Merge pull request #2 from GDQuest/features/mvp-impl

Features/mvp implementation
This commit is contained in:
Francois Belair 2020-01-15 10:23:54 -05:00 committed by GitHub
commit fa91e6bca7
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.gitignore vendored Normal file
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.import/

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- Arrive - Arrive
- Pursue/Evade - Pursue/Evade
- Face - Face
- LookWhereYouGo
- FollowPath - FollowPath
- Separation - Separation
- AvoidCollisions - AvoidCollisions

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<svg xmlns="http://www.w3.org/2000/svg" width="24" height="24" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2" stroke-linecap="round" stroke-linejoin="round" class="feather feather-chevron-right"><polyline points="9 18 15 12 9 6"></polyline></svg>

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color = Color( 1, 1, 1, 0.196078 )
thickness = 2

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[gd_resource type="Environment" load_steps=2 format=2]
[sub_resource type="ProceduralSky" id=1]
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background_mode = 2
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extends Node2D
onready var target: = $Target
onready var arriver: = $Arriver
onready var gui: = $GUI
func _ready() -> void:
gui.connect("align_tolerance_changed", self, "_on_GUI_align_tolerance_changed")
gui.connect("decel_radius_changed", self, "_on_GUI_decel_radius_changed")
gui.connect("max_speed_changed", self, "_on_GUI_max_speed_changed")
gui.connect("max_accel_changed", self, "_on_GUI_max_accel_changed")
gui.max_speed.text = str(arriver._agent.max_linear_speed)
gui.max_accel.text = str(arriver._agent.max_linear_acceleration)
gui.arrival_tolerance.text = str(arriver._arrive.arrival_tolerance)
gui.deceleration_radius.text = str(arriver._arrive.deceleration_radius)
func draw(location: Vector2) -> void:
target.draw(location)
func _on_GUI_align_tolerance_changed(value: int) -> void:
arriver._arrive.arrival_tolerance = value
func _on_GUI_decel_radius_changed(value: int) -> void:
arriver._arrive.deceleration_radius = value
func _on_GUI_max_speed_changed(value: int) -> void:
arriver._agent.max_linear_speed = value
func _on_GUI_max_accel_changed(value: int) -> void:
arriver._agent.max_linear_acceleration = value

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[gd_scene load_steps=6 format=2]
[ext_resource path="res://demos/arrive/Arriver.gd" type="Script" id=1]
[ext_resource path="res://demos/arrive/ArriveDemo.gd" type="Script" id=2]
[ext_resource path="res://demos/arrive/Target.gd" type="Script" id=3]
[ext_resource path="res://demos/arrive/GUI.tscn" type="PackedScene" id=4]
[sub_resource type="CircleShape2D" id=1]
radius = 15.0
[node name="ArriveDemo" type="Node2D"]
script = ExtResource( 2 )
[node name="Arriver" type="KinematicBody2D" parent="."]
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="Arriver"]
shape = SubResource( 1 )
[node name="Target" type="Node2D" parent="."]
script = ExtResource( 3 )
[node name="GUI" parent="." instance=ExtResource( 4 )]
margin_right = 227.0
margin_bottom = 184.0

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extends KinematicBody2D
onready var collision_shape: = $CollisionShape2D
var _radius: = 0.0
var _agent: = GSTSteeringAgent.new()
var _target: = GSTAgentLocation.new()
var _arrive: = GSTArrive.new(_agent, _target)
var _accel: = GSTTargetAcceleration.new()
var _velocity: = Vector2()
var _drag: = 1.0
func _ready() -> void:
_radius = collision_shape.shape.radius
_agent.max_linear_acceleration = 10
_agent.max_linear_speed = 200
_arrive.arrival_tolerance = 25
_arrive.deceleration_radius = 225
func _draw() -> void:
draw_circle(Vector2.ZERO, _radius, Color.red)
func _unhandled_input(event: InputEvent) -> void:
if event is InputEventMouseButton:
var mb: InputEventMouseButton = event
if mb.button_index == BUTTON_LEFT and mb.pressed:
_target.position = Vector3(mb.position.x, mb.position.y, 0)
owner.draw(Vector2(_target.position.x, _target.position.y))
func _physics_process(delta: float) -> void:
_accel = _arrive.calculate_steering(_accel)
_velocity += Vector2(_accel.linear.x, _accel.linear.y)
_velocity -= _velocity * _drag * delta
_velocity = move_and_slide(_velocity)
_update_agent()
func _update_agent() -> void:
_agent.position = Vector3(global_position.x, global_position.y, 0)
_agent.linear_velocity = Vector3(_velocity.x, _velocity.y, 0)

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extends MarginContainer
signal max_speed_changed(value)
signal max_accel_changed(value)
signal align_tolerance_changed(value)
signal decel_radius_changed(value)
onready var max_speed: = $Controls/MaxSpeed/LineEdit
onready var max_accel: = $Controls/MaxAccel/LineEdit
onready var arrival_tolerance: = $Controls/ArrivalTolerance/LineEdit
onready var deceleration_radius: = $Controls/DecelRadius/LineEdit
func _ready() -> void:
max_speed.connect("text_changed", self, "_on_MaxSpeed_text_changed")
max_accel.connect("text_changed", self, "_on_MaxAccel_text_changed")
arrival_tolerance.connect("text_changed", self, "_on_ArrivalTolerance_text_changed")
deceleration_radius.connect("text_changed", self, "_on_DecelerationRadius_text_changed")
func _unhandled_input(event: InputEvent) -> void:
if event is InputEventMouseButton:
max_speed.release_focus()
max_accel.release_focus()
arrival_tolerance.release_focus()
deceleration_radius.release_focus()
func _on_MaxSpeed_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("max_speed_changed", int(float(new_text)))
func _on_MaxAccel_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("max_accel_changed", int(float(new_text)))
func _on_ArrivalTolerance_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("align_tolerance_changed", int(float(new_text)))
func _on_DecelerationRadius_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("decel_radius_changed", int(float(new_text)))

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[gd_scene load_steps=2 format=2]
[ext_resource path="res://demos/arrive/GUI.gd" type="Script" id=1]
[node name="GUI" type="MarginContainer"]
anchor_bottom = 1.0
margin_right = 40.0
custom_constants/margin_right = 20
custom_constants/margin_top = 20
custom_constants/margin_left = 20
custom_constants/margin_bottom = 20
script = ExtResource( 1 )
__meta__ = {
"_edit_use_anchors_": false
}
[node name="Controls" type="VBoxContainer" parent="."]
margin_left = 20.0
margin_top = 20.0
margin_right = 207.0
margin_bottom = 580.0
[node name="MaxSpeed" type="HBoxContainer" parent="Controls"]
margin_right = 187.0
margin_bottom = 24.0
[node name="Label" type="Label" parent="Controls/MaxSpeed"]
margin_top = 4.0
margin_right = 125.0
margin_bottom = 19.0
rect_min_size = Vector2( 125, 15 )
text = "Max speed"
[node name="LineEdit" type="LineEdit" parent="Controls/MaxSpeed"]
margin_left = 129.0
margin_right = 187.0
margin_bottom = 24.0
focus_mode = 1
[node name="MaxAccel" type="HBoxContainer" parent="Controls"]
margin_top = 28.0
margin_right = 187.0
margin_bottom = 52.0
[node name="Label" type="Label" parent="Controls/MaxAccel"]
margin_top = 4.0
margin_right = 125.0
margin_bottom = 19.0
rect_min_size = Vector2( 125, 15 )
text = "Max acceleration"
[node name="LineEdit" type="LineEdit" parent="Controls/MaxAccel"]
margin_left = 129.0
margin_right = 187.0
margin_bottom = 24.0
focus_mode = 1
[node name="ArrivalTolerance" type="HBoxContainer" parent="Controls"]
margin_top = 56.0
margin_right = 187.0
margin_bottom = 80.0
[node name="Label" type="Label" parent="Controls/ArrivalTolerance"]
margin_top = 4.0
margin_right = 125.0
margin_bottom = 19.0
rect_min_size = Vector2( 125, 15 )
text = "Arrival tolerance"
[node name="LineEdit" type="LineEdit" parent="Controls/ArrivalTolerance"]
margin_left = 129.0
margin_right = 187.0
margin_bottom = 24.0
focus_mode = 1
[node name="DecelRadius" type="HBoxContainer" parent="Controls"]
margin_top = 84.0
margin_right = 187.0
margin_bottom = 108.0
[node name="Label" type="Label" parent="Controls/DecelRadius"]
margin_top = 4.0
margin_right = 125.0
margin_bottom = 19.0
rect_min_size = Vector2( 125, 15 )
text = "Deceleration radius"
[node name="LineEdit" type="LineEdit" parent="Controls/DecelRadius"]
margin_left = 129.0
margin_right = 187.0
margin_bottom = 24.0
focus_mode = 1
[node name="Help" type="VBoxContainer" parent="Controls"]
margin_top = 112.0
margin_right = 187.0
margin_bottom = 144.0
[node name="Controls" type="Label" parent="Controls/Help"]
margin_right = 187.0
margin_bottom = 14.0
text = "Controls"
[node name="Label" type="Label" parent="Controls/Help"]
margin_top = 18.0
margin_right = 187.0
margin_bottom = 32.0
text = "Mouse click"

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extends Node2D
var target: = Vector2.ZERO
func _draw() -> void:
draw_circle(target, 20, Color(1, 1, 0, 0.25))
draw_circle(target, 5, Color.yellow)
func draw(location: Vector2) -> void:
target = location
update()

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extends Node2D
onready var player: = $Player
onready var gui: = $GUI
onready var turret: = $Turret
func _ready() -> void:
gui.connect("align_tolerance_changed", self, "_on_GUI_align_tolerance_changed")
gui.connect("decel_radius_changed", self, "_on_GUI_decel_radius_changed")
gui.connect("max_accel_changed", self, "_on_GUI_max_accel_changed")
gui.connect("max_speed_changed", self, "_on_GUI_max_speed_changed")
turret.setup()
gui.align_tolerance.text = str(int(rad2deg(turret._face.alignment_tolerance)))
gui.decel_radius.text = str(int(rad2deg(turret._face.deceleration_radius)))
gui.max_speed.text = str(int(rad2deg(turret._agent.max_angular_speed)))
gui.max_accel.text = str(int(rad2deg(turret._agent.max_angular_acceleration)))
func _on_GUI_align_tolerance_changed(value: int) -> void:
turret._face.alignment_tolerance = deg2rad(value)
func _on_GUI_decel_radius_changed(value: int) -> void:
turret._face.deceleration_radius = deg2rad(value)
func _on_GUI_max_accel_changed(value: int) -> void:
turret._agent.max_angular_acceleration = deg2rad(value)
func _on_GUI_max_speed_changed(value: int) -> void:
turret._agent.max_angular_speed = deg2rad(value)

