[TODO]
* begin and end should be treated as a/acknowledge Scripts.
* broken slur should have uniform trend
+ * smart changing of endings
+ * smart changing of (Y-?)offsets to avoid ugly beziers
+ (along-side-stem)
*/
#include "directional-element-interface.hh"
#include "paper-column.hh"
#include "molecule.hh"
#include "debug.hh"
-#include "box.hh"
-#include "bezier-bow.hh"
+#include "slur-bezier-bow.hh"
#include "main.hh"
#include "cross-staff.hh"
#include "group-interface.hh"
#include "staff-symbol-referencer.hh"
-
-
-class Slur_bezier_bow : public Bezier_bow
-{
-public:
- Slur_bezier_bow (Array<Offset> encompass, Direction dir);
- Array<Real> area_x_gradients_array (Real area);
- void blow_fit ();
- Real enclosed_area_f () const;
- Real fit_factor () const;
- void minimise_enclosed_area (Paper_def* paper_l, Real default_height);
-};
-
-Slur_bezier_bow::Slur_bezier_bow (Array<Offset> encompass, Direction dir)
- : Bezier_bow (encompass, dir)
-{
-}
-
-void
-Slur_bezier_bow::blow_fit ()
-{
- Real len = curve_.control_[3][X_AXIS];
- Real h = curve_.control_[1][Y_AXIS] * fit_factor () / len;
- curve_.control_[1][Y_AXIS] = h * len;
- curve_.control_[2][Y_AXIS] = h * len;
- curve_.assert_sanity ();
-}
-
-
-Real
-Slur_bezier_bow::enclosed_area_f () const
-{
- Real a = 0;
- for (int i=0; i < encompass_.size (); i++)
- {
- Interval x;
- Interval y;
- if (i == 0)
- {
- x = Interval (0, encompass_[1][X_AXIS] / 2);
- y = Interval (0,
- curve_.get_other_coordinate (X_AXIS,
- encompass_[1][X_AXIS]
- / 2));
- }
- else if (i == encompass_.size () - 1)
- {
- x = Interval ((encompass_[i-1][X_AXIS] + encompass_[i][X_AXIS])/2,
- encompass_[i][X_AXIS]);
- y = Interval (0,
- (curve_.get_other_coordinate (X_AXIS,
- (x[MIN] + x[MAX]) / 2)));
- }
- else
- {
- x = Interval ((encompass_[i-1][X_AXIS] + encompass_[i][X_AXIS]) / 2,
- (encompass_[i][X_AXIS] + encompass_[i+1][X_AXIS]) / 2);
- y = Interval (encompass_[i][Y_AXIS],
- (curve_.get_other_coordinate (X_AXIS, x[MIN])
- + curve_.get_other_coordinate (X_AXIS,
- (x[MIN] + x[MAX]) / 2)
- + curve_.get_other_coordinate (X_AXIS, x[MAX])) / 3);
- }
-
- Real da = x.length () * y.length ();
- a += da;
- }
- return a;
-}
-
-Array<Real>
-Slur_bezier_bow::area_x_gradients_array (Real area)
-{
- Real len = curve_.control_[3][X_AXIS];
- Real grow = len / 10.0;
- Array<Real> da (2);
- for (int i=0; i < 2; i++)
- {
- Real r = curve_.control_[i+1][X_AXIS];
- curve_.control_[i+1][X_AXIS] += grow;
- da[i] = (enclosed_area_f () - area) / grow;
- curve_.control_[i+1][X_AXIS] = r;
- }
- return da;
-}
-
-void
-Slur_bezier_bow::minimise_enclosed_area (Paper_def* paper_l,
- Real default_height)
-{
- Real length = curve_.control_[3][X_AXIS];
- Real sb = paper_l->get_var ("slur_beautiful");
- Real beautiful = length * default_height * sb;
-
- DEBUG_OUT << to_str ("Beautiful: %f\n", beautiful);
- DEBUG_OUT << to_str ("Length: %f\n", length);
- DEBUG_OUT << to_str ("D-height: %f\n", default_height);
- DEBUG_OUT << to_str ("FitFac: %f\n", fit_factor ());
-
- if (fit_factor () > 1.0)
- blow_fit ();
-
- Real pct_c0 = paper_l->get_var ("bezier_pct_c0");
- Real pct_c3 = paper_l->get_var ("bezier_pct_c3");
- Real pct_in_max = paper_l->get_var ("bezier_pct_in_max");
- Real pct_out_max = paper_l->get_var ("bezier_pct_out_max");
