source file of the GNU LilyPond music typesetter
- (c) 1996, 1997--1998, 1998 Han-Wen Nienhuys <hanwen@cs.uu.nl>
+ (c) 1996--1999 Han-Wen Nienhuys <hanwen@cs.uu.nl>
*/
#include <math.h>
#include <limits.h>
+#include "killing-cons.tcc"
#include "spring-spacer.hh"
-#include "p-col.hh"
+#include "paper-column.hh"
#include "debug.hh"
#include "dimensions.hh"
#include "qlp.hh"
Vector
Spring_spacer::default_solution() const
{
- return try_initial_solution() ;
+ return try_initial_solution();
}
Score_column*
#ifndef NDEBUG
for (int i = 1; i < cols_.size(); i++)
assert (cols_[i].rank_i_ > cols_[i-1].rank_i_);
- for (int i = 1; i < loose_col_arr_.size(); i++)
- assert (loose_col_arr_[i].rank_i_ > loose_col_arr_[i-1].rank_i_);
#endif
}
{
Union_find connected (cols_.size());
Array<int> fixed;
- for (PCursor<Idealspacing*> i (ideal_p_list_.top()); i.ok (); i++)
+
+ for (Cons<Idealspacing> *i = ideal_p_list_; i; i = i->next_)
{
- connected.connect (i->cols_drul_[LEFT],i->cols_drul_[RIGHT]);
+ connected.connect (i->car_->cols_drul_[LEFT],i->car_->cols_drul_[RIGHT]);
}
for (int i = 0; i < cols_.size(); i++)
if (cols_[i].fixed_b())
for (int i=1; i < fixed.size(); i++)
connected.connect (fixed[i-1], fixed[i]);
+ /*
+ If columns do not have spacing information set, we need to supply our own.
+ */
+ Real d = paper_l ()->get_var ("loose_column_distance");
for (int i = cols_.size(); i--;)
{
if (! connected.equiv (fixed[0], i))
{
- warning (_f ("unconnected column: %d", i));
- loosen_column (i);
- }
- }
- OK();
-}
-
-
-/**
- Guess a stupid position for loose columns. Put loose columns at
- regular distances from enclosing calced columns
- */
-void
-Spring_spacer::position_loose_cols (Vector &sol_vec) const
-{
- if (!loose_col_arr_.size())
- return ;
- assert (sol_vec.dim());
- Array<bool> fix_b_arr;
- fix_b_arr.set_size (cols_.size() + loose_col_arr_.size ());
- Real utter_right_f=-infinity_f;
- Real utter_left_f =infinity_f;
- for (int i=0; i < loose_col_arr_.size(); i++)
- {
- fix_b_arr[loose_col_arr_[i].rank_i_] = false;
- }
- for (int i=0; i < cols_.size(); i++)
- {
- int r= cols_[i].rank_i_;
- fix_b_arr[r] = true;
- utter_right_f = utter_right_f >? sol_vec (i);
- utter_left_f = utter_left_f <? sol_vec (i);
- }
- Vector v (fix_b_arr.size());
- int j =0;
- int k =0;
- for (int i=0; i < v.dim(); i++)
- {
- if (fix_b_arr[i])
- {
- assert (cols_[j].rank_i_ == i);
- v (i) = sol_vec (j++);
- }
- else
- {
- Real left_pos_f =
- (j>0) ?sol_vec (j-1) : utter_left_f;
- Real right_pos_f =
- (j < sol_vec.dim()) ? sol_vec (j) : utter_right_f;
- int left_rank = (j>0) ? cols_[j-1].rank_i_ : 0;
- int right_rank = (j<sol_vec.dim()) ? cols_[j].rank_i_ : sol_vec.dim ();
-
- int d_r = right_rank - left_rank;
- Column_info loose=loose_col_arr_[k++];
- int r = loose.rank_i_ ;
- assert (r > left_rank && r < right_rank);
-
- v (i) = (r - left_rank)*left_pos_f/ d_r +
- (right_rank - r) *right_pos_f /d_r;
+ connected.connect (i-1, i);
+ connect (i-1, i, d, 1.0);
}
}
- sol_vec = v;
}
bool
return true;
}
-/** try to generate a solution which obeys the min distances and fixed positions
+/** try to generate a solution which obeys the min
+ distances and fixed positions
*/
Vector
Spring_spacer::try_initial_solution() const
lin.fill (0);
c = 0;
- for (PCursor<Idealspacing*> i (ideal_p_list_.top()); i.ok (); i++)