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[gd_scene load_steps=7 format=2]
[ext_resource path="res://demos/face/Turret.gd" type="Script" id=1]
[ext_resource path="res://demos/face/FaceDemo.gd" type="Script" id=2]
[ext_resource path="res://demos/face/Player.gd" type="Script" id=3]
[ext_resource path="res://demos/face/GUI.tscn" type="PackedScene" id=4]
[sub_resource type="CircleShape2D" id=1]
radius = 20.0
[sub_resource type="CircleShape2D" id=2]
radius = 30.0
[node name="FaceDemo" type="Node2D"]
script = ExtResource( 2 )
__meta__ = {
"_editor_description_": "A demo showing the usage of the Face steering behavior."
}
[node name="Player" type="KinematicBody2D" parent="."]
position = Vector2( 512, 450 )
script = ExtResource( 3 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="Player"]
shape = SubResource( 1 )
[node name="Turret" type="KinematicBody2D" parent="."]
position = Vector2( 512, 150 )
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="Turret"]
shape = SubResource( 2 )
[node name="GUI" parent="." instance=ExtResource( 4 )]
margin_right = 232.0
margin_bottom = 204.0

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extends MarginContainer
signal max_speed_changed(value)
signal max_accel_changed(value)
signal align_tolerance_changed(value)
signal decel_radius_changed(value)
onready var max_speed: = $Controls/MaxSpeed/LineEdit
onready var max_accel: = $Controls/MaxAccel/LineEdit
onready var align_tolerance: = $Controls/AlignmentTolerance/LineEdit
onready var decel_radius: = $Controls/DecelerationRadius/LineEdit
func _ready() -> void:
max_speed.connect("text_changed", self, "_on_MaxSpeed_text_changed")
max_accel.connect("text_changed", self, "_on_MaxAccel_text_changed")
align_tolerance.connect("text_changed", self, "_on_AlignTolerance_text_changed")
decel_radius.connect("text_changed", self, "_on_DecelRadius_text_changed")
func _unhandled_input(event: InputEvent) -> void:
if event is InputEventMouseButton:
max_speed.release_focus()
max_accel.release_focus()
align_tolerance.release_focus()
decel_radius.release_focus()
func _on_MaxSpeed_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("max_speed_changed", int(float(new_text)))
func _on_MaxAccel_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("max_accel_changed", int(float(new_text)))
func _on_AlignTolerance_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("align_tolerance_changed", int(float(new_text)))
func _on_DecelRadius_text_changed(new_text: String) -> void:
if new_text.is_valid_integer():
emit_signal("decel_radius_changed", int(float(new_text)))

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[gd_scene load_steps=2 format=2]
[ext_resource path="res://demos/face/GUI.gd" type="Script" id=1]
[node name="GUI" type="MarginContainer"]
anchor_bottom = 1.0
margin_right = 40.0
custom_constants/margin_right = 20
custom_constants/margin_top = 20
custom_constants/margin_left = 20
custom_constants/margin_bottom = 20
script = ExtResource( 1 )
__meta__ = {
"_edit_use_anchors_": false
}
[node name="Controls" type="VBoxContainer" parent="."]
margin_left = 20.0
margin_top = 20.0
margin_right = 212.0
margin_bottom = 580.0
[node name="MaxSpeed" type="HBoxContainer" parent="Controls"]
margin_right = 192.0
margin_bottom = 24.0
[node name="Label" type="Label" parent="Controls/MaxSpeed"]
margin_top = 4.0
margin_right = 130.0
margin_bottom = 19.0
rect_min_size = Vector2( 130, 15 )
text = "Max speed"
[node name="LineEdit" type="LineEdit" parent="Controls/MaxSpeed"]
margin_left = 134.0
margin_right = 192.0
margin_bottom = 24.0
focus_mode = 1
[node name="MaxAccel" type="HBoxContainer" parent="Controls"]
margin_top = 28.0
margin_right = 192.0
margin_bottom = 52.0
[node name="Label" type="Label" parent="Controls/MaxAccel"]
margin_top = 4.0
margin_right = 130.0
margin_bottom = 19.0
rect_min_size = Vector2( 130, 15 )
text = "Max acceleration"
[node name="LineEdit" type="LineEdit" parent="Controls/MaxAccel"]
margin_left = 134.0
margin_right = 192.0
margin_bottom = 24.0
focus_mode = 1
[node name="AlignmentTolerance" type="HBoxContainer" parent="Controls"]
margin_top = 56.0
margin_right = 192.0
margin_bottom = 80.0
[node name="Label" type="Label" parent="Controls/AlignmentTolerance"]
margin_top = 4.0
margin_right = 130.0
margin_bottom = 19.0
rect_min_size = Vector2( 130, 15 )
text = "Alignment tolerance"
[node name="LineEdit" type="LineEdit" parent="Controls/AlignmentTolerance"]
margin_left = 134.0
margin_right = 192.0
margin_bottom = 24.0
focus_mode = 1
[node name="DecelerationRadius" type="HBoxContainer" parent="Controls"]
margin_top = 84.0
margin_right = 192.0
margin_bottom = 108.0
[node name="Label" type="Label" parent="Controls/DecelerationRadius"]
margin_top = 4.0
margin_right = 130.0
margin_bottom = 19.0
rect_min_size = Vector2( 130, 15 )
text = "Deceleration radius"
[node name="LineEdit" type="LineEdit" parent="Controls/DecelerationRadius"]
margin_left = 134.0
margin_right = 192.0
margin_bottom = 24.0
focus_mode = 1
[node name="Help" type="VBoxContainer" parent="Controls"]
margin_top = 112.0
margin_right = 192.0
margin_bottom = 164.0
[node name="Controls" type="Label" parent="Controls/Help"]
margin_right = 192.0
margin_bottom = 14.0
text = "Controls"
[node name="GridContainer" type="GridContainer" parent="Controls/Help"]
margin_top = 18.0
margin_right = 192.0
margin_bottom = 52.0
columns = 3
[node name="Sep" type="Control" parent="Controls/Help/GridContainer"]
margin_right = 15.0
margin_bottom = 15.0
rect_min_size = Vector2( 15, 15 )
[node name="W" type="Label" parent="Controls/Help/GridContainer"]
margin_left = 19.0
margin_right = 34.0
margin_bottom = 15.0
rect_min_size = Vector2( 15, 15 )
text = "W"
align = 1
[node name="Sep2" type="Control" parent="Controls/Help/GridContainer"]
margin_left = 38.0
margin_right = 53.0
margin_bottom = 15.0
rect_min_size = Vector2( 15, 15 )
[node name="A" type="Label" parent="Controls/Help/GridContainer"]
margin_top = 19.0
margin_right = 15.0
margin_bottom = 34.0
rect_min_size = Vector2( 15, 15 )
text = "A"
align = 1
[node name="S" type="Label" parent="Controls/Help/GridContainer"]
margin_left = 19.0
margin_top = 19.0
margin_right = 34.0
margin_bottom = 34.0
rect_min_size = Vector2( 15, 15 )
text = "S"
align = 1
[node name="D" type="Label" parent="Controls/Help/GridContainer"]
margin_left = 38.0
margin_top = 19.0
margin_right = 53.0
margin_bottom = 34.0
rect_min_size = Vector2( 15, 15 )
text = "D"
align = 1

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extends KinematicBody2D
onready var collision_shape: = $CollisionShape2D
onready var agent: = GSTAgentLocation.new()
export var speed: = 125.0
var _radius: = 0.0
func _ready() -> void:
_radius = collision_shape.shape.radius
func _draw() -> void:
draw_circle(Vector2.ZERO, _radius, Color.red)
func _physics_process(delta: float) -> void:
var movement: = _get_movement()
move_and_slide(movement * speed)
_update_agent()
func _get_movement() -> Vector2:
return Vector2( Input.get_action_strength("sf_right") - Input.get_action_strength("sf_left"),
Input.get_action_strength("sf_down") - Input.get_action_strength("sf_up"))
func _update_agent() -> void:
agent.position = Vector3(global_position.x, global_position.y, 0)

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extends KinematicBody2D
onready var collision_shape: = $CollisionShape2D
var _radius: = 0.0
var _cannon: Rect2
var _agent: = GSTSteeringAgent.new()
var _accel: = GSTTargetAcceleration.new()
var _angular_velocity: = 0.0
var _angular_drag: = 1.0
var _face: GSTFace
func _ready() -> void:
_radius = collision_shape.shape.radius
_cannon = Rect2(Vector2(-5, 0), Vector2(10, -_radius*2))
func _draw() -> void:
draw_rect(_cannon, Color.blue)
draw_circle(Vector2.ZERO, _radius, Color.teal)
func _physics_process(delta: float) -> void:
if not _face:
return
_accel = _face.calculate_steering(_accel)
_angular_velocity += _accel.angular
if _angular_velocity < 0:
_angular_velocity += _angular_drag * delta
elif _angular_velocity > 0:
_angular_velocity -= _angular_drag * delta
rotation += _angular_velocity * delta
_update_agent()
func setup() -> void:
_face = GSTFace.new(_agent, owner.player.agent)
_face.alignment_tolerance = 0.1
_face.deceleration_radius = PI/2
_agent.max_angular_acceleration = 0.5
_agent.max_angular_speed = 5
_agent.position = Vector3(global_position.x, global_position.y, 0)
_update_agent()
func _update_agent() -> void:
_agent.angular_velocity = _angular_velocity
_agent.orientation = rotation

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[gd_scene format=2]
[node name="FollowPathDemo" type="Node2D"]

