Plan 9 from Bell Labs’s /usr/web/sources/contrib/steve/root/sys/lib/texmf/fonts/source/public/cm/cmbase.mf

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


% The base file for Computer Modern (a supplement to {\tt plain.mf})

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

let cmchar=\; % `|cmchar|' should precede each character
let generate=input; % `|generate|' should follow the parameters

autorounding:=0; smoothing:=0; % we do our own rounding
def autorounded = interim autorounding:=2 enddef;

newinternal slant,fudge,math_spread,superness,superpull,beak_darkness,ligs;
boolean square_dots,hefty,serifs,
 monospace,variant_g,low_asterisk,math_fitting;

boolean dark,dark.dark,skewed,skewed.skewed; % for fast option testing
dark=skewed=false; dark.dark=skewed.skewed=true;

vardef Vround primary y = y_:=vround y;
 if y_<min_Vround: min_Vround else: y_ fi enddef;
newinternal y_,min_Vround;

vardef serif(suffix $,$$,@)  % serif at |z$| for stroke from |z$$|
  (expr darkness,jut) suffix modifier =
 pickup crisp.nib; numeric bracket_height; pair downward;
 bracket_height=if dark.modifier: 1.5 fi\\ bracket;
 if y$<y$$: y@2=min(y$+bracket_height,y$$);
  top y@1-slab=bot y@0+eps=tiny.bot y$; downward=z$-z$$;
  if y@1>y@2: y@2:=y@1; fi
 else: y@2=max(y$-bracket_height,y$$);
  bot y@1+slab=top y@0-eps=tiny.top y$; downward=z$$-z$;
  if y@1<y@2: y@2:=y@1; fi fi
 y@3=y@2; z@3=whatever[z$,z$$];
 if jut<0: z@2+penoffset downward of currentpen =
   z$l+penoffset downward of pen_[tiny.nib]+whatever*downward;
  lft x@0=lft x@1=tiny.lft x$l+jut;
  if x@3<x@2+eps: x@3:=x@2+eps; fi
 else: z@2-penoffset downward of currentpen =
   z$r-penoffset downward of pen_[tiny.nib]+whatever*downward;
   rt x@0=rt x@1=tiny.rt x$r+jut;
   if x@3>x@2-eps: x@3:=x@2-eps; fi fi
 pair corner; ypart corner=y@1; corner=z@2+whatever*downward;
 filldraw z@2{z$-z$$}
  ...darkness[corner,.5[z@1,z@2] ]{z@1-z@2}
  ...{jut,0}z@1--z@0--(x$,y@0)--z@3--cycle; % the serif
 labels (@1,@2); enddef;

def dish_serif(suffix $,$$,@)(expr left_darkness,left_jut)
  (suffix @@)(expr right_darkness,right_jut) suffix modifier =
 serif($,$$,@,left_darkness,-left_jut) modifier;
 serif($,$$,@@,right_darkness,right_jut) modifier;
 if dish>0: pickup tiny.nib; numeric dish_out,dish_in;
  if y$<y$$: dish_out=bot y$; dish_in=dish_out+dish; let rev_=reverse;
  else: dish_out=top y$; dish_in=dish_out-dish; let rev_=relax; fi
  erase fill rev_
   ((x@1,dish_out)..(x$,dish_in){right}..(x@@1,dish_out)--cycle);
 fi enddef;

def nodish_serif(suffix $,$$,@)(expr left_darkness,left_jut)
  (suffix @@)(expr right_darkness,right_jut) suffix modifier =
 serif($,$$,@,left_darkness,-left_jut) modifier;
 serif($,$$,@@,right_darkness,right_jut) modifier; enddef;

vardef sloped_serif.l(suffix $,$$,@)(expr darkness,jut,drop) =
 pickup crisp.nib; pos@2(slab,90);
 lft x@0=tiny.lft x$l; rt x@1=tiny.rt x$r; top y@1=tiny.top y$r;
 lft x@2=lft x@0-jut; y@2r=y@1-drop;
 y@0=max(y@2l-bracket,y$$)-eps;
 if drop>0: erase fill z@1--top z@1
   --(x@2r,top y@1)--z@2r--cycle; fi % erase excess at top
 filldraw z@1--z@2r--z@2l{right}
  ...darkness[(x@0,y@2l),.5[z@2l,z@0] ]{z@0-z@2l}
  ...{down}z@0--(x@1,y@0)--cycle;  % sloped serif
 labels(@0,@1,@2); enddef;

vardef sloped_serif.r(suffix $,$$,@)(expr darkness,jut,drop) =
 pickup crisp.nib; pos@2(slab,-90);
 rt x@0=tiny.rt x$r; lft x@1=tiny.lft x$l; bot y@1=tiny.bot y$l;
 rt x@2=rt x@0+jut; y@2r=y@1+drop;
 y@0=min(y@2l+bracket,y$$)+eps;
if drop>0: erase fill z@1--bot z@1
  --(x@2r,bot y@1)--z@2r--cycle; fi % erase excess at bottom
 filldraw z@1--z@2r--z@2l{left}
  ...darkness[(x@0,y@2l),.5[z@2l,z@0] ]{z@0-z@2l}
  ...{up}z@0--(x@1,y@0)--cycle;  % sloped serif
 labels(@0,@1,@2); enddef;

