mirror of
https://github.com/JHDev2006/Super-Mario-Bros.-Remastered-Public.git
synced 2025-10-22 15:38:14 +00:00
599 lines
21 KiB
GDScript
Executable File
599 lines
21 KiB
GDScript
Executable File
@tool
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## Data functions for [TileSet] properties.
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##
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## This data class has functions for retrieving data regarding the mathematical
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## properties of a tile set.
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const _terrain_peering_square_tiles : Array[int] = [0, 3, 4, 7, 8, 11, 12, 15]
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const _terrain_peering_square_vertices : Array[int] = [3, 7, 11, 15]
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const _terrain_peering_isometric_tiles : Array[int] = [1, 2, 5, 6, 9, 10, 13, 14]
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const _terrain_peering_isometric_vertices : Array[int] = [1, 5, 9, 13]
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const _terrain_peering_horiztonal_tiles : Array[int] = [0, 2, 6, 8, 10, 14]
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const _terrain_peering_horiztonal_vertices : Array[int] = [3, 5, 7, 11, 13, 15]
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const _terrain_peering_vertical_tiles : Array[int] = [2, 4, 6, 10, 12, 14]
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const _terrain_peering_vertical_vertices : Array[int] = [1, 3, 7, 9, 11, 15]
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const _terrain_peering_non_modifying : Array[int] = []
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const _terrain_peering_hflip : Array[int] = [8, 9, 6, 7, 4, 5, 2, 3, 0, 1, 14, 15, 12, 13, 10, 11]
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const _terrain_peering_vflip : Array[int] = [0, 1, 14, 15, 12, 13, 10, 11, 8, 9, 6, 7, 4, 5, 2, 3]
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const _terrain_peering_transpose : Array[int] = [4, 5, 2, 3, 0, 1, 14, 15, 12, 13, 10, 11, 8, 9, 6, 7]
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const symmetry_mapping := {
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BetterTerrain.SymmetryType.NONE: [0],
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BetterTerrain.SymmetryType.MIRROR: [0, TileSetAtlasSource.TRANSFORM_FLIP_H],
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BetterTerrain.SymmetryType.FLIP: [0, TileSetAtlasSource.TRANSFORM_FLIP_V],
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BetterTerrain.SymmetryType.REFLECT: [
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0,
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TileSetAtlasSource.TRANSFORM_FLIP_H,
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TileSetAtlasSource.TRANSFORM_FLIP_V,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_FLIP_V
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],
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BetterTerrain.SymmetryType.ROTATE_CLOCKWISE: [0, TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_TRANSPOSE],
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BetterTerrain.SymmetryType.ROTATE_COUNTER_CLOCKWISE: [0, TileSetAtlasSource.TRANSFORM_FLIP_V | TileSetAtlasSource.TRANSFORM_TRANSPOSE],
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BetterTerrain.SymmetryType.ROTATE_180: [0, TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_FLIP_V],
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BetterTerrain.SymmetryType.ROTATE_ALL: [
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0,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_TRANSPOSE,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_FLIP_V,
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TileSetAtlasSource.TRANSFORM_FLIP_V | TileSetAtlasSource.TRANSFORM_TRANSPOSE
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],
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BetterTerrain.SymmetryType.ALL: [
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0,
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TileSetAtlasSource.TRANSFORM_FLIP_H,
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TileSetAtlasSource.TRANSFORM_FLIP_V,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_FLIP_V,
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TileSetAtlasSource.TRANSFORM_TRANSPOSE,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_TRANSPOSE,
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TileSetAtlasSource.TRANSFORM_FLIP_V | TileSetAtlasSource.TRANSFORM_TRANSPOSE,
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TileSetAtlasSource.TRANSFORM_FLIP_H | TileSetAtlasSource.TRANSFORM_FLIP_V | TileSetAtlasSource.TRANSFORM_TRANSPOSE
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]
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}
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## Returns an [Array] of ints of type [enum TileSet.CellNeighbor] which represent
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## the valid neighboring tiles for a terrain of [code]type[/code] in TileSet
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static func get_terrain_peering_cells(ts: TileSet, type: int) -> Array[int]:
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if !ts or type < 0 or type >= BetterTerrain.TerrainType.MAX:
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return []
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if type == BetterTerrain.TerrainType.CATEGORY:
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return _terrain_peering_non_modifying