- Real steps = paper_l->get_var ("bezier_area_steps");
-
- for (int i=0; i < steps; i++)
- {
- Real area = enclosed_area_f ();
- if (!i)
- DEBUG_OUT << to_str ("Init area: %f\n", area);
-
- if (area <= beautiful)
- break;
-
- Array<Real> da = area_x_gradients_array (area);
-
- // urg
- Real pct = pct_c0 + pct_c3 * length * length * length;
- pct *= (steps - i) / steps;
- if (da[0] > 0 || da[1] < 0)
- pct = pct <? pct_out_max;
- else
- pct = pct <? pct_in_max;
-
- Real u = (abs (curve_.control_[1][X_AXIS] / da[0])
- <? abs ((curve_.control_[3][X_AXIS]
- - curve_.control_[2][X_AXIS]) / da[1]));
-
- DEBUG_OUT << to_str ("pct: %f\n", pct);
- DEBUG_OUT << to_str ("u: %f\n", u);
-
- DEBUG_OUT << to_str ("da: (%f, %f)\n", da[0], da[1]);
- DEBUG_OUT << to_str ("da*u: (%f, %f)\n", da[0]*u*pct, da[1]*u*pct);
- DEBUG_OUT << to_str ("cx: (%f, %f)\n", curve_.control_[1][X_AXIS],
- curve_.control_[2][X_AXIS]);
-
- curve_.control_[1][X_AXIS] -= da[0] * u * pct;
- curve_.control_[2][X_AXIS] -= da[1] * u * pct;
- }
-
- Real area = enclosed_area_f ();
- DEBUG_OUT << to_str ("Exarea: %f\n", area);
-}
-
-
-
-/*
- max ( encompass.y / curve.y )
-
- */
-Real
-Slur_bezier_bow::fit_factor () const
+Slur::Slur (SCM s)
+ : Spanner (s)
{
- Real x1 = encompass_[0][X_AXIS];
- Real x2 = encompass_.top ()[X_AXIS];
-
- Real factor = 0.0;
- for (int i=1; i < encompass_.size ()-1; i++)
- {
- if (encompass_[i][X_AXIS] > x1 && encompass_[i][X_AXIS] < x2)
- {
- Real y = curve_.get_other_coordinate (X_AXIS, encompass_[i][X_AXIS]);
- if (y>0)
- {
- Real f = encompass_[i][Y_AXIS] / y;
- factor = factor >? f;
- }
- }
- }
-
-
- return factor;
-}
-
-
-
-
-
-/*
- Slur
-*/
-
-Slur::Slur ()
-{
- // URG
- dy_f_drul_[LEFT] = dy_f_drul_[RIGHT] = 0.0;
- dx_f_drul_[LEFT] = dx_f_drul_[RIGHT] = 0.0;
-
- set_elt_property ("note-columns", SCM_EOL);
+ set_elt_property ("attachment", gh_cons (SCM_BOOL_F, SCM_BOOL_F));
+ set_elt_pointer ("note-columns", SCM_EOL);
set_elt_property ("control-points", SCM_EOL);
}
void
Slur::add_column (Note_column*n)
{
- if (!gh_pair_p (n->get_elt_property ("note-heads")))
+ if (!gh_pair_p (n->get_elt_pointer ("note-heads")))
warning (_ ("Putting slur over rest. Ignoring."));
else
{
Pointer_group_interface (this, "note-columns").add_element (n);
add_dependency (n);
}
+
+ add_bound_item (this, n);
}
void
void
Slur::do_add_processing ()
{
+#if 0
Link_array<Note_column> encompass_arr =
Pointer_group_interface__extract_elements (this, (Note_column*)0, "note-columns");
if (encompass_arr.size () > 1)
set_bound (RIGHT, encompass_arr.top ());
}
+#endif
}
{
Offset o;
Stem* stem_l = col->stem_l ();
- Direction dir = directional_element (this).get ();
+ Direction dir = Directional_element_interface (this).get ();
if (!stem_l)
{
o[Y_AXIS] = col->extent (Y_AXIS)[dir];
return o;
}
- Direction stem_dir = directional_element (stem_l).get ();
+ Direction stem_dir = Directional_element_interface (stem_l).get ();
o[X_AXIS] = stem_l->relative_coordinate (0, X_AXIS);
/*
return o;
}
-void
-Slur::after_line_breaking ()
+GLUE_SCORE_ELEMENT(Slur,after_line_breaking);
+
+SCM
+Slur::member_after_line_breaking ()
{
set_extremities ();
set_control_points ();
+ return SCM_UNDEFINED;
}
-/*
- urg
- FIXME
- */
-void
-Slur::set_extremities ()
+SCM
