source file of the GNU LilyPond music typesetter
- (c) 1997--2000 Han-Wen Nienhuys <hanwen@cs.uu.nl>
+ (c) 1997--2001 Han-Wen Nienhuys <hanwen@cs.uu.nl>
Jan Nieuwenhuizen <janneke@gnu.org>
*/
/*
[TODO]
- * shorter! (now +- 1000 lines)
- * less hairy code
- * move paper vars to scm
- remove *-hs variables, and do all y-position stuff in staff-space.
-*/
+ -* shorter! (now +- 1000 lines)
+
+ -* less hairy code
+
+ */
#include <math.h> // tanh.
-
+#include "molecule.hh"
#include "directional-element-interface.hh"
#include "beaming.hh"
#include "beam.hh"
#include "lookup.hh"
#include "group-interface.hh"
#include "staff-symbol-referencer.hh"
-#include "cross-staff.hh"
#include "item.hh"
#include "spanner.hh"
#include "warn.hh"
void
-Beam::add_stem (Score_element*me, Score_element*s)
+Beam::add_stem (Grob*me, Grob*s)
{
- Pointer_group_interface gi (me, "stems");
- gi.add_element (s);
+ Pointer_group_interface:: add_element (me, "stems", s);
s->add_dependency (me);
assert (!Stem::beam_l (s));
- s->set_elt_property ("beam", me->self_scm ());
+ s->set_grob_property ("beam", me->self_scm ());
add_bound_item (dynamic_cast<Spanner*> (me), dynamic_cast<Item*> (s));
}
int
-Beam::get_multiplicity (Score_element*me)
+Beam::get_multiplicity (Grob*me)
{
int m = 0;
- for (SCM s = me->get_elt_property ("stems"); gh_pair_p (s); s = gh_cdr (s))
+ for (SCM s = me->get_grob_property ("stems"); gh_pair_p (s); s = gh_cdr (s))
{
- Score_element * sc = unsmob_element (gh_car (s));
+ Grob * sc = unsmob_grob (gh_car (s));
if (Stem::has_interface (sc))
m = m >? Stem::beam_count (sc,LEFT) >? Stem::beam_count (sc,RIGHT);
[Alternatively, stems could set its own directions, according to
their beam, during 'final-pre-processing'.]
*/
-MAKE_SCHEME_CALLBACK(Beam,before_line_breaking,1);
+MAKE_SCHEME_CALLBACK (Beam,before_line_breaking,1);
SCM
Beam::before_line_breaking (SCM smob)
{
- Score_element * me = unsmob_element (smob);
+ Grob * me = unsmob_grob (smob);
// Why?
+ /*
+ Why what? Why the warning (beams with less than 2 stems are
+ degenerate beams, should never happen), or why would this ever
+ happen (don't know). */
if (visible_stem_count (me) < 2)
{
warning (_ ("beam has less than two stems"));
}
-
- if (!Directional_element_interface::get (me))
- Directional_element_interface::set (me, get_default_dir (me));
-
- auto_knees (me);
- set_stem_directions (me);
- set_stem_shorten (me);
-
+ if (visible_stem_count (me) >= 1)
+ {
+ if (!Directional_element_interface::get (me))
+ Directional_element_interface::set (me, get_default_dir (me));
+
+ consider_auto_knees (me);
+ set_stem_directions (me);
+ set_stem_shorten (me);
+ }
return SCM_EOL;
}
Direction
-Beam::get_default_dir (Score_element*me)
+Beam::get_default_dir (Grob*me)
{
Drul_array<int> total;
total[UP] = total[DOWN] = 0;
Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
for (int i=0; i <stems.size (); i++)
- do { // HUH -- waar slaat dit op?
- Score_element *s = stems[i];
+ do {
+ Grob *s = stems[i];
Direction sd = Directional_element_interface::get (s);
int current = sd ? (1 + d * sd)/2
: Stem::get_center_distance (s, (Direction)-d);
count[d] ++;
}
- } while (flip(&d) != DOWN);
+ } while (flip (&d) != DOWN);
- SCM func = me->get_elt_property ("dir-function");
+ SCM func = me->get_grob_property ("dir-function");
SCM s = gh_call2 (func,
gh_cons (gh_int2scm (count[UP]),
gh_int2scm (count[DOWN])),
/*
If dir is not determined: get default
*/
- return to_dir (me->get_elt_property ("default-neutral-direction"));
+ return to_dir (me->get_grob_property ("neutral-direction"));
}
once stem gets cleaned-up.
*/
void
-Beam::set_stem_directions (Score_element*me)
+Beam::set_stem_directions (Grob*me)
{
Link_array<Item> stems
- =Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
+ =Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
Direction d = Directional_element_interface::get (me);
for (int i=0; i <stems.size (); i++)
{
- Score_element *s = stems[i];
- SCM force = s->remove_elt_property ("dir-forced");
+ Grob *s = stems[i];
+ SCM force = s->remove_grob_property ("dir-forced");
if (!gh_boolean_p (force) || !gh_scm2bool (force))
Directional_element_interface ::set (s,d);
}
}
-void
-Beam::auto_knees (Score_element*me)
-{
- if (!auto_knee (me,"auto-interstaff-knee-gap", true))
- auto_knee (me, "auto-knee-gap", false);
-}
-
/*
Simplistic auto-knees; only consider vertical gap between two
adjacent chords.
`Forced' stem directions are ignored. If you don't want auto-knees,
- don't set, or unset autoKneeGap/autoInterstaffKneeGap.