vardef term.l(suffix $,$$)(expr d,t,s)= % ``robust'' sans-serif terminal
 path p_; p_=z$l{d}..tension t..z$$l;
 pair d_; d_=(x$$l-x$l,s*(y$$l-y$l));
 if (abs angle direction 1 of p_ < abs angle d_)<>(x$l<x$$l):
  p_:=z$l{d}..tension atleast t..{d_}z$$l; fi
 p_ enddef;
vardef term.r(suffix $,$$)(expr d,t,s)=
 path p_; p_=z$r{d}..tension t..z$$r;
 pair d_; d_=(x$$r-x$r,s*(y$$r-y$r));
 if (abs angle direction 1 of p_ < abs angle d_)<>(x$r<x$$r):
  p_:=z$r{d}..tension atleast t..{d_}z$$r; fi
 p_ enddef;
def rterm=reverse term enddef;

vardef arm(suffix $,$$,@)(expr darkness,jut) =  % arm from |z$| to |z$$|
 x@0=good.x(x$$r-jut); y@0=y$r;
 if serifs: y@1=y$l; z@1=z$$l+whatever*(z$$r-z@0);
  z@2=.5[z$l,z@1];
  filldraw z$$l{z@1-z$$l}...darkness[z@1,.5[z@2,z$$l] ]...z@2
   ---z$l--z$r--z@0--z$$r--cycle; % arm and beak
 else: filldraw z$l--z$r--z@0--z$$r--cycle; fi  % sans-serif arm
 penlabels(@0,@1,@2); enddef;

def pi_stroke = pickup fine.nib;
 pos1(hair,0); pos2(vstem,-90); pos3(vstem,-90);
 x1-.5hair=hround -.5hair; x2=2u; x3=w-1.5u;
 y1=x_height-x_height/3.141592653589793; y2=y3; top y3l=x_height;
 filldraw circ_stroke z3e---z2e...{x1-x2,3.14159(y1-y2)}z1e enddef;

def bulb(suffix $,$$,$$$) =
 z$$$r=z$$r;
 path_.l:=z$l{x$$r-x$r,0}...{0,y$$r-y$r}z$$l;
 filldraw path_.l--z$$r{0,y$r-y$$r}...{x$r-x$$r,0}z$r--cycle; % link
 path_.r:=z$$$l{0,y$r-y$$r}..z$$$r{0,y$$r-y$r}; % near-circle
 filldraw subpath(0,xpart(path_.r intersectiontimes path_.l)) of path_.r
  --z$$r{0,y$$r-y$r}..cycle; % bulb
 enddef;

def v_bulb(suffix $,$$)= % |pos$| is known
 y$$+.5curve=x_height+oo; x$$+.5curve=w-u;
 numeric theta; theta=angle(4(x$-x$$),y$-y$$); pos$$(curve,theta+90);
 filldraw z$$l{dir theta}..tension atleast 1 and 1..{down}z$l
  --z$r{up}...{-dir theta}z$$r..cycle;  % bulb
 enddef;

def dot(suffix $,$$) =
 filldraw if square_dots: (x$l,y$$l)--(x$r,y$$l)
   --(x$r,y$$r)--(x$l,y$$r)--cycle  % squarish dot
  else: z$l...z$$l...z$r...z$$r...cycle  fi % roundish dot
 enddef;

def comma(suffix $,@)(expr dot_size,jut,depth) =
 pickup fine.nib; pos$(dot_size,90);
 if square_dots: pos$'(dot_size,0); z$'=z$; dot($',$);  % squarish dot
  comma_join_:=max(fine.breadth,floor .7dot_size);
  comma_bot_:=max(fine.breadth,floor .5dot_size);
  pos@0(comma_join_,0); pos@1(comma_join_,0);
  pos@2(comma_bot_,0); y@0=y$; y@1=y$l; y@2=y@1-depth;
  x@0r=x@1r=x$'r; rt x@2r=good.x(x$-eps);
  filldraw stroke z@[email protected]@2e;  % tail
 else: pos@1(vair,90); pos@2(vair,0); pos@3(vair,-45);
  z@1r=z$r; rt x@2r=hround(x$+.5dot_size+jut)+2eps; x@3=x$-.5u;
  y@2=1/3[y@1,y@3]; bot y@3r=vround(y$-.5dot_size-depth);
  y_:=ypart((z@1{right}...z@2{down}...z@3)
   intersectiontimes (z$l{right}..{left}z$r)); if y_<0: y_:=1; fi
  filldraw z$r{left}..subpath (0,y_) of (z$l{right}..{left}z$r)--cycle; % dot
  filldraw stroke z@1e{right}...z@2e{down}...z@3e; fi  % tail
 penlabels(@1,@2,@3); enddef;

def ammoc(suffix $,@)(expr dot_size,jut,depth) = % reversed comma
 pickup fine.nib; pos$(dot_size,90);
 if square_dots: pos$'(dot_size,0); z$'=z$; dot($',$);  % squarish dot
  comma_join_:=max(fine.breadth,floor .7dot_size);
  comma_top_:=max(fine.breadth,floor .5dot_size);
  pos@0(comma_join_,0); pos@1(comma_join_,0);
  pos@2(comma_top_,0); y@0=y$; y@1=y$r; y@2=y@1+depth;
  x@0l=x@1l=x$'l; lft x@2l=good.x(x$+eps);
  filldraw stroke z@[email protected]@2e;  % tail
 else: pos@1(vair,90); pos@2(vair,0); pos@3(vair,-45);
  z@1l=z$l; lft x@2l=hround(x$-.5dot_size-jut)-2eps; x@3=x$+.5u;
  y@2=1/3[y@1,y@3]; top y@3l=vround(y$+.5dot_size+depth);
  y_:=ypart((z@1{left}...z@2{up}...z@3)
   intersectiontimes (z$r{left}..{right}z$l)); if y_<0: y_:=1; fi
  filldraw z$l{right}..subpath (0,y_) of (z$r{left}..{right}z$l)--cycle; % dot
  filldraw stroke z@1e{left}...z@2e{up}...z@3e; fi  % tail
 penlabels(@1,@2,@3); enddef;

