
-y0=ypart(((edge,h)--(edge,0))intersectionpoint(z3l{up}...{right}z4l));
-pickup tiny.nib; bot y2=-d;
-filldraw stroke z1e--z0'e--z0e--z2e; % stem
-pickup crisp.nib; pos8(hair,0); pos7'(stem,0);
-z7'=z2; x8l=x7'l; bot y8=0;
-filldraw stroke z7'e--z8e; % point
-if serifs: sloped_serif.l(1,0',a,1/3,jut,serif_drop); % upper serif
- dish_serif(2,0,b,1/3,jut,c,1/3,jut); fi % lower serif
-penlabels(0,1,2,3,4,5,6,7,8); endchar;
-
-cmchar "The letter q";
-beginchar("q",10u#+serif_fit#,x_height#,desc_depth#);
-italcorr x_height#*slant-serif_fit#+.5stem#-2u# if serifs:+.5u# fi;
-adjust_fit(0,serif_fit# if serifs: -.5u# fi);
-pickup tiny.nib; pos1(stem',0); pos2(stem,0);
-pos0'(stem',0); pos0(stem,0); z0r=z0'r; x0'=x1; x0=x2;
-rt x1r=hround(w-2.5u+.5stem');
-numeric edge; edge=lft x2l;
-pickup fine.nib; pos3(if hefty:thin_join else: hair fi,0);
-pos4(vair',90); pos5(curve,180); pos6(vair,270); penpos7(x3r-x3l,360);
-lft x3l=min(lft x3l-(rt x3r-tiny.rt x2r),2/3[lft x2,edge]); y3=bar_height;
-x4l=.5(w-serif_fit)-.3u; top y4r=x_height+oo;
-lft x5r=hround max(1.35u-.5curve,.6u); y5=.5x_height;
-x6l=x4l-.2u; bot y6r=-oo; y7=min(y3,y6+y4-y3+.6vair);
-lft x7l=min(lft x7l-(rt x7r-tiny.rt x2r),1/3[lft x2,edge]);
-(x,y4r)=whatever[z3l,z4l]; x4r:=max(x,.5[x5r,x4]);
-(x',y6r)=whatever[z7l,z6l]; x6r:=max(x',.5[x5r,x6]);
-filldraw stroke z3e{up}...{left}z4e&super_arc.e(4,5)
- &super_arc.e(5,6)&z6e{right}...{up}z7e; % bowl
-y1=ypart(((edge,h)--(edge,0))intersectionpoint(z3l{up}...{left}z4l));
-y0=ypart(((edge,h)--(edge,0))intersectionpoint(z6l{right}...{up}z7l));
-pickup tiny.nib; bot y2=-d;
-filldraw stroke z1e--z0'e--z0e--z2e; % stem
-pickup crisp.nib;
-pos8(hround(hair-stem_corr),0); pos7'(stem',0);
-z7'=z1; x8r=x7'r; top y8=h+oo;
-filldraw stroke z7'e--z8e; % point
-if serifs: dish_serif(2,0,b,1/3,jut,c,1/3,jut); fi % lower serif
-penlabels(0,1,2,3,4,5,6,7,8); endchar;
-
-cmchar "The letter r";
-numeric r_flare#; r_flare#=.75[if serifs: stem# else: vair# fi,flare#];
-define_whole_blacker_pixels(r_flare);
-beginchar("r",if serifs:max(7u#,5.5u#+r_flare#) else:6.5u# fi,x_height#,0);
-italcorr x_height#*slant if not serifs: +.25u# fi;
-adjust_fit(serif_fit#,0);
-pickup fine.nib; top y4r=h+oo;
-if serifs: pos4(vair,90); pos5(hair,0);
- x4=w-max(1.75u,.25u+r_flare);
- rt x5r=hround(w-.5u+.5); y5+.5r_flare=.9[bar_height,h]+oo;
- pos6(r_flare,0); bulb(4,5,6); % bulb
-else: pos4(r_flare,90); rt x4=hround(w-.25u); fi
-pos3(thin_join,180); rt x3l=hround(2.5u-.5stem')+stem'; top y3=bar_height;
-filldraw stroke z3e{up}...{right}z4e; % arc
-pickup tiny.nib; pos0(stem',0); pos2(stem',0);
-pos1(hround(stem-3stem_corr),0); top y1=h+min(oo,serif_drop);
-pos0'(hround(stem-3stem_corr),0); y0=y0'=y3; x1l=x0l=x0'l=x2l;
-lft x1l=hround(2.5u-.5stem'); bot y2=0;
-filldraw stroke z1e--z0'e--z0e--z2e; % stem
-if serifs: sloped_serif.l(1,0',a,1/3,jut,serif_drop); % upper serif
- dish_serif(2,0,b,1/3,jut,c,1/3,1.25jut); fi % lower serif
-penlabels(1,2,3,4,5,6); endchar;
-
-cmchar "The letter s";
-beginchar("s",7.1u#,x_height#,0);
-italcorr x_height#*slant-if serifs:.55u# else:.3u# fi;
-adjust_fit(if monospace: .5u#,.4u# else: 0,if serifs:0 else:-.2u# fi fi);
-numeric theta; theta=90-angle(40u,h); slope:=-h/40u; % angle at middle
-numeric s_slab; s_slab=if serifs:vair else:Vround .1[vair,stem] fi;
-numeric ess'; ess'=max(fine.breadth,ess);
-pickup fine.nib; pos2(max(fine.breadth,s_slab-vround vair_corr),-100);
-pos0(ess',theta); pos7(s_slab,-90); x2l=x0=x7=.5w;
-top y2l=h+vround 1.5oo; bot y7r=-oo;
-y0-.5ess'=y7l+if serifs:.54 else: .52 fi\\(y2r-y7l-ess');
-lft x3l=hround .6u; rt x6r=hround(w-.6u);
-x3r-x3l=x6r-x6l=hround .5[s_slab,ess']-fine;
-ellipse_set(2l,3l,4l,0l); ellipse_set(2r,3r,4r,0r); y3=y3r;
-ellipse_set(7l,6l,5l,0l); ellipse_set(7r,6r,5r,0r); y6=y6r;
-interim superness:=more_super;
-filldraw stroke super_arc.e(2,3) & z3e{down}
- ..z4e---z5e..z6e{down} & super_arc.e(6,7); % main stroke
-if serifs: pos1(hair,180); pos8(hair,180);
- rt x1l=hround(w-1.05u); lft x8r=hround .6u;
- bot y1=min(bot y2r,vround 1/5[top y5r,h]);
- top y8=max(top y7l,vround 5/6 bot y4l);
- filldraw stroke z1e{up}....{left}z2e; % upper arc
- filldraw stroke z7e{left}....{x8-x7,5(y8-y7)}z8e; % lower arc
- path upper_arc, lower_arc;
- upper_arc=z1{up}....{left}z2; lower_arc=z7{left}....{x8-x7,5(y8-y7)}z8;
- pos10(.3[fine.breadth,cap_hair],0); pos9(.3[fine.breadth,cap_hair],0);
- x10r=x1l; top y10=top y2l; x9l=x8r; bot y9=bot y7r;
- x1l-x1'=x8'-x8r=1.6cap_curve-fine; y1'=y1; y8'=y8;
- numeric t; t=xpart(upper_arc intersectiontimes(z10l--z1'));
- filldraw z1l--z10r--z10l--subpath(t,0) of upper_arc--cycle; % upper barb
- t:=xpart(lower_arc intersectiontimes(z9r--z8'));
- filldraw z8r--z9l--z9r--subpath(t,1) of lower_arc--cycle; % lower barb
-else: pos1(4/7[s_slab,flare],-100); pos8(flare,-100);
- x1l=good.x(x1l+w-u-rt x1); lft x8r=hround .5u;
- top y1l=vround(.93h+1.5oo); bot y8r=vround .1h-oo;
- filldraw stroke term.e(2,1,right,.9,4); % upper arc and terminal
- filldraw stroke term.e(7,8,left,1,4); fi % lower arc and terminal
-penlabels(0,1,1',2,3,4,5,6,7,8,8',9,10); endchar;
-
-cmchar "The letter t";
-beginchar("t",6u#+max(u#,.5stem#),
- min(asc_height#,if hefty:9/7 else:10/7 fi\\ x_height#),0);
-italcorr x_height#*slant if serifs: -.9u# else: -.4u# fi;
-adjust_fit(0,if serifs: 0 else: -.5u# fi);
-numeric shaved_stem; shaved_stem=hround(stem if hefty:-\\2stem_corr fi);
-pickup fine.nib; pos2(shaved_stem,180);pos3(shaved_stem,180);
-lft x2r=lft x3r=hround(2.5u-.5shaved_stem);
-y2=y8; y3=max(.5bar_height,2vair);
-pickup crisp.nib; pos8(bar,90);
-rt x8=hround(w-1.3u); top y8r=x_height; lft x7=hround 1/3u; y7l=y8l;
-if hefty: pos7(bar,90);
- filldraw stroke z7e--z8e; % crossbar
- pickup tiny.nib; pos1(hround(shaved_stem-stem_corr),0);
- rt x1r=fine.rt x2l; top y1=h;
- penpos2'(x1r-x1l,0); x2'=x1; y2'=y2;
- filldraw stroke z1e--z2'e; % upper terminal
-else: pos7(vair,90); pos1(hair,0);
- rt x1r=fine.rt x2l; top y1=h;
- filldraw z1l{down}...{left}z7r--z7l--z8l
- --z8r--(x1r,y8r)--z1r--cycle; fi % upper terminal and crossbar
-pickup fine.nib; interim superness:=more_super;
-pos4(vair',-90); bot y4r=-oo; rt x5r=hround(w-u);
-if serifs: pos5(hair,0); y5=y3; x4l=.5[x3l,x5l];
- (x,y4r)=whatever[z4l,z5l]; x4r:=max(x,.5[x3r,x4]);
- filldraw stroke z2e..super_arc.e(3,4)...{up}z5e; % stem and hook
- pickup crisp.nib; pos6(hair,0); pos5'(hair,0);
- x6=x5=x5'; top y6=max(vround .75bar_height,top y5); y5=y5';
- filldraw stroke z5'e--z6e; % terminal
-else: pos5(vair,-75); top y5l=vround .2[top y4l,bar_height];
- x5l:=good.x x5l; x4l=1/3[x3l,x5l]; x4r:=1/3[x3r,x5r]; y3l:=y3l+.2vair;
- filldraw stroke z2e..super_arc.e(3,4); % stem and hook
- path p; p=stroke z4e{right}..tension .9 and atleast 1..z5e; % terminal
- if (xpart(z5l-precontrol 1 of p)<0) or (xpart(z5r-postcontrol 2 of p)<0):
- filldraw stroke z4e{right}...{up}z5e;
- else: filldraw p; fi fi;
-penlabels(1,2,3,4,5,6,7,8); endchar;
-
-cmchar "The letter u";
-beginchar("u",10u#,x_height#,0);
-italcorr x_height#*slant-serif_fit#+.5stem#-2u#;
-adjust_fit(serif_fit#+stem_shift#,serif_fit#-stem_shift#);
-numeric light_vair; light_vair=vair if hefty: -vround 2vair_corr fi;
-if light_vair<fine.breadth: light_vair:=fine.breadth; fi
-pickup tiny.nib; pos1(stem,0); pos2(stem,0);
-pos3(stem,0); pos4(stem',0);
-lft x1l=hround(2.5u-.5stem); x1=x2; x3=w-x1; x3r=x4r;
-if serifs: top y1=h+min(oo,serif_drop); bot y4=-min(oo,serif_drop);
-else: top y1=h; bot y4=0; fi
-pos0(stem,0); pos0'(stem',0); x0=x3; x0'=x4; y0=y0';
-penpos2'(stem-fine,-180); z2'=z2; y3=y1; y2=.5bar_height;
-penpos5(max(eps,light_vair-fine),-90); penpos6(thin_join-fine,0);
-y6=y0=2/3bar_height;
-filldraw stroke z1e--z2e; % left stem
-filldraw stroke z3e..z0e--z0'e..z4e; % right stem
-pickup fine.nib; bot y5r=-oo; x5l=.5w-.25u; lft x6l=tiny.lft x0l;
-(x,y5r)=whatever[z5l,z6l]; x5r:=max(x,.5[x5,x2'r]);
-filldraw stroke {{interim superness:=hein_super;
- pulled_arc.e(2',5)}} & z5e{right}...{up}z6e; % arc
-if serifs: sloped_serif.l(1,2,a,1/3,jut,serif_drop); % upper left serif
- sloped_serif.l(3,0,b,1/3,jut,serif_drop); % upper right serif
- sloped_serif.r(4,0',c,1/3,jut,min(oo,serif_drop)); fi % lower right serif
-penlabels(1,2,3,4,5); labels(6); endchar;
-
-cmchar "The letter v";
-beginchar("v",if serifs: 9.5u# else:9u# fi,x_height#,0);
-italcorr x_height#*slant+.25u#;
-adjust_fit(serif_fit# if monospace:+\\.5u#,.5u#+ else:,fi\\ serif_fit#);
-numeric left_stem,right_stem,outer_jut,alpha;
-left_stem=fudged.stem-stem_corr;
-right_stem=min(fudged.hair if hefty:-2stem_corr fi,left_stem);
-outer_jut=.75jut; x1l=w-x4r=l+letter_fit+outer_jut+.25u; y1=y4=h;
-x2-x1=x4-x3; x2l+apex_corr=x3l; y2=y3=-apex_oo;
-alpha=diag_ratio(2,right_stem,y1-y2,x4r-x1l-apex_corr);
-penpos1(alpha*left_stem,0); penpos2(alpha*left_stem,0);
-penpos3(alpha*right_stem,0); penpos4(alpha*right_stem,0);
-z0=whatever[z1r,z2r]=whatever[z3l,z4l];
-if y0>notch_cut: y0:=notch_cut;
- fill z0+.5right{up}...{z4-z3}diag_end(3l,4l,1,1,4r,3r)
- --diag_end(4r,3r,1,1,2l,1l)--diag_end(2l,1l,1,1,1r,2r){z2-z1}
- ...{down}z0+.5left--cycle; % left and right diagonals
-else: fill z0--diag_end(0,4l,1,1,4r,3r)--diag_end(4r,3r,1,1,2l,1l)
- --diag_end(2l,1l,1,1,1r,0)--cycle; fi % left and right diagonals
-if serifs: numeric inner_jut; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(4,3);
- if rt x1'r+jut+.5u+1<=lft x4'l-jut: inner_jut=jut;
- else: rt x1'r+inner_jut+.5u+1=lft x4'l-inner_jut; fi
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut); % left serif
- dish_serif(4',3,c,.6,inner_jut,d,1/2,outer_jut)(dark); fi % right serif
-penlabels(0,1,2,3,4); endchar;
-
-cmchar "The letter w";
-beginchar("w",13u#,x_height#,0);
-italcorr x_height#*slant+.25u#;
-adjust_fit(serif_fit#,serif_fit#);
-numeric stem[],outer_jut,upper_notch,alpha,mid_corr;
-outer_jut=.7jut; x1l=w-x8r=l+letter_fit+outer_jut+.25u;
-stem1=fudged.stem-stem_corr;
-stem4=min(fudged.hair if hefty:-2stem_corr fi,stem1);
-stem2=if hefty:.1[vair,stem4] else: stem4 fi;
-stem3=max(stem2,stem1-3stem_corr);
-x2-x1=x4-x3=x6-x5=x8-x7; x2l+apex_corr=x3l; x6l+apex_corr=x7l;
-y1=y8=h; y2=y3=y6=y7=-apex_oo;
-y4=y5=if monospace: vround .6 fi\\ h; upper_notch=y4-notch_cut;
-mid_corr=if monospace or hefty:-.3apex_corr else: .5jut fi;
-alpha=diag_ratio(4,stem2-stem3+stem4,y1-y2,x8r-x1l+mid_corr-2apex_corr);
-penpos1(alpha*stem1,0); penpos2(alpha*stem1,0);
-penpos3(alpha*stem2,0); penpos4(alpha*stem2,0);
-penpos5(alpha*stem3,0); penpos6(alpha*stem3,0);
-penpos7(alpha*stem4,0); penpos8(alpha*stem4,0);
-x4l-x1l=floor(x4l-x1l+.5(x5r+mid_corr-x4r)); % |x5r| $\approx$ |x4r+mid_corr|
-z23=whatever[z1r,z2r]=whatever[z3l,z4l];
-z45=whatever[z3r,z4r]=whatever[z5l,z6l];
-z67=whatever[z5r,z6r]=whatever[z7l,z8l];
-fill diag_end(1l,2l,1,1,3r,4r){z4-z3}
- ...if y45<upper_notch:(x45,upper_notch)+.5left{up}
- --(x45,upper_notch)+.5right{down} else: z45&z45 fi
- ...{z6-z5}diag_end(5l,6l,1,1,7r,8r)--diag_end(7r,8r,1,1,8l,7l){z7-z8}
- ...if y67>notch_cut:(x67,notch_cut)+.5right{down}
- --(x67,notch_cut)+.5left{up} else: z67&z67 fi
- ...{z5-z6}special_diag_end(6,5,4,3){z3-z4}
- ...if y23>notch_cut:(x23,notch_cut)+.5right{down}
- --(x23,notch_cut)+.5left{up} else: z23&z23 fi
- ...{z1-z2}diag_end(2r,1r,1,1,1l,2l)--cycle; % diagonals
-if serifs: numeric inner_jut[]; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(5,6); prime_points_inside(8,7);
- if monospace: inner_jut1=inner_jut4=1.5jut;
- elseif hefty: inner_jut1=inner_jut4=jut;
- else: fill diag_end(6r,5r,1,1,5l,6l)--.5[z5l,z6l]
- --.5[z5r,z6r]--cycle;% middle stem
- inner_jut2=.7inner_jut1; inner_jut4=1.1inner_jut3;
- if rt x1'r+jut+.5u+1<=lft x5'l-.7jut: inner_jut1=jut;
- else: rt x1'r+inner_jut1+.5u+1=lft x5'l-inner_jut2; fi
- if rt x5'r+jut+.5u+1<=lft x8'l-1.1jut: inner_jut3=jut;
- else: rt x5'r+inner_jut3+.5u+1=lft x8'l-inner_jut4; fi
- dish_serif(5',6,e,1/3,inner_jut2,f,1/2,inner_jut3); fi % middle serif
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut1); % left serif
- dish_serif(8',7,c,.6,inner_jut4,d,1/2,outer_jut)(dark); fi % right serif
-penlabels(0,1,2,3,4,5,6,7,8,23,45,67); endchar;
-
-cmchar "The letter x";
-beginchar("x",if serifs:9.5u# else:9u# fi,x_height#,0);
-italcorr x_height#*slant-.05u#;
-adjust_fit(serif_fit# if monospace:+\\.5u#,.5u#+ else:,fi\\ serif_fit#);
