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

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


%*****************************************************************************
%        Copyright (c) 1989 by N. N. Billawala
%*****************************************************************************


% greeku.mf  uppercase Greek characters not coinciding with uppercase roman

% 11 characters; iff OK "g": for testing


iff OK "g":  "The uppercase Greek Gamma"; 
  beginchar(0,E_w*width#+b_mono#,cap#,0);

  top lft z11l=(0,h)//;       multpos(11,14)(stem.uc,0);
  bot lft z14l=(0,0);        
  onaline(11l,14l)(12l,13l);  y13l=y13r=cap_bracket_h;
  onaline(11r,14r)(1,13r);    y12l=max(h-cap_bracket_h,y13l);
  top y2r=h; 
  top rt z3=(w,h)//;
  bot y1=bot y2l=top y2r-max(1,.95thin_stem.uc);
  z0=z1-(0*stem.uc,0);
  good_x_for(2l)(z1,z3,.6)a;  good_x_for(2r)(z1,z3,.6)b;                

  p1=(leftserif(z11,z14,z12l,z11r,.5hs)--
      fullserif(z14,z11,z13l,z13r,.5hs,.75hs)
        if softpath:--z1)softjoin(z1...
         else:...(z0-(0,eps)){left}--z0{right}... fi
      arm.tr(z3,z2l,z2r,.5as,.75tip_thickness,90+arm_angle))--cycle;

  showpoints(0,1,2,3,11,12,13,14);
adjust(v_A*fitbasis.uc#+m_f*b_mfit#,v_I*fitbasis.uc#+m_ff*b_mfit#); 
show_character; endchar;



iff OK "g":  "The uppercase Greek Delta";
  beginchar(1,O_w*width#+e_mono#,cap#,0);
  min_limit(join_radius)(.5apex.uc);

  bot lft z21l=(0,0);         multpos(21,22)(apex.uc,90-apex_angle);
  bot rt z22l=(w,0);
  top z23=(.5[x21,x22],h)//;  pos23(apex.uc,0-apex_angle);
  z1l=z23l; z2l=z21r; z3l=z21l; z4l=z22l; z5r=z22r; z6r=z23r;
  multpos(1,2)(thin_stem.uc,constant_angle(z23l,z21r,0));
  multpos(3,4)(major_curve.uc,90);
  multpos(5,6)(stem.uc,constant_angle(z23r,z22r,0));
  onaline(1r,2r)(41,43,51,52);  
  onaline(3r,4r)(41,42,53,54);     
  onaline(5l,6l)(42,43,55,56);
  y51=y56=max(notch_pos,.5)[y43,y41]; 
  y52=y55=max(notch_pos,.5)[y41,y43]; 
  x53=max(notch_pos,.5)[x41,x42]; x54=max(notch_pos,.5)[x42,x41];

  p1=(.5[z23l,z21r] soften(z21r,z21l,z22l,z22r,z23r,z23l) .5[z23l,z21r])--cycle;
  p1'=leftnotch((z52--z41--z53),angle(z21-z41),notch_length.uc)--
      rightnotch((z54--z42--z55),angle(z22-z42),notch_length.uc)--
      upnotch((z56--z43--z51),angle(z23-z43),notch_length.uc)--cycle;

  showpoints(1,2,3,4,5,6,21,22,23,41,42,43,51,52,53,54,55,56);
adjust(v_E*fitbasis.uc#+m_a*e_mfit#,v_D*fitbasis.uc#+m_a*e_mfit#); 
show_character; endchar;



iff OK "g":  "The uppercase Greek Theta";
  beginchar(2,O_w*width#+d_mono#,cap#,0);
     
  top z1=(h_stress*w,h+ov_t.uc)//;                                   % circle 
  lft z2=(0,(1-v_stress)*h)//;
  bot z3=((1-h_stress)*w,-ov_b.uc)//;  
  rt z4=(w,v_stress*h)//;      

  z10=(.5w,round(.52h))//;  pos10(round max(1,.75stem.uc),0);        % bar
  z13=(0,.35*(abs(x4-x2)-2bowlstem.uc));
  top z11=(z10+z13);
  bot z12=(z10-z13);
  ref1=fullserif(z11,z10,z10l,z10r,.2hs,.2hs)--
       fullserif(z12,z10,z10l,z10r,.2hs,.2hs)--cycle;

  p1=ref1 rotatedaround(z10,90);                                     % bar
  circular_shape(y1,y3,x2,x4,minor_curve.uc,bowlstem.uc);            % circle
 
 showpoints(1,2,3,4,10,11,12,13);
adjust(v_C*fitbasis.uc#+m_a*d_mfit#,v_C*fitbasis.uc#+m_a*d_mfit#); 
show_character; endchar;