+ don't set, or unset auto-knee-gap.
*/
-bool
-Beam::auto_knee (Score_element*me, String gap_str, bool interstaff_b)
+void
+Beam::consider_auto_knees (Grob *me)
{
- bool knee_b = false;
- int knee_y = 0;
- SCM gap = me->get_elt_property (gap_str.ch_C());
+ SCM scm = me->get_grob_property ("auto-knee-gap");
- Direction d = Directional_element_interface::get (me);
+ if (gh_number_p (scm))
+ {
+ bool knee_b = false;
+ Real knee_y = 0;
+ Real staff_space = Staff_symbol_referencer::staff_space (me);
+ Real gap = gh_scm2double (scm) / staff_space;
+
+ Direction d = Directional_element_interface::get (me);
Link_array<Item> stems=
Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
-
- if (gh_number_p (gap))
- {
- Spanner*sp = dynamic_cast<Spanner*> (me);
- int auto_gap_i = gh_scm2int (gap);
+
+ Grob *common = me->common_refpoint (stems[0], Y_AXIS);
+ for (int i=1; i < stems.size (); i++)
+ if (!Stem::invisible_b (stems[i]))
+ common = common->common_refpoint (stems[i], Y_AXIS);
+
+ int l = 0;
for (int i=1; i < stems.size (); i++)
{
- bool is_b = (bool)(calc_interstaff_dist (stems[i], sp)
- - calc_interstaff_dist (stems[i-1], sp));
- int l_y = (int)(Stem::head_positions(stems[i-1])[d])
- + (int)calc_interstaff_dist (stems[i-1], sp);
- int r_y = (int)(Stem::head_positions(stems[i])[d])
- + (int)calc_interstaff_dist (stems[i], sp);
- int gap_i = r_y - l_y;
-
- if ((abs (gap_i) >= auto_gap_i) && (!interstaff_b || is_b))
+ if (!Stem::invisible_b (stems[i-1]))
+ l = i - 1;
+ if (Stem::invisible_b (stems[l]))
+ continue;
+ if (Stem::invisible_b (stems[i]))
+ continue;
+
+ Real left = Stem::extremal_heads (stems[l])[d]
+ ->relative_coordinate (common, Y_AXIS);
+ Real right = Stem::extremal_heads (stems[i])[-d]
+ ->relative_coordinate (common, Y_AXIS);
+
+ Real dy = right - left;
+
+ if (abs (dy) >= gap)
{
- knee_y = (r_y + l_y) / 2;
+ knee_y = (right + left) / 2;
knee_b = true;
break;
}
}
- }
- if (knee_b)
- {
- for (int i=0; i < stems.size (); i++)
- {
- Item *s = stems[i];
- int y = (int)(Stem::head_positions(s)[d])
- + (int)calc_interstaff_dist (s, dynamic_cast<Spanner*> (me));
-
- Directional_element_interface::set (s,y < knee_y ? UP : DOWN);
- s->set_elt_property ("dir-forced", SCM_BOOL_T);
+
+ if (knee_b)
+ {
+ for (int i=0; i < stems.size (); i++)
+ {
+ if (Stem::invisible_b (stems[i]))
+ continue;
+ Item *s = stems[i];
+ Real y = Stem::extremal_heads (stems[i])[d]
+ ->relative_coordinate (common, Y_AXIS);
+
+ Directional_element_interface::set (s, y < knee_y ? UP : DOWN);
+ s->set_grob_property ("dir-forced", SCM_BOOL_T);
+ }
}
}
- return knee_b;
}
/*
scmify forced-fraction
*/
void
-Beam::set_stem_shorten (Score_element*m)
+Beam::set_stem_shorten (Grob*m)
{
Spanner*me = dynamic_cast<Spanner*> (m);
- if (!visible_stem_count (me))
- return;
Real forced_fraction = forced_stem_count (me) / visible_stem_count (me);
if (forced_fraction < 0.5)
int multiplicity = get_multiplicity (me);
- SCM shorten = me->get_elt_property ("beamed-stem-shorten");
+ SCM shorten = me->get_grob_property ("beamed-stem-shorten");
if (shorten == SCM_EOL)
return;
Item* s = stems[i];
if (Stem::invisible_b (s))
continue;
- if (gh_number_p (s->get_elt_property ("shorten")))
- s->set_elt_property ("shorten", gh_double2scm (shorten_f));
+ if (gh_number_p (s->get_grob_property ("shorten")))
+ s->set_grob_property ("shorten", gh_double2scm (shorten_f));
}
}
/*
- Set elt properties height and y-position if not set.
- Adjust stem lengths to reach beam.
+ Call list of y-dy-callbacks, that handle setting of
+ grob-properties y, dy.
+
+ User may set grob-properties: y-position-hs and height-hs
+ (to be fixed) that override the calculated y and dy.
+
+ Because y and dy cannot be calculated and quanted separately, we
+ always calculate both, then check for user override.
*/
-MAKE_SCHEME_CALLBACK(Beam,after_line_breaking,1);
+MAKE_SCHEME_CALLBACK (Beam, after_line_breaking, 1);
SCM
Beam::after_line_breaking (SCM smob)
{
- Score_element * me = unsmob_element (smob);
-
- /* first, calculate y, dy */
- Real y, dy;
- calc_default_position_and_height (me, &y, &dy);
- if (visible_stem_count (me))
- {
- if (suspect_slope_b (me, y, dy))
- dy = 0;
-
- Real damped_dy = calc_slope_damping_f (me, dy);
- Real quantised_dy = quantise_dy_f (me, damped_dy);
-
- y += (dy - quantised_dy) / 2;
- dy = quantised_dy;
- }
- /*
- until here, we used only stem_info, which acts as if dir=up
- */
- y *= Directional_element_interface::get (me);
- dy *= Directional_element_interface::get (me);
-
-
- Real half_space = Staff_symbol_referencer::staff_space (me) / 2;
-
- /* weird: why do we do calc_position_and_height () ? regardless of
- this setting?