-numeric stem[],outer_jut,xjut,alpha[];
-stem1=fudged.stem-4stem_corr; stem2=min(fudged.hair,stem1);
-outer_jut=.75jut; xjut= if serifs: (stem1-stem2)/4 else: 0 fi;
-x1l=l+letter_fit+.1u+outer_jut; x2r=r-letter_fit-.3u-outer_jut-xjut;
-x3l=l+letter_fit+outer_jut+xjut; x4r=r-letter_fit-outer_jut;
-y1=y2=h; y3=y4=0;
-alpha1=diag_ratio(1,stem1,h,x4r-x1l);
-alpha2=diag_ratio(1,stem2,h,x2r-x3l);
-penpos1(alpha1*stem1,0); penpos2(alpha2*stem2,0);
-penpos3(alpha2*stem2,0); penpos4(alpha1*stem1,0);
-if hefty: z0=whatever[z1,z4]=whatever[z2,z3];
- x12=x34=x0; y13=y24=y0;
- z12=whatever[z2l,z3l]; z13=whatever[z2l,z3l];
- z24=whatever[z2r,z3r]; z34=whatever[z2r,z3r];
- forsuffixes $=13,24,34: z$'=.2[z$,z0]; endfor
- fill diag_end(12,1r,.5,1,1l,13')--z13'--diag_end(13',3l,1,.5,3r,34')--z34'
- --diag_end(34',4l,.5,1,4r,24')--z24'
- --diag_end(24',2r,1,.5,2l,12)--z12--cycle; % diagonals
-else: fill diag_end(4r,1r,.5,1,1l,4l)
- --diag_end(1l,4l,.5,1,4r,1r)--cycle; % left diagonal
- fill diag_end(2l,3l,.5,1,3r,2r)
- --diag_end(3r,2r,.5,1,2l,3l)--cycle; fi % right diagonal
-if serifs: numeric inner_jut[]; pickup tiny.nib;
- prime_points_inside(1,4); prime_points_inside(2,3);
- prime_points_inside(3,2); prime_points_inside(4,1);
- if rt x1'r+jut+.5u+1<=lft x2'l-jut-xjut: inner_jut1=jut;
- else: rt x1'r+inner_jut1+.5u+1=lft x2'l-inner_jut1-xjut; fi
- if rt x3'r+jut+.5u+1<=lft x4'l-jut-xjut: inner_jut2=jut;
- else: rt x3'r+inner_jut2+.5u+1=lft x4'l-inner_jut2-xjut; fi
- dish_serif(1',4,a,1/3,outer_jut,b,2/3,inner_jut1); % upper left serif
- dish_serif(4',1,c,2/3,inner_jut2,d,1/3,outer_jut); % lower right serif
- dish_serif(2',3,e,2/3,inner_jut1+xjut,
- f,1/2,outer_jut+xjut)(dark); % upper right serif
- dish_serif(3',2,g,1/2,outer_jut+xjut,
- h,2/3,inner_jut2+xjut)(dark); fi % lower left serif
-penlabels(0,1,2,3,4,12,13,24,34); endchar;
-
-cmchar "The letter y";
-beginchar("y",if serifs:9.5u# else:9u# fi,x_height#,desc_depth#);
-italcorr x_height#*slant+.25u#;
-adjust_fit(serif_fit# if monospace:+\\.5u#,.5u#+ else:,fi\\ serif_fit#);
-numeric left_stem,right_stem,bot_stem,bot_vair,outer_jut;
-left_stem=fudged.stem-stem_corr;
-right_stem=fudged.hair if hefty:-2stem_corr fi;
-bot_stem=fudged.hair if hefty:-8stem_corr fi;
-bot_vair=Vround(if serifs: vair else:.5[vair,bot_stem] fi);
-outer_jut=.75jut;
-x1l=w-x4r=l+letter_fit+outer_jut+.25u; y1=y4r=h; y2=y3=0; x2l=x3l;
-numeric alpha,alpha[]; x9=3u; y9=bot_vair-d-oo;
-alpha1=diag_ratio(2,bot_stem,y1-y3,x4r-x1l-apex_corr);
-alpha2=diag_ratio(1,bot_stem,y1-y9,x4r-x9);
-if alpha1<alpha2: x2l-x1l=x4r-x3r+apex_corr; alpha=alpha1;
-else: alpha=alpha2; z3l=whatever[z9,z4r-(alpha*bot_stem,0)]; fi
-penpos3(alpha*bot_stem,0); penpos4(alpha*right_stem,0);
-alpha3=(y1++(x2l-x1l))/y1;
-penpos1(alpha3*left_stem,0); penpos2(alpha3*left_stem,0);
-z0=whatever[z1r,z2r]=z4l+whatever*(z3r-z4r);
-if y0>notch_cut: y0:=notch_cut;
- fill z0+.5right{up}...{z4r-z3r}diag_end(0,4l,1,1,4r,3r)
- --z3r--z2l--diag_end(2l,1l,1,1,1r,2r){z2-z1}
- ...{down}z0+.5left--cycle; % left and right diagonals
-else: fill z0--diag_end(0,4l,1,1,4r,3r)--z3r--z2l
- --diag_end(2l,1l,1,1,1r,0)--cycle; fi % left and right diagonals
-penpos5(alpha*bot_stem,0); z5r=whatever[z3r,z4r]; y5-.5vair=-.5d;
-if serifs: numeric light_bulb; light_bulb=hround 7/8[hair,flare]; clearpen;
- penpos6(vair,-90); penpos7(hair,-180); penpos8(light_bulb,-180);
- x6=2u; y6r=-d-oo; y8-.5light_bulb=-.85d; x8r=hround .35u;
- fill stroke z3e---z5e...{left}z6e; bulb(6,7,8); % arc and bulb
- numeric inner_jut; pickup tiny.nib;
- prime_points_inside(1,2); prime_points_inside(4,3);
- if rt x1'r+jut+.5u+1<=lft x4'l-jut: inner_jut=jut;
- else: rt x1'r+inner_jut+.5u+1=lft x4'l-inner_jut; fi
- dish_serif(1',2,a,1/3,outer_jut,b,1/2,inner_jut); % left serif
- dish_serif(4',3,c,.6,inner_jut,d,1/2,outer_jut)(dark); % right serif
-else: penpos6(bot_vair,-90); x6=2.5u; y6r=-d-oo;
- fill stroke z3e---z5e...{left}z6e; % arc
- pickup fine.nib; pos6'(bot_vair,-90); z6'=z6;
- pos7(2/3[bot_vair,flare],-85);
- lft x7l=hround u; bot y7r=vround-.96d-oo; y7l:=good.y y7l;
- filldraw stroke term.e(6',7,left,1,4); fi % arc and terminal
-penlabels(0,1,2,3,4,5,6,7,8,9); endchar;
-
-cmchar "The letter z";
-beginchar("z",8u#,x_height#,0);
-italcorr x_height#*slant-.5serif_fit#-.3u#;
-adjust_fit(0,.5serif_fit#);
-numeric arm_thickness[],z_stem;
-if hefty: arm_thickness1=Vround(vair-vair_corr); arm_thickness2=vair;
- z_stem=.6[vair,stem];
-else: arm_thickness1=vair; arm_thickness2=vair'; z_stem=.9[vair,stem]; fi
-pickup tiny.nib; rt x1r=rt x2r=hround(w-.8u); lft x3l=lft x4l=hround .5u;
-top y1=h; y2=min(y1,h-2/3arm_thickness1);
-bot y4=0; y3=max(y4,2/3arm_thickness2);
-numeric alpha; alpha=diag_ratio(1,z_stem-tiny,y2-y3,x2r-x3l-slant*(y2-y3));
-penpos1(alpha*(z_stem-tiny),0); penpos2(alpha*(z_stem-tiny),0);
-penpos3(alpha*(z_stem-tiny),0); penpos4(alpha*(z_stem-tiny),0);
-pair delta; delta=penoffset z3-z2 of currentpen;
-fill top lft z1l--z2l+delta---z3l+delta..lft z3l---lft z4l..bot z4l
- ---bot rt z4r--z3r-delta---z2r-delta..rt z2r---rt z1r..top z1r
- ---cycle; % diagonal
-pickup crisp.nib; pos5(arm_thickness1,90); pos6(hair,180);
-top y5r=h; x5=x1; lft x6r=hround .75u; y6=good.y(y5l-beak/1.4)-eps;
-arm(5,6,a,beak_darkness,-.4beak_jut); % upper arm and beak
-pos7(arm_thickness2,-90); pos8(hair,0);
-bot y7r=0; x7=x4; rt x8r=hround(w-.75u); y8=good.y(y7l+beak/1.2)+eps;
-arm(7,8,b,beak_darkness,.6beak_jut); % lower arm and beak
-penlabels(1,2,3,4,5,6,7,8); endchar;
-
- % R O M A N L ends %
-
-
-font_x_height x_height#;
-if monospace: font_normal_space 9u#; % no stretching or shrinking
- font_quad 18u#;
- font_extra_space 9u#;
-else: font_normal_space 6u#+2letter_fit#;
- font_normal_stretch 3u#; font_normal_shrink 2u#;
- font_quad 18u#+4letter_fit#;
- font_extra_space 2u#;
- k#:=-.5u#; kk#:=-1.5u#; kkk#:=-2u#; % three degrees of kerning
- ligtable "k": if serifs: "v": "a" kern -u#, fi\\"w": "e" kern k#,
- "a" kern k#, "o" kern k#, "c" kern k#;
- ligtable "P": "A" kern kk#,
- "y": "o" kern k#, "e" kern k#, "a" kern k#, "." kern kk#, "," kern kk#;
- ligtable "F": "V": "W": if serifs: "o" kern kk#, "e" kern kk#, "u" kern kk#,
- "r" kern kk#, "a" kern kk#, "A" kern kkk#,
- else: "o" kern k#, "e" kern k#, "u" kern k#,
- "r" kern k#, "a" kern k#, "A" kern kk#, fi
- "K": "X": "O" kern k#, "C" kern k#, "G" kern k#, "Q" kern k#;
- ligtable "T": "y" kern if serifs: k# else: kk# fi,
- "Y": "e" kern kk#, "o" kern kk#,
- "r" kern kk#, "a" kern kk#, "A" kern kk#, "u" kern kk#;
- ligtable "O": "D": "X" kern k#, "W" kern k#, "A" kern k#,
- "V" kern k#, "Y" kern k#;
- if serifs: ligtable "h": "m": "n":
- "t" kern k#, "u" kern k#, "b" kern k#, "y" kern k#, "v" kern k#, "w" kern k#;
- ligtable "c": "h" kern k#, "k" kern k#; fi
- ligtable "o": "b": "p": "e" kern -k#, "o" kern -k#, "x" kern k#,
- "d" kern -k#, "c" kern -k#, "q" kern -k#,
- "a": if serifs: "v" kern k#, "j" kern u#, else: "r" kern k#, fi
- "t": "y" kern k#,
- "u": "w" kern k#;
- ligtable "A": if serifs: "R": fi\\ "t" kern k#,
- "C" kern k#, "O" kern k#, "G" kern k#, "U" kern k#, "Q" kern k#,
- "L": "T" kern kk#, "Y" kern kk#, "V" kern kkk#, "W" kern kkk#;
- ligtable "g": "j" kern -k#; % logjam
- ligtable "I": "I" kern -k#; % Richard III
-fi;
-bye.
-
diff --git a/Master/texmf-dist/fonts/tfm/public/apl/cmapl10.tfm b/Master/texmf-dist/fonts/tfm/public/apl/cmapl10.tfm
deleted file mode 100644
index 1cecac3c3f6..00000000000
--- a/Master/texmf-dist/fonts/tfm/public/apl/cmapl10.tfm
+++ /dev/null
Binary files differ
diff --git a/Master/texmf-dist/source/fonts/apl/apldef.tex b/Master/texmf-dist/source/fonts/apl/apldef.tex
deleted file mode 100644
index 66451a7dbce..00000000000
--- a/Master/texmf-dist/source/fonts/apl/apldef.tex
+++ /dev/null
@@ -1,106 +0,0 @@
-% apldef.tex
-%
-% Aarno Hohti/Okko Kanerva
-% University of Helsinki
-% Department of Mathematics
-% Hallituskatu 15
-% SF--00100 Helsinki
-% Finland
-%
-% Bitnet: HOHTI@FINFUN
-%
-%===============================================================
-% This file contains the definitions of the 2-letter control
-% sequences for using cmapl10.
-% cmapl10 was described in TUGboat 8 #3, November 1987.
-%===============================================================
-%
-\def\RO{{\apl\char'014}} % rho
-\def\IO{{\apl\char'015}} % iota
-\def\BX{\lower.1ex\hbox{\apl\char'001}} % quad box (window etc.)
-\def\CE{{\apl\char'035}} % ceiling
-\def\FL{{\apl\char'034}} % floor
-\def\DE{{\apl\char'031}} % decode
-\def\EN{{\apl\char'030}} % encode
-\def\DL{{\apl\char'002}} % del
-\def\LD{{\apl\char'003}} % delta
-\def\NT{{\apl\char'026}} % not
-\def\LO{{\apl\char'017}} % circle
-\def\GO{{\apl\char'036}} % arrow right
-\def\OR{{\apl\char'010}} % logical or
-\def\DM{{\apl\char'011}} % diamond
-\def\LE{{\apl\char'012}} % less than or equal
-\def\GE{{\apl\char'013}} % greater than or equal
-\def\AB{{\apl\char'174}} % stile
-\def\LB{{\apl\char'173}} % left brace
-\def\RB{{\apl\char'175}} % right brace
-\def\DA{{\apl\char'037}} % arrow down
-\def\UA{{\apl\char'136}} % arrow up
-\def\EP{{\apl\char'006}} % epsilon
-\def\NE{{\apl\char'027}} % not equal
-\def\BL{{\apl\char'134}} % backslash
-\def\RU{{\apl\char'022}} % right U
-\def\LU{{\apl\char'023}} % left U
-\def\DU{{\apl\char'021}} % down U
-\def\UU{{\apl\char'020}} % up U
-\def\LK{{\apl\char'033}} % left tack
-\def\RK{{\apl\char'032}} % right tack
-\def\US{{\apl\char'024}} % underscore
-\def\NG{{\apl\char'025}} % high minus
-\def\DD{{\apl\char'007}} % dieresis
-\def\AM{{\apl\char'004}} % alpha
-\def\OM{{\apl\char'005}} % omega
-\def\SO{\raise.3ex\hbox{{\apl\char'016}}} % small circle
-%
-% This macro is used for overstriking two characters
-\newskip\charwidth
-\def\overstrike#1#2{\setbox1=\hbox{#1}\charwidth=\wd1
- #1\hskip-\charwidth#2}
-%
-\def\TR{\overstrike{\LO}{\BL}} % transpose
-\def\RV{\overstrike{\LO}{\AB}} % reverse
-\def\CR{\overstrike{\LO}{-}} % column reverse
-\def\GD{\overstrike{\DL}{\AB}} % grade down
-\def\GU{\overstrike{\LD}{\AB}} % grade up
-\def\FM{\overstrike{\raise.1ex\hbox{{\apl\char'016}}}{\EN}} % format
-\def\XQ{\overstrike{\raise.1ex\hbox{{\apl\char'016}}}{\DE}} % execute
-\def\SS{\overstrike{\RU}{\US}} % subset
-\def\CO{\overstrike{\LU}{\US}} % contains
-\def\CB{\overstrike{\BL}{-}} % column backslash
-\def\CS{\overstrike{/}{-}} % column slash
-\def\IB{\overstrike{\EN}{\DE}} % I-beam
-\def\DQ{\overstrike{{\apl\char'045}}{\BX}} % divide quad
-\def\QQ{\overstrike{{\apl '}}{\BX}} % quote quad
-\def\PD{\overstrike{\DL}{\NT}} % protected del
-\def\NR{\overstrike{\OR}{\NT}} % nor
-\def\NN{\overstrike{{\apl\char'046}}{\NT}} % nand
-\def\LG{\overstrike{{\apl *}}{\LO}} % logarithm
-% underscored letters
-\def\ZA{\overstrike{{\apl A}}{\US}}
-\def\ZB{\overstrike{{\apl B}}{\US}}
-\def\ZC{\overstrike{{\apl C}}{\US}}
-\def\ZD{\overstrike{{\apl D}}{\US}}
-\def\ZE{\overstrike{{\apl E}}{\US}}
-\def\ZF{\overstrike{{\apl F}}{\US}}
-\def\ZG{\overstrike{{\apl G}}{\US}}
-\def\ZH{\overstrike{{\apl H}}{\US}}
-\def\ZI{\overstrike{{\apl I}}{\US}}
-\def\ZJ{\overstrike{{\apl J}}{\US}}
-\def\ZK{\overstrike{{\apl K}}{\US}}
-\def\ZL{\overstrike{{\apl L}}{\US}}
-\def\ZM{\overstrike{{\apl M}}{\US}}
-\def\ZN{\overstrike{{\apl N}}{\US}}
-\def\ZO{\overstrike{{\apl O}}{\US}}
-\def\ZP{\overstrike{{\apl P}}{\US}}
-\def\ZQ{\overstrike{{\apl Q}}{\US}}
-\def\ZR{\overstrike{{\apl R}}{\US}}
-\def\ZS{\overstrike{{\apl S}}{\US}}
-\def\ZT{\overstrike{{\apl T}}{\US}}
-\def\ZU{\overstrike{{\apl U}}{\US}}
-\def\ZV{\overstrike{{\apl V}}{\US}}
-\def\ZX{\overstrike{{\apl X}}{\US}}
-\def\ZY{\overstrike{{\apl Y}}{\US}}
-\def\ZW{\overstrike{{\apl W}}{\US}}
-\def\ZZ{\overstrike{{\apl Z}}{\US}}
-
-\endinput
diff --git a/Master/texmf-dist/source/fonts/apl/aplstyle.tex b/Master/texmf-dist/source/fonts/apl/aplstyle.tex
deleted file mode 100644
index b732bded0c4..00000000000
--- a/Master/texmf-dist/source/fonts/apl/aplstyle.tex
+++ /dev/null
@@ -1,29 +0,0 @@
-% aplstyle.tex
-%
-%===============================================================
-% A P L S T Y L E
-%===============================================================
-% A.Hohti/O.Kanerva University of Helsinki April 6 1987
-%
-% APL symbols are represented by the Digital (VAX) APL replacement
-% symbols. The standard escape sequence is changed to "@" (at sign)
-% in accordance with the usage in Digital APL.