+ for (Cons<Idealspacing> *p =ideal_p_list_; p; p = p->next_)
{
+ Idealspacing *i = p->car_;
int l = i->cols_drul_[LEFT];
int r = i->cols_drul_[RIGHT];
Spring_spacer::calculate_energy_f (Vector solution) const
{
Real e = 0.0;
- for (PCursor<Idealspacing*> i (ideal_p_list_.top()); i.ok(); i++)
+ for (Cons<Idealspacing>*p =ideal_p_list_; p; p = p->next_)
{
+ Idealspacing * i = p->car_;
e += i->energy_f(solution(i->cols_drul_[RIGHT]) - solution(i->cols_drul_[LEFT]));
}
DOUT << "Lower bound sol: " << solution_vec;
positions->energy_f_ = calculate_energy_f (solution_vec);
- positions->config = solution_vec;
+ positions->config_ = solution_vec;
positions->satisfies_constraints_b_ = check_constraints (solution_vec);
}
Spring_spacer::Spring_spacer ()
{
+ ideal_p_list_ =0;
energy_normalisation_f_ = 1.0;
}
{
WARN << _ ("solution doesn't satisfy constraints") << '\n' ;
}
- position_loose_cols (solution_vec);
positions->energy_f_ = calculate_energy_f (solution_vec);
- positions->config = solution_vec;
- positions->error_col_l_arr_ = error_pcol_l_arr();
+ positions->config_ = solution_vec;
}
else
{
r_rod.other_idx_ = this_rank;
cols_[left_idx].rods_[RIGHT].push (r_rod);
}
-
- cols_.push (c);
-}
-
-Line_of_cols
-Spring_spacer::error_pcol_l_arr() const
-{
- Link_array<Paper_column> retval;
- for (int i=0; i< cols_.size(); i++)
- if (cols_[i].ugh_b_)
- retval.push (cols_[i].pcol_l_);
- for (int i=0; i < loose_col_arr_.size(); i++)
- {
- retval.push (loose_col_arr_[i].pcol_l_);
- }
- return retval;
-}
-void
-Spring_spacer::loosen_column (int i)
-{
- Column_info c=cols_.get (i);
- for (PCursor<Idealspacing*> j (ideal_p_list_.top()); j.ok (); j++)
+ for (int i=0; i < col->spring_arr_drul_[LEFT].size (); i++)
{
- if (j->cols_drul_[LEFT] == i|| j->cols_drul_[RIGHT] == i)
- j.del();
- else
- j++;
- }
- c.ugh_b_ = true;
-
- int j=0;
- for (; j < loose_col_arr_.size(); j++)
- {
- if (loose_col_arr_[j].rank_i_ > c.rank_i_)
- break;
+ Column_spring &cr = col->spring_arr_drul_[LEFT][i];
+ int idx = cr.other_l_->rank_i () - cols_[0].pcol_l_->rank_i ();
+ if (idx < 0)
+ continue;
+
+ if (cols_[idx].pcol_l_ != cr.other_l_)
+ continue;
+ connect (idx, this_rank, cr.distance_f_, cr.strength_f_);
}
- loose_col_arr_.insert (c,j);
+
+ cols_.push (c);
}
DOUT << "col " << i << " ";
cols_[i].print();
}
- for (PCursor<Idealspacing*> i (ideal_p_list_.top()); i.ok (); i++)
+
+ for (Cons<Idealspacing> *p =ideal_p_list_; p; p = p->next_)
{
- i->print();
+ p->car_->print();
}
#endif
}
s->space_f_ = d;
s->hooke_f_ = h;
- ideal_p_list_.bottom().add (s);
+ ideal_p_list_ = new Killing_cons<Idealspacing> (s, ideal_p_list_);
}
-
-
-
void
Spring_spacer::prepare()
{
- DOUT << "Preparing..";
- calc_idealspacing();
handle_loose_cols();
print();
- DOUT << "finished preparing.\n";
}
Line_spacer*
-/**
- get the shortest_playing running note at a time. */
-void
-Spring_spacer::get_ruling_durations(Array<Moment> &shortest_playing_arr,
- Array<Moment> &context_shortest_arr)
-{
- for (int i=0; i < cols_.size(); i++)
- {
- scol_l (i)->preprocess();
- scol_l (i)->print ();
- }
- int start_context_i=0;
- Moment context_shortest;
- context_shortest.set_infinite (1);
- context_shortest_arr.set_size(cols_.size());
-
- for (int i=0; i < cols_.size(); i++)
- {
- Moment now = scol_l (i)->when();
- Moment shortest_playing;
- shortest_playing.set_infinite (1);
-
