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% blackboard typefaces by Anthony Phan.
% file: mbbbase.mf (base file)
% last modification: 25.10.2001.

mbbbase:=1; % when |mbbbase| is known, this file has been input

newinternal slant, math_spread, superness;
superness:=1/sqrt 2;% initialisation
superbowl:=superness;

boolean math_fitting, square_dots,old_digits,
variant_a,variant_f,variant_g,variant_y,
low_umlaut,square_hebrew,dagesh_mark;
math_fitting=false; low_umlaut=true;
square_hebrew=true; dagesh_mark=false;

string normal_extra_endchar, tmp_string;
normal_extra_endchar:=extra_endchar;

path tmp_path,tmpp_path,last_path,bowl_path;

def font_setup=
  autorounding:=0; smoothing:=0;
  clear_pen_memory;
  define_pixels(u,dh);
  define_whole_vertical_pixels(body_height,asc_height,
    cap_height,fig_height,x_height,desc_depth,dot_size);
  $:=1;
  forever:
    exitif unknown thin[$].#;
    define_whole_blacker_pixels(thin[$]);
    hthick[$].#:=thick[$].#*(1++slant);
    hThick[$].#:=Thick[$].#*(1++slant);
    define_whole_pixels(thick[$],Thick[$],hthick[$],hThick[$])
    hthick[$]:=thick[$]*(1++slant);
    hThick[$]:=Thick[$]*(1++slant);
    lowres_fix(thick[$],Thick[$]) 1.2;
    lowres_fix(hthick[$],hThick[$]) 1.2;
    pickup pencircle scaled thin[$]; circle.nib[$]:=savepen;
    pickup makepen((((.5,.5)--(-.5,.5)--(-.5,-.5)--(.5,-.5)--cycle)
	xscaled ((1++slant)*thin[$]) yscaled thin[$])slanted slant);
    square.nib[$]:=savepen;
    $:=$+1;
  endfor
  dot_skip#:=max(1.5o#,0.5u#);
  define_whole_pixels(dot_skip);
  dot_skip:=max(1,dot_skip);
  numeric paren_depth#,asc_depth#,body_depth#,
  comma_size#,appr#,Appr#,
  comma_size,apprl,apprr,Apprl,Apprr,ess,cap_ess;
  oo:=vround(0.5o#*hppp*o_correction)+eps;
  uo:=vround 1.5oo+eps;
  define_corrected_pixels(o);
  define_horizontal_corrected_pixels(ho);
  appr#=u#+letter_fit#; Appr#=1.5u#+letter_fit#;
  apprl=floor(0.5hround(2appr#*hppp));
  apprr=ceiling(0.5hround(2appr#*hppp));
  Apprl=floor(0.5hround(2Appr#*hppp));
  Apprr=ceiling(0.5hround(2Appr#*hppp));
  ess=(ess#/thick1#)*thick1;
  cap_ess=(cap_ess#/thick2#)*thick2;
  0.5[body_height#,-paren_depth#]=math_axis#;
  0.5[asc_height#,-asc_depth#]=math_axis#;
  body_depth#:=desc_depth#+body_height#-asc_height#;
  define_whole_vertical_pixels(asc_depth,body_depth,paren_depth);
  comma_size#=min(dot_size#+desc_depth#,asc_height#-x_height#+thin1#);
  comma_size=min(dot_size+desc_depth,asc_height-x_height+thin1);
  rule_thickness:=ceiling(rule_thickness#*hppp);
  pickup pencircle scaled rule_thickness; rule.nib:=savepen;
  math_axis:=good.y(math_axis#*hppp);
  if slant>0:
    currenttransform:=identity slanted slant;
  else:
    currenttransform:=identity yscaled aspect_ratio scaled granularity;
  fi
  use_rule1;
%  shrink_fit:=1+hround(2letter_fit#*hppp)
%  -2hround(letter_fit#*hppp);
  if math_fitting: let math_fit=do_math_fit;
  else: let math_fit=ignore_math_fit; fi
  extra_font_setup;
enddef;

def extra_font_setup= enddef;

% not as complex as Knuth's macros.

def ignore_math_fit(expr left_adjustment,right_adjustment)=enddef;

def do_math_fit(expr left_adjustment,right_adjustment)=
  interim xoffset:=hround(left_adjustment*hppp);
  charwd:=charwd+left_adjustment+right_adjustment;
  w:=hround(charwd*hppp);
  charic:=charic-right_adjustment; if charic<0: charic:=0; fi
enddef;

vardef ic#=charic enddef;

def padded expr del_sharp=
  charht:=charht+del_sharp; chardp:=chardp+del_sharp
enddef;

vardef use_rule@#=
  circle.nib:=circle.nib@#;
  square.nib:=square.nib@#;
  thin#:=thin@#.#; thin:=thin@#;
  thick:=thick@#; hthick:=hthick@#;
  Thick:=Thick@#; hThick:=hThick@#;
  thick#:=thick@#.#; hthick#:=hthick@#.#;
  Thick#:=Thick@#.#; hThick#:=hThick@#.#;
enddef;

vardef ortho_penpos@#(expr $,$$)=
  (x@#r-x@#l,y@#r-y@#l)
  =$*((0,-1)rotated angle($$ slanted slant))slanted -slant;
  (x@#r-x@#,y@#r-y@#)=(x@#-x@#l,y@#-y@#l)
enddef;

vardef stroke text t =
  forsuffixes e = l,r: path_.e:=t; endfor
  if cycle path_.l:
    errmessage "Beware: `stroke' doesn't work with cycles";
  fi
  path_.l -- reverse path_.r -- cycle
enddef;