% Only y1/y3 and x2/x4 values actually used; the points are put in for proofs


iff OK "g":  "The uppercase Greek Lambda";
  beginchar(3,A_w*width#+e_mono#,cap#,0);

  min_limit(join_radius)(.5apex.uc);
  top z20=(.5w,h+ov_apex.uc)//; pos20(apex.uc,0-apex_angle);
  bot y3=0; z3l=whatever[z20l,(0,0)];
  bot y6=0; z6r=whatever[z20r,(w,0)];
  z20l=z1l; z20r=z4r;
  multpos(1,3)(thin_stem.uc,constant_angle(z20l,(0,0),0));
  multpos(4,6)(stem.uc,constant_angle(z20r,(w,0),0));

  onaline(1l,3l)(2l);          
  onaline(1r,3r)(2r,40);
  onaline(4l,6l)(5l,40);  y2l=y2r=y5l=y5r=min(cap_bracket_h,y40); 
  onaline(4r,6r)(5r);     
  ref1=notch_pos[z40,z5l]--z40--notch_pos[z40,z2r];

  p1 =(fullserif.l(z3,z1,z2l,z2r,.5hs,.5hs)--
       upnotch.r(ref1,angle(z20-z40),notch_length.uc)--
       fullserif.r(z6,z4,z5l,z5r,.5hs,.5hs) soften(z20r,z20l) z2l)--cycle;

  showpoints(1,2,3,4,5,6,20,40);
adjust(v_E*fitbasis.uc#+m_a*e_mfit#,v_D*fitbasis.uc#+m_a*e_mfit#); 
show_character; endchar;


iff OK "g":  "The uppercase Greek Xi"; 
  beginchar(4,R_w*width#+d_mono#,cap#,0);

  top lft z1=(.02w,h)//;                                          % top arm
  top rt z4=(.98w,h)//; 
  onaline(1,4)(2r,3r); x2r=.25[x1,x4]; x3r=.75[x1,x4];
  bot lft z5=(0,0);                                               % bottom arm
  bot rt z8=(w,0); 
  onaline(5,8)(6l,7l); x6l=.25[x5,x8]; x7l=.75[x5,x8];
  multpos(2,3,6,7)(max(1,.9stem.uc),90-oblique);  

  z10=(.5w,round(.52h))//;  pos10(max(1,.9stem.uc),0);            % middle arm
  z11=z10+(0,.35*abs(x4-x1)); 
  z12=z10-(0,.35*abs(x4-x1));
  ref1=fullserif(z11,z10,z10l,z10r,.2hs,.2hs)--
       fullserif(z12,z10,z10l,z10r,.2hs,.2hs)--cycle;

  p1=arm.tl(z1,z2l,z2r,.5as,.75tip_thickness,90-arm_angle)--      % top arm
     arm.tr(z4,z3l,z3r,.5as,.75tip_thickness,90+arm_angle)--cycle;
  p2=arm.bl(z5,z6r,z6l,.5as,.75tip_thickness,90+arm_angle)--      % bottom arm
     arm.br(z8,z7r,z7l,.5as,.75tip_thickness,90-arm_angle)--cycle;
  p3=ref1 rotatedaround(z10,90);                                  % middle arm

 showpoints(1,2,3,4,5,6,7,8,10,11,12);
adjust(v_F*fitbasis.uc#+m_a*b_mfit#,v_F*fitbasis.uc#+m_a*b_mfit#); 
show_character; endchar;


iff OK "g":  "The uppercase Greek Pi"; 
  beginchar(5,R_w*width#+b_mono#,cap#,0);

  top lft z1l=(0,h)//;        multpos(1,4,11,14)(stem.uc,0);
  bot lft z4l=(0,0);         
  top rt z11r=(w,h)//;
  bot rt z14r=(w,0);
  onaline(1l,4l)(2l,3l);      y3l=y3r=y13l=y13r=cap_bracket_h;   
  onaline(1r,4r)(2r,3r); 
  onaline(11r,14r)(12r,13r);  y2r=y12l=h-max(1,.7thin_stem.uc);
  onaline(11l,14l)(12l,13l);  y2l=y12r=max(h-cap_bracket_h,y3l);