- if (scol_l (i)->breakable_b_)
- {
- for (int ji=i; ji >= start_context_i; ji--)
- context_shortest_arr[ji] = context_shortest;
- start_context_i = i;
- context_shortest.set_infinite (1);
- }
- if (scol_l (i)->durations.size())
- {
- context_shortest = context_shortest <? scol_l(i)->durations[0];
- }
-
- // ji was j, but triggered ICE
- for (int ji=i+1; ji --;)
- {
- if (scol_l(ji)->durations.size() &&
- now - scol_l(ji)->when() >= shortest_playing)
- break;
-
- for (int k = scol_l (ji)->durations.size();
- k-- && scol_l(ji)->durations[k] + scol_l(ji)->when() > now;
- )
- {
- shortest_playing = shortest_playing <? scol_l(ji)->durations[k];
- }
- }
- shortest_playing_arr.push(shortest_playing);
- }
-#ifndef NPRINT
- DOUT << "shortest_playing/:[ ";
- for (int i=0; i < shortest_playing_arr.size(); i++)
- {
- DOUT << shortest_playing_arr[i] << " ";
- DOUT << context_shortest_arr[i] << ", ";
- }
- DOUT << "]\n";
-#endif
-}
-
-/*
- TODO: take out the refs to width
-
- */
-/**
- generate springs between columns.
-
- TODO: This needs rethinking.......
-
- * Spacing should take optical
- effects into account
-
- * Should be decentralised
-
- The algorithm is taken from :
-
- John S. Gourlay. ``Spacing a Line of Music,'' Technical Report
- OSU-CISRC-10/87-TR35, Department of Computer and Information
- Science, The Ohio State University, 1987.
-
- */
-void
-Spring_spacer::calc_idealspacing()
+Spring_spacer::~Spring_spacer()
{
- Array<Moment> shortest_playing_arr;
- Array<Moment> context_shortest_arr;
- get_ruling_durations(shortest_playing_arr, context_shortest_arr);
-
- Real interline_f = paper_l ()->interline_f ();
-
-
- Array<Real> ideal_arr;
- Array<Real> hooke_arr;
- for (int i=0; i < cols_.size() - 1; i++){
- ideal_arr.push (-1.0);
- hooke_arr.push (1.0);
- }
-
- /*
- First do all non-musical columns
- */
- for (int i=0; i < cols_.size(); i++)
- {
- if (!scol_l (i)->musical_b() && i+1 < cols_.size())
- {
- Real symbol_distance =cols_[i].width_[RIGHT] + 2 PT;
- Real durational_distance = 0;
- Moment delta_t = scol_l (i+1)->when() - scol_l (i)->when () ;
-
- /*
- ugh should use shortest_playing distance
- */
- if (delta_t)
- {
- Real k= paper_l()->arithmetic_constant (context_shortest_arr[i]);
- durational_distance = paper_l()->length_mom_to_dist (delta_t,k);
- }
- symbol_distance += -cols_[i+1].width_[LEFT];
-
-
- ideal_arr[i] = symbol_distance >? durational_distance;
- hooke_arr[i] = 1; //2.0;
- }
- }
-
- /*
- Then musicals
- */
- for (int i=0; i < cols_.size(); i++)
- {
- if (scol_l (i)->musical_b())
- {
- Moment shortest_playing_len = shortest_playing_arr[i];
- Moment context_shortest = context_shortest_arr[i];
- if (! shortest_playing_len)
- {
- warning (_f ("can't find a ruling note at %s",
- scol_l (i)->when().str ()));
- shortest_playing_len = 1;
- }
- if (! context_shortest)
- {
- warning (_f ("no minimum in measure at %s",
- scol_l (i)->when().str ()));
- context_shortest = 1;
- }
- Moment delta_t = scol_l (i+1)->when() - scol_l (i)->when ();
- Real k= paper_l()->arithmetic_constant(context_shortest);
- Real dist = paper_l()->length_mom_to_dist (shortest_playing_len, k);
- dist *= (double)(delta_t / shortest_playing_len);
-
- /*
- According to [Ross] and [Wanske], and from what i've seen:
-
- * whitespace at the begin of the bar should be fixed at
- (about) one interline.
