/*
- optimal-page-breaking.cc -- implement a page-breaker that
- will break pages in such a way that both horizontal and
- vertical spacing will be acceptable
+ 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--2007 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 "international.hh"
static bool
is_break (Grob *g)
{
- (void) g; /* shutup warning */
- return false;
+ return g->get_property ("page-break-permission") == ly_symbol2scm ("force");
}
Optimal_page_breaking::Optimal_page_breaking (Paper_book *pb)
{
}
-SCM
-Optimal_page_breaking::solve ()
+extern bool debug_page_breaking_scoring;
+
+// Solves the subproblem betwen the (END-1)th \pageBreak and the
+// ENDth \pageBreak.
+// Returns a vector of systems per page for the pages within this chunk.
+vector<vsize>
+Optimal_page_breaking::solve_chunk (vsize end, SCM forced_page_count)
{
- vsize end = last_break_position ();
- vsize max_sys_count = max_system_count (0, end);
+ vsize max_sys_count = max_system_count (end-1, end);
vsize first_page_num = robust_scm2int (book_->paper_->c_variable ("first-page-number"), 1);
- SCM forced_page_count = book_->paper_->c_variable ("page-count");
- set_to_ideal_line_configuration (0, end);
+ set_to_ideal_line_configuration (end-1, end);
Page_spacing_result best;
vsize page_count = robust_scm2int (forced_page_count, 1);
if (!scm_is_integer (forced_page_count))
{
- /* find out the ideal number of pages */
- message (_ ("Finding the ideal number of pages..."));
-
- best = space_systems_on_best_pages (0, first_page_num);
- page_count = best.systems_per_page_.size ();
+ if (systems_per_page () > 0)
+ best = space_systems_with_fixed_number_per_page (0, first_page_num);
+ else
+ best = space_systems_on_best_pages (0, first_page_num);
+ page_count = best.systems_per_page_.size ();
ideal_sys_count = best.system_count ();
min_sys_count = ideal_sys_count - best.systems_per_page_.back ();
}
else
{
- /* todo: the following line will spit out programming errors if the
+ /* TODO: the following line will spit out programming errors if the
ideal line spacing doesn't fit on PAGE_COUNT pages */
+ /* TODO: the interaction between systems_per_page and page_count needs to
+ be considered. */
best = space_systems_on_n_pages (0, page_count, first_page_num);
min_sys_count = page_count;
}
- if (page_count == 1)
- message (_ ("Fitting music on 1 page..."));
- else if (scm_is_integer (forced_page_count))
- message (_f ("Fitting music on %d pages...", (int)page_count));
+ if (page_count == 1 || scm_is_integer (forced_page_count))
+ progress_indication (_f ("[%d: %d pages]", (int) end, (int) page_count));
else
- message (_f ("Fitting music on %d or %d pages...", (int)page_count-1, (int)page_count));
+ progress_indication (_f ("[%d: %d or %d pages]", (int) end, (int) page_count-1, (int)page_count));
/* try a smaller number of systems than the ideal number for line breaking */
Line_division bound = ideal_line_division;
for (vsize sys_count = ideal_sys_count; --sys_count >= min_sys_count;)
{
Page_spacing_result best_for_this_sys_count;
- set_current_breakpoints (0, end, sys_count, Line_division (), bound);
+ set_current_breakpoints (end-1, end, sys_count, Line_division (), bound);
+
+ if (debug_page_breaking_scoring)
+ message (_f ("trying %d systems", (int)sys_count));
for (vsize i = 0; i < current_configuration_count (); i++)
{
if (min_p_count == page_count || scm_is_integer (forced_page_count))
cur = space_systems_on_n_pages (i, page_count, first_page_num);
else
- cur = space_systems_on_n_or_one_more_pages (i, page_count-1, first_page_num);
+ cur = space_systems_on_n_or_one_more_pages (i, page_count-1, first_page_num, 0);
- if (cur.demerits_ < best_for_this_sys_count.demerits_ || isinf (best_for_this_sys_count.demerits_))
+ if (cur.demerits_ < best_for_this_sys_count.demerits_)
{
best_for_this_sys_count = cur;
bound = current_configuration (i);
}
}
