Datasets:

edbeeching
/

godot_rl_BallChase

	extends Node

	# --fixed-fps 2000 --disable-render-loop

	enum ControlModes { HUMAN, TRAINING, ONNX_INFERENCE }
	@export var control_mode: ControlModes = ControlModes.TRAINING
	@export_range(1, 10, 1, "or_greater") var action_repeat := 8
	@export_range(0, 10, 0.1, "or_greater") var speed_up := 1.0
	@export var onnx_model_path := ""

	# Onnx model stored for each requested path
	var onnx_models: Dictionary

	@onready var start_time = Time.get_ticks_msec()

	const MAJOR_VERSION := "0"
	const MINOR_VERSION := "7"
	const DEFAULT_PORT := "11008"
	const DEFAULT_SEED := "1"
	var stream: StreamPeerTCP = null
	var connected = false
	var message_center
	var should_connect = true

	var all_agents: Array
	var agents_training: Array
	var agents_inference: Array
	var agents_heuristic: Array

	## For recording expert demos
	var agent_demo_record: Node
	## Stores recorded trajectories
	var demo_trajectories: Array
	## A trajectory includes obs: Array, acts: Array, terminal (set in Python env instead)
	var current_demo_trajectory: Array

	var need_to_send_obs = false
	var args = null
	var initialized = false
	var just_reset = false
	var onnx_model = null
	var n_action_steps = 0

	var _action_space: Dictionary
	var _action_space_inference: Array[Dictionary] = []
	var _obs_space: Dictionary


	# Called when the node enters the scene tree for the first time.
	func _ready():
	await get_tree().root.ready
	get_tree().set_pause(true)
	_initialize()
	await get_tree().create_timer(1.0).timeout
	get_tree().set_pause(false)


	func _initialize():
	_get_agents()
	args = _get_args()
	Engine.physics_ticks_per_second = _get_speedup() * 60 # Replace with function body.
	Engine.time_scale = _get_speedup() * 1.0
	prints(
	"physics ticks",
	Engine.physics_ticks_per_second,
	Engine.time_scale,
	_get_speedup(),
	speed_up
	)

	_set_heuristic("human", all_agents)

	_initialize_training_agents()
	_initialize_inference_agents()
	_initialize_demo_recording()

	_set_seed()
	_set_action_repeat()
	initialized = true


	func _initialize_training_agents():
	if agents_training.size() > 0:
	_obs_space = agents_training[0].get_obs_space()
	_action_space = agents_training[0].get_action_space()
	connected = connect_to_server()
	if connected:
	_set_heuristic("model", agents_training)
	_handshake()
	_send_env_info()
	else:
	push_warning(
	"Couldn't connect to Python server, using human controls instead. ",
	"Did you start the training server using e.g. `gdrl` from the console?"
	)


	func _initialize_inference_agents():
	if agents_inference.size() > 0:
	if control_mode == ControlModes.ONNX_INFERENCE:
	assert(
	FileAccess.file_exists(onnx_model_path),
	"Onnx Model Path set on Sync node does not exist: %s" % onnx_model_path
	)
	onnx_models[onnx_model_path] = ONNXModel.new(onnx_model_path, 1)

	for agent in agents_inference:
	_action_space_inference.append(agent.get_action_space())

	var agent_onnx_model: ONNXModel
	if agent.onnx_model_path.is_empty():
	assert(
	onnx_models.has(onnx_model_path),
	(
	"Node %s has no onnx model path set " % agent.get_path()
	+ "and sync node's control mode is not set to OnnxInference. "
	+ "Either add the path to the AIController, "
	+ "or if you want to use the path set on sync node instead, "
	+ "set control mode to OnnxInference."
	)
	)
	prints(
	"Info: AIController %s" % agent.get_path(),
	"has no onnx model path set.",
	"Using path set on the sync node instead."
	)
	agent_onnx_model = onnx_models[onnx_model_path]
	else:
	if not onnx_models.has(agent.onnx_model_path):
	assert(
	FileAccess.file_exists(agent.onnx_model_path),
	(
	"Onnx Model Path set on %s node does not exist: %s"
	% [agent.get_path(), agent.onnx_model_path]
	)
	)
	onnx_models[agent.onnx_model_path] = ONNXModel.new(agent.onnx_model_path, 1)
	agent_onnx_model = onnx_models[agent.onnx_model_path]

