godot-steering-ai-framework/project/reference.json

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[
{
"name": "GSTUtils",
"path": "res://src/GSTUtils.gd",
"extends_class": [
],
"extends_file": "",
"icon": "",
"signature": "class GSTUtils",
"description": " Math and vector utility functions.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
],
"static_functions": [
{
"name": "clampedv3",
"return_type": "Vector3",
"rpc_mode": 0,
"signature": "func clampedv3(vector: Vector3, limit: float) -> Vector3",
"description": " Returns the `vector` with its length capped to `limit`.\n",
"arguments": [
{
"name": "vector",
"type": "Vector3"
},
{
"name": "limit",
"type": "float"
}
]
},
{
"name": "vector3_to_angle",
"return_type": "float",
"rpc_mode": 0,
"signature": "func vector3_to_angle(vector: Vector3) -> float",
"description": " Returns an angle in radians between the positive X axis and the `vector`.\n\n This assumes orientation for 2D agents or 3D agents that are upright and\n rotate around the Y axis.\n",
"arguments": [
{
"name": "vector",
"type": "Vector3"
}
]
},
{
"name": "angle_to_vector2",
"return_type": "Vector2",
"rpc_mode": 0,
"signature": "func angle_to_vector2(angle: float) -> Vector2",
"description": " Returns a directional vector from the given orientation angle.\n \n This assumes orientation for 2D agents or 3D agents that are upright and\n rotate around the Y axis.\n",
"arguments": [
{
"name": "angle",
"type": "float"
}
]
},
{
"name": "to_vector2",
"return_type": "Vector2",
"rpc_mode": 0,
"signature": "func to_vector2(vector: Vector3) -> Vector2",
"description": " Returns a vector2 with `vector`'s x and y components.\n",
"arguments": [
{
"name": "vector",
"type": "Vector3"
}
]
},
{
"name": "to_vector3",
"return_type": "Vector3",
"rpc_mode": 0,
"signature": "func to_vector3(vector: Vector2) -> Vector3",
"description": " Returns a vector3 with `vector`'s x and y components and 0 in z.\n",
"arguments": [
{
"name": "vector",
"type": "Vector2"
}
]
}
]
},
{
"name": "GSTPath",
"path": "res://src/GSTPath.gd",
"extends_class": [
"Reference"
],
"extends_file": "",
"icon": "",
"signature": "class GSTPath",
"description": " Represents a path made up of Vector3 waypoints, split into segments path\n follow behaviors can use.\n",
"sub_classes": [
{
"name": "GSTSegment",
"path": "res://src/GSTPath.gd",
"extends_class": [
],
"extends_file": "",
"icon": "",
"signature": "class GSTSegment",
"description": "",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "begin",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var begin: Vector3",
"description": ""
},
{
"name": "end",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var end: Vector3",
"description": ""
},
{
"name": "length",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var length: float",
"description": ""
},
{
"name": "cumulative_length",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var cumulative_length: float",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(begin: Vector3, end: Vector3) -> null",
"description": "",
"arguments": [
{
"name": "begin",
"type": "Vector3"
},
{
"name": "end",
"type": "Vector3"
}
]
}
],
"static_functions": [
]
}
],
"constants": [
],
"members": [
{
"name": "is_open",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var is_open: bool",
"description": " If `false`, the path loops.\n"
},
{
"name": "length",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var length: float",
"description": " Total length of the path.\n"
},
{
"name": "_segments",
"data_type": "Array",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _segments: Array",
"description": ""
},
{
"name": "_nearest_point_on_segment",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _nearest_point_on_segment: Vector3",
"description": ""
},
{
"name": "_nearest_point_on_path",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _nearest_point_on_path: Vector3",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(waypoints: Array, is_open: bool = false) -> null",
"description": "",
"arguments": [
{
"name": "waypoints",
"type": "Array"
},
{
"name": "is_open",
"type": "bool",
"default_value": false
}
]
},
{
"name": "create_path",
"return_type": "null",
"rpc_mode": 0,
"signature": "func create_path(waypoints: Array) -> null",
"description": " Creates a path from a list of waypoints.\n",
"arguments": [
{
"name": "waypoints",
"type": "Array"
}
]
},
{
"name": "calculate_distance",
"return_type": "float",
"rpc_mode": 0,
"signature": "func calculate_distance(agent_current_position: Vector3) -> float",
"description": " Returns the distance from `agent_current_position` to the next waypoint.\n",
"arguments": [
{
"name": "agent_current_position",
"type": "Vector3"
}
]
},
{
"name": "calculate_target_position",
"return_type": "Vector3",
"rpc_mode": 0,
"signature": "func calculate_target_position(target_distance: float) -> Vector3",
"description": " Calculates a target position from the path's starting point based on the `target_distance`.\n",
"arguments": [
{
"name": "target_distance",
"type": "float"
}
]
},
{
"name": "get_start_point",
"return_type": "Vector3",
"rpc_mode": 0,
"signature": "func get_start_point() -> Vector3",
"description": " Returns the position of the first point on the path.\n",
"arguments": [
]
},
{
"name": "get_end_point",
"return_type": "Vector3",
"rpc_mode": 0,
"signature": "func get_end_point() -> Vector3",
"description": " Returns the position of the last point on the path.\n",
"arguments": [
]
},
{
"name": "_calculate_point_segment_distance_squared",
"return_type": "float",
"rpc_mode": 0,
"signature": "func _calculate_point_segment_distance_squared(start: Vector3, end: Vector3, position: Vector3) -> float",
"description": "",