def diag_width(expr $,$$)=
  $/abs sind angle($$ slanted slant)
enddef;

vardef square_end@#(expr $)=
  save x_,y_;
  (x_,y_)=unitvector($);
  ortho_penpos@#(thin,(x_,y_));
  z@#b=z@#+0.5(x_,y_)*(thin)*((y_-slant*x_)++(-x_));
  z@#a-z@#b=z@#b-z@#c=whatever*(y_,-x_);
  z@#a-z@#r=whatever*(x_,y_);
  x@#.a:=0.5hround 2x@#.a; x@#.c:=0.5hround 2x@#.c;
  y@#.a:=0.5vround 2y@#.a; y@#.c:=0.5vround 2y@#.c;
  erase fill z@#.a--z@#.a+(x_,y_)--z@#.c+(x_,y_)--z@#.c--cycle;
  fill z@#r--z@#a--z@#c--z@#l--cycle;
  labels(@#a,@#b,@#c,@#r,@#l)
enddef;

% $ <---> $$$; $$ <---> $$$$. sign=+1 for X, -1 for Z.

vardef adjust_slanted_bar(suffix $,$$,$$$,$$$$)(expr bar_thick,sign)=
  save a,b;
  if abs(y$$-y$)=bar_thick:
    (a1,a2)=(z$$-z$)slanted slant;
    if a1=0: b=0;% b should then be infinite.
    else: b=if sign<0: - fi (a1++a2)*((a1++a2)/2a1);
    fi
  else:
    a=angle((z$$-z$)slanted slant);
    b=(cosd(a)/sind(a) if sign<0: - else: + fi
      (((y$$-y$)/(bar_thick)/sind(a))+-+1))
    /(((y$$-y$)/(bar_thick))**2-1)*(y$$-y$);
  fi
  z$$$=(x$-b,y$); z$$$$=(x$$+b,y$$)
enddef;

% ellipses and related things.

primarydef w up_to_right z=
  w{0,ypart(z-w)}
  ...(superness[xpart z,xpart w],
    superness[ypart w,ypart z]){z-w}
  ...{xpart(z-w),0}z
enddef;
let up_to_left=up_to_right;
let down_to_right=up_to_right;
let down_to_left=up_to_right;
primarydef w right_to_up z=
  w{xpart(z-w),0}
  ...(superness[xpart w,xpart z],
    superness[ypart z,ypart w]){z-w}
  ...{0,ypart(z-w)}z
enddef;
let right_to_down=right_to_up;
let left_to_up=right_to_up;
let left_to_down=right_to_up;

primarydef w flat_up_to_right z=
  flat_up_to_right_(w,z)...{xpart(z-w),0}z
enddef;
vardef flat_up_to_right_(expr w,z)=
  save z_,z__; pair z_,z__;
  z_=(superness[xpart z,xpart w],superness[ypart w,ypart z]);
  xpart z__=xpart w; z__-z_=whatever*(w-z);
  w..controls 0.5(w+z__) and z__..z_{z-w}
enddef;
let flat_up_to_left=flat_up_to_right;
let flat_down_to_right=flat_up_to_right;
let flat_down_to_left=flat_up_to_right;
primarydef w flat_right_to_up z=
  flat_right_to_up_(w,z)...{0,ypart(z-w)}z
enddef;
vardef flat_right_to_up_(expr w,z)=
  save z_,z__; pair z_,z__;
  z_=(superness[xpart w,xpart z],superness[ypart z,ypart w]);
  ypart z__=ypart w; z__-z_=whatever*(w-z);
  w..controls 0.5(w+z__) and z__..z_{z-w}
enddef;
let flat_right_to_down=flat_right_to_up;
let flat_left_to_up=flat_right_to_up;
let flat_left_to_down=flat_right_to_up;

% Mighty macro by D. E. Knuth

def ellipse_set(suffix $,@,@@,$$)=
  alpha_:=slope*(x@-x$); beta_:=y$$-y$-slope*(x$$-x$);
  gamma_:=alpha_/beta_;
  y@-y$=.5(beta_-alpha_*gamma_);
  x@@-x$=-2gamma_*(x@-x$)/(1+gamma_*gamma_);
  y@@-y$$=slope*(x@@-x$$)
enddef;

def hellipse_set(suffix $,@,@@,$$)=
  alpha_:=(y@-y$)/slope; beta_:=x$$-x$-(y$$-y$)/slope;
  gamma_:=alpha_/beta_;
  x@-x$=.5(beta_-alpha_*gamma_);
  y@@-y$=-2gamma_*(y@-y$)/(1+gamma_*gamma_);
  x@@-x$$=(y@@-y$$)/slope
enddef;

vardef elliptic_arc(suffix $,$$,$$$)=
  save x_,t,p_; path p_;
  p_=z$ up_to_right (x$+5u,y$$) right_to_down (x$+10u,y$);
  t=xpart(p_ intersectiontimes ((x$+5u,y$$$)..(x$+10u,y$$$)));
  x_=xpart(point t of p_); x$$-x$=5u*((x$$$-x$)/(x_-x$));
  p_:=((p_ shifted (-x$,0)) xscaled ((x$$$-x$)/(x_-x$))) shifted (x$,0);
  y$$$'=y$$; z$$$'-z$$$=whatever*(direction t of p_);
  subpath (0,t) of p_
enddef;

def autorounded=
  interim smoothing:=2; interim autorounding:=2
enddef;

