public override void Think (PhysicsComponent ownPhysics, HealthComponent ownHealth, object map,
List<Entity> entitiesNearby)
{
Maze.Maze maze = map as Maze.Maze;
if (maze != null && maze.HasFinished)
{
RigidBody rigidBody;
JVector normal, temp_direction, old_direction = direction;
float fraction;
const int res_over_two = resolution / 2;
direction = JVector.Zero;
for (int i = -res_over_two; i <= res_over_two; i++)
{
temp_direction = JVector.Transform (old_direction, JMatrix.CreateFromAxisAngle (JVector.Up,
i / res_over_two * MathHelper.PiOver4));
ownPhysics.World.CollisionSystem.Raycast (
ownPhysics.RigidBody.Position,
temp_direction,
new Jitter.Collision.RaycastCallback((rb, n, f) => {
var e = rb.Tag as Entity;
return f < max_distance && e != null && (e.HasComponent<WallComponent>() || e.Name.Contains("exit"));
}),
out rigidBody, out normal, out fraction);
if (rigidBody != null)
{
var diff = ownPhysics.RigidBody.Position - rigidBody.Position;
diff = new JVector (diff.X, 0, diff.Z);
diff.Normalize();
direction += diff * (max_distance - fraction);
}
else
{
direction += temp_direction * max_distance;
}
}
if (direction.Length() > 0.1)
direction.Normalize();
else
{
fallback = JVector.Transform (fallback, JMatrix.CreateFromAxisAngle (JVector.Up, MathHelper.PiOver6));
direction = fallback;
}
if (ownPhysics.RigidBody.Position.X > maze.Size.X * 8)
direction = new JVector ((maze.Size.X * 8) - ownPhysics.RigidBody.Position.X, 0, direction.Z);
else if (ownPhysics.RigidBody.Position.X < 0)
direction = new JVector (0 - ownPhysics.RigidBody.Position.X, 0, direction.Z);
if (ownPhysics.RigidBody.Position.Z > maze.Size.Y * 8)
direction = new JVector (direction.X, 0, (maze.Size.Y * 8) - ownPhysics.RigidBody.Position.Z);
else if (ownPhysics.RigidBody.Position.Z < 0)
direction = new JVector (direction.X, 0, 0 - ownPhysics.RigidBody.Position.Z);
if (ownPhysics.RigidBody.LinearVelocity.Length() < speed)
ownPhysics.RigidBody.LinearVelocity += (direction * acceleration);
ownPhysics.RigidBody.Position = new JVector (ownPhysics.RigidBody.Position.X, height,
ownPhysics.RigidBody.Position.Z);
var player = entitiesNearby.FirstOrDefault (e => e.Name == "player");
if (player != null && gameState.Scene.CameraManager.ActiveCamera != null)
{
do_reset = true;
var player_pos = player.GetComponent<TransformComponent>().Position;
var ghost_pos = ownPhysics.RigidBody.Position.ToFreezingArcherVector();
float distance;
Vector3.Distance(ref player_pos, ref ghost_pos, out distance);
float fov = ((AIcomp.MaximumEntityDistance - distance) / AIcomp.MaximumEntityDistance);
if (fov >= 0.5f)
{
var player_health = player.GetComponent<HealthComponent> ();
player_health.Health += player_health.MaximumHealth * 0.05f;
}
}
else if (do_reset)
{
do_reset = false;
}
}
}
public override void SetSpawnPosition (Vector3 playerSpawn, PhysicsComponent ownPhysics, object map, FastRandom rand)
{
Maze.Maze maze = map as Maze.Maze;
if (maze != null)
{
bool gotit = false;
while (!gotit)
{
int pos = rand.Next (0, maze.graph.Nodes.Count);
Vector3 spawn_pos;
float distance;
for (int i = pos; i < maze.graph.Nodes.Count; i++)
{
spawn_pos = maze.graph.Nodes[i].Data.WorldPosition;
Vector3.Distance(ref playerSpawn, ref spawn_pos, out distance);
if (maze.graph.Nodes[i].Data.MazeCellType == MazeCellType.Ground && distance > 50 &&
!maze.graph.Nodes[i].Data.IsExit)
{
gotit = true;
ownPhysics.RigidBody.Position = new JVector (maze.graph.Nodes[i].Data.WorldPosition.X, height,
maze.graph.Nodes[i].Data.WorldPosition.Z);
break;
}
}
}
if (!gotit)
{
Logger.Log.AddLogEntry (LogLevel.Severe, "GhostAI", "Failed to generate spawn position!");