"arguments": [
{
"name": "start",
"type": "Vector3"
},
{
"name": "end",
"type": "Vector3"
},
{
"name": "position",
"type": "Vector3"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTProximity",
"path": "res://src/Proximities/GSTProximity.gd",
"extends_class": [
"Reference"
],
"extends_file": "",
"icon": "",
"signature": "class GSTProximity",
"description": " Base container type that stores data to find the neighbors of an agent.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "agent",
"data_type": "GSTSteeringAgent",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var agent: GSTSteeringAgent",
"description": " The owning agent whose neighbors are found in the group\n"
},
{
"name": "agents",
"data_type": "Array",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var agents: Array",
"description": " The agents who are part of this group and could be potential neighbors\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, agents: Array) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "agents",
"type": "Array"
}
]
},
{
"name": "_find_neighbors",
"return_type": "int",
"rpc_mode": 0,
"signature": "func _find_neighbors(callback: FuncRef) -> int",
"description": " Returns a number of neighbors based on a `callback` function.\n\n `_find_neighbors` calls `callback` for each agent in the `agents` array and\n adds one to the count if its `callback` returns true.\n tags: virtual\n",
"arguments": [
{
"name": "callback",
"type": "FuncRef"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTInfiniteProximity",
"path": "res://src/Proximities/GSTInfiniteProximity.gd",
"extends_class": [
"GSTProximity"
],
"extends_file": "",
"icon": "",
"signature": "class GSTInfiniteProximity",
"description": " Determines any agent that is in the specified list as being neighbors with the\n owner agent, regardless of distance.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, agents: Array) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "agents",
"type": "Array"
}
]
},
{
"name": "_find_neighbors",
"return_type": "int",
"rpc_mode": 0,
"signature": "func _find_neighbors(callback: FuncRef) -> int",
"description": " Returns a number of neighbors based on a `callback` function.\n\n `_find_neighbors` calls `callback` for each agent in the `agents` array and\n adds one to the count if its `callback` returns true.\n tags: virtual\n",
"arguments": [
{
"name": "callback",
"type": "FuncRef"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTRadiusProximity",
"path": "res://src/Proximities/GSTRadiusProximity.gd",
"extends_class": [
"GSTProximity"
],
"extends_file": "",
"icon": "",
"signature": "class GSTRadiusProximity",
"description": " Determines any agent that is in the specified list as being neighbors with the owner agent if\n they lie within the specified radius.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "radius",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var radius: float",
"description": " The radius around the owning agent to find neighbors in\n"
},
{
"name": "_last_frame",
"data_type": "int",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_frame: int",
"description": ""
},
{
"name": "_scene_tree",
"data_type": "SceneTree",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _scene_tree: SceneTree",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, agents: Array, radius: float) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "agents",
"type": "Array"
},
{
"name": "radius",
"type": "float"
}
]
},
{
"name": "_find_neighbors",
"return_type": "int",
"rpc_mode": 0,
"signature": "func _find_neighbors(callback: FuncRef) -> int",
"description": " Returns a number of neighbors based on a `callback` function.\n\n `_find_neighbors` calls `callback` for each agent in the `agents` array that lie within\n the radius around the owning agent and adds one to the count if its `callback` returns true.\n tags: virtual\n",
"arguments": [
{
"name": "callback",
"type": "FuncRef"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTSteeringAgent",
"path": "res://src/GSTSteeringAgent.gd",
"extends_class": [
"GSTAgentLocation"
],
"extends_file": "",
"icon": "",
"signature": "class GSTSteeringAgent",
"description": " Adds velocity, speed, and size data to `GSTAgentLocation`.\n\n It is the character's responsibility to keep this information up to date for\n the steering toolkit to work correctly.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "zero_linear_speed_threshold",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var zero_linear_speed_threshold: float",
"description": " The amount of velocity to be considered effectively not moving.\n"
},
{
"name": "linear_speed_max",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var linear_speed_max: float",
"description": " The maximum speed at which the agent can move.\n"
},
{
"name": "linear_acceleration_max",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var linear_acceleration_max: float",
"description": " The maximum amount of acceleration that any behavior can apply to the agent.\n"
},
{
"name": "angular_speed_max",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var angular_speed_max: float",
"description": " The maximum amount of angular speed at which the agent can rotate.\n"
},
{
"name": "angular_acceleration_max",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var angular_acceleration_max: float",
"description": " The maximum amount of angular acceleration that any behavior can apply to an\n agent.\n"
},
{
"name": "linear_velocity",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var linear_velocity: Vector3",
"description": " Current velocity of the agent.\n"
},
{
"name": "angular_velocity",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var angular_velocity: float",