-%
-\font\apl=cmapl10 % The APL font of typewriter type
-%
-%
-% The following macro switches the typewriter-like font
-% used within verbatim
-\def\ifundefined#1{\expandafter\ifx\csname#1\endcsname\relax}
-\outer\def\choosett#1{\ifundefined{#1}
- \message{Undefined font(?), replaced with cmtt10}
- \let\tt=\tentt
- \else
- \def\tt{\expandafter\csname#1\endcsname}\fi}
-%
-\choosett{tentt} % default value
-%
-\input aplverb % definitions for verbatim
-\input apldef % control sequences for the APL symbols
-
-\endinput
diff --git a/Master/texmf-dist/source/fonts/apl/aplverb.tex b/Master/texmf-dist/source/fonts/apl/aplverb.tex
deleted file mode 100644
index cac8e3acdbf..00000000000
--- a/Master/texmf-dist/source/fonts/apl/aplverb.tex
+++ /dev/null
@@ -1,45 +0,0 @@
-% aplverb.tex = verbatim.tex
-%
-%
-% F|ljande macron anv{nds d} man vill f} ut \TeX-kommandon
-% i klartext. @text@ ger text i fonten \tt med alla kontroll-
-% tecken och dylika bevarade (\TeX\ f|rst}r sig endast p} kommandot
-% @ i denna mode). Man kan ocks} utnyttja \begintt ... \endtt f|r
-% att beskriva kommandon, d} {r ocks} \obeylines och \obeyspaces
-% aktiva. Om man vill anv{nda vissa \TeX-kommandon men vill
-% ocks} displaya n}got i en-kolumn-tabell-form kan man anv{nda
-% \begindisplay ...\cr ...\cr \enddisplay
-% Om du vill anv{nda \begintt...\endtt f|r text som inte
-% ryms p} en sida, kan du ocks} anv{nda \beginlines...\endlines.
-% Varje rad m}ste d} b|rjas och avslutas med kommandot @.
-\newskip\verbatimindent \verbatimindent=0cm
-\newskip\ttglue{\tt \global\ttglue=.5em plus.25em minus.15em}
-\def\@{\char'100 }
-%
-\outer\def\begindisplay{\obeylines\startdisplay}
-{\obeylines\gdef\startdisplay#1
- {\catcode`\^^M=5$$#1\halign\bgroup&\hskip\verbatimindent##\hfil\cr}}
-\outer\def\enddisplay{\crcr\egroup$$}
-%
-\chardef\other=12
-\def\ttverbatim{\begingroup \catcode`\\=\other \catcode`\{=\other
- \catcode`\}=\other \catcode`\$=\other \catcode`\&=\other
- \catcode`\#=\other \catcode`\%=\other \catcode`\~=\other
- \catcode`\_=\other \catcode`\^=\other\catcode`\*=\other\catcode`\==\other
- \obeyspaces \obeylines \tt}
-{\obeyspaces\gdef {\ }}
-%
-\def\begintt{$$\let\par=\endgraf \ttverbatim \parskip=0pt
- \catcode`\@=0 \parindent=\verbatimindent \rightskip=-5pc \ttfinish}
-{\catcode`\@=0 @catcode`@\=\other % @ is temporary escape character
- @obeylines % end of line is active
- @gdef@ttfinish#1^^M#2\endtt{#1@vbox{#2}@endgroup$$}}
-%
-\catcode`\@=\active
-{\obeylines\gdef@{\ttverbatim\spaceskip=\ttglue\let^^M=\ \let@=\endgroup}}
-
-\def\beginlines{\par\begingroup\nobreak\medskip\parindent=0pt
- \kern1pt\nobreak \obeylines \everypar{\strut}}
-\def\endlines{\kern1pt\endgroup\medbreak\noindent}
-
-\endinput
diff --git a/Master/texmf-dist/source/fonts/apl/clean.pas b/Master/texmf-dist/source/fonts/apl/clean.pas
deleted file mode 100644
index 611d434fe59..00000000000
--- a/Master/texmf-dist/source/fonts/apl/clean.pas
+++ /dev/null
@@ -1,226 +0,0 @@
-
-%============================================================================
-% C L E A N . P A S
-%============================================================================
-
-% A sample Turbo Pascal (3.0) program for truncating downloaded pixel files
-% to the standard size assumed by some TeX-oriented programs (starting from
-% a file of type: File of Array[0..511] of Byte.
-
-Program Clean_Up(Output,Input,Font_List_File);
-
-LABEL
-
-Report;
-
-
-TYPE
-
-Name_Of_File =String[20];
-Name_Of_Font =String[20];
-Byte =0..255;
-Byte_Block =Array[0..511] Of Byte;
-Word =Array[0..3] Of Byte;
-
-
-
-VAR
-
-Font_List_File:Text;
-Pxl_File:File of Byte_Block;
-Block:Byte_Block;
-Last_Blocks:Array[0..1023] Of Byte;
-One_Word:Word;
-File_Name,New_File_Name:Name_Of_File;
-Font_Name:Name_Of_Font;
-New_Pxl_File:File Of Word;
-File_Id_Found,Bad_Pxl_File:Boolean;
-End_Of_Block:Boolean;
-IOR,Word_Pos:Integer;
-Ch:Char;
-Word_Value:Real;
-
-
-PROCEDURE Banner;
-
- Begin
- Writeln('!==================================================!');
- Writeln('! The files to be repaired are assumed consist of !');
- Writeln('! blocks 512 bytes long. The repaired files consist!');
- Writeln('! of words. The names of files are supposed to be !');
- Writeln('! found from a separate file. !');
- Writeln('!==================================================!');
- End;
-
-
-
-PROCEDURE Initialize;
-
- Begin
- File_Id_Found:=False;
- Word_Pos:=0;
- End_Of_Block:=False;
- Bad_Pxl_File:=False;
- End;
-
-
-
-
-PROCEDURE Check_File_Id;
-
-VAR
-
-A:Integer;
-
- Begin
- If Abs(Word_Value)<2000.0 Then
- Begin
- A:=Round(Word_Value);
- If (A=1001) Or (A=1002) Then File_Id_Found:=True;
- End;
- End;
-
-
-
-PROCEDURE READ_NEXT_WORD;
-
-VAR
-
-I:Integer;
-
- Begin
- If Not End_Of_Block Then
- Begin
- For I:=0 To 3 Do One_Word[3-I]:=Last_Blocks[1023-((4*Word_Pos)+I)];
- Word_Pos:=Word_Pos+1;
- If Word_Pos>255 Then End_Of_Block:=True;
- End;
- End;
-
-
-
-
-PROCEDURE EVALUATE_NEXT_WORD;
-
- Begin
- Read_Next_Word;
- Word_Value:=One_Word[3]+256.0*(One_Word[2]+
- 256.0*(One_Word[1]+256.0*One_Word[0]));
-
- End;
-
-
-
-PROCEDURE Find_File_Id;
-
-Var
-
-K:Integer;
-
- Begin
- While (Not File_Id_Found) And (Not End_Of_Block) Do
- Begin
- Evaluate_Next_Word;
- Check_File_Id;
- End;
- If Not File_Id_Found Then
- Begin
- For K:=Length(Font_Name) To 30 Do Write('.');
- Writeln(' Bad Pxl File, File Not Repaired');
- Bad_Pxl_File:=True;
- End;
- End;
-
-
-
-PROCEDURE Rewrite_Pxl_File(Var Font_Name,File_Name:Name_Of_File);
-
-LABEL
-
-Report;
-
-VAR
-
-I,J,K,IOR:Integer;
-
- Begin
- Assign(Pxl_File,Font_Name);
- {$I-} Reset(Pxl_File) {$I+};
- IOR:=IOresult;
- If IOR<>0 Then Goto Report;
- Assign(New_Pxl_File,File_Name);
- Rewrite(New_Pxl_File);
- Seek(Pxl_File,0);
- For I:=0 To Filesize(Pxl_File)-3 Do
- Begin
- Read(Pxl_File,Block);
- For J:=0 To 127 Do
- Begin
- For K:=0 To 3 Do One_Word[K]:=Block[(4*J)+K];
- Write(New_Pxl_File,One_Word);
- End;
- End;
- Read(Pxl_File,Block);
- For I:=0 To 511 Do
- Last_Blocks[I]:=Block[I];
- Read(Pxl_File,Block);
- For I:=512 To 1023 Do
- Last_Blocks[I]:=Block[I-512];
- Find_File_ID;
- Word_Pos:=255-Word_Pos;
- If Not Bad_Pxl_File Then
- Begin
- For I:=0 To Word_Pos+1 Do
- Begin
- For K:=0 To 3 Do One_Word[K]:=Last_Blocks[(4*I)+K];
- Write(New_Pxl_File,One_Word);
- End;
- Report:Begin
- For I:=0 To 30-Length(Font_Name) Do Write('.');
- If IOR<>0 Then Writeln('File Not Found') Else
- Begin
- Writeln(New_File_Name);
- Close(New_Pxl_File);
- Close(Pxl_File);
- End;
- End;
- End;
- End;
-
-
-
-
- (*** M A I N P R O G R A M ***)
-BEGIN
-
- Banner;
- Writeln;
- Writeln('Give The Name Of File Containing The List Of Pxl Files: ');
- Readln(File_Name);
- Assign(Font_List_File,File_Name);
- {$I-} Reset(Font_List_File) {$I+};
- IOR:=IOresult;
- If IOR<>0 Then Goto Report;
- While Not Eof(Font_List_File) Do
- Begin
- Initialize;
- Font_Name:='';
- While Not Eoln(Font_List_File) Do
- Begin
- Read(Font_List_File,Ch);
- Font_Name:=Font_Name+Ch;
- End;
- Readln(Font_List_File);
- Write(Font_Name);
- New_File_Name:=Copy(Font_Name,1,Pos('.',Font_Name)-1)+'.rxl';
- Rewrite_Pxl_File(Font_Name,New_File_Name);
- End;
- Writeln;
- Report: Begin
- If IOR<>0 Then Writeln('File Not Found!') Else
- Begin
- Writeln('............Done!...........');
- Close(Font_List_File);
- End;
- End;
-END.
diff --git a/Master/texmf-dist/source/fonts/apl/convert.pas b/Master/texmf-dist/source/fonts/apl/convert.pas
deleted file mode 100644
index 8a5b6195051..00000000000
--- a/Master/texmf-dist/source/fonts/apl/convert.pas
+++ /dev/null
@@ -1,117 +0,0 @@
-
-%============================================================================
-% C O N V E R T . P A S
-%============================================================================
-
-% This is a sample Turbo Pascal program for HeX-->Bin conversion useful
-% for a safe download of pixel files (Turbo Pascal 3.0)
-
-PROGRAM ASC_TO_BIN(Input,Output,Font_List_File);
-
- TYPE
-
- Byte = 0..255;
- Name_Of_File = String[20];
-
-
- VAR
-
- Newfile:File Of Byte;
- Textfile,Font_List_File:Text;
- First_Hex,Second_Hex,Ch:Char;
- One_Byte:Byte;
- I:Integer;
- Font_Name,File_Name,New_File_Name:Name_Of_File;
-
-
-PROCEDURE Banner;
-
- Begin
- Writeln('!=================================================!');
- Writeln('! The text files to be converted must have been !');
- Writeln('! originally obtained as follows: each byte is !');
- Writeln('! replaced by two hexadecimals, the first of which!');
- Writeln('! is Byte Div 16 and the second Byte Mod 16. The !');
- Writeln('! names of files are supposed to be found in a !');
- Writeln('! separate list file. !');
- Writeln('!=================================================!');
- End;
-
-
-FUNCTION Convert_Hex_To_Dec(X:Char):Integer;
-
- Begin
- If X In ['0'..'9'] Then Convert_Hex_To_Dec:=Ord(X)-48
- Else Convert_Hex_To_Dec:=Ord(X)-55;
- End;
-
-
-
-
-PROCEDURE Convert_File(Var File_Name,New_File_Name:Name_Of_File);
-
-VAR
-
-A,B,I:Integer;
-
-
- Begin
- Assign(Textfile,File_Name);
- {$I-} Reset(Textfile) {$I+};
- If IOresult=0 Then
- Begin
- Assign(Newfile,New_File_Name);
- Rewrite(Newfile);
- While Not Eof(Textfile) Do
- Begin
- While Not Eoln(Textfile) Do
- Begin
- Read(Textfile,First_Hex);
- Read(Textfile,Second_Hex);
- A:=Convert_Hex_To_Dec(First_Hex);
- B:=Convert_Hex_To_Dec(Second_Hex);
- One_Byte:=(16*A)+B;
- If Eoln(Textfile) Then Readln(Textfile);
- Write(Newfile,One_Byte);
- End;
- End;
- For I:=0 To 30-Length(New_File_Name) Do Write('.');
- Writeln(New_File_Name,' written');
- Close(Textfile);
- Close(Newfile);
- End Else
- Writeln('This File Not Found!');
- End;
-
- (*** M A I N P R O G R A M ***)
-BEGIN
-
- Banner;
- Writeln;
- Writeln('Give The Name Of File Containing The List Of Pxl Files: ');
- Readln(File_Name);
- Assign(Font_List_File,File_Name);
- {$I-} Reset(Font_List_File) {$I+};
- If IOresult=0 Then
- Begin
- Writeln;
- Writeln('... started converting ...');
- Writeln;
- While Not Eof(Font_List_File) Do
- Begin
- Font_Name:='';
- While Not Eoln(Font_List_File) Do
- Begin
- Read(Font_List_File,Ch);
- Font_Name:=Font_Name+Ch;
- End;
- Write(Font_Name);
- New_File_Name:=Copy(Font_Name,1,Pos('.',Font_Name)-1)+'.bxl';
- Readln(Font_List_File);
- Convert_File(Font_Name,New_File_Name);
- End;
- Writeln;
- Writeln('... conversion done ...');
- End Else
- Writeln('File List Not Found!');
-END.
diff --git a/Master/texmf-dist/source/fonts/apl/fontnotes b/Master/texmf-dist/source/fonts/apl/fontnotes
deleted file mode 100644
index 967c6f33db2..00000000000
--- a/Master/texmf-dist/source/fonts/apl/fontnotes
+++ /dev/null
@@ -1,97 +0,0 @@
-
-
- These files contain the necessary material for producing
-APL documents with TeX. It should be pointed out that as written
-in an article published in TUGboat, the system as such can be
-described as a straightforward solution to the problem of making
-nice documents containing APL code. Instead of trying to achieve
-a completed result, we tell the reader how to use existing MetaFont
-character descriptions as far as possible to provide an APL font
-of reasonably fine quality. Further development is left to the users.
-Combined with suitable TeX macros using Digital's mnemonics -- chosen
-because of the popularity of the interpreter among APL users
-(it is really the only one used at our site) -- the font can be used
-smoothly enough. Furthermore, if combined with an APL workspace
-providing functions for an automatic conversion of APL workspaces
-into TeX code, the system can be used to merge pre-existing
-APL code into documents without the pain of re-writing the code
-in Digital's 2-letter mnemonics.
- To produce pixel files from the MetaFont file CMAPL10.MF,
-you have to run MetaFont in your local machine. By typing METAFONT
-you should get the prompt symbol '*'. It may be necessary to use
-the form
-
- METAFONT\INPUT_DIRECTORY = XXXXXX
-
-where XXXXXX is the global name of the directory where the basic
-CMMF definitions can be found.
-The following discussion will then get MetaFont to produce a generic
-font file CMAPL10.360GF:
-
- * \relax;
- * \mode = imagen;
- * \mag = 1.2;
- * input cmapl10
-
-Here \mode = imagen was used to get a pixel file for a laserprinter
-with the resolution 200 times 200 pixels per square inch. It is
-possible that the definition of 'imagen' is different at your local
-site; in the case of error ask the person who installed your local
-MetaFont. Notice that \mag = 1.2 is needed in case you want to get
-magnified pixels. The final pixel (because of the resolution 200)
-files will then be named CMAPL10.1800PXL (or whatever you choose
-to call them). If you want to produce 'small' pixel files for example
-for a screen previewer, use \mag = xxx with an appropriate constant xxx.
-(You can check the form of characters obtained on a teletype terminal
-by using the program GFTYPE.) Finally, you get a pixel file from
-CMAPL10.xxxGF by running the program GF(TO)PXL.EXE, which should be
-found together with MetaFont.
- Some people want to use their pixel files on a PC (the
-laserprinter is connected to a PC or for previewing purposes). In
-that case the pixel files must be downloaded from the host. We never
-use programs like Kermit for transferring the binary file but
-first convert it to hex form, load the file down as a text file and
-then convert it back. It is IMPORTANT to notice that pixel files in
-VAXes (say) are composed of 512 byte blocks. The pixel file itself
-is ended by the pixel_id, which is either 1001 (rasters are in word packed
-form) or 1002 (rasters are in byte packed form). Many programs running
-on PCs assume that the last 4 bytes of the pixel file really
-represent the pixel_id. Hence, the pixel files downloaded from the host
-should be CLEANed from garbage (the programs CONVERT and CLEAN are
-given for convenience and to fix the definition of what they should do).
