source file of the GNU LilyPond music typesetter
- (c) 2006 Joe Neeman <joeneeman@gmail.com>
+ (c) 2006--2008 Joe Neeman <joeneeman@gmail.com>
*/
#include "page-turn-page-breaking.hh"
Page_turn_page_breaking::Break_node
Page_turn_page_breaking::put_systems_on_pages (vsize start,
vsize end,
- vector<Line_details> const &lines,
- Line_division const &div,
- int page_number)
+ vsize configuration,
+ vsize page_number)
{
- bool last = end == breaks_.size () - 1;
- bool ragged_all = to_boolean (book_->paper_->c_variable ("ragged-bottom"));
- bool ragged_last = last && to_boolean (book_->paper_->c_variable ("ragged-last-bottom"));
- Real page_h = page_height (1, false); // FIXME
- SCM force_sym = last ? ly_symbol2scm ("blank-last-page-force") : ly_symbol2scm ("blank-page-force");
- Real blank_force = robust_scm2double (book_->paper_->lookup_variable (force_sym), 0);
- Real page_weighting = robust_scm2double (book_->paper_->c_variable ("page-spacing-weight"), 10);
- int min_p_count = min_page_count (lines, page_h, ragged_all, ragged_last);
+ vsize min_p_count = min_page_count (configuration, page_number);
bool auto_first = to_boolean (book_->paper_->c_variable ("auto-first-page-number"));
/* If [START, END] does not contain an intermediate
breakpoint, we may need to consider solutions that result in a bad turn.
In this case, we won't abort if the min_page_count is too big */
- if (start < end - 1 && min_p_count > 2)
+ if (start < end - 1 && min_p_count + (auto_first ? 0 : (page_number % 2)) > 2)
return Break_node ();
/* if PAGE-NUMBER is odd, we are starting on a right hand page. That is, we
min_p_count has that evenness. (For example, if PAGE-NUMBER is even and
min_p_count is even, we don't even consider the blank page option). */
- Spacing_result result;
+ Page_spacing_result result;
if (start == 0 && auto_first)
{
if (min_p_count % 2)
- result = space_systems_on_n_or_one_more_pages (lines, min_p_count, page_h, 0, ragged_all, ragged_last);
+ result = space_systems_on_n_or_one_more_pages (configuration, min_p_count, page_number);
else
- result = space_systems_on_n_pages (lines, min_p_count, page_h, ragged_all, ragged_last);
+ result = space_systems_on_n_pages (configuration, min_p_count, page_number);
}
else if (page_number % 2 == min_p_count % 2)
- result = space_systems_on_n_pages (lines, min_p_count, page_h, ragged_all, ragged_last);
+ result = space_systems_on_n_pages (configuration, min_p_count, page_number);
else
- result = space_systems_on_n_or_one_more_pages (lines, min_p_count, page_h, blank_force, ragged_all, ragged_last);
+ result = space_systems_on_n_or_one_more_pages (configuration, min_p_count, page_number);
Break_node ret;
ret.prev_ = start - 1;
if (auto_first && start == 0)
ret.first_page_number_ += 1 - (ret.page_count_ % 2);
- ret.div_ = div;
+ ret.div_ = current_configuration (configuration);
ret.system_count_ = result.systems_per_page_;
- ret.too_many_lines_ = true;
- ret.demerits_ = result.penalty_;
+ ret.too_many_lines_ = all_lines_stretched (configuration);
+ ret.demerits_ = result.demerits_;
if (start > 0)
ret.demerits_ += state_[start-1].demerits_;
- for (vsize i = 0; i < lines.size (); i++)
- {
- ret.demerits_ += lines[i].force_ * lines[i].force_;
- ret.demerits_ += lines[i].break_penalty_;
- if (lines[i].force_ < 0)
- ret.too_many_lines_ = false;
- }
- for (vsize i = 0; i < result.force_.size (); i++)
- ret.demerits_ += result.force_[i] * result.force_[i] * page_weighting;
+
return ret;
}