"description": " Current angular velocity of the agent.\n"
},
{
"name": "bounding_radius",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var bounding_radius: float",
"description": " The radius of the sphere that approximates the agent's size in space.\n"
},
{
"name": "is_tagged",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var is_tagged: bool",
"description": " Used internally by group behaviors and proximities to mark the agent as already\n considered.\n"
}
],
"signals": [
],
"methods": [
],
"static_functions": [
]
},
{
"name": "GSTFollowPath",
"path": "res://src/Behaviors/GSTFollowPath.gd",
"extends_class": [
"GSTArrive"
],
"extends_file": "",
"icon": "",
"signature": "class GSTFollowPath",
"description": " Produces a linear acceleration that moves the agent along the specified path.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "path",
"data_type": "GSTPath",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var path: GSTPath",
"description": " The path to follow and travel along.\n"
},
{
"name": "path_offset",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var path_offset: float",
"description": " The distance along the path to generate the next target position.\n"
},
{
"name": "is_arrive_enabled",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var is_arrive_enabled: bool",
"description": " Whether to use `GSTArrive` behavior on an open path.\n"
},
{
"name": "prediction_time",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var prediction_time: float",
"description": " The amount of time in the future to predict the owning agent's position along\n the path. Setting it to 0.0 will force non-predictive path following.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, path: GSTPath, path_offset: float = 0, prediction_time: float = 0) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "path",
"type": "GSTPath"
},
{
"name": "path_offset",
"type": "float",
"default_value": 0
},
{
"name": "prediction_time",
"type": "float",
"default_value": 0
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTEvade",
"path": "res://src/Behaviors/GSTEvade.gd",
"extends_class": [
"GSTPursue"
],
"extends_file": "",
"icon": "",
"signature": "class GSTEvade",
"description": " Calculates acceleration to take an agent away from where a target agent is\n moving.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "var",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTSteeringAgent, predict_time_max: float = 1)",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTSteeringAgent"
},
{
"name": "predict_time_max",
"type": "float",
"default_value": 1
}
]
},
{
"name": "_get_modified_acceleration",
"return_type": "float",
"rpc_mode": 0,
"signature": "func _get_modified_acceleration() -> float",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTAvoidCollisions",
"path": "res://src/Behaviors/GSTAvoidCollisions.gd",
"extends_class": [
"GSTGroupBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTAvoidCollisions",
"description": " Steers the agent to avoid obstacles in its path. Approximates obstacles as\n spheres.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "_first_neighbor",
"data_type": "GSTSteeringAgent",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _first_neighbor: GSTSteeringAgent",
"description": ""
},
{
"name": "_shortest_time",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _shortest_time: float",
"description": ""
},
{
"name": "_first_minimum_separation",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _first_minimum_separation: float",
"description": ""
},
{
"name": "_first_distance",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _first_distance: float",
"description": ""
},
{
"name": "_first_relative_position",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _first_relative_position: Vector3",
"description": ""
},
{
"name": "_first_relative_velocity",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _first_relative_velocity: Vector3",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, proximity: GSTProximity) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "proximity",
"type": "GSTProximity"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
},
{
"name": "_report_neighbor",
"return_type": "bool",
"rpc_mode": 0,
"signature": "func _report_neighbor(neighbor: GSTSteeringAgent) -> bool",
"description": " Callback for the proximity to call when finding neighbors. Keeps track of every `neighbor`\n that was found but only keeps the one the owning agent will most likely collide with.\n tags: virtual\n",
"arguments": [
{
"name": "neighbor",
"type": "GSTSteeringAgent"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTCohesion",
"path": "res://src/Behaviors/GSTCohesion.gd",
"extends_class": [
"GSTGroupBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTCohesion",
"description": " Calculates an acceleration that attempts to move the agent towards the center\n of mass of the agents in the area defined by the `GSTProximity`.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "_center_of_mass",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _center_of_mass: Vector3",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, proximity: GSTProximity) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "proximity",
"type": "GSTProximity"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
},
{
"name": "_report_neighbor",
"return_type": "bool",
"rpc_mode": 0,
"signature": "func _report_neighbor(neighbor: GSTSteeringAgent) -> bool",
"description": " Callback for the proximity to call when finding neighbors. Adds `neighbor`'s position\n to the center of mass of the group.\n tags: virtual\n",
"arguments": [
{