def center_bar(suffix $,$$)=
  pickup circle.nib;
  if hround((w+apprl-apprr-hthick-thin)/2)
    <>(w+apprl-apprr-hthick-thin)/2: change_width fi;
  lft x$=(w+apprl-apprr-hthick-thin)/2; x$$=x$+hthick;
enddef;

def center_stem(text t)=
  pickup circle.nib;
  if 0.5(w+apprl-apprr)<>good.x(0.5(w+apprl-apprr)): change_width; fi
  for $=t: x[$]=0.5(w+apprl-apprr); endfor
enddef;

def compute_spread(expr normal_spread,big_spread)=
  spread#:=math_spread[normal_spread,big_spread];
  spread:=2ceiling(spread#*hppp/2)+eps
enddef;

def v_center(expr h_sharp) =
  .5h_sharp+math_axis#, .5h_sharp-math_axis#
enddef;

boolean straight_bowl;
straight_bowl=true;
bowl_max_height:=infinity;

def bbbowl(expr top_point,mid_point,bot_point,thickness) expr p=
  x.bowl.mid:=x.bowl.top:=x.bowl.bot:=xpart mid_point
  if xpart mid_point<xpart top_point: + else: - fi thickness;
  y.bowl.mid:=ypart mid_point;
  y.bowl.top:=ypart(p intersectionpoint
    ((x.bowl.mid,ypart top_point)..(x.bowl.mid,y.bowl.mid)));
  y.bowl.bot:=ypart(p intersectionpoint
    ((x.bowl.mid,ypart bot_point)..(x.bowl.mid,y.bowl.mid)));
  bowl_path:=if straight_bowl: z.bowl.top..z.bowl.bot
  else: begingroup interim superness:=superbowl;
      if xpart mid_point<xpart top_point:
	if x.bowl.top<xpart top_point: top_point left_to_down
	else: z.bowl.top.. fi
      else: if x.bowl.top>xpart top_point: top_point right_to_down
	else: z.bowl.top.. fi fi
      if ypart(top_point-bot_point)>bowl_max_height:
	(x.bowl.mid,ypart top_point-0.5bowl_max_height)
	..(x.bowl.mid,ypart bot_point+0.5bowl_max_height)
      else: z.bowl.mid fi
      if xpart mid_point<xpart bot_point:
	if x.bowl.bot<xpart bot_point: down_to_right bot_point
	else: ..z.bowl.bot fi
      else: if x.bowl.bot>xpart bot_point: down_to_left bot_point
	else: ..z.bowl.bot fi fi
    endgroup
  fi;
  draw bowl_path
enddef;

def hbbowl(expr top_point,mid_point,bot_point,thickness) expr p=
  x.bowl.mid:=x.bowl.top:=x.bowl.bot:=xpart mid_point
  if xpart mid_point<xpart top_point: + else: - fi thickness;
  y.bowl.mid:=ypart mid_point; y.bowl.bot:=ypart bot_point;
  y.bowl.top:=ypart(p intersectionpoint
    ((x.bowl.mid,ypart top_point)..(x.bowl.mid,y.bowl.mid)));
  bowl_path:=if straight_bowl: z.bowl.top..z.bowl.bot
  else: begingroup interim superness:=superbowl;
      if xpart mid_point<xpart top_point:
	if x.bowl.top<xpart top_point: top_point left_to_down
	else: z.bowl.top.. fi
      else: if x.bowl.top>xpart top_point: top_point right_to_down
	else: z.bowl.top.. fi fi
      if abs(ypart(top_point-mid_point))>0.5bowl_max_height:
	
	(x.bowl.mid,ypart top_point
	  if ypart(top_point-mid_point)>0: - else: + fi
	  0.5bowl_max_height)..
	fi
    z.bowl.mid if y.bowl.mid<>y.bowl.bot: ..z.bowl.bot fi
    endgroup
  fi;
  draw bowl_path
enddef;

% some drawings are repeated, so they become macros.
% Also, it makes it simpler to change.

def dot(suffix $,$$)=
  if square_dots: pickup square.nib;
    draw (x$,y$)--(x$$,y$)--(x$$,y$$)--(x$,y$$)--cycle;
    labels($,$$);
  else: pickup circle.nib;
    y$a=y$c=0.5[y$,y$$]; x$b=x$d=0.5[x$,x$$];
    x$a=x$; x$c=x$$; y$b=y$$; y$d=y$;
    draw z$a up_to_right z$b right_to_down z$c
    down_to_left z$d left_to_up z$a;
    labels($,$$,$a,$b,$c,$d); fi
enddef;

% the next program draws `acute', `grave' and related shapes
% when square_dots=false. Well, it is quite tricky and some
% people would think that this program leads to wrong results.
% I am not sure that it does not but I've designed it so.

vardef long_dot(suffix $,$$)=
  pickup circle.nib; save a,r,u_; pair u_;
  r$=max(0.5(0.5dot_size-thin),0);
  r$$=max(0.5(dot_size-thin),0);
  a=(r$$-r$)/abs(z$$-z$);
  u_=unitvector(z$$-z$);
  z$$b-z$$=r$$*u_; z$b-z$=-r$*u_;% edges
  z$-z$a=r$*a*u_; z$$-z$$a=r$$*a*u_;% midpoints
  ortho_penpos$a(0.5thick*(1+-+a),u_);
  ortho_penpos$$a(thick*(1+-+a),u_);
  ortho_penpos$$(thick,u_);
  draw z$b{(z$$r-z$$l)}...z$a.r--z$$a.r...z$$r{z$$-z$}...
  (superness[z$$,z$$b]+superness[z$$,z$$r]-z$$){z$$b-z$$r}
  ...z$$b{-(z$$r-z$$l)}...
  (superness[z$$,z$$b]+superness[z$$,z$$l]-z$$){z$$l-z$$b}
  ...z$$.l{z$-z$$}...z$$a.l--z$a.l...cycle;
  penlabels($a,$$,$$a); labels($,$b,$$b);
enddef;

