public PawnPath FindPath(IntVec3 start, LocalTargetInfo dest, TraverseParms traverseParms, PathEndMode peMode = PathEndMode.OnCell)
{
if (DebugSettings.pathThroughWalls)
{
traverseParms.mode = TraverseMode.PassAllDestroyableThings;
}
Pawn pawn = traverseParms.pawn;
if (pawn != null && pawn.Map != map)
{
Log.Warning(String.Format("Map object was rebuilt, but new pather was not assigned to new map (new {0}) (old {1})", pawn.Map.uniqueID, map.uniqueID));
Log.Error("Tried to FindPath for pawn which is spawned in another map. His map PathFinder should have been used, not this one. pawn=" + pawn + " pawn.Map=" + pawn.Map + " map=" + map);
return(PawnPath.NotFound);
}
if (!start.IsValid)
{
Log.Error("Tried to FindPath with invalid start " + start + ", pawn= " + pawn);
return(PawnPath.NotFound);
}
if (!dest.IsValid)
{
Log.Error("Tried to FindPath with invalid dest " + dest + ", pawn= " + pawn);
return(PawnPath.NotFound);
}
if (traverseParms.mode == TraverseMode.ByPawn)
{
if (!pawn.CanReach(dest, peMode, Danger.Deadly, traverseParms.canBash, traverseParms.mode))
{
return(PawnPath.NotFound);
}
}
else if (!map.reachability.CanReach(start, dest, peMode, traverseParms))
{
return(PawnPath.NotFound);
}
PfProfilerBeginSample("FindPath for " + pawn + " from " + start + " to " + dest + (dest.HasThing ? (" at " + dest.Cell) : ""));
cellIndices = map.cellIndices;
pathGrid = map.pathGrid;
this.edificeGrid = map.edificeGrid.InnerArray;
blueprintGrid = map.blueprintGrid.InnerArray;
int x = dest.Cell.x;
int z = dest.Cell.z;
int curIndex = cellIndices.CellToIndex(start);
int num = cellIndices.CellToIndex(dest.Cell);
ByteGrid byteGrid = pawn?.GetAvoidGrid();
bool flag = traverseParms.mode == TraverseMode.PassAllDestroyableThings || traverseParms.mode == TraverseMode.PassAllDestroyableThingsNotWater;
bool flag2 = traverseParms.mode != TraverseMode.NoPassClosedDoorsOrWater && traverseParms.mode != TraverseMode.PassAllDestroyableThingsNotWater;
bool flag3 = !flag;
CellRect cellRect = CalculateDestinationRect(dest, peMode);
bool flag4 = cellRect.Width == 1 && cellRect.Height == 1;
int[] array = map.pathGrid.pathGrid;
TerrainDef[] topGrid = map.terrainGrid.topGrid;
EdificeGrid edificeGrid = map.edificeGrid;
int num2 = 0;
int num3 = 0;
Area allowedArea = GetAllowedArea(pawn);
bool flag5 = pawn != null && PawnUtility.ShouldCollideWithPawns(pawn);
bool flag6 = (!flag && start.GetRegion(map) != null) & flag2;
bool flag7 = !flag || !flag3;
bool flag8 = false;
bool flag9 = pawn?.Drafted ?? false;
int num4 = (pawn?.IsColonist ?? false) ? 100000 : 2000;
int num5 = 0;
int num6 = 0;
float num7 = DetermineHeuristicStrength(pawn, start, dest);
// BEGIN CHANGED SECTION
// In case pawn is null
int num8 = 13;
int num9 = 18;
Dictionary <TerrainDef, int> pawnTerrainCacheCardinal = new Dictionary <TerrainDef, int>();
Dictionary <TerrainDef, int> pawnTerrainCacheDiagonal = new Dictionary <TerrainDef, int>();
Dictionary <TerrainDef, bool> pawnSpecialMovementCache = new Dictionary <TerrainDef, bool>();
Dictionary <TerrainDef, bool> pawnImpassibleMovementCache = new Dictionary <TerrainDef, bool>();
Dictionary <TerrainDef, int> pawnTerrainMovementCache = new Dictionary <TerrainDef, int>();
// END CHANGED SECTION
CalculateAndAddDisallowedCorners(traverseParms, peMode, cellRect);
InitStatusesAndPushStartNode(ref curIndex, start);
while (true)
{
PfProfilerBeginSample("Open cell");
if (openList.Count <= 0)
{
string text = (pawn != null && pawn.CurJob != null) ? pawn.CurJob.ToString() : "null";
string text2 = (pawn != null && pawn.Faction != null) ? pawn.Faction.ToString() : "null";
Log.Warning(pawn + " pathing from " + start + " to " + dest + " ran out of cells to process.\nJob:" + text + "\nFaction: " + text2);
DebugDrawRichData();
PfProfilerEndSample();
PfProfilerEndSample();
return(PawnPath.NotFound);
}
num5 += openList.Count;
num6++;
CostNode costNode = openList.Pop();
curIndex = costNode.index;
if (costNode.cost != calcGrid[curIndex].costNodeCost)
{
PfProfilerEndSample();
