refactor: eh gonna rewrite it in rust
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@ -10,12 +10,14 @@ var velocity := Vector2.ZERO
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# this is assigned by the flock, if this boid is a child of it
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var flock: Flock
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var last_processed_in: int = 0
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## applies some force to this boid.
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func apply_force(spatial_force: Vector3) -> void:
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var force := Vector2(spatial_force.x, spatial_force.y)
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velocity += force
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velocity = velocity.limit_length(properties.max_speed)
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position += velocity * BoidManager.SIMULATION_RATE
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position += velocity
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func _get_boid_position() -> Vector3:
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return Vector3(position.x, position.y, 0.0)
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@ -10,11 +10,13 @@ var velocity := Vector3.ZERO
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# this is assigned by the flock, if this boid is a child of it
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var flock: Flock
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var last_processed_in: int = 0
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## applies some force to this boid.
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func apply_force(force: Vector3) -> void:
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velocity += force
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velocity = velocity.limit_length(properties.max_speed)
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position += velocity * BoidManager.SIMULATION_RATE
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position += velocity
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func _get_boid_position() -> Vector3:
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return position
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@ -4,8 +4,6 @@ extends Node
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# this seems to help with 1000 boids in a single flock from 400ms to 180ms (before quadtrees)
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const PARALLELIZATION_RATE: int = 50 # 50 seems to be the best value?
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const EPSILON: float = 0.00001
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# simulate per n physics frame ticks
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var SIMULATION_RATE: int = 1
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var flocks: Dictionary = {}
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var total_boid_count: int = 0:
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@ -17,6 +15,7 @@ var total_boid_count: int = 0:
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# create our arrays for parallel processing
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var args_array: Array[Dictionary] = []
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var forces_array: PackedVector3Array = []
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#var grids: Dictionary = {}
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func _ready() -> void:
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get_tree().node_added.connect(_register_flock)
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@ -34,17 +33,19 @@ func _init_register_flock(node: Node = get_tree().root) -> void:
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func _register_flock(maybe_flock: Node) -> void:
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if maybe_flock is not Flock: return
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flocks[maybe_flock.get_instance_id()] = maybe_flock
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var flock_id := maybe_flock.get_instance_id()
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flocks[flock_id] = maybe_flock
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#grids[flock_id] = Grid.new()
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print_verbose("[BoidManager] flock ", maybe_flock, " registered")
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func _unregister_flock(maybe_flock: Node) -> void:
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if maybe_flock is not Flock: return
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flocks.erase(maybe_flock.get_instance_id())
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var flock_id := maybe_flock.get_instance_id()
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flocks.erase(flock_id)
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#grids.erase(flock_id)
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print_verbose("[BoidManager] flock ", maybe_flock, " unregistered")
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func _physics_process(delta: float) -> void:
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# run the simulation at a given rate
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if Engine.get_physics_frames() % SIMULATION_RATE == 0:
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_process_boids()
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func _process_boids() -> void:
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@ -55,8 +56,10 @@ func _process_boids() -> void:
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# organize the work into tasks
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for flock: Flock in flocks.values():
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var flock_args := _pack_calc_args_flock(flock)
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for boid in flock.boids.values():
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var args := _pack_calc_args_boid(boid, flock_args.duplicate())
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var boids := flock.boids.values()
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#grids.get(flock.get_instance_id()).build(Vector3.ONE * 1000.0, 30.0, boids)
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for boid in boids:
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var args := _pack_calc_args_boid(flock, boid, flock_args.duplicate())
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args_array[boid_count] = args
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forces_array[boid_count] = Vector3.ZERO
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boid_count += 1
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@ -97,7 +100,17 @@ func _pack_calc_args_flock(flock: Flock) -> Dictionary:
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flock_args['target_position'] = flock.target.global_position
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return flock_args
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func _pack_calc_args_boid(boid, args: Dictionary) -> Dictionary:
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func _pack_calc_args_boid(flock: Flock, boid, args: Dictionary) -> Dictionary:
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#var nearby_boids: Array[Node] = grids.get(flock.get_instance_id()).get_nearby_boids(boid)
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#var others_pos := PackedVector3Array([]); others_pos.resize(nearby_boids.size())
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#var others_vel := PackedVector3Array([]); others_vel.resize(nearby_boids.size())
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#var idx := 0
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#for aboid in nearby_boids:
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#others_pos.set(idx, aboid._get_boid_position())
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#others_vel.set(idx, aboid._get_boid_velocity())
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#idx += 1
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#args['others_pos'] = others_pos
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#args['others_vel'] = others_vel
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args['boid'] = boid
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args['self_props'] = boid.properties
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args['self_vel'] = boid._get_boid_velocity()
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@ -109,7 +122,7 @@ func _calculate_boid_parallel(idx: int) -> void:
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var end_at := mini(start_from + PARALLELIZATION_RATE, total_boid_count)
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var arg_idx := start_from
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while arg_idx < end_at:
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var force = _calculate_boid(args_array[arg_idx])
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var force := _calculate_boid(args_array[arg_idx])