% see, for instance, "bbcomma" in bbpunct.mf to learn which
% coordinates should be known before calling the next routine.

vardef complete_comma@#=
  save tmp_path; path tmp_path;
  if y4@#>y1@#: top y4@#-y3@#=min(dot_size/2,y4@#-y1@#);
  else: y3@#-bot y4@#=min(dot_size/2,y1@#-y4@#); fi
  y2@#=y1@#; x2@#=0[x1@#,x5@#];
  tmp_path=z1@#..z2@# right_to_up z3@#;
  hbbowl(z1@#,1/3[z3@#,(x3@#,y1@#)],z3@#,abs(x5@#-x3@#)) tmp_path;
  draw tmp_path; square_end1@#((x5@#-x3@#,0));
  if square_dots: x4@#=x3@#; y4@#=y5@#;
    draw z3@#..z4@#; draw z5@#..z.bowl.bot;
    pickup square.nib; draw z4@#..z5@#;
  else: x4@#=0.5[x3@#,x5@#]; y5@#=y3@#;
    draw z3@# up_to_left z4@# right_to_down z5@#;
  fi
  labels(1@#,2@#,3@#,4@#,5@#)
enddef;

def complete_AV(expr $,lftbound,rtbound)=
  if $<0: x1l=rtbound; x3r=lftbound; y1l=y5l=y3r=h; y2l=y4r=-d;
  else: x1l=lftbound; x3r=rtbound; y1l=y5l=y3r=-d; y2l=y4r=h; fi
  numeric a,x,y;
  a=(abs(x3r-x1l)-2(h+d)*slant)/(2h+2d);
  y=(thick+thin)/(2h+2d);
  x=(thick+thin)*(-a*y+sqrt(1+(a**2)-(y**2)))/(1-(y**2));
  x4r-x2l=x3r-x5l=if $<0: - fi x; x2l-x1l=x5l-x2l; z6l=z2l;
  numeric x,y;
  x=if $<0: - fi diag_width(thin,z3r-z4r);
  y=if $<0: - fi diag_width(thin,z1l-z2l);
  penpos1(y,0); penpos2(y,0); penpos3(x,0);
  penpos4(x,0); penpos5(x,0); penpos6(x,0);
  y3a-y3=if $<0:- fi thin;
  z3a-z3=z5a-z5=z4-z4a=z6-z6a=whatever*(z4-z3);
  z2a=whatever[z1r,z2r]; z2a=whatever[z5,z6];
  fill z1r--z2a--z6--z2l--z1l--cycle;
  penstroke z3e..z4e; penstroke z5e..z6e;
  fill z3--z5--z5a--z3a--cycle;
  fill z4--z6--z6a--z4a--cycle;
  penlabels(1,2,3,4,5,6); labels(2a,3a,4a,5a,6a)
enddef;

% def adjust_O(expr @,$,$$,$$$,$$$$)=
%   pickup circle.nib;
%   rt x[@]=w-apprr+$$; lft x[@+2]=apprl-$;
%   top y[@+1]=h+$$$; bot y[@+3]=-d-$$$$;
%   y[@]=y[@+2]=0.5[y[@+1],y[@+3]]; x[@+1]=x[@+3]=0.5[x[@],x[@+2]];
%   x[@+4]-x[@+2]=x[@]-x[@+6]=hThick;
%   tmp_path:=superellipse(z[@],z[@+1],z[@+2],z[@+3],superness);
%   z[@+4]=tmp_path intersectionpoint ((x[@+4],y[@+3])..(x[@+4],y[@]));
%   z[@+5]=tmp_path intersectionpoint ((x[@+4],y[@+1])..(x[@+4],y[@]));
%   z[@+6]=tmp_path intersectionpoint ((x[@+6],y[@+3])..(x[@+6],y[@]));
%   z[@+7]=tmp_path intersectionpoint ((x[@+6],y[@+1])..(x[@+6],y[@]));
% enddef;

vardef bbcircle@#(expr left_side,right_side,top_side,bot_side)=
  rt x@#a=right_side; lft x@#c=left_side;
  top y@#b=top_side; bot y@#d=bot_side;
  y@#a=y@#c=0.5[y@#b,y@#d]; x@#b=x@#d=0.5[x@#a,x@#c];
  last_path:=superellipse(z@#a,z@#b,z@#c,z@#d,superness);
  labels(@#a,@#b,@#c,@#d)
enddef;

