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%% sgbx0011.mp
%% Copyright 2006 Tommy Ekola <tek@kth.se>
%
% This work may be distributed and/or modified under the conditions of
% the LaTeX Project Public License, either version 1.3 of this license
% or (at your option) any later version.  The latest version of this
% license is in http://www.latex-project.org/lppl.txt
%
% This work has the LPPL maintenance status `maintained'.  The Current
% Maintainer of this work is Tommy Ekola.  The Base Interpreter is
% MetaPost.

vardef setup_twowaydoublearrow (expr source_file, cmdname) =

  scantokens ("input tgbx0000");

  scantokens ("input " & source_file);

  expandafter def scantokens cmdname expr p =
    scantokens (cmdname & "__sgbxww")(p)
  enddef;

  expandafter vardef scantokens (cmdname & "__sgbxww " & "(expr apth) " &
    "text text_ = " &

    "save math_spread, x_height, u, rule_thickness, bar, math_axis," &
    "     asc_height, eps, fudge, crisp, hair;" &

    "math_spread     :=" & decimal math_spread & ";" &
    "x_height#       :=" & decimal x_height# & ";" &
    "u#              :=" & decimal u# & ";" &
    "rule_thickness# :=" & decimal rule_thickness# & ";" &
    "bar#            :=" & decimal bar# & ";" &
    "math_axis#      :=" & decimal math_axis# & ";" &
    "asc_height#     :=" & decimal asc_height# & ";" &
    "eps             :=" & decimal eps & ";" &
    "fudge           :=" & decimal fudge & ";" &
    "crisp#          :=" & decimal crisp# & ";" &
    "hair#           :=" & decimal hair# & ";")    

    save prevpen;
    prevpen:=savepen;
  
    save x,y;
    numeric x[], x[]', x[]l, x[]'l, x[]r, x[]'r,
            y[], y[]', y[]l, y[]'l, y[]r, y[]'r;
    save spread, w;
    numeric spread, w;
  
    if crisp#>fudge*hair#:
      crisp#:=fudge*hair#;
    fi
    pickup if crisp#=0: nullpen else: pencircle scaled crisp# fi;

    spread = math_spread[.45x_height#,.55x_height#];
    w:=18u#;
  
    lft x1 = u#-eps; x2=x1; x7=x8=w-x1;
    y1=y7; y2=y8; y1-y2=spread; .5[y1,y2]=math_axis#;
  
    rt x0 = w-u#+eps; y0 = math_axis#;
    penpos3(rule_thickness#,0); penpos4(rule_thickness#,0);
    y3-y1 = y2-y4 = .24asc_height#+eps; x3=x4=x0-6u#-eps;
    penpos5(rule_thickness#, angle(z4-z0)); z5l=z0;
    penpos6(rule_thickness#, angle(z3-z0)); z6l=z0;
    z9 = .381966[.5[z3,z4],z0];
  
    save pp;
    path pp;     pp = z4l{z9-z4}..z6r;
    save t;
    numeric t;   t  = xpart(pp intersectiontimes ((0,y0)--(w,y0)));
    numeric t[]; t1 = xpart(pp intersectiontimes (  (0,y2-rule_thickness#/2)
                                                  --(w,y2-rule_thickness#/2)));
                 t2 = xpart(pp intersectiontimes (  (0,y2+rule_thickness#/2)
                                                  --(w,y2+rule_thickness#/2)));
    save qq;
    path qq;     qq = z3l{z9-z3}..z5r;
  
    save parallelline;
    vardef parallelline expr ppp =
      save s, stp;
      numeric s, stp; stp:=(arclength ppp) div 5pt;
                      if stp=0: stp:=1; fi
                      stp:=(arclength ppp)/stp;
  
      if arclength apth > 0:
      draw for s=0 step stp until arclength ppp - stp:
             point (arctime s of ppp) of ppp + 
             spread/2*(unitvector direction (arctime s of ppp) 
                                            of ppp rotated 90)
             {direction (arctime s of ppp) of ppp}..
           endfor
           {direction (length ppp) of ppp}
           point (length ppp) of ppp + 
           spread/2*(unitvector direction (length ppp) of ppp rotated 90) 
	   withpen pencircle scaled rule_thickness#
           text_;
  
      draw for s=0 step stp until arclength ppp - stp:
             point (arctime s of ppp) of ppp - 
             spread/2*(unitvector direction (arctime s of ppp) 
                                            of ppp rotated 90)
             {direction (arctime s of ppp) of ppp}..
           endfor
           {direction (length ppp) of ppp}
           point (length ppp) of ppp - 
           spread/2*(unitvector direction (length ppp) of ppp rotated 90) 
	   withpen pencircle scaled rule_thickness#
           text_;
      fi
    enddef;
  
    save mapto, n;
    vardef mapto(text t) =
      hide(numeric n; n:=0;
           numeric x,x_[],y,y_[];
           for z=t: z_[incr n]:=z; endfor;
           transform T;
           z_2 = z_1 transformed T;
           z_4 = z_3 transformed T;
           z_6 = z_5 transformed T;)
      T
    enddef;  
  
