}
void
-Rhythmic_grouping::OK()const
+Rhythmic_grouping::OK() const
{
#ifndef NDEBUG
assert (bool (children.size()) != bool (interval_));
}
MInterval
-Rhythmic_grouping::interval()const
+Rhythmic_grouping::interval() const
{
if (interval_)
return *interval_;
Array<Rhythmic_grouping*> ch;
while (1)
{
- if ( i >= children.size() || j >= splitpoints.size ())
+ if (i >= children.size() || j >= splitpoints.size ())
break;
assert (
}
void
-Rhythmic_grouping::print()const
+Rhythmic_grouping::print() const
{
#ifndef NPRINT
DOUT << "{ \n";
Rhythmic_grouping::child_fit_b (Moment start)
{
if (children.size())
- return ( children.top()->interval ().right== start);
+ return (children.top()->interval ().right== start);
return true;
}
}
void
-Rhythmic_grouping::extend (MInterval m)const
+Rhythmic_grouping::extend (MInterval m) const
{
assert (m.left >= interval().left);
while (m.right >interval().right)