  p1=(fullserif(z4,z1,z3l,z3r,.5hs,.75hs)--z2r 
        if softpath:)softjoin(z2r--z12l)softjoin( else:-- fi z12l--
      fullserif(z14,z11,z13l,z13r,.5hs,.75hs)--
      rightserif(z11,z14,z12l,z12r,.625hs)--
      leftserif(z1,z4,z2l,z2r,.625hs))--cycle;

  showpoints(1,2,3,4,11,12,13,14);
adjust(v_A*fitbasis.uc#+m_a*b_mfit#,v_A*fitbasis.uc#+m_a*b_mfit#); 
show_character; endchar;




iff OK "g":  "The uppercase Greek Sigma"; 
  beginchar(6,R_w*width#+b_mono#,cap#,0);

  save_bool(nonotch):=if(cap<40):true else:false fi;      % if real low res
  min_limit(join_radius)(.5apex.uc);
  bot lft z1l=(0,0);      multpos(1,3)(max(1,.75stem.uc),90);
  bot rt z3l=(w,0);
  top lft z10r=(0,h)//;   multpos(10,12)(max(1,.95thin_stem.uc),90);
  top rt z12r=(.95w,h)//;
  lft z21l=(0,0);         multpos(21,23)(apex.uc,90-apex_angle);
  lft z23r=(0,h)//;       pos22(max(1,.5apex.uc),90-apex_angle);
  z22=(.75[x1l,x3l],.52h)//;

  z4l=z21r; z6r=z22l; z9r=z22r; z7l=z23l; 
  multpos(4,6)(thin_stem.uc,constant_angle(z22l,z21r,0));     
  multpos(7,9)(stem.uc,constant_angle(z23l,z22r,0));       

  onaline(1r,3r)(2r,41);    onaline(1l,3l)(2l);     x2l=.5[x1l,x3l];  
  onaline(4l,6l)(5l,42);    onaline(4r,6r)(5r,41); 
  onaline(7l,9l)(8l,42);    onaline(7r,9r)(8r,43); 
  onaline(10l,12l)(11l,43); onaline(10r,12r)(11r); 
  y5l=notch_pos[y42,y4l]; y5r=notch_pos[y41,y22l];
  y8l=notch_pos[y42,y7l]; y8r=notch_pos[y43,y22r];
  good_x_for(2r)(z41,z3r,.5)a;                     
  x11r=.5[x10r,x12r];  good_x_for(11l)(z43,z12r,.5)b; 
  ref1=z5r--z41--z2r; ref2=z11l--z43--z8r; ref3=z5l--z42--z8l;

  p1=(arm.br(z3l,z2r,z2l,.5as,.75tip_thickness,90-arm_angle)soft--
     leftnotch.r(ref1,angle(z21-z41),notch_length.uc)etchdown
     --z22l if softpath:)softjoin(z22l--z22r)--( else:-- fi z22r--     
     leftnotch.r(ref2,angle(z23-z43),notch_length.uc)etchdown
     --arm.tr(z12r,z11l,z11r,.4as,.75tip_thickness,90+arm_angle)soft--
     z23r if softpath:)softjoin(z23r--z23l)--( else:-- fi z23l--
     rightnotch.r(ref3,angle(z22-z42),notch_length.uc)--
     z21r if softpath:)softjoin(z21r--z21l)--( else:-- fi z21l--z2l)--cycle;

  showpoints(1,2,3,4,5,6,7,8,9,10,11,12,21,22,23,41,42,43);
adjust(v_G*fitbasis.uc#+m_b*b_mfit#,v_H*fitbasis.uc#+m_bb*b_mfit#); 
show_character;endchar;

iff OK "g":  "The uppercase Greek Upsilon"; 
  beginchar(7,O_w*width#+f_mono#,cap#,0);
 
  save_pairs(dir_limit);
  bot z40=(.5w,0); pos40(stem.uc,0);
  bot y14=0; lft x14l=round x40l; multpos(11,14)(stem.uc,0);
  w:=2*x14l+stem.uc; 
  top z11=(x14,.65h)//;
  onaline(11l,14l)(13l);  y13l=y13r=min(cap_bracket_h,y11);
  onaline(11r,14r)(13r); 
                         