    % Draw the front arrow head

    save doublearrowhead;
    vardef doublearrowhead(expr T, s, ss) =
      (subpath(0, xpart((z0..{z4-z9}z4r) intersectiontimes
	          (point s of pp -- point s of pp + (2rule_thickness#,0))))
       of (z0..{z4-z9}z4r)
       --subpath(s,t1) of pp
       --(xpart point t1 of pp, ypart point t2 of pp)
       --subpath(t2,t) of pp
       --subpath(t,t2) of qq
       --(xpart point t1 of qq, ypart point t2 of qq)
       --subpath(t1,ss) of qq
       --subpath(xpart ((z3r{z9-z3}..z0) intersectiontimes
	         (point ss of qq -- point ss of qq + (2rule_thickness#,0))),1)
	 of (z3r{z9-z3}..z0)
       & cycle) transformed T
    enddef;
    
    save T; transform T;
    save tt; numeric tt;
    tt  = arctime (arclength apth - (x0 - xpart point t1 of pp)) of apth;

    if arclength apth = 0:
      T:=identity shifted (point (length apth) of apth - z0);
    elseif arclength apth < x0-xpart(point t2 of pp):
      T:=identity rotatedaround(z0,angle (direction (length apth) of apth))
                  shifted (point (length apth) of apth - z0);
    else:
      T := mapto(
             z0,
             point (length apth) of apth,
             point t1 of pp + (0,rule_thickness#/2),
             point tt of apth + 
                   spread/2*(unitvector direction tt of apth rotated 90),
             point t1 of qq - (0,rule_thickness#/2),
             point tt of apth - 
                   spread/2*(unitvector direction tt of apth rotated 90));
    fi

    save f,s,ss,ttt;
    ttt = arctime(arclength apth - (x0-x9)) of apth;
    vardef f(expr s) =
      length(point s of (pp transformed T) - point ttt of apth)
      < length(point 0 of pp - z9)
    enddef;

    if f(0) or (arclength apth < x0-x3l): s := 0;
    else:    s := solve f(length pp, 0);
    fi
    
    vardef f(expr ss) =
      length(point ss of (qq transformed T) - point ttt of apth)
      < length(point 0 of qq - z9)
    enddef;

    if f(0) or (arclength apth < x0-x3l): ss := 0;
    else:    ss := solve f(length qq, 0); 
    fi
    
    filldraw doublearrowhead(T,s,ss) text_;

    % Draw the back arrow head

    save ttt; numeric ttt;
    ttt = arctime (x0 - xpart point t1 of pp) of apth;

    if arclength apth = 0:
      T:=identity rotatedaround(z0, 180)
                  shifted (point (length apth) of apth - z0);
    elseif arclength apth < x0-xpart(point t2 of pp):
      T:=identity rotatedaround(z0,angle (direction 0 of apth)+180)
                  shifted (point 0 of apth - z0);
    else:
      T := mapto(
            z0,
            point 0 of apth,
            point t1 of pp + (0,rule_thickness#/2),
            point ttt of apth + 
                  spread/2*(unitvector direction ttt of apth rotated 90),
            point t1 of qq - (0,rule_thickness#/2),
            point ttt of apth - 
                  spread/2*(unitvector direction ttt of apth rotated 90));
    fi

    
    ttt := arctime(x0-x9) of apth;
    vardef f(expr s) =
      length(point s of (pp transformed T) - point ttt of apth)
      < length(point 0 of pp - z9)
    enddef;

    if f(0) or (arclength apth < x0-x3l): s := 0;
    else:    s := solve f(length pp, 0);
    fi
    
    vardef f(expr ss) =
      length(point ss of (qq transformed T) - point ttt of apth)
      < length(point 0 of qq - z9)
    enddef;

    if f(0) or (arclength apth < x0-x3l): ss := 0;
    else:    ss := solve f(length qq, 0); 
    fi
    
    filldraw doublearrowhead(T,s,ss) text_;

    % Draw the path

    if arclength apth > 2(x0-xpart(point t1 of pp)):
      parallelline (subpath(ttt,tt) of apth);
    fi
  
    pickup prevpen;

  enddef;

enddef;