-
- */
- /* check for user-override of dy */
- SCM s = me->remove_elt_property ("height-hs");
- if (gh_number_p (s))
- {
- dy = gh_scm2double (s) * half_space;
- }
- me->set_elt_property ("height", gh_double2scm (dy));
+ Grob * me = unsmob_grob (smob);
+
+ me->set_grob_property ("y", gh_double2scm (0));
+ me->set_grob_property ("dy", gh_double2scm (0));
- /* check for user-override of y */
- s = me->remove_elt_property ("y-position-hs");
- if (gh_number_p (s))
- {
- y = gh_scm2double (s) * half_space;
- }
- else
- {
- /* we can modify y, so we should quantise y */
- Real y_shift = check_stem_length_f (me, y, dy);
- y += y_shift;
- y = quantise_y_f (me,y, dy, 0);
- set_stem_length (me, y, dy);
- y_shift = check_stem_length_f (me, y, dy);
+ /* Hmm, callbacks should be called by, a eh, callback mechanism
+ somewhere (?), I guess, not by looping here. */
+
+ SCM list = me->get_grob_property ("y-dy-callbacks");
+ for (SCM i = list; gh_pair_p (i); i = gh_cdr (i))
+ gh_call1 (gh_car (i), smob);
- if (y_shift > half_space / 4)
- {
- y += y_shift;
-
- /*
- for significantly lengthened or shortened stems,
- request quanting the other way.
- */
- int quant_dir = 0;
- if (abs (y_shift) > half_space / 2)
- quant_dir = sign (y_shift) * Directional_element_interface::get (me);
- y = quantise_y_f (me, y, dy, quant_dir);
- }
- }
// UGH. Y is not in staff position unit?
// Ik dacht datwe daar juist van weg wilden?
- set_stem_length (me, y, dy);
- me->set_elt_property ("y-position", gh_double2scm (y));
+
+ // Hmm, nu hebben we 3 dimensies, want inmiddels zijn we daar
+ // weer terug, maar dan / 2
+ // (staff-space iso staff-position)
+
+ set_stem_lengths (me);
return SCM_UNSPECIFIED;
}
-/*
- See Documentation/tex/fonts.doc
- */
-void
-Beam::calc_default_position_and_height (Score_element*me,Real* y, Real* dy)
+
+MAKE_SCHEME_CALLBACK (Beam, least_squares, 1);
+SCM
+Beam::least_squares (SCM smob)
{
- *y = 0;
- *dy = 0;
- if (visible_stem_count (me) <= 1)
- return;
+ Grob *me = unsmob_grob (smob);
+ if (visible_stem_count (me) <= 1)
+ return SCM_UNSPECIFIED;
+
+ Real y = 0;
+ Real dy = 0;
+
+ /* Stem_info, and thus y,dy in this function are corrected for beam-dir */
Real first_ideal = Stem::calc_stem_info (first_visible_stem (me)).idealy_f_;
if (first_ideal == Stem::calc_stem_info (last_visible_stem (me)).idealy_f_)
{
- *dy = 0;
- *y = first_ideal;
- return;
+ y = first_ideal;
+ dy = 0;
}
+ else
+ {
+ Array<Offset> ideals;
- Array<Offset> ideals;
+ // ugh -> use commonx
+ Real x0 = first_visible_stem (me)->relative_coordinate (0, X_AXIS);
+ Link_array<Item> stems=
+ Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
- // ugh -> use commonx
- Real x0 = first_visible_stem (me)->relative_coordinate (0, X_AXIS);
- Link_array<Item> stems=
- Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
+ for (int i=0; i < stems.size (); i++)
+ {
+ Item* s = stems[i];
+ if (Stem::invisible_b (s))
+ continue;
+ ideals.push (Offset (s->relative_coordinate (0, X_AXIS) - x0,
+ Stem::calc_stem_info (s).idealy_f_));
+ }
+ Real dydx;
+ minimise_least_squares (&dydx, &y, ideals);
- for (int i=0; i < stems.size (); i++)
- {
- Item* s = stems[i];
- if (Stem::invisible_b (s))
- continue;
- ideals.push (Offset (s->relative_coordinate (0, X_AXIS) - x0,
- Stem::calc_stem_info (s).idealy_f_));
+ Real dx = last_visible_stem (me)->relative_coordinate (0, X_AXIS) - x0;
+ dy = dydx * dx;
}
- Real dydx;
- minimise_least_squares (&dydx, y, ideals); // duh, takes references
- Real dx = last_visible_stem (me)->relative_coordinate (0, X_AXIS) - x0;
- *dy = dydx * dx;
+ /* Store true, not dir-corrected values */
+ Direction dir = Directional_element_interface::get (me);
+ me->set_grob_property ("y", gh_double2scm (y * dir));
+ me->set_grob_property ("dy", gh_double2scm (dy * dir));
+ return SCM_UNSPECIFIED;
}
-bool
-Beam::suspect_slope_b (Score_element*me, Real y, Real dy)
+MAKE_SCHEME_CALLBACK (Beam, cancel_suspect_slope, 1);
+SCM
+Beam::cancel_suspect_slope (SCM smob)
{
- /* first, calculate y, dy */
- /*
- steep slope running against lengthened stem is suspect
- */
- Real ss = me->paper_l ()->get_var ("staffspace");
+ Grob *me = unsmob_grob (smob);
+
+ if (visible_stem_count (me) <= 1)
+ return SCM_UNSPECIFIED;
+
+ /* Stem_info, and thus y,dy in this function are corrected for beam-dir */
+ Direction dir = Directional_element_interface::get (me);
+ Real y = gh_scm2double (me->get_grob_property ("y")) * dir;
+ Real dy = gh_scm2double (me->get_grob_property ("dy")) * dir;
+
+ /* steep slope running against lengthened stem is suspect */
Real first_ideal = Stem::calc_stem_info (first_visible_stem (me)).idealy_f_;