"name": "neighbor",
"type": "GSTSteeringAgent"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTSeparation",
"path": "res://src/Behaviors/GSTSeparation.gd",
"extends_class": [
"GSTGroupBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTSeparation",
"description": " Calculates an acceleration that repels the agent from its neighbors in the\n given `GSTProximity`.\n\n The acceleration is an average based on all neighbors, multiplied by a\n strength decreasing by the inverse square law in relation to distance, and it\n accumulates.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "decay_coefficient",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var decay_coefficient: float",
"description": " The coefficient to calculate how fast the separation strength decays with distance.\n"
},
{
"name": "_acceleration",
"data_type": "GSTTargetAcceleration",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _acceleration: GSTTargetAcceleration",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, proximity: GSTProximity) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "proximity",
"type": "GSTProximity"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
},
{
"name": "_report_neighbor",
"return_type": "bool",
"rpc_mode": 0,
"signature": "func _report_neighbor(neighbor: GSTSteeringAgent) -> bool",
"description": " Callback for the proximity to call when finding neighbors. Determines the amount of\n acceleration that `neighbor` imposes based on its distance from the owner agent.\n tags: virtual\n",
"arguments": [
{
"name": "neighbor",
"type": "GSTSteeringAgent"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTBlend",
"path": "res://src/Behaviors/GSTBlend.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTBlend",
"description": " Blends multiple steering behaviors into one, and returns a weighted\n acceleration from their calculations.\n\n Stores the behaviors internally as dictionaries of the form\n {\n \tbehavior : GSTSteeringBehavior,\n \tweight : float\n }\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "_behaviors",
"data_type": "Array",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _behaviors: Array",
"description": ""
},
{
"name": "_accel",
"data_type": "GSTTargetAcceleration",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _accel: GSTTargetAcceleration",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
}
]
},
{
"name": "add",
"return_type": "null",
"rpc_mode": 0,
"signature": "func add(behavior: GSTSteeringBehavior, weight: float) -> null",
"description": " Appends a behavior to the internal array along with its `weight`.\n",
"arguments": [
{
"name": "behavior",
"type": "GSTSteeringBehavior"
},
{
"name": "weight",
"type": "float"
}
]
},
{
"name": "get_behavior_at",
"return_type": "Dictionary",
"rpc_mode": 0,
"signature": "func get_behavior_at(index: int) -> Dictionary",
"description": " Returns the behavior at the specified `index`, or an empty `Dictionary` if\n none was found.\n",
"arguments": [
{
"name": "index",
"type": "int"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(blended_accel: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "blended_accel",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTPriority",
"path": "res://src/Behaviors/GSTPriority.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTPriority",
"description": " Container for multiple behaviors that returns the result of the first child\n behavior with non-zero acceleration.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "_behaviors",
"data_type": "Array",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _behaviors: Array",
"description": ""
},
{
"name": "last_selected_index",
"data_type": "int",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var last_selected_index: int",
"description": " The index of the last behavior the container prioritized.\n"
},
{
"name": "zero_threshold",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var zero_threshold: float",
"description": " If a behavior's acceleration is lower than this threshold, the container\n considers it has an acceleration of zero.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, zero_threshold: float = 0.001) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "zero_threshold",
"type": "float",
"default_value": 0.001
}
]
},
{
"name": "add",
"return_type": "null",
"rpc_mode": 0,
"signature": "func add(behavior: GSTSteeringBehavior) -> null",
"description": " Appends a steering behavior as a child of this container.\n",
"arguments": [
{
"name": "behavior",
"type": "GSTSteeringBehavior"
}
]
},
{
"name": "get_behavior_at",
"return_type": "GSTSteeringBehavior",
"rpc_mode": 0,
"signature": "func get_behavior_at(index: int) -> GSTSteeringBehavior",
"description": " Returns the behavior at the position in the pool referred to by `index`, or\n `null` if no behavior was found.\n",
"arguments": [
{
"name": "index",
"type": "int"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(accel: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTPursue",
"path": "res://src/Behaviors/GSTPursue.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTPursue",
"description": " Calculates an acceleration to make an agent intercept another based on the\n target agent's movement.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "target",
"data_type": "GSTSteeringAgent",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var target: GSTSteeringAgent",
"description": " The target agent that the behavior is trying to intercept.\n"
},
{
"name": "predict_time_max",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var predict_time_max: float",
