release: 0.1.32

[lilypond.git] / lily / stem.cc

diff --git a/lily/stem.cc b/lily/stem.cc
index a2aa5c55c4b7b5b85facd55522258cee705f6c95..814eb6af83f0126b1584bb2f4d3661ac14d324a1 100644 (file)
--- a/lily/stem.cc
+++ b/lily/stem.cc
@@ -9,7 +9,7 @@
 */
 
 #include "stem.hh"
-#include "dimen.hh" 
+#include "dimen.hh"
 #include "debug.hh"
 #include "paper-def.hh"
 #include "note-head.hh"
@@ -24,11 +24,11 @@ const int STEMLEN=7;
 
 IMPLEMENT_IS_TYPE_B1 (Stem,Item);
 
-Stem::Stem () 
+Stem::Stem ()
 {
   /*
     TODO: staff-size
-   */
+    */
   abbrev_flag_i_ = 0;
   beam_l_ = 0;
   beams_left_i_ = 0;
@@ -43,23 +43,17 @@ Stem::Stem ()
   beam_gap_i_ = 0;
 }
 
-int
-Stem::min_head_i () const
+Interval_t<int>
+Stem::head_positions () const
 {
-  int m = 1000;
+  Interval_t<int> r;
   for (int i =0; i < head_l_arr_.size (); i++)
-    m = m <? head_l_arr_[i]->position_i_;
-  return m;
-}
-
-int
-Stem::max_head_i () const
-{
-  int m = -1000;
-  for (int i =0; i < head_l_arr_.size (); i++)
-    m = m >? head_l_arr_[i]->position_i_;
-  return m;
-  
+    {
+      int p = head_l_arr_[i]->position_i_;
+      r[BIGGER] = r[BIGGER] >? p;
+      r[SMALLER] = r[SMALLER] <? p;
+    }
+  return r;
 }
 
 void
@@ -72,7 +66,7 @@ Stem::do_print () const
 #endif
 }
 
-Real 
+Real
 Stem::stem_length_f () const
 {
   return yextent_drul_[UP]-yextent_drul_[DOWN] ;
@@ -81,13 +75,13 @@ Stem::stem_length_f () const
 Real
 Stem::stem_start_f () const
 {
-  return (dir_ < 0)? yextent_drul_[UP] : yextent_drul_[DOWN];
+  return yextent_drul_[Direction(-dir_)];
 }
 
 Real
 Stem::stem_end_f () const
 {
-  return (dir_ < 0)? yextent_drul_[DOWN] : yextent_drul_[UP];
+  return yextent_drul_[dir_];
 }
 
 
@@ -95,12 +89,12 @@ void
 Stem::set_stemend (Real se)
 {
   // todo: margins
-  if (!  ((dir_ > 0 && se >= max_head_i ()) || 
-         (se <= min_head_i () && dir_ <0)))    
-    warning ("Weird stem size; check for narrow beams");
+  if (dir_ && dir_ * head_positions()[dir_] >= se*dir_)
+    warning (_("Weird stem size; check for narrow beams"));
 
-  yextent_drul_[UP]  = (dir_ < 0) ? max_head_i () : se;
-  yextent_drul_[DOWN]  = (dir_ < 0) ? se  : min_head_i ();
+  
+  yextent_drul_[dir_]  =  se;
+  yextent_drul_[Direction(-dir_)] = head_positions()[-dir_];
 }
 
 int
@@ -110,60 +104,41 @@ Stem::type_i () const
 }
 
 void
-Stem::add (Note_head *n)
+Stem::add (Rhythmic_head *n)
 {
-  n->add_dependency (this);
-  head_l_arr_.push (n);
-}
- 
-void
-Stem::add (Rest *r)
-{
-  rest_l_arr_.push (r);
-  r->add_dependency (this);    // ?
+  n->add_dependency (this);    // ?
+  if (n->is_type_b (Note_head::static_name ()))
+    {
+      head_l_arr_.push ((Note_head*)n);
+    }
+  else if (n->is_type_b (Rest::static_name ()))
+    {
+      rest_l_arr_.push ((Rest*)n);
+    }
 }
 
 bool
 Stem::invisible_b () const
 {
-  
-  return (!head_l_arr_.size () || 
+  return (!head_l_arr_.size () ||
     head_l_arr_[0]->balltype_i_ <= 0);
-
 }
 
