/*
- constrained-breaking.cc -- implement a line breaker that
- support limits on the number of systems
+ This file is part of LilyPond, the GNU music typesetter.
- source file of the GNU LilyPond music typesetter
+ Copyright (C) 2006--2010 Joe Neeman <joeneeman@gmail.com>
- (c) 2006--2009 Joe Neeman <joeneeman@gmail.com>
+ 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 <http://www.gnu.org/licenses/>.
*/
#include "constrained-breaking.hh"
#include "international.hh"
#include "main.hh"
#include "output-def.hh"
+#include "page-layout-problem.hh"
#include "paper-column.hh"
#include "paper-score.hh"
#include "simple-spacer.hh"
/*
We use the following optimal substructure. Let W (A) be our weight function.
- Let A_{k, n} = (a_{k, n,1}, ... a_{k, n, k}) be the optimal set of line breaks
+ Let A_{k, n} = (a_{k, n, 1}, ... a_{k, n, k}) be the optimal set of line breaks
for k systems and n potential breakpoints. a_{k, n, k} = n (it is the end of
the piece)
{
if (brk != end_brk)
{
- warning (_ ("cannot find line breaking that satisfies constraints" ));
+ brk = st.at (brk, sys).prev_;
+ sys--;
+ warning (_ ("cannot find line breaking that satisfies constraints"));
ret.push_back (space_line (brk, end_brk));
}
- /* build up the good solution */
+
+ /* build up the good part of the solution */
for (vsize cur_sys = sys; cur_sys != VPOS; cur_sys--)
{
vsize prev_brk = st.at (brk, cur_sys).prev_;
std::vector<Line_details>
Constrained_breaking::line_details (vsize start, vsize end, vsize sys_count)
{
- vsize brk = prepare_solution (start, end, sys_count);
+ vsize end_brk = prepare_solution (start, end, sys_count);
Matrix<Constrained_break_node> const &st = state_[start];
vector<Line_details> ret;
- for (int sys = sys_count-1; sys >= 0 && brk != VPOS; sys--)
+ /* This loop structure is C&Ped from solve(). */
+ /* find the first solution that satisfies constraints */
+ for (vsize sys = sys_count-1; sys != VPOS; sys--)
{
- ret.push_back (st.at (brk, sys).details_);
- brk = st.at (brk, sys).prev_;
+ for (vsize brk = end_brk; brk != VPOS; brk--)
+ {
+ if (!isinf (st.at (brk, sys).details_.force_))
+ {
+ if (brk != end_brk)
+ {
+ /*
+ During initialize(), we only fill out a
+ Line_details for lines that are valid (ie. not too
+ long), otherwise line breaking becomes O(n^3).
+ In case sys_count is such that no valid solution
+ is found, we need to fill in the Line_details.
+ */
+ Line_details details;
+ brk = st.at (brk, sys).prev_;
+ sys--;
+ fill_line_details (&details, brk, end_brk);
+ ret.push_back (details);
+ }
+
+ /* build up the good part of the solution */
+ for (vsize cur_sys = sys; cur_sys != VPOS; cur_sys--)
+ {
+ vsize prev_brk = st.at (brk, cur_sys).prev_;
+ assert (brk != VPOS);
+ ret.push_back (st.at (brk, cur_sys).details_);
+ brk = prev_brk;
+ }
+ reverse (ret);
+ return ret;
+ }
+ }
}
- reverse (ret);
+
+ /* if we get to here, just put everything on one line */
+ Line_details details;
+ fill_line_details (&details, 0, end_brk);
+ ret.push_back (details);
return ret;
}
ragged_right_ = to_boolean (pscore_->layout ()->c_variable ("ragged-right"));
ragged_last_ = to_boolean (pscore_->layout ()->c_variable ("ragged-last"));
-
+ system_system_space_ = 0;
+ system_markup_space_ = 0;
+ system_system_padding_ = 0;
+ system_system_min_distance_ = 0;
+ score_system_padding_ = 0;
+ score_system_min_distance_ = 0;
+ score_markup_padding_ = 0;
+ score_markup_min_distance_ = 0;
+
Output_def *l = pscore_->layout ();
- System *sys = pscore_->root_system ();
- Real space = robust_scm2double (l->c_variable ("ideal-system-space"), 0);
- SCM padding_scm = l->c_variable ("page-breaking-between-system-padding");
- if (!scm_is_number (padding_scm))
- padding_scm = l->c_variable ("between-system-padding");