}
fallback = JVector.Transform (JVector.Backward, JMatrix.CreateFromAxisAngle (JVector.Up,
(float) rand.NextDouble() * 2 * MathHelper.Pi));
direction = fallback;
Spawned = true;
}
}
public override void Think (PhysicsComponent ownPhysics, HealthComponent ownHealth, object map,
List<Entity> entitiesNearby)
{
Maze.Maze maze = map as Maze.Maze;
if (maze != null && maze.HasFinished)
{
RigidBody rigidBody;
JVector normal, temp_direction, old_direction = direction;
float fraction;
const int res_over_two = resolution / 2;
direction = JVector.Zero;
for (int i = -res_over_two; i <= res_over_two; i++)
{
temp_direction = JVector.Transform (old_direction, JMatrix.CreateFromAxisAngle (JVector.Up,
i / res_over_two * MathHelper.PiOver4));
ownPhysics.World.CollisionSystem.Raycast (
ownPhysics.RigidBody.Position,
temp_direction,
new Jitter.Collision.RaycastCallback((rb, n, f) => {
var e = rb.Tag as Entity;
return f < max_distance && e != null && (e.HasComponent<WallComponent>() || e.Name.Contains("exit"));
}),
out rigidBody, out normal, out fraction);
if (rigidBody != null)
{
var diff = ownPhysics.RigidBody.Position - rigidBody.Position;
diff = new JVector (diff.X, 0, diff.Z);
diff.Normalize();
direction += diff * (max_distance - fraction);
}
else
{
direction += temp_direction * max_distance;
}
}
foreach (var light in state.Scene.Lights)
{
var temp = ownPhysics.RigidBody.Position.ToFreezingArcherVector () - light.PointLightPosition;
if (temp.LengthSquared < 400 && light.On)
{
if (Vector3.CalculateAngle (temp, light.DirectionalLightDirection) < degInRad)
{
direction += new JVector (temp.X * 20, 0, temp.Z * 20);
}
}
}
if (direction.Length() > 0.1)
direction.Normalize();
else
{
fallback = JVector.Transform (fallback, JMatrix.CreateFromAxisAngle (JVector.Up, MathHelper.PiOver6));
direction = fallback;
}
if (ownPhysics.RigidBody.Position.X > maze.Size.X * 8)
direction = new JVector ((maze.Size.X * 8) - ownPhysics.RigidBody.Position.X, 0, direction.Z);
else if (ownPhysics.RigidBody.Position.X < 0)
direction = new JVector (0 - ownPhysics.RigidBody.Position.X, 0, direction.Z);
if (ownPhysics.RigidBody.Position.Z > maze.Size.Y * 8)
direction = new JVector (direction.X, 0, (maze.Size.Y * 8) - ownPhysics.RigidBody.Position.Z);
else if (ownPhysics.RigidBody.Position.Z < 0)
direction = new JVector (direction.X, 0, 0 - ownPhysics.RigidBody.Position.Z);
if (ownPhysics.RigidBody.LinearVelocity.Length() < speed)
ownPhysics.RigidBody.LinearVelocity += (direction * acceleration);
ownPhysics.RigidBody.Position = new JVector (ownPhysics.RigidBody.Position.X, height,
ownPhysics.RigidBody.Position.Z);
var player = entitiesNearby.FirstOrDefault (e => e.Name == "player");
if (player != null)
{
do_reset = true;
var player_pos = player.GetComponent<TransformComponent>().Position;
bool damage = false;
foreach (var particle in smokeParticleEmitter.Particles)
{
if ((player_pos - particle.Position).LengthSquared < 4)
{
damage = true;
break;
}
}
if (damage && (DateTime.Now - lastDamage).TotalSeconds > 2)
{
var ghost_pos = ownPhysics.RigidBody.Position.ToFreezingArcherVector();
float distance;
Vector3.Distance(ref player_pos, ref ghost_pos, out distance);
float fac = ((AIcomp.MaximumEntityDistance - distance) / AIcomp.MaximumEntityDistance);
var player_health = player.GetComponent<HealthComponent>();
player_health.Health -= fac * 20;
lastDamage = DateTime.Now;
}
if (MessageCreated != null)
MessageCreated (new AIAttackMessage (entity));
}
else if (do_reset)
{
do_reset = false;
}
}
}
public override void Think (PhysicsComponent ownPhysics, HealthComponent ownHealth, object map,
