source file of the GNU LilyPond music typesetter
- (c) 1997--2004 Han-Wen Nienhuys <hanwen@cs.uu.nl>
+ (c) 1997--2006 Han-Wen Nienhuys <hanwen@xs4all.nl>
*/
-#include <math.h> // rint
-#include <stdio.h>
#include "gourlay-breaking.hh"
-#include "column-x-positions.hh"
+
+#include <cmath> // rint
+#include <cstdio>
+using namespace std;
+
#include "warn.hh"
#include "main.hh"
#include "paper-column.hh"
#include "paper-score.hh"
-#include "paper-def.hh"
+#include "output-def.hh"
#include "simple-spacer.hh"
#include "system.hh"
const int HAPPY_DOTS_I = 3;
/**
- Helper to trace back an optimal path
- */
-struct Break_node {
+ Helper to trace back an optimal path
+*/
+struct Break_node
+{
/** this was the previous. If negative, this break should not be
- considered: this path has infinite energy
-
- */
+ considered: this path has infinite energy
+
+ */
int prev_break_;
/**
Which system number so far?
- */
+ */
int line_;
Real demerits_;
Column_x_positions line_config_;
-
- Break_node ()
+
+ Break_node ()
{
prev_break_ = -1;
line_ = 0;
};
void
-print_break_nodes (Array<Break_node> const & arr)
+print_break_nodes (Array<Break_node> const &arr)
{
- for (int i =0; i < arr.size (); i++)
+ for (int i = 0; i < arr.size (); i++)
{
- printf ( "node %d: ", i);
+ printf ("node %d: ", i);
arr[i].print ();
- }
+ }
}
/**
- This algorithms is adapted from the OSU Tech report on breaking lines.
+ This algorithms is adapted from the OSU Tech report on breaking lines.
+
+ this function is longish, but not very complicated.
- this function is longish, but not very complicated.
- */
+ TODO: should rewrite. See the function in scm/page-layout.scm for
+ inspiration.
+*/
Array<Column_x_positions>
Gourlay_breaking::do_solve () const
{
Array<Break_node> optimal_paths;
- Link_array<Grob> all =
- pscore_->system_->columns ();
-
+ Link_array<Grob> all
+ = pscore_->root_system ()->columns ();
+
Array<int> breaks = find_break_indices ();
-
- Break_node first_node ;
+
+ Break_node first_node;
optimal_paths.push (first_node);
- bool ragged_right = to_boolean (pscore_->paper_->c_variable ("raggedright"));
- bool ragged_last = to_boolean (pscore_->paper_->c_variable ("raggedlast"));
+ bool ragged_right = to_boolean (pscore_->layout ()->c_variable ("raggedright"));
+ bool ragged_last = to_boolean (pscore_->layout ()->c_variable ("raggedlast"));
Real worst_force = 0.0;
- for (int break_idx = 1; break_idx< breaks.size (); break_idx++)
+ for (int break_idx = 1; break_idx < breaks.size (); break_idx++)
{
/*
- start with a short line, add measures. At some point
- the line becomes infeasible. Then we don't try to add more
- */
+ start with a short line, add measures. At some point
+ the line becomes infeasible. Then we don't try to add more
+ */
int minimal_start_idx = -1;
Column_x_positions minimal_sol;
Column_x_positions backup_sol;
-
+
Real minimal_demerits = infinity_f;
for (int start_idx = break_idx; start_idx--;)
{
- Link_array<Grob> line = all.slice (breaks[start_idx], breaks[break_idx]+1);
-
- line[0] = dynamic_cast<Item*> (line[0])->find_prebroken_piece (RIGHT);
- line.top () = dynamic_cast<Item*> (line.top ())->find_prebroken_piece (LEFT);
-
+ Link_array<Grob> line = all.slice (breaks[start_idx], breaks[break_idx] + 1);
+
+ line[0] = dynamic_cast<Item *> (line[0])->find_prebroken_piece (RIGHT);
+ line.top () = dynamic_cast<Item *> (line.top ())->find_prebroken_piece (LEFT);
+
Column_x_positions cp;
cp.cols_ = line;
Interval line_dims
- = pscore_->paper_->line_dimensions_int (optimal_paths[start_idx].line_);
- Simple_spacer * sp = generate_spacing_problem (line, line_dims);
- bool last_line = break_idx == breaks.size ()-1;
+ = line_dimensions_int (pscore_->layout (), optimal_paths[start_idx].line_);
+ Simple_spacer_wrapper *sp = generate_spacing_problem (line, line_dims);
+ bool last_line = break_idx == breaks.size () - 1;
bool ragged = ragged_right
|| (last_line && ragged_last);
-
+
sp->solve (&cp, ragged);
-
+
delete sp;
if (ragged && last_line)
cp.force_ = 0.0;
-
+