"description": " The maximum amount of time in the future the behavior predicts the target's\n location.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTSteeringAgent, predict_time_max: float = 1) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTSteeringAgent"
},
{
"name": "predict_time_max",
"type": "float",
"default_value": 1
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
},
{
"name": "_get_modified_acceleration",
"return_type": "float",
"rpc_mode": 0,
"signature": "func _get_modified_acceleration() -> float",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTLookWhereYouGo",
"path": "res://src/Behaviors/GSTLookWhereYouGo.gd",
"extends_class": [
"GSTMatchOrientation"
],
"extends_file": "",
"icon": "",
"signature": "class GSTLookWhereYouGo",
"description": " Calculates an angular acceleration to match an agent's orientation to its\n direction of travel.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(accel: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTFace",
"path": "res://src/Behaviors/GSTFace.gd",
"extends_class": [
"GSTMatchOrientation"
],
"extends_file": "",
"icon": "",
"signature": "class GSTFace",
"description": " Calculates angular acceleration to rotate a target to face its target's\n position. The behavior attemps to arrive with zero remaining angular velocity.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTAgentLocation) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTAgentLocation"
}
]
},
{
"name": "_face",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _face(acceleration: GSTTargetAcceleration, target_position: Vector3) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "target_position",
"type": "Vector3"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTMatchOrientation",
"path": "res://src/Behaviors/GSTMatchOrientation.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTMatchOrientation",
"description": " Calculates an angular acceleration to match an agent's orientation to that of\n its target. Attempts to make the agent arrive with zero remaining angular\n velocity.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "target",
"data_type": "GSTAgentLocation",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var target: GSTAgentLocation",
"description": " The target orientation for the behavior to try and match rotations to.\n"
},
{
"name": "alignment_tolerance",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var alignment_tolerance: float",
"description": " The amount of distance in radians for the behavior to consider itself close\n enough to be matching the target agent's rotation.\n"
},
{
"name": "deceleration_radius",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var deceleration_radius: float",
"description": " The amount of distance in radians from the goal to start slowing down.\n"
},
{
"name": "time_to_reach",
"data_type": "float",
"default_value": 0.1,
"setter": "",
"getter": "",
"export": false,
"signature": "var time_to_reach: float = 0.1",
"description": " The amount of time to reach the target velocity\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTAgentLocation) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTAgentLocation"
}
]
},
{
"name": "_match_orientation",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _match_orientation(acceleration: GSTTargetAcceleration, desired_orientation: float) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "desired_orientation",
"type": "float"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTArrive",
"path": "res://src/Behaviors/GSTArrive.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTArrive",
"description": " Calculates acceleration to take an agent to its target's location. The\n calculation attempts to arrive with zero remaining velocity.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "target",
"data_type": "GSTAgentLocation",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var target: GSTAgentLocation",
"description": " Target agent to arrive to.\n"
},
{
"name": "arrival_tolerance",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var arrival_tolerance: float",
"description": " Distance from the target for the agent to be considered successfully\n arrived.\n"
},
{
"name": "deceleration_radius",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var deceleration_radius: float",
"description": " Distance from the target for the agent to begin slowing down.\n"
},
{
"name": "time_to_reach",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var time_to_reach: float",
"description": " Represents the time it takes to change acceleration.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTAgentLocation) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTAgentLocation"
}
]
},
{
"name": "_arrive",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _arrive(acceleration: GSTTargetAcceleration, target_position: Vector3) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "target_position",
"type": "Vector3"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTFlee",
"path": "res://src/Behaviors/GSTFlee.gd",
"extends_class": [
"GSTSeek"
],
"extends_file": "",
"icon": "",
"signature": "class GSTFlee",
"description": " Calculates acceleration to take an agent directly away from a target agent.\n",
"sub_classes": [
],
"constants": [
],
"members": [
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTAgentLocation) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTAgentLocation"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTSeek",
"path": "res://src/Behaviors/GSTSeek.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTSeek",
"description": " Calculates an acceleration to take an agent to a target agent's position\n directly.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "target",
