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% to be cleaned up, namespace needed ! ! ! ! !

%D \module
%D   [       file=mp-char.mpii,
%D        version=1998.10.10,
%D          title=\CONTEXT\ \METAPOST\ graphics,
%D       subtitle=charts,
%D         author=Hans Hagen,
%D           date=\currentdate,
%D      copyright={PRAGMA / Hans Hagen \& Ton Otten}]
%C
%C This module is part of the \CONTEXT\ macro||package and is
%C therefore copyrighted by \PRAGMA. See licen-en.pdf for
%C details.

if unknown context_shap : input "mp-shap.mpii" ; fi ;
if   known context_flow : endinput ; fi ;

boolean context_char ; context_char := true ;

% kan naar elders

current_position := 0 ;

def save_text_position (expr p) =  % beware: clip shift needed
  current_position := current_position + 1 ;
  savedata
    "\MPposition{" & decimal current_position & "}{"
                   & decimal xpart p          & "}{"
                   & decimal ypart p          & "}%" ;
enddef ;

%D settings

grid_width   := 60pt ; grid_height  := 40pt ;
shape_width  := 45pt ; shape_height := 30pt ;

chart_offset :=  2pt ;
color chart_background_color ; chart_background_color := white ;

%D test mode

boolean show_mid_points ; show_mid_points := false ;
boolean show_con_points ; show_con_points := false ;
boolean show_all_points ; show_all_points := false ;

%D shapes

color shape_line_color, shape_fill_color ;

shape_line_width := 2pt ;
shape_line_color := .5white ;
shape_fill_color := .9white ;

shape_node           :=  0 ;
shape_action         := 24 ;
shape_procedure      :=  5 ;
shape_product        := 12 ;
shape_decision       := 14 ;
shape_archive        := 19 ;
shape_loop           := 35 ;
shape_wait           :=  6 ;
shape_subprocedure   := 20 ; shape_sub_procedure   := 20 ;
shape_singledocument := 32 ; shape_single_document := 32 ;
shape_multidocument  := 33 ; shape_multi_document  := 33 ;
shape_right          := 66 ;
shape_left           := 67 ;
shape_up             := 68 ;
shape_down           := 69 ;

% vardef some_shape_path (expr type) == imported from mp-shap

def show_shapes (expr n) =

  begin_chart(n,8,10) ;
    show_con_points := true ;
    for i=0 upto 7 :
      for j=0 upto 9 :
        new_shape(i+1,j+1,i*10+j);
      endfor ;
    endfor ;
  end_chart ;

enddef ;

%D connections

def new_chart =

  color connection_line_color ;

  connection_line_width  := shape_line_width ;
  connection_line_color  := .8white ;
  connection_smooth_size := 5pt ;
  connection_arrow_size  := 4pt ;
  connection_dash_size   := 3pt ;

  max_x := 6 ;
  max_y := 4 ;

  numeric xypoint       ; xypoint := 0 ;

  pair    xypoints []   ;

  boolean xyfree   [][] ;
  path    xypath   [][] ;
  numeric xysx     [][] ;
  numeric xysy     [][] ;
  color   xyfill   [][] ;
  color   xydraw   [][] ;
  numeric xyline   [][] ;
  boolean xypeep   [][] ;
  picture xypicture[][] ;

  numeric cpath         ; cpath := 0 ;
  path    cpaths    []  ;
  numeric cline     []  ;
  color   ccolor    []  ;
  boolean carrow    []  ;
  boolean cdash     []  ;
  boolean ccross    []  ;

  boolean smooth        ; smooth       := true  ;
  boolean peepshape     ; peepshape    := false ;
  boolean arrowtip      ; arrowtip     := true  ;
  boolean dashline      ; dashline     := false ;
  boolean forcevalid    ; forcevalid   := false ;
  boolean touchshape    ; touchshape   := false ;
  boolean showcrossing  ; showcrossing := false ;

  picture dash_pattern ;

  boolean reverse_y ; reverse_y := true ;

enddef ;

new_chart ;

def y_pos (expr y) =
  if reverse_y : max_y + 1 - y else : y fi
enddef ;

