void FixedUpdate()
{
// remove control locks in any case
Misc.ClearLocks();
// do nothing if paused
if (Lib.IsPaused())
{
return;
}
// maintain elapsed_s, converting to double only once
// and detect warp blending
double fixedDeltaTime = TimeWarp.fixedDeltaTime;
if (Math.Abs(fixedDeltaTime - elapsed_s) > double.Epsilon)
{
warp_blending = 0;
}
else
{
++warp_blending;
}
elapsed_s = fixedDeltaTime;
// evict oldest entry from vessel cache
Cache.Update();
// store info for oldest unloaded vessel
double last_time = 0.0;
Vessel last_v = null;
Vessel_info last_vi = null;
VesselData last_vd = null;
Vessel_resources last_resources = null;
// for each vessel
foreach (Vessel v in FlightGlobals.Vessels)
{
// get vessel info from the cache
Vessel_info vi = Cache.VesselInfo(v);
// set locks for active vessel
if (v.isActiveVessel)
{
Misc.SetLocks(v, vi);
}
// maintain eva dead animation and helmet state
if (v.loaded && v.isEVA)
{
EVA.Update(v);
}
// keep track of rescue mission kerbals, and gift resources to their vessels on discovery
if (v.loaded && vi.is_vessel)
{
// manage rescue mission mechanics
Misc.ManageRescueMission(v);
}
// do nothing else for invalid vessels
if (!vi.is_valid)
{
continue;
}
// get vessel data from db
VesselData vd = DB.Vessel(v);
// get resource cache
Vessel_resources resources = ResourceCache.Get(v);
// if loaded
if (v.loaded)
{
// get most used resource
Resource_info ec = resources.Info(v, "ElectricCharge");
// show belt warnings
Radiation.BeltWarnings(v, vi, vd);
// update storm data
Storm.Update(v, vi, vd, elapsed_s);
Communications.Update(v, vi, vd, ec, elapsed_s);
// Habitat equalization
ResourceBalance.Equalizer(v);
// transmit science data
Science.Update(v, vi, vd, resources, elapsed_s);
// apply rules
Profile.Execute(v, vi, vd, resources, elapsed_s);
// apply deferred requests
resources.Sync(v, elapsed_s);
// call automation scripts
vd.computer.Automate(v, vi, resources);
// remove from unloaded data container
unloaded.Remove(vi.id);
}
// if unloaded
else
{
// get unloaded data, or create an empty one
Unloaded_data ud;
if (!unloaded.TryGetValue(vi.id, out ud))
{
ud = new Unloaded_data();
unloaded.Add(vi.id, ud);
}
// accumulate time
ud.time += elapsed_s;
// maintain oldest entry
if (ud.time > last_time)
{
last_time = ud.time;
last_v = v;
last_vi = vi;
last_vd = vd;
last_resources = resources;
}
}
}
// at most one vessel gets background processing per physics tick
// if there is a vessel that is not the currently loaded vessel, then
// we will update the vessel whose most recent background update is the oldest
if (last_v != null)
{
// get most used resource
Resource_info last_ec = last_resources.Info(last_v, "ElectricCharge");
// show belt warnings
Radiation.BeltWarnings(last_v, last_vi, last_vd);
// update storm data
Storm.Update(last_v, last_vi, last_vd, last_time);
Communications.Update(last_v, last_vi, last_vd, last_ec, last_time);
// transmit science data
Science.Update(last_v, last_vi, last_vd, last_resources, last_time);
// apply rules
Profile.Execute(last_v, last_vi, last_vd, last_resources, last_time);
// simulate modules in background
Background.Update(last_v, last_vi, last_vd, last_resources, last_time);
// apply deferred requests
last_resources.Sync(last_v, last_time);
// call automation scripts
last_vd.computer.Automate(last_v, last_vi, last_resources);
// remove from unloaded data container
unloaded.Remove(last_vi.id);
}
// update storm data for one body per-step
if (storm_bodies.Count > 0)
{
storm_bodies.ForEach(k => k.time += elapsed_s);
Storm_data sd = storm_bodies[storm_index];
Storm.Update(sd.body, sd.time);
sd.time = 0.0;
storm_index = (storm_index + 1) % storm_bodies.Count;
}
}
void FixedUpdate()
{
// remove control locks in any case
Misc.ClearLocks();
// do nothing if paused
if (Lib.IsPaused())
{
return;
}
// maintain elapsed_s, converting to double only once
// and detect warp blending
double fixedDeltaTime = TimeWarp.fixedDeltaTime;
if (Math.Abs(fixedDeltaTime - elapsed_s) > double.Epsilon)
{
warp_blending = 0;
}
else
{
++warp_blending;
}
elapsed_s = fixedDeltaTime;
// evict oldest entry from vessel cache
Cache.Update();
// vvvv------- This code tests for a theroy that could cause #313
// If KSP itself has the same vessel more than once in the
// FlightGlobals.Vessels list, it would cause processes to run too many times.
