source file of the GNU LilyPond music typesetter
- (c) 2001--2005 Han-Wen Nienhuys <hanwen@cs.uu.nl>
+ (c) 2001--2008 Han-Wen Nienhuys <hanwen@xs4all.nl>
*/
#include "staff-spacing.hh"
#include <cstdio>
+using namespace std;
+#include "international.hh"
#include "paper-column.hh"
#include "separation-item.hh"
#include "warn.hh"
#include "staff-symbol-referencer.hh"
#include "note-column.hh"
#include "stem.hh"
+#include "spacing-interface.hh"
#include "accidental-placement.hh"
#include "pointer-group-interface.hh"
+#include "directional-element-interface.hh"
-/*
- Insert some more space for the next note, in case it has a stem in
- the wrong direction
+/* A stem following a bar-line creates an optical illusion similar to the
+ one mentioned in note-spacing.cc. We correct for it here.
+
+ TODO: should we still correct if there are accidentals/arpeggios before
+ the stem?
*/
-void
-Staff_spacing::next_note_correction (Grob *me,
- Grob *g,
- Interval bar_size,
- Real *space,
- Real *fix)
+
+Real
+Staff_spacing::optical_correction (Grob *me, Grob *g, Interval bar_height)
{
- (void)space;
-
if (!g || !Note_column::has_interface (g))
- return ;
+ return 0;
- Item *col = dynamic_cast<Item *> (g)->get_column ();
- Real max_corr = max (0., (- g->extent (col, X_AXIS)[LEFT]));
+ Grob *stem = Note_column::get_stem (g);
+ Real ret = 0.0;
- /*
- Duh. If this gets out of hand, we should invent something more generic.
- */
- if (Grob *a = Note_column::accidentals (g))
+ if (!bar_height.is_empty () && stem)
{
- Interval v;
- if (Accidental_placement::has_interface (a))
- v = Accidental_placement::get_relevant_accidental_extent (a, col, me);
- else
- v = a->extent (col, X_AXIS);
+ Direction d = get_grob_direction (stem);
+ if (Stem::is_normal_stem (stem) && d == DOWN)
+ {
- max_corr = max (max_corr, (- v[LEFT]));
+ /*
+ can't look at stem-end-position, since that triggers
+ beam slope computations.
+ */
+ Real stem_start = Stem::head_positions (stem) [d];
+ Real stem_end = stem_start +
+ d * robust_scm2double (stem->get_property ("length"), 7);
+
+ Interval stem_posns (min (stem_start, stem_end),
+ max (stem_end, stem_start));
+
+ stem_posns.intersect (bar_height);
+
+ ret = min (abs (stem_posns.length () / 7.0), 1.0);
+ ret *= robust_scm2double (me->get_property ("stem-spacing-correction"), 1);
+ }
}
- if (Grob *a = unsmob_grob (g->get_object ("arpeggio")))
- max_corr = max (max_corr, - a->extent (col, X_AXIS)[LEFT]);
-
- /*
- Let's decrease the space a little if the problem is not located
- after a barline.
- */
- if (bar_size.is_empty ())
- max_corr *= 0.75;
-
- if (!bar_size.is_empty ())
- if (Grob *stem = Note_column::get_stem (g))
- {
- Direction d = Stem::get_direction (stem);
- if (d == DOWN)
- {
- Real stem_start = Stem::head_positions (stem) [DOWN];
- Real stem_end = Stem::stem_end_position (stem);
- Interval stem_posns (min (stem_start, stem_end),
- max (stem_end, stem_start));
-
- stem_posns.intersect (bar_size);
-
- Real corr = min (abs (stem_posns.length () / 7.0), 1.0);
- corr
- *= robust_scm2double (me->get_property ("stem-spacing-correction"), 1);
-
- if (d != DOWN)
- corr = 0.0;
- max_corr = max (max_corr, corr);
- }
- }
-
- *fix += max_corr;
+ return ret;
}
/*
bar_size.set_empty ();
if (Bar_line::has_interface (bar_grob))
{
- SCM glyph = bar_grob->get_property ("glyph");
+ SCM glyph = bar_grob->get_property ("glyph-name");
+ Grob *staff_sym = Staff_symbol_referencer::get_staff_symbol (bar_grob);
- String glyph_string = scm_is_string (glyph) ? ly_scm2string (glyph) : "";
- if (glyph_string.left_string (1) == "|" || glyph_string.left_string (1) == ".")