def initialize_grid (expr maxx, maxy) =
  begingroup ;
  save i, j ;
  max_x := maxx ;
  max_y := maxy ;
  dsp_x := 0 ;
  dsp_y := 0 ;
  for x=1 upto max_x :
    for y=1 upto max_y :
      xyfree [x][y] := true ;
      xyfill [x][y] := shape_fill_color ;
      xydraw [x][y] := shape_line_color ;
      xyline [x][y] := shape_line_width ;
    endfor ;
  endfor ;
  endgroup ;
enddef ;

def scaled_to_grid =
  xscaled grid_width yscaled grid_height
enddef ;

def xy_offset (expr x, y) =
  (x+.5,y+.5)
enddef ;

def draw_shape (expr x, yy, p, sx, sy) =
  begingroup ;
  save y ;
  y := y_pos(yy) ;
  xypath [x][y] := (p xscaled sx yscaled sy) shifted xy_offset(x,y) ;
  xyfree [x][y] := false ;
  xysx   [x][y] := sx ;
  xysy   [x][y] := sy ;
  xyfill [x][y] := shape_fill_color ;
  xydraw [x][y] := shape_line_color ;
  xyline [x][y] := shape_line_width ;
  xypeep [x][y] := peepshape ;
  endgroup ;
enddef ;

vardef i_point (expr x, y, p, t) =
  begingroup ;
  save q, ok ;
  pair q ;
  boolean ok ;
  q := xypath[x][y] intersection_point ((p) shifted xy_offset(x,y)) ;
  ok := true ;
%  if xpart q < -.5 : ok := false ; q := (-.45,ypart q) fi ;
%  if xpart q >  .5 : ok := false ; q := ( .45,ypart q) fi ;
%  if ypart q < -.5 : ok := false ; q := (xpart q,-.45) fi ;
%  if ypart q >  .5 : ok := false ; q := (xpart q, .45) fi ;
  if not ok :
    message (t & " of shape (" & decimal x & "," & decimal y & ") limited") ;
  fi ;
  q
  endgroup
enddef ;

vardef trimmed (expr x, y, z, t) =
  if touchshape and t : xyline[x][y]/z else : epsilon fi
enddef ;

zfactor := 1/3 ;

vardef xy_bottom (expr x, y, z, t) =
  i_point (x, y, ((0,0)--(0,-2)) shifted (zfactor*z*xysx[x][y],0), "bottom")
  shifted(0,-trimmed(x,y,grid_height,t))
enddef ;

vardef xy_top (expr x, y, z, t) =
  i_point (x, y, ((0,0)--(0,2))  shifted (zfactor*z*xysx[x][y],0), "top")
  shifted(0,trimmed(x,y,grid_height,t))
enddef ;

vardef xy_left (expr x, y, z, t) =
  i_point (x, y, ((0,0)--(-2,0)) shifted (0,zfactor*z*xysy[x][y]), "left")
  shifted(-trimmed(x,y,grid_width,t),0)
enddef ;

vardef xy_right (expr x, y, z, t) =
  i_point (x, y, ((0,0)--(2,0))  shifted (0,zfactor*z*xysy[x][y]), "right")
  shifted(trimmed(x,y,grid_width,t),0)
enddef ;

def flush_shapes =
  for x=1 upto max_x :
    for y=1 upto max_y :
      flush_shape (x, y) ;
    endfor ;
  endfor ;
enddef ;

def flush_pictures =
  for x=1 upto max_x :
    for y=1 upto max_y :
      flush_picture (x, y) ;
    endfor ;
  endfor ;
enddef ;


def draw_connection_point (expr x, y, z) =
  pickup pencircle scaled if (z=0): 2 fi xyline[x][y] ;
  drawdot xy_bottom(x,y,z,false) scaled_to_grid withcolor (1,0,0) ;
  drawdot xy_top   (x,y,z,false) scaled_to_grid withcolor (0,1,0) ;
  drawdot xy_left  (x,y,z,false) scaled_to_grid withcolor (0,0,1) ;
  drawdot xy_right (x,y,z,false) scaled_to_grid withcolor (1,1,0) ;
enddef ;