%%% @ from to %%%% temporary formatting change
vardef diag_in(suffix from,$)(expr sharpness)(suffix $$) =
 pickup tiny.nib; save from_x,y_;
 if y.from>y$: bot else: top fi\\ y_=y$;
 (from_x,y_)=whatever[z.from,z$];
 sharpness[z$,(from_x,y_)]{z$-z.from}
  ...{z$$-z$}z$+sharpness*length(z$-(from_x,y_))*unitvector(z$$-z$) enddef;

vardef diag_out(suffix $)(expr sharpness)(suffix $$,to) =
 pickup tiny.nib; save to_x,y_;
 if y.to>y$: bot else: top fi\\ y_=y$;
 (to_x,y_)=whatever[z$$,z.to];
 z$$-sharpness*length(z$$-(to_x,y_))*unitvector(z$$-z$){z$$-z$}
  ...{z.to-z$$}sharpness[z$$,(to_x,y_)] enddef;

vardef diag_end(suffix from,$)(expr sharpness_in,sharpness_out)(suffix $$,to)=
 save from_x,to_x,y_,x_,xx_;
 if y.from>y$: tiny.bot else: tiny.top fi\\ y_=y$; % we assume that |y$=y$$|
 (from_x,y_)=whatever[z.from,z$]; (to_x,y_)=whatever[z$$,z.to];
 if x$$>x$: x_=x$+sharpness_in*length(z$-(from_x,y_));
  xx_=x$$-sharpness_out*length(z$$-(to_x,y_));
  if xx_<x_: xx_:=x_:=.5[xx_,x_]; fi
 else: x_=x$-sharpness_in*length(z$-(from_x,y_));
  xx_=x$$+sharpness_out*length(z$$-(to_x,y_));
  if xx_>x_: xx_:=x_:=.5[xx_,x_]; fi fi
 sharpness_in[z$,(from_x,y_)]{z$-z.from}
  ...{z$$-z$}(x_,y$)..(xx_,y$){z$$-z$}
  ...{z.to-z$$}sharpness_out[z$$,(to_x,y_)] enddef;
%%% at from to %%%% restore normal formatting

vardef special_diag_end(suffix $$,$,@,@@) = % for top middle of w's
 if x@r<=x$r: diag_end($$r,$r,1,1,@l,@@l)
 else: z0=whatever[z$$l,z$l]=whatever[z@l,z@@l];
  diag_end($$r,$r,1,1,$l,0)--z0 fi enddef;

def prime_points_inside(suffix $,$$) =
 theta_:=angle(z$r-z$l);
 penpos$'(whatever,theta_);
 if y$$>y$: z$'=(0,pen_top) rotated theta_ + whatever[z$l,z$r];
  theta_:=angle(z$$-z$)-90;
 else: z$'=(0,pen_bot) rotated theta_ + whatever[z$l,z$r];
  theta_:=angle(z$$-z$)+90; fi
 z$'l+(pen_lft,0) rotated theta_=z$l+whatever*(z$-z$$);
 z$'r+(pen_rt,0) rotated theta_=z$r+whatever*(z$-z$$);
 enddef;

def ellipse_set(suffix $,@,@@,$$) = % given |z$,x@,z$$|, find |y@| and |z@@|
% such that the path |z${x@-x$,0}..z@{0,y@-y$}..{z$$-z@@}z@@|
% is consistent with an ellipse
% and such that the line |z@@--z$$| has a given |slope|
 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;

vardef diag_ratio(expr a,b,y,c) = % assuming that $a>\vert b/y\vert$,
% compute the value $\alpha=(x\6{++}y)/y$ such that $ax+b\alpha=c$
 numeric a_,b_,c_; b_=b/y; c_=c/y; a_=a*a-b_*b_;
 (a*(c_++sqrt a_)-b_*c_)/a_ enddef;

def f_stroke(suffix $,$$,@,left_serif,right_serif)(expr left_jut,right_jut)=
 pickup tiny.nib; bot y$=0;
 penpos@0(x$r-x$l,0); x@0l=x$l; top y@0=x_height;
 filldraw stroke z$e--z@0e;  % stem
 pickup fine.nib; pos@0'(x$r-x$l-(hround stem_corr)+tiny,180);
 y@0'=y@0; lft x@0'r=tiny.lft x$l;
 penpos@1(x@0'l-x@0'r,180); x@1=x@0'; y@1+.5vair=.5[x_height,h];
 pos@2(vair,90); top y@2r=h+oo;
 if serifs: x@2=.6[x@1,x$$r]; (x@,y@2r)=whatever[z@2l,z@1l];
  x@2r:=min(x@,.5[x@2,x$$r]); pos@3(hair,0); bulb(@2,@3,$$);  % bulb
  filldraw stroke z@0'e--z@1e & super_arc.e(@1,@2);  % arc
  dish_serif($,@0,left_serif,1/3,left_jut,right_serif,1/3,right_jut); % serif
 else: x@2=.6[x@1,x$$]; y@1l:=1/3[y@1l,y@2l];
  filldraw stroke z@0'e--z@1e & super_arc.e(@1,@2)
   & term.e(@2,$$,right,.9,4); fi  % arc and terminal
 penlabels(@0,@1,@2); enddef;