Real last_ideal = Stem::calc_stem_info (last_visible_stem (me)).idealy_f_;
- Real lengthened = gh_scm2double (me->get_elt_property ("outer-stem-length-limit")) * ss;
- Real steep = gh_scm2double (me->get_elt_property ("slope-limit"));
+ Real lengthened = gh_scm2double (me->get_grob_property ("outer-stem-length-limit"));
+ Real steep = gh_scm2double (me->get_grob_property ("slope-limit"));
// ugh -> use commonx
Real dx = last_visible_stem (me)->relative_coordinate (0, X_AXIS) - first_visible_stem (me)->relative_coordinate (0, X_AXIS);
Real dydx = dy && dx ? dy/dx : 0;
- if (((y - first_ideal > lengthened) && (dydx > steep))
+ if (( (y - first_ideal > lengthened) && (dydx > steep))
|| ((y + dy - last_ideal > lengthened) && (dydx < -steep)))
{
- return true;
+ Real adjusted_y = y + dy / 2;
+ /* Store true, not dir-corrected values */
+ me->set_grob_property ("y", gh_double2scm (adjusted_y * dir));
+ me->set_grob_property ("dy", gh_double2scm (0));
}
- return false;
+ return SCM_UNSPECIFIED;
}
/*
damped = tanh (slope)
corresponds with some tables in [Wanske]
*/
-Real
-Beam::calc_slope_damping_f (Score_element*me,Real dy)
+MAKE_SCHEME_CALLBACK (Beam, slope_damping, 1);
+SCM
+Beam::slope_damping (SCM smob)
{
- SCM damp = me->get_elt_property ("damping");
- int damping = gh_scm2int (damp);
+ Grob *me = unsmob_grob (smob);
+
+ if (visible_stem_count (me) <= 1)
+ return SCM_UNSPECIFIED;
+
+ SCM s = me->get_grob_property ("damping");
+ int damping = gh_scm2int (s);
if (damping)
{
- // ugh -> use commonx
+ /* y,dy in this function are corrected for beam-dir */
+ Direction dir = Directional_element_interface::get (me);
+ Real y = gh_scm2double (me->get_grob_property ("y")) * dir;
+ Real dy = gh_scm2double (me->get_grob_property ("dy")) * dir;
+
+ // ugh -> use commonx
Real dx = last_visible_stem (me)->relative_coordinate (0, X_AXIS)
- first_visible_stem (me)->relative_coordinate (0, X_AXIS);
Real dydx = dy && dx ? dy/dx : 0;
dydx = 0.6 * tanh (dydx) / damping;
- return dydx * dx;
+
+ Real damped_dy = dydx * dx;
+ Real adjusted_y = y + (dy - damped_dy) / 2;
+ /* Store true, not dir-corrected values */
+ me->set_grob_property ("y", gh_double2scm (adjusted_y * dir));
+ me->set_grob_property ("dy", gh_double2scm (damped_dy * dir));
+ }
+ return SCM_UNSPECIFIED;
+}
+
+/*
+ Quantise dy (height) of beam.
+ Generalisation of [Ross].
+ */
+MAKE_SCHEME_CALLBACK (Beam, quantise_dy, 1);
+SCM
+Beam::quantise_dy (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+
+ if (visible_stem_count (me) <= 1)
+ return SCM_UNSPECIFIED;
+
+ Array<Real> a;
+ SCM proc = me->get_grob_property ("height-quants");
+ SCM quants = gh_call2 (proc, me->self_scm (),
+ gh_double2scm (me->paper_l ()->get_var ("stafflinethickness")
+ / 1.0));
+
+ for (SCM s = quants; gh_pair_p (s); s = gh_cdr (s))
+ a.push (gh_scm2double (gh_car (s)));
+
+ if (a.size () > 1)
+ {
+ /* y,dy in this function are corrected for beam-dir */
+ Direction dir = Directional_element_interface::get (me);
+ Real y = gh_scm2double (me->get_grob_property ("y")) * dir;
+ Real dy = gh_scm2double (me->get_grob_property ("dy")) * dir;
+
+ Real staff_space = Staff_symbol_referencer::staff_space (me);
+
+ Interval iv = quantise_iv (a, abs (dy)/staff_space) * staff_space;
+ Real q = (abs (dy) - iv[SMALLER] <= iv[BIGGER] - abs (dy))
+ ? iv[SMALLER]
+ : iv[BIGGER];
+
+ Real quantised_dy = q * sign (dy);
+ Real adjusted_y = y + (dy - quantised_dy) / 2;
+ /* Store true, not dir-corrected values */
+ me->set_grob_property ("y", gh_double2scm (adjusted_y * dir));
+ me->set_grob_property ("dy", gh_double2scm (quantised_dy * dir));
+ }
+ return SCM_UNSPECIFIED;
+}
+
+/* It's tricky to have the user override y,dy directly, so we use this
+ translation func. Also, if our staff_space != 1 (smaller staff, eg),
+ user will expect staff-position to be discrete values. */
+MAKE_SCHEME_CALLBACK (Beam, user_override, 1);
+SCM
+Beam::user_override (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+ Real staff_space = Staff_symbol_referencer::staff_space (me);
+
+ SCM s = me->get_grob_property ("staff-position");
+ if (gh_number_p (s))
+ {
+ Real y = gh_scm2double (s) * staff_space * 0.5;
+ me->set_grob_property ("y", gh_double2scm (y));
}
- return dy;
+
+ /* Name suggestions? Tilt, slope, vertical-* ? */
+ s = me->get_grob_property ("height");
+ if (gh_number_p (s))
+ {
+ Real dy = gh_scm2double (s) * staff_space * 0.5;
+ me->set_grob_property ("dy", gh_double2scm (dy));
+ }
+
+ return SCM_UNSPECIFIED;
}
+/*
+ Ugh, this must be last, after user_override
+ Assumes directionised y/dy.
