/*
timing-translator.cc -- implement Timing_translator
+
source file of the GNU LilyPond music typesetter
- (c) 1997--1998 Han-Wen Nienhuys <hanwen@cs.uu.nl>
+ (c) 1997--1999 Han-Wen Nienhuys <hanwen@cs.uu.nl>
*/
+#include "debug.hh"
#include "timing-translator.hh"
#include "command-request.hh"
#include "translator-group.hh"
#include "global-translator.hh"
#include "multi-measure-rest.hh"
-Timing_translator::Timing_translator ()
-{
- default_grouping_ = Rhythmic_grouping (MInterval (0, 1), 4); // ugh
-}
-
bool
-Timing_translator::do_try_request(Request*r)
+Timing_translator::do_try_music (Music*r)
{
if (Timing_req *t = dynamic_cast <Timing_req *> (r))
{
{
if (timing_req_l_arr_[i]->equal_b(t))
return true;
- if (timing_req_l_arr_[i]->name() == r->name())
+ if (String (classname (timing_req_l_arr_[i])) == classname (r))
{
r->warning (_ ("conflicting timing request"));
return false;
{
int b_i= m_l->beats_i_;
int o_i = m_l->one_beat_i_;
- if (! time_.allow_time_signature_change_b())
- tr_l->warning (_ ("time signature change not allowed here"));
- else
- {
- time_.set_time_signature (b_i, o_i);
- default_grouping_ =
- Rhythmic_grouping (MInterval (0,Moment (b_i, o_i)), b_i);
- }
- }
- else if (Partial_measure_req *pm = dynamic_cast <Partial_measure_req *> (tr_l))
- {
- Moment m = pm->duration_;
- String error = time_.try_set_partial_str (m);
- if (error.length_i ())
- {
- tr_l->warning (error);
- }
- else
- time_.setpartial (m);
+ set_time_signature (b_i, o_i);
}
else if (dynamic_cast <Barcheck_req *> (tr_l))
{
- if (time_.whole_in_measure_)
+ if (measure_position ())
{
- tr_l ->warning (_f ("barcheck failed by: %s",
- time_.whole_in_measure_.str ()));
+ tr_l ->warning (_f ("barcheck failed at: %s",
+ measure_position ().str ()));
+ // resync
+ daddy_trans_l_->set_property("measurePosition",
+ (new Moment)->smobify_self ());
- time_.whole_in_measure_ = 0; // resync
- time_.error_b_ = true;
}
-
- }
- else if (Cadenza_req *cr = dynamic_cast <Cadenza_req *> (tr_l))
- {
- time_.set_cadenza (cr->on_b_);
- }
- else if (Measure_grouping_req *mg=dynamic_cast <Measure_grouping_req *> (tr_l))
- {
- default_grouping_ =
- parse_grouping (mg->beat_i_arr_,
- mg->elt_length_arr_);
-
}
}
}
Timing_translator::do_pre_move_processing()
{
timing_req_l_arr_.set_size (0);
- Global_translator *global_l =
- dynamic_cast<Global_translator*> (daddy_trans_l_->ancestor_l (100)); // ugh 100.
-
+ Translator *t = this;
+ Global_translator *global_l =0;
+ do
+ {
+ t = t->daddy_trans_l_ ;
+ global_l = dynamic_cast<Global_translator*> (t);
+ }
+ while (!global_l);
/* allbars == ! skipbars */
- bool allbars = ! get_property ("SkipBars").to_bool ();
+ SCM sb = get_property ("skipBars", 0);
+ bool allbars = !(gh_boolean_p (sb)&&gh_scm2bool (sb));
+
+ // urg: multi bar rests: should always process whole of first bar?