"data_type": "GSTAgentLocation",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var target: GSTAgentLocation",
"description": " The target that the behavior aims to move the agent to.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, target: GSTAgentLocation) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "target",
"type": "GSTAgentLocation"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTSteeringBehavior",
"path": "res://src/GSTSteeringBehavior.gd",
"extends_class": [
],
"extends_file": "",
"icon": "",
"signature": "class GSTSteeringBehavior",
"description": " Base class for all steering behaviors.\n\n Steering behaviors calculate the linear and the angular acceleration to be\n to the agent that owns them.\n\n The `calculate_steering` function is the entry point for all behaviors.\n Individual steering behaviors encapsulate the steering logic.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "is_enabled",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var is_enabled: bool",
"description": " If `false`, all calculations return zero amounts of acceleration.\n"
},
{
"name": "agent",
"data_type": "GSTSteeringAgent",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var agent: GSTSteeringAgent",
"description": " The AI agent on which the steering behavior bases its calculations.\n"
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
}
]
},
{
"name": "calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": " Sets the `acceleration` with the behavior's desired amount of acceleration.\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
},
{
"name": "_calculate_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _calculate_steering(acceleration: GSTTargetAcceleration) -> null",
"description": "",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTRigidBodyAgent",
"path": "res://src/Agents/GSTRigidBodyAgent.gd",
"extends_class": [
"GSTSpecializedAgent"
],
"extends_file": "",
"icon": "",
"signature": "class GSTRigidBodyAgent",
"description": " A specialized steering agent that updates itself every frame so the user does\n not have to using a RigidBody\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "body",
"data_type": "RigidBody",
"default_value": null,
"setter": "_set_body",
"getter": "",
"export": false,
"signature": "var body: RigidBody",
"description": " The RigidBody to keep track of\n"
},
{
"name": "_last_position",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_position: Vector3",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "var",
"rpc_mode": 0,
"signature": "func _init(body: RigidBody) -> var",
"description": "",
"arguments": [
{
"name": "body",
"type": "RigidBody"
}
]
},
{
"name": "_apply_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> null",
"description": " Moves the agent's `body` by target `acceleration`.\n tags: virtual\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_set_body",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _set_body(value: RigidBody) -> null",
"description": "",
"arguments": [
{
"name": "value",
"type": "RigidBody"
}
]
},
{
"name": "_on_body_ready",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_body_ready() -> null",
"description": "",
"arguments": [
]
},
{
"name": "_on_SceneTree_frame",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_SceneTree_frame() -> null",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTKinematicBodyAgent",
"path": "res://src/Agents/GSTKinematicBodyAgent.gd",
"extends_class": [
"GSTSpecializedAgent"
],
"extends_file": "",
"icon": "",
"signature": "class GSTKinematicBodyAgent",
"description": " A specialized steering agent that updates itself every frame so the user does\n not have to using a KinematicBody\n",
"sub_classes": [
],
"constants": [
{
"name": "MovementType",
"value": {
"SLIDE": 0,
"COLLIDE": 1,
"POSITION": 2
},
"data_type": "Dictionary",
"signature": "const MovementType: Dictionary = {\"COLLIDE\":1,\"POSITION\":2,\"SLIDE\":0}",
"description": ""
}
],
"members": [
{
"name": "body",
"data_type": "KinematicBody",
"default_value": null,
"setter": "_set_body",
"getter": "",
"export": false,
"signature": "var body: KinematicBody",
"description": " The KinematicBody to keep track of\n"
},
{
"name": "movement_type",
"data_type": "int",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var movement_type: int",
"description": " The type of movement the body executes\n"
},
{
"name": "_last_position",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_position: Vector3",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "var",
"rpc_mode": 0,
"signature": "func _init(body: KinematicBody, movement_type: int) -> var",
"description": "",
"arguments": [
{
"name": "body",
"type": "KinematicBody"
},
{
"name": "movement_type",
"type": "int"
}
]
},
{
"name": "_apply_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> null",
"description": " Moves the agent's `body` by target `acceleration`.\n tags: virtual\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_sliding_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_sliding_steering(accel: Vector3) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
}
]
},
{
"name": "_apply_collide_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_collide_steering(accel: Vector3, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_position_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_position_steering(accel: Vector3, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_orientation_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_orientation_steering(angular_acceleration: float, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "angular_acceleration",
"type": "float"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_set_body",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _set_body(value: KinematicBody) -> null",