  z1r=(0,.85h)//;  pos1(max(1,.5major_curve.uc),90-oblique);
  z4r=(w,.85h)//;  pos4(max(1,.5major_curve.uc),90-oblique);
  good_x_for(2r)(z1r,z11l,.5)a; top y2r=h; 
  good_x_for(2l)(z1l,z11l,.5)c; y2l=y5l=y2r-major_curve.uc;
  good_x_for(5r)(z11r,z4r,.5)b; top y5r=h; 
  good_x_for(5l)(z11r,z4l,.5)d;  

  dir_limit1=if abs(y5l-y4l)>abs(x5l-x4l):downward else:(0,0) fi;
  dir_limit2=if abs(y5r-y4r)>abs(x5r-x4r):downward else:(0,0) fi;

  p1=fullserif(z14,z11,z13l,z13r,.75hs,.75hs)...z11r{upward}...z5l{right}...
     {dir_limit1}z4l--z4r{-dir_limit2}...z5r{left}...{downward}z11+(eps,0)--
     z11{upward}...z2r{left}...{dir_limit2}z1r--
     z1l{-dir_limit1}...z2l{right}...z11l{downward}...cycle;

  showpoints(1,2,4,5,11,12,13,14,40);
adjust(v_H*fitbasis.uc#+m_a*f_mfit#,v_H*fitbasis.uc#+m_a*f_mfit#); 
show_character; endchar;



iff OK "g":  "The uppercase Greek Phi"; 
  beginchar(8,O_w*width#+e_mono#,cap#,0); 

  save_num(stem_thickness)=round(if narrow_condition:
    narrow_amt[thin_stem.uc,stem.uc] else:max(1,.8stem.uc) fi);
  bot z40=(.5w,0); multpos(11,14,40)(stem_thickness,0);                % stem
  z14l=round z40l; 
  w:=2*x14l+stem_thickness; 
  top z11=(x14,h)//;
  onaline(11l,14l)(13l,12l,1l,1r,3l,3r); 
  onaline(11r,14r)(13r,12r,4l,4r,6l,6r); 
  y13l=y13r=.5cap_bracket_h;
  y12l=y12r=max(h-.5cap_bracket_h,y13l);
  top y1r=.85[y14+serif_thickness,y11-serif_thickness];
  y6r=y1r; bot y1l=top y1r-max(1,.9minor_curve.uc); y6l=y1l;
  bot y3r=.15[y14+serif_thickness,y11-serif_thickness];
  y4r=y3r; top y3l=bot y3r+max(1,.9minor_curve.uc); y4l=y3l;
  lft z2r=(0,(1-v_stress)*h)//; 
  pos2(bowlstem.uc,180);
  rt z5r=(w,v_stress*h)//; 
  pos5(bowlstem.uc,0);

  p1 =fullserif(z11,z14,z12l,z12r,.75hs,.75hs)--                       % stem
      fullserif(z14,z11,z13l,z13r,.75hs,.75hs)--cycle;
  p2 =z1r{left} o_t z2r{downward} o_t z3r{right} o_t z4r{right} o_t 
      z5r{upward} o_t z6r{left} o_t cycle;
  p1'=z1l{left} i_t z2l{downward} i_t z3l{right} i_t z4l{right} i_t 
      z5l{upward} i_t z6l{left} i_t cycle;

  showpoints(1,2,3,4,5,6,11,12,13,14);
adjust(v_G*fitbasis.uc#+m_a*b_mfit#,v_G*fitbasis.uc#+m_a*b_mfit#); 
show_character; endchar;

% Only y1/y3 and x2/x4 values actually used; the points are put in for proofs


iff OK "g":  "The uppercase Greek Psi"; 
  beginchar(9,O_w*width#+f_mono#,cap#,0);

