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% mapunct.mf 1.2.0 94/10/11 -- punctuation
% Copyright  1991, 1993 P. Damian Cugley

%%% @METAFONT-file {
%%%   filename       = "mapunct.mf",
%%%   version        = "1.2.0",
%%%   date           = "1994/10/11",
%%%   package        = "Malvern 1.2",
%%%   author         = "P. Damian Cugley",
%%%   email          = "damian.cugley@comlab.ox.ac.uk",
%%%   address        = "Oxford University Computing Laboratory,
%%%                     Parks Road, Oxford  OX1 3QD, UK",
%%%   codetable      = "USASCII",
%%%   keywords       = "Malvern, METAFONT, font, typefont, TeX",
%%%   supported      = "Maybe",
%%%   abstract       = "Punctuation character programs for the Malvern
%%%                     font family.",
%%%   dependencies   = "other program files",
%%% }

%  See the Malvern Handbook (maman.tex) for more info about Malvern.
%  This software is available freely but without warranty.
%  See the file COPYING for details.

%{{{ mapunct.mf

ang_brack_wd# := 1/2 * (brack_ht# + brack_dp# - pn.ht#) * hratio + pn.wd#;

if testing: endinput; fi

%{{{  Hyphen + dashes

dash_ht# := golden_ratio*x_ht# + 1/2pn.ht#;

def do_dash(expr code, w_sharp) =
    ma_char(code, w_sharp - 2/3sp#, dash_ht#, 0pt#)(1/3,1/3);
    	draw (rt l, bot h) -- (lft r, bot h); set_ic_tr;
    endchar
enddef;

if known code.hyphen:     "hyphen";       do_dash(code.hyphen, 4u#); fi
if known code.dup.hyphen: "spare hyphen"; do_dash(code.dup.hyphen, 4u#); fi
if known code.en_dash:	  "short dash";   do_dash(code.en_dash, 8u#); fi
if known code.em_dash:    "long dash";    do_dash(code.em_dash, 16u#); fi

%}}}
%{{{  Dots and commas
%{{{   How to draw a comma or inverted comma

comma_ht# := 3v#; comma_wd# := 1u#;
define_whole_vertical_pixels(comma_ht);
define_whole_pixels(comma_wd);

vardef draw_comma@#(expr up_p) =
    pickup pencircle scaled comma.pn.th;
    z@#z = (hround x@#, vround y@#); 
    	% this makes z@#c good.x and z@#d good.y, because comma_wd integer
    if up_p: bot else: top fi z@#d 
    	= z@#z + comma_ht * if up_p: down else: up fi;
    y@#c = 1/2[y@#z, y@#d]; 
    if up_p: rt else: lft fi x@#c 
    	= if up_p: x@#z + comma_wd else: x@#z - comma_wd fi;
    1/2[z@#a, z@#b] = z@#z; 
    z@#b = z@#a + (dot_wd - comma.pn.th) 
    	* if up_p: (hratio, 1) else: (-hratio, -1) fi;
    draw z@#d .. z@#c{if up_p: up else: down fi} 
    	.. z@#b{(z@#z - z@#c) xscaled 2} .. z@#a{(z@#c - z@#z) xscaled 2} 
    	.. z@#c{if up_p: down else: up fi} .. z@#d;
    draw z@#d .. z@#c{if up_p: up else: down fi} 
    	.. z@#z{(z@#z - z@#c) xscaled 2};  % fill in any hole in middle
    labels(@#z, @#a, @#b, @#c, @#d)
enddef;

comma_dp# := comma_ht# - dot_ht# + 2o#;
%}}}
%{{{   .,:;

def do_semicolon(expr code, t_p, comma_p) =
    ma_char(code, if comma_p: comma_wd# + 1/2dot_wd# else: dot_wd# fi,
    	    if t_p: x_ht# else: dot_ht# - 2o# fi, 
    	    if comma_p: comma_dp# else: 0pt# fi)(1,1);
	z1 = (l + 1/2dot_wd, 1/2dot_ht - o); 
    	if comma_p: draw_comma1(true) else: draw_dot1 fi;
	if t_p: z2 = (x1, h - 1/2dot_ht + o); draw_dot2; fi
        set_ic_tr;
    endchar
enddef;

if known code.full_stop: 
    "full stop";    do_semicolon(code.full_stop, false, false); fi
if known code.comma:	
     "comma";       do_semicolon(code.comma, false, true); fi
if known code.comma1: 
    "spare comma";  do_semicolon(code.comma1, false, true); fi
if known code.colon:
    "colon";	    do_semicolon(code.colon, true,  false); fi
if known code.semicolon:
    "semicolon";    do_semicolon(code.semicolon, true,  true); fi
if known code.gr.question:
    "Greek question mark";    do_semicolon(code.gr.question, true,  true); fi