-// if dir_ is set we return fake values.
 int
-Stem::get_center_distance_from_top ()
+Stem::get_center_distance (Direction d)
 {
-  if (dir_)
-    return (dir_ > 0) ? 0 : 1;
-
-  int staff_center = staff_size_i_ / 2;
-  int max = max_head_i () - staff_center;
-  return max >? 0;
-}
-
-// if dir_ is set we return fake values.
-int
-Stem::get_center_distance_from_bottom ()
-{
-  if (dir_)
-    return (dir_ > 0) ? 1 : 0;
-
-  int staff_center = staff_size_i_ / 2;
-  int min = staff_center - min_head_i ();
-  return min >? 0;
+  int staff_center = 0;
+  int distance = d*(head_positions()[d] - staff_center);
+  return distance >? 0;
 }
 
 Direction
 Stem::get_default_dir ()
 {
-  if (dir_)
-    return dir_;
-  return (get_center_distance_from_top () >=
-         get_center_distance_from_bottom ()) ? 
-    (Direction)-1 : (Direction)1;
+  return (get_center_distance (UP) >=
+         get_center_distance (DOWN)) 
+    ? DOWN 
+    : UP;
 }
 
 
@@ -176,26 +151,36 @@ Stem::set_default_dir ()
 void
 Stem::set_default_stemlen ()
 {
+  Real len = STEMLEN;
+  Real dy = paper ()->interbeam_f ();
+
+  // ugh, should get nice *rule* for this
+  if (abbrev_flag_i_ > 1)
+    len += (abbrev_flag_i_ - 1)* dy / 2;
+
+
   if (!dir_)
     set_default_dir ();
 
-  // ugh... how about non 5-line staffs?
-  bool on_ledger_line_b = ((max_head_i () < -2 && dir_ == 1)
-                          //    || (min_head_i () > staff_size_i_ && dir_ == -1));
-                          || (min_head_i () > staff_size_i_ + 3 && dir_ == -1));
-  if (on_ledger_line_b)
-    {
-      set_stemend (staff_size_i_ / 2 - 1);
-    }
-  else 
+  /* If the stem points in the "wrong" direction, it should be
+     shortened, according to [Roush & Gourlay].  Their suggestion to knock off
+     a whole staffspace is a bit drastical though.
+     */
+  else if (dir_ != get_default_dir ())
+    len  -= 1.0;
+
+  if (flag_i_ >= 5)
+    len += 2.0;
+  if (flag_i_ >= 6)
+    len += 1.0;
+  
+  set_stemend ((dir_ > 0) ? head_positions()[BIGGER] + len :
+              head_positions()[SMALLER] - len);
+
+
+  if (dir_ * stem_end_f () < 0)
     {
-      Real dy = paper ()->interbeam_f ();
-      Real len = STEMLEN;
-      // ugh, should get nice *rule* for this
-      if (abbrev_flag_i_ > 1)
-       len += (abbrev_flag_i_ - 1)* dy / 2;
-      set_stemend ((dir_ > 0) ? max_head_i () + len :
-                  min_head_i () - len);
+      set_stemend (0);
     }
 }
 
@@ -205,18 +190,16 @@ Stem::set_default_extents ()
   if (!stem_length_f ())
     set_default_stemlen ();
 
-  set_stemend ((dir_< 0) ? 
-              max_head_i ()-stem_length_f (): min_head_i () + stem_length_f ());
-  
+
   if (dir_ == UP)
     stem_xdir_ = RIGHT;
-  if (head_l_arr_[0]->balltype_i_ <= 0)
+  if (invisible_b ())
     stem_xdir_ = CENTER;
 }
 
 /*
   TODO
-  
+
   move into note_column.cc
 
   */
@@ -226,18 +209,18 @@ Stem::set_noteheads ()
   if (!head_l_arr_.size ())
     return;
   head_l_arr_.sort (Note_head::compare);
-  if (dir_ < 0) 
+  if (dir_ < 0)
     head_l_arr_.reverse ();
-  
+
   head_l_arr_[0]->extremal_i_ = -1;
   head_l_arr_.top ()->extremal_i_ = 1;
   int parity=1;
   int lastpos = head_l_arr_[0]->position_i_;
-  for (int i=1; i < head_l_arr_.size (); i ++) 
+  for (int i=1; i < head_l_arr_.size (); i ++)
     {
       int dy =abs (lastpos- head_l_arr_[i]->position_i_);
-       
-      if (dy <= 1) 
+
+      if (dy <= 1)
        {
          if (parity)
            head_l_arr_[i]->x_dir_ = (stem_xdir_ == LEFT) ? LEFT : RIGHT;
@@ -281,89 +264,96 @@ Stem::do_width () const
 }
 
