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/*
tie-engraver.cc -- implement Tie_engraver
source file of the GNU LilyPond music typesetter
(c) 1998--2006 Han-Wen Nienhuys <hanwen@xs4all.nl>
*/
#include "engraver.hh"
#include "context.hh"
#include "grob-pitch-tuple.hh"
#include "international.hh"
#include "item.hh"
#include "note-head.hh"
#include "protected-scm.hh"
#include "spanner.hh"
#include "staff-symbol-referencer.hh"
#include "stream-event.hh"
#include "tie-column.hh"
#include "tie.hh"
#include "warn.hh"
#include "translator.icc"
/**
Manufacture ties. Acknowledge noteheads, and put them into a
priority queue. If we have a TieEvent, connect the notes that finish
just at this time, and note that start at this time.
TODO: Remove the dependency on musical info. We should tie on the
basis of position and duration-log of the heads (not of the events).
*/
struct Head_event_tuple
{
Grob *head_;
Moment end_moment_;
SCM tie_definition_;
Stream_event *tie_stream_event_;
Stream_event *tie_event_;
Head_event_tuple ()
{
head_ = 0;
tie_definition_ = SCM_EOL;
tie_event_ = 0;
tie_stream_event_ = 0;
}
};
class Tie_engraver : public Engraver
{
Stream_event *event_;
vector<Grob*> now_heads_;
vector<Head_event_tuple> heads_to_tie_;
vector<Grob*> ties_;
Spanner *tie_column_;
protected:
void stop_translation_timestep ();
virtual void derived_mark () const;
void start_translation_timestep ();
DECLARE_ACKNOWLEDGER (note_head);
DECLARE_TRANSLATOR_LISTENER (tie);
void process_music ();
void typeset_tie (Grob *);
public:
TRANSLATOR_DECLARATIONS (Tie_engraver);
};
void
Tie_engraver::derived_mark () const
{
Engraver::derived_mark ();
for (vsize i = 0; i < heads_to_tie_.size (); i++)
scm_gc_mark (heads_to_tie_[i].tie_definition_);
}
Tie_engraver::Tie_engraver ()
{
event_ = 0;
tie_column_ = 0;
}
IMPLEMENT_TRANSLATOR_LISTENER (Tie_engraver, tie);
void
Tie_engraver::listen_tie (Stream_event *ev)
{
ASSIGN_EVENT_ONCE (event_, ev);
}
void
Tie_engraver::process_music ()
{
bool busy = event_;
for (vsize i = 0; !busy && i < heads_to_tie_.size (); i++)
busy |= (heads_to_tie_[i].tie_event_
|| heads_to_tie_[i].tie_stream_event_);
if (busy)
context ()->set_property ("tieMelismaBusy", SCM_BOOL_T);
}
void
Tie_engraver::acknowledge_note_head (Grob_info i)
{
Grob *h = i.grob ();
now_heads_.push_back (h);
for (vsize i = heads_to_tie_.size (); i--;)
{
Grob *th = heads_to_tie_[i].head_;
Stream_event *right_ev = unsmob_stream_event (h->get_property ("cause"));
Stream_event *left_ev = unsmob_stream_event (th->get_property ("cause"));
/*
maybe should check positions too.