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forces_array[arg_idx] = force
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arg_idx += 1
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122
addons/boids/grid.gd
Normal file
122
addons/boids/grid.gd
Normal file
@ -0,0 +1,122 @@
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extends RefCounted
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class_name Grid
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var _cells: Dictionary
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var _scale: float
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var size: Vector3
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var scaled_points: Dictionary
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func build(unscaled_size: Vector3, scale: float, boids: Array):
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_scale = scale
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size = Vector3(_scale_axis(unscaled_size.x), _scale_axis(unscaled_size.y), _scale_axis(unscaled_size.z))
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_cells.clear()
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scaled_points.clear()
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var idx := 0
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for boid in boids:
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var scaled_point := _scale_point(boid._get_boid_position())
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_add_body(boid, scaled_point)
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scaled_points[boid.get_instance_id()] = scaled_point
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idx += 1
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func _scale_axis(point: float) -> float:
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return floorf(point / _scale)
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func _scale_point(vector: Vector3) -> Vector3:
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var scaled_point = (vector / _scale).floor()
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scaled_point.x = minf(maxf(scaled_point.x, 0), size.x)
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scaled_point.y = minf(maxf(scaled_point.y, 0), size.y)
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scaled_point.z = minf(maxf(scaled_point.z, 0), size.z)
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return scaled_point
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func _add_body(body: Node, scaled_point: Vector3) -> void:
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var boids := _cells.get(scaled_point, [])
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boids.append(body)
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_cells[scaled_point] = boids
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func _get_cell(x: float, y: float, z: float, write_to: Array[Node]) -> void:
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write_to.append_array(_cells.get(Vector3(x, y, z), []))
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func get_nearby_boids(boid: Node) -> Array[Node]:
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var scaled_point: Vector3 = scaled_points[boid.get_instance_id()]
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# keep the points in bounds
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var x := minf(maxf(scaled_point.x, 0), size.x)
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var y := minf(maxf(scaled_point.y, 0), size.y)
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var z := minf(maxf(scaled_point.z, 0), size.z)
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var results: Array[Node] = []
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var gb := func(x, y, z): _get_cell(x, y, z, results)
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gb.call(x, y, z)
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var up := y - 1
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var down := y + 1
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var left := x - 1
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var right := x + 1
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var forwards := z - 1
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var backwards := z + 1
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# up
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if up > 0:
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gb.call(x, up, z)
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if left > 0:
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gb.call(left, up, z)
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if right <= size.x:
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gb.call(right, up, z)
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if forwards > 0:
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gb.call(x, up, forwards)
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if left > 0:
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gb.call(left, up, forwards)
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if right <= size.x:
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gb.call(right, up, forwards)
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if backwards <= size.z:
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gb.call(x, up, backwards)
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if left > 0:
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gb.call(left, up, backwards)
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if right <= size.x:
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gb.call(right, up, backwards)
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# down
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if down <= size.y:
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gb.call(x, down, z)
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if left > 0:
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gb.call(left, down, z)
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if right <= size.x:
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gb.call(right, down, z)
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if forwards > 0:
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gb.call(x, down, forwards)
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if left > 0:
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gb.call(left, down, forwards)
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if right <= size.x:
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gb.call(right, down, forwards)
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if backwards <= size.z:
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gb.call(x, down, backwards)
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if left > 0:
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gb.call(left, down, backwards)
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if right <= size.x:
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gb.call(right, down, backwards)
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# forwards
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if forwards > 0:
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gb.call(x, y, forwards)
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if left > 0:
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gb.call(left, y, forwards)
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if right <= size.x:
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gb.call(right, y, forwards)
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if backwards <= size.z:
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gb.call(x, y, backwards)
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if left > 0:
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gb.call(left, y, backwards)
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if right <= size.x:
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gb.call(right, y, backwards)
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# left and right
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if left > 0:
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gb.call(left, y, z)
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if right <= size.x:
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gb.call(right, y, z)
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return results
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@ -2,7 +2,7 @@ extends Node2D
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func _ready() -> void:
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for flock in get_children():
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for i in 1000: spawnBoid(flock)
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for i in 100: spawnBoid(flock)
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func spawnBoid(flock: Flock) -> void:
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var boid: Boid2D = preload("../example_boid.tscn").instantiate()
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