int importance = infos_[i + 1].rhythmic_importance_;
int count = (importance < 0 && options.subdivide_beams_)
? subdivide_beam_count
- : min (min (infos_[i].count (non_flag_dir),
+ : std::min (std::min (infos_[i].count (non_flag_dir),
infos_[i + non_flag_dir].count (-non_flag_dir)),
infos_[i - non_flag_dir].count (non_flag_dir));
for (vsize i = 1; i < infos_.size (); i++)
if (infos_[i].invisible_)
{
- int b = min (infos_[i].count (LEFT), infos_[i - 1].count (LEFT));
+ int b = std::min (infos_[i].count (LEFT), infos_[i - 1].count (LEFT));
infos_[i].beam_count_drul_[LEFT] = b;
infos_[i].beam_count_drul_[RIGHT] = b;
}
for (vsize i = infos_.size () - 1; i--;)
if (infos_[i].invisible_)
{
- int b = min (infos_[i].count (LEFT), infos_[i + 1].count (LEFT));
+ int b = std::min (infos_[i].count (LEFT), infos_[i + 1].count (LEFT));
infos_[i].beam_count_drul_[LEFT] = b;
infos_[i].beam_count_drul_[RIGHT] = b;
}
Moment
Beaming_pattern::end_moment (int i) const
{
- Duration dur (2 + max (beamlet_count (i, LEFT),
+ Duration dur (2 + std::max (beamlet_count (i, LEFT),
beamlet_count (i, RIGHT)),
0);
new_pattern = new Beaming_pattern ();
for (vsize j = i + 1; j < infos_.size (); j++)
{
- count = max (beamlet_count (j, LEFT), beamlet_count (j, RIGHT));
+ count = std::max (beamlet_count (j, LEFT), beamlet_count (j, RIGHT));
new_pattern->add_stem (start_moment (j),
count,
invisibility (j),