def flush_shape (expr x, yy) =
  begingroup ;
  save y ;
  y := y_pos(yy) ;
  if not xyfree[x][y] :
    pickup pencircle scaled xyline[x][y] ;
    if xypeep[x][y] :
      fill (xypath[x][y] peepholed (unitsquare shifted (x,y)))
        scaled_to_grid withpen pencircle scaled 0
        withcolor chart_background_color ;
    else :
      fill xypath[x][y] scaled_to_grid withcolor xyfill[x][y] ;
    fi ;
    draw xypath[x][y] scaled_to_grid withcolor xydraw[x][y] ;
    if show_con_points or show_all_points :
      draw_connection_point (x, y, 0) ;
    fi ;
    if show_all_points :
      for i=-1 upto 1 :
        draw_connection_point (x, y, i) ;
      endfor ;
    fi ;
  fi ;
  endgroup ;
enddef ;

vardef points_initialized (expr xfrom, yfrom, xto, yto, n) =
  if not xyfree[xfrom][yfrom] and not xyfree[xto][yto] :
    xypoint := n ; true
  else :
    xypoint := 0 ; false
  fi
enddef ;

def collapse_points =
  % remove redundant points
  n := 1 ;
  for i=2 upto xypoint:
    if not (xypoints[i]=xypoints[n]) :
      n := n + 1 ;
      xypoints[n] := xypoints[i]
    fi ;
  endfor ;
  xypoint := n ;
  % make straight lines
  if xypoints[2]=xypoints[xypoint-1] :
    xypoints[3] := xypoints[xypoint] ;
    xypoint := 3 ;
  fi ;
enddef ;

vardef smooth_connection (expr a,b) =
  sx := connection_smooth_size/grid_width ;
  sy := connection_smooth_size/grid_height ;
  if ypart a = ypart b :
    a shifted (if xpart a >= xpart b : - fi sx,0)
% a shifted (sx*xpart unitvector(b-a),0)
  else :
    a shifted (0,if ypart a >= ypart b : - fi sy)
% a shifted (0,sy*ypart unitvector(b-a))
  fi
enddef ;

vardef trim_points =
  begingroup
  save p, a, b, d, i ; path p ; pair d ;
  p := for i=1 upto xypoint-1 : xypoints[i]-- endfor xypoints[xypoint] ;
  if touchshape :
    a := shape_line_width/grid_width ;
    b := shape_line_width/grid_height ;
  else :
    a := epsilon ;
    b := epsilon ;
  fi ;
  d := direction infinity of p ;
  xypoints[xypoint] := xypoints[xypoint] shifted
  if     xpart d < 0 : (+a,0) ;
  elseif xpart d > 0 : (-a,0) ;
  elseif ypart d < 0 : (0,+b) ;
  elseif ypart d > 0 : (0,-b) ;
  else               : origin ;
  fi ;
  d := direction 0 of p ;
  xypoints[1] := xypoints[1] shifted
  if     xpart d < 0 : (-a,0) ;
  elseif xpart d > 0 : (+a,0) ;
  elseif ypart d < 0 : (0,-b) ;
  elseif ypart d > 0 : (0,+b) ;
  else               : origin ;
  fi ;
  endgroup
enddef ;

vardef trim_points = enddef ;

vardef connection_path =
  if reverse_connection : reverse fi (xypoints[1]--
  for i=2 upto xypoint-1 :
    if smooth :
      smooth_connection(xypoints[i],xypoints[i-1])  ..
      controls xypoints[i] and xypoints[i] ..
      smooth_connection(xypoints[i],xypoints[i+1])  --
    else :
      xypoints[i]--
    fi
  endfor
  xypoints[xypoint])
enddef ;

% vardef connection_path =
%   sx := connection_smooth_size/grid_width ;
%   sy := connection_smooth_size/grid_height ;
%   if reverse_connection : reverse fi
%   (for i=1 upto xypoint-1 : xypoints[i] -- endfor xypoints[xypoint])
%   if smooth : cornered max(sx,sy) fi
% enddef ;
%
% primarydef p cornered c =
%   if cycle p :
%     ((point 0 of p) shifted (c*(unitvector(point 1 of p - point 0 of p))) --
%      for i=1 upto length(p) :
%        (point i-1 of p) shifted (c*(unitvector(point i   of p - point i-1 of p))) --
%        (point i   of p) shifted (c*(unitvector(point i-1 of p - point i   of p))) ..
%        controls point i of p ..
%      endfor cycle)
%   else :
%     ((point 0 of p) --
%      for i=1 upto length(p)-1 :
%        (point i-1 of p) shifted (c*(unitvector(point i   of p - point i-1 of p))) --
%        (point i   of p) shifted (c*(unitvector(point i-1 of p - point i   of p))) ..
%        controls point i of p ..
%      endfor
%      (point length(p) of p))
%   fi
% enddef ;