+ */
+MAKE_SCHEME_CALLBACK (Beam, do_quantise_y, 1);
+SCM
+Beam::do_quantise_y (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+
+ /*
+ If the user set y-position, we shouldn't do quanting.
+ */
+ if (gh_number_p (me->get_grob_property ("y-position-hs")))
+ return SCM_UNSPECIFIED;
+
+ Real y = gh_scm2double (me->get_grob_property ("y"));
+ Real dy = gh_scm2double (me->get_grob_property ("dy"));
+
+ /* we can modify y, so we should quantise y */
+ Real half_space = Staff_symbol_referencer::staff_space (me) / 2;
+ Real y_shift = check_stem_length_f (me, y, dy);
+ y += y_shift;
+ y = quantise_y_f (me, y, dy, 0);
+
+ /*
+ Hmm, this is a bit keyhole operation: we're passing `this' as a
+ parameter, and member vars as SCM properties. We should decide on
+ SCM/C/C++ boundary */
+ me->set_grob_property ("y", gh_double2scm (y));
+ set_stem_lengths (me);
+ y = gh_scm2double (me->get_grob_property ("y"));
+
+ y_shift = check_stem_length_f (me, y, dy);
+
+ if (y_shift > half_space / 4)
+ {
+ y += y_shift;
+
+ /*
+ for significantly lengthened or shortened stems,
+ request quanting the other way.
+ */
+ int quant_dir = 0;
+ if (abs (y_shift) > half_space / 2)
+ quant_dir = sign (y_shift) * Directional_element_interface::get (me);
+ y = quantise_y_f (me, y, dy, quant_dir);
+ }
+
+ me->set_grob_property ("y", gh_double2scm (y));
+ // me->set_grob_property ("dy", gh_double2scm (dy));
+ return SCM_UNSPECIFIED;
+}
+
+
Real
-Beam::calc_stem_y_f (Score_element*me,Item* s, Real y, Real dy)
+Beam::calc_stem_y_f (Grob*me,Item* s, Real y, Real dy)
{
int beam_multiplicity = get_multiplicity (me);
int stem_multiplicity = (Stem::flag_i (s) - 2) >? 0;
- Real staffspace = me->paper_l ()->get_var ("staffspace");
-
- SCM space_proc = me->get_elt_property ("space-function");
+ SCM space_proc = me->get_grob_property ("space-function");
SCM space = gh_call1 (space_proc, gh_int2scm (beam_multiplicity));
- Real thick = gh_scm2double (me->get_elt_property ("thickness")) *staffspace;
- Real interbeam_f = gh_scm2double (space) * staffspace;
+ Real thick = gh_scm2double (me->get_grob_property ("thickness")) ;
+ Real interbeam_f = gh_scm2double (space) ;
// ugh -> use commonx
Real x0 = first_visible_stem (me)->relative_coordinate (0, X_AXIS);
}
Real
-Beam::check_stem_length_f (Score_element*me,Real y, Real dy)
+Beam::check_stem_length_f (Grob*me,Real y, Real dy)
{
Real shorten = 0;
Real lengthen = 0;
Link_array<Item> stems=
Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
- for (int i=0; i < stems.size(); i++)
+ for (int i=0; i < stems.size (); i++)
{
Item* s = stems[i];
if (Stem::invisible_b (s))
stem directions and length should set to relative to the chord's
position of the beam. */
void
-Beam::set_stem_length (Score_element*me,Real y, Real dy)
+Beam::set_stem_lengths (Grob *me)
{
+ if (visible_stem_count (me) <= 1)
+ return;
+
+ Real y = gh_scm2double (me->get_grob_property ("y"));
+ Real dy = gh_scm2double (me->get_grob_property ("dy"));
+
Real half_space = Staff_symbol_referencer::staff_space (me)/2;
Link_array<Item> stems=
Pointer_group_interface__extract_elements (me, (Item*)0, "stems");
+ Grob *common = me->common_refpoint (stems[0], Y_AXIS);
+ for (int i=1; i < stems.size (); i++)
+ if (!Stem::invisible_b (stems[i]))
+ common = common->common_refpoint (stems[i], Y_AXIS);
for (int i=0; i < stems.size (); i++)
{
Real stem_y = calc_stem_y_f (me, s, y, dy);
/* caution: stem measures in staff-positions */
- Stem::set_stemend (s,(stem_y + calc_interstaff_dist (s, dynamic_cast<Spanner*> (me))) / half_space);
+ Real id = me->relative_coordinate (common, Y_AXIS)
+ - stems[i]->relative_coordinate (common, Y_AXIS);
+ Stem::set_stemend (s, (stem_y + id) / half_space);
}
}
-/*
- [Ross] (simplification of)
- Set dy complying with:
- - zero
- - thick / 2 + staffline_f / 2
- - thick + staffline_f
- + n * staff_space
-*/
-Real
-Beam::quantise_dy_f (Score_element*me,Real dy)
