bool
Beam_engraver::do_try_music (Music *m)
{
- if (Beam_req * c = dynamic_cast<Beam_req*>(m))
+ if (Span_req * c = dynamic_cast<Span_req*>(m))
{
- Direction d =c->spantype_;
+ if (c->span_type_str_ != "beam")
+ return false;
+
+ Direction d =c->span_dir_;
if (d == STOP && !beam_p_)
{
Scalar prop = get_property ("beamslopedamping", 0);
if (prop.isnum_b ())
- beam_p_->damping_i_ = prop;
-
+ beam_p_->set_elt_property (damping_scm_sym, gh_int2scm( prop));
+
prop = get_property ("beamquantisation", 0);
if (prop.isnum_b ())
beam_p_->quantisation_ = (Beam::Quantisation)(int)prop;
- // must set minVerticalAlign == maxVerticalAlign to get sane results
- // see input/test/beam-interstaff.ly
- prop = get_property ("minVerticalAlign", 0);
- if (prop.isnum_b ())
- beam_p_->vertical_align_drul_[MIN] = prop;
-
- prop = get_property ("maxVerticalAlign", 0);
- if (prop.isnum_b ())
- beam_p_->vertical_align_drul_[MAX] = prop;
-
announce_element (Score_element_info (beam_p_, reqs_drul_[START]));
}
}
void
Beam_engraver::acknowledge_element (Score_element_info info)
{
- if (beam_p_)
- {
- Stem* stem_l = dynamic_cast<Stem *> (info.elem_l_);
- if (!stem_l)
- return;
+ if (beam_p_)
+ {
+ Stem* stem_l = dynamic_cast<Stem *> (info.elem_l_);
+ if (!stem_l || stem_l->beam_l_)
+ return;
+
+ bool self_grace = beam_p_->get_elt_property (grace_scm_sym) != SCM_BOOL_F;
+ bool stem_grace = stem_l->get_elt_property (grace_scm_sym) != SCM_BOOL_F;
+ if (!self_grace && stem_grace)
+ return;
- Rhythmic_req *rhythmic_req = dynamic_cast <Rhythmic_req *> (info.req_l_);
- if (!rhythmic_req)
- {
- String s = _ ("Stem must have Rhythmic structure.");
- if (info.req_l_)
- info.req_l_->warning (s);
- else
- ::warning (s);
+ Rhythmic_req *rhythmic_req = dynamic_cast <Rhythmic_req *> (info.req_l_);
+ if (!rhythmic_req)
+ {
+ String s = _ ("Stem must have Rhythmic structure.");
+ if (info.req_l_)
+ info.req_l_->warning (s);
+ else
+ ::warning (s);
- return;
- }
+ return;
+ }
- if (rhythmic_req->duration_.durlog_i_<= 2)
- {
- rhythmic_req->warning (_ ("stem doesn't fit in beam"));
- prev_start_req_->warning (_ ("beam was started here"));
- return;
- }
-
- /*
- TODO: do something sensible if it doesn't fit in the beam.
- */
- Moment start = get_staff_info().time_C_->whole_in_measure_;
-
- if (!grouping_p_->child_fit_b (start))
- {
- String s (_ ("please fix me") + ": "
- + _f ("stem at %s doesn't fit in beam", now_mom ().str ()));
-
- if (info.req_l_)
- info.req_l_->warning(s);
- else
- warning (s);
- }
- else
- {
- grouping_p_->add_child (start, rhythmic_req->length_mom ());
- stem_l->flag_i_ = rhythmic_req->duration_.durlog_i_;
- beam_p_->add_stem (stem_l);
- }
- }
+ if (rhythmic_req->duration_.durlog_i_<= 2)
+ {
+ rhythmic_req->warning (_ ("stem doesn't fit in beam"));
+ prev_start_req_->warning (_ ("beam was started here"));
+ return;
+ }
+
+ /*
+ TODO: do something sensible if it doesn't fit in the beam.
+ */
+ Moment start = get_staff_info().time_C_->whole_in_measure_;
+
+ if (!grouping_p_->child_fit_b (start))
+ {
+ String s (_ ("please fix me") + ": "
+ + _f ("stem at %s doesn't fit in beam", now_mom ().str ()));
+
+ if (info.req_l_)
+ info.req_l_->warning(s);
+ else
+ warning (s);
+ }
+ else
+ {
+ grouping_p_->add_child (start, rhythmic_req->length_mom ());
+ stem_l->flag_i_ = rhythmic_req->duration_.durlog_i_;
+ beam_p_->add_stem (stem_l);
+ }
+ }
}