- if (best_for_this_sys_count.demerits_ < best.demerits_ || isinf (best.demerits_))
+ if (debug_page_breaking_scoring)
+ message (_f ("best score for this sys-count: %f", best_for_this_sys_count.demerits_));
+
+ if (best_for_this_sys_count.demerits_ < best.demerits_)
{
best = best_for_this_sys_count;
best_division = bound;
}
- /* if the pages are stretched on average, stop trying to reduce sys_count */
- if (best_for_this_sys_count.page_count () < page_count
- && best_for_this_sys_count.average_force () > 0)
- break;
-
+ /* Check to see if we already have too few systems. There are two ways
+ we check this: if we are trying one less than the ideal number of pages
+ and the pages are stretched on average then we have too
+ few systems. If the spacing is worse than BAD_SPACING_PENALTY, then we
+ have too few systems. In either case, though, we need to continue reducing
+ the number of systems if max-systems-per-page requires it. */
+ if (!(best.system_count_status_ & SYSTEM_COUNT_TOO_MANY))
+ {
+ if (best_for_this_sys_count.page_count () < page_count
+ && best_for_this_sys_count.average_force () > 0)
+ break;
- if (isinf (best_for_this_sys_count.demerits_))
- break;
+ if (best_for_this_sys_count.demerits_ >= BAD_SPACING_PENALTY)
+ break;
+ }
}
/* try a larger number of systems than the ideal line breaking number. This
for (vsize sys_count = ideal_sys_count+1; sys_count <= max_sys_count; sys_count++)
{
Real best_demerits_for_this_sys_count = infinity_f;
- set_current_breakpoints (0, end, sys_count, bound);
+ set_current_breakpoints (end-1, end, sys_count, bound);
+
+ if (debug_page_breaking_scoring)
+ message (_f ("trying %d systems", (int)sys_count));
for (vsize i = 0; i < current_configuration_count (); i++)
{
else
cur = space_systems_on_n_pages (i, page_count, first_page_num);
- if (cur.demerits_ < best.demerits_ || isinf (best.demerits_))
+ if (cur.demerits_ < best.demerits_)
{
best = cur;
best_division = current_configuration (i);
}
- if (cur.demerits_ < best_demerits_for_this_sys_count || isinf (best_demerits_for_this_sys_count))
+ if (cur.demerits_ < best_demerits_for_this_sys_count)
{
best_demerits_for_this_sys_count = cur.demerits_;
bound = current_configuration (i);
}
}
- if (isinf (best_demerits_for_this_sys_count))
+
+ if (debug_page_breaking_scoring)
+ message (_f ("best score for this sys-count: %f", best_demerits_for_this_sys_count));
+
+ if (best_demerits_for_this_sys_count >= BAD_SPACING_PENALTY
+ && !(best.system_count_status_ & SYSTEM_COUNT_TOO_FEW))
break;
}
+ break_into_pieces (end-1, end, best_division);
+
+ return best.systems_per_page_;
+}
+
+SCM
+Optimal_page_breaking::solve ()
+{
+ vector<vsize> systems_per_page;
+
+ SCM forced_page_counts = book_->paper_->c_variable ("page-count");
+ if (scm_is_integer (forced_page_counts))
+ forced_page_counts = scm_list_1 (forced_page_counts);
+
+ bool is_forced_page_counts = false;
+ if (scm_to_bool (scm_list_p (forced_page_counts)))
+ {
+ int len = scm_to_int (scm_length (forced_page_counts));
+ if (len != (int)last_break_position ())
+ {
+ warning (_f ("page-count has length %d, but it should have length %d "
+ "(one more than the number of forced page breaks)",
+ len, (int)last_break_position ()));
+ }
+ else
+ is_forced_page_counts = true;
+ }
+
+
+ message (_f ("Solving %d page-breaking chunks...", last_break_position ()));
+ for (vsize end = 1; end <= last_break_position (); ++end)
+ {
+ SCM page_count = SCM_EOL;
+ if (is_forced_page_counts)
+ {
+ page_count = scm_car (forced_page_counts);
+ forced_page_counts = scm_cdr (forced_page_counts);
+ }
+
+ vector<vsize> chunk_systems = solve_chunk (end, page_count);
+ systems_per_page.insert (systems_per_page.end (), chunk_systems.begin (), chunk_systems.end ());
+ }
message (_ ("Drawing systems..."));
- break_into_pieces (0, end, best_division);
SCM lines = systems ();
- return make_pages (best.systems_per_page_, lines);
+ return make_pages (systems_per_page, lines);
}