public void UnsafeRingQueue_Enqueue_Dequeue()
{
var test = new UnsafeRingQueue <int>(16, Allocator.Persistent);
Assert.AreEqual(0, test.Length);
int item;
Assert.False(test.TryDequeue(out item));
test.Enqueue(123);
Assert.AreEqual(1, test.Length);
Assert.True(test.TryEnqueue(456));
Assert.AreEqual(2, test.Length);
Assert.True(test.TryDequeue(out item));
Assert.AreEqual(123, item);
Assert.AreEqual(1, test.Length);
Assert.AreEqual(456, test.Dequeue());
Assert.AreEqual(0, test.Length);
test.Dispose();
}
// Simple grassfire to calculate shortest distance along path to target position for every position.
// - i.e. breadth-first expansion from target position.
static void CalculateShortestWalkableDistancesToTarget(int rowCount, int colCount, byte *gridWalls, CartesianGridCoordinates targetPosition, NativeArray <int> targetDistances)
{
var cellCount = rowCount * colCount;
var closed = new UnsafeBitArray(cellCount, Allocator.Temp, NativeArrayOptions.ClearMemory);
var pending = new UnsafeBitArray(cellCount, Allocator.Temp, NativeArrayOptions.ClearMemory);
var open = new UnsafeRingQueue <int>(cellCount, Allocator.Temp);
var targetCellIndex = (targetPosition.y * colCount) + targetPosition.x;
var cellIndexNorth = targetCellIndex + colCount;
var cellIndexSouth = targetCellIndex - colCount;
var cellIndexWest = targetCellIndex - 1;
var cellIndexEast = targetCellIndex + 1;
for (int i = 0; i < targetDistances.Length; i++)
{
targetDistances[i] = -1;
}
targetDistances[targetCellIndex] = 0;
pending.Set(targetCellIndex, true);
closed.Set(targetCellIndex, true);
var validDirections = CartesianGridMovement.ValidDirections(targetPosition, rowCount, colCount, gridWalls);
var validNorth = ((validDirections & (byte)CartesianGridDirectionBit.North) != 0);
var validSouth = ((validDirections & (byte)CartesianGridDirectionBit.South) != 0);
var validWest = ((validDirections & (byte)CartesianGridDirectionBit.West) != 0);
var validEast = ((validDirections & (byte)CartesianGridDirectionBit.East) != 0);
if (validNorth)
{
open.Enqueue(cellIndexNorth);
pending.Set(cellIndexNorth, true);
}
if (validSouth)
{
open.Enqueue(cellIndexSouth);
pending.Set(cellIndexSouth, true);
}
if (validWest)
{
open.Enqueue(cellIndexWest);
pending.Set(cellIndexWest, true);
}
if (validEast)
{
open.Enqueue(cellIndexEast);
pending.Set(cellIndexEast, true);
}
CalculateShortestWalkableDistancesToTargetInner(rowCount, colCount, gridWalls, targetDistances, pending, closed, open);
closed.Dispose();
pending.Dispose();
open.Dispose();
}
public void UnsafeRingQueue_Throws()
{
using (var test = new UnsafeRingQueue <int>(1, Allocator.Persistent))
{
Assert.Throws <InvalidOperationException>(() => { test.Dequeue(); });
Assert.DoesNotThrow(() => { test.Enqueue(123); });
Assert.Throws <InvalidOperationException>(() => { test.Enqueue(456); });
int item = 0;
Assert.DoesNotThrow(() => { item = test.Dequeue(); });
Assert.AreEqual(123, item);
Assert.DoesNotThrow(() => { test.Enqueue(456); });
Assert.DoesNotThrow(() => { item = test.Dequeue(); });
Assert.AreEqual(456, item);
Assert.Throws <InvalidOperationException>(() => { test.Dequeue(); });
}
}
public UnsafeRingQueueDebugView(UnsafeRingQueue <T> data)
{
Data = data;
}
// Simple grassfire to calculate shortest distance along path to target position for every position.