-{
- Array<Real> a;
-
- SCM proc = me->get_elt_property ("height-quants");
- SCM quants = gh_call2 (proc, me->self_scm (),
- gh_double2scm (me->paper_l ()->get_var ("stafflinethickness")
- / me->paper_l ()->get_var ("staffspace")));
-
-
- for (SCM s = quants; gh_pair_p (s); s = gh_cdr (s))
- a.push (gh_scm2double (gh_car (s)));
-
- if (a.size () <= 1)
- return dy;
-
- Real staff_space = Staff_symbol_referencer::staff_space (me);
-
- Interval iv = quantise_iv (a, abs (dy)/staff_space) * staff_space;
- Real q = (abs (dy) - iv[SMALLER] <= iv[BIGGER] - abs (dy))
- ? iv[SMALLER]
- : iv[BIGGER];
-
- return q * sign (dy);
-}
-
/*
Prevent interference from stafflines and beams.
- See Documentation/tex/fonts.doc
- We only need to quantise the (left) y-position of the beam,
+ We only need to quantise the (left) y of the beam,
since dy is quantised too.
if extend_b then stems must *not* get shorter
*/
Real
-Beam::quantise_y_f (Score_element*me,Real y, Real dy, int quant_dir)
+Beam::quantise_y_f (Grob*me,Real y, Real dy, int quant_dir)
{
int multiplicity = get_multiplicity (me);
Real thick = me->paper_l ()->get_var ("stafflinethickness");
- SCM proc = me->get_elt_property ("vertical-position-quant-function");
+ SCM proc = me->get_grob_property ("vertical-position-quant-function");
SCM quants = scm_apply (proc,
me->self_scm (),
gh_list (gh_int2scm (multiplicity),
Real q = up_y - iv[SMALLER] <= iv[BIGGER] - up_y
? iv[SMALLER] : iv[BIGGER];
if (quant_dir)
- q = iv[(Direction)quant_dir];
+ q = iv[ (Direction)quant_dir];
return q * Directional_element_interface::get (me);
}
void
-Beam::set_beaming (Score_element*me,Beaming_info_list *beaming)
+Beam::set_beaming (Grob*me,Beaming_info_list *beaming)
{
- Link_array<Score_element> stems=
- Pointer_group_interface__extract_elements (me, (Score_element*)0, "stems");
+ Link_array<Grob> stems=
+ Pointer_group_interface__extract_elements (me, (Grob*)0, "stems");
Direction d = LEFT;
- for (int i=0; i < stems.size(); i++)
+ for (int i=0; i < stems.size (); i++)
{
do
{
- if (Stem::beam_count (stems[i], d) == 0)
- Stem::set_beaming ( stems[i], beaming->infos_.elem (i).beams_i_drul_[d],d);
+ /* Don't overwrite user override (?) */
+ if (Stem::beam_count (stems[i], d) == 0
+ /* Don't set beaming for outside of outer stems */
+ && ! (d == LEFT && i == 0)
+ && ! (d == RIGHT && i == stems.size () -1))
+ {
+ int b = beaming->infos_.elem (i).beams_i_drul_[d];
+ Stem::set_beaming (stems[i], b, d);
+ }
}
while (flip (&d) != LEFT);
}
FIXME: clean me up.
*/
Molecule
-Beam::stem_beams (Score_element*me,Item *here, Item *next, Item *prev)
+Beam::stem_beams (Grob*me,Item *here, Item *next, Item *prev,
+ Real dy, Real dydx
+ )
{
// ugh -> use commonx
- if ((next && !(next->relative_coordinate (0, X_AXIS) > here->relative_coordinate (0, X_AXIS))) ||
- (prev && !(prev->relative_coordinate (0, X_AXIS) < here->relative_coordinate (0, X_AXIS))))
+ if ((next && ! (next->relative_coordinate (0, X_AXIS) > here->relative_coordinate (0, X_AXIS))) ||
+ (prev && ! (prev->relative_coordinate (0, X_AXIS) < here->relative_coordinate (0, X_AXIS))))
programming_error ("Beams are not left-to-right");
Real staffline_f = me->paper_l ()->get_var ("stafflinethickness");
int multiplicity = get_multiplicity (me);
- Real staffspace =me->paper_l ()->get_var ("staffspace");
- SCM space_proc = me->get_elt_property ("space-function");
+ SCM space_proc = me->get_grob_property ("space-function");
SCM space = gh_call1 (space_proc, gh_int2scm (multiplicity));
- Real thick = gh_scm2double (me->get_elt_property ("thickness")) *staffspace;
- Real interbeam_f = gh_scm2double (space) * staffspace;
+ Real thick = gh_scm2double (me->get_grob_property ("thickness")) ;
+ Real interbeam_f = gh_scm2double (space) ;
Real bdy = interbeam_f;
Real stemdx = staffline_f;
+#if 0
// ugh -> use commonx
Real dx = visible_stem_count (me) ?