+ string glyph_string = scm_is_string (glyph) ? ly_scm2string (glyph) : "";
+ if (glyph_string.substr (0, 1) == "|"
+ || glyph_string.substr (0, 1) == ".")
{
- SCM sz = Bar_line::get_staff_bar_size (bar_grob->self_scm ());
- bar_size = Interval (-1, 1);
- bar_size *= robust_scm2double (sz, 1)
- / Staff_symbol_referencer::staff_space (bar_grob);
+ Grob *common = bar_grob->common_refpoint (staff_sym, Y_AXIS);
+ bar_size = bar_grob->extent (common, Y_AXIS);
+ bar_size *= 1.0 / Staff_symbol_referencer::staff_space (bar_grob);
}
}
return bar_size;
}
-/*
- Do corrections for the following notes.
-
- This is slightly convoluted, since the staffspacing grob gets
- pointers to the separation-items, not the note-columns or
- note-spacings.
-*/
-void
-Staff_spacing::next_notes_correction (Grob *me, Grob *last_grob,
- Real *compound_space, Real *compound_fixed
- )
+Real
+Staff_spacing::next_notes_correction (Grob *me,
+ Grob *last_grob)
{
Interval bar_size = bar_y_positions (last_grob);
+ Grob *orig = me->original () ? me->original () : me;
+ vector<Item*> note_columns = Spacing_interface::right_note_columns (orig);
- extract_grob_set (me, "right-items", right_items);
+ Real max_optical = 0.0;
- *compound_fixed = 0.0;
- *compound_space = 0.0;
- int wishes;
-
- for (int i = right_items.size (); i--;)
- {
- Grob *g = right_items[i];
-
- Real space = 0.0;
- Real fixed = 0.0;
-
- next_note_correction (me, g, bar_size, &space, &fixed);
-
- *compound_space += space;
- *compound_fixed += fixed;
- wishes ++;
-
- extract_grob_set (g, "elements", elts);
- for (int j = elts.size (); j--;)
- {
- Real space = 0.0;
- Real fixed = 0.0;
- next_note_correction (me, elts[j], bar_size, &space, &fixed);
- *compound_fixed += fixed;
- *compound_space += space;
- wishes ++;
- }
- }
+ for (vsize i = 0; i < note_columns.size (); i++)
+ max_optical = max (max_optical, optical_correction (me, note_columns[i], bar_size));
- if (wishes)
- {
- *compound_space /= wishes;
- *compound_fixed /= wishes;
- }
+ return max_optical;
}
-void
-Staff_spacing::get_spacing_params (Grob *me, Real *space, Real *fixed)
+/* We calculate three things here: the ideal distance, the minimum distance
+ (which is the distance at which collisions will occur) and the "fixed"
+ distance, which is the distance at which things start to look really bad.