+ SCM tim = get_property ("timing", 0);
+ bool timb = gh_boolean_p (tim) && gh_scm2bool (tim);
+ if (timb && allbars)
+ {
+ Moment barleft = (measure_length () - measure_position ());
+ if (barleft < Moment (0))
+ barleft = 0;
- if (!time_.cadenza_b_ && allbars)
- global_l->add_moment_to_process (time_.next_bar_moment ());
+ global_l->add_moment_to_process (now_mom () + barleft);
+ }
}
-IMPLEMENT_IS_TYPE_B1(Timing_translator, Translator);
+
ADD_THIS_TRANSLATOR(Timing_translator);
void
Timing_translator::do_creation_processing()
{
- time_.when_ = now_moment ();
+ daddy_trans_l_->set_property ("timing" , SCM_BOOL_T);
+ daddy_trans_l_->set_property ("currentBarNumber" , gh_int2scm (1));
+ daddy_trans_l_->set_property("measurePosition",
+ (new Moment)->smobify_self());
+ daddy_trans_l_->set_property ("oneBeat",
+ (new Moment (1,4))->smobify_self ());
+ daddy_trans_l_->set_property("measureLength",
+ (new Moment (1))->smobify_self());
}
+Moment
+Timing_translator::measure_length () const
+{
+ SCM l = get_property("measureLength",0);
+ if (SMOB_IS_TYPE_B(Moment, l))
+ return *SMOB_TO_TYPE (Moment, l);
+ else
+ return Moment (1);
+}
+
+
void
-Timing_translator::do_post_move_processing()
+Timing_translator::get_time_signature (int *n, int *d) const
+{
+ Moment one_beat (1,4);
+ SCM one = get_property ("beatLength",0);
+ if (SMOB_IS_TYPE_B (Moment, one))
+ one_beat = *SMOB_TO_TYPE (Moment, one);
+ *n = measure_length () / one_beat;
+ *d = one_beat.den_i ();
+}
+
+
+void
+Timing_translator::set_time_signature (int l, int o)
+{
+ Moment one_beat = Moment (1)/Moment (o);
+ Moment len = Moment (l) * one_beat;
+ daddy_trans_l_->set_property ("measureLength",
+ (new Moment (len))->smobify_self ());
+ daddy_trans_l_->set_property ("beatength",
+ (new Moment (one_beat))->smobify_self ());
+}
+
+Timing_translator::Timing_translator()
+{
+}
+
+
+Moment
+Timing_translator::measure_position () const
{
- time_.add (now_moment () - time_.when_);
+ SCM sm = get_property ("measurePosition",0);
+
+ Moment m =0;
+ if (SMOB_IS_TYPE_B (Moment, sm))
+ {
+ m = *SMOB_TO_TYPE (Moment, sm);
+ while (m < Moment (0))
+ m += measure_length ();
+ }
+
+ return m;
}
void
-Timing_translator::do_print () const
+Timing_translator::do_post_move_processing()
+{
+ Translator *t = this;
+ Global_translator *global_l =0;
+ do
+ {
+ t = t->daddy_trans_l_ ;
+ global_l = dynamic_cast<Global_translator*> (t);
+ }
+ while (!global_l);
+
+ Moment dt = global_l->now_mom_ - global_l -> prev_mom_;
+ if (dt < Moment (0))
+ {
+ programming_error ("Moving backwards in time");
+ dt = 0;
+ }
+
+ if (!dt)
+ return;
+
+ Moment * measposp =0;
+
+ SCM s = get_property ("measurePosition", 0);
+ if (SMOB_IS_TYPE_B (Moment, s))
+ {
+ measposp = SMOB_TO_TYPE (Moment,s);
+ }
+ else
+ {
+ measposp = new Moment;
+ daddy_trans_l_->set_property ("measurePosition", measposp->smobify_self ());
+ }
+
+ *measposp += dt;
+ // don't need to set_property
+
+ Translator_group * tr =daddy_trans_l_;
+ SCM barn = get_property ("currentBarNumber", &tr);
+ int b = 0;
+ if (gh_number_p(barn))
+ {
+ b = gh_scm2int (barn);
+ }
+
+ SCM cad = get_property ("timing", 0);
+ bool c= gh_boolean_p (cad ) && gh_scm2bool (cad);
+
+ Moment len = measure_length ();
+ while (c && *measposp >= len)
+ {
+ *measposp -= len;
+ b ++;
+ }
+
+ tr->set_property ("currentBarNumber", gh_int2scm (b));
+}
+
+int
+Timing_translator::bars_i () const
{
-#ifndef NPRINT
- time_.print ();
- default_grouping_.print ();
-#endif
+ return gh_scm2int (get_property ("currentBarNumber", 0));
}