def h_stroke(suffix $,@,@@,$$) =
 penpos$$(x@@r-x@@l,0); x$$=x@@; bot y$$=0;
 y@@=1/3[bar_height,x_height];
 penpos$''(x$r-x$l,0); x$''=x$; y$''=1/8[bar_height,x_height];
 filldraw stroke z$''e--z$e;  % thicken the lower left stem
 penpos@0(min(rt x$r-lft x$l,thin_join)-fine,180); pickup fine.nib;
 rt x@0l=tiny.rt x$r; y@0=y$'';
 pos@1(vair,90); pos@@'(x@@r-x@@l+tiny,0); z@@'=z@@;
 x@1=.5[rt x@0l,rt x@@'r]; top y@1r=x_height+oo;
 (x@,y@1l)=whatever[z@1r,z@0l]; x@1l:=x@;
 filldraw stroke z@0e{up}...{right}z@1e
  &{{interim superness:=hein_super; super_arc.e(@1,@@')}};  % arch
 pickup tiny.nib; filldraw stroke z@@e--z$$e;  % right stem
 labels(@0); penlabels(@1); enddef;

def hook_out(suffix $,$$,$$$)suffix modifier= % |x$| and |x$$$| (only) are known
 pos$(stem,0); pos$$(vair,90);
 x$$$:=hround(x$$$+.5hair-eps)-.5hair; pos$$$(hair,180);
 y$=1/4x_height; bot y$$l=-oo; y$$$=1/3x_height;
 if skewed.modifier: x$$=x$+1.25u;
  filldraw stroke z$e{-u,-x_height}...z$$e{right}...{up}z$$$e;  % hook
 else: x$$=x$+1.5u;
  filldraw stroke z$e{down}...z$$e{right}
   ...{x$$$-(x$+2.5u),x_height}z$$$e; fi enddef;  % hook

def hook_in(suffix $,$$,$$$)suffix modifier= % |x$| and |x$$$| (only) are known
 x$:=hround(x$-.5hair)+.5hair; pos$(hair,180);
 pos$$(vair,90); pos$$$(stem,0);
 y$=2/3x_height; top y$$r=x_height+oo; y$$$=3/4x_height;
 if skewed.modifier: x$$=x$$$-1.25u;
  filldraw stroke z$e{up}...z$$e{right}...{-u,-x_height}z$$$e;  % hook
 else: x$$=x$$$-1.5u;
  filldraw stroke z$e{x$$$-2.5u-x$,x_height}
   ...z$$e{right}...{down}z$$$e; fi enddef;  % hook

def ital_arch(suffix $,$$,$$$) = % |z$| and |z$$$| (only) are known
 pos$'(hair,180); z$'=z$;
 pos$$(vair,90); pos$$$(stem,0);
 {{interim superness := more_super; x$$=.6[x$,x$$$];
 top y$$r=x_height+oo; y$$$=.65x_height;
 filldraw stroke z$'e{up}...super_arc.e($$,$$$);}} enddef;  % stroke

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;

def circle_points =
 x4=x8=.5[x2,x6]; x1=x3=superness[x4,x2]; x5=x7=superness[x4,x6];
 y2=y6=.5[y4,y8]; y1=y7=superness[y2,y8]; y3=y5=superness[y2,y4];
 enddef;
def draw_circle =
 draw z8{right}...z1{z2-z8}...z2{down}...z3{z4-z2}...z4{left}
  ...z5{z6-z4}...z6{up}...z7{z8-z6}...cycle enddef;

def left_paren(expr min_breadth, max_breadth) =
 pickup fine.nib; pos1(hround min_breadth,0);
 pos2(hround max_breadth,0); pos3(hround min_breadth,0);
 rt x1r=rt x3r=hround(w-1.25u+.5min_breadth); lft x2l=hround 1.25u;
 top y1=h; y2=.5[y1,y3]; bot y3=1-d;
 filldraw stroke z1e{3(x2e-x1e),y2-y1}...z2e
  ...{3(x3e-x2e),y3-y2}z3e;  % arc
 penlabels(1,2,3); enddef;

def right_paren(expr min_breadth, max_breadth) =
 pickup fine.nib; pos1(hround min_breadth,0);
 pos2(hround max_breadth,0); pos3(hround min_breadth,0);
 lft x1l=lft x3l=hround(1.25u-.5min_breadth); rt x2r=hround(w-1.25u);
 top y1=h; y2=.5[y1,y3]; bot y3=1-d;
 filldraw stroke z1e{3(x2e-x1e),y2-y1}...z2e
  ...{3(x3e-x2e),y3-y2}z3e;  % arc
 penlabels(1,2,3); enddef;