continue;
}
if (calcGrid[curIndex].status == statusClosedValue)
{
PfProfilerEndSample();
continue;
}
IntVec3 c = cellIndices.IndexToCell(curIndex);
int x2 = c.x;
int z2 = c.z;
if (flag4)
{
if (curIndex == num)
{
PfProfilerEndSample();
PawnPath result = FinalizedPath(curIndex, flag8);
PfProfilerEndSample();
return(result);
}
}
else if (cellRect.Contains(c) && !disallowedCornerIndices.Contains(curIndex))
{
PfProfilerEndSample();
PawnPath result2 = FinalizedPath(curIndex, flag8);
PfProfilerEndSample();
return(result2);
}
if (num2 > 160000)
{
break;
}
PfProfilerEndSample();
PfProfilerBeginSample("Neighbor consideration");
for (int i = 0; i < 8; i++)
{
uint num10 = (uint)(x2 + Directions[i]);
uint num11 = (uint)(z2 + Directions[i + 8]);
if (num10 >= mapSizeX || num11 >= mapSizeZ)
{
continue;
}
int num12 = (int)num10;
int num13 = (int)num11;
int num14 = cellIndices.CellToIndex(num12, num13);
if (calcGrid[num14].status == statusClosedValue && !flag8)
{
continue;
}
// BEGIN CHANGED SECTION
IntVec3 targetCell = new IntVec3(num12, 0, num13);
TerrainDef targetTerrain = topGrid[num14];
if (pawn != null)
{
// Use cache of terrain movement indicators to avoid a lot of repeated computation
if (!pawnImpassibleMovementCache.TryGetValue(targetTerrain, out bool impassible))
{
impassible = pawn.kindDef.UnreachableTerrainCheck(targetTerrain);
pawnImpassibleMovementCache[targetTerrain] = impassible;
}
if (impassible)
{
// Skip this cell for pathing calculations
calcGrid[num14].status = statusClosedValue;
continue;
}
// Overwrite directional move costs
if (!pawnTerrainCacheCardinal.TryGetValue(targetTerrain, out num8))
{
num8 = pawn.TerrainAwareTicksPerMoveCardinal(targetTerrain);
pawnTerrainCacheCardinal[targetTerrain] = num8;
}
if (!pawnTerrainCacheDiagonal.TryGetValue(targetTerrain, out num9))
{
num9 = pawn.TerrainAwareTicksPerMoveDiagonal(targetTerrain);
pawnTerrainCacheDiagonal[targetTerrain] = num9;
}
}
// END CHANGED SECTION
int num15 = 0;
bool flag10 = false;
//if (!flag2 && new IntVec3(num12, 0, num13).GetTerrain(map).HasTag("Water"))
if (!flag2 && targetTerrain.HasTag("Water"))
{
continue;
}
if (!pathGrid.WalkableFast(num14))
{
if (!flag)
{
continue;
}
flag10 = true;
num15 += 70;
Building building = edificeGrid[num14];
if (building == null || !IsDestroyable(building))
{
continue;
}
num15 += (int)((float)building.HitPoints * 0.2f);
}
switch (i)
{
case 4:
if (BlocksDiagonalMovement(curIndex - mapSizeX))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (BlocksDiagonalMovement(curIndex + 1))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 5:
if (BlocksDiagonalMovement(curIndex + mapSizeX))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (BlocksDiagonalMovement(curIndex + 1))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 6:
if (BlocksDiagonalMovement(curIndex + mapSizeX))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (BlocksDiagonalMovement(curIndex - 1))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 7:
if (BlocksDiagonalMovement(curIndex - mapSizeX))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (BlocksDiagonalMovement(curIndex - 1))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
}
int num16 = (i > 3) ? num9 : num8;
num16 += num15;
if (!flag10)
{
// BEGIN CHANGED SECTION
//num16 += array[num14];
//num16 = ((!flag9) ? (num16 + topGrid[num14].extraNonDraftedPerceivedPathCost) : (num16 + topGrid[num14].extraDraftedPerceivedPathCost));
if (pawn == null)
{
num16 += array[num14];
if (flag9)
{
num16 += targetTerrain.extraDraftedPerceivedPathCost;
}
else
{
num16 += targetTerrain.extraNonDraftedPerceivedPathCost;
}
}
else
{
// Use cache of terrain perceived cost instead of fixed pathCost grid to avoid a lot of repeated computation while maintaining accuracy
if (!pawnTerrainMovementCache.TryGetValue(targetTerrain, out int terrainMoveCost))
{
terrainMoveCost = pawn.TerrainMoveCost(targetTerrain);
pawnTerrainMovementCache[targetTerrain] = terrainMoveCost;
}