last_visible_stem (me)->relative_coordinate (0, X_AXIS) - first_visible_stem (me)->relative_coordinate (0, X_AXIS)
: 0.0;
- Real dy = gh_scm2double (me->get_elt_property ("height"));
- Real dydx = dy && dx ? dy/dx : 0;
-
+#endif
+
Molecule leftbeams;
Molecule rightbeams;
else {
int t = Stem::type_i (here);
- SCM proc = me->get_elt_property ("flag-width-function");
+ SCM proc = me->get_grob_property ("flag-width-function");
SCM result = gh_call1 (proc, gh_int2scm (t));
- nw_f = gh_scm2double (result) * staffspace;
+ nw_f = gh_scm2double (result);
}
Direction dir = Directional_element_interface::get (me);
+ /* [Tremolo] beams on whole notes may not have direction set? */
+ if (dir == CENTER)
+ dir = Directional_element_interface::get (here);
+
/* half beams extending to the left. */
if (prev)
{
w = w/2 <? nw_f;
Molecule a;
if (lhalfs) // generates warnings if not
- a = me->lookup_l ()->beam (dydx, w, thick);
+ a = Lookup::beam (dydx, w, thick);
a.translate (Offset (-w, -w * dydx));
for (int j = 0; j < lhalfs; j++)
{
int rwholebeams= Stem::beam_count (here,RIGHT) <? Stem::beam_count (next,LEFT) ;
Real w = next->relative_coordinate (0, X_AXIS) - here->relative_coordinate (0, X_AXIS);
- Molecule a = me->lookup_l ()->beam (dydx, w + stemdx, thick);
- a.translate_axis( - stemdx/2, X_AXIS);
+ Molecule a = Lookup::beam (dydx, w + stemdx, thick);
+ a.translate_axis (- stemdx/2, X_AXIS);
int j = 0;
Real gap_f = 0;
- SCM gap = me->get_elt_property ("gap");
+ SCM gap = me->get_grob_property ("gap");
if (gh_number_p (gap))
{
- int gap_i = gh_scm2int ( (gap));
+ int gap_i = gh_scm2int ((gap));
int nogap = rwholebeams - gap_i;
for (; j < nogap; j++)
b.translate_axis (-dir * bdy * j, Y_AXIS);
rightbeams.add_molecule (b);
}
- // TODO: notehead widths differ for different types
- gap_f = nw_f / 2;
+ if (Stem::invisible_b (here))
+ gap_f = nw_f;
+ else
+ gap_f = nw_f / 2;
w -= 2 * gap_f;
- a = me->lookup_l ()->beam (dydx, w + stemdx, thick);
+ a = Lookup::beam (dydx, w + stemdx, thick);
}
for (; j < rwholebeams; j++)
{
Molecule b (a);
- b.translate (Offset (Stem::invisible_b (here) ? 0 : gap_f, -dir * bdy * j));
+ Real tx = 0;
+ if (Stem::invisible_b (here))
+ // ugh, see chord-tremolo.ly
+ tx = (-dir + 1) / 2 * nw_f * 1.5 + gap_f/4;
+ else
+ tx = gap_f;
+ b.translate (Offset (tx, -dir * bdy * j));
rightbeams.add_molecule (b);
}
w = w/2 <? nw_f;
if (rhalfs)
- a = me->lookup_l ()->beam (dydx, w, thick);
+ a = Lookup::beam (dydx, w, thick);
for (; j < rwholebeams + rhalfs; j++)
{
return leftbeams;
}
-MAKE_SCHEME_CALLBACK(Beam,brew_molecule,1);
+MAKE_SCHEME_CALLBACK (Beam,brew_molecule,1);
SCM
Beam::brew_molecule (SCM smob)
{
- Score_element * me =unsmob_element (smob);
+ Grob * me =unsmob_grob (smob);
Molecule mol;
- if (!gh_pair_p (me->get_elt_property ("stems")))
+ if (!gh_pair_p (me->get_grob_property ("stems")))
return SCM_EOL;
Real x0,dx;
Link_array<Item>stems =
else
{
x0 = stems[0]->relative_coordinate (0, X_AXIS);
- dx = stems.top()->relative_coordinate (0, X_AXIS) - x0;
+ dx = stems.top ()->relative_coordinate (0, X_AXIS) - x0;
}
+
+
+ /*
+ TODO: the naming of the grob properties sucks.