% def complete_O(expr $,$$,$$$,$$$$)=
%   pickup circle.nib;
%   rt x1=w-apprr+$$; lft x3=apprl-$; top y2=h+$$$; bot y4=-d-$$$$;
%   y1=y3=0.5[y2,y4]; x2=x4=0.5[x1,x3];
%   tmp_path:=superellipse(z1,z2,z3,z4,superness);
%   draw tmp_path;
%   bbbowl(x3,y2,y4,hThick) tmp_path;
%   bbbowl(x1,y2,y4,hThick) tmp_path;
%   labels(1,2,3,4);
% enddef;

def complete_X(expr shift)=
  pickup circle.nib;
  numeric a;
  x1l=apprl-shift; x4r=w-apprr+shift; y1l=h; y4r=-d;
  adjust_slanted_bar(1l,4r,2r,3l)(thick+thin,1);
  a=diag_width(thin,z1l-z3l);
  penpos1(a,0); penpos2(a,0); penpos3(a,0); penpos4(a,0);
  z5l=(apprl,-d); z8r=(w-apprr,h);
  adjust_slanted_bar(5l,8r,5r,8l)(thin,-1);
  forsuffixes $=l,r:
    z6$=whatever[z5$,z8$]; z6$=whatever[z1,z3];
    z7$=whatever[z5$,z8$]; z7$=whatever[z2,z4];
  endfor
  y1-y1a=thin; z1a=whatever[z1,z3]; z1-z1a=z2-z2a=z3a-z3=z4a-z4;
  penstroke z1e..z3e; penstroke z2e..z4e; penstroke z5e..z6e;
  penstroke z7e..z8e; fill z1a--z2a--z2--z1--cycle;
  fill z3--z4--z4a--z3a--cycle; labels(1a,2a,3a,4a);
  penlabels(1,2,3,4,5,6,7,8);
enddef;

% macros for lowercase.

boolean g_bar, j_bar;
g_bar=false; j_bar=false;

% $ and $$ : proportionnal depth of the curve along the straight bar.

def complete_right_lower(expr $,$$)=
  if g_bar or j_bar: complete_gj_bar(-1);
  else: pickup circle.nib; lft x1=apprl; x3=x1;
    bot y1=-d; y2=y1; top y3=h; y4=y3; x2-x1=x4-x3=hthick;
    pickup square.nib; draw z1--z2--z4--z3--cycle;
  fi
  pickup circle.nib;
  rt x7=w-apprr+ho; terminate_lower($,$$);
enddef;

% $ and $$ : proportionnal depth of the curve along the straight bar.

def complete_left_lower(expr $,$$)=  
  if g_bar or j_bar: complete_gj_bar(1);
  else: pickup circle.nib; rt x1=w-apprr; x3=x1;
    bot y1=-d; y2=y1; top y3=h; y4=y3; x1-x2=x3-x4=hthick;
    pickup square.nib; draw z1--z2--z4--z3--cycle; fi
  pickup circle.nib;
  lft x7=apprl-ho; terminate_lower($,$$);
enddef;

def terminate_lower(expr $,$$)=
  pickup circle.nib;
  x5=x9=x2; y7=0.5[y6,y8]; x6=x8=0.5[x7,x1];
  if ab_down_factor>0: bot y6=-oo;
    y5=ab_down_factor[top 0,bot x_height];
  else: bot y6=bot y5=0; fi
  if ab_up_factor>0: top y8=x_height+oo; 
    y9=ab_up_factor[bot x_height,top 0];
  else: top y8=top y9=x_height; fi
  tmp_path:=z5 if ab_down_factor>0: down_to_left else:.. fi
  z6 left_to_up z7 up_to_right z8
  if ab_up_factor>0: right_to_down else:.. fi z9;
  bbbowl(z8,z7,z6,hThick) tmp_path; draw tmp_path;
  labels(1,2,3,4,5,6,7,8,9);
enddef;

% $ : proportionnal depth of the curve along the straight bar.

def complete_n=
  pickup circle.nib; lft x1=apprl; x3=x1;
  bot y1=bot y2=0; top y3=top y4=h; x2-x1=x4-x3=hthick;
  x5=x2; x6=0.5[x7,x5]; rt x7=rt x8=w-apprr;
  if hmn_factor>0: y5=hmn_factor[bot x_height, y1];
    top y6=x_height+oo;
  else: top y5=top y6=x_height; fi
  y7=0.7[y1,y6]; x8-x9=hthick;
  if g_bar or j_bar: y8=0; else: bot y8=bot y9=-d; fi
  tmp_path:=z5 if hmn_factor>0: up_to_right else:.. fi
  z6 right_to_down z7..
  if g_bar: g_curve8(9,x9,true);
  elseif j_bar: j_curve8(9,x9,true);
  else: z8; fi
  draw tmp_path; hbbowl(z6,z7,z8,hthick) tmp_path;
  pickup square.nib; draw z1--z2--z4--z3--cycle;
  if (not j_bar) and (not g_bar): draw z8..z9; fi
  labels(1,2,3,4,5,6,7,8,9,10); g_bar:=false; j_bar:=false;
enddef;

def complete_u(expr $)=
  if g_bar or j_bar: complete_gj_bar(1);
  else:
    pickup circle.nib; rt x1=w-apprr; x3=x1;
    bot y1=-d; y2=y1; top y3=h; y4=y3; x1-x2=x3-x4=hthick;
    pickup square.nib; draw z1--z2--z4--z3--cycle; fi
  pickup circle.nib;
  x5=x2; x6=0.5[x7,0.5[x2,x1]]; lft x7=lft x8=apprl;
  top y8=x_height; y7=0.7[y8,y6];
  if uy_factor>0: y5=uy_factor[top 0,y8]; bot y6=-oo;
  else: bot y5=bot y6=0; fi
  tmp_path:=z5 if uy_factor>0: down_to_right else:.. fi
  z6 left_to_up z7..z8;
  draw tmp_path; hbbowl(z6,z7,z8,hthick) tmp_path;
  pickup square.nib;
  draw z8..z.bowl.bot; labels(1,2,3,4,5,6,7,8,9,10);
enddef;