List<Entity> entitiesNearby)
{
Maze.Maze maze = map as Maze.Maze;
if (maze != null && maze.HasFinished)
{
RigidBody rigidBody;
JVector normal, temp_direction, old_direction = direction;
float fraction;
const int res_over_two = resolution / 2;
direction = JVector.Zero;
for (int i = -res_over_two; i <= res_over_two; i++)
{
temp_direction = JVector.Transform (old_direction, JMatrix.CreateFromAxisAngle (JVector.Up,
i / res_over_two * MathHelper.PiOver4));
ownPhysics.World.CollisionSystem.Raycast (
ownPhysics.RigidBody.Position,
temp_direction,
new Jitter.Collision.RaycastCallback((rb, n, f) => {
var e = rb.Tag as Entity;
return f < max_distance && e != null && (e.HasComponent<WallComponent>() || e.Name.Contains("exit"));
}),
out rigidBody, out normal, out fraction);
if (rigidBody != null)
{
var diff = ownPhysics.RigidBody.Position - rigidBody.Position;
diff = new JVector (diff.X, 0, diff.Z);
diff.Normalize();
direction += diff * (max_distance - fraction);
}
else
{
direction += temp_direction * max_distance;
}
}
if (direction.Length() > 0.1)
direction.Normalize();
else
{
fallback = JVector.Transform (fallback, JMatrix.CreateFromAxisAngle (JVector.Up, MathHelper.PiOver6));
direction = fallback;
}
if (ownPhysics.RigidBody.Position.X > maze.Size.X * 8)
direction = new JVector ((maze.Size.X * 8) - ownPhysics.RigidBody.Position.X, 0, direction.Z);
else if (ownPhysics.RigidBody.Position.X < 0)
direction = new JVector (0 - ownPhysics.RigidBody.Position.X, 0, direction.Z);
if (ownPhysics.RigidBody.Position.Z > maze.Size.Y * 8)
direction = new JVector (direction.X, 0, (maze.Size.Y * 8) - ownPhysics.RigidBody.Position.Z);
else if (ownPhysics.RigidBody.Position.Z < 0)
direction = new JVector (direction.X, 0, 0 - ownPhysics.RigidBody.Position.Z);
if (ownPhysics.RigidBody.LinearVelocity.Length() < speed)
ownPhysics.RigidBody.LinearVelocity += (direction * acceleration);
ownPhysics.RigidBody.Position = new JVector (ownPhysics.RigidBody.Position.X, height,
ownPhysics.RigidBody.Position.Z);
var player = entitiesNearby.FirstOrDefault (e => e.Name == "player");
if (player != null)
{
do_reset = true;
var player_pos = player.GetComponent<TransformComponent>().Position;
var ghost_pos = ownPhysics.RigidBody.Position.ToFreezingArcherVector();
float distance;
Vector3.Distance(ref player_pos, ref ghost_pos, out distance);
float fac = ((AIcomp.MaximumEntityDistance - distance) / AIcomp.MaximumEntityDistance);
warpingNode.WarpFactor = fac / 10;
var playerPhysics = player.GetComponent<PhysicsComponent>();
if (playerPhysics != null)
playerPhysics.SpeedMultiplier = 1 - fac;
if ((DateTime.Now - lastDamage).TotalSeconds > 0.5f)
{
player.GetComponent<HealthComponent>().Health -= fac * 40;
lastDamage = DateTime.Now;
}
var lowpass = state.AudioContext.GlobalFilter as LowpassFilter;
if (lowpass == null)
{
lowpass = new LowpassFilter ();
state.AudioContext.GlobalFilter = lowpass;
}
lowpass.GainHF = (1 - fac) / 10;
temp_player = player;
//Here send Caligo Attack Message
if (MessageCreated != null)
MessageCreated (new AIAttackMessage (entity));
}
else if (do_reset)
{
do_reset = false;
warpingNode.WarpFactor = 0;
if (temp_player != null)
temp_player.GetComponent<PhysicsComponent>().SpeedMultiplier = 1;
var lowpass = state.AudioContext.GlobalFilter as LowpassFilter;
if (lowpass != null)
lowpass.GainHF = 1;
state.AudioContext.GlobalFilter = null;
}
}
}
public abstract void SetSpawnPosition (Vector3 playerSpawn, PhysicsComponent ownPhysics, object map, FastRandom rand);
public abstract void Think (PhysicsComponent ownPhysics, HealthComponent ownHealth, object map,
List<Entity> entitiesNearby);