- Real padding = robust_scm2double (padding_scm, 0.0);
+
+ SCM spacing_spec = l->c_variable ("system-system-spacing");
+ SCM between_scores_spec = l->c_variable ("score-system-spacing");
+ SCM title_spec = l->c_variable ("score-markup-spacing");
+ SCM page_breaking_spacing_spec = l->c_variable ("page-breaking-system-system-spacing");
+
+ Page_layout_problem::read_spacing_spec (spacing_spec,
+ &system_system_space_,
+ ly_symbol2scm ("space"));
+ Page_layout_problem::read_spacing_spec (page_breaking_spacing_spec,
+ &system_system_space_,
+ ly_symbol2scm ("space"));
+ Page_layout_problem::read_spacing_spec (title_spec,
+ &system_markup_space_,
+ ly_symbol2scm ("space"));
+
+ Page_layout_problem::read_spacing_spec (spacing_spec,
+ &system_system_padding_,
+ ly_symbol2scm ("padding"));
+ Page_layout_problem::read_spacing_spec (between_scores_spec,
+ &score_system_padding_,
+ ly_symbol2scm ("padding"));
+ Page_layout_problem::read_spacing_spec (page_breaking_spacing_spec,
+ &system_system_padding_,
+ ly_symbol2scm ("padding"));
+ Page_layout_problem::read_spacing_spec (title_spec,
+ &score_markup_padding_,
+ ly_symbol2scm ("padding"));
+
+ Page_layout_problem::read_spacing_spec (between_scores_spec,
+ &score_system_min_distance_,
+ ly_symbol2scm ("minimum-distance"));
+ Page_layout_problem::read_spacing_spec (spacing_spec,
+ &system_system_min_distance_,
+ ly_symbol2scm ("minimum-distance"));
+ Page_layout_problem::read_spacing_spec (page_breaking_spacing_spec,
+ &system_system_min_distance_,
+ ly_symbol2scm ("minimum-distance"));
+ Page_layout_problem::read_spacing_spec (title_spec,
+ &score_markup_min_distance_,
+ ly_symbol2scm ("minimum-distance"));
Interval first_line = line_dimensions_int (pscore_->layout (), 0);
Interval other_lines = line_dimensions_int (pscore_->layout (), 1);
/* do all the rod/spring problems */
- breaks_ = pscore_->find_break_indices ();
+ breaks_ = pscore_->get_break_indices ();
all_ = pscore_->root_system ()->used_columns ();
lines_.resize (breaks_.size (), breaks_.size (), Line_details ());
vector<Real> forces = get_line_forces (all_,
{
for (vsize j = i + 1; j < breaks_.size (); j++)
{
- int start = Paper_column::get_rank (all_[breaks_[i]]);
- int end = Paper_column::get_rank (all_[breaks_[j]]);
- Interval extent = sys->pure_height (sys, start, end);
bool last = j == breaks_.size () - 1;
bool ragged = ragged_right_ || (last && ragged_last_);
Line_details &line = lines_.at (j, i);
if (isinf (line.force_))
break;
- Grob *c = all_[breaks_[j]];
- line.break_penalty_ = robust_scm2double (c->get_property ("line-break-penalty"), 0);
- line.page_penalty_ = robust_scm2double (c->get_property ("page-break-penalty"), 0);
- line.turn_penalty_ = robust_scm2double (c->get_property ("page-turn-penalty"), 0);
- line.break_permission_ = c->get_property ("line-break-permission");
- line.page_permission_ = c->get_property ("page-break-permission");
- line.turn_permission_ = c->get_property ("page-turn-permission");
-
- /* turn permission should always be stricter than page permission
- and page permission should always be stricter than line permission */
- line.page_permission_ = min_permission (line.break_permission_,
- line.page_permission_);
- line.turn_permission_ = min_permission (line.page_permission_,
- line.turn_permission_);
-
- line.extent_ = (extent.is_empty ()
- || isnan (extent[LEFT])
- || isnan (extent[RIGHT]))
- ? Interval (0, 0) : extent;
- line.padding_ = padding;
- line.space_ = space;
- line.inverse_hooke_ = extent.length () + space;
+ fill_line_details (&line, i, j);
}
}
state_.resize (start_.size ());
}
+/*
+ Fills out all of the information contained in a Line_details,
+ except for information about horizontal spacing.