+ */
+ SCM dy_s = me->get_grob_property ("dy");
+ SCM y_s = me->get_grob_property ("y");
+
- Real dy = gh_scm2double (me->get_elt_property ("height"));
+ Real dy = gh_number_p (dy_s) ? gh_scm2double (dy_s) : 0.0;
Real dydx = dy && dx ? dy/dx : 0;
- Real y = gh_scm2double (me->get_elt_property ("y-position"));
+ Real y = gh_number_p (y_s) ? gh_scm2double (y_s) : 0.0;
- for (int j=0; j <stems.size (); j++)
+ for (int j=0; j <stems.size (); j++)
{
Item *i = stems[j];
Item * prev = (j > 0)? stems[j-1] : 0;
- Item * next = (j < stems.size()-1) ? stems[j+1] :0;
+ Item * next = (j < stems.size ()-1) ? stems[j+1] :0;
- Molecule sb = stem_beams (me, i, next, prev);
+ Molecule sb = stem_beams (me, i, next, prev, dy, dydx);
Real x = i->relative_coordinate (0, X_AXIS)-x0;
sb.translate (Offset (x, x * dydx + y));
mol.add_molecule (sb);
mol.translate_axis (x0
- dynamic_cast<Spanner*> (me)->get_bound (LEFT)->relative_coordinate (0, X_AXIS), X_AXIS);
- return mol.create_scheme ();
+ return mol.smobbed_copy ();
}
int
-Beam::forced_stem_count (Score_element*me)
+Beam::forced_stem_count (Grob*me)
{
Link_array<Item>stems =
- Pointer_group_interface__extract_elements ( me, (Item*) 0, "stems");
+ Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
int f = 0;
for (int i=0; i < stems.size (); i++)
{
if (Stem::invisible_b (s))
continue;
- if (((int)Stem::chord_start_f (s))
- && (Stem::get_direction (s ) != Stem::get_default_dir (s )))
+ if (( (int)Stem::chord_start_f (s))
+ && (Stem::get_direction (s) != Stem::get_default_dir (s)))
f++;
}
return f;
use filter and standard list functions.
*/
int
-Beam::visible_stem_count (Score_element*me)
+Beam::visible_stem_count (Grob*me)
{
Link_array<Item>stems =
Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
}
Item*
-Beam::first_visible_stem(Score_element*me)
+Beam::first_visible_stem (Grob*me)
{
Link_array<Item>stems =
- Pointer_group_interface__extract_elements ( me, (Item*) 0, "stems");
+ Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
for (int i = 0; i < stems.size (); i++)
{
}
Item*
-Beam::last_visible_stem(Score_element*me)
+Beam::last_visible_stem (Grob*me)
{
Link_array<Item>stems =
- Pointer_group_interface__extract_elements ( me, (Item*) 0, "stems");
+ Pointer_group_interface__extract_elements (me, (Item*) 0, "stems");
for (int i = stems.size (); i--;)
{
if (!Stem::invisible_b (stems[i]))
rest -> stem -> beam -> interpolate_y_position ()
*/
-MAKE_SCHEME_CALLBACK(Beam,rest_collision_callback,2);
+MAKE_SCHEME_CALLBACK (Beam,rest_collision_callback,2);
SCM
Beam::rest_collision_callback (SCM element_smob, SCM axis)
{
- Score_element *rest = unsmob_element (element_smob);
+ Grob *rest = unsmob_grob (element_smob);
Axis a = (Axis) gh_scm2int (axis);
assert (a == Y_AXIS);
- Score_element * st = unsmob_element (rest->get_elt_property ("stem"));
- Score_element * stem = st;
+ Grob * st = unsmob_grob (rest->get_grob_property ("stem"));
+ Grob * stem = st;
if (!stem)
return gh_double2scm (0.0);
- Score_element * beam = unsmob_element (stem->get_elt_property ("beam"));
+ Grob * beam = unsmob_grob (stem->get_grob_property ("beam"));
if (!beam || !Beam::has_interface (beam) || !Beam::visible_stem_count (beam))
return gh_double2scm (0.0);
// todo: make sure this calced already.
- SCM s = beam->get_elt_property ("height");
+ SCM s = beam->get_grob_property ("dy");
if (gh_number_p (s))
beam_dy = gh_scm2double (s);
- s = beam->get_elt_property ("y-position");
+ s = beam->get_grob_property ("y");
if (gh_number_p (s))
beam_y = gh_scm2double (s);
// ugh -> use commonx
- Real x0 = first_visible_stem(beam)->relative_coordinate (0, X_AXIS);
- Real dx = last_visible_stem(beam)->relative_coordinate (0, X_AXIS) - x0;
+ Real x0 = first_visible_stem (beam)->relative_coordinate (0, X_AXIS);
+ Real dx = last_visible_stem (beam)->relative_coordinate (0, X_AXIS) - x0;
Real dydx = beam_dy && dx ? beam_dy/dx : 0;
Direction d = Stem::get_direction (stem);
Real beamy = (stem->relative_coordinate (0, X_AXIS) - x0) * dydx + beam_y;
Real staff_space = Staff_symbol_referencer::staff_space (rest);
- Real rest_dim = rest->extent (Y_AXIS)[d]*2.0 / staff_space ;
+
+
+ Real rest_dim = rest->extent (rest, Y_AXIS)[d]*2.0 / staff_space ; // refp??
Real minimum_dist
- = gh_scm2double (rest->get_elt_property ("minimum-beam-collision-distance"));
+ = gh_scm2double (rest->get_grob_property ("minimum-beam-collision-distance"));
Real dist =
minimum_dist + -d * (beamy - rest_dim) >? 0;
if (discrete_dist < stafflines+1)
discrete_dist = int (ceil (discrete_dist / 2.0)* 2.0);
- return gh_double2scm (-d * discrete_dist);
+ return gh_double2scm (-d * discrete_dist);
}
bool
-Beam::has_interface (Score_element*me)
+Beam::has_interface (Grob*me)
{
return me->has_interface (ly_symbol2scm ("beam-interface"));
}
-void
-Beam::set_interface (Score_element*me)
-{
- /*
- why the init? No way to tell difference between default and user
- override. */
- me->set_elt_property ("height", gh_int2scm (0)); // ugh.
- me->set_elt_property ("y-position" ,gh_int2scm (0));
- me->set_interface (ly_symbol2scm("beam-interface"));
-}