+slur_get_bound (SCM slur, SCM dir)
{
- Link_array<Note_column> encompass_arr =
- Pointer_group_interface__extract_elements (this, (Note_column*)0, "note-columns");
-
- if (!encompass_arr.size ())
- {
- set_elt_property ("transparent", SCM_BOOL_T);
- set_extent_callback (0, X_AXIS);
- set_extent_callback (0, Y_AXIS);
- return;
- }
-
- if (!directional_element (this).get ())
- directional_element (this).set (get_default_dir ());
-
-
- /*
- Slur and tie placement [OSU]
-
- Slurs:
- * x = centre of head - d * x_gap_f
+ return ((Slur*)unsmob_element (slur))->get_bound (to_dir (dir))->self_scm_;
+}
- TODO:
- * y = length < 5ss : horizontal tangent + d * 0.25 ss
- y = length >= 5ss : y next interline - d * 0.25 ss
- */
+SCM
+score_element_get_pointer (SCM se, SCM name)
+{
+ SCM s = scm_assq (name, unsmob_element (se)->pointer_alist_);
+ return (s == SCM_BOOL_F) ? SCM_UNDEFINED : gh_cdr (s);
+}
- Real staff_space = paper_l ()->get_var ("interline");
- Real half_staff_space = staff_space / 2;
+SCM
+score_element_get_property (SCM se, SCM name)
+{
+ SCM s = scm_assq (name, unsmob_element (se)->property_alist_);
+ return (s == SCM_BOOL_F) ? SCM_UNDEFINED : gh_cdr (s);
+}
- Real x_gap_f = paper_l ()->get_var ("slur_x_gap");
- Real y_gap_f = paper_l ()->get_var ("slur_y_gap");
+void
+init_score_elts ()
+{
+ scm_make_gsubr ("get-pointer", 2 , 0, 0,
+ (SCM(*)(...)) score_element_get_pointer);
+ scm_make_gsubr ("get-property", 2 , 0, 0,
+ (SCM(*)(...)) score_element_get_property);
+ scm_make_gsubr ("get-bound", 2 , 0, 0,
+ (SCM(*)(...)) slur_get_bound);
+}
- Drul_array<Note_column*> note_column_drul;
- note_column_drul[LEFT] = encompass_arr[0];
- note_column_drul[RIGHT] = encompass_arr.top ();
+ADD_SCM_INIT_FUNC (score_elt, init_score_elts);
- bool fix_broken_b = false;
+void
+Slur::set_extremities ()
+{
+ if (!Directional_element_interface (this).get ())
+ Directional_element_interface (this).set (get_default_dir ());
- Direction my_dir = directional_element (this).get ();
-
- Direction d = LEFT;
+ Direction dir = LEFT;
do
{
- dx_f_drul_[d] = 0;
- dy_f_drul_[d] = 0;
-
- if ((note_column_drul[d] == get_bound (d))
- && note_column_drul[d]->first_head ()
- && (note_column_drul[d]->stem_l ()))
+ if (!gh_symbol_p (index_cell (get_elt_property ("attachment"), dir)))
{
- Stem* stem_l = note_column_drul[d]->stem_l ();
- /*
- side directly attached to note head;
- no beam getting in the way
- */
- if ((stem_l->extent (Y_AXIS).empty_b ()
- || !((stem_l->get_direction () == my_dir) && (my_dir != d)))
- && !((my_dir == stem_l->get_direction ())
- && stem_l->beam_l () && (stem_l->beam_count (-d) >= 1)))
+
+ // for (SCM s = get_elt_property ("slur-extremity-rules"); s != SCM_EOL; s = gh_cdr (s))
+ for (SCM s = scm_eval (ly_symbol2scm ("slur-extremity-rules"));
+ s != SCM_EOL; s = gh_cdr (s))
{
- dx_f_drul_[d] = get_bound (d)->extent (X_AXIS).length () / 2;
- dx_f_drul_[d] -= d * x_gap_f;
-
- if (stem_l->get_direction () != my_dir)
+ SCM r = scm_eval (scm_listify (gh_caar (s),
+ this->self_scm_,
+ gh_int2scm ((int)dir),
+ SCM_UNDEFINED));
+ if (r != SCM_BOOL_F)
{
- dy_f_drul_[d] = note_column_drul[d]->extent (Y_AXIS)[my_dir];
+ index_set_cell (get_elt_property ("attachment"), dir,
+ gh_cdar (s));
+ break;
}
- else
- {
- dy_f_drul_[d] = stem_l->chord_start_f ()
