source file of the GNU LilyPond music typesetter
- (c) 2000--2006 Han-Wen Nienhuys <hanwen@xs4all.nl>
+ (c) 2000--2008 Han-Wen Nienhuys <hanwen@xs4all.nl>
*/
#include "axis-group-interface.hh"
#include "align-interface.hh"
+#include "directional-element-interface.hh"
#include "pointer-group-interface.hh"
-#include "grob.hh"
#include "grob-array.hh"
#include "hara-kiri-group-spanner.hh"
#include "international.hh"
-#include "item.hh"
+#include "lookup.hh"
#include "paper-column.hh"
#include "paper-score.hh"
+#include "separation-item.hh"
+#include "skyline-pair.hh"
+#include "stencil.hh"
#include "system.hh"
#include "warn.hh"
if (!scm_is_pair (axes))
programming_error ("axes should be nonempty");
- for (SCM ax = axes; ax != SCM_EOL; ax = scm_cdr (ax))
+ for (SCM ax = axes; scm_is_pair (ax); ax = scm_cdr (ax))
{
Axis a = (Axis) scm_to_int (scm_car (ax));
if (!e->get_parent (a))
e->set_parent (me, a);
- e->internal_set_object ((a == X_AXIS)
- ? ly_symbol2scm ("axis-group-parent-X")
- : ly_symbol2scm ("axis-group-parent-Y"),
- me->self_scm ());
+ e->set_object ((a == X_AXIS)
+ ? ly_symbol2scm ("axis-group-parent-X")
+ : ly_symbol2scm ("axis-group-parent-Y"),
+ me->self_scm ());
}
/* must be ordered, because Align_interface also uses
for (vsize i = 0; i < elts.size (); i++)
{
Grob *se = elts[i];
- Interval dims = se->extent (common, a);
- if (!dims.is_empty ())
- r.unite (dims);
+ if (!to_boolean (se->get_property ("cross-staff")))
+ {
+ Interval dims = se->extent (common, a);
+ if (!dims.is_empty ())
+ r.unite (dims);
+ }
}
return r;
}
+
+/*
+ FIXME: pure extent handling has a lot of ad-hoc caching.
+ This should be done with grob property callbacks.
+
+ --hwn
+*/
+
Interval
-Axis_group_interface::cached_pure_height (Grob *me,
- vector<Grob*> const &elts,
- Grob *common,
- int start, int end)
+Axis_group_interface::cached_pure_height (Grob *me, int start, int end)
{
Paper_score *ps = get_root_system (me)->paper_score ();
vector<vsize> breaks = ps->get_break_indices ();
vector<Grob*> cols = ps->get_columns ();
- vsize start_index = VPOS;
- vsize end_index = VPOS;
- for (vsize i = 0; i < breaks.size (); i++)
+ SCM extents = me->get_property ("adjacent-pure-heights");
+
+ if (!scm_is_vector (extents))
+ return Interval (0, 0);
+
+ Interval ext;
+ for (vsize i = 0; i + 1 < breaks.size (); i++)
{
int r = Paper_column::get_rank (cols[breaks[i]]);
- if (start == r)
- start_index = i;
- if (end == r)
- end_index = i;
- }
+ if (r >= end)
+ break;
- if (start_index == VPOS || end_index == VPOS)
- {
- programming_error (_ ("tried to calculate pure-height at a non-breakpoint"));
- return Interval (0, 0);
+ if (r >= start)
+ ext.unite (ly_scm2interval (scm_c_vector_ref (extents, i)));
}
- SCM extents = me->get_property ("cached-pure-extents");
- if (!scm_is_vector (extents))
