extends Control
class_name Board


signal added_piece
signal end_round


@export var block_size: int = 20
@export var piece_catalogue: Array[PackedScene] = []

var _grid_filled: Array[bool] = []
var _player_position: Vector2i = Vector2i.ZERO
var _player_piece: Piece = null
var _grid_final_y_row: int = 0
var _grid_final_x_row: int = 0

var num_pieces: int = 0
const start_pos: Vector2i = Vector2i(5, 2)

func _ready() -> void:
	assert(piece_catalogue.size() >= 1, "Expected at least one piece in catalogue")
	
	# calculate grid
	_grid_final_y_row = size.y / block_size
	_grid_final_x_row = size.x / block_size
	print("Grid is " + str(_grid_final_x_row) + " by " + str(_grid_final_y_row))
	
	for i in range(0, _grid_final_x_row):
		for j in range(0, _grid_final_y_row):
			_grid_filled.append(false)
	
	_on_turn_timer_timeout()


func _input(event: InputEvent) -> void:
	if event.is_action_pressed("player_left"):
		_move(Vector2i(-1, 0))
	elif event.is_action_pressed("player_right"):
		_move(Vector2i(1, 0))
		
	if event.is_action_pressed("player_up"):
		if _player_piece:
			_player_piece.rotate_left()
			print(_player_piece.to_string())

	if event.is_action("player_down"):
		_move(Vector2i(0, 1))


func _add_player_piece():
	var scene: PackedScene = piece_catalogue.pick_random()
	var piece: Piece = scene.instantiate()
	piece.block_size = block_size
	
	# TODO: start piece at center of board
	_player_position = start_pos
	piece.position = _player_position * block_size
	_player_piece = piece
	
	# add piece to scene tree and emit signal
	add_child(piece)
	num_pieces += 1
	added_piece.emit()


func _move(v: Vector2i):
	assert(_player_piece != null, "Player piece must not be null")
	
	var new_player_position: Vector2i = _player_position + v
	
	# for each cell in the block, offset it by new position and check for collision
	for pos: Vector2i in _player_piece.get_cell_grid():
		pos += new_player_position
		if pos.x < 0 or pos.x >= _grid_final_x_row:
			# ignore input that moves beyond lateral boundaries
			return
		
		if _is_grid_position_taken(pos):
			# if movement is vertical and blocked, then we're done
			if v.y != 0:
				end_round.emit()
			return
			
	# update player position
	_player_position = new_player_position
	if _player_piece:
		_player_piece.position = _player_position * block_size

	# if any cell's at the bottom of the grid, we're done
	for pos: Vector2i in _player_piece.get_cell_grid():
		pos += _player_position
		if (pos.y >= _grid_final_y_row - 1):
			end_round.emit()


func _on_end_round():
		# fill in collision grid with piece cells
		for pos: Vector2i in _player_piece.get_cell_grid():
			pos += _player_position
			_set_grid_position(pos, true)

		# disconnect player controls from current piece
		_player_piece = null
		
		# now start a new round
		_on_turn_timer_timeout()


func _on_turn_timer_timeout() -> void:
	if _player_piece == null:
		_add_player_piece()
	else:
		_move(Vector2i(0, 1))
	%turnTimer.start()


func _set_grid_position(v: Vector2i, b: bool):
	_grid_filled[v.x + v.y * _grid_final_x_row] = b


func _is_grid_position_taken(v: Vector2i) -> bool:
	return _grid_filled[v.x + v.y * _grid_final_x_row]