Interior Maps #13
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map_editor.scn (Stored with Git LFS)
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map_editor.scn (Stored with Git LFS)
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map_editor/camera_boundary_mesh.res (Stored with Git LFS)
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map_editor/camera_boundary_mesh.res (Stored with Git LFS)
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mesh_grid.gd
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mesh_grid.gd
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@ -1,25 +1,78 @@
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class_name MeshGrid extends Node3D
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class_name MeshGrid extends Node3D
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const _CELL_COUNT := 8
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const _CHUNK_SIZE := 32
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class _Chunk:
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const _GRID_ORIGIN := Vector2(0.5, 0.5)
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var multimesh_instances: Array[_MultimeshInstance] = []
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##
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##
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##
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class Chunk:
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var multimesh_instances: Array[MultiMeshInstance] = []
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var meshes: Array[Mesh] = []
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var meshes: Array[Mesh] = []
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func _init() -> void:
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func _init() -> void:
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self.meshes.resize(_CELL_COUNT * _CELL_COUNT)
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meshes.resize(_CHUNK_SIZE * _CHUNK_SIZE)
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class _MultimeshInstance:
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##
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##
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##
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func invalidate(mesh_grid: MeshGrid, coordinate: Vector2i) -> void:
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# TODO: Once this is all lowered into native code, look for ways to parallelize the loops.
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for multimesh_instance in multimesh_instances:
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RenderingServer.free_rid(multimesh_instance._instance_rid)
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RenderingServer.free_rid(multimesh_instance._multimesh_rid)
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multimesh_instances.clear()
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# Normalize mesh instance data for the chunk.
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var transforms_by_mesh := {}
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var grid_size := mesh_grid.size
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for i in meshes.size():
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var mesh := meshes[i]
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if mesh != null:
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if not(mesh in transforms_by_mesh):
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transforms_by_mesh[mesh] = []
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transforms_by_mesh[mesh].append(Transform3D(Basis.IDENTITY, Vector3(
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(float(coordinate.x * _CHUNK_SIZE) + (i % _CHUNK_SIZE)) -
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(float(grid_size.x) * _GRID_ORIGIN.x), 0.0,
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(float(coordinate.y * _CHUNK_SIZE) + (i / _CHUNK_SIZE)) -
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(float(grid_size.y) * _GRID_ORIGIN.y))))
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# Bake into multimesh instances for the chunk.
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var scenario_rid := mesh_grid.get_world_3d().scenario
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var global_transform := mesh_grid.global_transform
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for chunk_mesh in transforms_by_mesh:
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var multimesh_instance := MultiMeshInstance.new(
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scenario_rid, chunk_mesh.get_rid(), transforms_by_mesh[chunk_mesh])
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multimesh_instance.set_offset(global_transform)
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multimesh_instances.append(multimesh_instance)
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##
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##
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##
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func set_mesh(coordinate: Vector2i, mesh: Mesh) -> void:
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meshes[(_CHUNK_SIZE * coordinate.y) + coordinate.x] = mesh
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##
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##
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##
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class MultiMeshInstance:
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var _instance_rid := RID()
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var _instance_rid := RID()
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var _multimesh_rid := RID()
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var _multimesh_rid := RID()
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func _init(scenario_rid: RID, mesh: Mesh, transforms: Array) -> void:
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func _init(scenario_rid: RID, mesh_rid: RID, transforms: Array) -> void:
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_multimesh_rid = RenderingServer.multimesh_create()
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_multimesh_rid = RenderingServer.multimesh_create()
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_instance_rid = RenderingServer.instance_create2(_multimesh_rid, scenario_rid)
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_instance_rid = RenderingServer.instance_create2(_multimesh_rid, scenario_rid)
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RenderingServer.multimesh_set_mesh(_multimesh_rid, mesh.get_rid())
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RenderingServer.multimesh_set_mesh(_multimesh_rid, mesh_rid)
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var transform_count := transforms.size()
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var transform_count := transforms.size()
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@ -29,88 +82,94 @@ class _MultimeshInstance:
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for i in transform_count:
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for i in transform_count:
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RenderingServer.multimesh_instance_set_transform(_multimesh_rid, i, transforms[i])
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RenderingServer.multimesh_instance_set_transform(_multimesh_rid, i, transforms[i])
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var _chunks: Array[_Chunk] = []
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##
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##
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##
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func set_offset(offset: Transform3D) -> void:
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RenderingServer.instance_set_transform(_instance_rid, offset)
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var _grid_origin := Vector2(0.5, 0.5)
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var _chunks: Array[Chunk] = []
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var _chunks_size := Vector2i.ZERO
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##
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##
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## The number of horizontal and vertical cells in the current grid.