// This was really really expensive, so we opted to mod this pre-calced value
//num16 += pathGrid.TerrainCalculatedCostAt(map, pawn, targetCell, true, IntVec3.Invalid, terrainMoveCost);
num16 += pathGrid.ApplyTerrainModToCalculatedCost(targetTerrain, array[num14], terrainMoveCost);
// Use cache of terrain movement indicators to avoid a lot of repeated computation
if (!pawnSpecialMovementCache.TryGetValue(targetTerrain, out bool specialMovement))
{
specialMovement = pawn.TerrainMoveStat(targetTerrain) != StatDefOf.MoveSpeed;
pawnSpecialMovementCache[targetTerrain] = specialMovement;
}
// Skip applying the PerceivedPathCost hack if we've got a specialized speed stat for this terrain
if (!specialMovement)
{
if (flag9)
{
num16 += targetTerrain.extraDraftedPerceivedPathCost;
}
else
{
num16 += targetTerrain.extraNonDraftedPerceivedPathCost;
}
}
}
// END CHANGED SECTION
}
if (byteGrid != null)
{
num16 += byteGrid[num14] * 8;
}
if (allowedArea != null && !allowedArea[num14])
{
num16 += 600;
}
//new IntVec3(num12, 0, num13) -> targetCell
if (flag5 && PawnUtility.AnyPawnBlockingPathAt(targetCell, pawn, actAsIfHadCollideWithPawnsJob: false, collideOnlyWithStandingPawns: false, forPathFinder: true))
{
num16 += 175;
}
Building building2 = this.edificeGrid[num14];
if (building2 != null)
{
PfProfilerBeginSample("Edifices");
int buildingCost = GetBuildingCost(building2, traverseParms, pawn);
if (buildingCost == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += buildingCost;
PfProfilerEndSample();
}
List <Blueprint> list = blueprintGrid[num14];
if (list != null)
{
PfProfilerBeginSample("Blueprints");
int num17 = 0;
for (int j = 0; j < list.Count; j++)
{
num17 = Mathf.Max(num17, GetBlueprintCost(list[j], pawn));
}
if (num17 == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += num17;
PfProfilerEndSample();
}
int num18 = num16 + calcGrid[curIndex].knownCost;
ushort status = calcGrid[num14].status;
if (status == statusClosedValue || status == statusOpenValue)
{
int num19 = 0;
if (status == statusClosedValue)
{
num19 = num8;
}
if (calcGrid[num14].knownCost <= num18 + num19)
{
continue;
}
}
if (flag8)
{
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)regionCostCalculator.GetPathCostFromDestToRegion(num14) * RegionHeuristicWeightByNodesOpened.Evaluate(num3));
if (calcGrid[num14].heuristicCost < 0)
{
Log.ErrorOnce("Heuristic cost overflow for " + pawn.ToStringSafe() + " pathing from " + start + " to " + dest + ".", pawn.GetHashCode() ^ 0xB8DC389);
calcGrid[num14].heuristicCost = 0;
}
}
else if (status != statusClosedValue && status != statusOpenValue)
{
int dx = Math.Abs(num12 - x);
int dz = Math.Abs(num13 - z);
int num20 = GenMath.OctileDistance(dx, dz, num8, num9);
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)num20 * num7);
}
int num21 = num18 + calcGrid[num14].heuristicCost;
if (num21 < 0)
{
Log.ErrorOnce("Node cost overflow for " + pawn.ToStringSafe() + " pathing from " + start + " to " + dest + ".", pawn.GetHashCode() ^ 0x53CB9DE);
num21 = 0;
}
calcGrid[num14].parentIndex = curIndex;
calcGrid[num14].knownCost = num18;
calcGrid[num14].status = statusOpenValue;
calcGrid[num14].costNodeCost = num21;
num3++;
openList.Push(new CostNode(num14, num21));
}
PfProfilerEndSample();
num2++;
calcGrid[curIndex].status = statusClosedValue;
if (num3 >= num4 && flag6 && !flag8)
{
flag8 = true;
regionCostCalculator.Init(cellRect, traverseParms, num8, num9, byteGrid, allowedArea, flag9, disallowedCornerIndices);
InitStatusesAndPushStartNode(ref curIndex, start);
num3 = 0;
num2 = 0;
}
}
Log.Warning(pawn + " pathing from " + start + " to " + dest + " hit search limit of " + 160000 + " cells.");
DebugDrawRichData();
PfProfilerEndSample();
PfProfilerEndSample();
return(PawnPath.NotFound);
}
//public static FastPriorityQueue<CostNode2> openList = new FastPriorityQueue<CostNode2>(new CostNodeComparer2());
//public static PathFinderNodeFast[] calcGrid = new PathFinderNodeFast[40000];
//public static ushort statusOpenValue = 1;
//public static ushort statusClosedValue = 2;