- MetaFont also produces the file CMAPL10.TFM containing the
-metric information of the characters in the font. These are needed
-by TeX, and they can be downloaded as such (at least if you are
-using Micro-TeX or PCTeX).
-
- In order to use the mnemonics, the macros in APLSTYLE are
-needed. There are basically two ways of merging APL code. There are
-standard macros called VERBATIM, which enable the user to produce
-'typewriter-like' output. As APL is modelled on a typewriter style,
-too, it has been reasonable to extend VERBATIM to accept different
-typewriter-like fonts. The escape sequence \choosett enables you to
-choose the font you want to use. Thus, \choosett{tentt} swithces
-the standard font CMTT10 on, whereas \choosett{apl} chooses the font
-APL, defined in APLSTYLE by '\font\apl = cmapl10'. First, you can
-insert APL code into text lines. In this case you can call any
-APL symbol either by its 2-letter mnemonic (for example \BX produces the
-box symbol) if there is no symbol for it OR otherwise by its name
-surrounded by two @'s. (The @ character swithces into the current
-typewriter style.) Thus, @A_B@ produces 'A <-- B' in APL style, because
-'_' is the name of '<--' in Digital's mnemonics. Secondly, you can
-insert APL code in 'screenlike' mode. The code is to be delimited
-by the pair \begintt - \endtt. Example:
-
-\begintt
- @DL Z_ZNPLUS N;@BXIO % Here '@' replaces '\' as the escape
-[1] @BXIO_0 % character
-[2] Z_N@AB(@ION)@SO.+@ION
- @DL
-\endtt
-
-Please note that in this case the material between \begintt -- \endtt
-is considered by TeX as a vertical box that cannot be divided between
-pages. Thus, if you have a long APL function, it might produce
-a message of underfull vbox.
-
-
diff --git a/Master/texmf-dist/source/fonts/apl/ninesize.tex b/Master/texmf-dist/source/fonts/apl/ninesize.tex
deleted file mode 100644
index a0260f07997..00000000000
--- a/Master/texmf-dist/source/fonts/apl/ninesize.tex
+++ /dev/null
@@ -1,34 +0,0 @@
-
-%=============================================================================
-% N I N E S I Z E . T E X (for convenience only)
-%=============================================================================
-%===============================================================
-% This is a TeX macro for switching to nine point fonts. Taken
-% from the TeXbook, pages 413 - 415. (For special cases only)
-%===============================================================
-%
-\font\ninerm=amr9
-\font\ninei=ammi9
-\font\ninesy=amsy9
-\font\ninebf=ambx9
-\font\ninett=amtt9
-\font\nineit=amti9
-\font\ninesl=amsl9
-%
-\skewchar\ninei='177
-\skewchar\ninesy='60
-\skewchar\ninett=-1
-%
-\newskip\tglue
-\def\ninepoint{\def\rm{\fam0\ninerm}
- \textfont0=\ninerm
- \textfont1=\ninei
- \textfont2=\ninesy
- \textfont\itfam=\nineit \def\it{\fam\itfam\nineit}%
- \textfont\slfam=\ninesl \def\sl{\fam\slfam\ninesl}%
- \textfont\ttfam=\ninett \def\tt{\fam\ttfam\ninett}%
- \textfont\bffam=\ninebf \def\bf{\fam\bffam\ninebf}%
- \tt\tglue=.5em plus.25em minus .15em
- \normalbaselineskip=11pt
- \setbox\strutbox=\hbox{\vrule height8pt depth3pt width0pt}%
- \let\sc=\sevenrm \let\big=\ninebig \normalbaselines\rm}%
diff --git a/Master/texmf-dist/source/fonts/apl/problems.tex b/Master/texmf-dist/source/fonts/apl/problems.tex
deleted file mode 100644
index 3f47553ea37..00000000000
--- a/Master/texmf-dist/source/fonts/apl/problems.tex
+++ /dev/null
@@ -1,316 +0,0 @@
-
-%===================================================================
-% Sample problems; solutions give examples on using APL style in TeX
-% Taken from the course ``Mathematics on the Computer'', Fall 87
-%===================================================================
-
-\magnification = \magstep1
-
-\advance\vsize by 3truecm
-
-\input mssymb % for some math symbols only! This is the new
- % symbol font for some standard and non-standard
- % mathematical symbols. It is only used here for
- % blackboard bold letters. If you dont have it,
- % just define \def\Bbb{} etc.
-
-\input aplstyle
-
-\choosett{apl}
-
-\font\sans = amss10
-\font\sltt = amsltt10
-
-\def\header{{\sans Sample problems 9.\ 10.\ 1987}}
-% some of them come from Sims' ``Abstract Algebra, A Computational Approach''
-\def\APL{{\sltt APL}}
-
-\nopagenumbers
-\tolerance = 300
-\noindent
-\header
-
-\vskip 2cm
-
-\item{1.} Let $N>1$ be an integer. Show that each of the following
- matrices represents a binary operation on
- $S(N)$ (we set locally \BX@IO_0@.) Which of them are
- associative, which commutative?
- \medskip
-
- \itemitem{a)} @(@\IO@N)@\SO@.@\CE\IO@N@
-
- \itemitem{b)} \AB@(@\IO@N)@\SO@.-@\IO@N@
-
- \itemitem{c)} @N@\AB@(@\IO@N)@\SO@.+@\IO@N@
-
- \itemitem{d)} @N@\AB@(@\IO@N)@\SO@.#@\IO@N@
-
- \medskip
-\item{} Here @x@\CE@y@ is $\max(x,y)$, @x@\AB@y@ is
- $y\bmod x$ and \AB@x@ is the absolute value of $x$.
-
-\bigskip
-
-\item{2.} Write an \APL\ function @GPOWER@ that computes for a group
- @G@ (global variable) the $n$-th power of a given element $x$.
- (If $S(M)$ is a representation vector of @G@, then
- @GPOWER@ is a map $S(M)\times \Bbb Z\to S(M)$. Simply
- use iteration.)
-
-\bigskip
-
-\item{3.} (Continuing problem 2.) A faster algorithm is obtained by
- decomposing $x^n$ into its 2--base form
- $x^n = x^{i_0}\times x^{2i_1}\times
- x^{4i_2}\times ... \times x^{{2^k}i_k}$, where $i_j\in\{0,1\}$. Show
- that the complexity of this algorithm is $O(\log_2(n))$.
- (Show that the number of necessary multiplications does
- not exceed $2\log_2(n)$). How would you write the corresponding
- function in \APL? (Note that the binary representation of $n$
- can be obtained by applying iteratively the procedure $n\bmod 2$.)
-
-\bigskip
-
-\item{4.} Write an \APL\ function @GTSGP@ that computes for a given group @G@
- (global variable) the subgroup generated by a given subset $A$. The
- function @GTSGP@ has one argument (the vector @A@) and returns
- a subset of the set $S(N)$ (as a vector). (Extend the set @A@
- by the group operation until @A@ becomes closed with respect
- to the operation.)
-
-\bigskip
-
-\item{5.} Write an \APL\ function @INV@ that returns for a group @G@
- the vector of inverse elements as a vector $S(N)\to S(N)$ so
- that the index of the inverse of $x_i$ is @(INV G)[I]@.
-
-\bigskip
-
-\item{6.} Let $(G,\theta)$ be a group and let $A$ be a subset of $G$. Program
- the following algorithm in \APL\ to find the subgroup @H@
- generated by @A@. Compare the perfomance of this algorithm
- with the algorithm in Problem 4.
- \medskip
-
- \itemitem{a)} put $H$ and $Y$ equal to $\{e\}$.
-
- \itemitem{b)} let $Y$ be $YA\smallsetminus H$.
-
- \itemitem{c)} if $Y=\emptyset$, stop.
-
- \itemitem{d)} put $H$ equal to $H\cup Y$ and
- go to (b).
-
- \medskip
-\item{} ($e$ is the neutral element and $YA\smallsetminus H$
- is the set--theoretical difference of $YA$ and $H$.
- The product $YA$ is the set $\{y\theta a: y\in Y, a\in A\}$.)
-
-\bigskip
-
-\item{7.} Write an \APL\ function @PROD@ that returns for given groups
- $(G_1,\theta_1)$ ja $(G_2,\theta_2)$ the {\sl direct product}
- $(G_1\times G_2,\theta_1\times\theta_2)$ as a group table.
- (The binary operation in the product is $(x,y)\theta_1\times\theta_2
- (z,w) = (x\theta_1 z,y\theta_2 w)$).
-
-\bigskip
-
-\vfill\eject
-
-%==========================================================================
-% Solutions to above sample exercises
-%==========================================================================
-
-%\advance\vsize by 3truecm
-
-\choosett{apl}
-
-\noindent
-\header%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-\vskip 1cm
-
-\noindent
-As the index of the neutral element we use the index origin \BX@IO@ which
-usually has the value @0@. Then $S(N)=
-\{0,\dots,N-1\}$, given by the vector \IO@N@.
-An example on groups are the cyclic groups $({\bf Z}_n,+)$
-the group tables of which are generated by the \APL\ function @ZNPLUS@:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_ZNPLUS N;@BXIO
-[1] @BXIO_0
-[2] Z_N@AB(@ION)@SO.+@ION
- @DL
-\endtt
-}\smallskip
-
-\item{1.} The matrices represent binary operations of $S(N)$,
- since they are $N\times N$-matrices with elements from
- $S(N)$. They are all associative and also commutative except for
- the case (b). This can be seen by the function @TEST@:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_TEST B
-[1] " B IS A BINARY OPERATION. THE FUNCTION RETURNS A BOOLEAN 2-VECTOR
-[2] " (B ASSOCIATIVE, B COMMUTATIVE)
-[3] Z_(&/&/&/B[B;]=B[;B]),&/&/B=@TRB
- @DL
-\endtt
-}\smallskip
-
-\item{2.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL P_X GPOWER N;I
-[1] " G GLOBAL
-[2] P_@BXIO @DM I_0
-[3] TEST:@GO(N<I_I+1)/0
-[4] P_G[P;X]
-[5] @GOTEST
- @DL
-\endtt
-}\smallskip
-
-\item{3.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL P_X BGPOWER N;IJ
-[1] " G GLOBAL
-[2] P_@BXIO
-[3] NEXTJ:@GO(0=N,IJ_2@ABN)/0,SQX
-[4] P_G[P;X]
-[5] SQX:X_G[X;X]
-[6] N_(N-IJ)%2
-[7] @GONEXTJ
- @DL
-\endtt
-}
-
-\item{} A comment: if $i_j=0$, then the power is not increased,
- but the square $x^{2^{j+1}}=(x^{2^j})^2$ is computed.
- The number of iterations is $k$; $n = i_0+i_12+\cdots+i_k2^k \ge 2^k$,
- when $i_k \not= 0$, and hence $k \le \log_2(n)$.
- Thus, the complexity is $O(\log_2(n))$.
-\smallskip
-
-\vfill\eject
-\item{4.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A GTSGP G
-[1] " RETURNS THE SUBGROUP OF G GENERATED BY A
-[2] Z_,A
-[3] TEST:@GO(&/&/G[Z;Z]@EPZ)/FOUND
-[4] Z_Z UNION G[Z;Z]
-[5] @GOTEST
-[6] FOUND:Z_Z[@GUZ]
- @DL
-\endtt
-}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A UNION B;V;@BXIO
-[1] V_(,A),,B
-[2] @BXIO_1
-[3] Z_,CLEAN((@ROV),1)@ROV
- @DL
-\endtt
-}
-
-The auxiliary function @CLEAN@ was given earlier.
-\bigskip
-
-\item{5.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_INV G
-[1] " RETURNS THE VECTOR OF INVERSE ELEMENTS OF G
-[2] (@BXIO=,G)/,(@ROG)@ROG[@BXIO;]
- @DL
-\endtt
-}\smallskip
-
-\item{6.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL H_A BGTSGP G;Y
-[1] " RETURNS THE SUBGROUP OF G GENERATED BY A
-[2] H_Y_@BXIO
-[3] B:@GO(0=@ROY_(,G[Y;A])MINUS H)/0
-[4] H_H UNION Y
-[5] @GOB
- @DL
-\endtt
-}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A MINUS B
-[1] Z_(@NTA@EPB)/A
- @DL
-\endtt
-}\smallskip
-
-\item{7.} If the elements of $G_i$ have been indexed by the interval
- $[0,n_i-1]$, the elements of $G_1\times G_2$ become indexed
- in a natural way by the elements of the Cartesian product
- $[0,n_1-1]\times[0,n_2-1]$. With the bijection
- $(i,j) \mapsto in_2+j:[0,n_1-1]\times[0,n_2-1]
- \longrightarrow[0,n_1n_2-1]$
- (the inverse $k\mapsto((k-(k \bmod n_2))/n_2,k \bmod n_2)$
- selects the quotient and remainder in the division by $n_2$)
- we get $[0,n_1n_2-1]$ as the index set.
-
-\vfill\eject
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL G_G1 PROD G2;@BXIO;I;J;IREM;JREM;N1;N2;N
-[1] N_(N1_(@ROG1)[1])#N2_(@ROG2)[1] @DM I_@BXIO_0
-[2] G_(N,N)@RO0
-[3] JLOOP:J_0
-[4] CORE:G[I;J]_(G1[(I-IREM)%N2;(J-JREM)%N2]#N2)+G2[IREM_N2@ABI;JREM_N2@ABJ]
-[5] @GO(N>J_J+1)/CORE
-[6] @GO(N>I_I+1)/JLOOP
- @DL
-\endtt
-}
-
-Example:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- (ZNPLUS 2) PROD ZNPLUS 10
- 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
- 1 2 3 4 5 6 7 8 9 0 11 12 13 14 15 16 17 18 19 10
- 2 3 4 5 6 7 8 9 0 1 12 13 14 15 16 17 18 19 10 11
- 3 4 5 6 7 8 9 0 1 2 13 14 15 16 17 18 19 10 11 12
- 4 5 6 7 8 9 0 1 2 3 14 15 16 17 18 19 10 11 12 13
- 5 6 7 8 9 0 1 2 3 4 15 16 17 18 19 10 11 12 13 14
- 6 7 8 9 0 1 2 3 4 5 16 17 18 19 10 11 12 13 14 15
- 7 8 9 0 1 2 3 4 5 6 17 18 19 10 11 12 13 14 15 16
- 8 9 0 1 2 3 4 5 6 7 18 19 10 11 12 13 14 15 16 17
- 9 0 1 2 3 4 5 6 7 8 19 10 11 12 13 14 15 16 17 18
-10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9
-11 12 13 14 15 16 17 18 19 10 1 2 3 4 5 6 7 8 9 0
-12 13 14 15 16 17 18 19 10 11 2 3 4 5 6 7 8 9 0 1
-13 14 15 16 17 18 19 10 11 12 3 4 5 6 7 8 9 0 1 2
-14 15 16 17 18 19 10 11 12 13 4 5 6 7 8 9 0 1 2 3
-15 16 17 18 19 10 11 12 13 14 5 6 7 8 9 0 1 2 3 4
-16 17 18 19 10 11 12 13 14 15 6 7 8 9 0 1 2 3 4 5
-17 18 19 10 11 12 13 14 15 16 7 8 9 0 1 2 3 4 5 6
-18 19 10 11 12 13 14 15 16 17 8 9 0 1 2 3 4 5 6 7
-19 10 11 12 13 14 15 16 17 18 9 0 1 2 3 4 5 6 7 8
-\endtt
-}
-
-\end
diff --git a/Master/texmf-dist/source/fonts/apl/readme b/Master/texmf-dist/source/fonts/apl/readme
deleted file mode 100644
index 4e429b26a5d..00000000000
--- a/Master/texmf-dist/source/fonts/apl/readme
+++ /dev/null
@@ -1,28 +0,0 @@
-Thank you for your letter of 27 February. The original purpose
-of our APL font and macros was to solve the immediate problem
-of writing documents with APL code. Therefore, they are free for
-anyone who finds them useful. Some people have requested the font
-and we have sent them the files appended below (with CMAPL10 and
-two conversion programs for downloading pixel files, not given here).
-Further, we have nothing against giving our net address to the
-users because it would be useful to hear about extensions made
-to the system.
-
-The files APLDEF.TEX and TUGBOAT.TEX are identical with the second
-versions sent to you (via BITNET) except for minimal changes (there
-are some corrections and extensions in APLDEF.TEX, and in
-TUGBOAT.TEX one APL line was corrected.) We think the files are
-in a "final" form (at least we are not planning any changes).
-
-Our original purpose was to publish the second version, but the only
-difference was really the removal of the tilde space character (this
-resulted in more complex 1-character macros, but the user cannot
-see any difference; moreover, TeX runs only about 14% slower). Thus,
-we feel that there is no reason to publish a list of errata in
-TUGboat, because any user would inevitably have to use the new
-version (the old one has not been released).
-
-We are adding a file containing sample examples on the use of the
-APL mnemonics.
-
-Aarno Hohti
diff --git a/Master/texmf-dist/source/fonts/apl/readme.txt b/Master/texmf-dist/source/fonts/apl/readme.txt
deleted file mode 100644
index 4d939552a3d..00000000000
--- a/Master/texmf-dist/source/fonts/apl/readme.txt
+++ /dev/null
@@ -1,129 +0,0 @@
-Thank you for your letter of 27 February. The original purpose
-of our APL font and macros was to solve the immediate problem
-of writing documents with APL code. Therefore, they are free for
-anyone who finds them useful. Some people have requested the font
-and we have sent them the files appended below (with CMAPL10 and
-two conversion programs for downloading pixel files, not given here).
-Further, we have nothing against giving our net address to the
-users because it would be useful to hear about extensions made
-to the system.
-
-The files APLDEF.TEX and TUGBOAT.TEX are identical with the second
-versions sent to you (via BITNET) except for minimal changes (there
-are some corrections and extensions in APLDEF.TEX, and in
-TUGBOAT.TEX one APL line was corrected.) We think the files are
-in a "final" form (at least we are not planning any changes).