%}}}
%{{{   quotes

iff known code.apostrophe: "apostrophe";
ma_char(code.apostrophe, comma_wd# + 1/2dot_wd#, asc_ht#, 0pt#)(1,1);
    z1 = (l + 1/2dot_wd, h - 1/2dot_ht + o); draw_comma1(true); set_ic_tr;
endchar;

iff known code.inv.comma: "inverted comma";
ma_char(code.inv.comma, comma_wd# + 1/2dot_wd#, asc_ht#, 0pt#)(1,1);
    z1 = (r - 1/2dot_wd, h - comma_ht + o); draw_comma1(false); set_ic_tr;
endchar;

iff known code.dbl.inv.comma: "double inverted comma";
ma_char(code.dbl.inv.comma, 2comma_wd# + u# + dot_wd#, asc_ht#, 0pt#)(1,1);
    z1 = (r - 1/2dot_wd, h - comma_ht + o); draw_comma1(false);
    z2 = (x1 - comma_wd - 1/2dot_wd - u, y1); draw_comma2(false);
    set_ic_tr;
endchar;

iff known code.dbl.apostrophe: "double apostrophe";
ma_char(code.dbl.apostrophe, 2comma_wd# + u# + dot_wd#, asc_ht#, 0pt#)(1,1);
    z1 = (l + 1/2dot_wd, h - 1/2dot_ht + o); draw_comma1(true);
    z2 = (x1 + comma_wd + 1/2dot_wd + u, y1); draw_comma2(true);
    set_ic_tr;
endchar;

iff known code.dbl.comma: "double comma";
ma_char(code.dbl.comma, 2comma_wd# + u# + dot_wd#, asc_ht#, 
    comma_ht# - dot_ht# + 2o#)(1,1);
    z1 = (l + 1/2dot_wd, 1/2dot_ht - o); draw_comma1(true);
    z2 = (x1 + comma_wd + 1/2dot_wd + u, y1); draw_comma2(true);
    set_ic_tr;
endchar;

%}}}

iff known code.cdot: "raised dot";
ma_char(code.cdot, dot_wd#, axis_ht# + dot_ht# - 2o#, 0pt#)(1,1);
    z1 = (l + 1/2dot_wd, h - 1/2dot_ht + o); 
    draw_dot1; set_ic_tr;
endchar;

iff known code.gr.colon: "Greek colon";
ma_char(code.gr.colon, dot_wd#, axis_ht# + dot_ht# - 2o#, 0pt#)(1,1);
    z1 = (l + 1/2dot_wd, h - 1/2dot_ht + o); 
    draw_dot1; set_ic_tr;
endchar;

%}}}
%{{{  brackets of different sorts

def ma_brack(expr code, edoc, w_sh, lrsp, rlsp) =
    ma_char(if b: code else: edoc fi, w_sh, brack_ht#, brack_dp#)
    	if b: (lrsp, rlsp) else: (rlsp, lrsp) fi
enddef;

for i = 0, 1: b := (i = 0);
%{{{   parenthesis

iff known code.paren.left: leftright "parenthesis";
ma_brack(code.paren.left, code.paren.right, 4u#)(1,1/3);
    numeric twist; twist = 3;
    top rtlft z1 = (rl, h + o); bot rtlft z3 = (rl, -d - o);
    y2 = 1/2[y1, y3]; lftrt x2 = lr;
    draw z1{(z2 - z1) xscaled twist} .. z2 .. {(z3 - z2) xscaled twist}z3;
    labels(1,2,3);
    if b: set_ic_tr; else: set_ic 0.7charht; fi
endchar;

%}}}
%{{{   bracket

iff known code.brack.left: leftright "bracket";
ma_brack(code.brack.left, code.brack.right, pn.wd# + 2u#)(1,1/3);
    lftrt x2 = lftrt x3 = lr; rtlft x1 = rtlft x4 = rl;
    top y1 = top y2 = h; bot y3 = bot y4 = -d;
    draw z1 -- z2 -- z3 -- z4;
    labels(1,2,3,4); set_ic_tr;
endchar;

%}}}
%{{{   angle bracket

iff known code.anglebr.left: leftright "angle bracket";
ma_brack(code.anglebr.left, code.anglebr.right, ang_brack_wd#)(1,0);
    top rtlft z1 = (rl, h); 
    bot rtlft z3 = (rl, -d); 
    lftrt z2 = (lr, 1/2[-d, h]);
    draw z1 -- z2 -- z3;
    labels(1,2,3);
    if b: set_ic_tr; else: set_ic 1/2[brack_ht#, brack_dp#]; fi
endchar;