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##
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##
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## Setting this value will result in the current grid data being completely overwritten to return
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## it to a sensible default.
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##
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##
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@export
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@export
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var size: Vector2i:
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var size: Vector2i:
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set(value):
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set(value):
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self._chunks.resize(int(ceil((value.x * value.y) / float(_CELL_COUNT))))
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var chunk_size_factor := float(_CHUNK_SIZE)
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for i in self._chunks.size():
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_chunks.resize(int(ceilf(value.x / chunk_size_factor) * ceilf(value.y / chunk_size_factor)))
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self._chunks[i] = _Chunk.new()
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for i in _chunks.size():
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_chunks[i] = Chunk.new()
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_chunks_size = Vector2i((value / float(_CHUNK_SIZE)).ceil())
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size = value
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size = value
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func _get_chunk(chunk_coordinate: Vector2i) -> Chunk:
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return _chunks[(_chunks_size.x * chunk_coordinate.y) + chunk_coordinate.x]
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func _notification(what: int) -> void:
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func _notification(what: int) -> void:
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match what:
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match what:
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NOTIFICATION_TRANSFORM_CHANGED:
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NOTIFICATION_TRANSFORM_CHANGED:
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for chunk in _chunks:
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for chunk in _chunks:
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for multimesh_instance in chunk.multimesh_instances:
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for multimesh_instance in chunk.multimesh_instances:
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RenderingServer.instance_set_transform(
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multimesh_instance.set_offset_transform(global_transform)
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multimesh_instance._instance_rid, multimesh_instance.global_transform)
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##
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##
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## Sets the cell at [code]coordinate[/code] to display [code]mesh[/code].
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##
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##
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## Note that this function assumes [code]coordinate[/code] is within the bounds of the grid
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## coordinate space.
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##
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##
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## Note that changes to a cell result in the chunk it resides in being completely regenerated as
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func clear_mesh(mesh: Mesh) -> void:
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## part of its modification, and therefore has an implicitly higher overhead to other setter
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for y in size.y:
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## operations defined by [MeshGrid].
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for x in size.x:
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var coordinate := Vector2i(x, y)
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_get_chunk(coordinate / _CHUNK_SIZE).set_mesh(coordinate % _CHUNK_SIZE, mesh)
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for y in _chunks_size.y:
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for x in _chunks_size.x:
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var chunk_coordinate := Vector2i(x, y)
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_get_chunk(chunk_coordinate).invalidate(self, chunk_coordinate)
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##
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##
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func set_mesh(coordinate: Vector2i, mesh: Mesh) -> void:
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##
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##
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func fill_mesh(area: Rect2i, mesh: Mesh) -> void:
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assert(Rect2i(Vector2i.ZERO, size).encloses(area), "area must be within grid")
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var filled_chunks := BitMap.new()
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filled_chunks.resize(_chunks_size)
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for y in range(area.position.y, area.end.y):
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for x in range(area.position.x, area.end.x):
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var coordinate := Vector2i(x, y)
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var chunk_coordinate := coordinate / _CHUNK_SIZE
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_get_chunk(chunk_coordinate).set_mesh(coordinate % _CHUNK_SIZE, mesh)
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filled_chunks.set_bitv(chunk_coordinate, true)
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for y in _chunks_size.y:
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for x in _chunks_size.x:
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if filled_chunks.get_bit(x, y):
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var chunk_coordinate := Vector2i(x, y)
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_get_chunk(chunk_coordinate).invalidate(self, chunk_coordinate)
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##
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##
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##
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func plot_mesh(coordinate: Vector2i, mesh: Mesh) -> void:
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assert(Rect2i(Vector2i.ZERO, size).has_point(coordinate), "coordinate must be within grid")
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assert(Rect2i(Vector2i.ZERO, size).has_point(coordinate), "coordinate must be within grid")
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# TODO: Once this is all lowered into native code, look for ways to parallelize the loops.