def draw_connection =
  if xypoint>0 :
    collapse_points ;
    trim_points ;
    cpath := cpath + 1 ;
    cpaths[cpath] := connection_path scaled_to_grid ;
    cline[cpath]  := connection_line_width ;
    ccolor[cpath] := connection_line_color ;
    carrow[cpath] := arrowtip ;
    cdash[cpath]  := dashline ;
    ccross[cpath] := showcrossing ;
  else :
    message("no connection defined") ;
  fi ;
  reverse_connection := false ;
enddef ;

def flush_connections =
  pair ip ;
  boolean crossing ;
  ahlength     := connection_arrow_size ;
  dash_pattern := dashpattern(on connection_dash_size off connection_dash_size ) ;
  for i=1 upto cpath :
    if ccross[i] :
      crossing := false ;
      for j=1 upto i :
       %if not ((point infinity of cpaths[i] = point infinity of cpaths[j]) or
       %        (point 0        of cpaths[i] = point 0        of cpaths[j])) :
        if not  (point infinity of cpaths[i] = point infinity of cpaths[j]) :
          ip := cpaths[i] intersection_point cpaths[j] ;
          if intersection_found : crossing := true fi ;
        fi ;
      endfor ;
      if crossing :
        pickup pencircle scaled 2cline[i] ;
       %draw cpaths[i] withcolor chart_background_color ;
        path cp ; cp := cpaths[i] ;
        cp := cp cutbefore point .05 length cp of cp ;
        cp := cp cutafter  point .95 length cp of cp ;
        draw cp withcolor chart_background_color ;
      fi ;
    fi ;
    pickup pencircle scaled cline[i] ;
    if carrow[i] :
      if cdash[i] :
        drawarrow cpaths[i] withcolor ccolor[i] dashed dash_pattern ;
      else :
        drawarrow cpaths[i] withcolor ccolor[i] ;
      fi ;
    else :
      if cdash[i] :
        draw cpaths[i] withcolor ccolor[i] dashed dash_pattern ;
      else :
        draw cpaths[i] withcolor ccolor[i] ;
      fi ;
    fi ;
    draw_midpoint (i) ;
  endfor ;
enddef ;

def draw_midpoint (expr n) =
  begingroup
  save p ;
  pair p ;
  p := point .5*length(cpaths[n]) of cpaths[n];
  pickup pencircle scaled 2cline[n] ;
  save_text_position (p) ;
  if show_mid_points :
    drawdot p withcolor .7white ;
  fi ;
  endgroup ;
enddef ;

def flush_picture(expr x, y) =
    if known xypicture[x][y]:
        draw xypicture[x][y] shifted xy_offset((x+0.5)*grid_width,(max_y-y+1.5)*grid_height) ;
    fi ;
enddef ;

def chart_draw_picture(expr x, y, p) =
    xypicture[x][y] := p ;
enddef ;

boolean reverse_connection ; reverse_connection := false ;

vardef up_on_grid (expr n) =
  (xpart xypoints[n],(ypart xypoints[n]+1) div 1)
enddef ;

vardef down_on_grid (expr n) =
  (xpart xypoints[n],(ypart xypoints[n]) div 1)
enddef ;

vardef left_on_grid (expr n) =
  ((xpart xypoints[n]) div 1, ypart xypoints[n])
enddef ;

vardef right_on_grid (expr n) =
  ((xpart xypoints[n]+1) div 1, ypart xypoints[n])
enddef ;

vardef x_on_grid (expr n, xfrom, xto, zfrom) =
  if (xfrom=xto) and not (zfrom=0) :
    if (zfrom=1) : right_on_grid(2) else : left_on_grid(2) fi
  elseif xpart xypoints[1] < xpart xypoints[6] :
    right_on_grid(n)
  else :
    left_on_grid(n)
  fi
enddef ;

vardef y_on_grid (expr n, yfrom, yto, zfrom) =
  if (yfrom=yto) and not (zfrom=0) :
    if (zfrom=1) : up_on_grid(2) else : down_on_grid(2) fi
  elseif ypart xypoints[1] < ypart xypoints[6] :
    up_on_grid(n)
  else :
    down_on_grid(n)
  fi
enddef ;

