/* This file is part of LilyPond, the GNU music typesetter. Copyright (C) 2000--2015 Jan Nieuwenhuizen LilyPond is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. LilyPond is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with LilyPond. If not, see . */ #include "align-interface.hh" #include "axis-group-interface.hh" #include "font-interface.hh" #include "grob-interface.hh" #include "item.hh" #include "lily-proto.hh" #include "line-interface.hh" #include "note-column.hh" #include "output-def.hh" #include "paper-column.hh" #include "pointer-group-interface.hh" #include "spanner.hh" #include "staff-symbol-referencer.hh" #include "system.hh" #include "text-interface.hh" #include "warn.hh" class Line_spanner { public: DECLARE_SCHEME_CALLBACK (print, (SCM)); DECLARE_SCHEME_CALLBACK (calc_cross_staff, (SCM)); DECLARE_SCHEME_CALLBACK (calc_left_bound_info, (SCM)); DECLARE_SCHEME_CALLBACK (calc_left_bound_info_and_text, (SCM)); DECLARE_SCHEME_CALLBACK (calc_right_bound_info, (SCM)); DECLARE_SCHEME_CALLBACK (calc_bound_info, (SCM, Direction)); }; Spanner *parent_spanner (Grob *g) { if (has_interface (g)) return dynamic_cast (g); return parent_spanner (g->get_parent (Y_AXIS)); } SCM Line_spanner::calc_bound_info (SCM smob, Direction dir) { Spanner *me = unsmob (smob); Grob *commonx = me->get_bound (LEFT)->common_refpoint (me->get_bound (RIGHT), X_AXIS); commonx = me->common_refpoint (commonx, X_AXIS); SCM bound_details = me->get_property ("bound-details"); SCM details = SCM_BOOL_F; if (scm_is_false (details)) details = ly_assoc_get ((dir == LEFT) ? ly_symbol2scm ("left") : ly_symbol2scm ("right"), bound_details, SCM_BOOL_F); if (me->get_bound (dir)->break_status_dir ()) { SCM extra = ly_assoc_get ((dir == LEFT) ? ly_symbol2scm ("left-broken") : ly_symbol2scm ("right-broken"), bound_details, SCM_EOL); details = scm_append (scm_list_2 (extra, details)); } if (scm_is_false (details)) details = ly_assoc_get (ly_symbol2scm ("default"), bound_details, SCM_EOL); SCM text = ly_assoc_get (ly_symbol2scm ("text"), details, SCM_BOOL_F); if (Text_interface::is_markup (text)) { Output_def *layout = me->layout (); SCM properties = Font_interface::text_font_alist_chain (me); details = scm_acons (ly_symbol2scm ("stencil"), Text_interface::interpret_markup (layout->self_scm (), properties, text), details); } if (!scm_is_number (ly_assoc_get (ly_symbol2scm ("X"), details, SCM_BOOL_F))) { Direction attach = (Direction) robust_scm2int (ly_assoc_get (ly_symbol2scm ("attach-dir"), details, SCM_BOOL_F), CENTER); Item *bound_item = me->get_bound (dir); Grob *bound_grob = bound_item; if (to_boolean (ly_assoc_get (ly_symbol2scm ("end-on-note"), details, SCM_BOOL_F)) && bound_item->break_status_dir ()) { extract_grob_set (me, "note-columns", columns); if (columns.size ()) bound_grob = (dir == LEFT) ? columns[0] : columns.back (); } Real x_coord = (has_interface (bound_grob) ? Axis_group_interface::generic_bound_extent (bound_grob, commonx, X_AXIS) : robust_relative_extent (bound_grob, commonx, X_AXIS)).linear_combination (attach); Grob *acc = unsmob (bound_grob->get_object ("accidental-grob")); if (acc && to_boolean (ly_assoc_get (ly_symbol2scm ("end-on-accidental"), details, SCM_BOOL_F))) x_coord = robust_relative_extent (acc, commonx, X_AXIS).linear_combination (attach); Grob *dot = unsmob (bound_grob->get_object ("dot")); if (dot && to_boolean (ly_assoc_get (ly_symbol2scm ("start-at-dot"), details, SCM_BOOL_F))) x_coord = robust_relative_extent (dot, commonx, X_AXIS).linear_combination (attach); details = scm_acons (ly_symbol2scm ("X"), scm_from_double (x_coord), details); } if (!scm_is_number (ly_assoc_get (ly_symbol2scm ("Y"), details, SCM_BOOL_F))) { Real y = 