-
-Our original purpose was to publish the second version, but the only
-difference was really the removal of the tilde space character (this
-resulted in more complex 1-character macros, but the user cannot
-see any difference; moreover, TeX runs only about 14% slower). Thus,
-we feel that there is no reason to publish a list of errata in
-TUGboat, because any user would inevitably have to use the new
-version (the old one has not been released).
-
-We are adding a file containing sample examples on the use of the
-APL mnemonics.
-
-Aarno Hohti
-
-
-
-%=================================================================
-% R E A D M E . T X T
-%=================================================================
-
- These files contain the necessary material for producing
-APL documents with TeX. It should be pointed out that as written
-in an article published in TUGboat, the system as such can be
-described as a straightforward solution to the problem of making
-nice documents containing APL code. Instead of trying to achieve
-a completed result, we tell the reader how to use existing MetaFont
-character descriptions as far as possible to provide an APL font
-of reasonably fine quality. Further development is left to the users.
-Combined with suitable TeX macros using Digital's mnemonics -- chosen
-because of the popularity of the interpreter among APL users
-(it is really the only one used at our site) -- the font can be used
-smoothly enough. Furthermore, if combined with an APL workspace
-providing functions for an automatic conversion of APL workspaces
-into TeX code, the system can be used to merge pre-existing
-APL code into documents without the pain of re-writing the code
-in Digital's 2-letter mnemonics.
- To produce pixel files from the MetaFont file CMAPL10.MF,
-you have to run MetaFont in your local machine. By typing METAFONT
-you should get the prompt symbol '*'. It may be necessary to use
-the form
-
- METAFONT\INPUT_DIRECTORY = XXXXXX
-
-where XXXXXX is the global name of the directory where the basic
-CMMF definitions can be found.
-The following discussion will then get MetaFont to produce a generic
-font file CMAPL10.360GF:
-
- * \relax;
- * \mode = imagen;
- * \mag = 1.2;
- * input cmapl10
-
-Here \mode = imagen was used to get a pixel file for a laserprinter
-with the resolution 200 times 200 pixels per square inch. It is
-possible that the definition of 'imagen' is different at your local
-site; in the case of error ask the person who installed your local
-MetaFont. Notice that \mag = 1.2 is needed in case you want to get
-magnified pixels. The final pixel (because of the resolution 200)
-files will then be named CMAPL10.1800PXL (or whatever you choose
-to call them). If you want to produce 'small' pixel files for example
-for a screen previewer, use \mag = xxx with an appropriate constant xxx.
-(You can check the form of characters obtained on a teletype terminal
-by using the program GFTYPE.) Finally, you get a pixel file from
-CMAPL10.xxxGF by running the program GF(TO)PXL.EXE, which should be
-found together with MetaFont.
- Some people want to use their pixel files on a PC (the
-laserprinter is connected to a PC or for previewing purposes). In
-that case the pixel files must be downloaded from the host. We never
-use programs like Kermit for transferring the binary file but
-first convert it to hex form, load the file down as a text file and
-then convert it back. It is IMPORTANT to notice that pixel files in
-VAXes (say) are composed of 512 byte blocks. The pixel file itself
-is ended by the pixel_id, which is either 1001 (rasters are in word packed
-form) or 1002 (rasters are in byte packed form). Some programs running
-on PCs assume that the last 4 bytes of the pixel file really
-represent the pixel_id. Hence, the pixel files downloaded from the host
-should be CLEANed from garbage (the programs CONVERT and CLEAN are
-given for convenience and to fix the definition of what they should do).
- MetaFont also produces the file CMAPL10.TFM containing the
-metric information of the characters in the font. These are needed
-by TeX, and they can be downloaded as such (at least if you are
-using Micro-TeX or PCTeX).
-
- In order to use the mnemonics, the macros in APLSTYLE are
-needed. There are basically two ways of merging APL code. There are
-standard macros called VERBATIM, which enable the user to produce
-'typewriter-like' output. As APL is modelled on a typewriter style,
-too, it has been reasonable to extend VERBATIM to accept different
-typewriter-like fonts. The escape sequence \choosett enables you to
-choose the font you want to use. Thus, \choosett{tentt} swithces
-the standard font CMTT10 on, whereas \choosett{apl} chooses the font
-APL, defined in APLSTYLE by '\font\apl = cmapl10'. First, you can
-insert APL code into text lines. In this case you can call any
-APL symbol either by its 2-letter mnemonic (for example \BX produces the
-box symbol) if there is no symbol for it OR otherwise by its name
-surrounded by two @'s. (The @ character swithces into the current
-typewriter style.) Thus, @A_B@ produces 'A <-- B' in APL style, because
-'_' is the name of '<--' in Digital's mnemonics. Secondly, you can
-insert APL code in 'screenlike' mode. The code is to be delimited
-by the pair \begintt - \endtt. Example:
-
-\begintt
- @DL Z_ZNPLUS N;@BXIO % Here '@' replaces '\' as the escape
-[1] @BXIO_0 % character
-[2] Z_N@AB(@ION)@SO.+@ION
- @DL
-\endtt
-
-Please note that in this case the material between \begintt -- \endtt
-is considered by TeX as a vertical box that cannot be divided between
-pages. Thus, if you have a long APL function, it might produce
-a message of underfull vbox.
-
diff --git a/Master/texmf-dist/source/fonts/apl/sample.tex b/Master/texmf-dist/source/fonts/apl/sample.tex
deleted file mode 100644
index 85481d7c943..00000000000
--- a/Master/texmf-dist/source/fonts/apl/sample.tex
+++ /dev/null
@@ -1,124 +0,0 @@
-
-%============================================================================
-% S A M P L E . T E X
-%============================================================================
-
-%===================================================================
-% Sample problems; solutions give examples on using APL style in TeX
-% Taken from the course ``Mathematics on the Computer'', Fall 87
-%===================================================================
-
-\magnification = \magstep1
-
-\advance\vsize by 3truecm
-
-\input mssymb % for some math symbols only! This is the new
- % symbol font for some standard and non-standard
- % mathematical symbols. It is only used here for
- % blackboard bold letters. If you dont have it,
- % just define \def\Bbb{} etc.
-
-\input aplstyle
-
-\choosett{apl}
-
-\font\sans = amss10
-\font\sltt = amsltt10
-
-\def\header{{\sans Sample problems 9.\ 10.\ 1987}}
-% some of them come from Sims' ``Abstract Algebra, A Computational Approach''
-\def\APL{{\sltt APL}}
-
-\nopagenumbers
-\tolerance = 300
-\noindent
-\header
-
-\vskip 2cm
-
-\item{1.} Let $N>1$ be an integer. Show that each of the following
- matrices represents a binary operation on
- $S(N)$ (we set locally \BX@IO_0@.) Which of them are
- associative, which commutative?
- \medskip
-
- \itemitem{a)} @(@\IO@N)@\SO@.@\CE\IO@N@
-
- \itemitem{b)} \AB@(@\IO@N)@\SO@.-@\IO@N@
-
- \itemitem{c)} @N@\AB@(@\IO@N)@\SO@.+@\IO@N@
-
- \itemitem{d)} @N@\AB@(@\IO@N)@\SO@.#@\IO@N@
-
- \medskip
-\item{} Here @x@\CE@y@ is $\max(x,y)$, @x@\AB@y@ is
- $y\bmod x$ and \AB@x@ is the absolute value of $x$.
-
-\bigskip
-
-\item{2.} Write an \APL\ function @GPOWER@ that computes for a group
- @G@ (global variable) the $n$-th power of a given element $x$.
- (If $S(M)$ is a representation vector of @G@, then
- @GPOWER@ is a map $S(M)\times \Bbb Z\to S(M)$. Simply
- use iteration.)
-
-\bigskip
-
-\item{3.} (Continuing problem 2.) A faster algorithm is obtained by
- decomposing $x^n$ into its 2--base form
- $x^n = x^{i_0}\times x^{2i_1}\times
- x^{4i_2}\times ... \times x^{{2^k}i_k}$, where $i_j\in\{0,1\}$. Show
- that the complexity of this algorithm is $O(\log_2(n))$.
- (Show that the number of necessary multiplications does
- not exceed $2\log_2(n)$). How would you write the corresponding
- function in \APL? (Note that the binary representation of $n$
- can be obtained by applying iteratively the procedure $n\bmod 2$.)
-
-\bigskip
-
-\item{4.} Write an \APL\ function @GTSGP@ that computes for a given group @G@
- (global variable) the subgroup generated by a given subset $A$. The
- function @GTSGP@ has one argument (the vector @A@) and returns
- a subset of the set $S(N)$ (as a vector). (Extend the set @A@
- by the group operation until @A@ becomes closed with respect
- to the operation.)
-
-\bigskip
-
-\item{5.} Write an \APL\ function @INV@ that returns for a group @G@
- the vector of inverse elements as a vector $S(N)\to S(N)$ so
- that the index of the inverse of $x_i$ is @(INV G)[I]@.
-
-\bigskip
-
-\item{6.} Let $(G,\theta)$ be a group and let $A$ be a subset of $G$. Program
- the following algorithm in \APL\ to find the subgroup @H@
- generated by @A@. Compare the perfomance of this algorithm
- with the algorithm in Problem 4.
- \medskip
-
- \itemitem{a)} put $H$ and $Y$ equal to $\{e\}$.
-
- \itemitem{b)} let $Y$ be $YA\smallsetminus H$.
-
- \itemitem{c)} if $Y=\emptyset$, stop.
-
- \itemitem{d)} put $H$ equal to $H\cup Y$ and
- go to (b).
-
- \medskip
-\item{} ($e$ is the neutral element and $YA\smallsetminus H$
- is the set--theoretical difference of $YA$ and $H$.
- The product $YA$ is the set $\{y\theta a: y\in Y, a\in A\}$.)
-
-\bigskip
-
-\item{7.} Write an \APL\ function @PROD@ that returns for given groups
- $(G_1,\theta_1)$ ja $(G_2,\theta_2)$ the {\sl direct product}
- $(G_1\times G_2,\theta_1\times\theta_2)$ as a group table.
- (The binary operation in the product is $(x,y)\theta_1\times\theta_2
- (z,w) = (x\theta_1 z,y\theta_2 w)$).
-
-\bigskip
-
-\vfill\eject
diff --git a/Master/texmf-dist/source/fonts/apl/solutions.tex b/Master/texmf-dist/source/fonts/apl/solutions.tex
deleted file mode 100644
index 85e37305451..00000000000
--- a/Master/texmf-dist/source/fonts/apl/solutions.tex
+++ /dev/null
@@ -1,198 +0,0 @@
-
-%==========================================================================
-% Solutions to above sample exercises
-%==========================================================================
-
-%\advance\vsize by 3truecm
-
-\choosett{apl}
-
-\noindent
-\header%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-\vskip 1cm
-
-\noindent
-As the index of the neutral element we use the index origin \BX@IO@ which
-usually has the value @0@. Then $S(N)=
-\{0,\dots,N-1\}$, given by the vector \IO@N@.
-An example on groups are the cyclic groups $({\bf Z}_n,+)$
-the group tables of which are generated by the \APL\ function @ZNPLUS@:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_ZNPLUS N;@BXIO
-[1] @BXIO_0
-[2] Z_N@AB(@ION)@SO.+@ION
- @DL
-\endtt
-}\smallskip
-
-\item{1.} The matrices represent binary operations of $S(N)$,
- since they are $N\times N$-matrices with elements from
- $S(N)$. They are all associative and also commutative except for
- the case (b). This can be seen by the function @TEST@:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_TEST B
-[1] " B IS A BINARY OPERATION. THE FUNCTION RETURNS A BOOLEAN 2-VECTOR
-[2] " (B ASSOCIATIVE, B COMMUTATIVE)
-[3] Z_(&/&/&/B[B;]=B[;B]),&/&/B=@TRB
- @DL
-\endtt
-}\smallskip
-
-\item{2.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL P_X GPOWER N;I
-[1] " G GLOBAL
-[2] P_@BXIO @DM I_0
-[3] TEST:@GO(N<I_I+1)/0
-[4] P_G[P;X]
-[5] @GOTEST
- @DL
-\endtt
-}\smallskip
-
-\item{3.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL P_X BGPOWER N;IJ
-[1] " G GLOBAL
-[2] P_@BXIO
-[3] NEXTJ:@GO(0=N,IJ_2@ABN)/0,SQX
-[4] P_G[P;X]
-[5] SQX:X_G[X;X]
-[6] N_(N-IJ)%2
-[7] @GONEXTJ
- @DL
-\endtt
-}
-
-\item{} A comment: if $i_j=0$, then the power is not increased,
- but the square $x^{2^{j+1}}=(x^{2^j})^2$ is computed.
- The number of iterations is $k$; $n = i_0+i_12+\cdots+i_k2^k \ge 2^k$,
- when $i_k \not= 0$, and hence $k \le \log_2(n)$.
- Thus, the complexity is $O(\log_2(n))$.
-\smallskip
-
-\vfill\eject
-\item{4.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A GTSGP G
-[1] " RETURNS THE SUBGROUP OF G GENERATED BY A
-[2] Z_,A
-[3] TEST:@GO(&/&/G[Z;Z]@EPZ)/FOUND
-[4] Z_Z UNION G[Z;Z]
-[5] @GOTEST
-[6] FOUND:Z_Z[@GUZ]
- @DL
-\endtt
-}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A UNION B;V;@BXIO
-[1] V_(,A),,B
-[2] @BXIO_1
-[3] Z_,CLEAN((@ROV),1)@ROV
- @DL
-\endtt
-}
-
-The auxiliary function @CLEAN@ was given earlier.
-\bigskip
-
-\item{5.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_INV G
-[1] " RETURNS THE VECTOR OF INVERSE ELEMENTS OF G
-[2] (@BXIO=,G)/,(@ROG)@ROG[@BXIO;]
- @DL
-\endtt
-}\smallskip
-
-\item{6.}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL H_A BGTSGP G;Y
-[1] " RETURNS THE SUBGROUP OF G GENERATED BY A
-[2] H_Y_@BXIO
-[3] B:@GO(0=@ROY_(,G[Y;A])MINUS H)/0
-[4] H_H UNION Y
-[5] @GOB
- @DL
-\endtt
-}
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL Z_A MINUS B
-[1] Z_(@NTA@EPB)/A
- @DL
-\endtt
-}\smallskip
-
-\item{7.} If the elements of $G_i$ have been indexed by the interval
- $[0,n_i-1]$, the elements of $G_1\times G_2$ become indexed
- in a natural way by the elements of the Cartesian product
- $[0,n_1-1]\times[0,n_2-1]$. With the bijection
- $(i,j) \mapsto in_2+j:[0,n_1-1]\times[0,n_2-1]
- \longrightarrow[0,n_1n_2-1]$
- (the inverse $k\mapsto((k-(k \bmod n_2))/n_2,k \bmod n_2)$
- selects the quotient and remainder in the division by $n_2$)
- we get $[0,n_1n_2-1]$ as the index set.
-
-\vfill\eject
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- @DL G_G1 PROD G2;@BXIO;I;J;IREM;JREM;N1;N2;N
-[1] N_(N1_(@ROG1)[1])#N2_(@ROG2)[1] @DM I_@BXIO_0
-[2] G_(N,N)@RO0
-[3] JLOOP:J_0
-[4] CORE:G[I;J]_(G1[(I-IREM)%N2;(J-JREM)%N2]#N2)+G2[IREM_N2@ABI;JREM_N2@ABJ]
-[5] @GO(N>J_J+1)/CORE
-[6] @GO(N>I_I+1)/JLOOP
- @DL
-\endtt
-}
-
-Example:
-
-\hskip\parskip\vbox{\hsize=15truecm
-\begintt
- (ZNPLUS 2) PROD ZNPLUS 10
- 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
- 1 2 3 4 5 6 7 8 9 0 11 12 13 14 15 16 17 18 19 10
- 2 3 4 5 6 7 8 9 0 1 12 13 14 15 16 17 18 19 10 11
- 3 4 5 6 7 8 9 0 1 2 13 14 15 16 17 18 19 10 11 12
- 4 5 6 7 8 9 0 1 2 3 14 15 16 17 18 19 10 11 12 13
- 5 6 7 8 9 0 1 2 3 4 15 16 17 18 19 10 11 12 13 14
- 6 7 8 9 0 1 2 3 4 5 16 17 18 19 10 11 12 13 14 15
- 7 8 9 0 1 2 3 4 5 6 17 18 19 10 11 12 13 14 15 16
- 8 9 0 1 2 3 4 5 6 7 18 19 10 11 12 13 14 15 16 17
- 9 0 1 2 3 4 5 6 7 8 19 10 11 12 13 14 15 16 17 18
-10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9
-11 12 13 14 15 16 17 18 19 10 1 2 3 4 5 6 7 8 9 0
-12 13 14 15 16 17 18 19 10 11 2 3 4 5 6 7 8 9 0 1
-13 14 15 16 17 18 19 10 11 12 3 4 5 6 7 8 9 0 1 2
-14 15 16 17 18 19 10 11 12 13 4 5 6 7 8 9 0 1 2 3
-15 16 17 18 19 10 11 12 13 14 5 6 7 8 9 0 1 2 3 4
-16 17 18 19 10 11 12 13 14 15 6 7 8 9 0 1 2 3 4 5
-17 18 19 10 11 12 13 14 15 16 7 8 9 0 1 2 3 4 5 6
-18 19 10 11 12 13 14 15 16 17 8 9 0 1 2 3 4 5 6 7
-19 10 11 12 13 14 15 16 17 18 9 0 1 2 3 4 5 6 7 8
-\endtt
-}
-
-\end
-
-
diff --git a/Master/texmf-dist/source/fonts/apl/tugboat.tex b/Master/texmf-dist/source/fonts/apl/tugboat.tex
deleted file mode 100644
index 87b1461a1cc..00000000000
--- a/Master/texmf-dist/source/fonts/apl/tugboat.tex
+++ /dev/null
@@ -1,530 +0,0 @@
-
-%=============================================================================
-% T U G B O A T . T E X
-%=============================================================================
-%========================================================================
-% A TeX file for the paper on APL-TeX (new version, not published)
-%
-% A.Hohti/O.Kanerva (University of Helsinki) April 1987
-%========================================================================
-%
-%
-% Version of August 26, 1987 at 15:00
-%
-%
-%========================================================================
-\input aplstyle % the file containing the APL definitions
-%========================================================================
-%
-%
-\magnification=\magstep1 % for weak eyes!
