-/*
- new-part-combine-music-iterator.cc -- implement Part_combine_iterator
+/*
+ new-part-combine-music-iterator.cc -- implement Part_combine_iterator
- source file of the GNU LilyPond music typesetter
-
- (c) 2004 Han-Wen Nienhuys
+ source file of the GNU LilyPond music typesetter
+
+ (c) 2004--2007 Han-Wen Nienhuys
*/
#include "context.hh"
-#include "event.hh"
-#include "music-sequence.hh"
+#include "dispatcher.hh"
#include "lily-guile.hh"
-#include "warn.hh"
+#include "music.hh"
#include "music-iterator.hh"
-#include "interpretation-context-handle.hh"
+#include "music-sequence.hh"
+#include "warn.hh"
+
+typedef enum Outlet_type
+ {
+ CONTEXT_ONE, CONTEXT_TWO,
+ CONTEXT_SHARED, CONTEXT_SOLO,
+ CONTEXT_NULL, NUM_OUTLETS
+ };
+
+static const char *outlet_names_[NUM_OUTLETS] =
+ {"one", "two", "shared", "solo", "null"};
class Part_combine_iterator : public Music_iterator
{
public:
Part_combine_iterator ();
- DECLARE_SCHEME_CALLBACK (constructor, ());
+ DECLARE_SCHEME_CALLBACK (constructor, ());
protected:
- virtual void derived_substitute (Context *f, Context *t) ;
+ virtual void derived_substitute (Context *f, Context *t);
virtual void derived_mark () const;
- Part_combine_iterator (Part_combine_iterator const &);
virtual void construct_children ();
virtual Moment pending_moment () const;
- virtual void do_quit ();
+ virtual void do_quit ();
virtual void process (Moment);
- virtual Music_iterator *try_music_in_children (Music *) const;
-
virtual bool ok () const;
private:
- Music_iterator * first_iter_;
- Music_iterator * second_iter_;
- Moment start_moment_;
+ /* used by try_process */
+ DECLARE_LISTENER (set_busy);
+ bool busy_;
+ bool notice_busy_;
+
+ bool try_process (Music_iterator *i, Moment m);
+ Music_iterator *first_iter_;
+ Music_iterator *second_iter_;
+ Moment start_moment_;
+
SCM split_list_;
- enum Status {
- APART,
- TOGETHER,
- SOLO1,
- SOLO2,
- UNISONO,
- UNISILENCE,
- };
+ Stream_event *unisono_event_;
+ Stream_event *solo_one_event_;
+ Stream_event *solo_two_event_;
+ Stream_event *mmrest_event_;
+
+ enum Status
+ {
+ APART,
+ TOGETHER,
+ SOLO1,
+ SOLO2,
+ UNISONO,
+ UNISILENCE,
+ };
Status state_;
Status playing_state_;
/*
Should be SOLO1 or SOLO2
- */
+ */
Status last_playing_;
/*
- TODO: this is getting of hand...
- */
- Interpretation_context_handle one_;
- Interpretation_context_handle two_;
- Interpretation_context_handle null_;
- Interpretation_context_handle shared_;
- Interpretation_context_handle solo_;
-
- void substitute_both (Context * to1,
- Context * to2);
+ TODO: this is getting of hand...
+ */
+ Context_handle handles_[NUM_OUTLETS];
- void kill_mmrest (Context *);
+ void substitute_both (Outlet_type to1,
+ Outlet_type to2);
+
+ /* parameter is really Outlet_type */
+ void kill_mmrest (int in);
void chords_together ();
void solo1 ();
void solo2 ();
void unisono (bool silent);
};
-
-static Music *busy_playing_event;
-
void
Part_combine_iterator::do_quit ()
{
if (second_iter_)
second_iter_->quit ();
- null_.set_translator (0);
- one_ .set_translator (0);
- two_.set_translator (0);
- shared_.set_translator (0);
- solo_.set_translator (0);
-
+ // Add listeners to all contexts except Devnull.