*/
if (!right_ev || !left_ev)
continue;
if (ly_is_equal (right_ev->get_property ("pitch"),
left_ev->get_property ("pitch")))
{
Grob *p = new Spanner (heads_to_tie_[i].tie_definition_,
context ()->get_grob_key ("Tie"));
SCM cause = heads_to_tie_[i].tie_event_
? heads_to_tie_[i].tie_event_->self_scm ()
: heads_to_tie_[i].tie_stream_event_->self_scm ();
announce_grob (p, cause);
Tie::set_head (p, LEFT, th);
Tie::set_head (p, RIGHT, h);
ties_.push_back (p);
heads_to_tie_.erase (heads_to_tie_.begin () + i);
}
}
if (ties_.size () && ! tie_column_)
tie_column_ = make_spanner ("TieColumn", ties_[0]->self_scm ());
if (tie_column_)
for (vsize i = ties_.size (); i--;)
Tie_column::add_tie (tie_column_, ties_[i]);
}
void
Tie_engraver::start_translation_timestep ()
{
context ()->set_property ("tieMelismaBusy",
ly_bool2scm (heads_to_tie_.size ()));
if (!to_boolean (get_property ("tieWaitForNote")))
{
Moment now = now_mom ();
for (vsize i = heads_to_tie_.size (); i--; )
{
if (now > heads_to_tie_[i].end_moment_)
heads_to_tie_.erase (heads_to_tie_.begin () + i);
}
}
}
void
Tie_engraver::stop_translation_timestep ()
{
bool wait = to_boolean (get_property ("tieWaitForNote"));
if (ties_.size ())
{
if (!wait)
heads_to_tie_.clear ();
for (vsize i = 0; i < ties_.size (); i++)
typeset_tie (ties_[i]);
ties_.clear ();
tie_column_ = 0;
}
vector<Head_event_tuple> new_heads_to_tie;
for (vsize i = 0; i < now_heads_.size (); i++)
{
Grob *head = now_heads_[i];
Stream_event *left_ev
= unsmob_stream_event (head->get_property ("cause"));
if (!left_ev)
{
// may happen for ambituses
continue;
}
SCM left_articulations = left_ev->get_property ("articulations");
Stream_event *tie_event = 0;
Stream_event *tie_stream_event = event_;
for (SCM s = left_articulations;
!tie_event && !tie_stream_event && scm_is_pair (s);
s = scm_cdr (s))
{
Stream_event *ev = unsmob_stream_event (scm_car (s));
if (!ev)
continue;
if (ev->in_event_class ("tie-event"))
tie_event = ev;
}
if (left_ev && (tie_event || tie_stream_event))
{
Head_event_tuple event_tup;
SCM start_definition
= updated_grob_properties (context (), ly_symbol2scm ("Tie"));
event_tup.head_ = head;
event_tup.tie_definition_ = start_definition;
event_tup.tie_event_ = tie_event;
event_tup.tie_stream_event_ = tie_stream_event;
Moment end = now_mom ();
if (end.grace_part_)
{
end.grace_part_ += get_event_length (left_ev).main_part_;
}
else
{
end += get_event_length (left_ev);
}
event_tup.end_moment_ = end;
new_heads_to_tie.push_back (event_tup);
}
}
if (!wait && new_heads_to_tie.size ())
heads_to_tie_.clear ();
// hmmm, how to do with copy() ?
for (vsize i = 0; i < new_heads_to_tie.size (); i++)
heads_to_tie_.push_back (new_heads_to_tie[i]);
event_ = 0;
now_heads_.clear ();
}
void
Tie_engraver::typeset_tie (Grob *her)
{
if (! (Tie::head (her, LEFT) && Tie::head (her, RIGHT)))
warning (_ ("lonely tie"));
Direction d = LEFT;
Drul_array<Grob *> new_head_drul;
new_head_drul[LEFT] = Tie::head (her, LEFT);
new_head_drul[RIGHT] = Tie::head (her, RIGHT);
do
{
if (!Tie::head (her, d))
new_head_drul[d] = Tie::head (her, (Direction) - d);
}
while (flip (&d) != LEFT);
Spanner *sp = dynamic_cast<Spanner*> (her);
sp->set_bound (LEFT, new_head_drul[LEFT]);
sp->set_bound (RIGHT, new_head_drul[RIGHT]);
}
ADD_ACKNOWLEDGER (Tie_engraver, note_head);
ADD_TRANSLATOR (Tie_engraver,
/* doc */ "Generate ties between noteheads of equal pitch.",
/* create */
"Tie "
"TieColumn ",
/* accept */ "tie-event",
/* read */ "tieWaitForNote",
/* write */ "tieMelismaBusy");
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