-%
-%
-%========================================================================
-\font\bigbf=ambx10 % for titles
-\font\sltt=amsltt10 % for file contents inside text
-\font\manual=manfnt at 10pt % for major METAFONT logo
-\font\minual=manfnt at 9pt % for minor METAFONT logo
-\input ninesize % abstract, references
-%========================================================================
-%
-\def\METAFONT{{\manual META}\-{\manual FONT}}
-\def\metafont{{\minual META}\-{\minual FONT}}
-%
-%========================================================================
-% stylistic definitions
-\def\section#1{\vskip0pt plus .1\vsize
- \penalty-250\vskip0pt plus-.1\vsize\bigskip
- \noindent{\bf #1.\ }\nobreak\message{#1}}
-\def\abstract#1{\bigskip\centerline{\hbox{
- \vbox{\hsize=4.75truein{\ninepoint \noindent ABSTRACT.\enspace#1}}}}}
-\def\APL{{\sl APL}}
-% this definition is from the TeXbook, Ex. 21.3 :
-\def\boxit#1{\vbox{\hrule \hbox{\vrule \kern2pt
- \vbox{\kern2pt#1\kern2pt}\kern2pt\vrule}\hrule}}
-% A macro for making references and blocks.
-%
-\newdimen\refindent\newdimen\plusindent
-\newdimen\refskip\newdimen\tempindent
-\newdimen\extraindent
-\newcount\refcount
-%
-% \refskip has to be set by the user! Otherwise \parindent is
-% used, in accordance with \item.
-%
-\refcount=0
-\def\ref#1:#2.-#3\par{\ninepoint % switch to nine point fonts
-\advance\refcount by 1
-\setbox0=\hbox{[\number\refcount]}\refindent=\wd0
-\plusindent=\refskip\extraindent=\refskip
-\advance\plusindent by -\refindent\tempindent=\parindent %
-\parindent=0pt\par\hangindent\extraindent %
- [\number\refcount]\hskip\plusindent #1:{\sl#2},#3
-\parindent=\tempindent}
-%
-\refskip=\parindent
-%
-%========================================================================
- % HEADER
-\null
-\vskip2truecm
-%
- \centerline{\bigbf GENERATING AN \APL\ FONT}
-%
-\vskip.75truecm
-%
- \centerline{\sl Aarno Hohti and Okko Kanerva}
-%
-\vskip.5truecm
-%
- \centerline{\sl University of Helsinki}
-\vskip.5truecm
-\abstract{The \APL\ language is well known for its peculiar
- symbols which have inhibited the use of this language
- in many programming environments. Making \APL\
- documents of good quality has been difficult and
- expensive. We describe here a simple way how to
- use \metafont\ to generate an \APL\ font for \TeX\
- by using existing font definitions as far as possible.}
-\vskip.5truecm
-%========================================================================
-%
-\section{Introduction}
-This note describes an interesting exercise in using
-\METAFONT\ to produce new typefaces by combining letters
-from standard fonts. As we know, the \APL\ language [6] of
-Kenneth Iverson has never gained the popularity it deserves
-which is largely due to its strange symbol set. Indeed,
-true \APL\ users require a special keyboard to support
-the nonstandard but powerful operator symbols. Moreover,
-putting \APL\ into print has always been a problem, and
-modern low cost computerized typesetting programs do
-not usually support \APL\ style. \TeX\ can be used to
-produce high quality printouts for technical text,
-and it would be desirable to have a possibility to
-mix in \APL\ code. The companion program of
-\TeX ---\METAFONT ---provides a full means for a simple generation
-of an \APL\ font for \TeX, and the purpose of this
-note is to inform other people about the result we
-have obtained at the University of Helsinki. Let us note
-that there are at least three other \APL\ fonts available
-for small computer environments. Indeed, the newsletter
-\APL\ {\it Quote Quad\/}\footnote{*}{{\ninepoint Newsletter of SIGAPL,
-the Special Interest Group for \APL. {\it Quote Quad\/} has the same
-status in the world of \APL\ as TUGboat in \TeX{nical} world.}}
-is produced by using TROFF, and there
-exists a Postscript \APL\ font for the Apple Laserwriter [5] and
-another font for the TEXT typesetting system [2].
-
-Consider the following usual kind of function definition in \APL:
-\choosett{apl}
-\begintt
- @DLS_SUMSQ N;I
- [1] S_I_0
- [2] @GO(N<I_I+1)/0
- [3] S_S+I*2
- [4] @GO2
- [5] @DL
-\endtt
-\choosett{sltt}% %@@@@
-How to write in this code, providing that we have a suitable
-font? The \APL\ font should represent the screen
-output style of \APL\ code and obey the same laws of spacing.
-Hence, it should be a typewriter-like typeface with fixed
-spacing; the same approach for representing \TeX\ input was
-adopted by Knuth in the {\TeX}book.
-The {\it verbatim\/} macros have often been used for importing
-screen or paper outputs into \TeX\ documents; some people
-misuse them for an easy construction of tables etc. In
-{\sltt verbatim}, the typewriter mode is entered by the control
-sequence @\begintt@---that mode is ended by
-@\endtt@. In the same vein, we could enter
-the \APL\ mode by the control sequence @\beginapl@,
-and to end it by @\endapl@. However, it is more convenient to
-augment {\sltt verbatim\/} with {\sltt aplstyle\/} so that
-it can be used with several different typewriter-like fonts.
-(The {\it verbatim\/} macros can be found in the {\TeX}book,
-p.\ 421.) Since {\sltt\char'100\/}
-(the {\it at sign}) is used as the escape character inside {\it verbatim\/}
-mode, our \TeX\ code might (and in fact does) look as follows:
-\def\endsym{\char'134{endtt}} % just for using \endtt after \begintt
- % without actually ending anything
-\choosett{tentt}
-\begintt
- \choosett{apl}
- \begintt
- @@DLS_SUMSQ N;I
- [1] S_I_0
- [2] @@GO(N<I_I+1)/0
- [3] S_S+I*2
- [4] @@GO2
- [5] @@DL
- @endsym
-\endtt
-\choosett{sltt}% %@@@@
-The control sequences @\DL@ and @\GO@ are not chosen arbitrarily
-but follow the conventions used in Digital's VAX \APL\ interpreter [1].
-As terminals usually do not support the \APL\ character set, an
-alternative representation by two-letter mnemonics is provided by the
-interpreter. For the most part we have adopted these mnemonics also for our
-\APL\ font. Hence, as an additional bonus the user should find it
-easy to combine his or her \APL\ code with normal \TeX\ code. Thus,
-it is not necessary for a VAX \APL\ user to retype the definitions
-of \APL\ functions in order to be able to use them in documents.
-He or she only has to replace every {\it period\/} used as an
-escape character in Digital's interpreter, by {\sltt\char'100}.
-(There is another syntactical difference between Digital's interpreter
-and \TeX's {\it verbatim\/} mode: for the interpreter
-the third ordinary character after an escape character
-does no longer belong to the escape sequence while \TeX\ admits
-arbitrarily long control sequences. We take care of this
-by changing certain {\it catcodes\/} temporarily.)
-%
-%
-\choosett{apl}%
-%
-\section{The \APL\ font table}
-\APL\ symbols are divided into two classes: the primitive symbols
-and those obtained by overstriking two primitive ones. The overstrikes
-are traditionally obtained by typing the first symbol, by using
-backspace to go back one space and then typing the second symbol
-{\sl over\/} the first one. However, in modern \APL\ keyboards these
-double symbols are assigned to non-alphanumeric keys (for example,
-to keys under the {\sltt ALT\/} key). We decided to include only the
-primitive \APL\ symbols in the font table; this enabled us to include
-also the lower-case letters, following modern conventions. (The original
-\APL\ letters were restricted to capitals.) The comment symbol
-@"@ is the only exception since it is keyed in as a double quote.
-Our font is a fixed size typeface with strongly slanted letters.
-Moreover, we have followed the style of best books in \APL:
-all symbols should be drawn with a thin pen to get a touch of
-a typewriter. (This point is clearly witnessed, for example, in [5].)
-The places of some symbols are determined by the \TeX\ font tables.
-For example, the hash sign {\sltt\char'043\/} is used for the
-multiplication sign in VAX \APL, and hence the corresponding symbol
-has the the same octal code (043) as the hash sign in \TeX.
-The font table has the following form: %@@@@
-
-%========================================================================
-% table begins
-%========================================================================
-% This macro comes from TUGboat (I (AH) do not remember which number),
-% unsuitable parts are commented out.
-%
-{\baselineskip=0pt \lineskip=0pt
-\newdimen\vu
-%
-%\output={\shipout\vbox{\unvbox255\vskip0.4in}\advancepageno}
-%
-\setbox9=\hbox{\sl 0}
-\def\spike{\hbox to 0pt{\vbox to \ht9{}}}
-\def\cell#1{\hbox to 1\vu{\hfill\char'#1\hfill}\vrule}
-\def\label#1{\vbox to \ht8{\vfill\hbox to 35pt{\hfill\sl '#10\hskip1em%
- }\vfill}\vrule}
-%
-\def\seprow{\def\m{\hskip 1\vu{}\vrule height 2pt}\hbox{\m\m\m\m\m\m\m\m}}
-\def\cellrow#1{\setbox8=\vbox{\seprow\hbox{\spike%
- \cell{#10}\cell{#11}\cell{#12}\cell{#13}%
- \cell{#14}\cell{#15}\cell{#16}\cell{#17}\hfill%
- }\seprow\hrule}\hbox{\label{#1}\box8}}
-%
-\def\lcol#1{\hbox to 1\vu{\hfill{\sl #1}\hfill}\hskip .4pt}
-\def\chw#1{\hbox{\char'#1}}
-%
-\def\colw#1{\vbox{\chw{#10}
- \chw{#11}
- \chw{#12}
- \chw{#13}
- \chw{#14}
- \chw{#15}
- \chw{#16}
- \chw{#17}}}
-%
-\def\setw#1{\vbox{\colw{#10}
- \colw{#11}
- \colw{#12}
- \colw{#13}
- \colw{#14}
- \colw{#15}
- \colw{#16}
- \colw{#17}}}
-%
-\def\getw{\setbox0=\vbox{\setw0\setw1\hbox to \wd9{}\hbox to 1em{}}%
- \vu=1.625\wd0}
-%
- \apl\getw\bigskip % changed from \null\vfill to \bigskip
-%
- \centerline{\vbox{%\hbox{\hskip35pt{\sl cmapl10}\hfill}
-% \vskip20pt
- \hbox{\hskip35pt\lcol0\lcol1\lcol2\lcol3\lcol4\lcol5\lcol6\lcol7}
- \vskip 4pt
- \hbox{\hskip35pt\vbox{\hrule width 8\vu}\vbox{\hrule width 3.6pt}}
- \cellrow{00}\cellrow{01}\cellrow{02}\cellrow{03}
- \cellrow{04}\cellrow{05}\cellrow{06}\cellrow{07}
- \cellrow{10}\cellrow{11}\cellrow{12}\cellrow{13}
- \cellrow{14}\cellrow{15}\cellrow{16}\cellrow{17}}}} % removed \vfill
-% % from the end
-%
-%========================================================================
-% table ends
-%========================================================================
-%
-\section{The necessary \METAFONT\ files}
-The whole process started when the first author had a paper
-containing \APL\ symbols and was disappointed with the
-quality of the symbols available on the typewriter. Moreover,
-the secretary who had typed the text had forgot a couple
-of lines in the middle of the paper, and the correction of
-such mistakes seemed to be very clumsy in comparison with
-modern typesetting. Then he decided (together with the second
-author) to remedy the situation by creating an \APL\ font for
-\TeX\ he was using for other kinds of document. Many of the
-\APL\ symbols needed were contained in standard fonts; for example,
-{\it diamond\/} can be found in {\it cmsy10}. For alphanumeric
-characters one could use {\it cmsltt10}. The simplest try for
-a solution of the problem would be to write a list of definitions
-that pick symbols from appropriate fonts. However, this brute force
-method does not really work since these symbols come from
-very different typefaces and, moreover, do not provide a fixed
-typeface. Hence, we decided to find an easy way of producing
-an \APL\ font by using \METAFONT.
-
-As the starting point, we took the font {\it cmtex10}. This is a
-fixed typeface for an extended typewriter-like font including
-some Greek characters and mathematical symbols. The \METAFONT\ file
-for this font, {\sltt cmtex10.mf\/} contains (as usual) a preamble
-that assigns values to several global variables, and the command
-{\sltt generate textset;\/}. Now the {\sl driver\/} file {\sltt textset.mf\/} %@@@@
-contains the commands {\sltt mode\_setup;font\_setup;\/} %@@@@
-(establishing the values of the variables for this font) and several
-input files from which the \METAFONT\ descriptions of the characters are to
-be found. Since some of these files treat the characters by name and
-since some of the definitions have to be changed (and some dropped),
-we considered it advisable to discard the driver file and to collect
-the separate \METAFONT\ files, together with the preamble, to form a
-large single file {\sltt cmapl10.mf}. The {\sltt .mf\/} character files
-needed for {\sltt cmapl10.mf\/} are the following:
-%
-%
-$$\vbox{\halign{{\sltt#}\hfil && \quad #\hfil\cr
-%
- greekl & ({\it rho, omega, alpha}) \cr
- italms & ({\it iota}) \cr
- romand & (roman digits) \cr
- punct & (punctuation symbols) \cr
- romanp & \cr
- symbol & (math symbols) \cr
- sym & \cr
- romanu & (uppercase letters) \cr
- romanl & (lowercase letters) \cr
-%
-}}$$
-%
-%
-\section{Definitions}
-\choosett{tentt}%
-The first thing to do is to put {\sltt font\_identifier:="CMAPL";\/} %@@@@
-and to set {\sltt slant:=0;\/} in the preamble. Many definitions can %@@@@
-be copied verbatim from the {\sltt .mf\/} files, but some of them
-need changes. The Greek {\it iota}, as given in {\sltt greekl.mf},
-is strange to \APL\ style; we use instead the {\it dotless i\/}
-from {\sltt italms.mf}. Moreover, we used the symbol {\it elt\/}
-(element) from {\sltt sym.mf\/} instead of the Greek {\it epsilon}.
-The symbols {\it del\/} and {\it delta\/} are
-taken from {\sltt symbol.mf\/} (where their names are {\it large triangle\/}
-and {\it large inverted triangle}). However, they are too sturdy
-and too short to be placed in a proper \APL\ font. Further, {\it del\/}
-must be lifted up so that it is vertically aligned with other
-symbols. The modifications are very easy to do, and the modified %@@@@ , by ,and
-definition is shown below.
-%
-%
-\choosett{tentt}
-\begintt
- % sqrt48 was changed to 6.25 since the del symbol in APL has
- % a narrower top than the original reversed triangle symbol
- % rule.nib has been changed to light_rule.nib
- % bot y3=-d-o has been changed to bot y3=0
- % top y1=h-d has been changed to top y1=h+2o
- @null
- cmchar "Del";
- beginchar(oct"002",16u#,asc_height#,0);
- adjust_fit(0,0); pickup light_rule.nib;
- top y1=h+2o; y2=y1; bot y3=0;
- .5[x1,x2]=x3=good.x .5w; w:=r:=2x3; lft x1=hround(.5w-u*6.25);
- draw z1--z2--z3--cycle; % stroke
- labels(1,2,3); endchar;
-\endtt
-As can be seen from this example, pen strokes were made thinner.
-Actually only one symbol was directly missing---this is the {\it quad
-box}. However, it can be obtained from the above by adding one control point:
-\begintt
- cmchar "Quad";
- beginchar(oct"001",16u#,body_height#,0);
- adjust_fit(0,0); pickup light_rule.nib;
- bot y1=0; y2=y1; top y3=h+2o; y4=y3;
- .5[x1,x2]=x5=good.x .5w; w:=r:=2x5;
- % The quad box is slightly wider than Del
- lft x1=hround(.5w-u*7);
- x3=x1; x4=x2;
- draw z1--z2--z4--z3--cycle; % box
- labels(1,2,3,4); endchar;
-\endtt
-After taking care of special symbols, the letters can be treated
-by finding a suitable value for {\it tilt ratio\/} (slant). Indeed,
-\APL\ letters are {\sl very\/} slanted. We suggest the value
-1/5 for this font (the font {\it cmsl10\/} uses 1/6). One should
-remember to give the command {\sltt font\_setup;\/} after setting {\sltt slant\/} %@@@@
-to 1/5.
-\choosett{sltt}% %@@@@
-Finally, one has to make the {\it verbatim\/} macros
-suitable for \APL\ style. Since {\it verbatim\/} might be
-used for several different fonts in one document, we decided
-to include a control sequence @\choosett@.
-\choosett{tentt}
-\begintt
- \def\ifundefined#1{\expandafter\ifx\csname#1\endcsname\relax}
- \newif\ifapl \def\aplname{apl}
- \outer\def\choosett#1{\ifundefined{#1}%
- \message{Undefined font(?), replaced with cmtt10}%
- \let\tt=\tentt
- \else
- \def\tt{\expandafter\csname#1\endcsname}%
- \def\ttname{#1}%
- \ifx\ttname\aplname\apltrue\else\aplfalse\fi\fi}
-\endtt
-\choosett{sltt}%
-(The control sequence @\ifundefined@ comes from the \TeX{book}, p.\ 308.)
-With the help of @\choosett@, the standard @verbatim@ macros can be used
-with the single change that @\ifapl@, then the @\catcode@ of @A@,\dots,@Z@
-is @\other@ (12) instead of 11 for {\it letter}. Under \APL\ mode \TeX\
-will then recognize our single-letter control sequences defined, e.g., by
-\choosett{tentt}
-\begintt
- \def\A#1{\if#1B{\apl\char'174}\else % stile
- \if#1M{\apl\char'004}\fi\fi} % alpha .
