public QuickSand(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.QuickSand.ID;
VisionDistance = Constants.Entities.QuickSand.VISION;
HealthCapacity = Constants.Entities.QuickSand.HEALTH;
HealthPoints = HealthCapacity;
_fuseTime = Constants.Entities.QuickSand.FUSE_TIME;
_explosionRadius = Constants.Entities.QuickSand.ATTACK_RANGE;
}
public SonicBomb(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.SonicBomb.ID;
VisionDistance = Constants.Entities.SonicBomb.VISION;
HealthCapacity = Constants.Entities.SonicBomb.HEALTH;
HealthPoints = HealthCapacity;
_chargeTime = Constants.Entities.SonicBomb.CHARGE_TIME;
_radius = Constants.Entities.SonicBomb.REVEAL_RADIUS;
}
// You can implicitly convert Vector2s to Vector3s
public ByteVector2[] FindBestPath(ByteVector2 from, ByteVector2 to)
{
ByteVector2[] toReturn = new ByteVector2[0];
Thread pathThread = new Thread(() => FindBestPathProcess(ref toReturn, from, to));
pathThread.Start();
pathThread.Join();
return(toReturn);
}
private void FillGas()
{
foreach (Entity e in _emitters)
{
ByteVector2 pos = e.GetPosition();
_gasMap[pos.X, pos.Y] = 1;
}
for (int r = 0; r < _gasMap.GetLength(0); r++)
{
for (int c = 0; c < _gasMap.GetLength(0); c++)
{
_fillMap[r, c] = 0;
}
}
for (int r = 0; r < _gasMap.GetLength(0); r++)
{
for (int c = 0; c < _gasMap.GetLength(0); c++)
{
double val = _gasMap[r, c];
if (val > 0)
{
FillTile(val, (byte)(r + 1), (byte)(c));
FillTile(val, (byte)(r - 1), (byte)(c));
FillTile(val, (byte)(r), (byte)(c + 1));
FillTile(val, (byte)(r), (byte)(c - 1));
}
//_gasMap[r, c] = fifth;
}
}
for (int r = 0; r < _gasMap.GetLength(0); r++)
{
for (int c = 0; c < _gasMap.GetLength(0); c++)
{
_gasMap[r, c] = _fillMap[r, c];
}
}
for (int r = 0; r < _gasMap.GetLength(0); r++)
{
for (int c = 0; c < _gasMap.GetLength(0); c++)
{
_gasMap[r, c] -= Constants.Entities.GasBomb.DECAY_FACTOR;
//if (_gasMap[r, c] > Constants.Entities.GasBomb.GAS_MAX)
// _gasMap[r, c] = Constants.Entities.GasBomb.GAS_MAX;
if (_gasMap[r, c] < 0)
{
_gasMap[r, c] = 0;
}
}
}
}
public override bool Deploy(ByteVector2 there, byte inFaction)
{
if (!base.Deploy(there, inFaction))
{
return(false);
}
_job = new HealJob(_interval, _amount, _radius, _context);
return(true);
}
public override bool Deploy(ByteVector2 there, byte inFaction)
{
if (!base.Deploy(there, inFaction))
{
return(false);
}
_job = new ReconJob(_chargeTime, _radius, _context);
return(true);
}
public override bool Deploy(ByteVector2 there, byte inFaction)
{
if (!base.Deploy(there, inFaction))
{
return(false);
}
_context.MapContext().TileGasManager.RegisterEmitter(this);
return(true);
}
private bool ValidMiningState()
{
if (ByteVector2.ManhattanDistance(_context.OwnerContext().GetPosition(), _tile) <= 2 && // Miner is "close enough"
_context.gameManager.MapManager.Map[_tile.X, _tile.Y] > 0) // Tile is still solid
{
return(true);
}
Debug.Log("Faction Manager: Invalid mining job state detected, deleting job");
return(false);
}
public AntimatterBomb(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.AntimatterBomb.ID;
VisionDistance = Constants.Entities.AntimatterBomb.VISION;
HealthCapacity = Constants.Entities.AntimatterBomb.HEALTH;
HealthPoints = HealthCapacity;
_attackDamage = Constants.Entities.AntimatterBomb.ATTACK_DAMAGE;
_fuseTime = Constants.Entities.AntimatterBomb.FUSE_TIME;
_explosionRadius = Constants.Entities.AntimatterBomb.ATTACK_RANGE;
}
public void UnlistenAt(Triggerable listener, ByteVector2 position)
{
try
{
Debug.Log("REMOVING LISTENER : " + listeners[position.X, position.Y].Remove(listener));
}
catch (System.Exception e)
{
Debug.Log("ERROR REMOVING LISTENER AT ***************************" + e);
}
}