+*/
+void
+Constrained_breaking::fill_line_details (Line_details *const out, vsize start, vsize end)
+{
+ int start_rank = Paper_column::get_rank (all_[breaks_[start]]);
+ int end_rank = Paper_column::get_rank (all_[breaks_[end]]);
+ System *sys = pscore_->root_system ();
+ Interval begin_of_line_extent = sys->begin_of_line_pure_height (start_rank, end_rank);
+ Interval rest_of_line_extent = sys->rest_of_line_pure_height (start_rank, end_rank);
+ bool last = (end == breaks_.size () - 1);
+
+ Grob *c = all_[breaks_[end]];
+ out->last_column_ = c;
+ out->break_penalty_ = robust_scm2double (c->get_property ("line-break-penalty"), 0);
+ out->page_penalty_ = robust_scm2double (c->get_property ("page-break-penalty"), 0);
+ out->turn_penalty_ = robust_scm2double (c->get_property ("page-turn-penalty"), 0);
+ out->break_permission_ = c->get_property ("line-break-permission");
+ out->page_permission_ = c->get_property ("page-break-permission");
+ out->turn_permission_ = c->get_property ("page-turn-permission");
+
+ /* turn permission should always be stricter than page permission
+ and page permission should always be stricter than line permission */
+ out->page_permission_ = min_permission (out->break_permission_,
+ out->page_permission_);
+ out->turn_permission_ = min_permission (out->page_permission_,
+ out->turn_permission_);
+
+ begin_of_line_extent = (begin_of_line_extent.is_empty ()
+ || isnan (begin_of_line_extent[LEFT])
+ || isnan (begin_of_line_extent[RIGHT]))
+ ? Interval (0, 0) : begin_of_line_extent;
+ rest_of_line_extent = (rest_of_line_extent.is_empty ()
+ || isnan (rest_of_line_extent[LEFT])
+ || isnan (rest_of_line_extent[RIGHT]))
+ ? Interval (0, 0) : rest_of_line_extent;
+ out->shape_ = Line_shape (begin_of_line_extent, rest_of_line_extent);
+ out->padding_ = last ? score_system_padding_ : system_system_padding_;
+ out->title_padding_ = score_markup_padding_;
+ out->min_distance_ = last ? score_system_min_distance_ : system_system_min_distance_;
+ out->title_min_distance_ = score_markup_min_distance_;
+ out->space_ = system_system_space_;
+ out->title_space_ = system_markup_space_;
+ out->inverse_hooke_ = out->full_height () + system_system_space_;
+
+ out->refpoint_extent_ = sys->pure_refpoint_extent (start_rank, end_rank);
+ if (out->refpoint_extent_.is_empty ())
+ out->refpoint_extent_ = Interval (0, 0);
+}
+
Real
Constrained_breaking::combine_demerits (Real force, Real prev_force)
{
return force * force + (prev_force - force) * (prev_force - force);
}
+Line_details::Line_details (Prob *pb, Output_def *paper)
+{
+ SCM spec = paper->c_variable ("markup-system-spacing");
+ SCM title_spec = paper->c_variable ("markup-markup-spacing");
+ padding_ = 0;
+ title_padding_ = 0;
+ min_distance_ = 0;
+ title_min_distance_ = 0;
+ space_ = 0;
+ title_space_ = 0;
+ Page_layout_problem::read_spacing_spec (spec, &space_, ly_symbol2scm ("space"));
+ Page_layout_problem::read_spacing_spec (title_spec, &title_space_, ly_symbol2scm ("space"));
+ Page_layout_problem::read_spacing_spec (spec, &padding_, ly_symbol2scm ("padding"));
+ Page_layout_problem::read_spacing_spec (title_spec, &title_padding_, ly_symbol2scm ("padding"));
+ Page_layout_problem::read_spacing_spec (spec, &min_distance_, ly_symbol2scm ("minimum-distance"));
+ Page_layout_problem::read_spacing_spec (title_spec, &title_min_distance_, ly_symbol2scm ("minimum-distance"));
+
+ last_column_ = 0;
+ force_ = 0;
+ Interval stencil_extent = unsmob_stencil (pb->get_property ("stencil"))->extent (Y_AXIS);
+ shape_ = Line_shape (stencil_extent, stencil_extent); // pretend it goes all the way across
+ tallness_ = 0;
+ bottom_padding_ = 0;
+ inverse_hooke_ = 1.0;
+ break_permission_ = ly_symbol2scm ("allow");
+ page_permission_ = pb->get_property ("page-break-permission");
+ turn_permission_ = pb->get_property ("page-turn-permission");
+ break_penalty_ = 0;
+ page_penalty_ = robust_scm2double (pb->get_property ("page-break-penalty"), 0);
+ turn_penalty_ = robust_scm2double (pb->get_property ("page-turn-penalty"), 0);
+ title_ = to_boolean (pb->get_property ("is-title"));
+ compressed_lines_count_ = 1;
+ compressed_nontitle_lines_count_ = title_ ? 0 : 1;
+ SCM last_scm = pb->get_property ("last-markup-line");
+ last_markup_line_ = to_boolean (last_scm);
+ SCM first_scm = pb->get_property ("first-markup-line");
+ first_markup_line_ = to_boolean (first_scm);
+ tight_spacing_ = to_boolean (pb->get_property ("tight-spacing"));
+ refpoint_extent_ = Interval (0, 0);
+}
+
+Real
+Line_details::full_height () const
+{
+ Interval ret;
+ ret.unite(shape_.begin_);
+ ret.unite(shape_.rest_);
+ return ret.length();
+}
+
+Real
+Line_details::tallness () const
+{
+ return tallness_;
+}
+
+Line_shape::Line_shape (Interval begin, Interval rest)
+{
+ begin_ = begin;
+ rest_ = rest;
+}
+
+Line_shape
+Line_shape::piggyback (Line_shape mount, Real padding) const
+{
+ Real elevation = max (begin_[UP]-mount.begin_[DOWN], rest_[UP]-mount.rest_[DOWN]);
+ Interval begin = Interval (begin_[DOWN], elevation + mount.begin_[UP] + padding);
+ Interval rest = Interval (rest_[DOWN], elevation + mount.rest_[UP] + padding);
+ return Line_shape (begin, rest);
+}