+ return ext;
+}
+
+MAKE_SCHEME_CALLBACK (Axis_group_interface, adjacent_pure_heights, 1)
+SCM
+Axis_group_interface::adjacent_pure_heights (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+
+ Grob *common = calc_pure_elts_and_common (me);
+ extract_grob_set (me, "pure-relevant-items", items);
+ extract_grob_set (me, "pure-relevant-spanners", spanners);
+
+ Paper_score *ps = get_root_system (me)->paper_score ();
+ vector<vsize> breaks = ps->get_break_indices ();
+ vector<Grob*> cols = ps->get_columns ();
+
+ SCM ret = scm_c_make_vector (breaks.size () - 1, SCM_EOL);
+ vsize it_index = 0;
+ for (vsize i = 0; i + 1 < breaks.size (); i++)
{
- extents = scm_c_make_vector (breaks.size () - 1, SCM_EOL);
- for (vsize i = 0; i < breaks.size () - 1; i++)
+ int start = Paper_column::get_rank (cols[breaks[i]]);
+ int end = Paper_column::get_rank (cols[breaks[i+1]]);
+ Interval iv;
+
+ for (vsize j = it_index; j < items.size (); j++)
{
- int st = Paper_column::get_rank (cols[breaks[i]]);
- int ed = Paper_column::get_rank (cols[breaks[i+1]]);
- Interval iv = relative_pure_height (me, elts, common, st, ed, false);
- scm_vector_set_x (extents, scm_from_int (i), ly_interval2scm (iv));
+ Item *it = dynamic_cast<Item*> (items[j]);
+ int rank = it->get_column ()->get_rank ();
+
+ if (rank <= end && it->pure_is_visible (start, end)
+ && !to_boolean (it->get_property ("cross-staff")))
+ {
+ Interval dims = items[j]->pure_height (common, start, end);
+ if (!dims.is_empty ())
+ iv.unite (dims);
+ }
+
+ if (rank < end)
+ it_index++;
+ else if (rank > end)
+ break;
}
- me->set_property ("cached-pure-extents", extents);
- }
- Interval ext (0, 0);
- for (vsize i = start_index; i < end_index; i++)
- ext.unite (ly_scm2interval (scm_c_vector_ref (extents, i)));
- return ext;
+ for (vsize j = 0; j < spanners.size (); j++)
+ {
+ Interval_t<int> rank_span = spanners[j]->spanned_rank_interval ();
+ if (rank_span[LEFT] <= end && rank_span[RIGHT] >= start
+ && !to_boolean (spanners[j]->get_property ("cross-staff")))
+ {
+ Interval dims = spanners[j]->pure_height (common, start, end);
+ if (!dims.is_empty ())
+ iv.unite (dims);
+ }
+ }
+
+ scm_vector_set_x (ret, scm_from_int (i), ly_interval2scm (iv));
+ }
+ return ret;
}
Interval
-Axis_group_interface::relative_pure_height (Grob *me,
- vector<Grob*> const &elts,
- Grob *common,
- int start, int end,
- bool use_cache)
+Axis_group_interface::relative_pure_height (Grob *me, int start, int end)
{
/* It saves a _lot_ of time if we assume a VerticalAxisGroup is additive
- (ie. height (i, k) = height (i, j) + height (j, k) for all i <= j <= k).
+ (ie. height (i, k) = max (height (i, j) height (j, k)) for all i <= j <= k).
Unfortunately, it isn't always true, particularly if there is a
VerticalAlignment somewhere in the descendants.