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if type == BetterTerrain.TerrainType.DECORATION:
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type = BetterTerrain.TerrainType.MATCH_TILES
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match [ts.tile_shape, type]:
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[TileSet.TILE_SHAPE_SQUARE, BetterTerrain.TerrainType.MATCH_TILES]:
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return _terrain_peering_square_tiles
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[TileSet.TILE_SHAPE_SQUARE, BetterTerrain.TerrainType.MATCH_VERTICES]:
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return _terrain_peering_square_vertices
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[TileSet.TILE_SHAPE_ISOMETRIC, BetterTerrain.TerrainType.MATCH_TILES]:
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return _terrain_peering_isometric_tiles
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[TileSet.TILE_SHAPE_ISOMETRIC, BetterTerrain.TerrainType.MATCH_VERTICES]:
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return _terrain_peering_isometric_vertices
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match [ts.tile_offset_axis, type]:
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[TileSet.TILE_OFFSET_AXIS_VERTICAL, BetterTerrain.TerrainType.MATCH_TILES]:
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return _terrain_peering_vertical_tiles
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[TileSet.TILE_OFFSET_AXIS_VERTICAL, BetterTerrain.TerrainType.MATCH_VERTICES]:
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return _terrain_peering_vertical_vertices
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[TileSet.TILE_OFFSET_AXIS_HORIZONTAL, BetterTerrain.TerrainType.MATCH_TILES]:
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return _terrain_peering_horiztonal_tiles
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[TileSet.TILE_OFFSET_AXIS_HORIZONTAL, BetterTerrain.TerrainType.MATCH_VERTICES]:
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return _terrain_peering_horiztonal_vertices
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return []
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## Returns true if [code]peering[/code] is a valid neighboring cell for a terrain of
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## [code]type[/code] in [TileSet]
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static func is_terrain_peering_cell(ts: TileSet, type: int, peering: int) -> bool:
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return peering in get_terrain_peering_cells(ts, type)
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static func _peering_polygon_square_tiles(peering: int) -> PackedVector2Array:
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const t := 1.0 / 3.0
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var result : PackedVector2Array
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match peering:
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TileSet.CELL_NEIGHBOR_RIGHT_SIDE: result.append(Vector2(2*t, t))
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER: result.append(Vector2(2*t, 2*t))
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TileSet.CELL_NEIGHBOR_BOTTOM_SIDE: result.append(Vector2(t, 2*t))
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER: result.append(Vector2(0, 2*t))
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TileSet.CELL_NEIGHBOR_LEFT_SIDE: result.append(Vector2(0, t))
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TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER: result.append(Vector2(0, 0))
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TileSet.CELL_NEIGHBOR_TOP_SIDE: result.append(Vector2(t, 0))
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER: result.append(Vector2(2*t, 0))
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-1: result.append(Vector2(t, t))
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result.append(result[0] + Vector2(t, 0))
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result.append(result[0] + Vector2(t, t))
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result.append(result[0] + Vector2(0, t))
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return result
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static func _peering_polygon_square_vertices(peering: int) -> PackedVector2Array:
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const t := 1.0 / 2.0
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var result : PackedVector2Array
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match peering:
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
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result.append(Vector2(1, t))
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result.append(Vector2(1, 1))
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result.append(Vector2(t, 1))
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
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result.append(Vector2(0, t))
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result.append(Vector2(t, 1))
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result.append(Vector2(0, 1))
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TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
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result.append(Vector2(0, 0))
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result.append(Vector2(t, 0))
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result.append(Vector2(0, t))
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