	agent.onnx_model = agent_onnx_model
	_set_heuristic("model", agents_inference)


	func _initialize_demo_recording():
	if agent_demo_record:
	InputMap.add_action("RemoveLastDemoEpisode")
	InputMap.action_add_event(
	"RemoveLastDemoEpisode", agent_demo_record.remove_last_episode_key
	)
	current_demo_trajectory.resize(2)
	current_demo_trajectory[0] = []
	current_demo_trajectory[1] = []
	agent_demo_record.heuristic = "demo_record"


	func _physics_process(_delta):
	# two modes, human control, agent control
	# pause tree, send obs, get actions, set actions, unpause tree

	_demo_record_process()

	if n_action_steps % action_repeat != 0:
	n_action_steps += 1
	return

	n_action_steps += 1

	_training_process()
	_inference_process()
	_heuristic_process()


	func _training_process():
	if connected:
	get_tree().set_pause(true)

	if just_reset:
	just_reset = false
	var obs = _get_obs_from_agents(agents_training)

	var reply = {"type": "reset", "obs": obs}
	_send_dict_as_json_message(reply)
	# this should go straight to getting the action and setting it checked the agent, no need to perform one phyics tick
	get_tree().set_pause(false)
	return

	if need_to_send_obs:
	need_to_send_obs = false
	var reward = _get_reward_from_agents()
	var done = _get_done_from_agents()
	#_reset_agents_if_done() # this ensures the new observation is from the next env instance : NEEDS REFACTOR

	var obs = _get_obs_from_agents(agents_training)

	var reply = {"type": "step", "obs": obs, "reward": reward, "done": done}
	_send_dict_as_json_message(reply)

	var handled = handle_message()


	func _inference_process():
	if agents_inference.size() > 0:
	var obs: Array = _get_obs_from_agents(agents_inference)
	var actions = []

	for agent_id in range(0, agents_inference.size()):
	var action = agents_inference[agent_id].onnx_model.run_inference(
	obs[agent_id]["obs"], 1.0
	)
	action["output"] = clamp_array(action["output"], -1.0, 1.0)
	var action_dict = _extract_action_dict(
	action["output"], _action_space_inference[agent_id]
	)
	actions.append(action_dict)

	_set_agent_actions(actions, agents_inference)
	_reset_agents_if_done(agents_inference)
	get_tree().set_pause(false)


	func _demo_record_process():
	if not agent_demo_record:
	return

	if Input.is_action_just_pressed("RemoveLastDemoEpisode"):
	print("[Sync script][Demo recorder] Removing last recorded episode.")
	demo_trajectories.remove_at(demo_trajectories.size() - 1)
	print("Remaining episode count: %d" % demo_trajectories.size())

	if n_action_steps % agent_demo_record.action_repeat != 0:
	return

	var obs_dict: Dictionary = agent_demo_record.get_obs()

	# Get the current obs from the agent
	assert(
	obs_dict.has("obs"),
	"Demo recorder needs an 'obs' key in get_obs() returned dictionary to record obs from."
	)
	current_demo_trajectory[0].append(obs_dict.obs)

