public class SimulatedTime {
protected double timeScale = 1.0;
public double simToActualConversionFactor = 1.0;
public long actualStartMillis = -1;
public long systemMillis;
public int simStart = 0;
public long actualMillisPassed = 0;
public long actualDelta = 0;
public int simTimePassed = 0;
public double simDelta = 0;
public TimeUtils.Units units = Timepoint.getUnits();
public SimulatedTime(double timeScale) {
reset(timeScale);
}
public SimulatedTime(TimeUtils.Units units, double timeScale) {
reset(units, timeScale);
}
public void reset() {
reset(this.timeScale);
}
public void reset(TimeUtils.Units units, double timeScale) {
this.units = units;
reset(timeScale);
}
public void reset(double timeScale) {
updateTime();
setTimeScale(timeScale);
actualStartMillis = systemMillis;
simStart = 0;
actualMillisPassed = 0;
actualDelta = 0;
simTimePassed = 0;
simDelta = 0;
}
public void updateTime() {
long tmp = System.currentTimeMillis();
actualDelta = tmp - systemMillis;
systemMillis = tmp;
actualMillisPassed += actualDelta;
simDelta = actualDelta / simToActualConversionFactor;
simTimePassed += simDelta;
//// if ( Debug.isOn() ) Debug.outln("timePassed = " + timePassed );
//// if ( Debug.isOn() ) Debug.outln("nextEventTime = " + nextEventTime );
//// if ( Debug.isOn() ) Debug.outln("nextEventTimeScaled = " + nextEventTimeScaled );
//// if ( Debug.isOn() ) Debug.outln("waitMillis = " + waitMillis );
}
public void sleepUntilSimTime(int simTime) throws InterruptedException {
if (simTime <= 0) return;
updateTime();
long actualMillisToSleep = convertSimToActualTimePassed(simTime) - actualMillisPassed;
if (actualMillisToSleep > 0) {
Thread.sleep(actualMillisToSleep);
}
}
/** @return the timeScale */
public double getTimeScale() {
return timeScale;
}
/** @param timeScale the timeScale to set */
public void setTimeScale(double timeScale) {
updateTime();
this.timeScale = timeScale;
simToActualConversionFactor =
Timepoint.conversionFactor(TimeUtils.Units.milliseconds) / timeScale;
}
public long convertSimToActualDuration(int simDuration) {
return (long) (simDuration * simToActualConversionFactor);
}
/**
* Predicts the actual time that the simulation reached the input simTime, assuming that the time
* scale does not change. Likewise, if the input simTime is before the sim time of the last
* update(), then the actual time returned assumes (possibly incorrectly) that the time scale did
* not change in the past.
*
* @param simTime
* @return
*/
public long convertSimToActualTimePassed(int simTime) {
// NOTE: No need to call update() here.
if (simTime < simStart + simTimePassed) {
// Debug.errln("Warning: If time scale changed, past sim time may be incorrectly
// translated to actual.");
}
int simDeltaToFutureTime = simTime - (simStart + simTimePassed);
return actualMillisPassed + convertSimToActualDuration(simDeltaToFutureTime);
}
public int getSimTimePassed() {
updateTime();
return simTimePassed;
}
public boolean passedHorizon() {
return getSimTimePassed() > Timepoint.getHorizonDuration();
}
public long getActualMillisSinceStart() {
updateTime();
return actualMillisPassed;
}
}
/** @param timeScale the timeScale to set */
public void setTimeScale(double timeScale) {
updateTime();
this.timeScale = timeScale;
simToActualConversionFactor =
Timepoint.conversionFactor(TimeUtils.Units.milliseconds) / timeScale;
}
public boolean passedHorizon() {
return getSimTimePassed() > Timepoint.getHorizonDuration();
}
