#include "system.hh"
static bool
-is_break (Grob *)
+is_break (Grob *g)
{
- return false;
+ return g->get_property ("page-break-permission") == ly_symbol2scm ("force");
}
-// FIXME: divide the page breaking into subproblems wherever there is a page break.
-// This will allow us to tweak line-breaking independently on both sides of a
-// page break (currently, we only get to request a number of systems for an entire score
-// at a time), which is necessary for min-systems-per-page and \pageBreak to interact
-// correctly.
Optimal_page_breaking::Optimal_page_breaking (Paper_book *pb)
: Page_breaking (pb, is_break)
{
{
}
-SCM
-Optimal_page_breaking::solve ()
+// 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)
{
- 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..."));
-
if (systems_per_page () > 0)
best = space_systems_with_fixed_number_per_page (0, first_page_num);
else
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);
for (vsize i = 0; i < current_configuration_count (); i++)
{
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);
for (vsize i = 0; i < current_configuration_count (); i++)
{
&& !(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;
+
+ message (_f ("Solving %d page-breaking chunks...", last_break_position ()));
+ for (vsize end = 1; end <= last_break_position (); ++end)
+ {
+ vector<vsize> chunk_systems = solve_chunk (end);
+ 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);
}