// The other possible cause was a Vessel ID collision in Lib.VesselID(), which
// only used 4 bytes of a 16 byte GUID to create an ID from.
//
// If the BUG TRIGGERED message is never observed in the wild,
// it is safe to remove this chunk of code.
Dictionary <UInt64, Vessel> vessels = new Dictionary <UInt64, Vessel>();
foreach (Vessel v in FlightGlobals.Vessels)
{
if (vessels.ContainsKey(Lib.VesselID(v)))
{
Lib.Log("THIS SHOULD NOT BE HAPPENING: Vessel " + v.name + " already seen in FlightGlobals.Vessels");
Message.Post(Lib.BuildString(Lib.Color("red", "BUG TRIGGERED", true), "\n",
v.name + " duplicated in FlightGlobals.Vessels. Please report this on GitHub."));
}
else
{
vessels.Add(Lib.VesselID(v), v);
}
}
// ^^^^-------- end theory test code
// store info for oldest unloaded vessel
double last_time = 0.0;
Vessel last_v = null;
Vessel_info last_vi = null;
VesselData last_vd = null;
Vessel_resources last_resources = null;
// for each vessel
//foreach (Vessel v in FlightGlobals.Vessels)
foreach (Vessel v in vessels.Values)
{
// get vessel info from the cache
Vessel_info vi = Cache.VesselInfo(v);
// set locks for active vessel
if (v.isActiveVessel)
{
Misc.SetLocks(v, vi);
}
// maintain eva dead animation and helmet state
if (v.loaded && v.isEVA)
{
EVA.Update(v);
}
// keep track of rescue mission kerbals, and gift resources to their vessels on discovery
if (v.loaded && vi.is_vessel)
{
// manage rescue mission mechanics
Misc.ManageRescueMission(v);
}
// do nothing else for invalid vessels
if (!vi.is_valid)
{
continue;
}
// get vessel data from db
VesselData vd = DB.Vessel(v);
// get resource cache
Vessel_resources resources = ResourceCache.Get(v);
// if loaded
if (v.loaded)
{
// get most used resource
Resource_info ec = resources.Info(v, "ElectricCharge");
// show belt warnings
Radiation.BeltWarnings(v, vi, vd);
// update storm data
Storm.Update(v, vi, vd, elapsed_s);
Communications.Update(v, vi, vd, ec, elapsed_s);
// Habitat equalization
ResourceBalance.Equalizer(v);
// transmit science data
Science.Update(v, vi, vd, resources, elapsed_s);
// apply rules
Profile.Execute(v, vi, vd, resources, elapsed_s);
// apply deferred requests
resources.Sync(v, elapsed_s);
// call automation scripts
vd.computer.Automate(v, vi, resources);
// remove from unloaded data container
unloaded.Remove(vi.id);
}
// if unloaded
else
{
// get unloaded data, or create an empty one
Unloaded_data ud;
if (!unloaded.TryGetValue(vi.id, out ud))
{
ud = new Unloaded_data();
unloaded.Add(vi.id, ud);
}
// accumulate time
ud.time += elapsed_s;
// maintain oldest entry
if (ud.time > last_time)
{
last_time = ud.time;
last_v = v;
last_vi = vi;
last_vd = vd;
last_resources = resources;
}
}
}
// at most one vessel gets background processing per physics tick
// if there is a vessel that is not the currently loaded vessel, then
// we will update the vessel whose most recent background update is the oldest
if (last_v != null)
{
// get most used resource
Resource_info last_ec = last_resources.Info(last_v, "ElectricCharge");
// show belt warnings
Radiation.BeltWarnings(last_v, last_vi, last_vd);
// update storm data
Storm.Update(last_v, last_vi, last_vd, last_time);
Communications.Update(last_v, last_vi, last_vd, last_ec, last_time);
// transmit science data
Science.Update(last_v, last_vi, last_vd, last_resources, last_time);
// apply rules
Profile.Execute(last_v, last_vi, last_vd, last_resources, last_time);
// simulate modules in background
Background.Update(last_v, last_vi, last_vd, last_resources, last_time);
// apply deferred requests
last_resources.Sync(last_v, last_time);
// call automation scripts
last_vd.computer.Automate(last_v, last_vi, last_resources);
// remove from unloaded data container
unloaded.Remove(last_vi.id);
}
// update storm data for one body per-step
if (storm_bodies.Count > 0)
{
storm_bodies.ForEach(k => k.time += elapsed_s);
Storm_data sd = storm_bodies[storm_index];
Storm.Update(sd.body, sd.time);
sd.time = 0.0;
storm_index = (storm_index + 1) % storm_bodies.Count;
}
}