"description": "",
"arguments": [
{
"name": "value",
"type": "KinematicBody"
}
]
},
{
"name": "_on_SceneTree_physics_frame",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_SceneTree_physics_frame() -> null",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTSpecializedAgent",
"path": "res://src/Agents/GSTSpecializedAgent.gd",
"extends_class": [
"GSTSteeringAgent"
],
"extends_file": "",
"icon": "",
"signature": "class GSTSpecializedAgent",
"description": " A base class for a specialized steering agent that updates itself every frame\n so the user does not have to. All other specialized agents derive from this.\n tags: abstract\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "calculate_velocities",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var calculate_velocities: bool",
"description": " If `true`, calculates linear and angular velocities based on the previous\n frame. When `false`, the user must keep those values updated.\n"
},
{
"name": "apply_linear_drag",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var apply_linear_drag: bool",
"description": " If `true` and `calculate_velocities` is true, interpolates\n the current linear velocity towards 0 by the `linear_drag_percentage` value.\n Does not apply to `RigidBody` and `RigidBody2D` nodes.\n"
},
{
"name": "apply_angular_drag",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var apply_angular_drag: bool",
"description": " If `true` and `calculate_velocities` is true, interpolates\n the current angular velocity towards 0 by the `angular_drag_percentage` value.\n Does not apply to `RigidBody` and `RigidBody2D` nodes.\n"
},
{
"name": "linear_drag_percentage",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var linear_drag_percentage: float",
"description": " The percentage between the current linear velocity and 0 to interpolate by if\n `calculate_velocities` and `apply_linear_drag` are true.\n Does not apply to `RigidBody` and `RigidBody2D` nodes.\n"
},
{
"name": "angular_drag_percentage",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var angular_drag_percentage: float",
"description": " The percentage between the current angular velocity and 0 to interpolate by if\n `calculate_velocities` and `apply_angular_drag` are true.\n Does not apply to `RigidBody` and `RigidBody2D` nodes.\n"
},
{
"name": "_last_orientation",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_orientation: float",
"description": ""
},
{
"name": "_body_type",
"data_type": "int",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _body_type: int",
"description": ""
},
{
"name": "_applied_steering",
"data_type": "bool",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _applied_steering: bool",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_apply_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> null",
"description": " Moves the agent's body by target `acceleration`.\n tags: virtual\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "delta",
"type": "float"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTRigidBody2DAgent",
"path": "res://src/Agents/GSTRigidBody2DAgent.gd",
"extends_class": [
"GSTSpecializedAgent"
],
"extends_file": "",
"icon": "",
"signature": "class GSTRigidBody2DAgent",
"description": " A specialized steering agent that updates itself every frame so the user does\n not have to using a RigidBody2D\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "body",
"data_type": "RigidBody2D",
"default_value": null,
"setter": "_set_body",
"getter": "",
"export": false,
"signature": "var body: RigidBody2D",
"description": " The RigidBody2D to keep track of\n"
},
{
"name": "_last_position",
"data_type": "Vector2",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_position: Vector2",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "var",
"rpc_mode": 0,
"signature": "func _init(body: RigidBody2D) -> var",
"description": "",
"arguments": [
{
"name": "body",
"type": "RigidBody2D"
}
]
},
{
"name": "_apply_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> null",
"description": " Moves the agent's `body` by target `acceleration`.\n tags: virtual\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_set_body",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _set_body(value: RigidBody2D) -> null",
"description": "",
"arguments": [
{
"name": "value",
"type": "RigidBody2D"
}
]
},
{
"name": "_on_body_ready",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_body_ready() -> null",
"description": "",
"arguments": [
]
},
{
"name": "_on_SceneTree_frame",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_SceneTree_frame() -> null",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTKinematicBody2DAgent",
"path": "res://src/Agents/GSTKinematicBody2DAgent.gd",
"extends_class": [
"GSTSpecializedAgent"
],
"extends_file": "",
"icon": "",
"signature": "class GSTKinematicBody2DAgent",
"description": " A specialized steering agent that updates itself every frame so the user does\n not have to using a KinematicBody2D\n",
"sub_classes": [
],
"constants": [
{
"name": "MovementType",
"value": {
"SLIDE": 0,
"COLLIDE": 1,
"POSITION": 2
},
"data_type": "Dictionary",
"signature": "const MovementType: Dictionary = {\"COLLIDE\":1,\"POSITION\":2,\"SLIDE\":0}",
"description": ""
}
],
"members": [
{
"name": "body",
"data_type": "KinematicBody2D",
"default_value": null,
"setter": "_set_body",
"getter": "",
"export": false,
"signature": "var body: KinematicBody2D",
"description": " The KinematicBody2D to keep track of\n"
},
{
"name": "movement_type",
"data_type": "int",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var movement_type: int",
"description": " The type of movement the body executes\n"