	# Get the action applied for the current obs from the agent
	agent_demo_record.set_action()
	var acts = agent_demo_record.get_action()

	var terminal = agent_demo_record.get_done()
	# Record actions only for non-terminal states
	if terminal:
	agent_demo_record.set_done_false()
	else:
	current_demo_trajectory[1].append(acts)

	if terminal:
	#current_demo_trajectory[2].append(true)
	demo_trajectories.append(current_demo_trajectory.duplicate(true))
	print("[Sync script][Demo recorder] Recorded episode count: %d" % demo_trajectories.size())
	current_demo_trajectory[0].clear()
	current_demo_trajectory[1].clear()


	func _heuristic_process():
	for agent in agents_heuristic:
	_reset_agents_if_done(agents_heuristic)


	func _extract_action_dict(action_array: Array, action_space: Dictionary):
	var index = 0
	var result = {}
	for key in action_space.keys():
	var size = action_space[key]["size"]
	if action_space[key]["action_type"] == "discrete":
	result[key] = round(action_array[index])
	else:
	result[key] = action_array.slice(index, index + size)
	index += size

	return result


	## For AIControllers that inherit mode from sync, sets the correct mode.
	func _set_agent_mode(agent: Node):
	var agent_inherits_mode: bool = agent.control_mode == agent.ControlModes.INHERIT_FROM_SYNC

	if agent_inherits_mode:
	match control_mode:
	ControlModes.HUMAN:
	agent.control_mode = agent.ControlModes.HUMAN
	ControlModes.TRAINING:
	agent.control_mode = agent.ControlModes.TRAINING
	ControlModes.ONNX_INFERENCE:
	agent.control_mode = agent.ControlModes.ONNX_INFERENCE


	func _get_agents():
	all_agents = get_tree().get_nodes_in_group("AGENT")
	for agent in all_agents:
	_set_agent_mode(agent)

	if agent.control_mode == agent.ControlModes.TRAINING:
	agents_training.append(agent)
	elif agent.control_mode == agent.ControlModes.ONNX_INFERENCE:
	agents_inference.append(agent)
	elif agent.control_mode == agent.ControlModes.HUMAN:
	agents_heuristic.append(agent)
	elif agent.control_mode == agent.ControlModes.RECORD_EXPERT_DEMOS:
	assert(
	not agent_demo_record,
	"Currently only a single AIController can be used for recording expert demos."
	)
	agent_demo_record = agent


	func _set_heuristic(heuristic, agents: Array):
	for agent in agents:
	agent.set_heuristic(heuristic)


	func _handshake():
	print("performing handshake")

	var json_dict = _get_dict_json_message()
	assert(json_dict["type"] == "handshake")
	var major_version = json_dict["major_version"]
	var minor_version = json_dict["minor_version"]
	if major_version != MAJOR_VERSION:
	print("WARNING: major verison mismatch ", major_version, " ", MAJOR_VERSION)
	if minor_version != MINOR_VERSION:
	print("WARNING: minor verison mismatch ", minor_version, " ", MINOR_VERSION)

	print("handshake complete")


	func _get_dict_json_message():
	# returns a dictionary from of the most recent message
	# this is not waiting
	while stream.get_available_bytes() == 0:
	stream.poll()
	if stream.get_status() != 2:
	print("server disconnected status, closing")
	get_tree().quit()
	return null

	OS.delay_usec(10)

	var message = stream.get_string()
	var json_data = JSON.parse_string(message)

	return json_data


	func _send_dict_as_json_message(dict):
	stream.put_string(JSON.stringify(dict, "", false))


	func _send_env_info():
	var json_dict = _get_dict_json_message()
	assert(json_dict["type"] == "env_info")

	var message = {
	"type": "env_info",
	"observation_space": _obs_space,
	"action_space": _action_space,
	"n_agents": len(agents_training)
	}
	_send_dict_as_json_message(message)


	func connect_to_server():
	print("Waiting for one second to allow server to start")
	OS.delay_msec(1000)
	print("trying to connect to server")
	stream = StreamPeerTCP.new()