-/* "final page" meaning the number of the final right-hand page,
- which always has an odd page number */
+/* The number of pages taken up by a Break_node, including
+ the blank page if there is one */
vsize
-Page_turn_page_breaking::final_page_num (Break_node const &b)
+Page_turn_page_breaking::total_page_count (Break_node const &b)
{
vsize end = b.first_page_number_ + b.page_count_;
- return end + 1 - (end % 2);
+ return end - 1 + (end % 2) - b.first_page_number_;
}
+extern bool debug_page_breaking_scoring;
+
void
Page_turn_page_breaking::calc_subproblem (vsize ending_breakpoint)
{
bool ok_page = true;
+ if (debug_page_breaking_scoring)
+ message (_f ("page-turn-page-breaking: breaking from %d to %d", (int) start, (int) end));
+
/* heuristic: we've just added a breakpoint, we'll need at least as
many systems as before */
min_sys_count = max (min_sys_count, prev_best_system_count);
for (vsize sys_count = min_sys_count; sys_count <= max_sys_count && ok_page; sys_count++)
{
- vector<Line_division> div = line_divisions (start, end, sys_count, min_division, max_division);
+ set_current_breakpoints (start, end, sys_count, min_division, max_division);
bool found = false;
- for (vsize d = 0; d < div.size (); d++)
+ for (vsize i = 0; i < current_configuration_count (); i++)
{
- vector<Line_details> line = line_details (start, end, div[d]);
-
- cur = put_systems_on_pages (start, end, line, div[d], p_num);
+ cur = put_systems_on_pages (start, end, i, p_num);
if (isinf (cur.demerits_)
- || (cur.page_count_ > 2
+ || (cur.page_count_ + (p_num % 2) > 2
&& (!isinf (this_start_best.demerits_))
- && final_page_num (cur) > final_page_num (this_start_best)))
+ && total_page_count (cur) > total_page_count (this_start_best)))
{
ok_page = false;
break;
if (cur.demerits_ < this_start_best.demerits_)
{
+ if (debug_page_breaking_scoring)
+ print_break_node (cur);
+
found = true;
this_start_best = cur;
prev_best_system_count = sys_count;
/* heuristic: if we increase the number of systems, we can bound the
division from below by our current best division */
- min_division = div[d];
+ min_division = current_configuration (i);
}
}
if (!found && this_start_best.too_many_lines_)
{
state_.clear ();
message (_f ("Calculating page and line breaks (%d possible page breaks)...",
- (int)breaks_.size () - 1) + " ");
- for (vsize i = 0; i < breaks_.size () - 1; i++)
+ (int) last_break_position ()));
+ for (vsize i = 0; i < last_break_position (); i++)
{
calc_subproblem (i);
progress_indication (string ("[") + to_string (i + 1) + "]");
for (vsize j = 0; j < soln[i].page_count_; j++)
lines_per_page.push_back (soln[i].system_count_[j]);
- if (i < soln.size () - 1 && (soln[i].first_page_number_ + soln[i].page_count_) % 2)
+ if (i + 1 < soln.size () && (soln[i].first_page_number_ + soln[i].page_count_) % 2)
/* add a blank page */
lines_per_page.push_back (0);
}
scm_from_int (soln[0].first_page_number_));
return Page_breaking::make_pages (lines_per_page, systems);
}
+
+void
+Page_turn_page_breaking::print_break_node (Break_node const &node)
+{
+ int system_count = 0;
+ for (vsize i = 0; i < node.system_count_.size (); i++)
+ system_count += node.system_count_[i];
+
+ message (_f ("break starting at page %d", (int) node.first_page_number_));
+ message (_f ("\tdemerits: %f", node.demerits_));
+ message (_f ("\tsystem count: %d", system_count));
+ message (_f ("\tpage count: %d", (int) node.page_count_));
+ message (_f ("\tprevious break: %d", (int) node.prev_));
+}