def complete_gj_bar(expr $)=
  pickup circle.nib;
  top y3=top y4=h; y1=0;
  if $>0: rt x1=rt x3=w-apprr; x3-x4=hthick;
  else: lft x1=lft x3=apprl; x4-x3=hthick; fi
  draw z3..if g_bar: g_curve1(2,x4,true); g_bar:=false;
  else: j_curve1(2,x4,true); j_bar:=false; fi
  draw z2..z4; pickup square.nib; draw z3..z4;
enddef;

vardef g_curve@#(suffix $)(expr $$,squared_end)=
  save p_; path p_;
  bot y@#.a=-d; y@#.b=0.5[bot y@#,y@#.a];
  if $$<x@#: lft x@#.b=apprl+hround 0.15u;
  else: rt x@#.b=w-apprr-hround 0.15u; fi
  p_=elliptic_arc(@#,@#.a,@#.b);
  hbbowl(z@#.a,z@#,z@#,abs($$-x@#)) p_;
  z$=z.bowl.bot;
  if squared_end: square_end@#.b(z@#.b-z@#.b'); fi
  labels(@#.a,@#.b,@#.b');
  p_
enddef;

vardef j_curve@#(suffix $)(expr $$,squared_end)=
  save p_; path p_;
  bot y@#.a=bot y@#.b=-d;
  $$-x@#.b=if x@#<$$: - fi hround 2u;
  x@#.a=0.25[x@#.b,$$];
  p_=z@# down_to_right z@#.a..z@#.b;
  hbbowl(z@#.a,z@#,z@#,abs($$-x@#)) p_;
  z$=z.bowl.bot;
  if squared_end: square_end@#.b(z@#.b-z@#.a); fi
  labels(@#.a,@#.b);
  p_
enddef;

def complete_f_stroke(suffix $,$$)(expr top_width,squared_end)=
  pickup circle.nib;
  top y$.a=top y$.b=h; y$=x_height;
  x$.a-x$$=top_width; x$.b=0.25[x$.a,x$$];
  tmp_path:=z$.a..z$.b left_to_down z$;
  hbbowl(z$.b,z$,z$,x$$-x$) tmp_path;
  if not variant_f:
    bot y$.c=bot y$$=0; x$.c=x$; tmpp_path:=z$$..z.bowl.bot;
  else: bot y$$.a=bot y$$.b=-d; y$$=0;
    x$-x$$.a=hround 2u; x$$.b=0.25[x$$.a,x$];
    tmpp_path:=z$$.a..z$$.b right_to_up z$$..z.bowl.bot;
    hbbowl(z$$.b,z$$,z$$,x$$-x$) tmpp_path; z$.c=z.bowl.bot; fi
  draw tmp_path..z$.c; draw tmpp_path;
  if not variant_f: pickup square.nib;
    draw z$.c..z$$; labels($,$.a,$.b,$.c,$$,$$.a);
  else: square_end$$.a(left);
    labels($,$.a,$.b,$.c,$$,$$.a,$$.b); fi
  if squared_end: square_end$.a(right); fi
enddef;

%
% accents
%

if unknown tmp_h: tmp_h:=x_height; fi

def complete_grave(expr $,$$)=
  if square_dots:
    x0=(w+$-$$)/2+0.25u; x2l=hround $-0.5;
    y0=y3r=vround 1/3[tmp_h,h]; y2l=y4r=h;
    adjust_slanted_bar(2l,0,0',1l)(0.5(thick+thin),1);
    a:=diag_width(thin,z0'-z0);
    penpos1(a,0); penpos2(a,0); penpos3(a,0); penpos4(a,0);
    x3-x0=x0-x1; x4-x0'=x0'-x2;
    y1a-y1=thin; z1a=whatever[z1,z2];
    z1a-z1=z3a-z3=z2-z2a=z4-z4a;
    penstroke z1e..z2e; penstroke z3e..z4e;
    fill z1a--z3a--z3--z1--cycle;
    fill z2--z4--z4a--z2a--cycle;
    labels(1a,2a,3a,4a); penlabels(0,0',1,2,3,4);
  else:
    pickup circle.nib;
    x2=$+dot_size/2+hround((w-$-$$)/8);
    x1=w-$$-dot_size/4-hround((w-$-$$)/5);
    y1=vround 1/5[tmp_h,h]+dot_size/4;
    y2=h-dot_size/2; long_dot(1,2);
  fi
enddef;

def complete_acute(expr $,$$)=
  if square_dots:
    x0=(w+$-$$)/2-0.25u; x4r=w-hround $$+0.5;
    y0=y1l=vround 1/3[tmp_h,h]; y2l=y4r=h;
    adjust_slanted_bar(4r,0,0',3r)(0.5(thick+thin),-1);
    a:=diag_width(thin,z0'-z0);
    penpos1(a,0); penpos2(a,0); penpos3(a,0); penpos4(a,0);
    x3-x0=x0-x1; x4-x0'=x0'-x2;
    y1a-y1=thin; z1a=whatever[z1,z2];
    z1a-z1=z3a-z3=z2-z2a=z4-z4a;
    penstroke z1e..z2e; penstroke z3e..z4e;
    fill z1a--z3a--z3--z1--cycle;
    fill z2--z4--z4a--z2a--cycle;
    labels(1a,2a,3a,4a); penlabels(0,0',1,2,3,4);
  else:
    pickup circle.nib;
    x2=w-$$-dot_size/2-hround((w-$-$$)/8);
    x1=$+dot_size/4+hround((w-$-$$)/5);
    y1=vround 1/5[tmp_h,h]+dot_size/4;
    y2=h-dot_size/2; long_dot(1,2);
  fi
enddef;