public static bool FindPath(PathFinder __instance, ref PawnPath __result, IntVec3 start, LocalTargetInfo dest, TraverseParms traverseParms, PathEndMode peMode = PathEndMode.OnCell)
{
FastPriorityQueue <CostNode2> openList = getOpenList();
ushort statusOpenValue = getOpenValue();
ushort statusClosedValue = getClosedValue();
PathFinderNodeFast[] calcGrid = getCalcGrid(__instance);
RegionCostCalculatorWrapper regionCostCalculator = getRegionCostCalculatorWrapper(__instance);
if (DebugSettings.pathThroughWalls)
{
traverseParms.mode = TraverseMode.PassAllDestroyableThings;
}
Pawn pawn = traverseParms.pawn;
if (pawn != null && pawn.Map != mapField(__instance))
{
Log.Error(string.Concat("Tried to FindPath for pawn which is spawned in another map. His map PathFinder should have been used, not this one. pawn=", pawn, " pawn.Map=", pawn.Map, " map=", mapField(__instance)));
__result = PawnPath.NotFound;
return(false);
}
if (!start.IsValid)
{
Log.Error(string.Concat("Tried to FindPath with invalid start ", start, ", pawn= ", pawn));
__result = PawnPath.NotFound;
return(false);
}
if (!dest.IsValid)
{
Log.Error(string.Concat("Tried to FindPath with invalid dest ", dest, ", pawn= ", pawn));
__result = PawnPath.NotFound;
return(false);
}
if (traverseParms.mode == TraverseMode.ByPawn)
{
if (!pawn.CanReach(dest, peMode, Danger.Deadly, traverseParms.canBash, traverseParms.mode))
{
__result = PawnPath.NotFound;
return(false);
}
}
else if (!mapField(__instance).reachability.CanReach(start, dest, peMode, traverseParms))
{
__result = PawnPath.NotFound;
return(false);
}
PfProfilerBeginSample(string.Concat("FindPath for ", pawn, " from ", start, " to ", dest, dest.HasThing ? (" at " + dest.Cell) : ""));
cellIndicesField(__instance) = mapField(__instance).cellIndices;
pathGridField(__instance) = mapField(__instance).pathGrid;
edificeGridField(__instance) = mapField(__instance).edificeGrid.InnerArray;
blueprintGridField(__instance) = mapField(__instance).blueprintGrid.InnerArray;
int x = dest.Cell.x;
int z = dest.Cell.z;
int curIndex = cellIndicesField(__instance).CellToIndex(start);
int num = cellIndicesField(__instance).CellToIndex(dest.Cell);
ByteGrid byteGrid = pawn?.GetAvoidGrid();
bool flag = traverseParms.mode == TraverseMode.PassAllDestroyableThings || traverseParms.mode == TraverseMode.PassAllDestroyableThingsNotWater;
bool flag2 = traverseParms.mode != TraverseMode.NoPassClosedDoorsOrWater && traverseParms.mode != TraverseMode.PassAllDestroyableThingsNotWater;
bool flag3 = !flag;
CellRect destinationRect = CalculateDestinationRect(dest, peMode);
bool flag4 = destinationRect.Width == 1 && destinationRect.Height == 1;
int[] array = mapField(__instance).pathGrid.pathGrid;
TerrainDef[] topGrid = mapField(__instance).terrainGrid.topGrid;
EdificeGrid edificeGrid = mapField(__instance).edificeGrid;
int num2 = 0;
int num3 = 0;
Area allowedArea = GetAllowedArea(pawn);
bool flag5 = pawn != null && PawnUtility.ShouldCollideWithPawns(pawn);
bool flag6 = !flag && start.GetRegion(mapField(__instance)) != null && flag2;
bool flag7 = !flag || !flag3;
bool flag8 = false;
bool flag9 = pawn?.Drafted ?? false;
int num4 = (pawn?.IsColonist ?? false) ? 100000 : 2000;
int num5 = 0;
int num6 = 0;
float num7 = DetermineHeuristicStrength(pawn, start, dest);
int num8;
int num9;
if (pawn != null)
{
num8 = pawn.TicksPerMoveCardinal;
num9 = pawn.TicksPerMoveDiagonal;
}
else
{
num8 = 13;
num9 = 18;
}
CalculateAndAddDisallowedCorners2(disallowedCornerIndicesField(__instance), mapField(__instance), peMode, destinationRect);
InitStatusesAndPushStartNode3(ref curIndex, start, cellIndicesField(__instance), calcGrid, ref statusOpenValue, ref statusClosedValue);
openList.Clear();
openList.Push(new CostNode2(curIndex, 0));
while (true)
{
PfProfilerBeginSample("Open cell");
if (openList.Count <= 0)
{
string text = (pawn != null && pawn.CurJob != null) ? pawn.CurJob.ToString() : "null";
string text2 = (pawn != null && pawn.Faction != null) ? pawn.Faction.ToString() : "null";
