public static void Teleport(this Krakensbane krakensbane, Vector3d offset)
{
foreach (var vessel in FlightGlobals.Vessels.Where(v => v.packed == false && v != FlightGlobals.ActiveVessel))
{
vessel.GoOnRails();
}
krakensbane.setOffset(offset);
}
public void FixedUpdate()
{
try
{
if (vessel == null || part == null || _state == StartState.Editor)
{
return;
}
if (enhancerPoll <= 0)
{
IsEnhanced = false;
BubbleEnhancement = 0;
enhancerPoll = 25;
var enhancer = FindEnhancer();
if (enhancer != null)
{
BubbleEnhancement = enhancer.GetEffectiveness(this);
IsEnhanced = true;
}
}
else
{
enhancerPoll--;
}
if (IsDeployed != IsActivated)
{
IsDeployed = IsActivated;
CheckBubbleDeployment(3);
SetPartState(IsActivated);
}
if (!IsDeployed)
{
part.Effect(idleEffectName, 0.0f);
}
if (alertCondition)
{
SetupAlertEvents();
alertTimer -= TimeWarp.fixedDeltaTime;
if (alertTimer <= 0.0)
{
CancelRedAlert();
}
return;
}
if (IsDeployed)
{
float currentThrottle = vessel.ctrlState.mainThrottle * (displayWarpFactor / 10.0f);
//Failsafe
if (deployTimer <= 0.0)
{
// The Kraken tends to eat things that get close to the bubble
if (currentThrottle < MinThrottle)
{
if (!CheckBubbleDistances())
{
return;
}
}
if (!CheckAltitude())
{
ShutdownDrive(false);
return;
}
}
if (IsActivated && plasma_gauge == null)
{
CreateAllGauges();
}
double dt = (double)TimeWarp.fixedDeltaTime;
if (deployTimer > 0.0)
{
deployTimer -= (float)dt;
PlayWarpAnimation(currentThrottle);
UpdateAllGauges();
return;
}
part.Effect(idleEffectName, 1.0f);
part.Effect(powerEffectName, currentThrottle);
bool flameout = false;
if (currentThrottle >= MinThrottle)
{
// Use up Plasma and Electricity to maintain the warp field
float plasmaNeeded = (float)(PlasmaMultiply * WarpFactor * currentThrottle * dt);
float elecNeeded = (float)(ElectricMultiply * WarpFactor * currentThrottle * dt);
float plasmaUsed = part.RequestResource("WarpPlasma", plasmaNeeded);
float elecUsed = part.RequestResource("ElectricCharge", elecNeeded);
if (plasmaUsed < plasmaNeeded || elecUsed < elecNeeded)
{
flameout = true;
SetPlasmaPowerError(plasmaUsed, plasmaNeeded);
}
}
if (UpdateAllGauges())
{
flameout = true;
SetPlasmaPowerError((float)currentPlasma, 1.0f);
}
//OH NO FLAMEOUT!
// (actually it isn't all that bad anymore)
if (flameout)
{
WarningSound();
BubbleCollapse();
ShutdownDrive(true);
return;
}
PlayWarpAnimation(currentThrottle);
if (currentThrottle < MinThrottle)
{
return;
}
//Start by adding in our subluminal speed which is exponential
double lowerThrottle = (Math.Min(currentThrottle, SUBLIGHT_THROTTLE) * SUBLIGHT_MULT);
double distance = Math.Pow(lowerThrottle, SUBLIGHT_POWER);
//Then if throttle is over our threshold, go linear
if (currentThrottle > SUBLIGHT_THROTTLE)
{
//How much headroom do we have
double maxSpeed = (LIGHTSPEED / 50 * WarpFactor) - distance;
//How much of this can we use?
var upperThrottle = currentThrottle - SUBLIGHT_THROTTLE;
//How much of this headroom have we used?
var throttlePercent = upperThrottle / (1 - SUBLIGHT_THROTTLE);
//Add it to our current throttle calculation
var additionalDistance = maxSpeed * throttlePercent;
distance += additionalDistance;
}
//Take into acount safe accelleration/decelleration
if (distance > CurrentSpeed + Math.Pow(10, MaxAccelleration))
{
distance = CurrentSpeed + Math.Pow(10, MaxAccelleration);
}
if (distance < CurrentSpeed - Math.Pow(10, MaxAccelleration))
{
distance = CurrentSpeed - Math.Pow(10, MaxAccelleration);
}
CurrentSpeed = distance;
if (distance > 1000)
{
//Let's see if we can get rid of precision issues with distance.
Int32 precision = Math.Round(distance, 0).ToString().Length - 1;
if (precision > MaxAccelleration)
{
precision = MaxAccelleration;
}
var magnitude = Math.Round((distance / Math.Pow(10, precision)), 0);
var jumpDistance = Math.Pow(10, precision) * magnitude;
distance = jumpDistance;
}
double c = (distance * 50) / LIGHTSPEED;
status = String.Format("{1:n0} m/s [{0:0}%c]", c * 100f, distance * 50);
if (currentThrottle >= MinThrottle)
{
// Translate through space on the back of a Kraken!
Vector3d ps = vessel.transform.position + (transform.up * (float)(distance));
Krakensbane krakensbane = (Krakensbane)FindObjectOfType(typeof(Krakensbane));
krakensbane.setOffset(ps);
//AngularMomentum Block
if (AMConservationMode == true)
{
ApplyAngularMomentum();
}
}
if (AMConservationMode == true && currentThrottle == 0)
{
SetAMStartStateVars();
}
}
}
catch (Exception ex)
{
print(String.Format("[WSXWARP] Error in OnFixedUpdate - {0}", ex.Message));
}
}