vardef xy_on_grid (expr n, m) =
  (xpart xypoints[n], ypart xypoints[m])
enddef ;

vardef down_to_grid (expr a,b) =
  (xpart xypoints[a],
   ypart xypoints[if ypart xypoints[a]<ypart xypoints[b]:a else:b fi])
enddef ;

vardef up_to_grid (expr a,b) =
  (xpart xypoints[a],
   ypart xypoints[if ypart xypoints[a]>ypart xypoints[b]:a else:b fi])
enddef ;

vardef left_to_grid (expr a,b) =
  (xpart xypoints[if xpart xypoints[a]<xpart xypoints[b]:a else:b fi],
   ypart xypoints[a])
enddef ;

vardef right_to_grid (expr a,b) =
  (xpart xypoints[if xpart xypoints[a]>xpart xypoints[b]:a else:b fi],
   ypart xypoints[a])
enddef ;

% vardef boundingboxfraction(expr p, f) =
%   ((boundingbox p) enlarged (-f*bbwidth(p),-f*bbheight(p)))
% enddef ;

vardef valid_connection (expr xfrom, yfrom, xto, yto) =
  begingroup ;
  save ok, vc, pp ;
  boolean ok ;
  % check for slanted lines
  ok := true ;
  for i=1 upto xypoint-1 :
   if not ((xpart xypoints[i]=xpart xypoints[i+1]) or
           (ypart xypoints[i]=ypart xypoints[i+1])) : ok := false ;
   fi ;
  endfor ;
  if not ok :
   %message("slanted");
    false
  elseif forcevalid :
   %message("force");
    true
  elseif (xfrom=xto) and (yfrom=yto) :
   %message("self");
    false
  else :
    % check for crossing shapes
    pair vc ;
    path pp ;

    pair xyfirst, xylast ;
    xyfirst := xypoints[1] ;
    xylast := xypoints[xypoint] ;
    trim_points ;
    pp := for i=1 upto xypoint-1 : xypoints[i]-- endfor xypoints[xypoint] ;
    xypoints[1] := xyfirst ;
    xypoints[xypoint] := xylast ;

    for i=1 upto max_x :
      for j=1 upto max_y :                % was bug: xfrom,yto
        if not ( ( (i,j)=(xfrom,yfrom) ) or ( (i,j)=(xto,yto) ) ) :
          if not xyfree[i][j] :
            vc := pp intersection_point xypath[i][j] ;
            if intersection_found : ok := false fi ;
          fi ;
        fi ;
      endfor ;
    endfor ;
   %if not ok: message("crossing") ; fi ;
    ok
  fi
  endgroup
enddef ;

def connect_top_bottom (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_top(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_bottom(xto,yto,zto,true) ;
    xypoints[2] := up_on_grid(1) ;
    xypoints[5] := down_on_grid(6) ;
    xypoints[3] := up_to_grid(2,5) ;
    xypoints[4] := up_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := x_on_grid(2,xfrom,xto,zfrom) ;
      xypoints[4] := xy_on_grid(3,5) ;
    fi ;
    %%%% begin experiment
    xypoints[3] := xypoints[3] shifted (dsp_x,0) ;
    xypoints[4] := xypoints[4] shifted (dsp_x,0) ;
    if dsp_y>0 :
      xypoints[2] := xypoints[2] shifted (0,dsp_y) ;
      xypoints[3] := xypoints[3] shifted (0,dsp_y) ;
    elseif dsp_y<0 :
      xypoints[4] := xypoints[4] shifted (0,dsp_y) ;
      xypoints[5] := xypoints[5] shifted (0,dsp_y) ;
    fi
    %%%% end experiment
    draw_connection ;
  fi ;
enddef ;

def connect_left_right (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_left(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_right(xto,yto,zto,true) ;
    xypoints[2] := left_on_grid(1) ;
    xypoints[5] := right_on_grid(6) ;
    xypoints[3] := left_to_grid(2,5) ;
    xypoints[4] := left_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := y_on_grid(2,yfrom,yto,zfrom) ;
      xypoints[4] := xy_on_grid(5,3) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_left_top (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,5) :
    xypoints[1] := xy_left(xfrom,yfrom,zfrom,true) ;
    xypoints[5] := xy_top(xto,yto,zto,true) ;
    xypoints[2] := left_on_grid(1) ;
    xypoints[4] := up_on_grid(5) ;
    xypoints[3] := left_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := xy_on_grid(2,4) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_left_bottom (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,5) :
    xypoints[1] := xy_left(xfrom,yfrom,zfrom,true) ;
    xypoints[5] := xy_bottom(xto,yto,zto,true) ;
    xypoints[2] := left_on_grid(1) ;
    xypoints[4] := down_on_grid(5) ;
    xypoints[3] := left_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := xy_on_grid(2,4) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_right_top (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,5) :
    xypoints[1] := xy_right(xfrom,yfrom,zfrom,true) ;
    xypoints[5] := xy_top(xto,yto,zto,true) ;
    xypoints[2] := right_on_grid(1) ;
    xypoints[4] := up_on_grid(5) ;
    xypoints[3] := right_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := xy_on_grid(2,4) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_right_bottom (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,5) :
    xypoints[1] := xy_right(xfrom,yfrom,zfrom,true) ;
    xypoints[5] := xy_bottom(xto,yto,zto,true) ;
    xypoints[2] := right_on_grid(1) ;
    xypoints[4] := down_on_grid(5) ;
    xypoints[3] := right_to_grid(2,5) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := xy_on_grid(2,4) ;
    fi ;
    %%%% begin experiment
    xypoints[2] := xypoints[2] shifted (dsp_x,0) ;
    xypoints[3] := xypoints[3] shifted (dsp_x,0) ;
    if dsp_y>0 :
      xypoints[3] := xypoints[3] shifted (0,-dsp_y) ;
      xypoints[4] := xypoints[4] shifted (0,-dsp_y) ;
    elseif dsp_y<0 :
      xypoints[3] := xypoints[3] shifted (0,dsp_y) ;
      xypoints[4] := xypoints[4] shifted (0,dsp_y) ;
    fi
    %%%% end experiment
    draw_connection ;
  fi ;
enddef ;

def connect_left_left (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_left(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_left(xto,yto,zto,true) ;
    xypoints[2] := left_on_grid(1) ;
    xypoints[5] := left_on_grid(6) ;
    xypoints[3] := left_to_grid(2,5) ;
    xypoints[4] := left_to_grid(5,2) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := y_on_grid(2,yfrom,yto,zfrom) ;
      xypoints[4] := xy_on_grid(5,3) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_right_right (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_right(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_right(xto,yto,zto,true) ;
    xypoints[2] := right_on_grid(1) ;
    xypoints[5] := right_on_grid(6) ;
    xypoints[3] := right_to_grid(2,5) ;
    xypoints[4] := right_to_grid(5,2) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := y_on_grid(2,yfrom,yto,zfrom) ;
      xypoints[4] := xy_on_grid(5,3) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_top_top (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_top(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_top(xto,yto,zto,true) ;
    xypoints[2] := up_on_grid(1) ;
    xypoints[5] := up_on_grid(6) ;
    xypoints[3] := up_to_grid(2,5) ;
    xypoints[4] := up_to_grid(5,2) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := x_on_grid(2,xfrom,xto,zfrom) ;
      xypoints[4] := xy_on_grid(3,5) ;
    fi ;
    draw_connection ;
  fi ;
enddef ;

def connect_bottom_bottom (expr xfrom,yyfrom,zfrom) (expr xto,yyto,zto) =
  yfrom := y_pos(yyfrom) ; yto := y_pos(yyto) ;
  if points_initialized(xfrom,yfrom,xto,yto,6) :
    xypoints[1] := xy_bottom(xfrom,yfrom,zfrom,true) ;
    xypoints[6] := xy_bottom(xto,yto,zto,true) ;
    xypoints[2] := down_on_grid(1) ;
    xypoints[5] := down_on_grid(6) ;
    xypoints[3] := down_to_grid(2,5) ;
    xypoints[4] := down_to_grid(5,2) ;
    if not valid_connection(xfrom,yfrom,xto,yto) :
      xypoints[3] := x_on_grid(2,xfrom,xto,zfrom) ;
      xypoints[4] := xy_on_grid(3,5) ;
    fi ;
    %%%% begin experiment
    xypoints[3] := xypoints[3] shifted (dsp_x,0) ;
    xypoints[4] := xypoints[4] shifted (dsp_x,0) ;
    if dsp_y<0 :
      xypoints[2] := xypoints[2] shifted (0,-dsp_y) ;
      xypoints[3] := xypoints[3] shifted (0,-dsp_y) ;
    elseif dsp_y>0 :
      xypoints[4] := xypoints[4] shifted (0,dsp_y) ;
      xypoints[5] := xypoints[5] shifted (0,dsp_y) ;
    fi
    %%%% end experiment
    draw_connection ;
  fi ;
enddef ;