public HealStation(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.HealStation.ID;
VisionDistance = Constants.Entities.HealStation.VISION;
HealthCapacity = Constants.Entities.HealStation.HEALTH;
HealthPoints = HealthCapacity;
_interval = Constants.Entities.HealStation.HEAL_INTERVAL;
_amount = Constants.Entities.HealStation.HEAL_AMOUNT;
_radius = Constants.Entities.HealStation.HEAL_RADIUS;
}
public override bool Equals(object obj)
{
if (obj.GetType() != typeof(ByteVector2))
{
return(false);
}
ByteVector2 other = (ByteVector2)obj;
return(this.X == other.X &&
this.Y == other.Y);
}
public ProximityMine(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.ProximityMine.ID;
VisionDistance = Constants.Entities.ProximityMine.VISION;
Cloaked = Constants.Entities.ProximityMine.CLOAKED;
HealthCapacity = Constants.Entities.ProximityMine.HEALTH;
HealthPoints = HealthCapacity;
_attackDamage = Constants.Entities.ProximityMine.ATTACK_DAMAGE;
_fuseTime = Constants.Entities.ProximityMine.FUSE_TIME;
_explosionRadius = Constants.Entities.ProximityMine.ATTACK_RANGE;
}
public void ListenAt(Triggerable listener, ByteVector2 position)
{
Debug.Log("TRIG LISTENING");
try
{
listeners[position.X, position.Y].Add(listener);
}
catch (System.Exception e)
{
Debug.Log("ERROR LISTENING AT ***************************" + e);
}
}
public bool Dig(ByteVector2 that)
{
if (_context.gameManager.MapManager.Map[that.X, that.Y] == 0) // If the tile at index isn't solid
{
return(false);
}
_job = new DigJob(that, (float)_attackCooldown, false, _context);
_status = Constants.Entities.Status.Working;
return(true);
}
public Hauler(ByteVector2 at, Context context) : base(at, context)
{
Type = Constants.Entities.Hauler.ID;
VisionDistance = Constants.Entities.Hauler.VISION;
HealthCapacity = Constants.Entities.Hauler.HEALTH;
HealthPoints = HealthCapacity;
_moveSpeed = Constants.Entities.Hauler.SPEED;
_inventorySize = Constants.Entities.Hauler.INVENTORY;
_attackDamage = Constants.Entities.Hauler.ATTACK_DAMAGE;
_attackCooldown = Constants.Entities.Hauler.ATTACK_INTERVAL;
_attackRange = Constants.Entities.Hauler.ATTACK_RANGE;
}
public ByteVector2[] GetTilesInDiamond(ByteVector2 center, int radius)
{
List <ByteVector2> tiles = new List <ByteVector2>();
int mapSize = Map.GetLength(0);
int upperX = center.X - radius;
if (upperX < 0)
{
upperX = 0;
}
int upperY = center.Y + radius;
if (upperY >= mapSize)
{
upperY = mapSize - 1;
}
int lowerX = center.X + radius;
if (lowerX >= mapSize)
{
lowerX = mapSize - 1;
}
int lowerY = center.Y - radius;
if (lowerY < 0)
{
lowerY = 0;
}
// Upper left
ByteVector2 start = new ByteVector2((byte)upperX, (byte)upperY);
// Bottom right
ByteVector2 end = new ByteVector2((byte)lowerX, (byte)lowerY);
for (int r = start.Y; r >= end.Y; r--)
{
for (int c = start.X; c <= end.X; c++)
{
ByteVector2 addable = new ByteVector2((byte)c, (byte)r);
if (ByteVector2.ManhattanDistance(addable, center) <= radius)
{
tiles.Add(addable);
}
}
}
return(tiles.ToArray());
}
public override bool Deploy(ByteVector2 there, byte inFaction)
{
if (!base.Deploy(there, inFaction))
{
return(false);
}
if (_job == null)
{
_job = new SandJob((float)_fuseTime, _explosionRadius, _context);
}
return(true);
}
public virtual void SetPosition(ByteVector2 here)
{
// Display in world
Hidden = false;
// Update state on tile occupation grid
_context.gameManager.MapManager.TileOccupationGrid.Move(this, CurrentPosition, here);
// Update unit state
CurrentPosition = here;
// Trigger triggerables
_context.gameManager.MapManager.TileTriggerGrid.TriggerAt(here, _context.factionID);
}
public override bool Deploy(ByteVector2 there, byte inFaction)
{
if (!base.Deploy(there, inFaction))