Log.Warning(string.Concat(pawn, " pathing from ", start, " to ", dest, " ran out of cells to process.\nJob:", text, "\nFaction: ", text2));
DebugDrawRichData();
PfProfilerEndSample();
PfProfilerEndSample();
__result = PawnPath.NotFound;
return(false);
}
num5 += openList.Count;
num6++;
CostNode2 costNode = openList.Pop();
curIndex = costNode.index;
if (costNode.cost != calcGrid[curIndex].costNodeCost)
{
PfProfilerEndSample();
continue;
}
if (calcGrid[curIndex].status == statusClosedValue)
{
PfProfilerEndSample();
continue;
}
IntVec3 c = cellIndicesField(__instance).IndexToCell(curIndex);
int x2 = c.x;
int z2 = c.z;
if (flag4)
{
if (curIndex == num)
{
PfProfilerEndSample();
PawnPath result = FinalizedPath2(curIndex, flag8, cellIndicesField(__instance), calcGrid);
PfProfilerEndSample();
__result = result;
return(false);
}
}
else if (destinationRect.Contains(c) && !disallowedCornerIndicesField(__instance).Contains(curIndex))
{
PfProfilerEndSample();
PawnPath result2 = FinalizedPath2(curIndex, flag8, cellIndicesField(__instance), calcGrid);
PfProfilerEndSample();
__result = result2;
return(false);
}
if (num2 > 160000)
{
break;
}
PfProfilerEndSample();
PfProfilerBeginSample("Neighbor consideration");
for (int i = 0; i < 8; i++)
{
uint num10 = (uint)(x2 + Directions[i]);
uint num11 = (uint)(z2 + Directions[i + 8]);
if (num10 >= mapSizeXField(__instance) || num11 >= mapSizeZField(__instance))
{
continue;
}
int num12 = (int)num10;
int num13 = (int)num11;
int num14 = cellIndicesField(__instance).CellToIndex(num12, num13);
if (calcGrid[num14].status == statusClosedValue && !flag8)
{
continue;
}
int num15 = 0;
bool flag10 = false;
if (!flag2 && new IntVec3(num12, 0, num13).GetTerrain(mapField(__instance)).HasTag("Water"))
{
continue;
}
if (!pathGridField(__instance).WalkableFast(num14))
{
if (!flag)
{
continue;
}
flag10 = true;
num15 += 70;
Building building = edificeGrid[num14];
if (building == null || !PathFinder.IsDestroyable(building))
{
continue;
}
num15 += (int)(building.HitPoints * 0.2f);
}
switch (i)
{
case 4:
if (PathFinder.BlocksDiagonalMovement(curIndex - mapSizeXField(__instance), mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (PathFinder.BlocksDiagonalMovement(curIndex + 1, mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 5:
if (PathFinder.BlocksDiagonalMovement(curIndex + mapSizeXField(__instance), mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (PathFinder.BlocksDiagonalMovement(curIndex + 1, mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 6:
if (PathFinder.BlocksDiagonalMovement(curIndex + mapSizeXField(__instance), mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (PathFinder.BlocksDiagonalMovement(curIndex - 1, mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
case 7:
if (PathFinder.BlocksDiagonalMovement(curIndex - mapSizeXField(__instance), mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
if (PathFinder.BlocksDiagonalMovement(curIndex - 1, mapField(__instance)))
{
if (flag7)
{
continue;
}
num15 += 70;
}
break;
}
int num16 = (i > 3) ? num9 : num8;
num16 += num15;
if (!flag10)
{
num16 += array[num14];
num16 = ((!flag9) ? (num16 + topGrid[num14].extraNonDraftedPerceivedPathCost) : (num16 + topGrid[num14].extraDraftedPerceivedPathCost));
}
if (byteGrid != null)
{
num16 += byteGrid[num14] * 8;
}
if (allowedArea != null && !allowedArea[num14])
{
num16 += 600;
}
if (flag5 && PawnUtility.AnyPawnBlockingPathAt(new IntVec3(num12, 0, num13), pawn, actAsIfHadCollideWithPawnsJob: false, collideOnlyWithStandingPawns: false, forPathFinder: true))
{
num16 += 175;
}
Building building2 = edificeGridField(__instance)[num14];
if (building2 != null)
{
PfProfilerBeginSample("Edifices");
int buildingCost = PathFinder.GetBuildingCost(building2, traverseParms, pawn);
if (buildingCost == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += buildingCost;
PfProfilerEndSample();
}
List <Blueprint> list = blueprintGridField(__instance)[num14];
if (list != null)
{
PfProfilerBeginSample("Blueprints");
