X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=lily%2Faxis-group-interface.cc;h=b62465322eb8044081bd5801b560c3b60ef21ea5;hb=b8d901590e169580b19bc7c42e84c0e234412adf;hp=9fbfdf3193f29fb1c3329b880ddb55296cc4eabc;hpb=587186e70d21624cff1d1a7956ef7f37cb11dd3e;p=lilypond.git diff --git a/lily/axis-group-interface.cc b/lily/axis-group-interface.cc index 9fbfdf3193..4de8b6cf90 100644 --- a/lily/axis-group-interface.cc +++ b/lily/axis-group-interface.cc @@ -3,20 +3,24 @@ source file of the GNU LilyPond music typesetter - (c) 2000--2006 Han-Wen Nienhuys + (c) 2000--2009 Han-Wen Nienhuys */ #include "axis-group-interface.hh" #include "align-interface.hh" #include "directional-element-interface.hh" -#include "pointer-group-interface.hh" #include "grob-array.hh" #include "hara-kiri-group-spanner.hh" #include "international.hh" +#include "lookup.hh" #include "paper-column.hh" #include "paper-score.hh" +#include "pointer-group-interface.hh" #include "separation-item.hh" +#include "skyline-pair.hh" +#include "staff-grouper-interface.hh" +#include "stencil.hh" #include "system.hh" #include "warn.hh" @@ -61,71 +65,138 @@ Axis_group_interface::relative_group_extent (vector const &elts, 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; } Interval -Axis_group_interface::cached_pure_height (Grob *me, - vector const &elts, - Grob *common, - int start, int end) +Axis_group_interface::cached_pure_height (Grob *me, int start, int end) +{ + SCM adjacent_pure_heights = me->get_property ("adjacent-pure-heights"); + + if (!scm_is_pair (adjacent_pure_heights) + || !scm_is_vector (scm_cdr (adjacent_pure_heights))) + return Interval (0, 0); + + return combine_pure_heights (me, scm_cdr (adjacent_pure_heights), start, end); +} + +Interval +Axis_group_interface::begin_of_line_pure_height (Grob *me, int start) +{ + SCM adjacent_pure_heights = me->get_property ("adjacent-pure-heights"); + + if (!scm_is_pair (adjacent_pure_heights) + || !scm_is_vector (scm_car (adjacent_pure_heights))) + return Interval (0, 0); + + return combine_pure_heights (me, scm_car (adjacent_pure_heights), start, start+1); +} + +Interval +Axis_group_interface::combine_pure_heights (Grob *me, SCM measure_extents, int start, int end) { Paper_score *ps = get_root_system (me)->paper_score (); vector breaks = ps->get_break_indices (); vector cols = ps->get_columns (); - vsize start_index = VPOS; - vsize end_index = VPOS; - for (vsize i = 0; i < breaks.size (); i++) + 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 (end == INT_MAX) - end_index = breaks.size () - 1; + 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 (measure_extents, i))); } - SCM extents = me->get_property ("cached-pure-extents"); - if (!scm_is_vector (extents)) + return ext; +} + +// adjacent-pure-heights is a pair of vectors, each of which has one element +// for every measure in the score. The first vector stores, for each measure, +// the combined height of the elements that are present only when the bar +// is at the beginning of a line. The second vector stores, for each measure, +// the combined height of the elements that are present only when the bar +// is not at the beginning of a line. + +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 breaks = ps->get_break_indices (); + vector cols = ps->get_columns (); + + SCM begin_line_heights = scm_c_make_vector (breaks.size () - 1, SCM_EOL); + SCM mid_line_heights = 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 begin_line_iv; + Interval mid_line_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 (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); + Interval &target_iv = start == it->get_column ()->get_rank () ? begin_line_iv : mid_line_iv; + + if (!dims.is_empty ()) + target_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 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 ()) + mid_line_iv.unite (dims); + } + } + + scm_vector_set_x (begin_line_heights, scm_from_int (i), ly_interval2scm (begin_line_iv)); + scm_vector_set_x (mid_line_heights, scm_from_int (i), ly_interval2scm (mid_line_iv)); + } + return scm_cons (begin_line_heights, mid_line_heights); } Interval -Axis_group_interface::relative_pure_height (Grob *me, - vector 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. @@ -134,18 +205,38 @@ Axis_group_interface::relative_pure_height (Grob *me, 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 rank_span = elts[i]->spanned_rank_iv (); - Item *it = dynamic_cast (elts[i]); - if (rank_span[LEFT] <= end && rank_span[RIGHT] >= start && (!it || it->pure_is_visible (start, end))) + Item *it = dynamic_cast (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 = it->pure_height (common, start, end); + if (!dims.is_empty ()) + r.unite (dims); + } + } + + for (vsize i = 0; i < spanners.size (); i++) + { + Interval_t 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 = elts[i]->pure_height (common, start, end); + Interval dims = spanners[i]->pure_height (common, start, end); if (!dims.is_empty ()) r.unite (dims); } @@ -177,7 +268,18 @@ Axis_group_interface::pure_height (SCM smob, SCM start_scm, SCM end_scm) 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 (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); @@ -186,7 +288,9 @@ Axis_group_interface::calc_skylines (SCM smob) { Grob *me = unsmob_grob (smob); extract_grob_set (me, "elements", elts); - return skyline_spacing (me, elts).smobbed_copy (); + Skyline_pair skylines = skyline_spacing (me, elts); + + return skylines.smobbed_copy (); } /* whereas calc_skylines calculates skylines for axis-groups with a lot of @@ -202,18 +306,21 @@ 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); - assert (y_common == me); + 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 ("skylines"); + 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); } } @@ -224,7 +331,8 @@ SCM Axis_group_interface::generic_group_extent (Grob *me, Axis a) { /* trigger the callback to do skyline-spacing on the children */ - (void) me->get_property ("skylines"); + 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); @@ -235,6 +343,22 @@ Axis_group_interface::generic_group_extent (Grob *me, Axis a) return ly_interval2scm (r - my_coord); } +/* 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) +{ + extract_grob_set (me, "elements", elts); + vector 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); +} + Grob * Axis_group_interface::calc_pure_elts_and_common (Grob *me) @@ -244,13 +368,20 @@ Axis_group_interface::calc_pure_elts_and_common (Grob *me) extract_grob_set (me, "elements", elts); - vector relevant_elts; + vector relevant_items; + vector 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))) - relevant_elts.push_back (elts[i]); + { + if (dynamic_cast (elts[i])) + relevant_items.push_back (elts[i]); + else if (dynamic_cast (elts[i])) + relevant_spanners.push_back (elts[i]); + } + Item *it = dynamic_cast (elts[i]); Direction d = LEFT; @@ -259,42 +390,66 @@ Axis_group_interface::calc_pure_elts_and_common (Grob *me) { Item *piece = it->find_prebroken_piece (d); if (piece && to_boolean (scm_apply_1 (pure_relevant_p, piece->self_scm (), SCM_EOL))) - relevant_elts.push_back (piece); + relevant_items.push_back (piece); } while (flip (&d) != LEFT); } + vector_sort (relevant_items, Item::less); + + Grob *common = common_refpoint_of_array (relevant_items, me, Y_AXIS); + common = common_refpoint_of_array (relevant_spanners, common, Y_AXIS); - Grob *common = common_refpoint_of_array (relevant_elts, me, Y_AXIS); me->set_object ("pure-Y-common", common->self_scm ()); - 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 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; } -MAKE_SCHEME_CALLBACK(Axis_group_interface,calc_y_common, 1); SCM -Axis_group_interface::calc_y_common (SCM grob) +Axis_group_interface::calc_common (Grob *me, Axis axis) { - Grob *me = unsmob_grob (grob); - extract_grob_set (me, "elements", elts); - return common_refpoint_of_array (elts, me, Y_AXIS)->self_scm (); + 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 (); } + +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); - extract_grob_set (me, "pure-relevant-elements", elts); 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 @@ -324,6 +479,12 @@ staff_priority_less (Grob * const &g1, Grob * const &g2) 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]; @@ -332,17 +493,27 @@ staff_priority_less (Grob * const &g1, Grob * const &g2) } static void -add_boxes (Grob *me, Grob *x_common, Grob *y_common, vector *const boxes) +add_boxes (Grob *me, Grob *x_common, Grob *y_common, vector *const boxes, Skyline_pair *skylines) { - /* if we are a parent, consider the children's boxes instead of mine */ - if (Grob_array *elements = unsmob_grob_array (me->get_object ("elements"))) + /* 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); + 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))); } - else if (!scm_is_number (me->get_property ("outside-staff-priority"))) - boxes->push_back (Box (me->extent (x_common, X_AXIS), - me->extent (y_common, Y_AXIS))); } /* We want to avoid situations like this: @@ -360,7 +531,7 @@ add_boxes (Grob *me, Grob *x_common, Grob *y_common, vector *const boxes) 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 overlaps the right-most affected position, we place it + 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. */ @@ -396,9 +567,7 @@ add_grobs_of_one_priority (Skyline_pair *const skylines, if (b[X_AXIS][LEFT] - 2*horizon_padding < last_affected_position[dir]) continue; - if (b[X_AXIS].is_empty () || b[Y_AXIS].is_empty ()) - warning (_f ("outside-staff object %s has an empty extent", elements[i]->name ().c_str ())); - else + if (!b[X_AXIS].is_empty () && !b[Y_AXIS].is_empty ()) { boxes.clear (); boxes.push_back (b); @@ -411,7 +580,7 @@ add_grobs_of_one_priority (Skyline_pair *const skylines, b.translate (Offset (0, dir*dist)); elements[i]->translate_axis (dir*dist, Y_AXIS); } - (*skylines)[dir].insert (b, 0, X_AXIS); + skylines->insert (b, 0, X_AXIS); elements[i]->set_property ("outside-staff-priority", SCM_BOOL_F); last_affected_position[dir] = b[X_AXIS][RIGHT]; } @@ -424,9 +593,27 @@ add_grobs_of_one_priority (Skyline_pair *const skylines, } } +// 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 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); @@ -436,36 +623,98 @@ Axis_group_interface::skyline_spacing (Grob *me, vector elements) vsize i = 0; vector boxes; + Skyline_pair skylines; for (i = 0; i < elements.size () && !scm_is_number (elements[i]->get_property ("outside-staff-priority")); i++) - add_boxes (elements[i], x_common, y_common, &boxes); + if (!to_boolean (elements[i]->get_property ("cross-staff"))) + add_boxes (elements[i], x_common, y_common, &boxes, &skylines); - Skyline_pair skylines (boxes, 0, X_AXIS); + 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 current_elts; current_elts.push_back (elements[i]); - while (i < elements.size () - 1 + while (i + 1 < elements.size () && scm_eq_p (elements[i+1]->get_property ("outside-staff-priority"), priority)) - current_elts.push_back (elements[++i]); + { + if (!to_boolean (elements[i+1]->get_property ("cross-staff"))) + current_elts.push_back (elements[i+1]); + ++i; + } add_grobs_of_one_priority (&skylines, current_elts, x_common, y_common); } + skylines.shift (-me->relative_coordinate (x_common, X_AXIS)); return skylines; } -ADD_INTERFACE (Axis_group_interface, +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 (); +} + +MAKE_SCHEME_CALLBACK (Axis_group_interface, calc_next_staff_spacing, 1) +SCM +Axis_group_interface::calc_next_staff_spacing (SCM smob) +{ + Grob *me = unsmob_grob (smob); + Grob *grouper = unsmob_grob (me->get_object ("staff-grouper")); + + if (grouper) + { + Grob *last_in_group = Staff_grouper_interface::get_last_grob (grouper); + if (me == last_in_group) + return grouper->get_property ("after-last-staff-spacing"); + else + return grouper->get_property ("between-staff-spacing"); + } + return me->get_property ("default-next-staff-spacing"); +} + +ADD_INTERFACE (Axis_group_interface, "An object that groups other layout objects.", + // TODO: some of these properties are specific to + // VerticalAxisGroup. We should split off a + // vertical-axis-group-interface. /* properties */ "X-common " "Y-common " + "adjacent-pure-heights " "axes " + "default-next-staff-spacing " "elements " + "inter-loose-line-spacing " + "inter-staff-spacing " + "keep-fixed-while-stretching " + "max-stretch " + "next-staff-spacing " + "no-alignment " "pure-Y-common " - "pure-relevant-elements " - "skylines " - "cached-pure-extents " + "pure-relevant-items " + "pure-relevant-spanners " + "staff-affinity " + "staff-grouper " + "system-Y-offset " + "vertical-skylines " );