{
return(false);
}
if (_job == null)
{
_job = new FuseJob((float)_fuseTime, _attackDamage, _explosionRadius, FuseJob.Shape.Square, _context);
}
return(true);
}
public ByteVector2[] GetPath(ByteVector2 from, ByteVector2 to)
{
// Update map
Pathfinder.SetByteMap(Map);
if (Map[to.X, to.Y] == Tile.Empty || Map[to.X, to.Y] == Tile.Gas) // EZ case
{
return(Pathfinder.FindBestPath(from, to));
}
else // The block is solid
{
return(Pathfinder.FindBestAdjacentPath(from, to));
}
}
// TODO: optimize this somehow
public void AutoAttack()
{
if (_attackTarget != null)
{
if (!InRange(_attackTarget, _attackRange) || !_context.MapContext().CheckLOS(CurrentPosition, _attackTarget.GetPosition()))
{
_attackTarget = null;
}
else if (_currentAttackCooldown == null)
{
ByteVector2 attackSpot = _attackTarget.GetPosition();
Entity[] toAttack = _context.MapContext().GetEntities(attackSpot, 0);
// Damage nearby
foreach (Entity e in toAttack)
{
if (!e.InFaction(_context.factionID) && e != _attackTarget)
{
Attack(e);
}
}
if (Attack(_attackTarget))
{
_currentAttackCooldown = new AttackCooldownJob(_attackCooldown, _context);
}
else
{
_attackTarget = null;
}
}
}
else
{
// Try to find a target
Entity[] surroundings = _context.gameManager.MapManager.GetEntities(CurrentPosition, _attackRange);
foreach (Entity e in surroundings)
{
// Only target hostile faction entities
if (!e.InFaction(_context.factionID) && !e.InFaction(0) &&
((byte)e.Type <= Constants.Entities.UNIT_IDS || e.Type == Constants.Entities.Hub.ID || e.Type == Constants.Entities.SandBags.ID))
{
_attackTarget = e;
break;
}
}
}
}
public bool CheckLOS(ByteVector2 from, ByteVector2 to)
{
List <ByteVector2> tiles = GetTilesInLine(from, to);
foreach (ByteVector2 tile in tiles)
{
if (Map[tile.X, tile.Y] == Tile.Empty || Map[tile.X, tile.Y] == Tile.Gas)
{
continue;
}
return(false);
}
return(true);
}
public bool InRange(Entity that, int range)
{
if (this == that)
{
Debug.Log("Server Faction Manager: You're always near yourself dummy!");
return(true);
}
if (that == null)
{
Debug.Log("Server Faction Manager: ERROR can't be near null entity.");
return(false);
}
return(ByteVector2.ManhattanDistance(CurrentPosition, that.CurrentPosition) <= range);
}
// Traces back through nodes from dest. to identify optimal path
private void SetBestPath(TileNode fromNode)
{
LinkedList <ByteVector2> path = new LinkedList <ByteVector2>();
int length = 0;
do
{
length++;
// Sort backwards to compensate for 'cavern optimization'
path.AddLast(new ByteVector2(fromNode.X, fromNode.Y));
fromNode = fromNode.Parent;
} while (fromNode != null);
ByteVector2[] toSet = new ByteVector2[length];
path.CopyTo(toSet, 0);
bestPath = toSet;
}
public void TriggerAt(ByteVector2 position, int triggeringFaction)
{
for (int i = 0; i < listeners[position.X, position.Y].Count; i++)
{
Triggerable l = listeners[position.X, position.Y][i];
if (l == null)
{
Debug.Log("ERROR TRIGGERING AT ***************************");
continue;
}
if (!l.InFaction(triggeringFaction)) // Can't trigger own entities
{
l.Trigger();
}
}
}
public bool TileInteraction(NewPackets.TileInteraction parameters)
{
// Verify index range
if (parameters.entityIndex >= Entities.Length || parameters.entityIndex < 0)
{
return(false);
}
// This entity is the actor
// TODO: reduce casting
Entity subject = Entities[parameters.entityIndex] as Entity;
if (subject == null)
{
Debug.Log("ERROR: Entity does not exist!");
return(false);
}
ByteVector2 tile = new ByteVector2(parameters.tileX, parameters.tileY);
// If the entity is `close` to the tile and the tile is solid
if (MapManager.Map[parameters.tileX, parameters.tileY] != Tile.Empty &&
