extends VoxelWorld # Copyright Péter Magyar relintai@gmail.com # MIT License, might be merged into the Voxelman engine module # 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. enum GenType { TEST, NORMAL } export(int) var gen_type : int = GenType.NORMAL export(Array, MeshDataResource) var meshes : Array var chunks : Dictionary = Dictionary() var spawned : bool = false var generation_queue : Array func _ready() -> void: if level_generator != null: level_generator.setup(self, 80, false, library) spawn() set_process(true) #func _process(delta : float) -> void: # if not generation_queue.empty(): # var chunk : VoxelChunk = generation_queue.front() # # if gen_type == GenType.NORMAL: ## generate(chunk) # pass # else: # generate_terrarin(chunk) # # generation_queue.remove(0) # # if generation_queue.empty(): # emit_signal("generation_finished") func generate_terrarin(chunk : VoxelChunk) -> void: var buffer : VoxelChunk = chunk.get_buffer() buffer.create(int(chunk_size_x) + 3, int(chunk_size_y) + 3, int(chunk_size_z) + 3) var noise : OpenSimplexNoise = OpenSimplexNoise.new() noise.seed = 10 noise.octaves = 4 noise.period = 200.0 noise.persistence = 0.8 var terr_noise : OpenSimplexNoise = OpenSimplexNoise.new() terr_noise.seed = 10 * 321 + 112 terr_noise.octaves = 4 terr_noise.period = 20.0 terr_noise.persistence = 0.9 for x in range(-1, chunk_size_x + 2): for z in range(-1, chunk_size_z + 2): var val : float = noise.get_noise_2d(x + (chunk.position_x * chunk.size_x), z + (chunk.position_z * chunk.size_z)) val *= val val *= 100 val += 2 var tv : float = terr_noise.get_noise_2d(x + (chunk.position_x * chunk.size_x), z + (chunk.position_z * chunk.size_z)) val += tv * 2 var v : int = (int(val)) for y in range(-1, v): seed(x + (chunk.position_x * chunk.size_x) + z + (chunk.position_z * chunk.size_z) + y) buffer.set_voxel(1, x + 1, y + 1, z + 1, VoxelChunk.DEFAULT_CHANNEL_TYPE) buffer.set_voxel(randi() % 200 + 55, x + 1, y + 1, z + 1, VoxelChunk.DEFAULT_CHANNEL_ISOLEVEL) seed(x + (chunk.position_x * chunk.size_x) + z + (chunk.position_z * chunk.size_z) + y + 1) buffer.set_voxel(1, x + 1, y + 2, z + 1, VoxelChunk.DEFAULT_CHANNEL_TYPE) buffer.set_voxel(randi() % 200 + 55, x + 1, y + 2, z + 1, VoxelChunk.DEFAULT_CHANNEL_ISOLEVEL) for i in range(5): var light : VoxelLight = VoxelLight.new() randomize() light.color = Color(randf(), randf(), randf()) light.size = randi() % 5 + 5 light.set_world_position((chunk.position_x * chunk.size_x) + (randi() % chunk.size_x), (chunk.position_y * chunk.size_y) + (randi() % 6), (chunk.position_z * chunk.size_z) + (randi() % chunk.size_z)) chunk.add_voxel_light(light) # var light : VoxelLight = VoxelLight.new() # light.color = Color(1.0, 0, 0) # light.size = 10 # light.set_world_position((chunk.position_x * chunk.size_x) + (2), (chunk.position_y * chunk.size_y) + (7), (chunk.position_z * chunk.size_z) + (1)) # chunk.add_voxel_light(light) # for x in range(16): # for z in range(16): # chunk.add_prop(Transform(Basis().scaled(Vector3(0.2, 0.2, 0.2)), Vector3(2, 5, 0) * voxel_scale), meshes[0]) # chunk.add_prop(Transform(Basis(), Vector3(4, 3, 5) * voxel_scale), meshes[0]) chunk.bake_lights() chunk.build() # chunk.draw_debug_voxels(2000) chunk.draw_debug_voxel_lights() #func spawn_chunk(x : int, y : int, z : int, lod_size : int = 1) -> void: # var name : String = "Chunk," + str(x) + "," + str(y) + "," + str(z) # var chunk : VoxelChunk = VoxelChunk.new() ## var chunk : VoxelChunk = MarchingCubesVoxelChunk.new() # # chunk.voxel_world = self # chunk.set_chunk_position(x, y, z) # chunk.library = library # chunk.voxel_scale = voxel_scale # chunk.lod_size = lod_size # chunk.set_chunk_size(int(chunk_size_x), int(chunk_size_y), int(chunk_size_z)) # # chunk.create_mesher() # chunk.mesher.base_light_value = 0.6 # # chunks[name] = chunk # # generation_queue.append(chunk) func _create_chunk(x : int, y : int, z : int, pchunk : Node) -> VoxelChunk: var chunk : VoxelChunk = CubicVoxelChunk.new() #chunk.lod_size = 1 return ._create_chunk(x, y, z, chunk) func spawn() -> void: var hsize : int = 5 # if gen_type == GenType.NORMAL: for x in range(-hsize, hsize): for z in range(-hsize, hsize): for y in range(-4, 2): # spawn_chunk(x, y, z, abs(int(ceil(x / 2))) + 1) # spawn_chunk(x, y, z, 1) create_chunk(x, y, z) #func set_player(p_player : Spatial) -> void: # player = p_player # if _spawned: # clear() # # spawn() # pass