+ for (int i = 0; i < NUM_OUTLETS; i++)
+ {
+ Context *c = handles_[i].get_outlet ();
+ if (c->is_alias (ly_symbol2scm ("Voice")))
+ c->event_source ()->remove_listener (GET_LISTENER (set_busy), ly_symbol2scm ("music-event"));
+ handles_[i].set_context (0);
+ }
}
Part_combine_iterator::Part_combine_iterator ()
{
+ mmrest_event_ = 0;
+ unisono_event_ = 0;
+ solo_two_event_ = 0;
+ solo_one_event_= 0;
+
first_iter_ = 0;
second_iter_ = 0;
split_list_ = SCM_EOL;
state_ = APART;
playing_state_ = APART;
-
- if (!busy_playing_event)
- {
- busy_playing_event
- = make_music_by_name (ly_symbol2scm ("BusyPlayingEvent"));
- }
}
void
scm_gc_mark (first_iter_->self_scm ());
if (second_iter_)
scm_gc_mark (second_iter_->self_scm ());
+
+ Stream_event *ptrs[] = {
+ unisono_event_,
+ mmrest_event_,
+ solo_two_event_,
+ solo_one_event_,
+ 0
+ };
+ for (int i = 0; ptrs[i]; i++)
+ if (ptrs[i])
+ scm_gc_mark (ptrs[i]->self_scm ());
}
void
Part_combine_iterator::derived_substitute (Context *f,
- Context *t)
+ Context *t)
{
if (first_iter_)
- first_iter_->substitute_outlet (f,t);
-
+ first_iter_->substitute_outlet (f, t);
}
Moment
Moment p;
p.set_infinite (1);
if (first_iter_->ok ())
- p = p <? first_iter_->pending_moment ();
+ p = min (p, first_iter_->pending_moment ());
if (second_iter_->ok ())
- p = p <? second_iter_->pending_moment ();
+ p = min (p, second_iter_->pending_moment ());
return p;
}
playing_state_ = TOGETHER;
state_ = TOGETHER;
- substitute_both (shared_.get_outlet (), shared_.get_outlet ());
+ substitute_both (CONTEXT_SHARED, CONTEXT_SHARED);
}
}
-
void
-Part_combine_iterator::kill_mmrest (Context * tg)
+Part_combine_iterator::kill_mmrest (int in)
{
- static Music * mmrest;
- if (!mmrest)
+
+ if (!mmrest_event_)
{
- mmrest = make_music_by_name (ly_symbol2scm ("MultiMeasureRestEvent"));
- mmrest->set_property ("duration", SCM_EOL);
+ mmrest_event_ = new Stream_event (ly_symbol2scm ("multi-measure-rest-event"));
+ mmrest_event_->set_property ("duration", SCM_EOL);
+ mmrest_event_->unprotect ();
}
- tg->try_music (mmrest);
+ handles_[in].get_outlet ()->event_source ()->broadcast (mmrest_event_);
}
void
else
{
state_ = SOLO1;
- substitute_both (solo_.get_outlet (),
- null_.get_outlet ());
-
- kill_mmrest (two_.get_outlet ());
- kill_mmrest (shared_.get_outlet ());
+ substitute_both (CONTEXT_SOLO, CONTEXT_NULL);
+
+ kill_mmrest (CONTEXT_TWO);
+ kill_mmrest (CONTEXT_SHARED);
if (playing_state_ != SOLO1)
{
- static Music* event;
- if (!event)
- event = make_music_by_name (ly_symbol2scm ("SoloOneEvent"));
+ if (!solo_one_event_)
+ {
+ solo_one_event_ = new Stream_event (ly_symbol2scm ("solo-one-event"));
+ solo_one_event_->unprotect ();
+ }
- first_iter_-> try_music_in_children (event);
+ first_iter_->get_outlet ()->event_source ()->broadcast (solo_one_event_);
}
playing_state_ = SOLO1;
}
}
void
-Part_combine_iterator::substitute_both (Context * to1,
- Context * to2)
+Part_combine_iterator::substitute_both (Outlet_type to1,
+ Outlet_type to2)
{
- Context *tos[] = {to1,to2};
- Music_iterator *mis[] = {first_iter_, second_iter_};
- Interpretation_context_handle *hs[] = {
- &null_,
- &one_, &two_,
- &shared_, &solo_,
- 0
- };
-
- for (int i = 0; i < 2 ; i++)
+ Outlet_type tos[] = {to1, to2};
+
+ Music_iterator *mis[] = {first_iter_, second_iter_};
+
+ for (int i = 0; i < 2; i++)
{
- for (int j = 0; hs[j]; j++)
- if (hs[j]->get_outlet () != tos[i])
- mis[i]->substitute_outlet (hs[j]->get_outlet (), tos[i]);
+ for (int j = 0; j < NUM_OUTLETS; j++)
+ if (j != tos[i])
+ mis[i]->substitute_outlet (handles_[j].get_outlet (), handles_[tos[i]].get_outlet ());
}
- for (int j = 0; hs[j]; j++)
+ for (int j = 0; j < NUM_OUTLETS; j++)
{
- Context * t = hs[j]->get_outlet ();
- if (t != to1 && t != to2)
- kill_mmrest (t);
+ if (j != to1 && j != to2)
+ kill_mmrest (j);
}
}
-
void
Part_combine_iterator::unisono (bool silent)
{
Status newstate = (silent) ? UNISILENCE : UNISONO;
-
+
if (newstate == state_)
- return;
+ return;
else
{
/*
If we're coming from SOLO2 state, we might have kill mmrests
- in the 1st voice, so in that case, we use the second voice
+ in the 1st voice, so in that case, we use the second voice
as a basis for events.