reasonably safe to assume that if our parent is a VerticalAlignment,
we can assume additivity and cache things nicely. */
Grob *p = me->get_parent (Y_AXIS);
- if (use_cache && p && Align_interface::has_interface (p))
- return Axis_group_interface::cached_pure_height (me, elts, common, start, end);
+ if (p && Align_interface::has_interface (p))
+ return Axis_group_interface::cached_pure_height (me, start, end);
+
+ Grob *common = calc_pure_elts_and_common (me);
+ extract_grob_set (me, "pure-relevant-items", items);
+ extract_grob_set (me, "pure-relevant-spanners", spanners);
Interval r;
- for (vsize i = 0; i < elts.size (); i++)
+ for (vsize i = 0; i < items.size (); i++)
{
- Interval_t<int> rank_span = elts[i]->spanned_rank_iv ();
- Item *it = dynamic_cast<Item*> (elts[i]);
- if (rank_span[LEFT] <= end && rank_span[RIGHT] >= start && (!it || it->pure_is_visible (start, end)))
+ Item *it = dynamic_cast<Item*> (items[i]);
+ int rank = it->get_column ()->get_rank ();
+
+ if (rank > end)
+ break;
+ else if (rank >= start && it->pure_is_visible (start, end)
+ && !to_boolean (it->get_property ("cross-staff")))
{
- Interval dims = elts[i]->pure_height (common, start, end);
+ Interval dims = it->pure_height (common, start, end);
+ if (!dims.is_empty ())
+ r.unite (dims);
+ }
+ }
+
+ for (vsize i = 0; i < spanners.size (); i++)
+ {
+ Interval_t<int> rank_span = spanners[i]->spanned_rank_interval ();
+ if (rank_span[LEFT] <= end && rank_span[RIGHT] >= start
+ && !to_boolean (spanners[i]->get_property ("cross-staff")))
+ {
+ Interval dims = spanners[i]->pure_height (common, start, end);
if (!dims.is_empty ())
r.unite (dims);
}
int end = robust_scm2int (end_scm, INT_MAX);
Grob *me = unsmob_grob (smob);
- return pure_group_height (me, start, end);
+ /* Maybe we are in the second pass of a two-pass spacing run. In that
+ case, the Y-extent of a system is already given to us */
+ System *system = dynamic_cast<System*> (me);
+ if (system)
+ {
+ SCM line_break_details = system->column (start)->get_property ("line-break-system-details");
+ SCM system_y_extent = scm_assq (ly_symbol2scm ("system-Y-extent"), line_break_details);
+ if (scm_is_pair (system_y_extent))
+ return scm_cdr (system_y_extent);
+ }
+
+ return ly_interval2scm (pure_group_height (me, start, end));
+}
+
+MAKE_SCHEME_CALLBACK (Axis_group_interface, calc_skylines, 1);
+SCM
+Axis_group_interface::calc_skylines (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+ extract_grob_set (me, "elements", elts);
+ Skyline_pair skylines = skyline_spacing (me, elts);
+
+ return skylines.smobbed_copy ();
+}
+
+/* whereas calc_skylines calculates skylines for axis-groups with a lot of
+ visible children, combine_skylines is designed for axis-groups whose only
+ children are other axis-groups (ie. VerticalAlignment). Rather than
+ calculating all the skylines from scratch, we just merge the skylines
+ of the children.
+*/
+MAKE_SCHEME_CALLBACK (Axis_group_interface, combine_skylines, 1);
+SCM
+Axis_group_interface::combine_skylines (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+ extract_grob_set (me, "elements", elements);
+ Grob *y_common = common_refpoint_of_array (elements, me, Y_AXIS);
+ Grob *x_common = common_refpoint_of_array (elements, me, X_AXIS);
+
+ if (y_common != me)
+ programming_error ("combining skylines that don't belong to me");
+
+ Skyline_pair ret;
+ for (vsize i = 0; i < elements.size (); i++)
+ {
+ SCM skyline_scm = elements[i]->get_property ("vertical-skylines");
+ if (Skyline_pair::unsmob (skyline_scm))
+ {
+ Real offset = elements[i]->relative_coordinate (y_common, Y_AXIS);