def left_bracket(expr breadth,do_top,do_bot) =
 pickup crisp.nib;
 numeric thickness; thickness=hround breadth;
 pos1(thickness,0); pos2(thickness,0);
 top y1=h; bot y2=1-d; lft x1l=lft x2l=hround(2.5u-.5thickness);
 filldraw stroke z1e--z2e;  % stem
 pos3(thickness,90); pos4(thickness,90);
 pos5(thickness,90); pos6(thickness,90);
 x3=x5=x1l; rt x4=rt x6=hround(w-.75u+.5thickness);
 y3r=y4r=y1; y5l=y6l=y2;
 if do_top: filldraw stroke z3e--z4e; fi  % upper bar
 if do_bot: filldraw stroke z5e--z6e; fi  % lower bar
 penlabels(1,2,3,4,5,6); enddef;

def right_bracket(expr breadth,do_top,do_bot) =
 pickup crisp.nib;
 numeric thickness; thickness=hround breadth;
 pos1(thickness,0); pos2(thickness,0);
 top y1=h; bot y2=1-d; rt x1r=rt x2r=hround(w-2.5u+.5thickness);
 filldraw stroke z1e--z2e;  % stem
 pos3(thickness,90); pos4(thickness,90);
 pos5(thickness,90); pos6(thickness,90);
 x3=x5=x1r; lft x4=lft x6=hround(.75u-.5thickness);
 y3r=y4r=y1; y5l=y6l=y2;
 if do_top: filldraw stroke z3e--z4e; fi  % upper bar
 if do_bot: filldraw stroke z5e--z6e; fi  % lower bar
 penlabels(1,2,3,4,5,6); enddef;

def left_curly(expr min_breadth, max_breadth) =
 pickup fine.nib;
 forsuffixes $=1,1',4,4',7,7': pos$(hround min_breadth,0); endfor
 forsuffixes $=2,3,5,6: pos$(hround max_breadth,0); endfor
 x2=x3=x5=x6; x1=x1'=x7=x7'=w-x4=w-x4';
 lft x4l=hround(1.5u-.5min_breadth); lft x2l=hround(.5w-.5max_breadth);
 top y1=h; bot y7=1-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=vround(min_breadth-fine);
 filldraw z1l{3(x2l-x1l),y2-y1}...z2l---z3l...{3(x4l-x3l),y4-y3}z4l
  --z4'l{3(x5l-x4l),y5-y4'}...z5l---z6l...{3(x7l-x6l),y7-y6}z7l
  --z7r--z7'r{3(x6r-x7r),y6-y7'}...z6r---z5r
  ...{3(x4r-x5r),.5[y4,y4']-y5}.5[z4r,z4'r]{3(x3r-x4r),y3-.5[y4,y4']}
  ...z3r---z2r...{3(x1r-x2r),y1'-y2}z1'r--z1r--cycle;  % stroke
 penlabels(1,2,3,4,5,6,7); enddef;

def right_curly(expr min_breadth, max_breadth) =
 pickup fine.nib;
 forsuffixes $=1,1',4,4',7,7': pos$(hround min_breadth,0); endfor
 forsuffixes $=2,3,5,6: pos$(hround max_breadth,0); endfor
 x2=x3=x5=x6; x1=x1'=x7=x7'=w-x4=w-x4';
 lft x1l=hround(1.5u-.5min_breadth); lft x2l=hround(.5w-.5max_breadth);
 top y1=h; bot y7=1-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=vround(min_breadth-fine);
 filldraw z1r{3(x2r-x1r),y2-y1}...z2r---z3r...{3(x4r-x3r),y4-y3}z4r
  --z4'r{3(x5r-x4r),y5-y4'}...z5r---z6r...{3(x7r-x6r),y7-y6}z7r
  --z7l--z7'l{3(x6l-x7l),y6-y7'}...z6l---z5l
  ...{3(x4l-x5l),.5[y4,y4']-y5}.5[z4l,z4'l]{3(x3l-x4l),y3-.5[y4,y4']}
  ...z3l---z2l...{3(x1l-x2l),y1'-y2}z1'l--z1l--cycle;  % stroke
 penlabels(1,2,3,4,5,6,7); enddef;

def left_angle(expr breadth) =
 pickup pencircle scaled breadth;
 x1=x3=good.x(w-u)+eps; lft x2=hround u-eps;
 top y1=h+eps; .5[y1,y3]=y2=good.y .5[-d+eps,h];
 draw z1--z2--z3;  % diagonals
 labels(1,2,3); enddef;

def right_angle(expr breadth) =
 pickup pencircle scaled breadth;
 x1=x3=good.x u-eps; rt x2=hround(w-u)+eps;
 top y1=h+eps; .5[y1,y3]=y2=good.y .5[-d+eps,h];
 draw z1--z2--z3;  % diagonals
 labels(1,2,3); enddef;

def big_slash(expr breadth) =
 adjust_fit(-letter_fit#,-letter_fit#); pickup pencircle scaled breadth;
 rt x1=hround(w-u); lft x2=hround u; top y1=h+eps; bot y2=1-d-eps;
 draw z1--z2;  % diagonal
 labels(1,2); enddef;

def big_blash(expr breadth) =
 adjust_fit(-letter_fit#,-letter_fit#); pickup pencircle scaled breadth;
 lft x1=hround u; rt x2=hround(w-u); top y1=h+eps; bot y2=1-d-eps;
 draw z1--z2;  % diagonal
 labels(1,2); enddef;