%}}}
%{{{   brace

iff known code.brace.left: leftright "brace";
ma_brack(code.brace.left, code.brace.right, 6u#)(1/2,1/3);
    if 1/2[-d,h] <> good.y 1/2[-d,h]: change_depth; fi
    rtlft x1top = rtlft x1bot = rl;
    lftrt x1mid = lr; y1mid = y2mid = 1/2[-d, h];
    top y1top = top y2top = h; bot y1bot = bot y2bot = -d;
    x3top = x4top = x3bot = x4bot = good.x 0.45[x1mid, x1top];
    x2top = x2bot = 3/4[x3top, x1top];
    x2mid = 3/4[x4top, x1mid];
    z3top = z2top + whatever*(plus  hratio,1);
    z4top = z2mid + whatever*(plus  hratio,1);
    z3bot = z2bot + whatever*(minus hratio,1);
    z4bot = z2mid + whatever*(minus hratio,1);
    draw z1top --- z2top .. z3top --- z4top .. z2mid --- z1mid
	--- z2mid .. z4bot --- z3bot .. z2bot --- z1bot;
    labels(forsuffixes $=top, bot: 1$, 2$, 3$, 4$, endfor 1mid, 2mid);
    if b: set_ic_tr; else: set_ic 1/2[brack_ht#, brack_dp#]; fi
endchar;

%}}}
endfor
%}}}
%{{{  exclam. and question marks

iff known code.exclam: "exclamation mark";
ma_char(code.exclam, max(pn.wd#, dot_wd#), cap_ht#, 0pt#)(5/4,5/4);
    if 1/2w <> good.x 1/2w: change_width; fi
    z1 = (1/2w, 1/2dot_ht - o); draw_dot1;
    bot y2 = max(dot_ht + 2v, 1/4[-d, h]); top y3 = h + o;
    x2 = x3 = 1/2w;
    draw z2 -- z3;
    labels(1,2,3); set_ic_tr;
endchar;

iff known code.inv.exclam: "inverted exclamation mark";
ma_char(code.inv.exclam, max(pn.wd#, dot_wd#), x_ht#, desc_dp#)(5/4,5/4);
    if 1/2w <> good.x 1/2w: change_width; fi
    z1 = (1/2w, h - 1/2dot_ht + o); draw_dot1;
    top y2 = min(h - dot_ht - 2v, 1/4[h, -d]); bot y3 = -d - o;
    x2 = x3 = 1/2w;
    draw z2 -- z3;
    labels(1,2,3); set_ic_tr;
endchar;

def draw_question expr bb =
    b := bb;
    topbot y2 = hd plus o; rtlft x3 = rl; lftrt x1 = lr;
    x2 = x4 = x6 = 0.55[x3, x1];
    y6 = y7 = good.y maxmin(dh plus dot_ht plus 2v, 1/4[dh, hd]);
    y3 = 1/2[y2,y4]; y5 = 1/2[y6,y4];
    y4 = good.y (2/3[y2,y6]);
    y1 = hd minus v;
    x7 = x6 plus u;  x5 = good.x (x6 minus 1.5u);
    draw z1 ... z2{(x3 - x1, 0)} 
    	... z3{(0, y4 - y2)} ... z4  
    	... z5{(0, y6 - y4)} ... z6 --- z7;
    z0 = (x2, dh plus 1/2dot_ht minus o); draw_dot0;
    labels(0, 1,2,3,4,5,6,7);
enddef;

iff known code.question: "question mark";
ma_char(code.question, 7u#, cap_ht#, 0v#)(1/2,2/3);
    draw_question true; set_ic 0.9h#;
endchar;

iff known code.inv.question: "inverted question mark";
ma_char(code.inv.question, 7u#, x_ht#, desc_dp#)(2/3,1/2);
    draw_question false; set_ic 0.6h#;
endchar;

%}}}
%{{{  Guillemets

guil_wd# := 1/2(x_ht# - pn.ht#)*hratio + pn.wd#;
guil_adj# := -u#;
define_whole_pixels(guil_wd, guil_adj);

vardef guil@#(expr leftx) =
    lftrt x@#2 = good.x leftx plus eps; y@#2 = good.y 1/2[-d, h];
    z@#1 = z@#2 + whatever * if b: ne else: se fi; 
    z@#3 = z@#2 + whatever * if b: se else: ne fi;
    x@#1 = x@#3; bot y@#3 = -d; 
    draw z@#1 -- z@#2 -- z@#3;
    labels(@#1, @#2, @#3);
enddef;

for i = 0,1: b := (i = 0);
    iff known code.guillemet.single.left: leftright "single guillemet";
    ma_char(if b: code.guillemet.single.left 
    	    else: code.guillemet.single.right fi, 
	    guil_wd#, x_ht#, 0v#)
	if b: (1,1/2) else: (1/2,1) fi; 
	guil(lr); 
	if b: set_ic_tr; else: set_ic 1/2x_ht#; fi
    endchar;

    iff known code.guillemet.left: leftright "guillemet";
    ma_char(if b: code.guillemet.left else: code.guillemet.right fi, 
	    2guil_wd# + guil_adj#, x_ht#, 0v#)
	if b: (1,1/2) else: (1/2,1) fi; 
	guil$(lr); guil#(lr plus guil_wd plus guil_adj); 
	if b: set_ic_tr; else: set_ic 1/2x_ht#; fi
    endchar;
endfor

%}}}
%}}}
%Local variables:
%fold-folded-p: t
%End: