Docs: NR B.6 The Feta font: Add menu; separate into nodes.

[lilypond.git] / lily / tuplet-bracket.cc

diff --git a/lily/tuplet-bracket.cc b/lily/tuplet-bracket.cc
index fa5d9a9c1d9dc76c92c49fee9a982ea9663a4dcb..4ddb09245ee236f98a17c5e7cb359f8b8711ffa2 100644 (file)
--- a/lily/tuplet-bracket.cc
+++ b/lily/tuplet-bracket.cc
@@ -3,7 +3,7 @@
 
   source file of the GNU LilyPond music typesetter
 
 
   source file of the GNU LilyPond music typesetter
 

-  (c) 1997--2006 Jan Nieuwenhuizen <janneke@gnu.org>
+  (c) 1997--2009 Jan Nieuwenhuizen <janneke@gnu.org>

   Han-Wen Nienhuys <hanwen@xs4all.nl>
 */
 
   Han-Wen Nienhuys <hanwen@xs4all.nl>
 */
 


@@ -70,14 +70,13 @@ flatten_number_pair_property (Grob *me,
     = robust_scm2drul (me->internal_get_property (sym), zero);
   pair[xdir] = 0.0;
   
     = robust_scm2drul (me->internal_get_property (sym), zero);
   pair[xdir] = 0.0;
   

-  me->internal_set_property (sym, ly_interval2scm (pair));
+  me->set_property (sym, ly_interval2scm (pair));

 }
 
 
 /*
   Return beam that encompasses the span of the tuplet bracket.
 */
 }
 
 
 /*
   Return beam that encompasses the span of the tuplet bracket.
 */

-

 Grob *
 Tuplet_bracket::parallel_beam (Grob *me_grob, vector<Grob*> const &cols,
                               bool *equally_long)
 Grob *
 Tuplet_bracket::parallel_beam (Grob *me_grob, vector<Grob*> const &cols,
                               bool *equally_long)


@@ -91,8 +90,10 @@ Tuplet_bracket::parallel_beam (Grob *me_grob, vector<Grob*> const &cols,
   Drul_array<Grob*> stems (Note_column::get_stem (cols[0]),
                           Note_column::get_stem (cols.back ()));
 
   Drul_array<Grob*> stems (Note_column::get_stem (cols[0]),
                           Note_column::get_stem (cols.back ()));
 

-  if (dynamic_cast<Item*> (stems[RIGHT])->get_column ()
-      != me->get_bound (RIGHT)->get_column())
+  if (!stems[RIGHT]
+      || !stems[LEFT]
+      || (dynamic_cast<Item*> (stems[RIGHT])->get_column ()
+         != me->get_bound (RIGHT)->get_column ()))

     return 0;
 
   Drul_array<Grob*> beams;
     return 0;
 
   Drul_array<Grob*> beams;


@@ -120,7 +121,7 @@ Tuplet_bracket::parallel_beam (Grob *me_grob, vector<Grob*> const &cols,
 }
 
 
 }
 
 

-MAKE_SCHEME_CALLBACK(Tuplet_bracket,calc_connect_to_neighbors,1);
+MAKE_SCHEME_CALLBACK (Tuplet_bracket, calc_connect_to_neighbors,1);

 SCM
 Tuplet_bracket::calc_connect_to_neighbors (SCM smob)
 {
 SCM
 Tuplet_bracket::calc_connect_to_neighbors (SCM smob)
 {


@@ -135,9 +136,7 @@ Tuplet_bracket::calc_connect_to_neighbors (SCM smob)
   do
     {
       Direction break_dir = bounds[d]->break_status_dir ();
   do
     {
       Direction break_dir = bounds[d]->break_status_dir ();

-      

       Spanner *orig_spanner = dynamic_cast<Spanner*> (me->original ());
       Spanner *orig_spanner = dynamic_cast<Spanner*> (me->original ());

-

       vsize neighbor_idx = me->get_break_index () - break_dir;
       if (break_dir
          && d == RIGHT
       vsize neighbor_idx = me->get_break_index () - break_dir;
       if (break_dir
          && d == RIGHT


@@ -176,7 +175,7 @@ Tuplet_bracket::get_common_x (Spanner *me)
   return commonx;
 }
   
   return commonx;
 }
   

-MAKE_SCHEME_CALLBACK(Tuplet_bracket,calc_control_points,1)
+MAKE_SCHEME_CALLBACK (Tuplet_bracket, calc_control_points,1)

 SCM
 Tuplet_bracket::calc_control_points (SCM smob)
 {
 SCM
 Tuplet_bracket::calc_control_points (SCM smob)
 {


@@ -232,17 +231,20 @@ Tuplet_bracket::calc_control_points (SCM smob)
          /*
            We're connecting to a column, for the last bit of a broken
            fullLength bracket.
          /*
            We're connecting to a column, for the last bit of a broken
            fullLength bracket.

-           
-           TODO: make padding tunable?

          */
          */

-         Real padding = 1.0;
+         Real padding =
+           robust_scm2double(me->get_property("full-length-padding"), 1.0);

 
          if (bounds[d]->break_status_dir ())
            padding = 0.0;
 
          if (bounds[d]->break_status_dir ())
            padding = 0.0;

-         
-         x_span[d]
-           = robust_relative_extent (bounds[d], commonx, X_AXIS) [LEFT]
-           - padding;
+
+         Real coord = bounds[d]->relative_coordinate(commonx, X_AXIS);
+         if (to_boolean (me->get_property ("full-length-to-extent")))
+           coord = robust_relative_extent(bounds[d], commonx, X_AXIS)[LEFT];
+
+         coord = max (coord, x_span[LEFT]);
+
+         x_span[d] = coord - padding;

        }
     }
   while (flip (&d) != LEFT);
        }
     }
   while (flip (&d) != LEFT);


@@ -280,14 +282,21 @@ Tuplet_bracket::print (SCM smob)
     bracket_visibility = ly_scm2bool (bracket);
   else if (bracket == ly_symbol2scm ("if-no-beam"))
     bracket_visibility = !par_beam;
     bracket_visibility = ly_scm2bool (bracket);
   else if (bracket == ly_symbol2scm ("if-no-beam"))
     bracket_visibility = !par_beam;

-

   
   

+  /* Don't print a tuplet bracket and number if no control-points were calculated */

   SCM cpoints =  me->get_property ("control-points");
   if (scm_ilength (cpoints) < 2)
     {
       me->suicide ();
       return SCM_EOL;
     }
   SCM cpoints =  me->get_property ("control-points");
   if (scm_ilength (cpoints) < 2)
     {
       me->suicide ();
       return SCM_EOL;
     }

+  /*  if the tuplet does not span any time, i.e. a single-note tuplet, hide
+      the bracket, but still let the number be displayed */
+  if (robust_scm2moment (me->get_bound (LEFT)->get_column ()->get_property ("when"), Moment (0))
+      == robust_scm2moment (me->get_bound (RIGHT)->get_column ()->get_property ("when"), Moment (0)))
+  {
+      bracket_visibility = false;
+  }

   
   Drul_array<Offset> points;
   points[LEFT] = ly_scm2offset (scm_car (cpoints));
   
   Drul_array<Offset> points;
   points[LEFT] = ly_scm2offset (scm_car (cpoints));


@@ -296,8 +305,6 @@ Tuplet_bracket::print (SCM smob)
   Interval x_span (points[LEFT][X_AXIS], points[RIGHT][X_AXIS]);
   Drul_array<Real> positions (points[LEFT][Y_AXIS], points[RIGHT][Y_AXIS]);
 
   Interval x_span (points[LEFT][X_AXIS], points[RIGHT][X_AXIS]);
   Drul_array<Real> positions (points[LEFT][Y_AXIS], points[RIGHT][Y_AXIS]);
 

-
-

   Output_def *pap = me->layout ();
 
   Grob *number_grob = unsmob_grob (me->get_object ("tuplet-number"));
   Output_def *pap = me->layout ();
 
   Grob *number_grob = unsmob_grob (me->get_object ("tuplet-number"));


@@ -420,15 +427,14 @@ Tuplet_bracket::make_bracket (Grob *me, // for line properties.
   Direction d = LEFT;
   do
     straight_corners[d] += -d * shorten[d] / length * dz;
   Direction d = LEFT;
   do
     straight_corners[d] += -d * shorten[d] / length * dz;

-  while (flip (&d) != LEFT)
-    ;
+  while (flip (&d) != LEFT);

 
 

-  if (gap.is_empty ())
-    gap = Interval (0, 0);
-  do
-    gap_corners[d] = (dz * 0.5) + gap[d] / length * dz;
-  while (flip (&d) != LEFT)
-    ;
+  if (!gap.is_empty ())
+    {
+      do
+       gap_corners[d] = (dz * 0.5) + gap[d] / length * dz;
+      while (flip (&d) != LEFT);
+    }

 
   Drul_array<Offset> flare_corners = straight_corners;
   do
 
   Drul_array<Offset> flare_corners = straight_corners;
   do


@@ -442,14 +448,20 @@ Tuplet_bracket::make_bracket (Grob *me, // for line properties.
   Stencil m;
   do
     {
   Stencil m;
   do
     {

-      m.add_stencil (Line_interface::line (me, straight_corners[d],
-                                          gap_corners[d]));
+      if (!gap.is_empty ())
+       m.add_stencil (Line_interface::line (me, straight_corners[d],
+                                            gap_corners[d]));

 
       m.add_stencil (Line_interface::line (me, straight_corners[d],
                                           flare_corners[d]));
     }
 
       m.add_stencil (Line_interface::line (me, straight_corners[d],
                                           flare_corners[d]));
     }

+

   while (flip (&d) != LEFT);
 
   while (flip (&d) != LEFT);
 

+  if (gap.is_empty ())
+    m.add_stencil (Line_interface::line (me, straight_corners[LEFT],
+                                        straight_corners[RIGHT]));
+  

   return m;
 }
 
   return m;
 }
 


@@ -489,73 +501,112 @@ Tuplet_bracket::calc_position_and_height (Grob *me_grob, Real *offset, Real *dy)
   commony = common_refpoint_of_array (tuplets, commony, Y_AXIS);
   if (Grob *st = Staff_symbol_referencer::get_staff_symbol (me))
     commony = st->common_refpoint (commony, Y_AXIS);
   commony = common_refpoint_of_array (tuplets, commony, Y_AXIS);
   if (Grob *st = Staff_symbol_referencer::get_staff_symbol (me))
     commony = st->common_refpoint (commony, Y_AXIS);

+  Real my_offset = me->relative_coordinate (commony, Y_AXIS);

 
   Grob *commonx = get_common_x (me);
   commonx = common_refpoint_of_array (tuplets, commonx, Y_AXIS);
 
   Interval staff;
 
   Grob *commonx = get_common_x (me);
   commonx = common_refpoint_of_array (tuplets, commonx, Y_AXIS);
 
   Interval staff;

-  if (Grob *st = Staff_symbol_referencer::get_staff_symbol (me))
+  Grob *st = Staff_symbol_referencer::get_staff_symbol (me);
+
+  /* staff-padding doesn't work correctly on cross-staff tuplets
+     because it only considers one staff symbol. Until this works,
+     disable it. */
+  if (st && !to_boolean (me->get_property ("cross-staff")))

     {
       Real pad = robust_scm2double (me->get_property ("staff-padding"), -1.0);
       if  (pad >= 0.0)
        {
     {
       Real pad = robust_scm2double (me->get_property ("staff-padding"), -1.0);
       if  (pad >= 0.0)
        {

-         staff = st->extent (commony, Y_AXIS);
+         staff = st->extent (commony, Y_AXIS) - my_offset;

          staff.widen (pad);
        }
     }
   
   Direction dir = get_grob_direction (me);
 
          staff.widen (pad);
        }
     }
   
   Direction dir = get_grob_direction (me);
 

-  /*
-    Use outer non-rest columns to determine slope
-  */
-  Grob *left_col = 0;
-  Grob *right_col = 0;
-  get_bounds (me, &left_col, &right_col);
-  if (left_col && right_col)
-    {
-      Interval rv = right_col->extent (commony, Y_AXIS);
-      Interval lv = left_col->extent (commony, Y_AXIS);
-      rv.unite (staff);
-      lv.unite (staff);
-      Real graphical_dy = rv[dir] - lv[dir];
-
-      Slice ls = Note_column::head_positions_interval (left_col);
-      Slice rs = Note_column::head_positions_interval (right_col);
-
-      Interval musical_dy;
-      musical_dy[UP] = rs[UP] - ls[UP];
-      musical_dy[DOWN] = rs[DOWN] - ls[DOWN];
-      if (sign (musical_dy[UP]) != sign (musical_dy[DOWN]))
-       *dy = 0.0;
-      else if (sign (graphical_dy) != sign (musical_dy[DOWN]))
-       *dy = 0.0;
-      else
-       *dy = graphical_dy;
-    }
-  else
-    *dy = 0;
-
-  *offset = -dir * infinity_f;
-
+  bool equally_long = false;
+  Grob *par_beam = parallel_beam (me, columns, &equally_long);
+  

   Item *lgr = get_x_bound_item (me, LEFT, dir);
   Item *rgr = get_x_bound_item (me, RIGHT, dir);
   Real x0 = robust_relative_extent (lgr, commonx, X_AXIS)[LEFT];
   Real x1 = robust_relative_extent (rgr, commonx, X_AXIS)[RIGHT];
   Item *lgr = get_x_bound_item (me, LEFT, dir);
   Item *rgr = get_x_bound_item (me, RIGHT, dir);
   Real x0 = robust_relative_extent (lgr, commonx, X_AXIS)[LEFT];
   Real x1 = robust_relative_extent (rgr, commonx, X_AXIS)[RIGHT];

+  bool follow_beam = par_beam
+    && get_grob_direction (par_beam) == dir
+    && ! to_boolean (par_beam->get_property ("knee"));

 
   vector<Offset> points;
 
   vector<Offset> points;

-  points.push_back (Offset (x0 - x0, staff[dir]));
-  points.push_back (Offset (x1 - x0, staff[dir]));
+  if (columns.size ()
+      && follow_beam
+      && Note_column::get_stem (columns[0])
+      && Note_column::get_stem (columns.back ()))
+    {
+      /*
+       trigger set_stem_ends
+       */
+      (void) par_beam->get_property ("quantized-positions");

 
 

-  for (vsize i = 0; i < columns.size (); i++)
+      Drul_array<Grob *> stems (Note_column::get_stem (columns[0]),
+                               Note_column::get_stem (columns.back ()));
+
+      Real ss = 0.5 * Staff_symbol_referencer::staff_space (me);
+      Real lp = ss * robust_scm2double (stems[LEFT]->get_property ("stem-end-position"), 0.0)
+        + stems[LEFT]->get_parent (Y_AXIS)->relative_coordinate (commony, Y_AXIS);
+      Real rp = ss * robust_scm2double (stems[RIGHT]->get_property ("stem-end-position"), 0.0)
+        + stems[RIGHT]->get_parent (Y_AXIS)->relative_coordinate (commony, Y_AXIS);
+
+      *dy = rp - lp;
+      points.push_back (Offset (stems[LEFT]->relative_coordinate (commonx, X_AXIS) - x0, lp));
+      points.push_back (Offset (stems[RIGHT]->relative_coordinate (commonx, X_AXIS) - x0, rp));
+    }
+  else

     {
     {

-      Interval note_ext = columns[i]->extent (commony, Y_AXIS);
-      Real notey = note_ext[dir] - me->relative_coordinate (commony, Y_AXIS);
+      /*
+       Use outer non-rest columns to determine slope
+      */
+      Grob *left_col = 0;
+      Grob *right_col = 0;
+      get_bounds (me, &left_col, &right_col);
+      if (left_col && right_col)
+       {
+         Interval rv = Note_column::cross_staff_extent (right_col, commony);
+         Interval lv = Note_column::cross_staff_extent (left_col, commony);
+         rv.unite (staff);
+         lv.unite (staff);
+
+         Real graphical_dy = rv[dir] - lv[dir];
+
+         Slice ls = Note_column::head_positions_interval (left_col);
+         Slice rs = Note_column::head_positions_interval (right_col);
+
+         Interval musical_dy;
+         musical_dy[UP] = rs[UP] - ls[UP];
+         musical_dy[DOWN] = rs[DOWN] - ls[DOWN];
+         if (sign (musical_dy[UP]) != sign (musical_dy[DOWN]))
+           *dy = 0.0;
+         else if (sign (graphical_dy) != sign (musical_dy[DOWN]))
+           *dy = 0.0;
+         else
+           *dy = graphical_dy;
+       }
+      else
+       *dy = 0;
+
+      for (vsize i = 0; i < columns.size (); i++)
+       {
+         Interval note_ext = Note_column::cross_staff_extent (columns[i], commony);
+         Real x = columns[i]->relative_coordinate (commonx, X_AXIS) - x0;

 
 

-      Real x = columns[i]->relative_coordinate (commonx, X_AXIS) - x0;
-      points.push_back (Offset (x, notey));
+         points.push_back (Offset (x, note_ext[dir]));
+       }

     }
 
     }
 

+  if (!follow_beam)
+    {
+      points.push_back (Offset (x0 - x0, staff[dir]));
+      points.push_back (Offset (x1 - x0, staff[dir]));
+    }
+  

   /*
     This is a slight hack. We compute two encompass points from the
     bbox of the smaller tuplets.
   /*
     This is a slight hack. We compute two encompass points from the
     bbox of the smaller tuplets.


@@ -568,8 +619,12 @@ Tuplet_bracket::calc_position_and_height (Grob *me_grob, Real *offset, Real *dy)
       Interval tuplet_x (tuplets[i]->extent (commonx, X_AXIS));
       Interval tuplet_y (tuplets[i]->extent (commony, Y_AXIS));
 
       Interval tuplet_x (tuplets[i]->extent (commonx, X_AXIS));
       Interval tuplet_y (tuplets[i]->extent (commony, Y_AXIS));
 

+      if (!tuplets[i]->is_live ())
+       continue;
+      

       Direction d = LEFT;
       Direction d = LEFT;

-      Drul_array<Real> positions = ly_scm2realdrul (tuplets[i]->get_property ("positions"));
+      Drul_array<Real> positions = robust_scm2interval (tuplets[i]->get_property ("positions"),
+                                                       Interval (0,0));

 
       
       Real other_dy = positions[RIGHT] - positions[LEFT];
 
       
       Real other_dy = positions[RIGHT] - positions[LEFT];


@@ -590,11 +645,12 @@ Tuplet_bracket::calc_position_and_height (Grob *me_grob, Real *offset, Real *dy)
       while (flip (&d) != LEFT);
     }
 
       while (flip (&d) != LEFT);
     }
 

+  *offset = -dir * infinity_f;

   Real factor = (columns.size () > 1) ? 1 / (x1 - x0) : 1.0;
   for (vsize i = 0; i < points.size (); i++)
     {
       Real x = points[i][X_AXIS];
   Real factor = (columns.size () > 1) ? 1 / (x1 - x0) : 1.0;
   for (vsize i = 0; i < points.size (); i++)
     {
       Real x = points[i][X_AXIS];

-      Real tuplety = (*dy) * x * factor;
+      Real tuplety = (*dy) * x * factor + my_offset;

 
       if (points[i][Y_AXIS] * dir > (*offset + tuplety) * dir)
        *offset = points[i][Y_AXIS] - tuplety;
 
       if (points[i][Y_AXIS] * dir > (*offset + tuplety) * dir)
        *offset = points[i][Y_AXIS] - tuplety;


@@ -608,6 +664,8 @@ Tuplet_bracket::calc_position_and_height (Grob *me_grob, Real *offset, Real *dy)
     Kind of pointless since we put them outside the staff anyway, but
     let's leave code for the future when possibly allow them to move
     into the staff once again.
     Kind of pointless since we put them outside the staff anyway, but
     let's leave code for the future when possibly allow them to move
     into the staff once again.

+  
+    This doesn't seem to support cross-staff tuplets atm.

   */
   if (*dy == 0
       && fabs (*offset) < ss * Staff_symbol_referencer::staff_radius (me))
   */
   if (*dy == 0
       && fabs (*offset) < ss * Staff_symbol_referencer::staff_radius (me))


@@ -638,56 +696,10 @@ SCM
 Tuplet_bracket::calc_positions (SCM smob)
 {
   Spanner *me = unsmob_spanner (smob);
 Tuplet_bracket::calc_positions (SCM smob)
 {
   Spanner *me = unsmob_spanner (smob);

-  extract_grob_set (me, "note-columns", columns);

 
 

-  /*
-    Don't print if it doesn't span time.
-   */
-  if (robust_scm2moment (me->get_bound (LEFT)->get_column ()->get_property ("when"), Moment (0))
-      == robust_scm2moment (me->get_bound (RIGHT)->get_column ()->get_property ("when"), Moment (0)))
-    {
-      me->suicide ();
-      return SCM_EOL;
-    }
-
-  
-  Direction dir = get_grob_direction (me);
-  bool equally_long = false;
-  Grob *par_beam = parallel_beam (me, columns, &equally_long);
-
-  /*
-    We follow the beam only if there is one, and we are next to it.
-  */

   Real dy = 0.0;
   Real offset = 0.0;
   Real dy = 0.0;
   Real offset = 0.0;

-  if (!par_beam
-      || get_grob_direction (par_beam) != dir)
-    calc_position_and_height (me, &offset, &dy);
-  else if  (columns.size ()
-           && Note_column::get_stem (columns[0])
-           && Note_column::get_stem (columns.back ()))
-    {
-      /*
-       trigger set_stem_ends
-       */
-      (void) par_beam->get_property ("quantized-positions");
-
-
-      Drul_array<Grob *> stems (Note_column::get_stem (columns[0]),
-                               Note_column::get_stem (columns.back ()));
-
-      
-      
-
-      Real ss = 0.5 * Staff_symbol_referencer::staff_space (me);
-      Real lp = ss * robust_scm2double (stems[LEFT]->get_property ("stem-end-position"), 0.0);
-      Real rp = ss * robust_scm2double (stems[RIGHT]->get_property ("stem-end-position"), 0.0);
-
-      
-      offset = lp + dir * (0.5 + scm_to_double (me->get_property ("padding")));
-      dy = (rp - lp);
-    }
-
+  calc_position_and_height (me, &offset, &dy);

   
   SCM x = scm_cons (scm_from_double (offset),
                    scm_from_double (offset + dy));
   
   SCM x = scm_cons (scm_from_double (offset),
                    scm_from_double (offset + dy));


@@ -727,15 +739,42 @@ Tuplet_bracket::add_tuplet_bracket (Grob *me, Grob *bracket)
   Pointer_group_interface::add_grob (me, ly_symbol2scm ("tuplets"), bracket);
 }
 
   Pointer_group_interface::add_grob (me, ly_symbol2scm ("tuplets"), bracket);
 }
 

-ADD_INTERFACE (Tuplet_bracket,
-              "tuplet-bracket-interface",
-              "A bracket with a number in the middle, used for tuplets. "
-              "When the bracket spans  a line break, the value of "
-              "@code{break-overshoot} determines how far it extends "
-              "beyond the staff. "
-              "At a line break, the markups in the @code{edge-text} are printed "
-              "at the edges. ",
+MAKE_SCHEME_CALLBACK (Tuplet_bracket, calc_cross_staff, 1);
+SCM
+Tuplet_bracket::calc_cross_staff (SCM smob)
+{
+  Grob *me = unsmob_grob (smob);
+  Grob *staff_symbol = 0;
+  extract_grob_set (me, "note-columns", cols);
+  bool equally_long = false;
+  Grob *par_beam = parallel_beam (me, cols, &equally_long);
+
+  if (par_beam)
+    return par_beam->get_property ("cross-staff");

 
 

+  for (vsize i = 0; i < cols.size (); i++)
+    {
+      Grob *stem = unsmob_grob (cols[i]->get_object ("stem"));
+      if (!stem)
+       continue;
+      
+      if (to_boolean (stem->get_property ("cross-staff")))
+       return SCM_BOOL_T;
+
+      Grob *stem_staff = Staff_symbol_referencer::get_staff_symbol (stem);
+      if (staff_symbol && (stem_staff != staff_symbol))
+        return SCM_BOOL_T;
+      staff_symbol = stem_staff;
+    }
+  return SCM_BOOL_F;
+}
+
+ADD_INTERFACE (Tuplet_bracket,
+              "A bracket with a number in the middle, used for tuplets."
+              "  When the bracket spans a line break, the value of"
+              " @code{break-overshoot} determines how far it extends"
+              " beyond the staff.  At a line break, the markups in the"
+              " @code{edge-text} are printed at the edges.",

 
               /* properties */
               "bracket-flare "
 
               /* properties */
               "bracket-flare "


@@ -746,6 +785,8 @@ ADD_INTERFACE (Tuplet_bracket,
               "direction "
               "edge-height "
               "edge-text "
               "direction "
               "edge-height "
               "edge-text "

+              "full-length-padding "
+              "full-length-to-extent "

               "gap "
               "positions "
               "note-columns "
               "gap "
               "positions "
               "note-columns "


@@ -754,6 +795,7 @@ ADD_INTERFACE (Tuplet_bracket,
               "shorten-pair "
               "staff-padding "
               "thickness "
               "shorten-pair "
               "staff-padding "
               "thickness "

-              "tuplets ");
+              "tuplets "
+              );