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[gd_scene load_steps=3 format=2]
[ext_resource path="res://demos/group_behaviors/Member.tscn" type="PackedScene" id=1]
[ext_resource path="res://demos/group_behaviors/Spawner.gd" type="Script" id=2]
[node name="GroupBehaviorsDemo" type="Node2D"]
[node name="Spawner" type="Node2D" parent="."]
position = Vector2( 397, 207 )
script = ExtResource( 2 )
member = ExtResource( 1 )

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extends KinematicBody2D
var agent: = GSTSteeringAgent.new()
var separation: GSTSeparation
var cohesion: GSTCohesion
var proximity: GSTRadiusProximity
var blend: = GSTBlend.new(agent)
var acceleration: = GSTTargetAcceleration.new()
var _radius: float
var _color: = Color.red
var _velocity: = Vector2()
onready var shape: = $CollisionShape2D
func _ready() -> void:
_radius = shape.shape.radius
_color = Color(rand_range(0.5, 1), rand_range(0.25, 1), rand_range(0, 1))
agent.max_linear_acceleration = 7
agent.max_linear_speed = 70
proximity = GSTRadiusProximity.new(agent, [], 140)
separation = GSTSeparation.new(agent, proximity)
separation.decay_coefficient = 2000
cohesion = GSTCohesion.new(agent, proximity)
blend.add(separation, 1.5)
blend.add(cohesion, 0.3)
func _draw() -> void:
draw_circle(Vector2.ZERO, _radius, _color)
func _process(delta: float) -> void:
update_agent()
if blend:
acceleration = blend.calculate_steering(acceleration)
_velocity = (_velocity + Vector2(acceleration.linear.x, acceleration.linear.y)).clamped(agent.max_linear_speed)
move_and_slide(_velocity)
func set_neighbors(neighbor: Array) -> void:
proximity.agents = neighbor
func update_agent() -> void:
var current_position: = global_position
agent.position.x = current_position.x
agent.position.y = current_position.y

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[gd_scene load_steps=3 format=2]
[ext_resource path="res://demos/group_behaviors/Member.gd" type="Script" id=1]
[sub_resource type="CircleShape2D" id=1]
radius = 15.0
[node name="Member" type="KinematicBody2D"]
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="."]
shape = SubResource( 1 )

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extends Node2D
export var member: PackedScene
func _ready() -> void:
var followers: = []
for i in range(19):
var follower: = member.instance()
add_child(follower)
follower.position += Vector2(rand_range(-60, 60), rand_range(-60, 60))
followers.append(follower)
var agents: = []
for i in followers:
agents.append(i.agent)
for i in followers:
i.proximity.agents = agents

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extends Node2D
# Wraps the ships' positions around the world border, and controls their rendering clones.
onready var ShipType: = preload("res://demos/pursue_vs_seek/Ship.gd")
onready var ships: = [$Player, $Pursuer, $Seeker]
var _clones: = {}
var _world_bounds: Vector2
func _ready() -> void:
_world_bounds = Vector2(
ProjectSettings["display/window/size/width"],
ProjectSettings["display/window/size/height"]
)
for i in range(ships.size()):
var ship: Node2D = ships[i]
var world_pos: = ship.position
for i in range(3):
var ship_clone: = ShipType.new()
ship_clone.position.x = world_pos.x if i == 1 else (world_pos.x - _world_bounds.x)
ship_clone.position.y = world_pos.y if i == 0 else (world_pos.y - _world_bounds.y)
ship_clone.rotation = ship.rotation
ship_clone.tag = i
ship_clone.name = ship.name + "Clone"
add_child(ship_clone)
ship_clone.generate_sprite(ship.get_node("Sprite"))
_clones[ship_clone] = ship
func _physics_process(delta: float) -> void:
for clone in _clones.keys():
var original: Node2D = _clones[clone]
var world_pos: Vector2 = original.position
if world_pos.y < 0:
original.position.y = _world_bounds.y + world_pos.y
elif world_pos.y > _world_bounds.y:
original.position.y = (world_pos.y - _world_bounds.y)
if world_pos.x < 0:
original.position.x = _world_bounds.x + world_pos.x
elif world_pos.x > _world_bounds.x:
original.position.x = (world_pos.x - _world_bounds.x)
var tag: int = clone.tag
if tag != 2:
if world_pos.x < _world_bounds.x/2:
clone.position.x = world_pos.x + _world_bounds.x
else:
clone.position.x = world_pos.x - _world_bounds.x
else:
clone.position.x = world_pos.x
if tag != 0:
if world_pos.y < _world_bounds.y/2:
clone.position.y = world_pos.y + _world_bounds.y
else:
clone.position.y = world_pos.y - _world_bounds.y
else:
clone.position.y = world_pos.y
clone.rotation = original.rotation

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extends PanelContainer
signal linear_speed_changed(value)
signal linear_accel_changed(value)
signal angular_speed_changed(value)
signal angular_accel_changed(value)
signal decel_radius_changed(value)
signal predict_time_changed(value)
onready var linear_speed: = $GUI/Controls/LinSpeedBox/MaxLinSpeed
onready var lin_speed_label: = $GUI/Controls/LinSpeedBox/Label
onready var linear_accel: = $GUI/Controls/LinAccelBox/MaxLinAccel
onready var lin_accel_label: = $GUI/Controls/LinAccelBox/Label
onready var predict_time: = $GUI/Controls/PredictTime/PredictTime
onready var predict_time_label: = $GUI/Controls/PredictTime/Label
func _ready() -> void:
linear_speed.connect("value_changed", self, "_on_Slider_linear_speed_changed")
linear_accel.connect("value_changed", self, "_on_Slider_linear_accel_changed")
predict_time.connect("value_changed", self, "_on_Slider_predict_time_changed")
func _on_Slider_linear_speed_changed(value: float) -> void:
lin_speed_label.text = "Max linear speed (" + str(value) + ")"
emit_signal("linear_speed_changed", value)
func _on_Slider_linear_accel_changed(value: float) -> void:
lin_accel_label.text = "Max linear accel (" + str(value) + ")"
emit_signal("linear_accel_changed", value)
func _on_Slider_predict_time_changed(value: float) -> void:
predict_time_label.text = "Predict time (" + str(value) + " sec)"
emit_signal("predict_time_changed", value)

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[gd_scene load_steps=3 format=2]
[ext_resource path="res://demos/pursue_vs_seek/GUI.gd" type="Script" id=1]
[ext_resource path="res://assets/theme/gdquest.theme" type="Theme" id=2]
[node name="PanelContainer" type="PanelContainer"]
anchor_bottom = 1.0
margin_right = 364.0
theme = ExtResource( 2 )
script = ExtResource( 1 )
__meta__ = {
"_edit_use_anchors_": false
}
[node name="GUI" type="MarginContainer" parent="."]
margin_right = 364.0
margin_bottom = 600.0
custom_constants/margin_right = 20
custom_constants/margin_top = 20
custom_constants/margin_left = 20
custom_constants/margin_bottom = 20
__meta__ = {
"_edit_use_anchors_": false
}
[node name="Controls" type="VBoxContainer" parent="GUI"]
margin_left = 20.0
margin_top = 20.0
margin_right = 344.0
margin_bottom = 580.0
[node name="LinSpeedBox" type="VBoxContainer" parent="GUI/Controls"]
margin_right = 324.0
margin_bottom = 50.0
[node name="Label" type="Label" parent="GUI/Controls/LinSpeedBox"]
margin_right = 324.0
margin_bottom = 26.0
text = "Max linear speed (2000)"
[node name="MaxLinSpeed" type="HSlider" parent="GUI/Controls/LinSpeedBox"]
margin_top = 34.0
margin_right = 324.0
margin_bottom = 50.0
max_value = 500.0
[node name="LinAccelBox" type="VBoxContainer" parent="GUI/Controls"]
margin_top = 58.0
margin_right = 324.0
margin_bottom = 108.0
[node name="Label" type="Label" parent="GUI/Controls/LinAccelBox"]
margin_right = 324.0
margin_bottom = 26.0
text = "Max linear accel (2000)"
[node name="MaxLinAccel" type="HSlider" parent="GUI/Controls/LinAccelBox"]
margin_top = 34.0
margin_right = 324.0
margin_bottom = 50.0
step = 0.5
[node name="PredictTime" type="VBoxContainer" parent="GUI/Controls"]
margin_top = 116.0
margin_right = 324.0
margin_bottom = 166.0
[node name="Label" type="Label" parent="GUI/Controls/PredictTime"]
margin_right = 324.0
margin_bottom = 26.0
text = "Predict time (2000)"
[node name="PredictTime" type="HSlider" parent="GUI/Controls/PredictTime"]
margin_top = 34.0
margin_right = 324.0
margin_bottom = 50.0
max_value = 5.0
step = 0.1
[node name="Help" type="VBoxContainer" parent="GUI/Controls"]
margin_top = 174.0
margin_right = 324.0
margin_bottom = 264.0
[node name="Controls" type="Label" parent="GUI/Controls/Help"]
margin_right = 324.0
margin_bottom = 26.0
text = "Controls"
[node name="GridContainer" type="GridContainer" parent="GUI/Controls/Help"]
margin_top = 34.0
margin_right = 324.0
margin_bottom = 90.0
columns = 3
[node name="Sep" type="Control" parent="GUI/Controls/Help/GridContainer"]
margin_right = 15.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
[node name="W" type="Label" parent="GUI/Controls/Help/GridContainer"]
margin_left = 19.0
margin_right = 42.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
text = "W"
align = 1
[node name="Sep2" type="Control" parent="GUI/Controls/Help/GridContainer"]
margin_left = 46.0
margin_right = 63.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
[node name="A" type="Label" parent="GUI/Controls/Help/GridContainer"]
margin_top = 30.0
margin_right = 15.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "A"
align = 1
[node name="S" type="Label" parent="GUI/Controls/Help/GridContainer"]
margin_left = 19.0
margin_top = 30.0
margin_right = 42.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "S"
align = 1
[node name="D" type="Label" parent="GUI/Controls/Help/GridContainer"]
margin_left = 46.0
margin_top = 30.0
margin_right = 63.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "D"
align = 1