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result.append(Vector2(t, 0))
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result.append(Vector2(1, 0))
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result.append(Vector2(1, t))
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-1:
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result.append(Vector2(t, 0))
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result.append(Vector2(1, t))
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result.append(Vector2(t, 1))
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result.append(Vector2(0, t))
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return result
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static func _peering_polygon_isometric_tiles(peering: int) -> PackedVector2Array:
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const t := 1.0 / 4.0
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match peering:
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-1: return PackedVector2Array([Vector2(2 * t, t), Vector2(3 * t, 2 * t), Vector2(2 * t, 3 * t), Vector2(t, 2 * t)])
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TileSet.CELL_NEIGHBOR_RIGHT_CORNER:
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return PackedVector2Array([Vector2(3 * t, 2 * t), Vector2(1, t), Vector2(1, 3 * t)])
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_SIDE:
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return PackedVector2Array([Vector2(3 * t, 2 * t), Vector2(1, 3 * t), Vector2(3 * t, 1), Vector2(2 * t, 3 * t)])
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TileSet.CELL_NEIGHBOR_BOTTOM_CORNER:
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return PackedVector2Array([Vector2(2 * t, 3 * t), Vector2(3 * t, 1), Vector2(t, 1)])
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_SIDE:
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return PackedVector2Array([Vector2(t, 2 * t), Vector2(2 * t, 3 * t), Vector2(t, 1), Vector2(0, 3 * t)])
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TileSet.CELL_NEIGHBOR_LEFT_CORNER:
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return PackedVector2Array([Vector2(0, t), Vector2(t, 2 * t), Vector2(0, 3 * t)])
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TileSet.CELL_NEIGHBOR_TOP_LEFT_SIDE:
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return PackedVector2Array([Vector2(t, 0), Vector2(2 * t, t), Vector2(t, 2 * t), Vector2(0, t)])
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TileSet.CELL_NEIGHBOR_TOP_CORNER:
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return PackedVector2Array([Vector2(t, 0), Vector2(3 * t, 0), Vector2(2 * t, t)])
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_SIDE:
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return PackedVector2Array([Vector2(3 * t, 0), Vector2(1, t), Vector2(3 * t, 2 * t), Vector2(2 * t, t)])
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return PackedVector2Array()
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static func _peering_polygon_isometric_vertices(peering: int) -> PackedVector2Array:
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const t := 1.0 / 4.0
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const ttt := 3.0 * t
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match peering:
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-1: return PackedVector2Array([Vector2(t, t), Vector2(ttt, t), Vector2(ttt, ttt), Vector2(t, ttt)])
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TileSet.CELL_NEIGHBOR_RIGHT_CORNER:
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return PackedVector2Array([Vector2(ttt, t), Vector2(1, 0), Vector2(1, 1), Vector2(ttt, ttt)])
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TileSet.CELL_NEIGHBOR_BOTTOM_CORNER:
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return PackedVector2Array([Vector2(t, ttt), Vector2(ttt, ttt), Vector2(1, 1), Vector2(0, 1)])
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TileSet.CELL_NEIGHBOR_LEFT_CORNER:
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return PackedVector2Array([Vector2(0, 0), Vector2(t, t), Vector2(t, ttt), Vector2(0, 1)])
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TileSet.CELL_NEIGHBOR_TOP_CORNER:
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return PackedVector2Array([Vector2(0, 0), Vector2(1, 0), Vector2(ttt, t), Vector2(t, t)])
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return PackedVector2Array()
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static func _peering_polygon_horizontal_tiles(peering: int) -> PackedVector2Array:
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const e := 1.0 / (2.0 * sqrt(3.0))
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const w := sqrt(3.0) / 8.0
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const t := 1.0 / 2.0
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const s := 1.0 / 8.0
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match peering:
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-1:
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return PackedVector2Array([
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Vector2(t, 2 * s),
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Vector2(t + w, t - s),
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Vector2(t + w, t + s),
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Vector2(t, 6 * s),
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Vector2(t - w, t + s),
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Vector2(t - w, t - s)
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])
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TileSet.CELL_NEIGHBOR_RIGHT_SIDE:
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return PackedVector2Array([
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Vector2(t + w, t - s),
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Vector2(1, t - e),
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Vector2(1, t + e),
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Vector2(t + w, t + s)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_SIDE:
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return PackedVector2Array([
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Vector2(t + w, t + s),
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Vector2(1, t + e),
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Vector2(t, 1),
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Vector2(t, 6 * s)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_SIDE:
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return PackedVector2Array([
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Vector2(t, 6 * s),
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Vector2(t, 1),
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Vector2(0, t + e),
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Vector2(t - w, t + s)
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])
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TileSet.CELL_NEIGHBOR_LEFT_SIDE:
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return PackedVector2Array([
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Vector2(t - w, t + s),
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Vector2(0, t + e),
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Vector2(0, t - e),
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Vector2(t - w, t - s)
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])
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TileSet.CELL_NEIGHBOR_TOP_LEFT_SIDE:
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return PackedVector2Array([
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Vector2(t - w, t - s),
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Vector2(0, t - e),
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Vector2(t, 0),
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Vector2(t, 2 * s)
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])
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_SIDE:
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return PackedVector2Array([
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Vector2(t, 2 * s),
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Vector2(t, 0),
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Vector2(1, t - e),
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Vector2(t + w, t - s)
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])
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return PackedVector2Array()
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static func _peering_polygon_horizontal_vertices(peering: int) -> PackedVector2Array:
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const e := 1.0 / (2.0 * sqrt(3.0))
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const w := sqrt(3.0) / 8.0
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const t := 1.0 / 2.0
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const s := 1.0 / 8.0
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match peering:
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-1:
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return PackedVector2Array([
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Vector2(t - s, t - w),
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Vector2(t + s, t - w),
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Vector2(6 * s, t),
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Vector2(t + s, t + w),
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Vector2(t - s, t + w),
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Vector2(2 * s, t)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
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return PackedVector2Array([
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Vector2(6 * s, t),
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Vector2(1, t),
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Vector2(1, t + e),
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Vector2(t + e, 1 - s),
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Vector2(t + s, t + w)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_CORNER:
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return PackedVector2Array([
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Vector2(t - s, t + w),
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Vector2(t + s, t + w),
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Vector2(t + e, 1 - s),
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Vector2(t, 1),
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Vector2(t - e, 1 - s)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
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return PackedVector2Array([
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Vector2(0, t),
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Vector2(2 * s, t),
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Vector2(t - s, t + w),
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Vector2(t - e, 1 - s),
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Vector2(0, t + e)
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])
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TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
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return PackedVector2Array([