int num17 = 0;
for (int j = 0; j < list.Count; j++)
{
num17 = Mathf.Max(num17, PathFinder.GetBlueprintCost(list[j], pawn));
}
if (num17 == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += num17;
PfProfilerEndSample();
}
int num18 = num16 + calcGrid[curIndex].knownCost;
ushort status = calcGrid[num14].status;
if (status == statusClosedValue || status == statusOpenValue)
{
int num19 = 0;
if (status == statusClosedValue)
{
num19 = num8;
}
if (calcGrid[num14].knownCost <= num18 + num19)
{
continue;
}
}
if (flag8)
{
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)regionCostCalculator.GetPathCostFromDestToRegion(num14) * RegionHeuristicWeightByNodesOpened.Evaluate(num3));
if (calcGrid[num14].heuristicCost < 0)
{
Log.ErrorOnce(string.Concat("Heuristic cost overflow for ", pawn.ToStringSafe(), " pathing from ", start, " to ", dest, "."), pawn.GetHashCode() ^ 0xB8DC389);
calcGrid[num14].heuristicCost = 0;
}
}
else if (status != statusClosedValue && status != statusOpenValue)
{
int dx = Math.Abs(num12 - x);
int dz = Math.Abs(num13 - z);
int num20 = GenMath.OctileDistance(dx, dz, num8, num9);
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)num20 * num7);
}
int num21 = num18 + calcGrid[num14].heuristicCost;
if (num21 < 0)
{
Log.ErrorOnce(string.Concat("Node cost overflow for ", pawn.ToStringSafe(), " pathing from ", start, " to ", dest, "."), pawn.GetHashCode() ^ 0x53CB9DE);
num21 = 0;
}
calcGrid[num14].parentIndex = curIndex;
calcGrid[num14].knownCost = num18;
calcGrid[num14].status = statusOpenValue;
calcGrid[num14].costNodeCost = num21;
num3++;
openList.Push(new CostNode2(num14, num21));
}
PfProfilerEndSample();
num2++;
calcGrid[curIndex].status = statusClosedValue;
if (num3 >= num4 && flag6 && !flag8)
{
flag8 = true;
regionCostCalculator.Init(destinationRect, traverseParms, num8, num9, byteGrid, allowedArea, flag9, disallowedCornerIndicesField(__instance));
InitStatusesAndPushStartNode3(ref curIndex, start, cellIndicesField(__instance), calcGrid, ref statusOpenValue, ref statusClosedValue);
openList.Clear();
openList.Push(new CostNode2(curIndex, 0));
num3 = 0;
num2 = 0;
}
}
Log.Warning(string.Concat(pawn, " pathing from ", start, " to ", dest, " hit search limit of ", 160000, " cells."));
DebugDrawRichData();
PfProfilerEndSample();
PfProfilerEndSample();
__result = PawnPath.NotFound;
return(false);
}
public PawnPath FindPath(IntVec3 start, LocalTargetInfo dest, TraverseParms traverseParms, PathEndMode peMode = PathEndMode.OnCell)
{
if (DebugSettings.pathThroughWalls)
{
traverseParms.mode = TraverseMode.PassAllDestroyableThings;
}
Pawn pawn = traverseParms.pawn;
if (pawn != null && pawn.Map != map)
{
Log.Error("Tried to FindPath for pawn which is spawned in another map. His map PathFinder should have been used, not this one. pawn=" + pawn + " pawn.Map=" + pawn.Map + " map=" + map);
return(PawnPath.NotFound);
}
if (!start.IsValid)
{
Log.Error("Tried to FindPath with invalid start " + start + ", pawn= " + pawn);
return(PawnPath.NotFound);
}
if (!dest.IsValid)
{
Log.Error("Tried to FindPath with invalid dest " + dest + ", pawn= " + pawn);
return(PawnPath.NotFound);
}
if (traverseParms.mode == TraverseMode.ByPawn)
{
if (!pawn.CanReach(dest, peMode, Danger.Deadly, traverseParms.canBash, traverseParms.mode))
{
return(PawnPath.NotFound);
}
}
else if (!map.reachability.CanReach(start, dest, peMode, traverseParms))
{
return(PawnPath.NotFound);
}
PfProfilerBeginSample("FindPath for " + pawn + " from " + start + " to " + dest + ((!dest.HasThing) ? string.Empty : (" at " + dest.Cell)));
cellIndices = map.cellIndices;
pathGrid = map.pathGrid;
this.edificeGrid = map.edificeGrid.InnerArray;
blueprintGrid = map.blueprintGrid.InnerArray;
IntVec3 cell = dest.Cell;
int x = cell.x;
IntVec3 cell2 = dest.Cell;
int z = cell2.z;
int curIndex = cellIndices.CellToIndex(start);
int num = cellIndices.CellToIndex(dest.Cell);
ByteGrid byteGrid = pawn?.GetAvoidGrid();