// - i.e. breadth-first expansion from target position.
static void CalculateShortestWalkableDistancesToTarget(NativeArray <int> targetDistances, int rowCount, byte *gridWalls, CartesianGridCoordinates targetPosition, CartesianGridOnCubeFace cubeFace, float4x4 *faceLocalToLocal)
{
var cellCount = rowCount * rowCount;
var closed = new UnsafeBitArray(6 * cellCount, Allocator.Temp, NativeArrayOptions.ClearMemory);
var pending = new UnsafeBitArray(6 * cellCount, Allocator.Temp, NativeArrayOptions.ClearMemory);
var open = new UnsafeRingQueue <int>(6 * cellCount, Allocator.Temp);
var faceIndex = cubeFace.Value;
var faceTargetCellIndex = (targetPosition.y * rowCount) + targetPosition.x;
for (int i = 0; i < targetDistances.Length; i++)
{
targetDistances[i] = -1;
}
var targetCellIndex = (faceIndex * cellCount) + faceTargetCellIndex;
targetDistances[targetCellIndex] = 0;
pending.Set(targetCellIndex, true);
closed.Set(targetCellIndex, true);
var cellIndexNorth = CartesianGridOnCubeUtility.CellIndexNorth(targetCellIndex, rowCount, faceLocalToLocal);
var cellIndexSouth = CartesianGridOnCubeUtility.CellIndexSouth(targetCellIndex, rowCount, faceLocalToLocal);
var cellIndexWest = CartesianGridOnCubeUtility.CellIndexWest(targetCellIndex, rowCount, faceLocalToLocal);
var cellIndexEast = CartesianGridOnCubeUtility.CellIndexEast(targetCellIndex, rowCount, faceLocalToLocal);
var rowStride = (rowCount + 1) / 2;
var faceStride = rowCount * rowStride;
var faceGridWallsOffset = faceIndex * faceStride;
var validDirections = CartesianGridMovement.ValidDirections(targetPosition, rowCount, rowCount, gridWalls + faceGridWallsOffset);
var validNorth = ((validDirections & (byte)CartesianGridDirectionBit.North) != 0);
var validSouth = ((validDirections & (byte)CartesianGridDirectionBit.South) != 0);
var validWest = ((validDirections & (byte)CartesianGridDirectionBit.West) != 0);
var validEast = ((validDirections & (byte)CartesianGridDirectionBit.East) != 0);
if (validNorth)
{
open.Enqueue(cellIndexNorth);
pending.Set(cellIndexNorth, true);
}
if (validSouth)
{
open.Enqueue(cellIndexSouth);
pending.Set(cellIndexSouth, true);
}
if (validWest)
{
open.Enqueue(cellIndexWest);
pending.Set(cellIndexWest, true);
}
if (validEast)
{
open.Enqueue(cellIndexEast);
pending.Set(cellIndexEast, true);
}
CalculateShortestWalkableDistancesToTargetInner(targetDistances, rowCount, gridWalls, faceLocalToLocal, pending, closed, open);
closed.Dispose();
pending.Dispose();
open.Dispose();
}
static void CalculateShortestWalkableDistancesToTargetInner(NativeArray <int> targetDistances, int rowCount, byte *gridWalls, float4x4 *faceLocalToLocal, UnsafeBitArray pending, UnsafeBitArray closed, UnsafeRingQueue <int> open)
{
var cellCount = rowCount * rowCount;
var maxPathLength = 6 * (cellCount + 1);
while (open.Length > 0)
{
var cellIndex = open.Dequeue();
var cellPosition = CartesianGridOnCubeUtility.CellFaceCoordinates(cellIndex, rowCount);
var faceIndex = CartesianGridOnCubeUtility.CellFaceIndex(cellIndex, rowCount);
var rowStride = (rowCount + 1) / 2;
var faceStride = rowCount * rowStride;
var faceGridWallsOffset = faceIndex * faceStride;
var validDirections = CartesianGridMovement.ValidDirections(cellPosition, rowCount, rowCount, gridWalls + faceGridWallsOffset);
var validNorth = ((validDirections & (byte)CartesianGridDirectionBit.North) != 0);
var validSouth = ((validDirections & (byte)CartesianGridDirectionBit.South) != 0);
var validWest = ((validDirections & (byte)CartesianGridDirectionBit.West) != 0);
var validEast = ((validDirections & (byte)CartesianGridDirectionBit.East) != 0);
var cellIndexNorth = CartesianGridOnCubeUtility.CellIndexNorth(cellIndex, rowCount, faceLocalToLocal);
var cellIndexSouth = CartesianGridOnCubeUtility.CellIndexSouth(cellIndex, rowCount, faceLocalToLocal);
var cellIndexWest = CartesianGridOnCubeUtility.CellIndexWest(cellIndex, rowCount, faceLocalToLocal);
