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tgcc/core/biome_generator/chunk_info.gd

66 lines
2.1 KiB
GDScript

extends Node3D
class_name ChunkInfo
@export_enum("Biome", "straight_track", "curved_track") var chunk_type: int = 0
@export_group("Set Piece Rules (Unique pieces)")
@export var exclusive_biome: String = "" # Es: "Forest"
@export_range(0, 5, 1) var uniqueness: int = 0 #0=common; 5=unique
@export_group("Base exit")
@export var north: bool = false
@export var est: bool = false
@export var south: bool = false
@export var west: bool = false
@export_group("River exit")
@export var river_north: bool = false
@export var river_est: bool = false
@export var river_south: bool = false
@export var river_west: bool = false
@export_group("Margin heights (level 0, 1, 2)")
@export_range(0, 2, 1) var height_north: int = 0
@export_range(0, 2, 1) var height_est: int = 0
@export_range(0, 2, 1) var height_south: int = 0
@export_range(0, 2, 1) var height_west: int = 0
@export_group("Lamppost")
@export var have_lamppost: bool = false
@export var connection_left: Array[Node3D]
@export var connection_right: Array[Node3D]
func _ready() -> void:
if exclusive_biome != "":
add_to_group("set_pieces")
func get_rotated_data(steps_90: int) -> Dictionary:
var original_exit = [north, est, south, west]
var original_river_exit = [river_north, river_est, river_south, river_west]
var original_height = [height_north, height_est, height_south, height_west]
var calculated_exit = []
var calculated_river_exit = []
var calculated_height = []
for i in range(4):
var index = (i - steps_90 + 4) % 4
calculated_exit.append(original_exit[index])
calculated_river_exit.append(original_river_exit[index])
calculated_height.append(original_height[index])
return {
"connections": {
"north": calculated_exit[0], "est": calculated_exit[1],
"south": calculated_exit[2], "west": calculated_exit[3]
},
"river_connections": {
"north": calculated_river_exit[0], "est": calculated_river_exit[1],
"south": calculated_river_exit[2], "west": calculated_river_exit[3]
},
"heights": {
"north": calculated_height[0], "est": calculated_height[1],
"south": calculated_height[2], "west": calculated_height[3]
}
}