def complete_circumflex(expr $,$$,$$$)=
  if square_dots:
    begingroup save d; d=-vround 1/3[tmp_h,h];
      complete_AV($$$,$,w-$$);
    endgroup;
  else:
    pickup circle.nib;
    if $$$>0: top y1=top y2=y1r=y2r=h; y1l=y2l=y1r-thin;
      y3r=y4r=y4a=y6a=y6r=y7r=vround 1/5[tmp_h,h];
      y5=max(top y1r-dot_size,0.5[y1r,y3r]);
    else: bot y1=bot y2=y1r=y2r=vround 1/5[tmp_h,h];
      y1l=y2l=y1r+thin; y3r=y4r=y4a=y6a=y6r=y7r=h;
      y5=min(bot y1r+dot_size,0.5[y1r,y3r]);
    fi
    x2-x1=hthick; x7r=$; x3r=w-$$; x1-x7r=x3r-x2;
    adjust_slanted_bar(7r,1,7,1a)(0.5thin,-$$$);
    adjust_slanted_bar(3r,2,3,2a)(0.5thin,$$$);
    z1r=whatever[z7r,z1a]; z2r=whatever[z3r,z2a]; 
    z6=z7; z3=z4; x5=0.5[x1,x2];
    x4-x4r=diag_width(0.5thin,z5-z4); x6r-x6=diag_width(0.5thin,z5-z6);
    z5r-z4r=whatever*(z5-z4); z5r-z6r=whatever*(z5-z6);
    z5l-(x4+(x4-x4r),y4)=whatever*(z5-z4);
    z5l-(x6-(x6r-x6),y6)=whatever*(z5-z6);
    z1r-z7r=whatever*(z1-z7); z2r-z3r=whatever*(z2-z3);
    z1l-(x7+(x7-x7r),y7)=whatever*(z1-z7);
    z2l-(x3-(x3r-x3),y3)=whatever*(z2-z3);
    z1l-z7l=whatever*(z1-z7); z2l-z3l=whatever*(z2-z3);
    z7l-z5l=whatever*(z7-z5); z3l-z5l=whatever*(z3-z5); 
    z6l=z7l; z4l=z3l;
    penstroke z1e--z2e--z3e--z4e--z5e--z6e--z7e--cycle;
    penlabels(1,2,3,4,5,6,7); labels(1a,2a);
  fi
enddef;

def complete_hat(expr $,$$)=complete_circumflex($,$$,1); enddef;

def complete_hacheck(expr $,$$)=complete_circumflex($,$$,-1); enddef;

def complete_tilde(expr $,$$)=
  if square_dots:
    x1r=$; x8r=w-$$;
    x2r=0.25[x1r,x8r]; x2r-x1r=x8r-x7r; y8r=h; y8r-y7r=y2r-y1r;
    y1r=y7r+o=min(vround 2/3[h,tmp_h],h-vround 1.2(thick+thin));
    adjust_slanted_bar(2r,7r,5r,4r)(thick+thin,-1);
    numeric a,b;
    a=diag_width(thin,z2r-z4r); b=diag_width(thin,z2r-z1r);
    penpos4(a,0); penpos5(a,180); penpos1(b,180); penpos8(b,0);
    z2l-z1l=whatever*(z2r-z1r); z2l-z4l=whatever*(z2r-z4r);
    z7l-z5l=whatever*(z7r-z5r); z7l-z8l=whatever*(z7r-z8r);
    forsuffixes @=r,l:
      z3@-z4@=whatever*(z2r-z4r); z3@-z8=whatever*(z7r-z8r);
      z6@-z5@=whatever*(z7r-z5r); z6@-z1=whatever*(z2r-z1r);
    endfor
    penstroke z1e--z2e--z3e; penstroke z6e--z7e--z8e;
    penlabels(1,2,3,4,5,6,7,8);
  else: pickup circle.nib;
    bot y1=bot y6l+o=vround 1/3[tmp_h,h];
    lft x1=$; rt x7=w-$$; top y7=top y2r-o=h;
    y6r-y6l=y2r-y2l=vround 0.5[thin,dot_size-thin];
    z4=0.5[z1,z7]; slope:=2(y7-y1)/(x1-x7); numeric a;
    a=(sind angle((-1,-slope)slanted slant))[dot_size-thin,thick];
    ortho_penpos4(a,(-1,-slope));
    forsuffixes @=r,l:
      hellipse_set(1,2@,3@,4@); hellipse_set(7,6@,5@,4@);
      draw z1 up_to_right z2@...z3@---z5@
      ...z6@ right_to_up z7;
    endfor
    square_end1(down); square_end7(up);
    penlabels(1,2,3,4,5,6,7);
  fi
enddef;

def complete_dot(expr $,$$)=
  pickup circle.nib; center_bar(1,1');
  top y1'=h; bot y1=h-dot_size; dot(1,1');
enddef;

def complete_umlaut(expr $,$$)=
  pickup circle.nib; x1'-x1=x2'-x2=hthick;
  lft x1-$=w-$$-rt x2'=hround 0.5(w-$-$$-7u);
  top y1'=top y2'=h; bot y1=bot y2=h-dot_size;
  dot(1,1'); dot(2,2');
enddef;