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Vector2(t - e, s),
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Vector2(t - s, t - w),
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Vector2(2 * s, t),
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Vector2(0, t),
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Vector2(0, t - e)
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])
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TileSet.CELL_NEIGHBOR_TOP_CORNER:
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return PackedVector2Array([
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Vector2(t, 0),
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Vector2(t + e, s),
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Vector2(t + s, t - w),
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Vector2(t - s, t - w),
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Vector2(t - e, s)
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])
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
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return PackedVector2Array([
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Vector2(t + e, s),
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Vector2(1, t - e),
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Vector2(1, t),
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Vector2(6 * s, t),
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Vector2(t + s, t - w)
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])
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return PackedVector2Array()
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static func _peering_polygon_vertical_tiles(peering: int) -> PackedVector2Array:
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const e := 1.0 / (2.0 * sqrt(3.0))
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const w := sqrt(3.0) / 8.0
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const t := 1.0 / 2.0
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const s := 1.0 / 8.0
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match peering:
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-1:
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return PackedVector2Array([
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Vector2(t - s, t - w),
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Vector2(t + s, t - w),
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Vector2(6 * s, t),
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Vector2(t + s, t + w),
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Vector2(t - s, t + w),
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Vector2(2 * s, t)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_SIDE:
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return PackedVector2Array([
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Vector2(6 * s, t),
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Vector2(1, t),
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Vector2(t + e, 1),
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Vector2(t + s, t + w)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_SIDE:
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return PackedVector2Array([
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Vector2(t - s, t + w),
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Vector2(t + s, t + w),
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Vector2(t + e, 1),
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Vector2(t - e, 1)
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])
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TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_SIDE:
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return PackedVector2Array([
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Vector2(0, t),
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Vector2(2 * s, t),
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Vector2(t - s, t + w),
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Vector2(t - e, 1)
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])
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TileSet.CELL_NEIGHBOR_TOP_LEFT_SIDE:
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return PackedVector2Array([
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Vector2(t - e, 0),
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Vector2(t - s, t - w),
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Vector2(2 * s, t),
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Vector2(0, t)
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])
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TileSet.CELL_NEIGHBOR_TOP_SIDE:
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return PackedVector2Array([
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Vector2(t - e, 0),
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Vector2(t + e, 0),
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Vector2(t + s, t - w),
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Vector2(t - s, t - w)
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])
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TileSet.CELL_NEIGHBOR_TOP_RIGHT_SIDE:
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return PackedVector2Array([
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Vector2(t + e, 0),
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Vector2(1, t),
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Vector2(6 * s, t),
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Vector2(t + s, t - w)
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])