def connect_bottom_top (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_top_bottom (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def connect_right_left (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_left_right (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def connect_top_left (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_left_top (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def connect_bottom_left (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_left_bottom (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def connect_top_right (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_right_top (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def connect_bottom_right (expr xfrom,yfrom,zfrom) (expr xto,yto,zto) =
  reverse_connection := true ;
  connect_right_bottom (xto,yto,zto) (xfrom,yfrom,zfrom) ;
enddef ;

def draw_test_shape (expr x, y) =
  draw_shape(x,y,fullcircle, .7, .7) ;
enddef ;

def draw_test_shapes =
  for i=1 upto max_x :
    for j=1 upto max_y :
      draw_test_shape(i,j) ;
    endfor ;
  endfor ;
enddef;

def draw_test_area =
  pickup pencircle scaled .5shape_line_width ;
  draw (unitsquare xscaled max_x yscaled max_y shifted (1,1))
    scaled_to_grid withcolor blue ;
enddef ;

def show_connection (expr n, m) =

  begin_chart(100+n,6,6) ;

    draw_test_area ;

    smooth   := true ;
    arrowtip := true ;
    dashline := true ;

    draw_test_shape(2,2) ; draw_test_shape(4,5) ;
    draw_test_shape(3,3) ; draw_test_shape(5,1) ;
    draw_test_shape(2,5) ; draw_test_shape(1,3) ;
    draw_test_shape(6,2) ; draw_test_shape(4,6) ;

    if     (m=1) :
      connect_top_bottom (2,2,0) (4,5,0) ;
      connect_top_bottom (3,3,0) (5,1,0) ;
      connect_top_bottom (2,5,0) (1,3,0) ;
      connect_top_bottom (6,2,0) (4,6,0) ;
    elseif (m=2) :
      connect_top_top (2,2,0) (4,5,0) ;
      connect_top_top (3,3,0) (5,1,0) ;
      connect_top_top (2,5,0) (1,3,0) ;
      connect_top_top (6,2,0) (4,6,0) ;
    elseif (m=3) :
      connect_bottom_bottom (2,2,0) (4,5,0) ;
      connect_bottom_bottom (3,3,0) (5,1,0) ;
      connect_bottom_bottom (2,5,0) (1,3,0) ;
      connect_bottom_bottom (6,2,0) (4,6,0) ;
    elseif (m=4) :
      connect_left_right (2,2,0) (4,5,0) ;
      connect_left_right (3,3,0) (5,1,0) ;
      connect_left_right (2,5,0) (1,3,0) ;
      connect_left_right (6,2,0) (4,6,0) ;
    elseif (m=5) :
      connect_left_left (2,2,0) (4,5,0) ;
      connect_left_left (3,3,0) (5,1,0) ;
      connect_left_left (2,5,0) (1,3,0) ;
      connect_left_left (6,2,0) (4,6,0) ;
    elseif (m=6) :
      connect_right_right (2,2,0) (4,5,0) ;
      connect_right_right (3,3,0) (5,1,0) ;
      connect_right_right (2,5,0) (1,3,0) ;
      connect_right_right (6,2,0) (4,6,0) ;
    elseif (m=7) :
      connect_left_top (2,2,0) (4,5,0) ;
      connect_left_top (3,3,0) (5,1,0) ;
      connect_left_top (2,5,0) (1,3,0) ;
      connect_left_top (6,2,0) (4,6,0) ;
    elseif (m=8) :
      connect_left_bottom (2,2,0) (4,5,0) ;
      connect_left_bottom (3,3,0) (5,1,0) ;
      connect_left_bottom (2,5,0) (1,3,0) ;
      connect_left_bottom (6,2,0) (4,6,0) ;
    elseif (m=9) :
      connect_right_top (2,2,0) (4,5,0) ;
      connect_right_top (3,3,0) (5,1,0) ;
      connect_right_top (2,5,0) (1,3,0) ;
      connect_right_top (6,2,0) (4,6,0) ;
    else :
      connect_right_bottom (2,2,0) (4,5,0) ;
      connect_right_bottom (3,3,0) (5,1,0) ;
      connect_right_bottom (2,5,0) (1,3,0) ;
      connect_right_bottom (6,2,0) (4,6,0) ;
    fi ;