- + my_dir * half_staff_space;
- }
- dy_f_drul_[d] += my_dir * y_gap_f;
}
- /*
- side attached to (visible) stem
- */
- else
+ }
+ }
+ while (flip (&dir) != LEFT);
+}
+
+Offset
+Slur::get_attachment (Direction dir) const
+{
+ SCM s = get_elt_property ("attachment");
+ SCM a = dir == LEFT ? gh_car (s) : gh_cdr (s);
+ String str = ly_symbol2string (a);
+ Real ss = Staff_symbol_referencer_interface (this).staff_space ();
+ Real hs = ss / 2.0;
+ Offset o;
+ if (Note_column* n = dynamic_cast<Note_column*> (get_bound (dir)))
+ {
+ if (Stem* st = dynamic_cast<Stem*> (n->stem_l ()))
+ {
+ if (str == "head")
{
- dx_f_drul_[d] = stem_l->relative_coordinate (0, X_AXIS)
- - get_bound (d)->relative_coordinate (0, X_AXIS);
+ o = Offset (0, st->chord_start_f ());
/*
- side attached to beamed stem
+ Default position is centered in X, on outer side of head Y
*/
- if (stem_l->beam_l () && (stem_l->beam_count (-d) >= 1))
- {
- dy_f_drul_[d] = stem_l->extent (Y_AXIS)[my_dir];
- dy_f_drul_[d] += my_dir * 2 * y_gap_f;
- }
+ o += Offset (0.5 * n->extent (X_AXIS).length (),
+ 0.5 * ss * Directional_element_interface (this).get ());
+ }
+ else if (str == "alongside-stem")
+ {
+ o = Offset (0, st->chord_start_f ());
+ /*
+ Default position is on stem X, on outer side of head Y
+ */
+ o += Offset (n->extent (X_AXIS).length ()
+ * (1 + st->get_direction ()),
+ 0.5 * ss * Directional_element_interface (this).get ());
+ }
+ else if (str == "stem")
+ {
+ o = Offset (0, st->stem_end_position () * hs);
/*
- side attached to notehead, with stem getting in the way
+ Default position is on stem X, at stem end Y
*/
- else
+ o += Offset (0.5 *
+ (n->extent (X_AXIS).length ()
+ - st->extent (X_AXIS).length ())
+ * (1 + st->get_direction ()),
+ 0);
+ }
+ else if (str == "loose-end")
+ {
+ SCM other_a = dir == LEFT ? gh_cdr (s) : gh_car (s);
+ if (ly_symbol2string (other_a) != "loose-end")
{
- dx_f_drul_[d] -= d * x_gap_f;
-
- dy_f_drul_[d] = stem_l->chord_start_f ()
- + my_dir * half_staff_space;
- dy_f_drul_[d] += my_dir * y_gap_f;
+ o = Offset (0, get_attachment (-dir)[Y_AXIS]);
}
}
- }
- /*
- loose end
- */
- else
- {
- dx_f_drul_[d] = get_broken_left_end_align ();
-
- /*
- broken: should get y from other piece, so that slur
- continues up/down trend
-
- for now: be horizontal..
- */
- fix_broken_b = true;
+
+
+ SCM l = scm_assoc
+ (scm_listify (a,
+ gh_int2scm (st->get_direction () * dir),
+ gh_int2scm (Directional_element_interface (this).get () * dir),
+ SCM_UNDEFINED),
+ scm_eval (ly_symbol2scm ("slur-extremity-offset-alist")));
+
+ if (l != SCM_BOOL_F)
+ {
+ o += ly_scm2offset (gh_cdr (l)) * ss * dir;
+ }
}
}
- while (flip (&d) != LEFT);
-
- int cross_count = cross_staff_count ();
- bool interstaff_b = (0 < cross_count) && (cross_count < encompass_arr.size ());
- Drul_array<Offset> info_drul;
- Drul_array<Real> interstaff_interval;
- do
- {
- info_drul[d] = encompass_offset (encompass_arr.boundary (d, 0));
- interstaff_interval[d] = - calc_interstaff_dist (encompass_arr.boundary (d,0),
- this);
- }
- while (flip (&d) != LEFT);
-
- Real interstaff_f = interstaff_interval[RIGHT] - interstaff_interval[LEFT];
+ /*
+ URG
+ */
- if (fix_broken_b)
+ if (str != "loose-end")
{
- Direction d = (encompass_arr.top () != get_bound (RIGHT)) ?