 
-  
+
 Molecule
 Stem::abbrev_mol () const
 {
   Real dy = paper ()->interbeam_f ();
   Real w = 1.5 * paper ()->lookup_l ()->ball (2).dim_.x ().length ();
   Real beamdy = paper ()->interline_f () / 2;
- 
+
   int beams_i = 0;
   Real slope = paper ()->internote_f () / 4;
- 
+
   if (beam_l_) {
     // huh?
       slope = 2 * beam_l_->slope;
     // ugh, rather calc from Abbreviation_req
-      beams_i = beams_right_i_ >? beams_left_i_; 
+      beams_i = beams_right_i_ >? beams_left_i_;
   }
   paper ()->lookup_l ()->beam (slope, 20 PT);
-  
+
   Molecule beams;
   Atom a (paper ()->lookup_l ()->beam (slope, w));
   a.translate (Offset(- w / 2, stem_end_f () - (w / 2 * slope)));
-  // ugh
-    if (!beams_i)
-      a.translate (dy + beamdy - dir_ * dy, Y_AXIS);
-    else
-      a.translate (2 * beamdy - dir_ * (beamdy - dy), Y_AXIS);
   
-  for (int i = 0; i < abbrev_flag_i_; i++) 
+  // ugh
+  if (!beams_i)
+    a.translate_axis (dy + beamdy - dir_ * dy, Y_AXIS);
+  else
+    a.translate_axis (2 * beamdy - dir_ * (beamdy - dy), Y_AXIS);
+
+  for (int i = 0; i < abbrev_flag_i_; i++)
     {
       Atom b (a);
-      b.translate (-dir_ * dy * (beams_i + i), Y_AXIS);
+      b.translate_axis (-dir_ * dy * (beams_i + i), Y_AXIS);
       beams.add (b);
     }
-  
+
   return beams;
 }
 
+const Real ANGLE = 20* (2.0*M_PI/360.0); // ugh!
+
 Molecule*
- Stem::brew_molecule_p () const 
+Stem::brew_molecule_p () const
 {
   Molecule *mol_p =new Molecule;
-  
-  Real bot  = yextent_drul_[DOWN];
-  Real top = yextent_drul_[UP];
-  
-  assert (bot!=top);
-  
   Paper_def *p =paper ();
-  
+  Drul_array<Real> stem_y = yextent_drul_;
   Real dy = p->internote_f ();
+  
+
+  Real head_wid = 0;
+  if (head_l_arr_.size ())
+    head_wid = head_l_arr_[0]->width ().length ();
+  stem_y[Direction(-dir_)] += dir_ * head_wid * tan(ANGLE)/(2*dy);
+  
   if (!invisible_b ())
     {
-      Atom ss =p->lookup_l ()->stem (bot*dy,top*dy);
+      Atom ss =p->lookup_l ()->stem (stem_y[DOWN]*dy,
+                                    stem_y[UP]*dy);
       mol_p->add (Atom (ss));
     }
-  
+
   if (!beam_l_ &&abs (flag_i_) > 2)
     {
       Atom fl = p->lookup_l ()->flag (flag_i_, dir_);
-      mol_p->add_at_edge (Y_AXIS, dir_, Molecule (Atom (fl)));
+      fl.translate_axis(stem_y[dir_]*dy, Y_AXIS);
+      mol_p->add(fl);
       assert (!abbrev_flag_i_);
     }
-  
+
   if (abbrev_flag_i_)
     mol_p->add (abbrev_mol ());
 
   if (head_l_arr_.size())
     {
-      mol_p->translate (note_delta_f (), X_AXIS);
+      mol_p->translate_axis (note_delta_f (), X_AXIS);
     }
   return mol_p;
 }
 
-Real 
+Real
 Stem::note_delta_f () const
 {
   Real r=0;
   if (head_l_arr_.size())
     {
-      r += head_l_arr_[0]->width ().length() * (stem_xdir_+1.0)/2.0;
-      if (stem_xdir_ == RIGHT)
-       r -= paper ()->rule_thickness ();
+      Interval head_wid(0,  head_l_arr_[0]->width ().length ());
+      Real rule_thick(paper ()->rule_thickness ());
+      Interval stem_wid(-rule_thick/2, rule_thick/2);
+      r = head_wid[stem_xdir_] - stem_wid[stem_xdir_];
     }
   return r;
 }
@@ -373,7 +363,9 @@ Stem::hpos_f () const
   return note_delta_f () +Item::hpos_f ();
 }
 
-
+/*
+  TODO:  head_l_arr_/rest_l_arr_ in  do_substitute_dependent ()
+ */
 void
  Stem::do_substitute_dependency (Score_elem*o,Score_elem*n)
 {