519 lines
21 KiB
C#
519 lines
21 KiB
C#
using Content.Server.Atmos.Components;
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using Content.Server.Atmos.Piping.Components;
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using Content.Server.NodeContainer.NodeGroups;
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using Content.Shared.Atmos;
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using Content.Shared.Maps;
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using Robust.Shared.Map;
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using Robust.Shared.Physics.Components;
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using Robust.Shared.Timing;
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namespace Content.Server.Atmos.EntitySystems
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{
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public sealed partial class AtmosphereSystem
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{
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[Dependency] private readonly IGameTiming _gameTiming = default!;
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private readonly AtmosDeviceUpdateEvent _updateEvent = new();
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private readonly Stopwatch _simulationStopwatch = new();
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/// <summary>
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/// Check current execution time every n instances processed.
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/// </summary>
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private const int LagCheckIterations = 30;
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/// <summary>
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/// Check current execution time every n instances processed.
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/// </summary>
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private const int InvalidCoordinatesLagCheckIterations = 50;
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private int _currentRunAtmosphereIndex = 0;
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private bool _simulationPaused = false;
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private readonly List<GridAtmosphereComponent> _currentRunAtmosphere = new();
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/// <summary>
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/// Revalidates all invalid coordinates in a grid atmosphere.
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/// </summary>
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/// <param name="atmosphere">The grid atmosphere in question.</param>
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/// <returns>Whether the process succeeded or got paused due to time constrains.</returns>
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private bool ProcessRevalidate(GridAtmosphereComponent atmosphere)
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{
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if (!atmosphere.ProcessingPaused)
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{
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atmosphere.CurrentRunInvalidatedCoordinates = new Queue<Vector2i>(atmosphere.InvalidatedCoords);
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atmosphere.InvalidatedCoords.Clear();
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}
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var uid = atmosphere.Owner;
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if (!TryComp(uid, out IMapGridComponent? mapGridComp))
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return true;
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var mapGrid = mapGridComp.Grid;
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var mapUid = _mapManager.GetMapEntityIdOrThrow(Transform(mapGridComp.Owner).MapID);
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var volume = GetVolumeForTiles(mapGrid, 1);
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var number = 0;
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while (atmosphere.CurrentRunInvalidatedCoordinates.TryDequeue(out var indices))
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{
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if (!atmosphere.Tiles.TryGetValue(indices, out var tile))
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{
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tile = new TileAtmosphere(mapGrid.GridEntityId, indices, new GasMixture(volume){Temperature = Atmospherics.T20C});
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atmosphere.Tiles[indices] = tile;
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}
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var airBlockedEv = new IsTileAirBlockedMethodEvent(uid, indices, MapGridComponent:mapGridComp);
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GridIsTileAirBlocked(uid, atmosphere, ref airBlockedEv);
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var isAirBlocked = airBlockedEv.Result;
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var updateAdjacentEv = new UpdateAdjacentMethodEvent(uid, indices, mapGridComp);
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GridUpdateAdjacent(uid, atmosphere, ref updateAdjacentEv);
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// Call this instead of the grid method as the map has a say on whether the tile is space or not.
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if ((!mapGrid.TryGetTileRef(indices, out var t) || t.IsSpace(_tileDefinitionManager)) && !isAirBlocked)
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{
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tile.Air = GetTileMixture(null, mapUid, indices);
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tile.MolesArchived = tile.Air != null ? new float[Atmospherics.AdjustedNumberOfGases] : null;
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tile.Space = IsTileSpace(null, mapUid, indices, mapGridComp);
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} else if (isAirBlocked)
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{
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var nullAir = false;
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var enumerator = GetObstructingComponentsEnumerator(mapGrid, indices);
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while (enumerator.MoveNext(out var airtight))
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{
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if (!airtight.NoAirWhenFullyAirBlocked)
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continue;
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nullAir = true;
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break;
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}
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if (nullAir)
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{
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tile.Air = null;
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tile.MolesArchived = null;
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tile.ArchivedCycle = 0;
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tile.LastShare = 0f;
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tile.Hotspot = new Hotspot();
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}
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}
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else
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{
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if (tile.Air == null && NeedsVacuumFixing(mapGrid, indices))
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{
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var vacuumEv = new FixTileVacuumMethodEvent(uid, indices);
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GridFixTileVacuum(uid, atmosphere, ref vacuumEv);
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}
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// Tile used to be space, but isn't anymore.
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if (tile.Space || (tile.Air?.Immutable ?? false))
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{
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tile.Air = null;
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tile.MolesArchived = null;
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tile.ArchivedCycle = 0;
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tile.LastShare = 0f;
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tile.Space = false;
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}
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tile.Air ??= new GasMixture(volume){Temperature = Atmospherics.T20C};
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tile.MolesArchived ??= new float[Atmospherics.AdjustedNumberOfGases];
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}
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// We activate the tile.