-
- [Ross]:
- when spacing gets real tight, a smaller fixed value may be
- used, so that there are two discrete amounts of whitespace
- possible at the begin of a bar; but this is not implemented
- right now.
-
- * whitespace at the end of the bar is the normal amount of
- "hinterfleish" that would have been used, had there been
- yet another note in the bar.
-
- [Ross]:
- some editors argue that the bar line should not take any
- space, not to hinder the flow of music spaced around a bar
- line.
-
- [Ross] and [Wanske] do not suggest this, however. Further,
- it introduces some spacing problems and I think that it is ugly
- too.
-
- [jcn]
- */
-
- /*
- first musical column of bar
- */
- if (i && scol_l (i - 1)->breakable_b_)
- {
- // one interline minimum at start of bar
-
- // cols_[i].width_[RIGHT] += interline_f;
- cols_[i].width_[RIGHT] = cols_[i].width_[RIGHT] >? interline_f;
-
- // should adjust dist too?
- ideal_arr[i-1] = ideal_arr[i-1] >? (2 * interline_f);
- }
-
- /*
- last musical column of bar
- */
- if (i + 1 < cols_.size () && scol_l(i+1)->breakable_b_)
- {
- // two interline minimum ok for last column?
- dist = dist >? 2 * interline_f;
-
- // set minimum rod
- /*
- urg: simply *adding* an interline leaves big gaps at
- end of measure in star-spangled-banner (after lyrics
- at eom).
-
- cols_[i].width_[RIGHT] += interline_f; // before
-
- having a minimum of one interline solves this problem
- in most (but not all??) cases.
-
- for music without lyrics (esp. when set very tightly),
- adding an interline looks good: probably because this
- hides a bug that allows the last note's "hinterfleish"
- to be removed (e.g., see wtk1-fugue2: that's ugly now).
- -- jcn
- */
-
- cols_[i].width_[RIGHT] = cols_[i].width_[RIGHT] >? 2 * interline_f;
- }
-
- // ugh, do we need this?
- if (i < cols_.size () - 1 && !scol_l (i + 1)->musical_b ())
- {
- Real minimum = -cols_[i + 1].width_[LEFT] + cols_[i].width_[RIGHT]
- + interline_f / 2;
- dist = dist >? minimum;
- }
- ideal_arr[i] = dist;
- }
- }
-
- /*
- shorter distances should stretch less.
-
- (and how bout
-
- hooke[i] = 2 * max_ideal_space - ideal[i]
-
- ?)
- */
- for (int i=0; i < ideal_arr.size(); i++)
- hooke_arr[i] = 1/ideal_arr[i];
-
- for (int i=0; i < ideal_arr.size(); i++)
- {
- assert (ideal_arr[i] >=0 && hooke_arr[i] >=0);
- connect (i, i+1, ideal_arr[i], hooke_arr[i]);
- }
+ delete ideal_p_list_;
}