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return PackedVector2Array()
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static func _peering_polygon_vertical_vertices(peering: int) -> PackedVector2Array:
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const e := 1.0 / (2.0 * sqrt(3.0))
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const w := sqrt(3.0) / 8.0
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const t := 1.0 / 2.0
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const s := 1.0 / 8.0
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match peering:
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-1:
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return PackedVector2Array([
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Vector2(t, 2 * s),
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Vector2(t + w, t - s),
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Vector2(t + w, t + s),
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Vector2(t, 6 * s),
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Vector2(t - w, t + s),
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Vector2(t - w, t - s)
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])
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TileSet.CELL_NEIGHBOR_RIGHT_CORNER:
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return PackedVector2Array([
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Vector2(1 - s, t - e),
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Vector2(1, t),
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Vector2(1 - s, t + e),
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|
Vector2(t + w, t + s),
|
|
Vector2(t + w, t - s)
|
|
])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
|
|
return PackedVector2Array([
|
|
Vector2(t + w, t + s),
|
|
Vector2(1 - s, t + e),
|
|
Vector2(t + e, 1),
|
|
Vector2(t, 1),
|
|
Vector2(t, 6 * s)
|
|
])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
|
|
return PackedVector2Array([
|
|
Vector2(t - w, t + s),
|
|
Vector2(t, 6 * s),
|
|
Vector2(t, 1),
|
|
Vector2(t - e, 1),
|
|
Vector2(s, t + e)
|
|
])
|
|
TileSet.CELL_NEIGHBOR_LEFT_CORNER:
|
|
return PackedVector2Array([
|
|
Vector2(s, t - e),
|
|
Vector2(t - w, t - s),
|
|
Vector2(t - w, t + s),
|
|
Vector2(s, t + e),
|
|
Vector2(0, t)
|
|
])
|
|
TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
|
|
return PackedVector2Array([
|
|
Vector2(t - e, 0),
|
|
Vector2(t, 0),
|
|
Vector2(t, 2 * s),
|
|
Vector2(t - w, t - s),
|
|
Vector2(s, t - e)
|
|
])
|
|
TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
|
|
return PackedVector2Array([
|
|
Vector2(t, 0),
|
|
Vector2(t + e, 0),
|
|
Vector2(1 - s, t - e),
|
|
Vector2(t + w, t - s),
|
|
Vector2(t, 2 * s)
|
|
])
|
|
return PackedVector2Array()
|
|
|
|
|
|
static func _peering_non_modifying() -> PackedVector2Array:
|
|
const t := 1.0 / 3.0
|
|
return PackedVector2Array([
|
|
Vector2(t, 0),
|
|
Vector2(2 * t, 0),
|
|
Vector2(1, t),
|
|
Vector2(1, 2 * t),
|
|
Vector2(2 * t, 1),
|
|
Vector2(t, 1),
|
|
Vector2(0, 2 * t),
|
|
Vector2(0, t)
|
|
])
|
|
|
|
|
|
## Returns a parameterized polygon (coordinated are between 0 and 1) for [code]peering[/code]
|
|
## direction for a terrain of [code]type[/code] in [TileSet]
|
|
static func peering_polygon(ts: TileSet, type: int, peering: int) -> PackedVector2Array:
|
|
if type == BetterTerrain.TerrainType.CATEGORY:
|
|
return _peering_non_modifying()
|
|
if type == BetterTerrain.TerrainType.DECORATION:
|
|
type = BetterTerrain.TerrainType.MATCH_TILES
|
|
|
|
match [ts.tile_shape, type]:
|
|
[TileSet.TILE_SHAPE_SQUARE, BetterTerrain.TerrainType.MATCH_TILES]:
|
|
return _peering_polygon_square_tiles(peering)
|
|
[TileSet.TILE_SHAPE_SQUARE, BetterTerrain.TerrainType.MATCH_VERTICES]:
|
|
return _peering_polygon_square_vertices(peering)
|
|
[TileSet.TILE_SHAPE_ISOMETRIC, BetterTerrain.TerrainType.MATCH_TILES]:
|
|
return _peering_polygon_isometric_tiles(peering)
|
|
[TileSet.TILE_SHAPE_ISOMETRIC, BetterTerrain.TerrainType.MATCH_VERTICES]:
|
|
return _peering_polygon_isometric_vertices(peering)
|
|
|
|
match [ts.tile_offset_axis, type]:
|
|
[TileSet.TILE_OFFSET_AXIS_VERTICAL, BetterTerrain.TerrainType.MATCH_TILES]:
|
|
return _peering_polygon_vertical_tiles(peering)
|
|
[TileSet.TILE_OFFSET_AXIS_VERTICAL, BetterTerrain.TerrainType.MATCH_VERTICES]:
|
|
return _peering_polygon_vertical_vertices(peering)
|
|
[TileSet.TILE_OFFSET_AXIS_HORIZONTAL, BetterTerrain.TerrainType.MATCH_TILES]:
|
|
return _peering_polygon_horizontal_tiles(peering)
|
|
[TileSet.TILE_OFFSET_AXIS_HORIZONTAL, BetterTerrain.TerrainType.MATCH_VERTICES]:
|
|
return _peering_polygon_horizontal_vertices(peering)
|
|
|
|
return PackedVector2Array()
|
|
|
|
|
|
## Returns as polygon centered on 0, 0 which represents the shape of the cell of
|
|
## a tile from [TileSet].
|
|
static func cell_polygon(ts: TileSet) -> PackedVector2Array:
|
|
const t := 1.0 / 2.0
|
|
if ts.tile_shape in [TileSet.TILE_SHAPE_SQUARE, TileSet.TILE_SHAPE_HALF_OFFSET_SQUARE]:
|
|
return PackedVector2Array([Vector2(-t, -t), Vector2(t, -t), Vector2(t, t), Vector2(-t, t)])
|
|
if ts.tile_shape == TileSet.TILE_SHAPE_ISOMETRIC:
|
|
return PackedVector2Array([Vector2(0, -t), Vector2(t, 0), Vector2(0, t), Vector2(-t, 0)])
|
|
|
|
const e := t - 1.0 / (2.0 * sqrt(3.0))
|
|
if ts.tile_offset_axis == TileSet.TILE_OFFSET_AXIS_HORIZONTAL:
|
|
return PackedVector2Array([
|
|
Vector2(0, -t),
|
|
Vector2(t, -e),
|
|
Vector2(t, e),
|
|
Vector2(0, t),
|
|
Vector2(-t, e),
|
|
Vector2(-t, -e),
|
|
])
|
|
|
|
return PackedVector2Array([
|
|
Vector2(-t, 0),
|
|
Vector2(-e, -t),
|
|
Vector2(e, -t),
|
|
Vector2(t, 0),
|
|
Vector2(e, t),
|
|
Vector2(-e, t),
|
|
])