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AddActiveTile(atmosphere, tile);
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// TODO ATMOS: Query all the contents of this tile (like walls) and calculate the correct thermal conductivity and heat capacity
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var tileDef = mapGrid.TryGetTileRef(indices, out var tileRef)
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? tileRef.GetContentTileDefinition(_tileDefinitionManager) : null;
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tile.ThermalConductivity = tileDef?.ThermalConductivity ?? 0.5f;
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tile.HeatCapacity = tileDef?.HeatCapacity ?? float.PositiveInfinity;
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InvalidateVisuals(mapGrid.GridEntityId, indices);
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for (var i = 0; i < Atmospherics.Directions; i++)
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{
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var direction = (AtmosDirection) (1 << i);
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var otherIndices = indices.Offset(direction);
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if (atmosphere.Tiles.TryGetValue(otherIndices, out var otherTile))
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AddActiveTile(atmosphere, otherTile);
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}
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if (number++ < InvalidCoordinatesLagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessTileEqualize(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunTiles = new Queue<TileAtmosphere>(atmosphere.ActiveTiles);
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var uid = atmosphere.Owner;
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if (!TryComp(uid, out IMapGridComponent? mapGridComp))
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throw new Exception("Tried to process a grid atmosphere on an entity that isn't a grid!");
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var mapGrid = mapGridComp.Grid;
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var number = 0;
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while (atmosphere.CurrentRunTiles.TryDequeue(out var tile))
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{
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EqualizePressureInZone(mapGrid, atmosphere, tile, atmosphere.UpdateCounter);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessActiveTiles(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunTiles = new Queue<TileAtmosphere>(atmosphere.ActiveTiles);
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var number = 0;
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while (atmosphere.CurrentRunTiles.TryDequeue(out var tile))
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{
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ProcessCell(atmosphere, tile, atmosphere.UpdateCounter);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessExcitedGroups(GridAtmosphereComponent gridAtmosphere)
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{
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if(!gridAtmosphere.ProcessingPaused)
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gridAtmosphere.CurrentRunExcitedGroups = new Queue<ExcitedGroup>(gridAtmosphere.ExcitedGroups);
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var number = 0;
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while (gridAtmosphere.CurrentRunExcitedGroups.TryDequeue(out var excitedGroup))
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{
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excitedGroup.BreakdownCooldown++;
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excitedGroup.DismantleCooldown++;
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if(excitedGroup.BreakdownCooldown > Atmospherics.ExcitedGroupBreakdownCycles)
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ExcitedGroupSelfBreakdown(gridAtmosphere, excitedGroup);
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else if(excitedGroup.DismantleCooldown > Atmospherics.ExcitedGroupsDismantleCycles)
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ExcitedGroupDismantle(gridAtmosphere, excitedGroup);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessHighPressureDelta(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunTiles = new Queue<TileAtmosphere>(atmosphere.HighPressureDelta);
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// Note: This is still processed even if space wind is turned off since this handles playing the sounds.
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var number = 0;
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var bodies = EntityManager.GetEntityQuery<PhysicsComponent>();
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var xforms = EntityManager.GetEntityQuery<TransformComponent>();
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var metas = EntityManager.GetEntityQuery<MetaDataComponent>();
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var pressureQuery = EntityManager.GetEntityQuery<MovedByPressureComponent>();
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while (atmosphere.CurrentRunTiles.TryDequeue(out var tile))
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{
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HighPressureMovements(atmosphere, tile, bodies, xforms, pressureQuery, metas);
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tile.PressureDifference = 0f;
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tile.LastPressureDirection = tile.PressureDirection;
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tile.PressureDirection = AtmosDirection.Invalid;
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tile.PressureSpecificTarget = null;
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atmosphere.HighPressureDelta.Remove(tile);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessHotspots(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunTiles = new Queue<TileAtmosphere>(atmosphere.HotspotTiles);
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var number = 0;
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while (atmosphere.CurrentRunTiles.TryDequeue(out var hotspot))
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{
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ProcessHotspot(atmosphere, hotspot);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessSuperconductivity(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunTiles = new Queue<TileAtmosphere>(atmosphere.SuperconductivityTiles);
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var number = 0;
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while (atmosphere.CurrentRunTiles.TryDequeue(out var superconductivity))
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{
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Superconduct(atmosphere, superconductivity);
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessPipeNets(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunPipeNet = new Queue<IPipeNet>(atmosphere.PipeNets);
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var number = 0;
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while (atmosphere.CurrentRunPipeNet.TryDequeue(out var pipenet))
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{
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pipenet.Update();
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private bool ProcessAtmosDevices(GridAtmosphereComponent atmosphere)
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{
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if(!atmosphere.ProcessingPaused)
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atmosphere.CurrentRunAtmosDevices = new Queue<AtmosDeviceComponent>(atmosphere.AtmosDevices);
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var time = _gameTiming.CurTime;
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var number = 0;
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while (atmosphere.CurrentRunAtmosDevices.TryDequeue(out var device))
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{
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RaiseLocalEvent(device.Owner, _updateEvent, false);
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device.LastProcess = time;
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if (number++ < LagCheckIterations) continue;
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number = 0;
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// Process the rest next time.