- RIGHT : LEFT;
- dy_f_drul_[d] = info_drul[d][Y_AXIS];
- if (!interstaff_b)
- {
- dy_f_drul_[d] -= interstaff_interval[d];
- if (cross_count) // interstaff_i ?
- {
- dy_f_drul_[LEFT] += interstaff_interval[d];
- dy_f_drul_[RIGHT] += interstaff_interval[d];
- }
- }
+ Link_array<Note_column> encompass_arr =
+ Pointer_group_interface__extract_elements (this, (Note_column*)0,
+ "note-columns");
+ o -= Offset (0, calc_interstaff_dist (dir == LEFT ? encompass_arr[0]
+ : encompass_arr.top (), this));
}
-
- if (!fix_broken_b)
- dy_f_drul_[RIGHT] += interstaff_f;
+ return o;
}
-
int
Slur::cross_staff_count ()const
{
Array<Offset> offset_arr;
-#if 0
- /*
- check non-disturbed slur
- FIXME: x of ends off by a tiny bit!!
- */
- offset_arr.push (Offset (0, dy_f_drul_[LEFT]));
- offset_arr.push (Offset (0, dy_f_drul_[RIGHT]));
- return offset_arr;
-#endif
-
Offset origin (relative_coordinate (0, X_AXIS), 0);
int first = 1;
int last = encompass_arr.size () - 2;
- offset_arr.push (Offset (dx_f_drul_[LEFT], dy_f_drul_[LEFT]));
+ offset_arr.push (get_attachment (LEFT));
/*
left is broken edge
*/
-
int cross_count = cross_staff_count ();
+
+ /*
+ URG
+ */
bool cross_b = cross_count && cross_count < encompass_arr.size ();
if (encompass_arr[0] != get_bound (LEFT))
{
first--;
- Real is = calc_interstaff_dist (encompass_arr[0], this);
+ Real is = calc_interstaff_dist (encompass_arr[0], this);
if (cross_b)
offset_arr[0][Y_AXIS] += is;
}
offset_arr.push (o - origin);
}
- offset_arr.push (Offset (spanner_length ()+ dx_f_drul_[RIGHT],
- dy_f_drul_[RIGHT]));
+ offset_arr.push (Offset (spanner_length (), 0) + get_attachment (RIGHT));
return offset_arr;
}
}
-
/*
Ugh should have dash-length + dash-period
*/
-Molecule
-Slur::do_brew_molecule () const
+GLUE_SCORE_ELEMENT(Slur,brew_molecule);
+SCM
+Slur::member_brew_molecule () const
{
Real thick = paper_l ()->get_var ("slur_thickness");
Bezier one = get_curve ();
if (gh_number_p (d))
a = lookup_l ()->dashed_slur (one, thick, thick * gh_scm2double (d));
else
- a = lookup_l ()->slur (one, directional_element (this).get () * thick, thick);
+ a = lookup_l ()->slur (one, Directional_element_interface (this).get () * thick, thick);
- return a;
+ return a.create_scheme();
}
void
Slur::set_control_points ()
{
Slur_bezier_bow bb (get_encompass_offset_arr (),
- directional_element (this).get ());
+ Directional_element_interface (this).get ());
Real staff_space = Staff_symbol_referencer_interface (this).staff_space ();
Real h_inf = paper_l ()->get_var ("slur_height_limit_factor") * staff_space;
Bezier b;
int i = 0;
- if (!directional_element (this).get ())
+ if (!Directional_element_interface (this).get ()
+ || ! gh_symbol_p (index_cell (get_elt_property ("attachment"), LEFT)))
((Slur*)this)->set_extremities ();
if (!gh_pair_p (get_elt_property ("control-points")))
}
Array<Offset> enc (get_encompass_offset_arr ());
- Direction dir = directional_element (this).get ();
+ Direction dir = Directional_element_interface (this).get ();
Real x1 = enc[0][X_AXIS];
Real x2 = enc.top ()[X_AXIS];