var cellIndexEast = CartesianGridOnCubeUtility.CellIndexEast(cellIndex, rowCount, faceLocalToLocal);
var distanceNorth = maxPathLength;
var distanceSouth = maxPathLength;
var distanceEast = maxPathLength;
var distanceWest = maxPathLength;
var closedNorth = false;
var closedSouth = false;
var closedWest = false;
var closedEast = false;
if (validNorth)
{
if (closed.IsSet(cellIndexNorth))
{
distanceNorth = targetDistances[cellIndexNorth];
closedNorth = true;
}
else if (!pending.IsSet(cellIndexNorth))
{
open.Enqueue(cellIndexNorth);
pending.Set(cellIndexNorth, true);
}
}
if (validSouth)
{
if (closed.IsSet(cellIndexSouth))
{
distanceSouth = targetDistances[cellIndexSouth];
closedSouth = true;
}
else if (!pending.IsSet(cellIndexSouth))
{
open.Enqueue(cellIndexSouth);
pending.Set(cellIndexSouth, true);
}
}
if (validWest)
{
if (closed.IsSet(cellIndexWest))
{
distanceWest = targetDistances[cellIndexWest];
closedWest = true;
}
else if (!pending.IsSet(cellIndexWest))
{
open.Enqueue(cellIndexWest);
pending.Set(cellIndexWest, true);
}
}
if (validEast)
{
if (closed.IsSet(cellIndexEast))
{
distanceEast = targetDistances[cellIndexEast];
closedEast = true;
}
else if (!pending.IsSet(cellIndexEast))
{
open.Enqueue(cellIndexEast);
pending.Set(cellIndexEast, true);
}
}
var closedNeighbor = closedNorth || closedSouth || closedWest || closedEast;
Assert.IsTrue(closedNeighbor);
var bestDist = math.cmin(new int4(distanceNorth, distanceSouth, distanceEast, distanceWest)) + 1;
Assert.IsFalse(bestDist > (maxPathLength + 1));
targetDistances[cellIndex] = bestDist;
closed.Set(cellIndex, true);
}
}
static void CalculateShortestWalkableDistancesToTargetInner(int rowCount, int colCount, byte *gridWalls, NativeArray <int> targetDistances, UnsafeBitArray pending, UnsafeBitArray closed, UnsafeRingQueue <int> open)
{
var cellCount = rowCount * colCount;
while (open.Count > 0)
{
var cellIndex = open.Dequeue();
var y = cellIndex / colCount;
var x = cellIndex - (y * colCount);
var cellPosition = new CartesianGridCoordinates {
x = (short)x, y = (short)y
};
var validDirections = CartesianGridMovement.ValidDirections(cellPosition, rowCount, colCount, gridWalls);
var validNorth = ((validDirections & (byte)CartesianGridDirectionBit.North) != 0);
var validSouth = ((validDirections & (byte)CartesianGridDirectionBit.South) != 0);
var validWest = ((validDirections & (byte)CartesianGridDirectionBit.West) != 0);
var validEast = ((validDirections & (byte)CartesianGridDirectionBit.East) != 0);
var cellIndexNorth = cellIndex + colCount;
var cellIndexSouth = cellIndex - colCount;
var cellIndexWest = cellIndex - 1;
var cellIndexEast = cellIndex + 1;
var distanceNorth = cellCount + 1;
var distanceSouth = cellCount + 1;
var distanceEast = cellCount + 1;
var distanceWest = cellCount + 1;
if (validNorth)
{
if (closed.IsSet(cellIndexNorth))
{
distanceNorth = targetDistances[cellIndexNorth];
}
else if (!pending.IsSet(cellIndexNorth))
{
open.Enqueue(cellIndexNorth);
pending.Set(cellIndexNorth, true);
}
}
if (validSouth)
{
if (closed.IsSet(cellIndexSouth))
{
distanceSouth = targetDistances[cellIndexSouth];
}
else if (!pending.IsSet(cellIndexSouth))
{
open.Enqueue(cellIndexSouth);
pending.Set(cellIndexSouth, true);
}
}
if (validWest)
{
if (closed.IsSet(cellIndexWest))
{
distanceWest = targetDistances[cellIndexWest];
}
else if (!pending.IsSet(cellIndexWest))
{
open.Enqueue(cellIndexWest);
pending.Set(cellIndexWest, true);
}
}
if (validEast)
{
if (closed.IsSet(cellIndexEast))
{
distanceEast = targetDistances[cellIndexEast];
}
else if (!pending.IsSet(cellIndexEast))
{
open.Enqueue(cellIndexEast);
pending.Set(cellIndexEast, true);
}
}
var bestDist = math.cmin(new int4(distanceNorth, distanceSouth, distanceEast, distanceWest)) + 1;
targetDistances[cellIndex] = bestDist;
closed.Set(cellIndex, true);
}
}