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if (_simulationStopwatch.Elapsed.TotalMilliseconds >= AtmosMaxProcessTime)
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{
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return false;
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}
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}
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return true;
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}
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private void UpdateProcessing(float frameTime)
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{
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_simulationStopwatch.Restart();
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if (!_simulationPaused)
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{
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_currentRunAtmosphereIndex = 0;
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_currentRunAtmosphere.Clear();
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_currentRunAtmosphere.AddRange(EntityManager.EntityQuery<GridAtmosphereComponent>());
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}
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// We set this to true just in case we have to stop processing due to time constraints.
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_simulationPaused = true;
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for (; _currentRunAtmosphereIndex < _currentRunAtmosphere.Count; _currentRunAtmosphereIndex++)
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{
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var atmosphere = _currentRunAtmosphere[_currentRunAtmosphereIndex];
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if (atmosphere.LifeStage >= ComponentLifeStage.Stopping || Paused(atmosphere.Owner) || !atmosphere.Simulated)
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continue;
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atmosphere.Timer += frameTime;
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if (atmosphere.Timer < AtmosTime)
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continue;
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// We subtract it so it takes lost time into account.
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atmosphere.Timer -= AtmosTime;
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switch (atmosphere.State)
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{
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case AtmosphereProcessingState.Revalidate:
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if (!ProcessRevalidate(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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// Next state depends on whether monstermos equalization is enabled or not.
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// Note: We do this here instead of on the tile equalization step to prevent ending it early.
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// Therefore, a change to this CVar might only be applied after that step is over.
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atmosphere.State = MonstermosEqualization
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? AtmosphereProcessingState.TileEqualize
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: AtmosphereProcessingState.ActiveTiles;
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continue;
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case AtmosphereProcessingState.TileEqualize:
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if (!ProcessTileEqualize(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.ActiveTiles;
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continue;
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case AtmosphereProcessingState.ActiveTiles:
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if (!ProcessActiveTiles(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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// Next state depends on whether excited groups are enabled or not.
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atmosphere.State = ExcitedGroups ? AtmosphereProcessingState.ExcitedGroups : AtmosphereProcessingState.HighPressureDelta;
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continue;
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case AtmosphereProcessingState.ExcitedGroups:
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if (!ProcessExcitedGroups(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.HighPressureDelta;
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continue;
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case AtmosphereProcessingState.HighPressureDelta:
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if (!ProcessHighPressureDelta(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.Hotspots;
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continue;
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case AtmosphereProcessingState.Hotspots:
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if (!ProcessHotspots(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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// Next state depends on whether superconduction is enabled or not.
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// Note: We do this here instead of on the tile equalization step to prevent ending it early.
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// Therefore, a change to this CVar might only be applied after that step is over.
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atmosphere.State = Superconduction
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? AtmosphereProcessingState.Superconductivity
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: AtmosphereProcessingState.PipeNet;
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continue;
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case AtmosphereProcessingState.Superconductivity:
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if (!ProcessSuperconductivity(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.PipeNet;
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continue;
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case AtmosphereProcessingState.PipeNet:
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if (!ProcessPipeNets(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.AtmosDevices;
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continue;
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case AtmosphereProcessingState.AtmosDevices:
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if (!ProcessAtmosDevices(atmosphere))
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{
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atmosphere.ProcessingPaused = true;
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return;
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}
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atmosphere.ProcessingPaused = false;
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atmosphere.State = AtmosphereProcessingState.Revalidate;
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// We reached the end of this atmosphere's update tick. Break out of the switch.
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break;
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}
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// And increase the update counter.
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atmosphere.UpdateCounter++;
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}
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// We finished processing all atmospheres successfully, therefore we won't be paused next tick.
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_simulationPaused = false;
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}
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}
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public enum AtmosphereProcessingState : byte
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{
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Revalidate,
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TileEqualize,
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ActiveTiles,
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ExcitedGroups,
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HighPressureDelta,
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Hotspots,
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Superconductivity,
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PipeNet,
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AtmosDevices,
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}
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}
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