- */
- Context *c1 = (last_playing_ == SOLO2) ? null_.get_outlet() : shared_.get_outlet();
- Context *c2 = (last_playing_ == SOLO2) ? shared_.get_outlet() : null_.get_outlet();
+ */
+ Outlet_type c1 = (last_playing_ == SOLO2) ? CONTEXT_NULL : CONTEXT_SHARED;
+ Outlet_type c2 = (last_playing_ == SOLO2) ? CONTEXT_SHARED : CONTEXT_NULL;
substitute_both (c1, c2);
kill_mmrest ((last_playing_ == SOLO2)
- ? one_.get_outlet () : two_.get_outlet ());
- kill_mmrest (shared_.get_outlet ());
+ ? CONTEXT_ONE : CONTEXT_TWO);
+ kill_mmrest (CONTEXT_SHARED);
if (playing_state_ != UNISONO
&& newstate == UNISONO)
{
- static Music* event;
- if (!event)
- event = make_music_by_name (ly_symbol2scm ("UnisonoEvent"));
-
- (state_ == SOLO2 ? second_iter_ : first_iter_)
- ->try_music_in_children (event);
+ if (!unisono_event_)
+ {
+ unisono_event_ = new Stream_event (ly_symbol2scm ("unisono-event"));
+ unisono_event_->unprotect ();
+ }
+
+
+ Context *out = (last_playing_ == SOLO2 ? second_iter_ : first_iter_)
+ ->get_outlet ();
+ out->event_source ()->broadcast (unisono_event_);
playing_state_ = UNISONO;
}
state_ = newstate;
else
{
state_ = SOLO2;
-
- substitute_both (null_.get_outlet (), solo_.get_outlet ());
-
+
+ substitute_both (CONTEXT_NULL, CONTEXT_SOLO);
+
if (playing_state_ != SOLO2)
{
- static Music* event;
- if (!event)
- event = make_music_by_name (ly_symbol2scm ("SoloTwoEvent"));
-
- second_iter_-> try_music_in_children (event);
+ if (!solo_two_event_)
+ {
+ solo_two_event_ = new Stream_event (ly_symbol2scm ("solo-two-event"));
+ solo_two_event_->unprotect ();
+ }
+
+ second_iter_->get_outlet ()->event_source ()->broadcast (solo_two_event_);
playing_state_ = SOLO2;
}
}
else
{
state_ = APART;
- substitute_both (one_.get_outlet (), two_.get_outlet ());
+ substitute_both (CONTEXT_ONE, CONTEXT_TWO);
}
}
-
void
Part_combine_iterator::construct_children ()
{
start_moment_ = get_outlet ()->now_mom ();
- split_list_ = get_music ()->get_property ("split-list");
- SCM lst = get_music ()->get_property ("elements");
-
- SCM props = scm_list_n (/*
- used to have tweaks here.
- */
-
- SCM_UNDEFINED);
-
- Context *tr
- = get_outlet ()->find_create_context (ly_symbol2scm ("Voice"),
- "shared",props);
-
- shared_.set_translator (tr);
-
- /*
- If we don't, we get a new staff for every Voice.