def big_sqrt =
 adjust_fit(0,-letter_fit#); pickup rule.nib;
 x1=good.x 4/9w; x2=good.x(w+.5); bot y1=-d; bot y2=0;
 draw z1--z2;  % diagonal
 pickup crisp.nib; pos3(max(curve,rule_thickness),0);
 x3l=1.5[x2,x1]; y3=.5[y1,y2];
 pos4(rule_thickness,0); x4=x1; bot y4=-d;
 pos5(vair,-45); x5l=good.x(x3l-u); z5l=whatever[z3r,z2];
 z6=z5r+whatever*(z2-z3r)=whatever[z3l,z4l];
 z7=whatever[z1,z2]=z3r+whatever*(z4l-z3l);
 filldraw z5r--z6--z4l--z4--z7--z3r--z5l--cycle;  % left diagonal and serif
 penlabels(1,2,3,4,5,6,7); enddef;

def big_hat =
 adjust_fit(0,0);
 pickup crisp.nib; pos2(.6[vair,curve],90); top y2r=h+o; x2=.5w;
 x1=w-x3=good.x -eps; y1=y3=.5[x_height,y2];
 pos1(hair,angle(z2-z1)+90); pos3(hair,angle(z3-z2)+90);
 filldraw stroke z1e--z2e--z3e;  % diagonals
 penlabels(1,2,3); enddef;

def big_tilde =
 adjust_fit(0,0); pickup crisp.nib;
 numeric theta; theta=angle(1/6(w-vair),1/4(h-x_height));
 numeric mid_width; mid_width=.4[vair,stem];
 pos1(vair,theta+90); pos2(vair,theta+90);
 pos3(vair,theta+90); pos4(vair,theta+90);
 z2-z1=z4-z3=(mid_width-crisp)*dir theta;
 lft x1r=w-rt x4l=0; top y4r=h;
 bot y1l=vround(bot y1l+min(2/3[x_height,h],y3l-.25vair)-top y1r);
 pair delta; ypart delta=3(y3l-y1l); delta=whatever*dir theta;
 filldraw z1l..controls(z1l+delta)and(z3l-delta)..z3l..z4l
  --z4r..controls(z4r-delta)and(z2r+delta)..z2r..z1r--cycle;  % stroke
 penlabels(1,2,3,4); enddef;

def beginarithchar(expr c) = % ensure consistent dimensions for $+$, $-$, etc.
 if monospace: beginchar(c,14u#,27/7u#+math_axis#,27/7u#-math_axis#);
 else: beginchar(c,14u#,6u#+math_axis#,6u#-math_axis#); fi
 italcorr math_axis#*slant-.5u#;
 adjust_fit(0,0); enddef;

newinternal l,r,shrink_fit; % adjustments to spacing

def do_expansion(expr expansion_factor) =
 forsuffixes $=u,jut,cap_jut,beak_jut,apex_corr:
   $:=$.#*expansion_factor*hppp; endfor
enddef;

def normal_adjust_fit(expr left_adjustment,right_adjustment) =
 numeric charwd_in; charwd_in=charwd;
 l:=-hround(left_adjustment*hppp)-letter_fit;
 interim xoffset:=-l;
 charwd:=charwd+2letter_fit#+left_adjustment+right_adjustment;
 r:=l+hround(charwd*hppp)-shrink_fit;
 w:=r-hround(right_adjustment*hppp)-letter_fit;
 do_expansion(w/(charwd_in*hppp));
 enddef;

def mono_adjust_fit(expr left_adjustment,right_adjustment) =
 numeric charwd_in; charwd_in=charwd;
 numeric expansion_factor;
 mono_charwd#=2letter_fit#
   +expansion_factor*(charwd+left_adjustment+right_adjustment);
 l:=-hround(left_adjustment*expansion_factor*hppp)-letter_fit;
 interim xoffset:=-l;
 r:=l+mono_charwd-shrink_fit;
 w:=r-hround(right_adjustment*expansion_factor*hppp)-letter_fit;
 charwd:=mono_charwd#; charic:=mono_charic#;
 do_expansion(w/(charwd_in*hppp));
 enddef;

extra_endchar:=extra_endchar&"r:=r+shrink_fit;w:=r-l;";

def ignore_math_fit(expr left_adjustment,right_adjustment) = enddef;
def do_math_fit(expr left_adjustment,right_adjustment) =
 l:=l-hround(left_adjustment*hppp); interim xoffset:=-l;
 charwd:=charwd+left_adjustment+right_adjustment;
 r:=l+hround(charwd*hppp)-shrink_fit;
 charic:=charic-right_adjustment;
 if charic<0: charic:=0; fi enddef;
def zero_width = charwd:=0; r:=l-shrink_fit enddef;
def change_width = if not monospace: % change width by $\pm1$
 if r+shrink_fit-l=floor(charwd*hppp): w:=w+1; r:=r+1;
 else: w:=w-1; r:=r-1; fi fi enddef;
def center_on(expr x) = if not monospace: % change width for symmetric fit
 r:=r+2x-w; w:=2x; fi enddef;
def padded expr del_sharp =
 charht:=charht+del_sharp; chardp:=chardp+del_sharp enddef;