	# "localhost" was not working on windows VM, had to use the IP
	var ip = "127.0.0.1"
	var port = _get_port()
	var connect = stream.connect_to_host(ip, port)
	stream.set_no_delay(true) # TODO check if this improves performance or not
	stream.poll()
	# Fetch the status until it is either connected (2) or failed to connect (3)
	while stream.get_status() < 2:
	stream.poll()
	return stream.get_status() == 2


	func _get_args():
	print("getting command line arguments")
	var arguments = {}
	for argument in OS.get_cmdline_args():
	print(argument)
	if argument.find("=") > -1:
	var key_value = argument.split("=")
	arguments[key_value[0].lstrip("--")] = key_value[1]
	else:
	# Options without an argument will be present in the dictionary,
	# with the value set to an empty string.
	arguments[argument.lstrip("--")] = ""

	return arguments


	func _get_speedup():
	print(args)
	return args.get("speedup", str(speed_up)).to_float()


	func _get_port():
	return args.get("port", DEFAULT_PORT).to_int()


	func _set_seed():
	var _seed = args.get("env_seed", DEFAULT_SEED).to_int()
	seed(_seed)


	func _set_action_repeat():
	action_repeat = args.get("action_repeat", str(action_repeat)).to_int()


	func disconnect_from_server():
	stream.disconnect_from_host()


	func handle_message() -> bool:
	# get json message: reset, step, close
	var message = _get_dict_json_message()
	if message["type"] == "close":
	print("received close message, closing game")
	get_tree().quit()
	get_tree().set_pause(false)
	return true

	if message["type"] == "reset":
	print("resetting all agents")
	_reset_agents()
	just_reset = true
	get_tree().set_pause(false)
	#print("resetting forcing draw")
	# RenderingServer.force_draw()
	# var obs = _get_obs_from_agents()
	# print("obs ", obs)
	# var reply = {
	# "type": "reset",
	# "obs": obs
	# }
	# _send_dict_as_json_message(reply)
	return true

	if message["type"] == "call":
	var method = message["method"]
	var returns = _call_method_on_agents(method)
	var reply = {"type": "call", "returns": returns}
	print("calling method from Python")
	_send_dict_as_json_message(reply)
	return handle_message()

	if message["type"] == "action":
	var action = message["action"]
	_set_agent_actions(action, agents_training)
	need_to_send_obs = true
	get_tree().set_pause(false)
	return true

	print("message was not handled")
	return false


	func _call_method_on_agents(method):
	var returns = []
	for agent in all_agents:
	returns.append(agent.call(method))

	return returns


	func _reset_agents_if_done(agents = all_agents):
	for agent in agents:
	if agent.get_done():
	agent.set_done_false()


	func _reset_agents(agents = all_agents):
	for agent in agents:
	agent.needs_reset = true
	#agent.reset()


	func _get_obs_from_agents(agents: Array = all_agents):
	var obs = []
	for agent in agents:
	obs.append(agent.get_obs())
	return obs


	func _get_reward_from_agents(agents: Array = agents_training):
	var rewards = []
	for agent in agents:
	rewards.append(agent.get_reward())
	agent.zero_reward()
	return rewards


	func _get_done_from_agents(agents: Array = agents_training):
	var dones = []
	for agent in agents:
	var done = agent.get_done()
	if done:
	agent.set_done_false()
	dones.append(done)
	return dones


	func _set_agent_actions(actions, agents: Array = all_agents):
	for i in range(len(actions)):
	agents[i].set_action(actions[i])


	func clamp_array(arr: Array, min: float, max: float):
	var output: Array = []
	for a in arr:
	output.append(clamp(a, min, max))
	return output


	## Save recorded export demos on window exit (Close window instead of "Stop" button in Godot Editor)
	func _notification(what):
	if not agent_demo_record:
	return

	if what == NOTIFICATION_PREDELETE:
	var json_string = JSON.stringify(demo_trajectories, "", false)
	var file = FileAccess.open(agent_demo_record.expert_demo_save_path, FileAccess.WRITE)

	if not file:
	var error: Error = FileAccess.get_open_error()
	assert(not error, "There was an error opening the file: %d" % error)

	file.store_line(json_string)
	var error = file.get_error()
	assert(not error, "There was an error after trying to write to the file: %d" % error)