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extends "res://demos/pursue_vs_seek/Ship.gd"
# Controls the player ship's movements based on player input.
onready var agent: = GSTSteeringAgent.new()
export var thruster_strength: = 150.0
export var side_thruster_strength: = 10.0
export var max_velocity: = 150.0
export var max_angular_velocity: = 2.0
export var angular_drag: = 5.0
export var linear_drag: = 100.0
var _linear_velocity: = Vector2()
var _angular_velocity: = 0.0
func _physics_process(delta: float) -> void:
var movement: = _get_movement()
_angular_velocity = _calculate_angular_velocity(
movement.x,
_angular_velocity,
side_thruster_strength,
max_angular_velocity,
angular_drag,
delta
)
rotation += (_angular_velocity * delta)
_linear_velocity = _calculate_linear_velocity(
movement.y,
_linear_velocity,
Vector2.UP.rotated(rotation),
linear_drag,
thruster_strength,
max_velocity,
delta
)
_linear_velocity = move_and_slide(_linear_velocity)
_update_agent(_linear_velocity, rotation)
func _calculate_angular_velocity(
horizontal_movement: float,
current_velocity: float,
thruster_strength: float,
max_velocity: float,
ship_drag: float,
delta: float) -> float:
var velocity: = clamp(
current_velocity + thruster_strength * horizontal_movement * delta,
-max_velocity,
max_velocity
)
if velocity > 0:
velocity -= ship_drag * delta
elif velocity < 0:
velocity += ship_drag * delta
if abs(velocity) < 0.01:
velocity = 0
return velocity
func _calculate_linear_velocity(
vertical_movement: float,
current_velocity: Vector2,
facing_direction: Vector2,
ship_drag: float,
strength: float,
max_speed: float,
delta: float) -> Vector2:
var actual_strength: = 0.0
if vertical_movement > 0:
actual_strength = strength
elif vertical_movement < 0:
actual_strength = -strength/1.5
var velocity: = current_velocity + facing_direction * actual_strength * delta
velocity -= current_velocity.normalized() * (ship_drag * delta)
return velocity.clamped(max_speed)
func _get_movement() -> Vector2:
return Vector2( Input.get_action_strength("sf_right") - Input.get_action_strength("sf_left"),
Input.get_action_strength("sf_up") - Input.get_action_strength("sf_down"))
func _update_agent(velocity: Vector2, orientation: float) -> void:
agent.position.x = global_position.x
agent.position.y = global_position.y
agent.linear_velocity.x = velocity.x
agent.linear_velocity.y = velocity.y
agent.angular_velocity = _angular_velocity
agent.orientation = orientation

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extends Node2D
onready var gui: = $GUI
onready var pursuer: = $BoundaryManager/Pursuer
onready var seeker: = $BoundaryManager/Seeker
export var start_linear_speed: = 200.0
export var start_linear_accel: = 25.0
export var start_predict_time: = 0.3
func _ready() -> void:
gui.connect("linear_accel_changed", self, "_on_GUI_linear_accel_changed")
gui.connect("linear_speed_changed", self, "_on_GUI_linear_speed_changed")
gui.connect("predict_time_changed", self, "_on_GUI_predict_time_changed")
yield(get_tree(), "idle_frame")
gui.linear_speed.value = start_linear_speed
gui.linear_accel.value = start_linear_accel
gui.predict_time.value = start_predict_time
func _on_GUI_linear_accel_changed(value: int) -> void:
pursuer.agent.max_linear_acceleration = float(value)
seeker.agent.max_linear_acceleration = float(value)
func _on_GUI_linear_speed_changed(value: int) -> void:
pursuer.agent.max_linear_speed = float(value)
seeker.agent.max_linear_speed = float(value)
func _on_GUI_predict_time_changed(value: int) -> void:
pursuer._behavior.max_predict_time = float(value)

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[gd_scene load_steps=7 format=2]
[ext_resource path="res://demos/pursue_vs_seek/Pursuer.gd" type="Script" id=1]
[ext_resource path="res://demos/pursue_vs_seek/Player.gd" type="Script" id=2]
[ext_resource path="res://demos/pursue_vs_seek/BoundaryManager.gd" type="Script" id=3]
[ext_resource path="res://demos/pursue_vs_seek/PursueVSSeekDemo.gd" type="Script" id=4]
[ext_resource path="res://demos/pursue_vs_seek/GUI.tscn" type="PackedScene" id=5]
[ext_resource path="res://assets/sprites/triangle.png" type="Texture" id=6]
[node name="PursueVSSeekDemo" type="Node2D"]
script = ExtResource( 4 )
__meta__ = {
"_editor_description_": "Toy demo to demonstrate the use of the Pursue contrasted to the more naive Seek steering behavior."
}
start_linear_speed = 150.0
start_linear_accel = 75.0
start_predict_time = 2.0
[node name="BoundaryManager" type="Node2D" parent="."]
script = ExtResource( 3 )
[node name="Player" type="KinematicBody2D" parent="BoundaryManager"]
position = Vector2( 49.2031, 556.936 )
rotation = 1.5708
collision_mask = 2
script = ExtResource( 2 )
[node name="CollisionPolygon2D" type="CollisionPolygon2D" parent="BoundaryManager/Player"]
polygon = PoolVector2Array( 0, -32, -24, 32, 24, 32 )
[node name="Sprite" type="Sprite" parent="BoundaryManager/Player"]
modulate = Color( 0.968627, 0.188235, 0.0352941, 1 )
texture = ExtResource( 6 )
[node name="Pursuer" type="KinematicBody2D" parent="BoundaryManager"]
position = Vector2( 868.495, 87.9043 )
collision_layer = 2
script = ExtResource( 1 )
[node name="CollisionPolygon2D" type="CollisionPolygon2D" parent="BoundaryManager/Pursuer"]
polygon = PoolVector2Array( 0, -32, -24, 32, 24, 32 )
[node name="Sprite" type="Sprite" parent="BoundaryManager/Pursuer"]
modulate = Color( 0.756863, 0.952941, 0.054902, 1 )
texture = ExtResource( 6 )
[node name="Seeker" type="KinematicBody2D" parent="BoundaryManager"]
position = Vector2( 821.24, 87.9043 )
collision_layer = 2
script = ExtResource( 1 )
use_seek = true
[node name="CollisionPolygon2D" type="CollisionPolygon2D" parent="BoundaryManager/Seeker"]
polygon = PoolVector2Array( 0, -32, -24, 32, 24, 32 )
[node name="Sprite" type="Sprite" parent="BoundaryManager/Seeker"]
modulate = Color( 0.278431, 0.815686, 0.14902, 1 )
texture = ExtResource( 6 )
[node name="GUI" parent="." instance=ExtResource( 5 )]
margin_right = 309.0

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extends "res://demos/pursue_vs_seek/Ship.gd"
# Represents a ship that chases after the player.
onready var agent: = GSTSteeringAgent.new()
onready var accel: = GSTTargetAcceleration.new()
onready var player_agent: GSTSteeringAgent = owner.find_node("Player", true, false).agent
export var use_seek: bool = false
var _orient_behavior: GSTSteeringBehavior
var _behavior: GSTSteeringBehavior
var _linear_velocity: = Vector2()
var _angular_velocity: = 0.0
var _angular_drag: = 1.0
func _ready() -> void:
_setup()
func _setup() -> void:
if use_seek:
_behavior = GSTSeek.new(agent, player_agent)
else:
_behavior = GSTPursue.new(agent, player_agent, 2)
_orient_behavior = GSTLookWhereYouGo.new(agent)
_orient_behavior.alignment_tolerance = 0.001
_orient_behavior.deceleration_radius = PI/2
agent.max_angular_acceleration = 2
agent.max_angular_speed = 5
agent.max_linear_acceleration = 75
agent.max_linear_speed = 125
_update_agent()
func _physics_process(delta: float) -> void:
accel = _orient_behavior.calculate_steering(accel)
_angular_velocity += accel.angular
if _angular_velocity < 0:
_angular_velocity += _angular_drag * delta
elif _angular_velocity > 0:
_angular_velocity -= _angular_drag * delta
rotation = rotation + _angular_velocity * delta
accel = _behavior.calculate_steering(accel)
_linear_velocity += Vector2(accel.linear.x, accel.linear.y) * delta
_linear_velocity -= _linear_velocity.normalized() * 10 * delta
_linear_velocity = _linear_velocity.clamped(agent.max_linear_speed)
_linear_velocity = move_and_slide(_linear_velocity)
_update_agent()
func _update_agent() -> void:
agent.position.x = global_position.x
agent.position.y = global_position.y
agent.orientation = rotation
agent.linear_velocity.x = _linear_velocity.x
agent.linear_velocity.y = _linear_velocity.y
agent.angular_velocity = _angular_velocity

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extends KinematicBody2D
# Represents a basic ship
var tag: int = 0
func generate_sprite(sprite: Sprite) -> void:
var new_sprite = Sprite.new()
new_sprite.texture = sprite.texture
new_sprite.modulate = sprite.modulate
new_sprite.name = "Sprite"
add_child(new_sprite)

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extends StaticBody2D
# Draws the bounding box of the static body wall.
var rect: Rect2
func _ready() -> void:
var extents: = ($CollisionShape2D.shape as RectangleShape2D).extents
rect = Rect2(-extents, extents*2)
func _draw() -> void:
draw_rect(rect, Color.yellowgreen)

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extends PanelContainer
enum BehaviorMode { SEEK, FLEE }
signal mode_changed(behavior_mode)
signal accel_changed(value)
signal speed_changed(value)
onready var seek: = $MarginContainer/BehaviorControls/Seek
onready var flee: = $MarginContainer/BehaviorControls/Flee
onready var max_accel: = $MarginContainer/BehaviorControls/MaxAccelValue
onready var max_speed: = $MarginContainer/BehaviorControls/MaxSpeedValue
onready var max_accel_label: = $MarginContainer/BehaviorControls/MaxAccel
onready var max_speed_label: = $MarginContainer/BehaviorControls/MaxSpeed
func _ready() -> void:
seek.connect("pressed", self, "_on_Seek_pressed")
flee.connect("pressed", self, "_on_Flee_pressed")
max_accel.connect("value_changed", self, "_on_Accel_changed")
max_speed.connect("value_changed", self, "_on_Speed_changed")
max_accel_label.text = "Max accel (" + str(max_accel.value) + ")"
max_speed_label.text = "Max speed (" + str(max_speed.value) + ")"
func _on_Seek_pressed() -> void:
flee.pressed = false
flee.button_mask = BUTTON_MASK_LEFT
seek.button_mask = 0
emit_signal("mode_changed", BehaviorMode.SEEK)
func _on_Flee_pressed() -> void:
seek.pressed = false
seek.button_mask = BUTTON_MASK_LEFT
flee.button_mask = 0
emit_signal("mode_changed", BehaviorMode.FLEE)
func _on_Accel_changed(value: float) -> void:
max_accel_label.text = "Max accel (" + str(value) + ")"
emit_signal("accel_changed", value)
func _on_Speed_changed(value: float) -> void:
max_speed_label.text = "Max speed (" + str(value) + ")"
emit_signal("speed_changed", value)