- */
- set_translator (tr);
-
- Context *solo_tr
- = get_outlet ()->find_create_context (ly_symbol2scm ("Voice"),
- "solo",props);
-
- solo_ .set_translator (solo_tr);
-
- Context *null
- = get_outlet ()->find_create_context (ly_symbol2scm ("Devnull"),
- "", SCM_EOL);
-
- if (!null)
- programming_error ("No Devnull found?");
-
- null_.set_translator (null);
+ split_list_ = get_music ()->get_property ("split-list");
- Context *one = tr->find_create_context (ly_symbol2scm ("Voice"),
- "one", props);
+ Context *c = get_outlet ();
- one_.set_translator (one);
+ for (int i = 0; i < NUM_OUTLETS; i++)
+ {
+ SCM type = (i == CONTEXT_NULL) ? ly_symbol2scm ("Devnull") : ly_symbol2scm ("Voice");
+ /* find context below c: otherwise we may create new staff for each voice */
+ c = c->find_create_context (type, outlet_names_[i], SCM_EOL);
+ handles_[i].set_context (c);
+ if (c->is_alias (ly_symbol2scm ("Voice")))
+ c->event_source ()->add_listener (GET_LISTENER (set_busy), ly_symbol2scm ("music-event"));
+ }
- set_translator (one);
+ SCM lst = get_music ()->get_property ("elements");
+ Context *one = handles_[CONTEXT_ONE].get_outlet ();
+ set_context (one);
first_iter_ = unsmob_iterator (get_iterator (unsmob_music (scm_car (lst))));
-
-
- Context *two = tr->find_create_context (ly_symbol2scm ("Voice"),
- "two", props);
- two_.set_translator (two);
- set_translator (two);
+ Context *two = handles_[CONTEXT_TWO].get_outlet ();
+ set_context (two);
second_iter_ = unsmob_iterator (get_iterator (unsmob_music (scm_cadr (lst))));
-
- set_translator (tr);
-
-
- char const * syms[] = {
+ char const *syms[]
+ = {
"Stem",
"DynamicLineSpanner",
"Tie",
"Script",
0
};
-
- for (char const**p = syms; *p; p++)
+
+ for (char const **p = syms; *p; p++)
{
SCM sym = ly_symbol2scm (*p);
execute_pushpop_property (one, sym,
- ly_symbol2scm ("direction"), scm_int2num (1));
+ ly_symbol2scm ("direction"), scm_from_int (1));
execute_pushpop_property (two, sym,
- ly_symbol2scm ("direction"), scm_int2num (-1));
+ ly_symbol2scm ("direction"), scm_from_int (-1));
}
+}
+
+IMPLEMENT_LISTENER (Part_combine_iterator, set_busy);
+void
+Part_combine_iterator::set_busy (SCM se)
+{
+ if (!notice_busy_)
+ return;
+
+ Stream_event *e = unsmob_stream_event (se);
+
+ if (e->in_event_class ("note-event") || e->in_event_class ("cluster-note-event"))
+ busy_ = true;
+}
+/*
+ Processes a moment in an iterator, and returns whether any new music
+ was reported.
+*/
+bool
+Part_combine_iterator::try_process (Music_iterator *i, Moment m)
+{
+ busy_ = false;
+ notice_busy_ = true;
+
+ i->process (m);
+
+ notice_busy_ = false;
+ return busy_;
}
void
{
Moment now = get_outlet ()->now_mom ();
Moment *splitm = 0;
-
+
+ /* This is needed if construct_children was called before iteration
+ started */
+ if (start_moment_.main_part_.is_infinity () && start_moment_ < 0)
+ start_moment_ = now;
+
for (; scm_is_pair (split_list_); split_list_ = scm_cdr (split_list_))
{
splitm = unsmob_moment (scm_caar (split_list_));
if (splitm && *splitm + start_moment_ > now)
- break ;
+ break;
SCM tag = scm_cdar (split_list_);
-
+
if (tag == ly_symbol2scm ("chords"))
chords_together ();
else if (tag == ly_symbol2scm ("apart")
solo2 ();
else if (scm_is_symbol (tag))
{
- String s = "Unknown split directive: "
- + (scm_is_symbol (tag) ? ly_symbol2string (tag) : String ("not a symbol"));
+ string s = "Unknown split directive: "
+ + (scm_is_symbol (tag) ? ly_symbol2string (tag) : string ("not a symbol"));
programming_error (s);
}
}
-
+
if (first_iter_->ok ())
{
- first_iter_->process (m);
- if (first_iter_->try_music_in_children (busy_playing_event))
- last_playing_ = SOLO1;
+ if (try_process (first_iter_, m))
+ last_playing_ = SOLO1;
}
-
+
if (second_iter_->ok ())
{
- second_iter_->process (m);
- if (first_iter_->try_music_in_children (busy_playing_event))
+ if (try_process (second_iter_, m))
last_playing_ = SOLO2;
}
}
-Music_iterator*
-Part_combine_iterator::try_music_in_children (Music *m) const
-{
- Music_iterator * i = first_iter_->try_music (m);
- if (i)
- return i;
- else
- return second_iter_->try_music (m);
-}
-
IMPLEMENT_CTOR_CALLBACK (Part_combine_iterator);