  end_chart ;

enddef ;

def show_connections =
  for f=1 upto 10 :
    show_connection(f,f) ;
  endfor ;
enddef ;

%D charts

def clip_chart (expr minx, miny, maxx, maxy) =
  cmin_x := minx ;
  cmax_x := maxx ;
  cmin_y := miny ;
  cmax_y := maxy ;
enddef ;

def begin_chart (expr n, maxx, maxy) =
  new_chart ;
  chart_figure := n ;
  chart_scale := 1 ;
  if chart_figure>0: beginfig(chart_figure) ; fi ;
  startsavingdata ;
  initialize_grid (maxx, maxy) ;
  bboxmargin := 0 ;
  cmin_x := 1 ;
  cmax_x := maxx ;
  cmin_y := 1 ;
  cmax_y := maxy ;
enddef ;

def end_chart =
  flush_shapes ;
  flush_connections ;
  flush_pictures ;
  cmin_x := cmin_x ;
  cmax_x := cmin_x+cmax_x ;
  cmin_y := cmin_y-1 ;
  cmax_y := cmin_y+cmax_y ;
  if reverse_y :
   cmin_y := y_pos(cmin_y) ;
   cmax_y := y_pos(cmax_y) ;
  fi ;
  path p ;
  p := (((cmin_x,cmin_y)--(cmax_x,cmin_y)--
         (cmax_x,cmax_y)--(cmin_x,cmax_y)--cycle))
       scaled_to_grid ;
 %draw p withcolor red ;
  p := p enlarged chart_offset ;
  clip currentpicture to p ;
  setbounds currentpicture to p ;
  savedata
    "\MPclippath{" &
    decimal xpart llcorner p & "}{" &
    decimal ypart llcorner p & "}{" &
    decimal xpart urcorner p & "}{" &
    decimal ypart urcorner p & "}%" ;
  savedata
    "\MPareapath{" &
    decimal (xpart llcorner p + 2chart_offset) & "}{" &
    decimal (ypart llcorner p + 2chart_offset) & "}{" &
    decimal (xpart urcorner p - 2chart_offset) & "}{" &
    decimal (ypart urcorner p - 2chart_offset) & "}%" ;
  currentpicture := currentpicture scaled chart_scale ;
  stopsavingdata ;
  if chart_figure>0: endfig ; fi ;
enddef ;

def new_shape (expr x, y, n) =
  if known n :
    if (x>0) and (x<=max_x) and (y>0) and (y<=max_y) :
      sx := shape_width/grid_width ;
      sy := shape_height/grid_height ;
      draw_shape(x,y,some_shape_path(n), sx, sy) ;
    else :
      message ("shape outside grid ignored") ;
    fi ;
  else
    message ("shape not known" ) ;
  fi ;
enddef ;

def begin_sub_chart =
  begingroup ;
  save    shape_line_width , connection_line_width ;
  save    shape_line_color, shape_fill_color, connection_line_color ;
  color   shape_line_color, shape_fill_color, connection_line_color ;
  save    smooth, arrowtip, dashline, peepshape ;
  boolean smooth, arrowtip, dashline, peepshape ;
enddef ;

def end_sub_chart =
  endgroup ;
enddef ;

% show_shapes(100) ;
%
% show_connections ;
%
% begin_chart (1,4,5) ;
%  %clip_chart(1,1,1,2) ;
%   new_shape (1,1,31) ;
%   new_shape (1,2,3) ;
%   new_shape (4,4,5) ;
%   connect_top_left   (1,1,0) (4,4,0) ;
%   connect_bottom_top (1,2,0) (4,4,0) ;
%   connect_left_right (1,2,0) (1,1,0) ;
% end_chart ;