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[gd_scene load_steps=3 format=2]
[ext_resource path="res://assets/theme/gdquest.theme" type="Theme" id=1]
[ext_resource path="res://demos/seek_and_flee/GUI.gd" type="Script" id=3]
[node name="GUI" type="PanelContainer"]
anchor_bottom = 1.0
margin_right = 118.0
theme = ExtResource( 1 )
script = ExtResource( 3 )
__meta__ = {
"_edit_use_anchors_": false
}
[node name="MarginContainer" type="MarginContainer" parent="."]
margin_right = 218.0
margin_bottom = 600.0
custom_constants/margin_right = 20
custom_constants/margin_top = 20
custom_constants/margin_left = 20
custom_constants/margin_bottom = 20
__meta__ = {
"_edit_use_anchors_": false
}
[node name="BehaviorControls" type="VBoxContainer" parent="MarginContainer"]
margin_left = 20.0
margin_top = 20.0
margin_right = 198.0
margin_bottom = 580.0
[node name="Seek" type="CheckBox" parent="MarginContainer/BehaviorControls"]
margin_right = 178.0
margin_bottom = 26.0
focus_mode = 0
pressed = true
enabled_focus_mode = 0
text = "Seek"
[node name="Flee" type="CheckBox" parent="MarginContainer/BehaviorControls"]
margin_top = 34.0
margin_right = 178.0
margin_bottom = 60.0
focus_mode = 0
enabled_focus_mode = 0
text = "Flee"
[node name="MaxAccel" type="Label" parent="MarginContainer/BehaviorControls"]
margin_top = 68.0
margin_right = 178.0
margin_bottom = 94.0
text = "Max accel (2000)"
__meta__ = {
"_edit_use_anchors_": false
}
[node name="MaxAccelValue" type="HSlider" parent="MarginContainer/BehaviorControls"]
margin_top = 102.0
margin_right = 178.0
margin_bottom = 118.0
max_value = 250.0
step = 0.5
value = 20.0
[node name="MaxSpeed" type="Label" parent="MarginContainer/BehaviorControls"]
margin_top = 126.0
margin_right = 178.0
margin_bottom = 152.0
text = "Max speed (2000)"
__meta__ = {
"_edit_use_anchors_": false
}
[node name="MaxSpeedValue" type="HSlider" parent="MarginContainer/BehaviorControls"]
margin_top = 160.0
margin_right = 178.0
margin_bottom = 176.0
max_value = 450.0
value = 100.0
[node name="Help" type="VBoxContainer" parent="MarginContainer/BehaviorControls"]
margin_top = 184.0
margin_right = 178.0
margin_bottom = 274.0
[node name="Controls" type="Label" parent="MarginContainer/BehaviorControls/Help"]
margin_right = 178.0
margin_bottom = 26.0
text = "Controls"
[node name="GridContainer" type="GridContainer" parent="MarginContainer/BehaviorControls/Help"]
margin_left = 57.0
margin_top = 34.0
margin_right = 120.0
margin_bottom = 90.0
size_flags_horizontal = 4
columns = 3
[node name="Sep" type="Control" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_right = 15.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
[node name="W" type="Label" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_left = 19.0
margin_right = 42.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
text = "W"
align = 1
[node name="Sep2" type="Control" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_left = 46.0
margin_right = 63.0
margin_bottom = 26.0
rect_min_size = Vector2( 15, 15 )
[node name="A" type="Label" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_top = 30.0
margin_right = 15.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "A"
align = 1
[node name="S" type="Label" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_left = 19.0
margin_top = 30.0
margin_right = 42.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "S"
align = 1
[node name="D" type="Label" parent="MarginContainer/BehaviorControls/Help/GridContainer"]
margin_left = 46.0
margin_top = 30.0
margin_right = 63.0
margin_bottom = 56.0
rect_min_size = Vector2( 15, 15 )
text = "D"
align = 1

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extends KinematicBody2D
# Class to control the player in basic left/right up/down movement.
onready var agent: = GSTAgentLocation.new()
export var speed: = 150.0
func _get_movement() -> Vector2:
return Vector2( Input.get_action_strength("sf_right") - Input.get_action_strength("sf_left"),
Input.get_action_strength("sf_down") - Input.get_action_strength("sf_up"))
func _physics_process(delta: float) -> void:
var movement: = _get_movement()
if movement.length_squared() < 0.01:
return
move_and_slide(movement * speed)
agent.position = Vector3(global_position.x, global_position.y, 0)

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extends Node2D
# Access helper class for children to access window boundaries.
onready var player: KinematicBody2D = $Player
onready var spawner: Node2D = $Spawner
onready var gui: = $GUI
var camera_boundaries: Rect2
func _init() -> void:
camera_boundaries = Rect2(
Vector2.ZERO,
Vector2(
ProjectSettings["display/window/size/width"],
ProjectSettings["display/window/size/height"]
)
)
func _ready() -> void:
var rng: = RandomNumberGenerator.new()
rng.randomize()
gui.max_accel.value = spawner.max_accel
gui.max_speed.value = spawner.max_speed
for i in range(spawner.entity_count):
var new_pos: = Vector2(
rng.randf_range(-camera_boundaries.size.x/2, camera_boundaries.size.x/2),
rng.randf_range(-camera_boundaries.size.y/2, camera_boundaries.size.y/2)
)
var entity: KinematicBody2D = spawner.Entity.instance()
entity.global_position = new_pos
entity.player_agent = player.agent
entity.start_speed = spawner.max_speed
entity.start_accel = spawner.max_accel
gui.connect("mode_changed", entity, "_on_GUI_mode_changed")
gui.connect("accel_changed", entity, "_on_GUI_accel_changed")
gui.connect("speed_changed", entity, "_on_GUI_speed_changed")
spawner.add_child(entity)

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[gd_scene load_steps=11 format=2]
[ext_resource path="res://demos/seek_and_flee/Boundary.gd" type="Script" id=1]
[ext_resource path="res://demos/seek_and_flee/Player.gd" type="Script" id=2]
[ext_resource path="res://demos/seek_and_flee/SeekFleeDemo.gd" type="Script" id=3]
[ext_resource path="res://demos/seek_and_flee/Spawner.gd" type="Script" id=4]
[ext_resource path="res://demos/seek_and_flee/GUI.tscn" type="PackedScene" id=5]
[ext_resource path="res://demos/seek_and_flee/Seeker.tscn" type="PackedScene" id=6]
[ext_resource path="res://assets/sprites/large_circle.png" type="Texture" id=7]
[sub_resource type="CircleShape2D" id=1]
radius = 32.0
[sub_resource type="RectangleShape2D" id=2]
extents = Vector2( 10, 300 )
[sub_resource type="RectangleShape2D" id=3]
extents = Vector2( 512, 10 )
[node name="SeekFleeDemo" type="Node2D"]
script = ExtResource( 3 )
__meta__ = {
"_editor_description_": "A toy demo to demonstrate the usage for the Seek and Flee steering behaviors."
}
[node name="Camera2D" type="Camera2D" parent="."]
current = true
[node name="Player" type="KinematicBody2D" parent="."]
collision_mask = 2
script = ExtResource( 2 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="Player"]
shape = SubResource( 1 )
[node name="Sprite" type="Sprite" parent="Player"]
modulate = Color( 0.952941, 0.290196, 0.0588235, 1 )
texture = ExtResource( 7 )
[node name="LeftBoundary" type="StaticBody2D" parent="."]
position = Vector2( -512, 0 )
collision_layer = 2
collision_mask = 5
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="LeftBoundary"]
shape = SubResource( 2 )
[node name="RightBoundary" type="StaticBody2D" parent="."]
position = Vector2( 512, 0 )
collision_layer = 2
collision_mask = 5
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="RightBoundary"]
shape = SubResource( 2 )
[node name="TopBoundary" type="StaticBody2D" parent="."]
position = Vector2( 0, -300 )
collision_layer = 2
collision_mask = 5
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="TopBoundary"]
shape = SubResource( 3 )
[node name="BottomBoundary" type="StaticBody2D" parent="."]
position = Vector2( 0, 300 )
collision_layer = 2
collision_mask = 5
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="BottomBoundary"]
shape = SubResource( 3 )
[node name="Spawner" type="Node2D" parent="."]
script = ExtResource( 4 )
Entity = ExtResource( 6 )
max_speed = 150.0
[node name="GUI" parent="." instance=ExtResource( 5 )]
anchor_bottom = 0.0
margin_left = -512.0
margin_top = -300.0
margin_right = -294.0
margin_bottom = 14.0

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extends KinematicBody2D
# AI agent that uses the Seek behavior to hone in on the player's location as directly as possible.
onready var agent: = GSTSteeringAgent.new()
onready var accel: = GSTTargetAcceleration.new()
onready var seek: = GSTSeek.new(agent, player_agent)
onready var flee: = GSTFlee.new(agent, player_agent)
onready var _active_behavior: = seek
var player_agent: GSTAgentLocation
var velocity: = Vector2.ZERO
var start_speed: float
var start_accel: float
func _ready() -> void:
agent.max_linear_acceleration = start_accel
agent.max_linear_speed = start_speed
func _physics_process(delta: float) -> void:
if not player_agent:
return
_update_agent()
accel = _active_behavior.calculate_steering(accel)
velocity = (velocity + Vector2(accel.linear.x, accel.linear.y)).clamped(agent.max_linear_speed)
velocity = move_and_slide(velocity)
func _update_agent() -> void:
agent.position.x = global_position.x
agent.position.y = global_position.y
agent.linear_velocity.x = velocity.x
agent.linear_velocity.y = velocity.y
func _on_GUI_mode_changed(mode: int) -> void:
if mode == 0:
_active_behavior = seek
else:
_active_behavior = flee
func _on_GUI_accel_changed(value: float) -> void:
agent.max_linear_acceleration = value
func _on_GUI_speed_changed(value: float) -> void:
agent.max_linear_speed = value