if (fabs (cp.force_) > worst_force)
worst_force = fabs (cp.force_);
solution", in case everything fucks up. */
if (start_idx == break_idx - 1)
backup_sol = cp;
-
+
Real this_demerits;
if (optimal_paths[start_idx].demerits_ >= infinity_f)
this_demerits = combine_demerits (optimal_paths[start_idx].line_config_, cp)
+ optimal_paths[start_idx].demerits_;
- if (this_demerits < minimal_demerits)
+ if (this_demerits < minimal_demerits)
{
minimal_start_idx = start_idx;
minimal_sol = cp;
if we add more columns, so we get on with the next one
*/
if (!cp.satisfies_constraints_)
- break ;
+ break;
}
-
Break_node bnod;
- if (minimal_start_idx < 0)
+ if (minimal_start_idx < 0)
{
bnod.demerits_ = infinity_f;
bnod.line_config_ = backup_sol;
- bnod.prev_break_ = break_idx - 1;
+ bnod.prev_break_ = break_idx - 1;
}
- else
+ else
{
bnod.prev_break_ = minimal_start_idx;
bnod.demerits_ = minimal_demerits;
}
bnod.line_ = optimal_paths[bnod.prev_break_].line_ + 1;
optimal_paths.push (bnod);
-
+
if (! (break_idx % HAPPY_DOTS_I))
progress_indication (String ("[") + to_string (break_idx) + "]");
}
/* do the last one */
if (breaks.size () % HAPPY_DOTS_I)
- progress_indication (String ("[") + to_string (breaks.size ()) + "]");
+ progress_indication (String ("[") + to_string (breaks.size ()) + "]");
progress_indication ("\n");
Array<Column_x_positions> lines;
/* skip 0-th element, since it is a "dummy" elt*/
- for (int i = optimal_paths.size ()-1; i> 0;)
+ for (int i = optimal_paths.size () - 1; i > 0;)
{
final_breaks.push (i);
int prev = optimal_paths[i].prev_break_;
i = prev;
}
- if (verbose_global_b)
+ if (be_verbose_global)
{
- progress_indication (_f ("Optimal demerits: %f",
- optimal_paths.top ().demerits_) + "\n");
+ message (_f ("Optimal demerits: %f",
+ optimal_paths.top ().demerits_) + "\n");
}
-
+
if (optimal_paths.top ().demerits_ >= infinity_f)
- warning (_ ("No feasible line breaking found"));
-
- for (int i= final_breaks.size (); i--;)
+ warning (_ ("no feasible line breaking found"));
+
+ for (int i = final_breaks.size (); i--;)
{
Column_x_positions cp (optimal_paths[final_breaks[i]].line_config_);
-
+
lines.push (cp);
if (!cp.satisfies_constraints_)
- warning ("Could not find line breaking that satisfies constraints.");
+ warning (_ ("can't find line breaking that satisfies constraints"));
}
return lines;
}
-
Gourlay_breaking::Gourlay_breaking ()
{
}
-
-
/*
TODO: uniformity parameter to control rel. importance of spacing differences.
TODO:
mixing break penalties and constraint-failing solutions is confusing.
- */
+*/
Real
Gourlay_breaking::combine_demerits (Column_x_positions const &prev,
Column_x_positions const &this_one) const
{
Real break_penalties = 0.0;
- Grob * pc = this_one.cols_.top ();
- if (pc->original_)
+ Grob *pc = this_one.cols_.top ();
+ if (pc->original ())
{
SCM pen = pc->get_property ("penalty");
- if (ly_c_number_p (pen) && fabs (ly_scm2double (pen)) < 10000)
- {
- break_penalties += ly_scm2double (pen);
- }
+ if (scm_is_number (pen) && fabs (scm_to_double (pen)) < 10000)
+ break_penalties += scm_to_double (pen);
}
/*
becoming denser, the uniformity requirement makes lines go from
cramped to even more cramped (because going from cramped
3meas/line to relatively loose 2meas/line is such a big step.
-
- */
- Real demerit = abs (this_one.force_) + abs (prev.force_ - this_one.force_)
+ */
+
+ Real demerit = abs (this_one.force_) + abs (prev.force_ - this_one.force_)
+ break_penalties;
-
+
if (!this_one.satisfies_constraints_)
- {
- /*
- If it doesn't satisfy constraints, we make this one
- really unattractive.
-
- add 20000 to the demerits, so that a break penalty
- of -10000 won't change the result */
- demerit = (demerit + 20000) >? 2000;
-
- demerit *= 10;
- }
-
- return demerit;
+ {
+ /*
+ If it doesn't satisfy constraints, we make this one
+ really unattractive.
+
+ add 20000 to the demerits, so that a break penalty
+ of -10000 won't change the result */
+ demerit = max ((demerit + 20000), 2000.0);
+
+ demerit *= 10;
+ }
+
+ return demerit;
}