/*
This file is part of LilyPond, the GNU music typesetter.
- Copyright (C) 1997--2011 Han-Wen Nienhuys <hanwen@xs4all.nl>
+ Copyright (C) 1997--2014 Han-Wen Nienhuys <hanwen@xs4all.nl>
LilyPond is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
#include "warn.hh"
#include "translator-group.hh"
#include "global-context.hh"
+#include "moment.hh"
void
Timing_translator::stop_translation_timestep ()
void
Timing_translator::initialize ()
{
- context ()->add_alias (ly_symbol2scm ("Timing"));
- context ()->set_property ("currentBarNumber", scm_from_int (1));
- context ()->set_property ("internalBarNumber", scm_from_int (1));
+ Context *timing = unsmob_context (scm_call_2 (ly_lily_module_constant ("ly:context-find"),
+ context ()->self_scm (),
+ ly_symbol2scm ("Timing")));
+ if (timing != context ())
+ {
+ context ()->add_alias (ly_symbol2scm ("Timing"));
+
+ if (!timing)
+ {
+ programming_error ("Can't find Timing context template");
+ timing = context ();
+ }
+ }
+
+ SCM barnumber = timing->get_property ("currentBarNumber");
+ if (!scm_is_integer (barnumber))
+ barnumber = scm_from_int (1);
+ context ()->set_property ("currentBarNumber", barnumber);
+ context ()->set_property ("internalBarNumber", barnumber);
+
+ SCM timeSignatureFraction = timing->get_property ("timeSignatureFraction");
+
+ if (!scm_is_pair (timeSignatureFraction))
+ {
+ programming_error ("missing timeSignatureFraction");
+ timeSignatureFraction = scm_cons (scm_from_int (4), scm_from_int (4));
+ }
+ context ()->set_property ("timeSignatureFraction", timeSignatureFraction);
+
+ SCM measureLength = timing->get_property ("measureLength");
+
+ if (!unsmob_moment (measureLength))
+ {
+ measureLength =
+ Moment (ly_scm2rational
+ (scm_divide (scm_car (timeSignatureFraction),
+ scm_cdr (timeSignatureFraction)))).smobbed_copy ();
+ }
+ context ()->set_property ("measureLength", measureLength);
- context ()->set_property ("timeSignatureFraction",
- scm_cons (scm_from_int (4), scm_from_int (4)));
/*
Do not init measurePosition; this should be done from global
context.
*/
- context ()->set_property ("measureLength",
- Moment (Rational (1)).smobbed_copy ());
- context ()->set_property ("baseMoment",
- Moment (Rational (1, 4)).smobbed_copy ());
+
+ SCM timeSignatureSettings = timing->get_property ("timeSignatureSettings");
+ if (!scm_is_pair (timeSignatureSettings))
+ {
+ programming_error ("missing timeSignatureSettings");
+ // A memoized constant is not the prettiest thing as a fallback
+ // since it does not track changes of the variable. However,
+ // this is still better than nothing, and we already complained
+ // via a programming_error
+ timeSignatureSettings = ly_lily_module_constant ("default-time-signature-settings");
+ }
+ context ()->set_property ("timeSignatureSettings", timeSignatureSettings);
+
+ SCM beamExceptions = timing->get_property ("beamExceptions");
+ if (!scm_is_pair (beamExceptions))
+ {
+ beamExceptions =
+ scm_call_2 (ly_lily_module_constant ("beam-exceptions"),
+ timeSignatureFraction,
+ timeSignatureSettings);
+ }
+ context ()->set_property ("beamExceptions", beamExceptions);
+
+ SCM baseMoment = timing->get_property ("baseMoment");
+ if (!unsmob_moment (baseMoment))
+ {
+ baseMoment =
+ Moment (ly_scm2rational
+ (scm_call_2 (ly_lily_module_constant ("base-length"),
+ timeSignatureFraction,
+ timeSignatureSettings))).smobbed_copy ();
+ }
+ context ()->set_property ("baseMoment", baseMoment);
+
+ SCM beatStructure = timing->get_property ("beatStructure");
+ if (!scm_is_pair (beatStructure))
+ {
+ beatStructure =
+ scm_call_3 (ly_lily_module_constant ("beat-structure"),
+ ly_rational2scm (unsmob_moment (baseMoment)->main_part_),
+ timeSignatureFraction,
+ timeSignatureSettings);
+ }
+ context ()->set_property ("beatStructure", beatStructure);
+
+ context ()->set_property ("beamHalfMeasure",
+ timing->get_property ("beamHalfMeasure"));
+
+ context ()->set_property ("autoBeaming",
+ timing->get_property ("autoBeaming"));
}
Rational
else
{
measposp = now;
- context ()->set_property ("measurePosition",
- measposp.smobbed_copy ());
}
- measposp += dt;
-
int current_barnumber = robust_scm2int (get_property ("currentBarNumber"), 0);
int internal_barnumber = robust_scm2int (get_property ("internalBarNumber"), 0);
SCM cad = get_property ("timing");
bool c = to_boolean (cad);
- Rational len = measure_length ();
- while (c && measposp.main_part_ >= len)
+ if (c)
{
- measposp.main_part_ -= len;
- current_barnumber++;
- internal_barnumber++;
+ Rational len = measure_length ();
+
+ measposp += dt;
+
+ while (measposp.main_part_ >= len)
+ {
+ measposp.main_part_ -= len;
+ current_barnumber++;
+ internal_barnumber++;
+ }
}
+
+ // Because "timing" can be switched on and off asynchronously with
+ // graces, measurePosition might get into strange settings of
+ // grace_part_. It does not actually make sense to have it diverge
+ // from the main timing. Updating the grace part outside of the
+ // actual check for "timing" looks strange and will lead to changes
+ // of grace_part_ even when timing is off. However, when timing is
+ // switched back on again, this will generally happen in an override
+ // that does _not_ in itself advance current_moment. So the whole
+ // timing advance logic will only get triggered while "timing" is
+ // still of. Maybe we should keep measurePosition.grace_part_
+ // constantly at zero anyway?
+
+ measposp.grace_part_ = now.grace_part_;
+
+
context ()->set_property ("currentBarNumber", scm_from_int (current_barnumber));
context ()->set_property ("internalBarNumber", scm_from_int (internal_barnumber));
context ()->set_property ("measurePosition", measposp.smobbed_copy ());
"",
/* read */
- "internalBarNumber "
+ "baseMoment "
"currentBarNumber "
+ "internalBarNumber "
"measureLength "
- "measurePosition ",
+ "measurePosition "
+ "timeSignatureFraction ",
/* write */
"baseMoment "