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[gd_scene load_steps=4 format=2]
[ext_resource path="res://demos/seek_and_flee/Seeker.gd" type="Script" id=1]
[ext_resource path="res://assets/sprites/small_circle.png" type="Texture" id=2]
[sub_resource type="CircleShape2D" id=1]
radius = 16.0
[node name="Seeker" type="KinematicBody2D"]
collision_layer = 4
collision_mask = 2
script = ExtResource( 1 )
[node name="CollisionShape2D" type="CollisionShape2D" parent="."]
shape = SubResource( 1 )
[node name="Sprite" type="Sprite" parent="."]
modulate = Color( 0.113725, 0.635294, 0.94902, 1 )
texture = ExtResource( 2 )

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extends Node2D
# Holds data to instantiate and configure a number of agent entities.
export(PackedScene) var Entity: PackedScene
export var entity_count: = 10
export var entity_color: = Color.blue
export var max_speed: = 100.0
export var max_accel: = 20.0

BIN
project/icon.png Normal file

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After

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34
project/icon.png.import Normal file
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[remap]
importer="texture"
type="StreamTexture"
path="res://.import/icon.png-487276ed1e3a0c39cad0279d744ee560.stex"
metadata={
"vram_texture": false
}
[deps]
source_file="res://icon.png"
dest_files=[ "res://.import/icon.png-487276ed1e3a0c39cad0279d744ee560.stex" ]
[params]
compress/mode=0
compress/lossy_quality=0.7
compress/hdr_mode=0
compress/bptc_ldr=0
compress/normal_map=0
flags/repeat=0
flags/filter=true
flags/mipmaps=false
flags/anisotropic=false
flags/srgb=2
process/fix_alpha_border=true
process/premult_alpha=false
process/HDR_as_SRGB=false
process/invert_color=false
stream=false
size_limit=0
detect_3d=true
svg/scale=1.0

193
project/project.godot Normal file
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; Engine configuration file.
; It's best edited using the editor UI and not directly,
; since the parameters that go here are not all obvious.
;
; Format:
; [section] ; section goes between []
; param=value ; assign values to parameters
config_version=4
_global_script_classes=[ {
"base": "Reference",
"class": "GSTAgentLocation",
"language": "GDScript",
"path": "res://src/GSTAgentLocation.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTArrive",
"language": "GDScript",
"path": "res://src/behaviors/GSTArrive.gd"
}, {
"base": "GSTGroupBehavior",
"class": "GSTAvoidCollisions",
"language": "GDScript",
"path": "res://src/behaviors/GSTAvoidCollisions.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTBlend",
"language": "GDScript",
"path": "res://src/behaviors/GSTBlend.gd"
}, {
"base": "GSTGroupBehavior",
"class": "GSTCohesion",
"language": "GDScript",
"path": "res://src/behaviors/GSTCohesion.gd"
}, {
"base": "GSTPursue",
"class": "GSTEvade",
"language": "GDScript",
"path": "res://src/behaviors/GSTEvade.gd"
}, {
"base": "GSTMatchOrientation",
"class": "GSTFace",
"language": "GDScript",
"path": "res://src/behaviors/GSTFace.gd"
}, {
"base": "GSTSeek",
"class": "GSTFlee",
"language": "GDScript",
"path": "res://src/behaviors/GSTFlee.gd"
}, {
"base": "GSTArrive",
"class": "GSTFollowPath",
"language": "GDScript",
"path": "res://src/behaviors/GSTFollowPath.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTGroupBehavior",
"language": "GDScript",
"path": "res://src/GSTGroupBehavior.gd"
}, {
"base": "GSTProximity",
"class": "GSTInfiniteProximity",
"language": "GDScript",
"path": "res://src/proximities/GSTInfiniteProximity.gd"
}, {
"base": "GSTMatchOrientation",
"class": "GSTLookWhereYouGo",
"language": "GDScript",
"path": "res://src/behaviors/GSTLookWhereYouGo.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTMatchOrientation",
"language": "GDScript",
"path": "res://src/behaviors/GSTMatchOrientation.gd"
}, {
"base": "Reference",
"class": "GSTPath",
"language": "GDScript",
"path": "res://src/GSTPath.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTPriority",
"language": "GDScript",
"path": "res://src/behaviors/GSTPriority.gd"
}, {
"base": "Reference",
"class": "GSTProximity",
"language": "GDScript",
"path": "res://src/proximities/GSTProximity.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTPursue",
"language": "GDScript",
"path": "res://src/behaviors/GSTPursue.gd"
}, {
"base": "GSTProximity",
"class": "GSTRadiusProximity",
"language": "GDScript",
"path": "res://src/proximities/GSTRadiusProximity.gd"
}, {
"base": "GSTSteeringBehavior",
"class": "GSTSeek",
"language": "GDScript",
"path": "res://src/behaviors/GSTSeek.gd"
}, {
"base": "GSTGroupBehavior",
"class": "GSTSeparation",
"language": "GDScript",
"path": "res://src/behaviors/GSTSeparation.gd"
}, {
"base": "GSTAgentLocation",
"class": "GSTSteeringAgent",
"language": "GDScript",
"path": "res://src/GSTSteeringAgent.gd"
}, {
"base": "Reference",
"class": "GSTSteeringBehavior",
"language": "GDScript",
"path": "res://src/GSTSteeringBehavior.gd"
}, {
"base": "Reference",
"class": "GSTTargetAcceleration",
"language": "GDScript",
"path": "res://src/GSTTargetAcceleration.gd"
}, {
"base": "Reference",
"class": "GSTUtils",
"language": "GDScript",
"path": "res://src/GSTUtils.gd"
} ]
_global_script_class_icons={
"GSTAgentLocation": "",
"GSTArrive": "",
"GSTAvoidCollisions": "",
"GSTBlend": "",
"GSTCohesion": "",
"GSTEvade": "",
"GSTFace": "",
"GSTFlee": "",
"GSTFollowPath": "",
"GSTGroupBehavior": "",
"GSTInfiniteProximity": "",
"GSTLookWhereYouGo": "",
"GSTMatchOrientation": "",
"GSTPath": "",
"GSTPriority": "",
"GSTProximity": "",
"GSTPursue": "",
"GSTRadiusProximity": "",
"GSTSeek": "",
"GSTSeparation": "",
"GSTSteeringAgent": "",
"GSTSteeringBehavior": "",
"GSTTargetAcceleration": "",
"GSTUtils": ""
}
[application]
config/name="SteeringToolkit"
config/icon="res://icon.png"
[input]
sf_left={
"deadzone": 0.5,
"events": [ Object(InputEventKey,"resource_local_to_scene":false,"resource_name":"","device":0,"alt":false,"shift":false,"control":false,"meta":false,"command":false,"pressed":false,"scancode":65,"unicode":0,"echo":false,"script":null)
, Object(InputEventJoypadMotion,"resource_local_to_scene":false,"resource_name":"","device":0,"axis":0,"axis_value":-1.0,"script":null)
]
}
sf_right={
"deadzone": 0.5,
"events": [ Object(InputEventKey,"resource_local_to_scene":false,"resource_name":"","device":0,"alt":false,"shift":false,"control":false,"meta":false,"command":false,"pressed":false,"scancode":68,"unicode":0,"echo":false,"script":null)
, Object(InputEventJoypadMotion,"resource_local_to_scene":false,"resource_name":"","device":0,"axis":0,"axis_value":1.0,"script":null)
]
}
sf_up={
"deadzone": 0.5,
"events": [ Object(InputEventKey,"resource_local_to_scene":false,"resource_name":"","device":0,"alt":false,"shift":false,"control":false,"meta":false,"command":false,"pressed":false,"scancode":87,"unicode":0,"echo":false,"script":null)
, Object(InputEventJoypadMotion,"resource_local_to_scene":false,"resource_name":"","device":0,"axis":1,"axis_value":-1.0,"script":null)
]
}
sf_down={
"deadzone": 0.5,
"events": [ Object(InputEventKey,"resource_local_to_scene":false,"resource_name":"","device":0,"alt":false,"shift":false,"control":false,"meta":false,"command":false,"pressed":false,"scancode":83,"unicode":0,"echo":false,"script":null)
, Object(InputEventJoypadMotion,"resource_local_to_scene":false,"resource_name":"","device":0,"axis":1,"axis_value":1.0,"script":null)
]
}
[rendering]
environment/default_environment="res://default_env.tres"

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class_name GSTAgentLocation
# Data type to represent an agent with a location and an orientation
var position: = Vector3.ZERO
var orientation: = 0.0

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extends GSTSteeringBehavior
class_name GSTGroupBehavior
# Extended behavior that features a Proximity group for group-based behaviors.
var proximity: GSTProximity
var _callback: = funcref(self, "report_neighbor")
func _init(agent: GSTSteeringAgent, proximity: GSTProximity).(agent) -> void:
self.proximity = proximity
func report_neighbor(neighbor: GSTSteeringAgent) -> bool:
return false