def font_setup =
 if monospace: let adjust_fit=mono_adjust_fit;
  def mfudged=fudged enddef;
  mono_charic#:=body_height#*slant;
  if mono_charic#<0: mono_charic#:=0; fi
  mono_charwd#:=9u#; define_whole_pixels(mono_charwd);
 else: let adjust_fit=normal_adjust_fit;
  def mfudged= enddef; fi
 if math_fitting: let math_fit=do_math_fit
 else: let math_fit=ignore_math_fit fi;
 define_pixels(u,width_adj,serif_fit,cap_serif_fit,jut,cap_jut,beak,
  bar_height,dish,bracket,beak_jut,stem_corr,vair_corr,apex_corr);
 define_blacker_pixels(notch_cut,cap_notch_cut);
 forsuffixes $=notch_cut,cap_notch_cut: if $<3: $:=3; fi endfor
 define_whole_pixels(letter_fit,fine,crisp,tiny);
 define_whole_vertical_pixels(body_height,asc_height,
  cap_height,fig_height,x_height,comma_depth,desc_depth,serif_drop);
 define_whole_blacker_pixels(thin_join,hair,stem,curve,flare,
  dot_size,cap_hair,cap_stem,cap_curve);
 define_whole_vertical_blacker_pixels(vair,bar,slab,cap_bar,cap_band);
 define_corrected_pixels(o,apex_o);
 forsuffixes $=hair,stem,cap_stem:
  fudged$.#:=fudge*$.#; fudged$:=hround(fudged$.#*hppp+blacker);
  forever: exitif fudged$>.9fudge*$; fudged$:=fudged$+1; endfor endfor
 rule_thickness:=ceiling(rule_thickness#*hppp);
 heavy_rule_thickness:=ceiling(3rule_thickness#*hppp);
 oo:=vround(.5o#*hppp*o_correction)+eps;
 apex_oo:=vround(.5apex_o#*hppp*o_correction)+eps;
 lowres_fix(stem,curve,flare) 1.3;
 lowres_fix(stem,curve) 1.2;
 lowres_fix(cap_stem,cap_curve) 1.2;
 lowres_fix(hair,cap_hair) 1.2;
 lowres_fix(cap_band,cap_bar,bar,slab) 1.2;
 stem':=hround(stem-stem_corr); cap_stem':=hround(cap_stem-stem_corr);
 vair':=vround(vair+vair_corr);
 vstem:=vround .8[vair,stem]; cap_vstem:=vround .8[vair,cap_stem];
 ess:=(ess#/stem#)*stem; cap_ess:=(cap_ess#/cap_stem#)*cap_stem;
 dw:=(curve#-stem#)*hppp; bold:=curve#*hppp+blacker;
 dh#:=.6designsize;
 stem_shift#:=if serifs: 2stem_corr# else: 0 fi;
 more_super:=max(superness,sqrt .77superness);
 hein_super:=max(superness,sqrt .81225258superness); % that's $2^{-.3}$
 clear_pen_memory;
 if fine=0: fine:=1; fi
 forsuffixes $=fine,crisp,tiny:
%%% fine $ %%%% temporary formatting convention for MFT
  if $>fudged.hair: $:=fudged.hair; fi
  $.breadth:=$;
  pickup if $=0: nullpen else: pencircle scaled $; $:=$-eps fi;
  $.nib:=savepen; breadth_[$.nib]:=$;
  forsuffixes $$=lft,rt,top,bot: shiftdef($.$$,$$ 0); endfor endfor
%%% @ $ %%%% restore ordinary formatting for $
 min_Vround:=max(fine.breadth,crisp.breadth,tiny.breadth);
 if min_Vround<vround min_Vround: min_Vround:=vround min_Vround; fi
 if flare<vround flare: flare:=vround flare; fi
 forsuffixes $=vair,bar,slab,cap_bar,cap_band,vair',vstem,cap_vstem,bold:
  if $<min_Vround: $:=min_Vround; fi endfor
 pickup pencircle scaled rule_thickness; rule.nib:=savepen;
 math_axis:=good.y(math_axis#*hppp);
 pickup pencircle scaled if hefty:(.6[vair,fudged.hair]) else:fudged.hair fi;
 light_rule.nib:=savepen;
 pickup pencircle xscaled cap_curve yscaled cap_hair rotated 30;
 cal.nib:=savepen;
 pair cal.extension; cal.extension:=(.75cap_curve,0) rotated 30;
 pickup pencircle xscaled cap_curve yscaled cap_hair rotated 70;
 tilted.nib:=savepen;
 pickup pencircle xscaled curve yscaled cap_hair rotated 70;
 med_tilted.nib:=savepen;
 pickup pencircle xscaled cap_stem yscaled cap_hair rotated 30;
 med_cal.nib:=savepen;
 pickup pencircle xscaled stem yscaled cap_hair rotated 30;
 light_cal.nib:=savepen;
 pickup pencircle xscaled(cap_curve+dw) yscaled cap_hair rotated 30;
 heavy_cal.nib:=savepen;
 bot_flourish_line:=-.5u-o;
 pair bend; bend=(.5u,0);
 pair flourish_change; flourish_change=(4u,.2asc_height);
 join_radius:=u;
 currenttransform:=identity slanted slant
  yscaled aspect_ratio scaled granularity;
 if currenttransform=identity: let t_=relax
 else: def t_ = transformed currenttransform enddef fi;
 numeric paren_depth#; .5[body_height#,-paren_depth#]=math_axis#;
 numeric asc_depth#; .5[asc_height#,-asc_depth#]=math_axis#;
 body_depth:=desc_depth+body_height-asc_height;
 shrink_fit:=1+hround(2letter_fit#*hppp)-2letter_fit;
 if not string mode: if mode<=smoke: shrink_fit:=0; fi fi
 enddef;