+ We arrange things so that the fixed distance will be attained when the
+ line is compressed with a force of 1.0 */
+Spring
+Staff_spacing::get_spacing (Grob *me, Grob *right_col)
{
- *space = 1.0;
- *fixed = 1.0;
-
- Grob *separation_item = 0;
Item *me_item = dynamic_cast<Item *> (me);
-
- extract_grob_set (me, "left-items", items);
- for (int i = items.size (); i--;)
- {
- Grob *cand = items[i];
- if (cand && Separation_item::has_interface (cand))
- separation_item = cand;
- }
-
- // printf ("doing col %d\n" , Paper_column::get_rank (left_col));
- if (!separation_item)
- {
- programming_error ("no sep item");
- return;
- }
+ Grob *left_col = me_item->get_column ();
Interval last_ext;
- Grob *last_grob = Separation_item::extremal_break_aligned_grob (separation_item, RIGHT,
- &last_ext);
+ Direction break_dir = me_item->break_status_dir ();
+ Grob *last_grob = Spacing_interface::extremal_break_aligned_grob (me, LEFT,
+ break_dir,
+ &last_ext);
if (!last_grob)
{
/*
we used to have a warning here, but it generates a lot of
spurious error messages.
*/
- return;
+ return Spring ();
}
- *fixed = last_ext[RIGHT];
- *space = *fixed + 1.0;
-
SCM alist = last_grob->get_property ("space-alist");
if (!scm_list_p (alist))
- return;
+ return Spring ();
SCM space_def = scm_sloppy_assq (ly_symbol2scm ("first-note"), alist);
if (me_item->break_status_dir () == CENTER)
if (!scm_is_pair (space_def))
{
programming_error ("unknown prefatory spacing");
- return;
+ return Spring ();
}
space_def = scm_cdr (space_def);
Real distance = scm_to_double (scm_cdr (space_def));
SCM type = scm_car (space_def);
- *fixed = last_ext[RIGHT];
+ Real fixed = last_ext[RIGHT];
+ Real ideal = fixed + 1.0;
+
if (type == ly_symbol2scm ("fixed-space"))
{
- *fixed += distance;
- *space = *fixed;
+ fixed += distance;
+ ideal = fixed;
}
else if (type == ly_symbol2scm ("extra-space"))
- *space = *fixed + distance;
+ ideal = fixed + distance;
else if (type == ly_symbol2scm ("semi-fixed-space"))
{
- *fixed += distance / 2;
- *space = *fixed + distance / 2;
+ fixed += distance / 2;
+ ideal = fixed + distance / 2;
}
else if (type == ly_symbol2scm ("minimum-space"))
- *space = last_ext[LEFT] + max (last_ext.length (), distance);
+ ideal = last_ext[LEFT] + max (last_ext.length (), distance);
else if (type == ly_symbol2scm ("minimum-fixed-space"))
{
- *space = last_ext[LEFT] + max (last_ext.length (), distance);
- *fixed = *space;
+ fixed = last_ext[LEFT] + max (last_ext.length (), distance);
+ ideal = fixed;
}
- Real correction_fixed, correction_space;
- next_notes_correction (me, last_grob, &correction_space, &correction_fixed );
- *space += correction_space;
- *fixed += correction_fixed;
+
+ Real optical_correction = next_notes_correction (me, last_grob);
+ Real min_dist = Paper_column::minimum_distance (left_col, right_col);
+
+ /* ensure that the "fixed" distance will leave a gap of at least 0.3 ss. */
+ Real min_dist_correction = max (0.0, 0.3 + min_dist - fixed);
+ Real correction = max (optical_correction, min_dist_correction);
+
+ fixed += correction;
+ ideal += correction;
+
+ Spring ret (ideal, min_dist);
+ ret.set_inverse_stretch_strength (max (0.0, ideal - fixed));
+ return ret;
}
-ADD_INTERFACE (Staff_spacing, "staff-spacing-interface",
- "This object calculates spacing details from a "
- " breakable symbol (left) to another object. For example, it takes care "
- " of optical spacing from a bar lines to a note.",
- "stem-spacing-correction left-items right-items");
+ADD_INTERFACE (Staff_spacing,
+ "This object calculates spacing details from a breakable"
+ " symbol (left) to another object. For example, it takes care"
+ " of optical spacing from a bar line to a note.",
+
+ /* properties */
+ "stem-spacing-correction "
+ );