-\endtt
-\choosett{sltt}%
-Unfortunately, we have redefined the standard @\L@, @\O@, @\P@ and @\S@.
-
-The \APL\ symbols not in the font table are obtained---as usual---by
-overstriking two table symbols.
-\choosett{tentt}%
-\begintt
- \newbox\firstchar\newskip\charwidth
- \def\overstrike#1#2{\setbox\firstchar=\hbox{#1}\charwidth=\wd\firstchar
- #1\hskip-\charwidth#2}
-\endtt
-\choosett{apl}%
-For example, the {\it grade up\/} and {\it grade down\/} symbols
-\G U\ and \G D\ are obtained by striking the {\it stile\/} symbol
-@|@ over \L D\ and \D L, respectively.
-\choosett{tentt}%
-\begintt
- \def\G#1{\if#1U{\overstrike{\LD}{\AB}}\else % grade up
- \if#1D{\overstrike{\DL}{\AB}}\fi\fi} % grade down
-\endtt
-Now let us take another example on \APL. The input
-\begintt
- \choosett{apl} % in case some other choice is in force
- \setbox0=\vbox{\hsize=5.7truein
- \begintt
- [0] Z_A1 PROD A2;A;I;V
- [1] "RETURNS THE PRODUCT OF THE POLYNOMIALS A1 AND A2
- [2] "THE ARGUMENTS ARE GIVEN AS COEFFICIENT ARRAYS
- [3] I_@@ROA1
- [4] Z_A1@@SO.#A2
- [5] LOOP:V_@@ROZ @@DM V[(@@ROI)+1]_V[1]
- [6] V_@@ROZ_Z,[(@@ROI)+1]V@@RO0
- [7] A_(1+-@@IOV[1])@@SO.#((@@NT(@@IO@@ROV)@@EP(1,(@@ROI)+1))/V)@@RO1
- [8] Z_+/[1]A@@RV[(@@ROI)+1]Z
- [9] ((@@RO@@ROZ)>@@ROI)/LOOP
- @endsym
- }
- $$\boxit{\boxit{\box0}}$$
- \centerline{\sevenrm An APL function for polynomial multiplication}
-\endtt
-%
-gives the output
-%
-\choosett{apl}
-\setbox0=\vbox{\hsize=5.7truein
-\begintt
- [0] Z_A1 PROD A2;A;I;V
- [1] "RETURNS THE PRODUCT OF THE POLYNOMIALS A1 AND A2
- [2] "THE ARGUMENTS ARE GIVEN AS COEFFICIENT ARRAYS
- [3] I_@ROA1
- [4] Z_A1@SO.#A2
- [5] LOOP:V_@ROZ @DM V[(@ROI)+1]_V[1]
- [6] V_@ROZ_Z,[(@ROI)+1]V@RO0
- [7] A_(1+-@IOV[1])@SO.#((@NT(@IO@ROV)@EP(1,(@ROI)+1))/V)@RO1
- [8] Z_+/[1]A@RV[(@ROI)+1]Z
- [9] ((@RO@ROZ)>@ROI)/LOOP
-\endtt
- }
-$$\boxit{\boxit{\box0}}$$
-\centerline{\sevenrm An APL function for polynomial multiplication}
-%
-\section{User extension}
-A modern user of a computerized typesetting facility will probably
-ask if it is possible to extend or modify fonts coming with the
-system. As with [5], where the font has an {\it analytic\/} and a
-{\it bitmapped\/} variant, we can distinguish between the need of modifying
-{\it cmapl10\/} via \METAFONT\ and modification of the pixel files.
-\APL\ symbols of various ``blackness'' or ``thickness'' may be desirable.
-Indeed, in [3] the user input is written with boldface \APL\ symbols
-and the answers from the interpreter with thin ones. Furthermore,
-certain screen previewers use specific small size pixel files, and
-do not support the \APL\ font.
-
-The modification of the font by changing the values of some global
-variables in the preamble of the \METAFONT\ file is easy and can be
-done by following how it is done in standard fonts such as
-{\it cmbx10\/} etc. This is the recommended way, too. However, if
-\METAFONT\ is not available, then one must attack the pixel files.
-For direct hand editing, we use a program that converts a pixel
-file into a (bitmapped) text file acceptable to any standard screen
-editor, and another program reading the edited file back into
-a \TeX\ pixel file. Scaling fonts down to a desired size can be
-done in a similar (but automatic) manner; this facility is needed
-by a previewer (written by the first author) not using runtime
-scaling.
-
-
-\section{References}
-\bigskip
-{
-\ref Digital Equipment Corporation: VAX-11 \APL\ Reference Manual.-
- 1983.
-
-\ref Feldberg, Ian: TEXT: Publication-Quality Characters Come
- to \APL\ Graphics.- Proceedings of the 1986 \APL\ Conference,
- SIGAPL, pp.\ 306--313.
-
-\ref Gilman, Leonard, and Allen J.\ Rose: \APL, An Interactive
- Approach.- John Wiley \& Sons, Inc., 1984.
-
-\ref Grenander, Ulf: Mathematical Experiments on the Computer.-
- Academic Press, 1982.
-
-\ref Howland, John E.: Typesetting \APL\ Using a Macintosh.-
- Proceedings of the 1986 \APL\ Conference, SIGAPL, pp.\ 301--305.
-
-\ref Iverson, Kenneth: A Programming Language.- Wiley, New York, 1962.
-
-
- }
-
-\bigskip
-\section{The address}
-\bigskip
-{\ninepoint\obeylines
-\hskip\refskip University of Helsinki
-\hskip\refskip Department of Mathematics
-\hskip\refskip Hallituskatu 15
-\hskip\refskip SF--00100 HELSINKI
-\hskip\refskip FINLAND
-}
-
-\end
-
diff --git a/Master/texmf-dist/source/fonts/apl/tugboat2.tex b/Master/texmf-dist/source/fonts/apl/tugboat2.tex
deleted file mode 100644
index 05a6398b724..00000000000
--- a/Master/texmf-dist/source/fonts/apl/tugboat2.tex
+++ /dev/null
@@ -1,534 +0,0 @@
-
-%=============================================================================
-% T U G B O A T . T E X
-%=============================================================================
-%========================================================================
-% A TeX file for the paper on APL-TeX (new version, not published)
-%
-% A.Hohti/O.Kanerva (University of Helsinki) April 1987
-%========================================================================
-%
-%
-% Version of August 26, 1987 at 15:00
-%
-%
-%========================================================================
-\input aplstyle % the file containing the APL definitions
-%========================================================================
-%
-%
-\magnification=\magstep1 % for weak eyes!
-%
-%
-%========================================================================
-\font\bigbf=ambx10 % for titles
-\font\sltt=amsltt10 % for file contents inside text
-\font\manual=manfnt at 10pt % for major METAFONT logo
-\font\minual=manfnt at 9pt % for minor METAFONT logo
-\input ninesize % abstract, references
-%========================================================================
-%
-\def\METAFONT{{\manual META}\-{\manual FONT}}
-\def\metafont{{\minual META}\-{\minual FONT}}
-%
-%========================================================================
-% stylistic definitions
-\def\section#1{\vskip0pt plus .1\vsize
- \penalty-250\vskip0pt plus-.1\vsize\bigskip
- \noindent{\bf #1.\ }\nobreak\message{#1}}
-\def\abstract#1{\bigskip\centerline{\hbox{
- \vbox{\hsize=4.75truein{\ninepoint \noindent ABSTRACT.\enspace#1}}}}}
-\def\APL{{\sl APL}}
-% this definition is from the TeXbook, Ex. 21.3 :
-\def\boxit#1{\vbox{\hrule \hbox{\vrule \kern2pt
- \vbox{\kern2pt#1\kern2pt}\kern2pt\vrule}\hrule}}
-% A macro for making references and blocks.
-%
-\newdimen\refindent\newdimen\plusindent
-\newdimen\refskip\newdimen\tempindent
-\newdimen\extraindent
-\newcount\refcount
-%
-% \refskip has to be set by the user! Otherwise \parindent is
-% used, in accordance with \item.
-%
-\refcount=0
-\def\ref#1:#2.-#3\par{\ninepoint % switch to nine point fonts
-\advance\refcount by 1
-\setbox0=\hbox{[\number\refcount]}\refindent=\wd0
-\plusindent=\refskip\extraindent=\refskip
-\advance\plusindent by -\refindent\tempindent=\parindent %
-\parindent=0pt\par\hangindent\extraindent %
- [\number\refcount]\hskip\plusindent #1:{\sl#2},#3
-\parindent=\tempindent}
-%
-\refskip=\parindent
-%
-%========================================================================
- % HEADER
-\null
-\vskip2truecm
-%
- \centerline{\bigbf GENERATING AN \APL\ FONT}
-%
-\vskip.75truecm
-%
- \centerline{\sl Aarno Hohti and Okko Kanerva}
-%
-\vskip.5truecm
-%
- \centerline{\sl University of Helsinki}
-\vskip.5truecm
-\abstract{The \APL\ language is well known for its peculiar
- symbols which have inhibited the use of this language
- in many programming environments. Making \APL\
- documents of good quality has been difficult and
- expensive. We describe here a simple way how to
- use \metafont\ to generate an \APL\ font for \TeX\
- by using existing font definitions as far as possible.}
-\vskip.5truecm
-%========================================================================
-%
-\section{Introduction}
-This note describes an interesting exercise in using
-\METAFONT\ to produce new typefaces by combining letters
-from standard fonts. As we know, the \APL\ language [6] of
-Kenneth Iverson has never gained the popularity it deserves
-which is largely due to its strange symbol set. Indeed,
-true \APL\ users require a special keyboard to support
-the nonstandard but powerful operator symbols. Moreover,
-putting \APL\ into print has always been a problem, and
-modern low cost computerized typesetting programs do
-not usually support \APL\ style. \TeX\ can be used to
-produce high quality printouts for technical text,
-and it would be desirable to have a possibility to
-mix in \APL\ code. The companion program of
-\TeX ---\METAFONT ---provides a full means for a simple generation
-of an \APL\ font for \TeX, and the purpose of this
-note is to inform other people about the result we
-have obtained at the University of Helsinki. Let us note
-that there are at least three other \APL\ fonts available
-for small computer environments. Indeed, the newsletter
-\APL\ {\it Quote Quad\/}\footnote{*}{{\ninepoint Newsletter of SIGAPL,
-the Special Interest Group for \APL. {\it Quote Quad\/} has the same
-status in the world of \APL\ as TUGboat in \TeX{nical} world.}}
-is produced by using TROFF, and there
-exists a Postscript \APL\ font for the Apple Laserwriter [5] and
-another font for the TEXT typesetting system [2].
-
-Consider the following usual kind of function definition in \APL:
-\choosett{apl}
-\begintt
- @DLS_SUMSQ N;I
- [1] S_I_0
- [2] @GO(N<I_I+1)/0
- [3] S_S+I*2
- [4] @GO2
- [5] @DL
-\endtt
-\choosett{sltt}% %@@@@
-How to write in this code, providing that we have a suitable
-font? The \APL\ font should represent the screen
-output style of \APL\ code and obey the same laws of spacing.
-Hence, it should be a typewriter-like typeface with fixed
-spacing; the same approach for representing \TeX\ input was
-adopted by Knuth in the {\TeX}book.
-The {\it verbatim\/} macros have often been used for importing
-screen or paper outputs into \TeX\ documents; some people
-misuse them for an easy construction of tables etc. In
-{\sltt verbatim}, the typewriter mode is entered by the control
-sequence @\begintt@---that mode is ended by
-@\endtt@. In the same vein, we could enter
-the \APL\ mode by the control sequence @\beginapl@,
-and to end it by @\endapl@. However, it is more convenient to
-augment {\sltt verbatim\/} with {\sltt aplstyle\/} so that
-it can be used with several different typewriter-like fonts.
-(The {\it verbatim\/} macros can be found in the {\TeX}book,
-p.\ 421.) Since {\sltt\char'100\/}
-(the {\it at sign}) is used as the escape character inside {\it verbatim\/}
-mode, our \TeX\ code might (and in fact does) look as follows:
-\def\endsym{\char'134{endtt}} % just for using \endtt after \begintt
- % without actually ending anything
-\choosett{tentt}
-\begintt
- \choosett{apl}
- \begintt
- @@DLS_SUMSQ N;I
- [1] S_I_0
- [2] @@GO(N<I_I+1)/0
- [3] S_S+I*2
- [4] @@GO2
- [5] @@DL
- @endsym
-\endtt
-\choosett{sltt}% %@@@@
-The control sequences @\DL@ and @\GO@ are not chosen arbitrarily
-but follow the conventions used in Digital's VAX \APL\ interpreter [1].
-As terminals usually do not support the \APL\ character set, an
-alternative representation by two-letter mnemonics is provided by the
-interpreter. For the most part we have adopted these mnemonics also for our
-\APL\ font. Hence, as an additional bonus the user should find it
-easy to combine his or her \APL\ code with normal \TeX\ code. Thus,
-it is not necessary for a VAX \APL\ user to retype the definitions
-of \APL\ functions in order to be able to use them in documents.
-He or she only has to replace every {\it period\/} used as an
-escape character in Digital's interpreter, by {\sltt\char'100}.
-(There is another syntactical difference between Digital's interpreter
-and \TeX's {\it verbatim\/} mode: for the interpreter
-the third ordinary character after an escape character
-does no longer belong to the escape sequence while \TeX\ admits
-arbitrarily long control sequences. We take care of this
-by changing certain {\it catcodes\/} temporarily.)
-%
-%
-\choosett{apl}%
-%
-\section{The \APL\ font table}
-\APL\ symbols are divided into two classes: the primitive symbols
-and those obtained by overstriking two primitive ones. The overstrikes
-are traditionally obtained by typing the first symbol, by using
-backspace to go back one space and then typing the second symbol
-{\sl over\/} the first one. However, in modern \APL\ keyboards these
-double symbols are assigned to non-alphanumeric keys (for example,
-to keys under the {\sltt ALT\/} key). We decided to include only the
-primitive \APL\ symbols in the font table; this enabled us to include
-also the lower-case letters, following modern conventions. (The original
-\APL\ letters were restricted to capitals.) The comment symbol
-@"@ is the only exception since it is keyed in as a double quote.
-Our font is a fixed size typeface with strongly slanted letters.
-Moreover, we have followed the style of best books in \APL:
-all symbols should be drawn with a thin pen to get a touch of
-a typewriter. (This point is clearly witnessed, for example, in [5].)
-The places of some symbols are determined by the \TeX\ font tables.
-For example, the hash sign {\sltt\char'043\/} is used for the
-multiplication sign in VAX \APL, and hence the corresponding symbol
-has the the same octal code (043) as the hash sign in \TeX.
-The font table has the following form: %@@@@
-
-%========================================================================
-% table begins
-%========================================================================
-% This macro comes from TUGboat (I (AH) do not remember which number),
-% unsuitable parts are commented out.
-%
-{\baselineskip=0pt \lineskip=0pt
-\newdimen\vu
-%
-%\output={\shipout\vbox{\unvbox255\vskip0.4in}\advancepageno}
-%
-\setbox9=\hbox{\sl 0}
-\def\spike{\hbox to 0pt{\vbox to \ht9{}}}
-\def\cell#1{\hbox to 1\vu{\hfill\char'#1\hfill}\vrule}
-\def\label#1{\vbox to \ht8{\vfill\hbox to 35pt{\hfill\sl '#10\hskip1em%
- }\vfill}\vrule}
-%
-\def\seprow{\def\m{\hskip 1\vu{}\vrule height 2pt}\hbox{\m\m\m\m\m\m\m\m}}
-\def\cellrow#1{\setbox8=\vbox{\seprow\hbox{\spike%
- \cell{#10}\cell{#11}\cell{#12}\cell{#13}%
- \cell{#14}\cell{#15}\cell{#16}\cell{#17}\hfill%
- }\seprow\hrule}\hbox{\label{#1}\box8}}
-%
-\def\lcol#1{\hbox to 1\vu{\hfill{\sl #1}\hfill}\hskip .4pt}
-\def\chw#1{\hbox{\char'#1}}
-%
-\def\colw#1{\vbox{\chw{#10}
- \chw{#11}
- \chw{#12}
- \chw{#13}
- \chw{#14}
- \chw{#15}
- \chw{#16}
- \chw{#17}}}
-%
-\def\setw#1{\vbox{\colw{#10}
- \colw{#11}
- \colw{#12}
- \colw{#13}
- \colw{#14}
- \colw{#15}
- \colw{#16}
- \colw{#17}}}
-%
-\def\getw{\setbox0=\vbox{\setw0\setw1\hbox to \wd9{}\hbox to 1em{}}%
- \vu=1.625\wd0}
-%
- \apl\getw\bigskip % changed from \null\vfill to \bigskip
-%
- \centerline{\vbox{%\hbox{\hskip35pt{\sl cmapl10}\hfill}
-% \vskip20pt
- \hbox{\hskip35pt\lcol0\lcol1\lcol2\lcol3\lcol4\lcol5\lcol6\lcol7}
- \vskip 4pt
- \hbox{\hskip35pt\vbox{\hrule width 8\vu}\vbox{\hrule width 3.6pt}}
- \cellrow{00}\cellrow{01}\cellrow{02}\cellrow{03}
- \cellrow{04}\cellrow{05}\cellrow{06}\cellrow{07}
- \cellrow{10}\cellrow{11}\cellrow{12}\cellrow{13}
- \cellrow{14}\cellrow{15}\cellrow{16}\cellrow{17}}}} % removed \vfill
-% % from the end
-%
-%========================================================================
-% table ends
-%========================================================================
-%
-\section{The necessary \METAFONT\ files}
-The whole process started when the first author had a paper
-containing \APL\ symbols and was disappointed with the
-quality of the symbols available on the typewriter. Moreover,
-the secretary who had typed the text had forgot a couple
-of lines in the middle of the paper, and the correction of
-such mistakes seemed to be very clumsy in comparison with
-modern typesetting. Then he decided (together with the second
-author) to remedy the situation by creating an \APL\ font for
-\TeX\ he was using for other kinds of document. Many of the
-\APL\ symbols needed were contained in standard fonts; for example,
-{\it diamond\/} can be found in {\it cmsy10}. For alphanumeric
-characters one could use {\it cmsltt10}. The simplest try for
-a solution of the problem would be to write a list of definitions
-that pick symbols from appropriate fonts. However, this brute force
-method does not really work since these symbols come from
-very different typefaces and, moreover, do not provide a fixed
-typeface. Hence, we decided to find an easy way of producing
-an \APL\ font by using \METAFONT.