  save_num(stem_thickness)=if narrow_condition:
    narrow_amt[thin_stem.uc,stem.uc] else:max(1,.8stem.uc) fi; 
  bot z40=(.5w,0); multpos(11,14,40)(stem_thickness,0);                % stem
  z14l=round z40l; 
  w:=2*x14l+stem_thickness; 
  top z11=(x14,h)//;
  save_num(ht)=round(y11-y14-serif_thickness);   % length of stem between serifs
  onaline(11l,14l)(13l,12l);  y13l=y13r=cap_bracket_h;
  onaline(11r,14r)(13r,12r);  y12l=y12r=max(h-cap_bracket_h,y13l);
  onaline(11,14)(3l,3r);
                                                                       % lute
  lft z2l=(.05w,.5ht)//;
  multpos(2,4)(if narrow_condition:narrow_amt else:.8 fi
                  [thin_stem.uc,bowlstem.uc],0);
  rt z4r=(.95w,y2l)//;  
  multpos(0,1,5,6)(if narrow_condition:narrow_amt else:.7fi
                      [thin_stem.uc,bowlstem.uc],0);
  rt z0r=(abs(x2r-x2l),.85ht)//; 
  lft z6l=(w-abs(x2r-x2l),y0l)//;  
  z1r=.75[z2r,z0r-(0,tip_thickness)];     
  z5l=.75[z4l,z6l-(0,tip_thickness)];
  bot y3r=serif_thickness+.2ht;
  top y3l=bot y3r+thin_stem.uc;  

  p1=terminalserif.l(z0,z1,z1l,z1r,.5ts,0)soft...                      % lute
     z2l o_t z3r{right} o_t z4r...
     terminalserif.r(z6,z5,z5l,z5r,.5ts,0)soft...
     z4l i_t z3l{left} i_t z2r...cycle;
  p2=fullserif(z11,z14,z12l,z12r,.75hs,.75hs)--                        % stem
     fullserif(z14,z11,z13l,z13r,.75hs,.75hs)--cycle;

  showpoints(0,1,2,3,4,5,6,11,12,13,14);
adjust(v_G*fitbasis.uc#+m_a*f_mfit#,v_G*fitbasis.uc#+m_a*f_mfit#); 
show_character; endchar;



iff OK "g":  "The uppercase Greek Omega";
  beginchar(10,O_w*width#+d_mono#,cap#,0);
  twotension:=3;
  
  bot lft z1=(0,0);                    bot rt z11=(w,0);
  bot y2l=top y2r-max(1,.8stem.uc)=0;  bot y12l=top y12r-max(1,.8stem.uc)=0;
   good_x_for(2l)(z1,z3l,.5)a;          good_x_for(12l)(z11,z13l,.5)b; 
   good_x_for(2r)(z1,z4,.75)c;           good_x_for(12r)(z11,z14,.75)d;
  bot z3l=(.4w,0);                     bot z13l=(.6w,0);
  z3r=z3l+(0,min(2apex.uc,stem.uc))//; z13r=z13l+(0,min(2apex.uc,stem.uc))//;
  z3=.5[z3l,z3r];                      z13=.5[z13l,z13r];   
  lft z5r=(0,.55h)//;                  rt z15r=(w,.55h)//;
  pos5(bowlstem.uc,180);               pos15(bowlstem.uc,0);
  top y10r=bot y10l+minor_curve.uc=h+ov_t.uc; 
  good_x_for(10r)(z5r,z15r,.53)e;     
  good_x_for(10l)(z5l,z15l,.47)f;     
  z10=.5[z10l,z10r]; save_num(amt)=.5*abs(y10r-y10l);    
  x10r:=inlimit(x10r)(x10-amt,x10+amt);
  x10l:=inlimit(x10l)(x10-amt,x10+amt); 

  ref1=z10r{left}...z5r{downward}..tension atleast 1 and twotension..z3;
  ref2=z13..tension atleast twotension and 1..z15r{upward}...z10r{left};
  ref3=(-1,y2r)//--(w,y2r)//;
  ref4=z3r..tension atleast twotension and 1..z5l{upward} i_t z10l{right} i_t 
       z15l{downward}..tension atleast 1 and twotension..z13r; 
 
  z4 =ref3 intersectionpoint ref1;      
  z14=ref3 intersectionpoint ref2;      
  (t1,t2)=ref3 intersectiontimes ref1;  
  (t3,t4)=ref3 intersectiontimes ref2;  

  p1=(arm.bl(z1,z2r,z2l,.5as,.5tip_thickness,90+arm_angle+.5oblique)soft
     soften(z3l,z3r) ref4 soften(z13r,z13l)
     arm.br(z11,z12r,z12l,.5as,.5tip_thickness,90-arm_angle+.5oblique)soft--
     z14--subpath(t4,infinity)of ref2--subpath(0,t2)of ref1--z4)--cycle;

  showpoints(1,2,3,4,5,10,11,12,13,14,15);
adjust(.5num_fit_b#+m_a*d_mfit#,.5num_fit_b#+m_a*d_mfit#); 
show_character; endchar;


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