},
{
"name": "_last_position",
"data_type": "Vector2",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _last_position: Vector2",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "var",
"rpc_mode": 0,
"signature": "func _init(body: KinematicBody2D, movement_type: int) -> var",
"description": "",
"arguments": [
{
"name": "body",
"type": "KinematicBody2D"
},
{
"name": "movement_type",
"type": "int"
}
]
},
{
"name": "_apply_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> null",
"description": " Moves the agent's `body` by target `acceleration`.\n tags: virtual\n",
"arguments": [
{
"name": "acceleration",
"type": "GSTTargetAcceleration"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_sliding_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_sliding_steering(accel: Vector3) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
}
]
},
{
"name": "_apply_collide_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_collide_steering(accel: Vector3, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_position_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_position_steering(accel: Vector3, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "accel",
"type": "Vector3"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_apply_orientation_steering",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _apply_orientation_steering(angular_acceleration: float, delta: float) -> null",
"description": "",
"arguments": [
{
"name": "angular_acceleration",
"type": "float"
},
{
"name": "delta",
"type": "float"
}
]
},
{
"name": "_set_body",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _set_body(value: KinematicBody2D) -> null",
"description": "",
"arguments": [
{
"name": "value",
"type": "KinematicBody2D"
}
]
},
{
"name": "_on_SceneTree_physics_frame",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _on_SceneTree_physics_frame() -> null",
"description": "",
"arguments": [
]
}
],
"static_functions": [
]
},
{
"name": "GSTGroupBehavior",
"path": "res://src/GSTGroupBehavior.gd",
"extends_class": [
"GSTSteeringBehavior"
],
"extends_file": "",
"icon": "",
"signature": "class GSTGroupBehavior",
"description": " Base type for group-based steering behaviors.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "proximity",
"data_type": "GSTProximity",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var proximity: GSTProximity",
"description": " Container to find neighbors of the agent and calculate group behavior.\n"
},
{
"name": "_callback",
"data_type": "FuncRef",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var _callback: FuncRef",
"description": ""
}
],
"signals": [
],
"methods": [
{
"name": "_init",
"return_type": "null",
"rpc_mode": 0,
"signature": "func _init(agent: GSTSteeringAgent, proximity: GSTProximity) -> null",
"description": "",
"arguments": [
{
"name": "agent",
"type": "GSTSteeringAgent"
},
{
"name": "proximity",
"type": "GSTProximity"
}
]
},
{
"name": "_report_neighbor",
"return_type": "bool",
"rpc_mode": 0,
"signature": "func _report_neighbor(neighbor: GSTSteeringAgent) -> bool",
"description": " Internal callback for the behavior to define whether or not a member is\n relevant\n tags: virtual\n",
"arguments": [
{
"name": "neighbor",
"type": "GSTSteeringAgent"
}
]
}
],
"static_functions": [
]
},
{
"name": "GSTAgentLocation",
"path": "res://src/GSTAgentLocation.gd",
"extends_class": [
],
"extends_file": "",
"icon": "",
"signature": "class GSTAgentLocation",
"description": " Represents an agent with only a location and an orientation.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "position",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var position: Vector3",
"description": " The agent's position in space.\n"
},
{
"name": "orientation",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var orientation: float",
"description": " The agent's orientation on its Y axis rotation.\n"
}
],
"signals": [
],
"methods": [
],
"static_functions": [
]
},
{
"name": "GSTTargetAcceleration",
"path": "res://src/GSTTargetAcceleration.gd",
"extends_class": [
],
"extends_file": "",
"icon": "",
"signature": "class GSTTargetAcceleration",
"description": " A desired linear and angular amount of acceleration requested by the steering\n system.\n",
"sub_classes": [
],
"constants": [
],
"members": [
{
"name": "linear",
"data_type": "Vector3",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var linear: Vector3",
"description": " Linear acceleration\n"
},
{
"name": "angular",
"data_type": "float",
"default_value": null,
"setter": "",
"getter": "",
"export": false,
"signature": "var angular: float",
"description": " Angular acceleration\n"
}
],
"signals": [
],
"methods": [
{
"name": "set_zero",
"return_type": "null",
"rpc_mode": 0,
"signature": "func set_zero() -> null",
"description": " Sets the linear and angular components to 0.\n",
"arguments": [
]
},
{
"name": "add_scaled_accel",
"return_type": "null",
"rpc_mode": 0,
"signature": "func add_scaled_accel(accel: GSTTargetAcceleration, scalar: float) -> null",
"description": " Adds `accel`'s components, multiplied by `scalar`, to this one.\n",
"arguments": [
{
"name": "accel",
"type": "GSTTargetAcceleration"
},
{
"name": "scalar",
"type": "float"
}
]
},
{
"name": "get_magnitude_squared",
"return_type": "float",
"rpc_mode": 0,
"signature": "func get_magnitude_squared() -> float",
"description": " Returns the squared magnitude of the linear and angular components.\n",
"arguments": [
]
},
{
"name": "get_magnitude",
"return_type": "float",
"rpc_mode": 0,
"signature": "func get_magnitude() -> float",
"description": " Returns the magnitude of the linear and angular components.\n",
"arguments": [
]
}
],
"static_functions": [
]
}
]