+ Skyline_pair other = *Skyline_pair::unsmob (skyline_scm);
+ other.raise (offset);
+ other.shift (elements[i]->relative_coordinate (x_common, X_AXIS));
+ ret.merge (other);
+ }
+ }
+ return ret.smobbed_copy ();
}
SCM
Axis_group_interface::generic_group_extent (Grob *me, Axis a)
{
+ /* trigger the callback to do skyline-spacing on the children */
+ if (a == Y_AXIS)
+ (void) me->get_property ("vertical-skylines");
+
extract_grob_set (me, "elements", elts);
Grob *common = common_refpoint_of_array (elts, me, a);
return ly_interval2scm (r - my_coord);
}
-SCM
-Axis_group_interface::pure_group_height (Grob *me, int start, int end)
+/* This is like generic_group_extent, but it only counts the grobs that
+ are children of some other axis-group. This is uncached; if it becomes
+ commonly used, it may be necessary to cache it somehow. */
+Interval
+Axis_group_interface::staff_extent (Grob *me, Grob *refp, Axis ext_a, Grob *staff, Axis parent_a)
{
- Grob *common = unsmob_grob (me->get_object ("common-refpoint-of-elements"));
+ extract_grob_set (me, "elements", elts);
+ vector<Grob*> new_elts;
+
+ for (vsize i = 0; i < elts.size (); i++)
+ if (elts[i]->common_refpoint (staff, parent_a) == staff)
+ new_elts.push_back (elts[i]);
+
+ return relative_group_extent (new_elts, refp, ext_a);
+}
- if (!common)
- {
- extract_grob_set (me, "elements", elts);
- vector<Grob*> relevant_elts;
- SCM is_relevant = ly_lily_module_constant ("pure-relevant");
+Grob *
+Axis_group_interface::calc_pure_elts_and_common (Grob *me)
+{
+ if (Grob *c = unsmob_grob (me->get_object ("pure-Y-common")))
+ return c;
+
+ extract_grob_set (me, "elements", elts);
- for (vsize i = 0; i < elts.size (); i++)
+ vector<Grob*> relevant_items;
+ vector<Grob*> relevant_spanners;
+ SCM pure_relevant_p = ly_lily_module_constant ("pure-relevant?");
+
+ for (vsize i = 0; i < elts.size (); i++)
+ {
+ if (to_boolean (scm_apply_1 (pure_relevant_p, elts[i]->self_scm (), SCM_EOL)))
{
- if (to_boolean (scm_apply_1 (is_relevant, elts[i]->self_scm (), SCM_EOL)))
- relevant_elts.push_back (elts[i]);
-
- Item *it = dynamic_cast<Item*> (elts[i]);
- Direction d = LEFT;
- if (it)
- do
- {
- Item *piece = it->find_prebroken_piece (d);
- if (piece && to_boolean (scm_apply_1 (is_relevant, piece->self_scm (), SCM_EOL)))
- relevant_elts.push_back (piece);
- }
- while (flip (&d) != LEFT);
+ if (dynamic_cast<Item*> (elts[i]))
+ relevant_items.push_back (elts[i]);
+ else if (dynamic_cast<Spanner*> (elts[i]))
+ relevant_spanners.push_back (elts[i]);
}
+
+
+ Item *it = dynamic_cast<Item*> (elts[i]);
+ Direction d = LEFT;
+ if (it)
+ do
+ {
+ Item *piece = it->find_prebroken_piece (d);
+ if (piece && to_boolean (scm_apply_1 (pure_relevant_p, piece->self_scm (), SCM_EOL)))
+ relevant_items.push_back (piece);
+ }
+ while (flip (&d) != LEFT);
+ }
+ vector_sort (relevant_items, Item::less);
- common = common_refpoint_of_array (relevant_elts, me, Y_AXIS);
- me->set_object ("common-refpoint-of-elements", common->self_scm ());
+ Grob *common = common_refpoint_of_array (relevant_items, me, Y_AXIS);
+ common = common_refpoint_of_array (relevant_spanners, common, Y_AXIS);
+
+ me->set_object ("pure-Y-common", common->self_scm ());
+
+ SCM items_scm = Grob_array::make_array ();
+ SCM spanners_scm = Grob_array::make_array ();
+
+ unsmob_grob_array (items_scm)->set_array (relevant_items);
+ unsmob_grob_array (spanners_scm)->set_array (relevant_spanners);
+ me->set_object ("pure-relevant-items", items_scm);
+ me->set_object ("pure-relevant-spanners", spanners_scm);
+
+ return common;
+}