bool flag = traverseParms.mode == TraverseMode.PassAllDestroyableThings || traverseParms.mode == TraverseMode.PassAllDestroyableThingsNotWater;
bool flag2 = traverseParms.mode != TraverseMode.NoPassClosedDoorsOrWater && traverseParms.mode != TraverseMode.PassAllDestroyableThingsNotWater;
bool flag3 = !flag;
CellRect cellRect = CalculateDestinationRect(dest, peMode);
bool flag4 = cellRect.Width == 1 && cellRect.Height == 1;
int[] array = map.pathGrid.pathGrid;
TerrainDef[] topGrid = map.terrainGrid.topGrid;
EdificeGrid edificeGrid = map.edificeGrid;
int num2 = 0;
int num3 = 0;
Area allowedArea = GetAllowedArea(pawn);
bool flag5 = pawn != null && PawnUtility.ShouldCollideWithPawns(pawn);
bool flag6 = true && DebugViewSettings.drawPaths;
bool flag7 = !flag && start.GetRegion(map) != null && flag2;
bool flag8 = !flag || !flag3;
bool flag9 = false;
bool flag10 = pawn?.Drafted ?? false;
int num4 = (!(pawn?.IsColonist ?? false)) ? 2000 : 100000;
int num5 = 0;
int num6 = 0;
float num7 = DetermineHeuristicStrength(pawn, start, dest);
int num8;
int num9;
if (pawn != null)
{
num8 = pawn.TicksPerMoveCardinal;
num9 = pawn.TicksPerMoveDiagonal;
}
else
{
num8 = 13;
num9 = 18;
}
CalculateAndAddDisallowedCorners(traverseParms, peMode, cellRect);
InitStatusesAndPushStartNode(ref curIndex, start);
while (true)
{
PfProfilerBeginSample("Open cell");
if (openList.Count <= 0)
{
string text = (pawn == null || pawn.CurJob == null) ? "null" : pawn.CurJob.ToString();
string text2 = (pawn == null || pawn.Faction == null) ? "null" : pawn.Faction.ToString();
Log.Warning(pawn + " pathing from " + start + " to " + dest + " ran out of cells to process.\nJob:" + text + "\nFaction: " + text2);
DebugDrawRichData();
PfProfilerEndSample();
return(PawnPath.NotFound);
}
num5 += openList.Count;
num6++;
CostNode costNode = openList.Pop();
curIndex = costNode.index;
if (costNode.cost != calcGrid[curIndex].costNodeCost)
{
PfProfilerEndSample();
continue;
}
if (calcGrid[curIndex].status == statusClosedValue)
{
PfProfilerEndSample();
continue;
}
IntVec3 c = cellIndices.IndexToCell(curIndex);
int x2 = c.x;
int z2 = c.z;
if (flag6)
{
DebugFlash(c, (float)calcGrid[curIndex].knownCost / 1500f, calcGrid[curIndex].knownCost.ToString());
}
if (flag4)
{
if (curIndex == num)
{
PfProfilerEndSample();
PawnPath result = FinalizedPath(curIndex, flag9);
PfProfilerEndSample();
return(result);
}
}
else if (cellRect.Contains(c) && !disallowedCornerIndices.Contains(curIndex))
{
PfProfilerEndSample();
PawnPath result2 = FinalizedPath(curIndex, flag9);
PfProfilerEndSample();
return(result2);
}
if (num2 > 160000)
{
break;
}
PfProfilerEndSample();
PfProfilerBeginSample("Neighbor consideration");
for (int i = 0; i < 8; i++)
{
uint num10 = (uint)(x2 + Directions[i]);
uint num11 = (uint)(z2 + Directions[i + 8]);
if (num10 >= mapSizeX || num11 >= mapSizeZ)
{
continue;
}
int num12 = (int)num10;
int num13 = (int)num11;
int num14 = cellIndices.CellToIndex(num12, num13);
if (calcGrid[num14].status == statusClosedValue && !flag9)
{
continue;
}
int num15 = 0;
bool flag11 = false;
if (!flag2 && new IntVec3(num12, 0, num13).GetTerrain(map).HasTag("Water"))
{
continue;
}
if (!pathGrid.WalkableFast(num14))
{
if (!flag)
{
if (flag6)
{
DebugFlash(new IntVec3(num12, 0, num13), 0.22f, "walk");
}
continue;
}
flag11 = true;
num15 += 70;
Building building = edificeGrid[num14];
if (building == null || !IsDestroyable(building))
{
continue;
}
num15 += (int)((float)building.HitPoints * 0.2f);
}
switch (i)
{
case 4:
if (BlocksDiagonalMovement(curIndex - mapSizeX))
{
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2, 0, z2 - 1), 0.9f, "corn");
}
continue;
}
num15 += 70;
}
if (!BlocksDiagonalMovement(curIndex + 1))
{
break;
}
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2 + 1, 0, z2), 0.9f, "corn");
}
continue;
}
num15 += 70;
break;
case 5:
if (BlocksDiagonalMovement(curIndex + mapSizeX))
{
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2, 0, z2 + 1), 0.9f, "corn");
}
continue;
}
num15 += 70;
}
if (!BlocksDiagonalMovement(curIndex + 1))
{
break;
}