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project/src/GSTPath.gd Normal file
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extends Reference
class_name GSTPath
# Represents a path made up of Vector3 waypoints, split into path segments for use by path
# following algorithms.
# # Keeping it updated requires calling `create_path` to update the path.
var open: bool
var path_length: float
var _segments: Array
var _nearest_point_on_segment: Vector3
var _nearest_point_on_path: Vector3
func _init(waypoints: Array, is_open: = false) -> void:
self.is_open = is_open
create_path(waypoints)
_nearest_point_on_segment = waypoints[0]
_nearest_point_on_path = waypoints[0]
func create_path(waypoints: Array) -> void:
if not waypoints or waypoints.size() < 2:
printerr("Waypoints cannot be null and must contain at least two (2) waypoints.")
_segments = []
path_length = 0
var current: Vector3 = _segments[0]
var previous: Vector3
for i in range(1, waypoints.size(), 1):
previous = current
if i < waypoints.size():
current = waypoints[i]
elif open:
break
else:
current = waypoints[0]
var segment: = GSTSegment.new(previous, current)
path_length += segment.length
segment.cumulative_length = path_length
_segments.append(segment)
func calculate_distance(agent_current_position: Vector3, path_parameter: Dictionary) -> float:
var smallest_distance_squared: float = INF
var nearest_segment: GSTSegment
for i in range(_segments.size()):
var segment: GSTSegment = _segments[i]
var distance_squared: = _calculate_point_segment_distance_squared(
segment.begin,
segment.end,
agent_current_position)
if distance_squared < smallest_distance_squared:
_nearest_point_on_path = _nearest_point_on_segment
smallest_distance_squared = distance_squared
nearest_segment = segment
path_parameter.segment_index = i
var length_on_path: = (
nearest_segment.cumulative_length -
_nearest_point_on_path.distance_to(nearest_segment.end))
path_parameter.distance = length_on_path
return length_on_path
func calculate_target_position(param: Dictionary, target_distance: float) -> Vector3:
if open:
target_distance = clamp(target_distance, 0, path_length)
else:
if target_distance < 0:
target_distance = path_length + fmod(target_distance, path_length)
elif target_distance > path_length:
target_distance = fmod(target_distance, path_length)
var desired_segment: GSTSegment
for i in range(_segments.size()):
var segment: GSTSegment = _segments[i]
if segment.cumulative_length >= target_distance:
desired_segment = segment
break
var distance: = desired_segment.cumulative_length - target_distance
return (
(desired_segment.begin - desired_segment.end) *
(distance / desired_segment.length) + desired_segment.end)
func get_start_point() -> Vector3:
return _segments.front().begin
func get_end_point() -> Vector3:
return _segments.back().end
func _calculate_point_segment_distance_squared(start: Vector3, end: Vector3, position: Vector3) -> float:
_nearest_point_on_segment = start
var start_end: = end - start
var start_end_length_squared: = start_end.length_squared()
if start_end_length_squared != 0:
var t = (position - start).dot(start_end) / start_end_length_squared
_nearest_point_on_segment += start_end * clamp(t, 0, 1)
return _nearest_point_on_segment.distance_squared_to(position)
class GSTSegment:
var begin: Vector3
var end: Vector3
var length: float
var cumulative_length: float
func _init(begin: Vector3, end: Vector3) -> void:
self.begin = begin
self.end = end
length = begin.distance_to(end)

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extends GSTAgentLocation
class_name GSTSteeringAgent
# Extended agent data type that adds velocity, speed, and size data
var zero_linear_speed_threshold: = 0.01
var max_linear_speed: = 0.0
var max_linear_acceleration: = 0.0
var max_angular_speed: = 0.0
var max_angular_acceleration: = 0.0
var linear_velocity: = Vector3.ZERO
var angular_velocity: = 0.0
var bounding_radius: = 0.0
var tagged: = false

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class_name GSTSteeringBehavior
# Base class to calculate how an AI agent steers itself.
var enabled: = true
var agent: GSTSteeringAgent
func _init(agent: GSTSteeringAgent) -> void:
self.agent = agent
func calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
if enabled:
return _calculate_steering(acceleration)
else:
acceleration.set_zero()
return acceleration
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
acceleration.set_zero()
return acceleration

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class_name GSTTargetAcceleration
# A linear and angular amount of acceleration.
var linear: = Vector3.ZERO
var angular: = 0.0
func set_zero() -> void:
linear.x = 0.0
linear.y = 0.0
linear.z = 0.0
angular = 0.0
func add_scaled_accel(accel: GSTTargetAcceleration, scalar: float) -> void:
linear += accel.linear * scalar
angular += accel.angular * scalar
func get_magnitude_squared() -> float:
return linear.length_squared() + angular * angular
func get_magnitude() -> float:
return sqrt(get_magnitude_squared())

10
project/src/GSTUtils.gd Normal file
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class_name GSTUtils
# Useful math and utility functions to complement Godot's own.
static func clampedv3(vector: Vector3, limit: float) -> Vector3:
var length_squared: = vector.length_squared()
var limit_squared: = limit * limit
if length_squared > limit_squared:
vector *= sqrt(limit_squared / length_squared)
return vector

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extends GSTSteeringBehavior
class_name GSTArrive
# Calculates acceleration to take an agent to its target's location.
# The calculation will attempt to arrive with zero remaining velocity.
var target: GSTAgentLocation
var arrival_tolerance: float
var deceleration_radius: float
var time_to_reach: = 0.1
func _init(agent: GSTSteeringAgent, target: GSTAgentLocation).(agent) -> void:
self.target = target
func _arrive(acceleration: GSTTargetAcceleration, target_position: Vector3) -> GSTTargetAcceleration:
var to_target: = target_position - agent.position
var distance: = to_target.length()
if distance <= arrival_tolerance:
acceleration.set_zero()
else:
var desired_speed: = agent.max_linear_speed
if distance <= deceleration_radius:
desired_speed *= distance / deceleration_radius
var desired_velocity: = to_target * desired_speed/distance
desired_velocity = (desired_velocity - agent.linear_velocity) * 1.0 / time_to_reach
acceleration.linear = GSTUtils.clampedv3(desired_velocity, agent.max_linear_acceleration)
acceleration.angular = 0
return acceleration
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
return _arrive(acceleration, target.position)

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extends GSTGroupBehavior
class_name GSTAvoidCollisions
# Behavior that steers the agent to avoid obstacles lying in its path, approximated by a sphere.
var first_neighbor: GSTSteeringAgent
var shortest_time: float
var first_minimum_separation: float
var first_distance: float
var first_relative_position: Vector3
var first_relative_velocity: Vector3
func _init(agent: GSTSteeringAgent, proximity: GSTProximity).(agent, proximity) -> void:
pass
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
shortest_time = INF
first_neighbor = null
first_minimum_separation = 0
first_distance = 0
var neighbor_count: = proximity.find_neighbors(_callback)
if neighbor_count == 0 or not first_neighbor:
acceleration.set_zero()
else:
if(
first_minimum_separation <= 0 or
first_distance < agent.bounding_radius + first_neighbor.bounding_radius):
acceleration.linear = first_neighbor.position - agent.position
else:
acceleration.linear = first_relative_position + (first_relative_velocity * shortest_time)
acceleration.linear = acceleration.linear.normalized() * -agent.max_linear_acceleration
acceleration.angular = 0
return acceleration
func report_neighbor(neighbor: GSTSteeringAgent) -> bool:
var relative_position: = neighbor.position - agent.position
var relative_velocity: = neighbor.linear_velocity - agent.linear_velocity
var relative_speed_squared: = relative_velocity.length_squared()
if relative_speed_squared == 0:
return false
else:
var time_to_collision = -relative_position.dot(relative_velocity) / relative_speed_squared
if time_to_collision <= 0 or time_to_collision >= shortest_time:
return false
else:
var distance = relative_position.length()
var minimum_separation: float = distance - sqrt(relative_speed_squared) * time_to_collision
if minimum_separation > agent.bounding_radius + neighbor.bounding_radius:
return false
else:
shortest_time = time_to_collision
first_neighbor = neighbor
first_minimum_separation = minimum_separation
first_distance = distance
first_relative_position = relative_position
first_relative_velocity = relative_velocity
return true

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extends GSTSteeringBehavior
class_name GSTBlend
# Blends multiple steering behaviors into one, and returns acceleration combining all of them.
# # Each behavior is associated with a weight - a modifier by which the result will be multiplied by,
# then added to a total acceleration.
# # Each behavior is stored internally as a `Dictionary` with a `behavior` key with a value of type
# `GSTSteeringBehavior` and a `weight` key with a value of type float.
var _behaviors: = []
var _accel: = GSTTargetAcceleration.new()
func _init(agent: GSTSteeringAgent).(agent) -> void:
pass
func add(behavior: GSTSteeringBehavior, weight: float) -> void:
behavior.agent = agent
_behaviors.append({behavior = behavior, weight = weight})
func get_behavior_at(index: int) -> Dictionary:
if _behaviors.size() > index:
return _behaviors[index]
printerr("Tried to get index " + str(index) + " in array of size " + str(_behaviors.size()))
return {}
func _calculate_steering(blended_accel: GSTTargetAcceleration) -> GSTTargetAcceleration:
blended_accel.set_zero()
for i in range(_behaviors.size()):
var bw: Dictionary = _behaviors[i]
bw.behavior.calculate_steering(_accel)
blended_accel.add_scaled_accel(_accel, bw.weight)
blended_accel.linear = GSTUtils.clampedv3(blended_accel.linear, agent.max_linear_acceleration)
blended_accel.angular = min(blended_accel.angular, agent.max_angular_acceleration)
return blended_accel

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extends GSTGroupBehavior
class_name GSTCohesion
# Group behavior that produces linear acceleration that attempts to move the agent towards the
# center of mass of the agents in the area defined by the defined Proximity.
var center_of_mass: Vector3
func _init(agent: GSTSteeringAgent, proximity: GSTProximity).(agent, proximity) -> void:
pass
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
acceleration.set_zero()
center_of_mass = Vector3.ZERO
var neighbor_count = proximity.find_neighbors(_callback)
if neighbor_count > 0:
center_of_mass *= 1.0 / neighbor_count
acceleration.linear = (center_of_mass - agent.position).normalized() * agent.max_linear_acceleration
return acceleration
func report_neighbor(neighbor: GSTSteeringAgent) -> bool:
center_of_mass += neighbor.position
return true

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extends GSTPursue
class_name GSTEvade
# Calculates acceleration to take an agent away from where a target agent will be.
# # The `max_predict_time` variable represents how far ahead to calculate the intersection point.
func _init(
agent: GSTSteeringAgent,
target: GSTSteeringAgent,
max_predict_time: = 1.0).(agent, target, max_predict_time):
pass
func _get_modified_acceleration() -> float:
return -agent.max_linear_acceleration

