X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=lily%2Fseparating-group-spanner.cc;h=d841599246fb8fd4c67235d09af00e339f100b06;hb=839133759fa353574cf9323ad9da4b39d5b4eb34;hp=185ba95e20f6ad3ba50075484cc5e8d7b8b450ef;hpb=f3467e6b78be6d8497cf4d0a43ffd01656a33300;p=lilypond.git diff --git a/lily/separating-group-spanner.cc b/lily/separating-group-spanner.cc index 185ba95e20..d841599246 100644 --- a/lily/separating-group-spanner.cc +++ b/lily/separating-group-spanner.cc @@ -3,70 +3,122 @@ source file of the GNU LilyPond music typesetter - (c) 1998--1999 Han-Wen Nienhuys + (c) 1998--2002 Han-Wen Nienhuys */ #include "separating-group-spanner.hh" -#include "single-malt-grouping-item.hh" -#include "p-col.hh" +#include "separation-item.hh" +#include "paper-column.hh" #include "paper-def.hh" +#include "dimensions.hh" +#include "group-interface.hh" -Array -Separating_group_spanner::get_rods () const +void +Separating_group_spanner::find_rods (Item * r, SCM next) { - Array a; + + /* + This is an inner loop: look for the first normal (unbroken) Left + grob. This looks like an inner loop (ie. quadratic total), but in + most cases, the interesting L will just be the first entry of + NEXT, making it linear in most of the cases. + */ + if (Separation_item::width (r).empty_b ()) + return; - for (int i=0; i < spacing_unit_l_arr_.size () -1; i++) + for(; gh_pair_p (next); next = ly_cdr (next)) { - Single_malt_grouping_item *l =spacing_unit_l_arr_[i]; - Single_malt_grouping_item *lb - = dynamic_cast(l->find_prebroken_piece (RIGHT)); - Single_malt_grouping_item *r = spacing_unit_l_arr_[i+1]; - Single_malt_grouping_item *rb - = dynamic_cast(r->find_prebroken_piece (LEFT)); - - a.push (Rod (spacing_unit_l_arr_[i], spacing_unit_l_arr_[i+1])); + Item *l = dynamic_cast (unsmob_grob (ly_car( next))); + Item *lb = l->find_prebroken_piece (RIGHT); + if (lb) { - Rod rod(lb, r); - rod.distance_f_ += paper ()->interline_f () *1.5; - a.push (rod); - } - - if (rb) - { - a.push (Rod (l, rb)); + Interval li (Separation_item::width (lb)); + Interval ri (Separation_item::conditional_width (r, lb)); + if (!li.empty_b () && !ri.empty_b()) + { + Rod rod; + + rod.item_l_drul_[LEFT] = lb; + rod.item_l_drul_[RIGHT] = r; + + rod.distance_ = li[RIGHT] - ri[LEFT]; + rod.add_to_cols (); + } } - if (lb && rb) + + Interval li (Separation_item::width (l)); + Interval ri (Separation_item::conditional_width (r, l)); + if (!li.empty_b () && !ri.empty_b()) { - Rod rod(lb, rb); - rod.distance_f_ += paper ()->interline_f () *1.5; - a.push (rod); + Rod rod; + + rod.item_l_drul_[LEFT] =l; + rod.item_l_drul_[RIGHT]=r; + + rod.distance_ = li[RIGHT] - ri[LEFT]; + + rod.add_to_cols (); + break; } + + /* + this grob doesn't cause a constraint. We look further until we + find one that does. + */ + } - - return a; } -void -Separating_group_spanner::add_spacing_unit (Single_malt_grouping_item*i) +MAKE_SCHEME_CALLBACK (Separating_group_spanner,set_spacing_rods_and_seqs,1); +SCM +Separating_group_spanner::set_spacing_rods_and_seqs (SCM smob) { - spacing_unit_l_arr_.push (i); - add_dependency (i); + set_spacing_rods (smob); + + return SCM_UNSPECIFIED; } -void -Separating_group_spanner::do_substitute_element_pointer (Score_element*o, Score_element*n) +MAKE_SCHEME_CALLBACK (Separating_group_spanner,set_spacing_rods,1); +SCM +Separating_group_spanner::set_spacing_rods (SCM smob) { - if (dynamic_cast (o)) + Grob*me = unsmob_grob (smob); + + for (SCM s = me->get_grob_property ("elements"); gh_pair_p (s) && gh_pair_p (ly_cdr (s)); s = ly_cdr (s)) { - Single_malt_grouping_item*ns = dynamic_cast (n); - spacing_unit_l_arr_.substitute (dynamic_cast (o), ns); + /* + Order of elements is reversed! + */ + SCM elt = ly_car (s); + Item *r = unsmob_item (elt); + + if (!r) + continue; + + Item *rb + = dynamic_cast (r->find_prebroken_piece (LEFT)); + + find_rods (r, ly_cdr (s)); + if (rb) + find_rods (rb, ly_cdr (s)); } + + return SCM_UNSPECIFIED ; } -Separating_group_spanner::Separating_group_spanner() +void +Separating_group_spanner::add_spacing_unit (Grob* me ,Item*i) { - break_helper_only_b_ = true; + Pointer_group_interface::add_grob (me, ly_symbol2scm ("elements"), i); + me->add_dependency (i); } + + + + + +ADD_INTERFACE (Separating_group_spanner,"separation-spanner-interface", + "Spanner that containing @code{separation-item-interface} grobs to calculate rods", + "");