+void Environment::stepTimeOfDay(float dtime)
+{
+ m_time_counter += dtime;
+ f32 speed = m_time_of_day_speed * 24000./(24.*3600);
+ u32 units = (u32)(m_time_counter*speed);
+ m_time_counter -= (f32)units / speed;
+ bool sync_f = false;
+ if(units > 0){
+ // Sync at overflow
+ if(m_time_of_day + units >= 24000)
+ sync_f = true;
+ m_time_of_day = (m_time_of_day + units) % 24000;
+ if(sync_f)
+ m_time_of_day_f = (float)m_time_of_day / 24000.0;
+ }
+ if(!sync_f){
+ m_time_of_day_f += m_time_of_day_speed/24/3600*dtime;
+ if(m_time_of_day_f > 1.0)
+ m_time_of_day_f -= 1.0;
+ if(m_time_of_day_f < 0.0)
+ m_time_of_day_f += 1.0;
+ }
+}
+
+/*
+ ABMWithState
+*/
+
+ABMWithState::ABMWithState(ActiveBlockModifier *abm_):
+ abm(abm_),
+ timer(0)
+{
+ // Initialize timer to random value to spread processing
+ float itv = abm->getTriggerInterval();
+ itv = MYMAX(0.001, itv); // No less than 1ms
+ int minval = MYMAX(-0.51*itv, -60); // Clamp to
+ int maxval = MYMIN(0.51*itv, 60); // +-60 seconds
+ timer = myrand_range(minval, maxval);
+}
+