extends Control

# Copyright (c) 2019-2020 Péter Magyar
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.

export(PackedScene) var keybind_category_scene : PackedScene

export(NodePath) var content_container_path : NodePath


# Note for the reader:
#
# This demo conveniently uses the same names for actions and for the container nodes
# that hold each remapping button. This allow to get back to the button based simply
# on the name of the corresponding action, but it might not be so simple in your project.
#
# A better approach for large-scale input remapping might be to do the connections between
# buttons and wait_for_input through the code, passing as arguments both the name of the
# action and the node, e.g.:
# button.connect("pressed", self, "wait_for_input", [ button, action ])

# Constants
const INPUT_ACTIONS = [ "move_up", "move_down", "move_left", "move_right", "jump" ]
const CONFIG_FILE = "user://input.cfg"

# Member variables
var action # To register the action the UI is currently handling
var button # Button node corresponding to the above action


# Load/save input mapping to a config file
# Changes done while testing the demo will be persistent, saved to CONFIG_FILE

func load_config():
	var config = ConfigFile.new()
	var err = config.load(CONFIG_FILE)
	if err: # Assuming that file is missing, generate default config
		for action_name in INPUT_ACTIONS:
			var action_list = InputMap.get_action_list(action_name)
			# There could be multiple actions in the list, but we save the first one by default
			var scancode = OS.get_scancode_string(action_list[0].scancode)
			config.set_value("input", action_name, scancode)
		config.save(CONFIG_FILE)
	else: # ConfigFile was properly loaded, initialize InputMap
		for action_name in config.get_section_keys("input"):
			# Get the key scancode corresponding to the saved human-readable string
			var scancode = OS.find_scancode_from_string(config.get_value("input", action_name))
			# Create a new event object based on the saved scancode
			var event = InputEventKey.new()
			event.scancode = scancode
			# Replace old action (key) events by the new one
			for old_event in InputMap.get_action_list(action_name):
				if old_event is InputEventKey:
					InputMap.action_erase_event(action_name, old_event)
			InputMap.action_add_event(action_name, event)


func save_to_config(section, key, value):
	"""Helper function to redefine a parameter in the settings file"""
	var config = ConfigFile.new()
	var err = config.load(CONFIG_FILE)
	if err:
		print("Error code when loading config file: ", err)
	else:
		config.set_value(section, key, value)
		config.save(CONFIG_FILE)


# Input management

func wait_for_input(action_bind):
	action = action_bind
	# See note at the beginning of the script
	button = get_node("bindings").get_node(action).get_node("Button")
	get_node("contextual_help").text = "Press a key to assign to the '" + action + "' action."
	set_process_input(true)


func a_input(event):
	# Handle the first pressed key
	if event is InputEventKey:
		# Register the event as handled and stop polling
		get_tree().set_input_as_handled()
		set_process_input(false)
		# Reinitialise the contextual help label
		get_node("contextual_help").text = "Click a key binding to reassign it, or press the Cancel action."
		if not event.is_action("ui_cancel"):
			# Display the string corresponding to the pressed key
			var scancode = OS.get_scancode_string(event.scancode)
			button.text = scancode
			# Start by removing previously key binding(s)
			for old_event in InputMap.get_action_list(action):
				InputMap.action_erase_event(action, old_event)
			# Add the new key binding
			InputMap.action_add_event(action, event)
			save_to_config("input", action, scancode)


func a_ready():
	# Load config if existing, if not it will be generated with default values
	load_config()
	# Initialise each button with the default key binding from InputMap
	for action in INPUT_ACTIONS:
		# We assume that the key binding that we want is the first one (0), if there are several
		var input_event = InputMap.get_action_list(action)[0]
		# See note at the beginning of the script
		var button = get_node("bindings").get_node(action).get_node("Button")
		button.text = OS.get_scancode_string(input_event.scancode)
		button.connect("pressed", self, "wait_for_input", [action])
	
	# Do not start processing input until a button is pressed
	set_process_input(false)