- SCM ga_scm = Grob_array::make_array ();
- Grob_array *ga = unsmob_grob_array (ga_scm);
- ga->set_array (relevant_elts);
- me->set_object ("pure-relevant-elements", ga_scm);
+SCM
+Axis_group_interface::calc_common (Grob *me, Axis axis)
+{
+ extract_grob_set (me, "elements", elts);
+ Grob *common = common_refpoint_of_array (elts, me, axis);
+ if (!common)
+ {
+ me->programming_error ("No common parent found in calc_common axis.");
+ return SCM_EOL;
}
+
+ return common->self_scm ();
+}
+
- extract_grob_set (me, "pure-relevant-elements", elts);
+MAKE_SCHEME_CALLBACK (Axis_group_interface, calc_x_common, 1);
+SCM
+Axis_group_interface::calc_x_common (SCM grob)
+{
+ return calc_common (unsmob_grob (grob), X_AXIS);
+}
+
+MAKE_SCHEME_CALLBACK (Axis_group_interface, calc_y_common, 1);
+SCM
+Axis_group_interface::calc_y_common (SCM grob)
+{
+ return calc_common (unsmob_grob (grob), Y_AXIS);
+}
+
+Interval
+Axis_group_interface::pure_group_height (Grob *me, int start, int end)
+{
+ Grob *common = calc_pure_elts_and_common (me);
+
Real my_coord = me->relative_coordinate (common, Y_AXIS);
- Interval r (relative_pure_height (me, elts, common, start, end, true));
+ Interval r (relative_pure_height (me, start, end));
- return ly_interval2scm (r - my_coord);
+ return r - my_coord;
}
void
}
}
-ADD_INTERFACE (Axis_group_interface, "axis-group-interface",
+bool
+staff_priority_less (Grob * const &g1, Grob * const &g2)
+{
+ Real priority_1 = robust_scm2double (g1->get_property ("outside-staff-priority"), -infinity_f);
+ Real priority_2 = robust_scm2double (g2->get_property ("outside-staff-priority"), -infinity_f);
+
+ if (priority_1 < priority_2)
+ return true;
+ else if (priority_1 > priority_2)
+ return false;
+
+ /* if neither grob has an outside-staff priority, the ordering will have no
+ effect -- we just need to choose a consistent ordering. We do this to
+ avoid the side-effect of calculating extents. */
+ if (isinf (priority_1))
+ return g1 < g2;
+
+ /* if there is no preference in staff priority, choose the left-most one */
+ Grob *common = g1->common_refpoint (g2, X_AXIS);
+ Real start_1 = g1->extent (common, X_AXIS)[LEFT];
+ Real start_2 = g2->extent (common, X_AXIS)[LEFT];
+ return start_1 < start_2;
+}
+
+static void
+add_boxes (Grob *me, Grob *x_common, Grob *y_common, vector<Box> *const boxes, Skyline_pair *skylines)
+{
+ /* if a child has skylines, use them instead of the extent box */
+ if (Skyline_pair *pair = Skyline_pair::unsmob (me->get_property ("vertical-skylines")))
+ {
+ Skyline_pair s = *pair;
+ s.shift (me->relative_coordinate (x_common, X_AXIS));
+ s.raise (me->relative_coordinate (y_common, Y_AXIS));
+ skylines->merge (s);
+ }
+ else if (Grob_array *elements = unsmob_grob_array (me->get_object ("elements")))
+ {
+ for (vsize i = 0; i < elements->size (); i++)
+ add_boxes (elements->grob (i), x_common, y_common, boxes, skylines);
+ }
+ else if (!scm_is_number (me->get_property ("outside-staff-priority"))
+ && !to_boolean (me->get_property ("cross-staff")))
+ {
+ boxes->push_back (Box (me->extent (x_common, X_AXIS),
+ me->extent (y_common, Y_AXIS)));
+ }
+}
+
+/* We want to avoid situations like this:
+ still more text
+ more text
+ text
+ -------------------
+ staff
+ -------------------
+
+ The point is that "still more text" should be positioned under
+ "more text". In order to achieve this, we place the grobs in several
+ passes. We keep track of the right-most horizontal position that has been
+ affected by the current pass so far (actually we keep track of 2
+ positions, one for above the staff, one for below).