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var chunk_coordinate := coordinate / _CHUNK_SIZE
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var chunk_coordinate := coordinate / _CELL_COUNT
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var chunk := _get_chunk(chunk_coordinate)
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var cell_coordinate := coordinate % _CELL_COUNT
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var chunk := _chunks[(size.x * chunk_coordinate.y) + chunk_coordinate.x]
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var chunk_meshes := chunk.meshes
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chunk_meshes[(_CELL_COUNT * cell_coordinate.y) + cell_coordinate.x] = mesh
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chunk.set_mesh(coordinate % _CHUNK_SIZE, mesh)
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chunk.invalidate(self, chunk_coordinate)
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# Invalide any existing baked multimeshes in the chunk.
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for multimesh_instance in chunk.multimesh_instances:
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RenderingServer.free_rid(multimesh_instance._instance_rid)
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RenderingServer.free_rid(multimesh_instance._multimesh_rid)
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chunk.multimesh_instances.clear()
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# Normalize mesh instance data for the chunk.
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var mesh_transform_sets := {}
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for i in chunk_meshes.size():
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var chunk_mesh := chunk_meshes[i]
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if chunk_mesh != null:
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if not(chunk_mesh in mesh_transform_sets):
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mesh_transform_sets[chunk_mesh] = []
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mesh_transform_sets[chunk_mesh].push_back(Transform3D(Basis.IDENTITY, Vector3(
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(float(chunk_coordinate.x * _CELL_COUNT) + (i % _CELL_COUNT)) -
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(float(size.x) * _grid_origin.x), 0.0,
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(float(chunk_coordinate.y * _CELL_COUNT) + (i / _CELL_COUNT)) -
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(float(size.y) * _grid_origin.y))))
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# Bake into multimesh instances for the chunk.
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var scenario_rid := get_world_3d().scenario
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for chunk_mesh in mesh_transform_sets:
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var multimesh_instance :=\
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_MultimeshInstance.new(scenario_rid, chunk_mesh, mesh_transform_sets[chunk_mesh])
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RenderingServer.instance_set_transform(multimesh_instance._instance_rid, global_transform)
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chunk.multimesh_instances.push_back(multimesh_instance)
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##
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##
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## Returns [code]world_position[/code] converted into a coordinate aligned with the [MeshGrid].
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## Returns [code]world_position[/code] converted into a coordinate aligned with the [MeshGrid].
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@ -119,4 +178,4 @@ func set_mesh(coordinate: Vector2i, mesh: Mesh) -> void:
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## coordinates outside of the [MeshGrid] bounds as well.
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## coordinates outside of the [MeshGrid] bounds as well.
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##
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##
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func world_to_grid(world_position: Vector2) -> Vector2i:
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func world_to_grid(world_position: Vector2) -> Vector2i:
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return Vector2i((world_position + (Vector2(size) * _grid_origin)).floor())
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return Vector2i((world_position + (Vector2(size) * _GRID_ORIGIN)).floor())
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@ -23,6 +23,7 @@ LocalPlayer="*res://local_player.scn"
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[debug]
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[debug]
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gdscript/warnings/integer_division=0
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gdscript/warnings/assert_always_true=0
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gdscript/warnings/assert_always_true=0
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gdscript/warnings/assert_always_false=0
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gdscript/warnings/assert_always_false=0
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@ -80,6 +81,10 @@ editor_paint={
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]
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]
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}
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}
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[physics]
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common/physics_ticks_per_second=30
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[rendering]
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[rendering]
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lights_and_shadows/directional_shadow/soft_shadow_filter_quality=3
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lights_and_shadows/directional_shadow/soft_shadow_filter_quality=3
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