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extends GSTMatchOrientation
class_name GSTFace
# Calculates angular acceleration to rotate a target to face its target's position.
# The acceleration will attempt to arrive with zero remaining angular velocity.
func _init(agent: GSTSteeringAgent, target: GSTAgentLocation).(agent, target) -> void:
pass
func _face(acceleration: GSTTargetAcceleration, target_position: Vector3) -> GSTTargetAcceleration:
var to_target: = target_position - agent.position
var distance_squared: = to_target.length_squared()
if distance_squared < agent.zero_linear_speed_threshold:
acceleration.set_zero()
return acceleration
else:
var orientation = atan2(to_target.x, -to_target.y)
return _match_orientation(acceleration, orientation)
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
return _face(acceleration, target.position)

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extends GSTSeek
class_name GSTFlee
# Calculates acceleration to take an agent directly away from a target agent.
func _init(agent: GSTSteeringAgent, target: GSTAgentLocation).(agent, target) -> void:
pass
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
acceleration.linear = (
(agent.position - target.position).normalized() * agent.max_linear_acceleration)
acceleration.angular = 0
return acceleration

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extends GSTArrive
class_name GSTFollowPath
# Produces a linear acceleration that moves the agent along the specified path.
var path: GSTPath
var path_offset: = 0.0
var path_param: = {}
var arrive_enabled: = true
var prediction_time: = 0.0
func _init(
agent: GSTSteeringAgent,
path: GSTPath,
path_offset: = 0.0,
prediction_time: = 0.0).(agent, null) -> void:
self.path = path
self.path_offset = path_offset
self.prediction_time = prediction_time
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
var location: = (
agent.position if prediction_time == 0
else agent.position + (agent.linear_velocity * prediction_time))
var distance: = path.calculate_distance(location, path_param)
var target_distance: = distance + path_offset
var target_position: = path.calculate_target_position(path_param, target_distance)
if arrive_enabled and path.is_open:
if path_offset >= 0:
if target_distance > path.length - deceleration_radius:
return _arrive(acceleration, target_position)
else:
if target_distance < deceleration_radius:
return _arrive(acceleration, target_position)
acceleration.linear = (target_position - agent.position).normalized()
acceleration.linear *= agent.max_linear_acceleration
acceleration.angular = 0
return acceleration

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extends GSTMatchOrientation
class_name GSTLookWhereYouGo
# Calculates an angular acceleration to match an agent's orientation to its direction of travel.
func _init(agent: GSTSteeringAgent).(agent, null) -> void:
pass
func _calculate_steering(accel: GSTTargetAcceleration) -> GSTTargetAcceleration:
if agent.linear_velocity.length_squared() < agent.zero_linear_speed_threshold:
accel.set_zero()
return accel
else:
var orientation: = atan2(agent.linear_velocity.x, -agent.linear_velocity.y)
return _match_orientation(accel, orientation)

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extends GSTSteeringBehavior
class_name GSTMatchOrientation
# Calculates an angular acceleration to match an agent's orientation to its target's.
# The calculation will attempt to arrive with zero remaining angular velocity.
var target: GSTAgentLocation
var alignment_tolerance: float
var deceleration_radius: float
var time_to_reach: float = 0.1
func _init(agent: GSTSteeringAgent, target: GSTAgentLocation).(agent) -> void:
self.target = target
func _match_orientation(acceleration: GSTTargetAcceleration, desired_orientation: float) -> GSTTargetAcceleration:
var rotation: = wrapf(desired_orientation - agent.orientation, -PI, PI)
var rotation_size: = abs(rotation)
if rotation_size <= alignment_tolerance:
acceleration.set_zero()
else:
var desired_rotation: = agent.max_angular_speed
if rotation_size <= deceleration_radius:
desired_rotation *= rotation_size / deceleration_radius
desired_rotation *= rotation / rotation_size
acceleration.angular = (desired_rotation - agent.angular_velocity) / time_to_reach
var limited_acceleration: = abs(acceleration.angular)
if limited_acceleration > agent.max_angular_acceleration:
acceleration.angular *= agent.max_angular_acceleration / limited_acceleration
acceleration.linear = Vector3.ZERO
return acceleration
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
return _match_orientation(acceleration, target.orientation)

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extends GSTSteeringBehavior
class_name GSTPriority
# Contains multiple steering behaviors and returns only the result of the first that has a non-zero
# acceleration.
var _behaviors: = []
var last_selected_index: int
var threshold_for_zero: float
func _init(agent: GSTSteeringAgent, threshold_for_zero: = 0.001).(agent) -> void:
self.threshold_for_zero = threshold_for_zero
func add(behavior: GSTSteeringBehavior) -> void:
_behaviors.append(behavior)
func get_behavior_at(index: int) -> GSTSteeringBehavior:
if _behaviors.size() > index:
return _behaviors[index]
printerr("Tried to get index " + str(index) + " in array of size " + str(_behaviors.size()))
return null
func _calculate_steering(accel: GSTTargetAcceleration) -> GSTTargetAcceleration:
var threshold_squared: = threshold_for_zero * threshold_for_zero
last_selected_index = -1
var size: = _behaviors.size()
if size > 0:
for i in range(size):
last_selected_index = i
var behavior: GSTSteeringBehavior = _behaviors[i]
behavior.calculate_steering(accel)
if accel.get_magnitude_squared() > threshold_squared:
break
else:
accel.set_zero()
return accel

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extends GSTSteeringBehavior
class_name GSTPursue
# Calculates acceleration to take an agent to intersect with where a target agent will be.
# # The `max_predict_time` variable represents how far ahead to calculate the intersection point.
var target: GSTSteeringAgent
var max_predict_time: float
func _init(
agent: GSTSteeringAgent,
target: GSTSteeringAgent,
max_predict_time: = 1.0).(agent) -> void:
self.target = target
self.max_predict_time = max_predict_time
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
var target_position: = target.position
var distance_squared: = (target_position - agent.position).length_squared()
var speed_squared: = agent.linear_velocity.length_squared()
var predict_time: = max_predict_time
if speed_squared > 0:
var predict_time_squared: = distance_squared / speed_squared
if predict_time_squared < max_predict_time * max_predict_time:
predict_time = sqrt(predict_time_squared)
acceleration.linear = ((
target_position + (target.linear_velocity * predict_time))-agent.position).normalized()
acceleration.linear *= _get_modified_acceleration()
acceleration.angular = 0
return acceleration
func _get_modified_acceleration() -> float:
return agent.max_linear_acceleration

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extends GSTSteeringBehavior
class_name GSTSeek
# Calculates acceleration to take an agent to a target agent's position as directly as possible
var target: GSTAgentLocation
func _init(agent: GSTSteeringAgent, target: GSTAgentLocation).(agent) -> void:
self.target = target
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
acceleration.linear = (
(target.position - agent.position).normalized() * agent.max_linear_acceleration)
acceleration.angular = 0
return acceleration

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extends GSTGroupBehavior
class_name GSTSeparation
# Group behavior that produces acceleration repelling from the other neighbors that are in the
# immediate area defined by the given `GSTProximity`.
# # The produced acceleration is an average of all agents under consideration, multiplied by a
# # strength decreasing by the inverse square law in relation to distance, and accumulated.
# # In effect, all neighbors produce a single repelling force.
var decay_coefficient: = 1.0
var acceleration: GSTTargetAcceleration
func _init(agent: GSTSteeringAgent, proximity: GSTProximity).(agent, proximity) -> void:
pass
func _calculate_steering(acceleration: GSTTargetAcceleration) -> GSTTargetAcceleration:
acceleration.set_zero()
self.acceleration = acceleration
proximity.find_neighbors(_callback)
return acceleration
func report_neighbor(neighbor: GSTSteeringAgent) -> bool:
var to_agent: = agent.position - neighbor.position
var distance_squared: = to_agent.length_squared()
var max_acceleration: = agent.max_linear_acceleration
var strength: = decay_coefficient / distance_squared
if strength > max_acceleration:
strength = max_acceleration
acceleration.linear += to_agent * (strength / sqrt(distance_squared))
return true

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extends GSTProximity
class_name GSTInfiniteProximity
# Determines any agent that is in the specified list as being neighbors with the owner agent.
func _init(agent: GSTSteeringAgent, agents: Array).(agent, agents) -> void:
pass
func find_neighbors(callback: FuncRef) -> int:
var neighbor_count: = 0
var agent_count: = agents.size()
for i in range(agent_count):
var current_agent: = agents[i] as GSTSteeringAgent
if current_agent != agent:
if callback.call_func(current_agent):
neighbor_count += 1
return neighbor_count

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extends Reference
class_name GSTProximity
# Defines a way to determine any agent that is in the specified list as being neighbors with the
# owner agent.
var agent: GSTSteeringAgent
var agents: = []
func _init(agent: GSTSteeringAgent, agents: Array) -> void:
self.agent = agent
self.agents = agents
func find_neighbors(callback: FuncRef) -> int:
return 0

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extends GSTProximity
class_name GSTRadiusProximity
# Determines any agent that is in the specified list as being neighbors with the owner agent if
# they lie within the specified radius.
var radius: = 0.0
var _last_frame: = 0
var _scene_tree: SceneTree
func _init(agent: GSTSteeringAgent, agents: Array, radius: float).(agent, agents) -> void:
self.radius = radius
_scene_tree = Engine.get_main_loop()
func find_neighbors(callback: FuncRef) -> int:
var agent_count: = agents.size()
var neighbor_count: = 0
var current_frame: = _scene_tree.get_frame() if _scene_tree else -_last_frame
if current_frame != _last_frame:
_last_frame = current_frame
var owner_position: = agent.position
for i in range(agent_count):
var current_agent: = agents[i] as GSTSteeringAgent
if current_agent != agent:
var distance_squared: = owner_position.distance_squared_to(current_agent.position)
var range_to: = radius + current_agent.bounding_radius
if distance_squared < range_to * range_to:
if callback.call_func(current_agent):
current_agent.tagged = true
neighbor_count += 1
continue
current_agent.tagged = false
else:
for i in range(agent_count):
var current_agent = agents[i] as GSTSteeringAgent
if current_agent != agent and current_agent.tagged:
if callback.call_func(current_agent):
neighbor_count += 1
return neighbor_count