0.0; Real extra_dy = robust_scm2double (me->get_property ("extra-dy"), 0.0); Grob *common_y = me->common_refpoint (me->get_bound (dir), Y_AXIS); if (me->get_bound (dir)->break_status_dir ()) { if (to_boolean (me->get_property ("simple-Y"))) { Spanner *orig = dynamic_cast(me->original ()); Spanner *extreme = dir == LEFT ? orig->broken_intos_.front () : orig->broken_intos_.back (); Grob *e_bound = extreme->get_bound (dir); Grob *e_common_y = extreme->common_refpoint (e_bound, Y_AXIS); y = e_bound->extent (e_common_y, Y_AXIS).center (); } else { Spanner *next_sp = me->broken_neighbor (dir); Item *next_bound = next_sp->get_bound (dir); if (next_bound->break_status_dir ()) { programming_error ("no note heads for the line spanner on neighbor line?" " Confused."); me->suicide (); return SCM_EOL; } Spanner *next_bound_parent = parent_spanner (next_bound); Interval next_ext = next_bound->extent (next_bound_parent, Y_AXIS); /* We want to know what would be the y-position of the next bound (relative to my y-parent) if it belonged to the same system as this bound. We rely on the fact that the y-parent of the next bound is a spanner (probably the VerticalAxisGroup of a staff) that extends over the break. */ Spanner *next_bound_parent_on_this_line = next_bound_parent->broken_neighbor (-dir); if (next_bound_parent_on_this_line) { Grob *common = me->common_refpoint (next_bound_parent_on_this_line, Y_AXIS); Real bound_offset = next_bound_parent_on_this_line->relative_coordinate (common, Y_AXIS); y = next_ext.center () + bound_offset - me->relative_coordinate (common, Y_AXIS); } else { /* We fall back to assuming that the distance between staves doesn't change over line breaks. */ programming_error ("next-bound's parent doesn't extend to this line"); Grob *next_system = next_bound->get_system (); Grob *this_system = me->get_system (); y = next_ext.center () + next_bound_parent->relative_coordinate (next_system, Y_AXIS) - me->relative_coordinate (this_system, Y_AXIS); } } } else { Interval ii = me->get_bound (dir)->extent (common_y, Y_AXIS); if (!ii.is_empty()) y = ii.center (); details = scm_acons (ly_symbol2scm ("common-Y"), common_y->self_scm (), details); } y += dir * extra_dy / 2; details = scm_acons (ly_symbol2scm ("Y"), scm_from_double (y), details); } return details; } MAKE_SCHEME_CALLBACK (Line_spanner, calc_cross_staff, 1); SCM Line_spanner::calc_cross_staff (SCM smob) { Spanner *me = unsmob (smob); if (!me) return SCM_BOOL_F; if (to_boolean (me->get_bound (LEFT)->get_property ("non-musical")) || to_boolean (me->get_bound (RIGHT)->get_property ("non-musical"))) return SCM_BOOL_F; return scm_from_bool (Staff_symbol_referencer::get_staff_symbol (me->get_bound (LEFT)) != Staff_symbol_referencer::get_staff_symbol (me->get_bound (RIGHT))); } MAKE_SCHEME_CALLBACK (Line_spanner, calc_right_bound_info, 1); SCM Line_spanner::calc_right_bound_info (SCM smob) { return Line_spanner::calc_bound_info (smob, RIGHT); } MAKE_SCHEME_CALLBACK (Line_spanner, calc_left_bound_info, 1); SCM Line_spanner::calc_left_bound_info (SCM smob) { return Line_spanner::calc_bound_info (smob, LEFT); } MAKE_SCHEME_CALLBACK (Line_spanner, calc_left_bound_info_and_text, 1); SCM Line_spanner::calc_left_bound_info_and_text (SCM smob) { SCM alist = Line_spanner::calc_bound_info (smob, LEFT); Spanner *me = unsmob (smob); SCM text = me->get_property ("text"); if (Text_interface::is_markup (text) && me->get_bound (LEFT)->break_status_dir () == CENTER && scm_is_false (ly_assoc_get (ly_symbol2scm ("stencil"), alist, SCM_BOOL_F))) { Output_def *layout = me->layout (); SCM properties = Font_interface::text_font_alist_chain (me); alist = scm_acons (ly_symbol2scm ("stencil"), Text_interface::interpret_markup (layout->self_scm (), properties, text), alist); } return alist; } MAKE_SCHEME_CALLBACK (Line_spanner, print, 1); SCM Line_spanner::print (SCM smob) { Spanner *me = unsmob (smob); // Triggers simple-Y calculations bool simple_y = to_boolean (me->get_property ("simple-Y")) && !to_boolean (me->get_property ("cross-staff")); Drul_array bounds (me->get_property ("left-bound-info"), me->get_property ("right-bound-info")); Grob *commonx = me->get_bound (LEFT)->common_refpoint (me->get_bound (RIGHT), X_AXIS); commonx = me->common_refpoint (commonx, X_AXIS); Drul_array span_points; for (LEFT_and_RIGHT (d)) { Offset z (robust_scm2double (ly_assoc_get (ly_symbol2scm ("X"), bounds[d], SCM_BOOL_F), 0.0), robust_scm2double (ly_assoc_get (ly_symbol2scm ("Y"), bounds[d], SCM_BOOL_F), 0.0)); span_points[d] = z; } Drul_array gaps (0, 0); Drul_array arrows (0, 0); Drul_array stencils (0, 0); Drul_array common_y (0, 0); // For scaling of 'padding and 'stencil-offset Real magstep = pow (2, robust_scm2double (me->get_property ("font-size"), 0.0) / 6); for (LEFT_and_RIGHT (d)) { gaps[d] = robust_scm2double (ly_assoc_get (ly_symbol2scm ("padding"), bounds[d], SCM_BOOL_F), 0.0); arrows[d] = to_boolean (ly_assoc_get (ly_symbol2scm ("arrow"), bounds[d], SCM_BOOL_F)); stencils[d] = unsmob (ly_assoc_get (ly_symbol2scm ("stencil"), bounds[d], SCM_BOOL_F)); common_y[d] = unsmob (ly_assoc_get (ly_symbol2scm ("common-Y"), bounds[d], SCM_BOOL_F)); if (!common_y[d]) common_y[d] = me; } Grob *my_common_y = common_y[LEFT]->common_refpoint (common_y[RIGHT], Y_AXIS); if (!simple_y) { for (LEFT_and_RIGHT (d)) span_points[d][Y_AXIS] += common_y[d]->relative_coordinate (my_common_y, Y_AXIS); } Interval normalized_endpoints = robust_scm2interval (me->get_property ("normalized-endpoints"), Interval (0, 1)); Real y_length = span_points[RIGHT][Y_AXIS] - span_points[LEFT][Y_AXIS]; span_points[LEFT][Y_AXIS] += normalized_endpoints[LEFT] * y_length; span_points[RIGHT][Y_AXIS] -= (1 - normalized_endpoints[RIGHT]) * y_length; Offset dz = (span_points[RIGHT] - span_points[LEFT]); Offset dz_dir = dz.direction (); if (gaps[LEFT] + gaps[RIGHT] > dz.length ()) { return SCM_EOL; } Stencil line; for (LEFT_and_RIGHT (d)) { span_points[d] += -d * gaps[d] * magstep * dz.direction (); if (stencils[d]) { Stencil s = stencils[d]->translated (span_points[d]); SCM align = ly_assoc_get (ly_symbol2scm ("stencil-align-dir-y"), bounds[d], SCM_BOOL_F); SCM off = ly_assoc_get (ly_symbol2scm ("stencil-offset"), bounds[d], SCM_BOOL_F); if (scm_is_number (align)) s.align_to (Y_AXIS, scm_to_double (align)); if (is_number_pair (off)) s.translate (ly_scm2offset (off) * magstep); line.add_stencil (s); } } for (LEFT_and_RIGHT (d)) { if (stencils[d]) span_points[d] += dz_dir * (stencils[d]->extent (X_AXIS)[-d] / dz_dir[X_AXIS]); } Offset adjust = dz.direction () * Staff_symbol_referencer::staff_space (me); Offset line_left = span_points[LEFT] + (arrows[LEFT] ? adjust * 1.4 : Offset (0, 0)); Offset line_right = span_points[RIGHT] - (arrows[RIGHT] ? adjust * 0.55 : Offset (0, 0)); if (line_right[X_AXIS] > line_left[X_AXIS]) { line.add_stencil (Line_interface::line (me, line_left, line_right)); line.add_stencil (Line_interface::arrows (me, span_points[LEFT], span_points[RIGHT], arrows[LEFT], arrows[RIGHT])); } line.translate (Offset (-me->relative_coordinate (commonx, X_AXIS), simple_y ? 0.0 : -me->relative_coordinate (my_common_y, Y_AXIS))); return line.smobbed_copy (); } ADD_INTERFACE (Line_spanner, "Generic line drawn between two objects, e.g., for use with" " glissandi.", /* properties */ "bound-details " "extra-dy " "gap " "left-bound-info " "note-columns " "right-bound-info " "simple-Y " "thickness " "to-barline " );