-
-As the starting point, we took the font {\it cmtex10}. This is a
-fixed typeface for an extended typewriter-like font including
-some Greek characters and mathematical symbols. The \METAFONT\ file
-for this font, {\sltt cmtex10.mf\/} contains (as usual) a preamble
-that assigns values to several global variables, and the command
-{\sltt generate textset;\/}. Now the {\sl driver\/} file {\sltt textset.mf\/} %@@@@
-contains the commands {\sltt mode\_setup;font\_setup;\/} %@@@@
-(establishing the values of the variables for this font) and several
-input files from which the \METAFONT\ descriptions of the characters are to
-be found. Since some of these files treat the characters by name and
-since some of the definitions have to be changed (and some dropped),
-we considered it advisable to discard the driver file and to collect
-the separate \METAFONT\ files, together with the preamble, to form a
-large single file {\sltt cmapl10.mf}. The {\sltt .mf\/} character files
-needed for {\sltt cmapl10.mf\/} are the following:
-%
-%
-$$\vbox{\halign{{\sltt#}\hfil && \quad #\hfil\cr
-%
- greekl & ({\it rho, omega, alpha}) \cr
- italms & ({\it iota}) \cr
- romand & (roman digits) \cr
- punct & (punctuation symbols) \cr
- romanp & \cr
- symbol & (math symbols) \cr
- sym & \cr
- romanu & (uppercase letters) \cr
- romanl & (lowercase letters) \cr
-%
-}}$$
-%
-%
-\section{Definitions}
-\choosett{tentt}%
-The first thing to do is to put {\sltt font\_identifier:="CMAPL";\/} %@@@@
-and to set {\sltt slant:=0;\/} in the preamble. Many definitions can %@@@@
-be copied verbatim from the {\sltt .mf\/} files, but some of them
-need changes. The Greek {\it iota}, as given in {\sltt greekl.mf},
-is strange to \APL\ style; we use instead the {\it dotless i\/}
-from {\sltt italms.mf}. Moreover, we used the symbol {\it elt\/}
-(element) from {\sltt sym.mf\/} instead of the Greek {\it epsilon}.
-The symbols {\it del\/} and {\it delta\/} are
-taken from {\sltt symbol.mf\/} (where their names are {\it large triangle\/}
-and {\it large inverted triangle}). However, they are too sturdy
-and too short to be placed in a proper \APL\ font. Further, {\it del\/}
-must be lifted up so that it is vertically aligned with other
-symbols. The modifications are very easy to do, and the modified %@@@@ , by ,and
-definition is shown below.
-%
-%
-\choosett{tentt}
-\begintt
- % sqrt48 was changed to 6.25 since the del symbol in APL has
- % a narrower top than the original reversed triangle symbol
- % rule.nib has been changed to light_rule.nib
- % bot y3=-d-o has been changed to bot y3=0
- % top y1=h-d has been changed to top y1=h+2o
- @null
- cmchar "Del";
- beginchar(oct"002",16u#,asc_height#,0);
- adjust_fit(0,0); pickup light_rule.nib;
- top y1=h+2o; y2=y1; bot y3=0;
- .5[x1,x2]=x3=good.x .5w; w:=r:=2x3; lft x1=hround(.5w-u*6.25);
- draw z1--z2--z3--cycle; % stroke
- labels(1,2,3); endchar;
-\endtt
-As can be seen from this example, pen strokes were made thinner.
-Actually only one symbol was directly missing---this is the {\it quad
-box}. However, it can be obtained from the above by adding one control point:
-\begintt
- cmchar "Quad";
- beginchar(oct"001",16u#,body_height#,0);
- adjust_fit(0,0); pickup light_rule.nib;
- bot y1=0; y2=y1; top y3=h+2o; y4=y3;
- .5[x1,x2]=x5=good.x .5w; w:=r:=2x5;
- % The quad box is slightly wider than Del
- lft x1=hround(.5w-u*7);
- x3=x1; x4=x2;
- draw z1--z2--z4--z3--cycle; % box
- labels(1,2,3,4); endchar;
-\endtt
-After taking care of special symbols, the letters can be treated
-by finding a suitable value for {\it tilt ratio\/} (slant). Indeed,
-\APL\ letters are {\sl very\/} slanted. We suggest the value
-1/5 for this font (the font {\it cmsl10\/} uses 1/6). One should
-remember to give the command {\sltt font\_setup;\/} after setting {\sltt slant\/} %@@@@
-to 1/5.
-\choosett{sltt}% %@@@@
-Finally, one has to make the {\it verbatim\/} macros
-suitable for \APL\ style. Since {\it verbatim\/} might be
-used for several different fonts in one document, we decided
-to include a control sequence @\choosett@.
-\choosett{tentt}
-\begintt
- \def\ifundefined#1{\expandafter\ifx\csname#1\endcsname\relax}
- \newif\ifapl \def\aplname{apl}
- \outer\def\choosett#1{\ifundefined{#1}%
- \message{Undefined font(?), replaced with cmtt10}%
- \let\tt=\tentt
- \else
- \def\tt{\expandafter\csname#1\endcsname}%
- \def\ttname{#1}%
- \ifx\ttname\aplname\apltrue\else\aplfalse\fi\fi}
-\endtt
-\choosett{sltt}%
-(The control sequence @\ifundefined@ comes from the \TeX{book}, p.\ 308.)
-With the help of @\choosett@, the standard @verbatim@ macros can be used
-with the single change that @\ifapl@, then the @\catcode@ of @A@,\dots,@Z@
-is @\other@ (12) instead of 11 for {\it letter}. Under \APL\ mode \TeX\
-will then recognize our single-letter control sequences defined, e.g., by
-\choosett{tentt}
-\begintt
- \def\A#1{\if#1B{\apl\char'174}\else % stile
- \if#1M{\apl\char'004}\fi\fi} % alpha .
-\endtt
-\choosett{sltt}%
-Unfortunately, we have redefined the standard @\L@, @\O@, @\P@ and @\S@.
-
-The \APL\ symbols not in the font table are obtained---as usual---by
-overstriking two table symbols.
-\choosett{tentt}%
-\begintt
- \newbox\firstchar\newskip\charwidth
- \def\overstrike#1#2{\setbox\firstchar=\hbox{#1}\charwidth=\wd\firstchar
- #1\hskip-\charwidth#2}
-\endtt
-\choosett{apl}%
-For example, the {\it grade up\/} and {\it grade down\/} symbols
-\G U\ and \G D\ are obtained by striking the {\it stile\/} symbol
-@|@ over \L D\ and \D L, respectively.
-\choosett{tentt}%
-\begintt
- \def\G#1{\if#1U{\overstrike{\LD}{\AB}}\else % grade up
- \if#1D{\overstrike{\DL}{\AB}}\fi\fi} % grade down
-\endtt
-Now let us take another example on \APL. The input
-\begintt
- \choosett{apl} % in case some other choice is in force
- \setbox0=\vbox{\hsize=5.7truein
- \begintt
- [0] Z_A1 PROD A2;A;I;V
- [1] "RETURNS THE PRODUCT OF THE POLYNOMIALS A1 AND A2
- [2] "THE ARGUMENTS ARE GIVEN AS COEFFICIENT ARRAYS
- [3] I_@@ROA1
- [4] Z_A1@@SO.#A2
- [5] LOOP:V_@@ROZ @@DM V[(@@ROI)+1]-1
- [6] V_@@ROZ_Z,[(@@ROI)+1]V@@RO0
- [7] A_(1+-@@IOV[1])@@SO.#((@@NT(@@IO@@ROV)@@EP(1,(@@ROI)+1))/V)@@RO1
- [8] Z_+/[1]A@@RV[(@@ROI)+1]Z
- [9] ((@@RO@@ROZ)>@@ROI)/LOOP
- @endsym
- }
- $$\boxit{\boxit{\box0}}$$
- \centerline{\sevenrm An APL function for polynomial multiplication}
-\endtt
-%
-gives the output
-%
-\choosett{apl}
-\setbox0=\vbox{\hsize=5.7truein
-\begintt
- [0] Z_A1 PROD A2;A;I;V
- [1] "RETURNS THE PRODUCT OF THE POLYNOMIALS A1 AND A2
- [2] "THE ARGUMENTS ARE GIVEN AS COEFFICIENT ARRAYS
- [3] I_@ROA1
- [4] Z_A1@SO.#A2
- [5] LOOP:V_@ROZ @DM V[(@ROI)+1]-1
- [6] V_@ROZ_Z,[(@ROI)+1]V@RO0
- [7] A_(1+-@IOV[1])@SO.#((@NT(@IO@ROV)@EP(1,(@ROI)+1))/V)@RO1
- [8] Z_+/[1]A@RV[(@ROI)+1]Z
- [9] ((@RO@ROZ)>@ROI)/LOOP
-\endtt
- }
-$$\boxit{\boxit{\box0}}$$
-\centerline{\sevenrm An APL function for polynomial multiplication}
-%
-\section{User extension}
-A modern user of a computerized typesetting facility will probably
-ask if it is possible to extend or modify fonts coming with the
-system. As with [5], where the font has an {\it analytic\/} and a
-{\it bitmapped\/} variant, we can distinguish between the need of modifying
-{\it cmapl10\/} via \METAFONT\ and modification of the pixel files.
-\APL\ symbols of various ``blackness'' or ``thickness'' may be desirable.
-Indeed, in [3] the user input is written with boldface \APL\ symbols
-and the answers from the interpreter with thin ones. Furthermore,
-certain screen previewers use specific small size pixel files, and
-do not support the \APL\ font.
-
-The modification of the font by changing the values of some global
-variables in the preamble of the \METAFONT\ file is easy and can be
-done by following how it is done in standard fonts such as
-{\it cmbx10\/} etc. This is the recommended way, too. However, if
-\METAFONT\ is not available, then one must attack the pixel files.
-For direct hand editing, we use a program that converts a pixel
-file into a (bitmapped) text file acceptable to any standard screen
-editor, and another program reading the edited file back into
-a \TeX\ pixel file. Scaling fonts down to a desired size can be
-done in a similar (but automatic) manner; this facility is needed
-by a previewer (written by the first author) not using runtime
-scaling.
-
-
-\section{References}
-\bigskip
-{
-\ref Digital Equipment Corporation: VAX-11 \APL\ Reference Manual.-
- 1983.
-
-\ref Feldberg, Ian: TEXT: Publication-Quality Characters Come
- to \APL\ Graphics.- Proceedings of the 1986 \APL\ Conference,
- SIGAPL, pp.\ 306--313.
-
-\ref Gilman, Leonard, and Allen J.\ Rose: \APL, An Interactive
- Approach.- John Wiley \& Sons, Inc., 1984.
-
-\ref Grenander, Ulf: Mathematical Experiments on the Computer.-
- Academic Press, 1982.
-
-\ref Howland, John E.: Typesetting \APL\ Using a Macintosh.-
- Proceedings of the 1986 \APL\ Conference, SIGAPL, pp.\ 301--305.
-
-\ref Iverson, Kenneth: A Programming Language.- Wiley, New York, 1962.
-
-
- }
-
-\bigskip
-\section{The address}
-\bigskip
-{\ninepoint\obeylines
-\hskip\refskip University of Helsinki
-\hskip\refskip Department of Mathematics
-\hskip\refskip Hallituskatu 15
-\hskip\refskip SF--00100 HELSINKI
-\hskip\refskip FINLAND
-}
-
-\end
-
-
-%============================================================================
-%
-%============================================================================
diff --git a/Master/texmf-dist/source/fonts/apl/versatim.tex b/Master/texmf-dist/source/fonts/apl/versatim.tex
deleted file mode 100644
index c2ff320a7e5..00000000000
--- a/Master/texmf-dist/source/fonts/apl/versatim.tex
+++ /dev/null
@@ -1,66 +0,0 @@
-
-%=============================================================================
-% V E R S A T I M . T E X
-%=============================================================================
-%
-%
-\newskip\verbatimindent \verbatimindent=0cm
-\newskip\ttglue{\tt \global\ttglue=.5em plus.25em minus.15em}
-\def\@{\char'100 }
-%
-\outer\def\begindisplay{\obeylines\startdisplay}
-{\obeylines\gdef\startdisplay#1
- {\catcode`\^^M=5$$#1\halign\bgroup&\hskip\verbatimindent##\hfil\cr}}
-\outer\def\enddisplay{\crcr\egroup$$}
-%
-\chardef\other=12
-\def\ttverbatim{\begingroup \catcode`\\=\other \catcode`\{=\other
- \catcode`\}=\other \catcode`\$=\other \catcode`\&=\other
- \catcode`\#=\other \catcode`\%=\other \catcode`\~=\other
- \catcode`\_=\other \catcode`\^=\other\catcode`\*=\other\catcode`\==\other
-%
-\ifapl
-\catcode`\A=12
-\catcode`\B=12
-\catcode`\C=12
-\catcode`\D=12
-\catcode`\E=12
-\catcode`\F=12
-\catcode`\G=12
-\catcode`\H=12
-\catcode`\I=12
-\catcode`\J=12
-\catcode`\K=12
-\catcode`\L=12
-\catcode`\M=12
-\catcode`\N=12
-\catcode`\O=12
-\catcode`\P=12
-\catcode`\Q=12
-\catcode`\R=12
-\catcode`\S=12
-\catcode`\T=12
-\catcode`\U=12
-\catcode`\V=12
-\catcode`\W=12
-\catcode`\X=12
-\catcode`\Y=12
-\catcode`\Z=12
-\fi
-%
- \obeyspaces \obeylines \tt}
-{\obeyspaces\gdef {\ }}
-%
-\def\begintt{$$\let\par=\endgraf \ttverbatim \parskip=0pt
- \catcode`\@=0 \parindent=\verbatimindent \rightskip=-5pc \ttfinish}
-{\catcode`\@=0 @catcode`@\=\other % @ is temporary escape character
- @obeylines % end of line is active
- @gdef@ttfinish#1^^M#2\endtt{#1@vbox{#2}@endgroup$$}}
-%
-\catcode`\@=\active
-{\obeylines\gdef@{\ttverbatim\spaceskip=\ttglue\let^^M=\ \let@=\endgroup}}
-
-
-\def\beginlines{\par\begingroup\nobreak\medskip\parindent=0pt
- \kern1pt\nobreak \obeylines \everypar{\strut}}
-\def\endlines{\kern1pt\endgroup\medbreak\noindent}
diff --git a/Master/texmf-dist/tex/latex/apl/apl.sty b/Master/texmf-dist/tex/latex/apl/apl.sty
deleted file mode 100644
index f676e6e541f..00000000000
--- a/Master/texmf-dist/tex/latex/apl/apl.sty
+++ /dev/null
@@ -1,37 +0,0 @@
-
-
-
-%==================================================================
-% A P L S T Y L E
-%==================================================================
-% A.Hohti/O.Kanerva University of Helsinki April 6 1987
-% revised August 19 1987
-%
-% APL symbols are represented by the Digital (VAX) APL
-% replacement symbols. The standard escape character is
-% changed to "@" (at sign) in accordance with the usage
-% in Digital APL.
-%
-\font\apl=cmapl10 % The APL font of typewriter type
-%
-%
-% The following macro \choosett switches the typewriter-like
-% font used within verbatim:
-%
-\def\ifundefined#1{\expandafter\ifx\csname#1\endcsname\relax}
-\newif\ifapl \def\aplname{apl}
-\outer\def\choosett#1{\ifundefined{#1}%
- \message{Undefined font(?), replaced with cmtt10}%
- \let\tt=\tentt
- \else
- \def\tt{\expandafter\csname#1\endcsname}%
- \def\ttname{#1}%
- \ifx\ttname\aplname\apltrue\else\aplfalse\fi\fi}
-%
-\choosett{tentt} % default value
-%
-\input versatim % a slightly modified version of verbatim
-\input apldef % control sequences for APL symbols
-
-
-
diff --git a/Master/texmf-dist/tex/latex/apl/aplstyle.sty b/Master/texmf-dist/tex/latex/apl/aplstyle.sty
deleted file mode 100644
index 1a744df2189..00000000000
--- a/Master/texmf-dist/tex/latex/apl/aplstyle.sty
+++ /dev/null
@@ -1,35 +0,0 @@
-
-%==================================================================
-% A P L S T Y L E
-%==================================================================
-% A.Hohti/O.Kanerva University of Helsinki April 6 1987
-% revised August 19 1987
-%
-% APL symbols are represented by the Digital (VAX) APL
-% replacement symbols. The standard escape character is
-% changed to "@" (at sign) in accordance with the usage
-% in Digital APL.
-%
-\font\apl=cmapl10 % The APL font of typewriter type
-%
-%
-% The following macro \choosett switches the typewriter-like
-% font used within verbatim:
-%
-\def\ifundefined#1{\expandafter\ifx\csname#1\endcsname\relax}
-\newif\ifapl \def\aplname{apl}
-\outer\def\choosett#1{\ifundefined{#1}%
- \message{Undefined font(?), replaced with cmtt10}%
- \let\tt=\tentt
- \else
- \def\tt{\expandafter\csname#1\endcsname}%
- \def\ttname{#1}%
- \ifx\ttname\aplname\apltrue\else\aplfalse\fi\fi}
-%
-\choosett{tentt} % default value
-%
-\input versatim % a slightly modified version of verbatim
-\input apldef % control sequences for APL symbols
-
-
-
diff --git a/Master/tlpkg/tlpsrc/apl.tlpsrc b/Master/tlpkg/tlpsrc/apl.tlpsrc
deleted file mode 100644
index e69de29bb2d..00000000000
--- a/Master/tlpkg/tlpsrc/apl.tlpsrc
+++ /dev/null