ByteVector2.ManhattanDistance(subject.GetPosition(), tile) <= 1)
{
// Try to dig with that entity
IDigger digger = subject as IDigger;
if (digger != null)
{
digger.Dig(tile);
}
}
// If the entity isn't on that tile
else if (ByteVector2.ManhattanDistance(subject.GetPosition(), tile) > 0)
{
IMover mover = subject as IMover;
if (mover != null)
{
mover.Move(tile);
}
}
return(true);
}
// On @on, finds the optimal path @path to one of the tiles adjacent to @to from @from
// This is useful when selecting a tile for a mining path
private void FindBestAdjacentPathProcess(ref ByteVector2[] path, ByteVector2 from, ByteVector2 to)
{
ByteVector2[] upPath = new ByteVector2[0];
ByteVector2[] downPath = new ByteVector2[0];
ByteVector2[] leftPath = new ByteVector2[0];
ByteVector2[] rightPath = new ByteVector2[0];
// Fix Me: verify that these lines work since I changed the vector math implementation
Thread scanUp = new Thread(() => FindBestPathProcess(ref upPath, from, to + new ByteVector2(0, 1)));
Thread scanDown = new Thread(() => FindBestPathProcess(ref downPath, from, to - new ByteVector2(0, 1)));
Thread scanLeft = new Thread(() => FindBestPathProcess(ref leftPath, from, to + new ByteVector2(1, 0)));
Thread scanRight = new Thread(() => FindBestPathProcess(ref rightPath, from, to - new ByteVector2(1, 0)));
scanUp.Start();
scanDown.Start();
scanLeft.Start();
scanRight.Start();
scanUp.Join();
scanDown.Join();
scanLeft.Join();
scanRight.Join();
List <ByteVector2[]> adjacentPaths = new List <ByteVector2[]>(4);
adjacentPaths.Add(upPath);
adjacentPaths.Add(downPath);
adjacentPaths.Add(leftPath);
adjacentPaths.Add(rightPath);
adjacentPaths.Sort((a, b) => {
int aLength = int.MaxValue;
if (a != null)
{
aLength = a.Length;
}
int bLength = int.MaxValue;
if (b != null)
{
bLength = b.Length;
}
return(aLength - bLength);
});
path = adjacentPaths[0];
}
// Scan a single tile, update its state accordingly
private void AStarScan(ByteVector2 here, TileNode toParent)
{
// The tile to scan
TileNode scanNode = nodeTracker[here.Y, here.X];
// If the tile is not traversable, ignore
if (byteMap[here.Y, here.X] != 0)
{
return;
}
// If the tile is traversable and stateless
else if (scanNode == null)
{
// Initialize and store a new open tile node
int heuristic = EuclideanDistance(here, destination);
TileNode newOpenNode = new TileNode(here.X, here.Y, toParent.DistanceFromStart + 1, heuristic);
newOpenNode.Parent = toParent;
nodeTracker[here.Y, here.X] = newOpenNode;
nodeQueue.Enqueue(newOpenNode, newOpenNode.TotalCost);
}
// If the tile is closed, ignore
else if (scanNode.Closed)
{
return;
}
// If the tile is already open...
else if (!scanNode.Closed)
{
// If new path to this node is better...
if (scanNode.DistanceFromStart > toParent.DistanceFromStart)
{
// Recalculate total cost and requeue
scanNode.DistanceFromStart = toParent.DistanceFromStart + 1;
scanNode.RecalculateTotalCost();
scanNode.Parent = toParent;
nodeQueue.UpdatePriority(scanNode, scanNode.TotalCost);
}
}
else
{
Console.WriteLine("Error: invalid tile scan state reached");
}
return;
}
// TODO: move this somewhere nicer pls
// dear gahd
public void DamageAllFactionEntities(ByteVector2 from, int radius, int damage)
{
for (int j = 0; j < PlayerFactions.Count; j++)
{
ServerFactionManager f = PlayerFactions[j];
for (int i = 0; i < f.Entities.Length; i++)
{
if (f.Entities[i] != null)
{
//Debug.Log($"Distance was {ByteVector2.Distance(from, f.Entities[i].CurrentPosition)} || radius {radius} || {ByteVector2.Distance(from, f.Entities[i].CurrentPosition) <= (float)radius}");
if (ByteVector2.ManhattanDistance(from, f.Entities[i].GetPosition()) <= (float)radius)
{
f.Entities[i].Damage(damage);
}
}
}
}
}