def complete_long_umlaut(expr $,$$)=
  if square_dots:
    y0=vround 1/3[tmp_h,h]; y8r=h;
    x0=0.5[$,w-$$]; x8r=w-$$;
    adjust_slanted_bar(0,8r,6r,0')
    (max(thick+thin+0.5u,2u),-1);
    a:=diag_width(1,z0'-z0);
    forsuffixes @#=1,2,3,4,5,6,7,8: penpos@#(a*thin,0); endfor
    z2-z1=z4-z3=z6-z5=z8-z7=(a*thick,0);
    z8r-z0'=z0'-z3l;z6r-z0=z0-z1l; y1a-y1=thin;
    z1a-z1=z2a-z2=z3-z3a=z4-z4a=z5a-z5=z6a-z6
    =z7-z7a=z8-z8a=whatever*(z3-z1);
    penstroke z1e..z3e; penstroke z2e..z4e;
    penstroke z5e..z7e; penstroke z6e..z8e;
    for i=1 upto 4:
      fill z[2i-1]--z[2i]--z[2i]a---z[2i-1]a--cycle;
    endfor
    penlabels(0,0',1,2,3,4,5,6,7,8); labels(1a,2a,3a,4a,5a,6a,7a,8a);
  else:
    pickup circle.nib;
    y1=y3=vround 1/5[tmp_h,h]+0.25dot_size;
    y2=y4=h-0.5dot_size+o;
    x1-x3=x2-x4=hround(max(dot_size+0.5u,3u));
    0.5[x1,x3]=0.5[$,w-$$];
    x2=w-$$-max(0.5dot_size,u);
    long_dot(1,2); long_dot(3,4);
  fi
enddef;

def complete_circ(expr $,$$)=
  pickup circle.nib;
  numeric a,b; b=vround(1/3[tmp_h,h]);
  a=round max(hThick+thin,h+o-b);
  top y2=b+a+eps; bot y4=b-eps; y1=y3=0.5[y4,y2];
  lft x3-$=w-$$-rt x1=hround 0.5(w-$-$$-a);
  x2=x4=0.5[x1,x3];
  draw superellipse(z1,z2,z3,z4,superness);
  labels(1,2,3,4,0);
enddef;

def complete_breve(expr $,$$)=
  pickup circle.nib; top y1=top y3=h;
  lft x1-$=w-$$-rt x3=hround 0.5(w-$-$$-6u);
  bot y2=vround 1/3[tmp_h,h]; x2=0.5[x1,x3];
  draw z1 down_to_right z2 right_to_up z3;
  square_end1(up); square_end3(up);
  labels(1,2,3);
enddef;

def complete_cedilla(expr $,$$)=
  pickup circle.nib;
  x1=x2=x4=good.x $; x3-x1=hThick; x1-x5=hround 2u;
  y1=$$; bot y4=bot y5=-desc_depth; top y2=-vround max(o,d/6);
  y3=0.5[y4,y2]; draw z2 right_to_down z3 down_to_left z4..z5;
  draw z1..z4; square_end5(left);
  labels(1,2,3,4,5);
enddef;

def complete_ogonek(expr $,$$)=
  pickup circle.nib;
  x1=x6=good.x $; x5-x1=x1-x2=hthick; x2=x3;
  y1=$$; bot y4=bot y6=-desc_depth-oo;
  y5=good.y 1/3[y4,y1]; y1-y2=y5-y6;
  y3=(superness**2)[y4,y2];
  x4=(superness**2)[x6,x3];
  tmp_path:=z1{z2-z1}...z3 down_to_right z4{right}...z5{z5-z6};
  z7=tmp_path intersectionpoint ((x1,y3)..(x1,y4));
  draw tmp_path; draw z1..z7; square_end5(z5-z6);
  labels(1,2,3,4,5,6,7);
enddef;

% `iff' construction

let semi_ =;; let colon_ = :; let endchar_ = endchar;
def iff expr b = if b:let next_=use_it else:let next_=lose_it fi; next_ enddef;
def use_it = let : = restore_colon; enddef;
def restore_colon = let : = colon_; enddef;
def lose_it = let endchar=fi;
let ;=fix_ semi_ if false enddef;
def fix_=let ;=semi_; let endchar=endchar_;
enddef;
def always_iff = let : = endgroup; killboolean enddef;
def killboolean text t = use_it enddef;

% proofing

def horizontal_rules_list=
  -body_depth,-desc_depth,x_height,cap_height,asc_height,body_height
enddef;

def makebox(text rule) =
  for y=-d.o_,0,h.o_:
    rule((-xoffset,y),(w-xoffset,y)); endfor
  for y=horizontal_rules_list:
    rule((apprl-xoffset,y),(w-apprr-xoffset,y)); endfor
  for x=0,apprl,w-apprr,w:
    rule((x-xoffset,-d.o_),(x-xoffset,h.o_)); endfor
  for x=apprl+u step u until w-apprr-1.5:
    rule((x-xoffset,-d.o_),(x-xoffset,h.o_)); endfor
  if charic<>0:
    rule((w-xoffset+charic*hppp,h.o_),
      (w-xoffset+charic*hppp,.5h.o_)); fi
enddef;

def accents_proofing=
  for $=0 upto 19:
    makelabel("",(0.5[apprl,w-apprr],0.5x_height)
      +(4u*cosd($*360/20),0.5x_height*sind($*360/20)));
  endfor
enddef;

def diacritics_proofing=
  if proofing>0:extra_endchar:=extra_endchar&"accents_proofing;"; fi
enddef;

def standard_proofing=
  if proofing>0:extra_endchar:=normal_extra_endchar; fi
enddef;