+
+ In each pass, we loop through the unplaced grobs from left to right.
+ If the grob doesn't overlap the right-most affected position, we place it
+ (and then update the right-most affected position to point to the right
+ edge of the just-placed grob). Otherwise, we skip it until the next pass.
+*/
+static void
+add_grobs_of_one_priority (Skyline_pair *const skylines,
+ vector<Grob*> elements,
+ Grob *x_common,
+ Grob *y_common)
+{
+ vector<Box> boxes;
+ Drul_array<Real> last_affected_position;
+
+ reverse (elements);
+ while (!elements.empty ())
+ {
+ last_affected_position[UP] = -infinity_f;
+ last_affected_position[DOWN] = -infinity_f;
+ /* do one pass */
+ for (vsize i = elements.size (); i--;)
+ {
+ Direction dir = get_grob_direction (elements[i]);
+ if (dir == CENTER)
+ {
+ warning (_ ("an outside-staff object should have a direction, defaulting to up"));
+ dir = UP;
+ }
+
+ Box b (elements[i]->extent (x_common, X_AXIS),
+ elements[i]->extent (y_common, Y_AXIS));
+ SCM horizon_padding_scm = elements[i]->get_property ("outside-staff-horizontal-padding");
+ Real horizon_padding = robust_scm2double (horizon_padding_scm, 0.0);
+
+ if (b[X_AXIS][LEFT] - 2*horizon_padding < last_affected_position[dir])
+ continue;
+
+ if (!b[X_AXIS].is_empty () && !b[Y_AXIS].is_empty ())
+ {
+ boxes.clear ();
+ boxes.push_back (b);
+ Skyline other = Skyline (boxes, horizon_padding, X_AXIS, -dir);
+ Real padding = robust_scm2double (elements[i]->get_property ("outside-staff-padding"), 0.5);
+ Real dist = (*skylines)[dir].distance (other) + padding;
+
+ if (dist > 0)
+ {
+ b.translate (Offset (0, dir*dist));
+ elements[i]->translate_axis (dir*dist, Y_AXIS);
+ }
+ (*skylines)[dir].insert (b, 0, X_AXIS);
+ elements[i]->set_property ("outside-staff-priority", SCM_BOOL_F);
+ last_affected_position[dir] = b[X_AXIS][RIGHT];
+ }
+
+ /*
+ Ugh: quadratic. --hwn
+ */
+ elements.erase (elements.begin () + i);
+ }
+ }
+}
+
+// TODO: it is tricky to correctly handle skyline placement of cross-staff grobs.
+// For example, cross-staff beams cannot be formatted until the distance between
+// staves is known and therefore any grobs that depend on the beam cannot be placed
+// until the skylines are known. On the other hand, the distance between staves should
+// really depend on position of the cross-staff grobs that lie between them.
+// Currently, we just leave cross-staff grobs out of the
+// skyline altogether, but this could mean that staves are placed so close together
+// that there is no room for the cross-staff grob. It also means, of course, that
+// we don't get the benefits of skyline placement for cross-staff grobs.
+Skyline_pair
+Axis_group_interface::skyline_spacing (Grob *me, vector<Grob*> elements)
+{
+ /* For grobs with an outside-staff-priority, the sorting function might
+ call extent and cause suicide. This breaks the contract that is required
+ for the STL sort function. To avoid this, we make sure that any suicides
+ are triggered beforehand.