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2 + 1, 0, z2), 0.9f, "corn");
}
continue;
}
num15 += 70;
break;
case 6:
if (BlocksDiagonalMovement(curIndex + mapSizeX))
{
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2, 0, z2 + 1), 0.9f, "corn");
}
continue;
}
num15 += 70;
}
if (!BlocksDiagonalMovement(curIndex - 1))
{
break;
}
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2 - 1, 0, z2), 0.9f, "corn");
}
continue;
}
num15 += 70;
break;
case 7:
if (BlocksDiagonalMovement(curIndex - mapSizeX))
{
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2, 0, z2 - 1), 0.9f, "corn");
}
continue;
}
num15 += 70;
}
if (!BlocksDiagonalMovement(curIndex - 1))
{
break;
}
if (flag8)
{
if (flag6)
{
DebugFlash(new IntVec3(x2 - 1, 0, z2), 0.9f, "corn");
}
continue;
}
num15 += 70;
break;
}
int num16 = (i <= 3) ? num8 : num9;
num16 += num15;
if (!flag11)
{
num16 += array[num14];
num16 = ((!flag10) ? (num16 + topGrid[num14].extraNonDraftedPerceivedPathCost) : (num16 + topGrid[num14].extraDraftedPerceivedPathCost));
}
if (byteGrid != null)
{
num16 += byteGrid[num14] * 8;
}
if (allowedArea != null && !allowedArea[num14])
{
num16 += 600;
}
if (flag5 && PawnUtility.AnyPawnBlockingPathAt(new IntVec3(num12, 0, num13), pawn, actAsIfHadCollideWithPawnsJob: false, collideOnlyWithStandingPawns: false, forPathFinder: true))
{
num16 += 175;
}
Building building2 = this.edificeGrid[num14];
if (building2 != null)
{
PfProfilerBeginSample("Edifices");
int buildingCost = GetBuildingCost(building2, traverseParms, pawn);
if (building2 is Building_DoorRegionHandler reg)
{
Log.Message(reg.ParentDoor.ToString() + " " + buildingCost + " " + pawn.ToString());
}
if (buildingCost == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += buildingCost;
PfProfilerEndSample();
}
List <Blueprint> list = blueprintGrid[num14];
if (list != null)
{
PfProfilerBeginSample("Blueprints");
int num17 = 0;
for (int j = 0; j < list.Count; j++)
{
num17 = Mathf.Max(num17, GetBlueprintCost(list[j], pawn));
}
if (num17 == int.MaxValue)
{
PfProfilerEndSample();
continue;
}
num16 += num17;
PfProfilerEndSample();
}
int num18 = num16 + calcGrid[curIndex].knownCost;
ushort status = calcGrid[num14].status;
if (status == statusClosedValue || status == statusOpenValue)
{
int num19 = 0;
if (status == statusClosedValue)
{
num19 = num8;
}
if (calcGrid[num14].knownCost <= num18 + num19)
{
continue;
}
}
if (flag9)
{
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)regionCostCalculator.GetPathCostFromDestToRegion(num14) * RegionHeuristicWeightByNodesOpened.Evaluate(num3));
if (calcGrid[num14].heuristicCost < 0)
{
Log.ErrorOnce("Heuristic cost overflow for " + pawn.ToStringSafe() + " pathing from " + start + " to " + dest + ".", pawn.GetHashCode() ^ 0xB8DC389);
calcGrid[num14].heuristicCost = 0;
}
}
else if (status != statusClosedValue && status != statusOpenValue)
{
int dx = Math.Abs(num12 - x);
int dz = Math.Abs(num13 - z);
int num20 = GenMath.OctileDistance(dx, dz, num8, num9);
calcGrid[num14].heuristicCost = Mathf.RoundToInt((float)num20 * num7);
}
int num21 = num18 + calcGrid[num14].heuristicCost;
if (num21 < 0)
{
Log.ErrorOnce("Node cost overflow for " + pawn.ToStringSafe() + " pathing from " + start + " to " + dest + ".", pawn.GetHashCode() ^ 0x53CB9DE);
num21 = 0;
}
calcGrid[num14].parentIndex = curIndex;
calcGrid[num14].knownCost = num18;
calcGrid[num14].status = statusOpenValue;
calcGrid[num14].costNodeCost = num21;
num3++;
openList.Push(new CostNode(num14, num21));
}
PfProfilerEndSample();
num2++;
calcGrid[curIndex].status = statusClosedValue;
if (num3 >= num4 && flag7 && !flag9)
{
flag9 = true;
regionCostCalculator.Init(cellRect, traverseParms, num8, num9, byteGrid, allowedArea, flag10, disallowedCornerIndices);
InitStatusesAndPushStartNode(ref curIndex, start);
num3 = 0;
num2 = 0;
}
}
Log.Warning(pawn + " pathing from " + start + " to " + dest + " hit search limit of " + 160000 + " cells.");
DebugDrawRichData();
PfProfilerEndSample();
return(PawnPath.NotFound);
}