def shiftdef(suffix $)(expr delta) =
 vardef $ primary x = x+delta enddef enddef;

def makebox(text rule) =
 for y=0,asc_height,body_height,x_height,bar_height,-desc_depth,-body_depth:
  rule((l,y)t_,(r,y)t_); endfor % horizontals
 for x=l,r:   rule((x,-body_depth)t_,(x,body_height)t_); endfor % verticals
 for x=u*(1+floor(l/u)) step u until r-1:
  rule((x,-body_depth)t_,(x,body_height)t_); endfor % more verticals
 if charic<>0:
  rule((r+charic*pt,h.o_),(r+charic*pt,.5h.o_)); fi % italic correction
 enddef;
def maketicks(text rule) =
 for y=0,h.o_,-d.o_:
  rule((l,y),(l+10,y)); rule((r-10,y),(r,y)); endfor % horizontals
 for x=l,r:
  rule((x,10-d.o_),(x,-d.o_)); rule((x,h.o_-10),(x,h.o_)); endfor % verticals
 if charic<>0:
  rule((r+charic*pt,h.o_-10),(r+charic*pt,h.o_)); fi % italic correction
 enddef;
rulepen:=pensquare;

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

vardef circ_stroke text t =
 forsuffixes e = l,r: path_.e:=t; endfor
 if cycle path_.l:
  errmessage "Beware: `stroke' isn't intended for cycles"; fi
 path_.l -- reverse path_.r .. cycle enddef;

vardef super_arc.r(suffix $,$$) = % outside of super-ellipse
 pair center,corner;
 if y$=y$r: center=(x$$r,y$r); corner=(x$r,y$$r);
 else: center=(x$r,y$$r); corner=(x$$r,y$r); fi
 z$.r{corner-z$.r}...superness[center,corner]{z$$.r-z$.r}
  ...{z$$.r-corner}z$$.r enddef;

vardef super_arc.l(suffix $,$$) = % inside of super-ellipse
 pair center,corner;
 if y$=y$r: center=(x$$l,y$l); corner=(x$l,y$$l);
 else: center=(x$l,y$$l); corner=(x$$l,y$l); fi
 z$l{corner-z$l}...superness[center,corner]{z$$l-z$l}
  ...{z$$l-corner}z$$l enddef;

vardef pulled_super_arc.r(suffix $,$$)(expr superpull) =
 pair center,corner;
 if y$=y$r: center=(x$$r,y$r); corner=(x$r,y$$r);
 else: center=(x$r,y$$r); corner=(x$$r,y$r); fi
 z$r{corner-z$r}...superness[center,corner]{z$$r-z$r}
  ...{z$$r-corner}z$$r enddef;

vardef pulled_super_arc.l(suffix $,$$)(expr superpull) =
 pair center,corner,outer_point;
 if y$=y$r: center=(x$$l,y$l); corner=(x$l,y$$l);
  outer_point=superness[(x$$r,y$r),(x$r,y$$r)];
 else: center=(x$l,y$$l); corner=(x$$l,y$l);
  outer_point=superness[(x$r,y$$r),(x$$r,y$r)]; fi
 z$l{corner-z$l}
  ...superpull[superness[center,corner],outer_point]{z$$l-z$l}
  ...{z$$l-corner}z$$l enddef;

vardef pulled_arc@#(suffix $,$$) =
 pulled_super_arc@#($,$$)(superpull) enddef;

vardef serif_arc(suffix $,$$) =
 z${x$$-x$,0}...(.75[x$,x$$],.25[y$,y$$]){z$$-z$}...{0,y$$-y$}z$$ enddef;

vardef penpos@#(expr b,d) =
 if known b: if b<=0: errmessage "bad penpos"; fi fi
 (x@#r-x@#l,y@#r-y@#l)=(b,0) rotated d;
 x@#=.5(x@#l+x@#r); y@#=.5(y@#l+y@#r) enddef;

newinternal currentbreadth;
vardef pos@#(expr b,d) =
 if known b: if b<=currentbreadth: errmessage "bad pos"; fi fi
 (x@#r-x@#l,y@#r-y@#l)=(b-currentbreadth,0) rotated d;
 x@#=.5(x@#l+x@#r); y@#=.5(y@#l+y@#r) enddef;
def numeric_pickup_ primary q =
 currentpen:=pen_[q];
 pen_lft:=pen_lft_[q];  pen_rt:=pen_rt_[q];
 pen_top:=pen_top_[q];  pen_bot:=pen_bot_[q];
 currentpen_path:=pen_path_[q];
 if known breadth_[q]: currentbreadth:=breadth_[q]; fi enddef;

vardef ic# = charic enddef;
vardef h# = charht enddef;
vardef w# = charwd enddef;
vardef d# = chardp enddef;

let {{=begingroup; let }}=endgroup;
def .... = .. tension atleast .9 .. enddef;
def less_tense = save ...; let ...=.... enddef;
def ?? = hide(showvariable x,y) enddef;

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; inner cmchar; let ;=fix_ semi_ if false enddef;
def fix_=let ;=semi_; let endchar=endchar_; outer cmchar; enddef;
def always_iff = let : = endgroup; killboolean enddef;
def killboolean text t = use_it enddef;
outer cmchar;

Bell Labs OSI certified Powered by Plan 9

(Return to Plan 9 Home Page)

Copyright © 2021 Plan 9 Foundation. All Rights Reserved.
Comments to [email protected].