#include "pointer-group-interface.hh"
#include "hara-kiri-group-spanner.hh"
#include "grob-array.hh"
+#include "international.hh"
/*
TODO: for vertical spacing, should also include a rod & spring
{
Grob *me = unsmob_grob (smob);
SCM axis = scm_car (me->get_property ("axes"));
- Axis ax = (Axis)scm_to_int (axis);
+ Axis ax = Axis (scm_to_int (axis));
SCM force = me->get_property ("forced-distance");
if (scm_is_number (force))
Spanner *me_spanner = dynamic_cast<Spanner *> (me);
extract_grob_set (me, "elements", elems);
+
if (me_spanner && elems.size ())
{
Grob *common = common_refpoint_of_array (elems, me, Y_AXIS);
/* force position callbacks */
- for (int i = 0; i < elems.size (); i++)
+ for (vsize i = 0; i < elems.size (); i++)
elems[i]->relative_coordinate (common, Y_AXIS);
SCM details = me_spanner->get_bound (LEFT)->get_property ("line-break-system-details");
Direction stacking_dir = robust_scm2dir (me->get_property ("stacking-dir"),
DOWN);
Real delta = extra_space / elems.size() * stacking_dir;
- for (int i = 0; i < elems.size (); i++)
+ for (vsize i = 0; i < elems.size (); i++)
elems[i]->translate_axis (i * delta, Y_AXIS);
}
extract_grob_set (me, "elements", elem_source);
- Link_array<Grob> elems (elem_source); // writable..
+ vector<Grob*> elems (elem_source); // writable..
Real where_f = 0;
Interval v;
v.set_empty ();
- Array<Real> translates;
+ vector<Real> translates;
- for (int j = elems.size (); j--;)
+ for (vsize j = elems.size (); j--;)
{
/*
This is not very elegant, in that we need special support for
Hara_kiri_group_spanner::consider_suicide (elems[j]);
if (!elems[j]->is_live ())
- elems.del (j);
+ elems.erase (elems.begin () + j);
}
- for (int j = 0; j < elems.size (); j++)
+ for (vsize j = 0; j < elems.size (); j++)
{
where_f += stacking_dir * dy;
- translates.push (where_f);
+ translates.push_back (where_f);
v.unite (Interval (where_f, where_f));
}
/*
TODO: support self-alignment-{Y, X}
*/
- for (int i = 0; i < translates.size (); i++)
+ for (vsize i = 0; i < translates.size (); i++)
elems[i]->translate_axis (translates[i] - v.center (), a);
}
void
Align_interface::align_elements_to_extents (Grob *me, Axis a)
{
- Real extra_space = 0.0;
Spanner *me_spanner = dynamic_cast<Spanner *> (me);
- if (a == Y_AXIS
- && me_spanner)
+
+
+ SCM line_break_details = SCM_EOL;
+ if (a == Y_AXIS && me_spanner)
{
-#if 0
- /*
- TODO: messes up for figured bass alignments.
- */
- if (me_spanner->get_bound (LEFT)->break_status_dir () == CENTER)
- me->warning (_ ("vertical alignment called before line-breaking. "
- "Only do cross-staff spanners with PianoStaff."));
-#endif
+ line_break_details = me_spanner->get_bound (LEFT)->get_property ("line-break-system-details");
- SCM details = me_spanner->get_bound (LEFT)->get_property ("line-break-system-details");
- SCM extra_space_handle = scm_assoc (ly_symbol2scm ("alignment-extra-space"), details);
+ if (!me->get_system ())
+ me->warning (_ ("vertical alignment called before line-breaking.\n"
+ "Only do cross-staff spanners with PianoStaff."));
- extra_space = robust_scm2double (scm_is_pair (extra_space_handle)
- ? scm_cdr (extra_space_handle)
- : SCM_EOL,
- extra_space);
}
Direction stacking_dir = robust_scm2dir (me->get_property ("stacking-dir"),
- DOWN);
+ DOWN);
Interval threshold = robust_scm2interval (me->get_property ("threshold"),
Interval (0, Interval::infinity ()));
- Array<Interval> dims;
-
- Link_array<Grob> elems;
+ vector<Interval> dims;
+ vector<Grob*> elems;
extract_grob_set (me, "elements", all_grobs);
- for (int i = 0; i < all_grobs.size (); i++)
+ for (vsize i = 0; i < all_grobs.size (); i++)
{
Interval y = all_grobs[i]->extent (me, a);
if (!y.is_empty ())
{
Grob *e = dynamic_cast<Grob *> (all_grobs[i]);
- elems.push (e);
- dims.push (y);
+ elems.push_back (e);
+ dims.push_back (y);
}
}
? me->get_property ("self-alignment-X")
: me->get_property ("self-alignment-Y"));
- Array<Real> translates;
Interval total;
Real where = 0;
+ Real extra_space = 0.0;
+ SCM extra_space_handle = scm_assq (ly_symbol2scm ("alignment-extra-space"), line_break_details);
- for (int j = 0; j < elems.size (); j++)
+ extra_space = robust_scm2double (scm_is_pair (extra_space_handle)
+ ? scm_cdr (extra_space_handle)
+ : SCM_EOL,
+ extra_space);
+
+ vector<Real> translates;
+ for (vsize j = 0; j < elems.size (); j++)
{
Real dy = -dims[j][-stacking_dir];
if (j)
where += stacking_dir * (dy + extra_space / elems.size ());
total.unite (dims[j] + where);
- translates.push (where);
+ translates.push_back (where);
}
+ SCM offsets_handle = scm_assq (ly_symbol2scm ("alignment-offsets"), line_break_details);
+ if (scm_is_pair (offsets_handle))
+ {
+ vsize i = 0;
+
+ for (SCM s = scm_cdr (offsets_handle); scm_is_pair (s) && i < translates.size (); s = scm_cdr (s), i++)
+ {
+ if (scm_is_number (scm_car (s)))
+ translates[i] = scm_to_double (scm_car (s));
+ }
+ }
+
+
Real center_offset = 0.0;
/*
also move the grobs that were empty, to maintain spatial order.
*/
- Array<Real> all_translates;
+ vector<Real> all_translates;
if (translates.size ())
{
- int i = 0;
- int j = 0;
Real w = translates[0];
- while (j < all_grobs.size ())
+ for (vsize i = 0, j = 0; j < all_grobs.size (); j++)
{
if (i < elems.size () && all_grobs[j] == elems[i])
w = translates[i++];
- all_translates.push (w);
- j++;
+ all_translates.push_back (w);
}
/*
if (scm_is_number (align))
center_offset = total.linear_combination (scm_to_double (align));
- for (int j = 0; j < all_grobs.size (); j++)
+ for (vsize j = 0; j < all_grobs.size (); j++)
all_grobs[j]->translate_axis (all_translates[j] - center_offset, a);
}
}