+ */
+ for (vsize i = 0; i < elements.size (); i++)
+ if (scm_is_number (elements[i]->get_property ("outside-staff-priority")))
+ elements[i]->extent (elements[i], X_AXIS);
+
+ vector_sort (elements, staff_priority_less);
+ Grob *x_common = common_refpoint_of_array (elements, me, X_AXIS);
+ Grob *y_common = common_refpoint_of_array (elements, me, Y_AXIS);
+
+ assert (y_common == me);
+
+ vsize i = 0;
+ vector<Box> boxes;
+
+ Skyline_pair skylines;
+ for (i = 0; i < elements.size ()
+ && !scm_is_number (elements[i]->get_property ("outside-staff-priority")); i++)
+ if (!to_boolean (elements[i]->get_property ("cross-staff")))
+ add_boxes (elements[i], x_common, y_common, &boxes, &skylines);
+
+ SCM padding_scm = me->get_property ("skyline-horizontal-padding");
+ Real padding = robust_scm2double (padding_scm, 0.1);
+ skylines.merge (Skyline_pair (boxes, padding, X_AXIS));
+ for (; i < elements.size (); i++)
+ {
+ if (to_boolean (elements[i]->get_property ("cross-staff")))
+ continue;
+
+ SCM priority = elements[i]->get_property ("outside-staff-priority");
+ vector<Grob*> current_elts;
+ current_elts.push_back (elements[i]);
+ while (i + 1 < elements.size ()
+ && scm_eq_p (elements[i+1]->get_property ("outside-staff-priority"), priority))
+ current_elts.push_back (elements[++i]);
+
+ add_grobs_of_one_priority (&skylines, current_elts, x_common, y_common);
+ }
+ skylines.shift (-me->relative_coordinate (x_common, X_AXIS));
+ return skylines;
+}
+
+MAKE_SCHEME_CALLBACK (Axis_group_interface, calc_max_stretch, 1)
+SCM
+Axis_group_interface::calc_max_stretch (SCM smob)
+{
+ Grob *me = unsmob_grob (smob);
+ Real ret = 0;
+ extract_grob_set (me, "elements", elts);
+
+ for (vsize i = 0; i < elts.size (); i++)
+ if (Axis_group_interface::has_interface (elts[i]))
+ ret += robust_scm2double (elts[i]->get_property ("max-stretch"), 0.0);
+
+ return scm_from_double (ret);
+}
+
+MAKE_SCHEME_CALLBACK (Axis_group_interface, print, 1)
+SCM
+Axis_group_interface::print (SCM smob)
+{
+ if (!debug_skylines)
+ return SCM_BOOL_F;
+
+ Grob *me = unsmob_grob (smob);
+ Stencil ret;
+ if (Skyline_pair *s = Skyline_pair::unsmob (me->get_property ("vertical-skylines")))
+ {
+ ret.add_stencil (Lookup::points_to_line_stencil (0.1, (*s)[UP].to_points (X_AXIS))
+ .in_color (255, 0, 255));
+ ret.add_stencil (Lookup::points_to_line_stencil (0.1, (*s)[DOWN].to_points (X_AXIS))
+ .in_color (0, 255, 255));
+ }
+ return ret.smobbed_copy ();
+}
+ADD_INTERFACE (Axis_group_interface,
"An object that groups other layout objects.",
/* properties */
+ "X-common "
+ "Y-common "
+ "adjacent-pure-heights "
"axes "
"elements "
- "common-refpoint-of-elements "
- "pure-relevant-elements "
- "cached-pure-extents "
+ "keep-fixed-while-stretching "
+ "max-stretch "
+ "no-alignment "
+ "pure-Y-common "
+ "pure-relevant-items "
+ "pure-relevant-spanners "
+ "vertical-skylines "
);