|
|
|
|
|
|
## Returns an [Array] of coordinated that neighbor [code]coord[/code] based on [code]peering[/code]
|
|
## [Array] of [enum TileSet.CellNeighbor] for a [TileSet].
|
|
static func neighboring_coords(tm: TileMapLayer, coord: Vector2i, peerings: Array) -> Array:
|
|
return peerings.map(func(p): return tm.get_neighbor_cell(coord, p))
|
|
|
|
|
|
## Returns an [Array] of coordinates which neighbor the vertex describe by [code]corner[/code]
|
|
## (which is of type [enum TileSet.CellNeighbor]) from [code]coord[/code] in [TileSet].
|
|
static func associated_vertex_cells(tm: TileMapLayer, coord: Vector2i, corner: int) -> Array:
|
|
# get array of associated peering bits
|
|
if tm.tile_set.tile_shape in [TileSet.TILE_SHAPE_SQUARE, TileSet.TILE_SHAPE_ISOMETRIC]:
|
|
match corner:
|
|
# Square
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [0, 3, 4])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [4, 7, 8])
|
|
TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [8, 11, 12])
|
|
TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [12, 15, 0])
|
|
# Isometric
|
|
TileSet.CELL_NEIGHBOR_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [14, 1, 2])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_CORNER:
|
|
return neighboring_coords(tm, coord, [2, 5, 6])
|
|
TileSet.CELL_NEIGHBOR_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [6, 9, 10])
|
|
TileSet.CELL_NEIGHBOR_TOP_CORNER:
|
|
return neighboring_coords(tm, coord, [10, 13, 14])
|
|
|
|
if tm.tile_set.tile_offset_axis == TileSet.TILE_OFFSET_AXIS_HORIZONTAL:
|
|
match corner:
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [0, 2])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_CORNER:
|
|
return neighboring_coords(tm, coord, [2, 6])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [6, 8])
|
|
TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [8, 10])
|
|
TileSet.CELL_NEIGHBOR_TOP_CORNER:
|
|
return neighboring_coords(tm, coord, [10, 14])
|
|
TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [14, 0])
|
|
|
|
# TileSet.TILE_OFFSET_AXIS_VERTICAL
|
|
match corner:
|
|
TileSet.CELL_NEIGHBOR_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [14, 2])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [2, 4])
|
|
TileSet.CELL_NEIGHBOR_BOTTOM_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [4, 6])
|
|
TileSet.CELL_NEIGHBOR_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [6, 10])
|
|
TileSet.CELL_NEIGHBOR_TOP_LEFT_CORNER:
|
|
return neighboring_coords(tm, coord, [10, 12])
|
|
TileSet.CELL_NEIGHBOR_TOP_RIGHT_CORNER:
|
|
return neighboring_coords(tm, coord, [12, 14])
|
|
|
|
return []
|
|
|
|
|
|
## Returns an [Array] of [enum TileSet.CellNeighbor] suitable for flood filling
|
|
## an area in [TileSet].
|
|
static func cells_adjacent_for_fill(ts: TileSet) -> Array[int]:
|
|
if ts.tile_shape == TileSet.TILE_SHAPE_SQUARE:
|
|
return [0, 4, 8, 12]
|
|
if ts.tile_shape == TileSet.TILE_SHAPE_ISOMETRIC:
|
|
return [2, 6, 10, 14]
|
|
if ts.tile_offset_axis == TileSet.TILE_OFFSET_AXIS_HORIZONTAL:
|
|
return _terrain_peering_horiztonal_tiles
|
|
return _terrain_peering_vertical_tiles
|
|
|
|
|
|
static func peering_bit_after_symmetry(bit: int, altflags: int) -> int:
|
|
if altflags & TileSetAtlasSource.TRANSFORM_TRANSPOSE:
|
|
bit = _terrain_peering_transpose[bit]
|
|
if altflags & TileSetAtlasSource.TRANSFORM_FLIP_H:
|
|
bit = _terrain_peering_hflip[bit]
|
|
if altflags & TileSetAtlasSource.TRANSFORM_FLIP_V:
|
|
bit = _terrain_peering_vflip[bit]
|
|
return bit
|
|
|
|
|
|
static func peering_bits_after_symmetry(dict: Dictionary, altflags: int) -> Dictionary:
|
|
# rearrange dictionary keys based on altflags
|
|
var result := {}
|
|
for k in dict:
|
|
result[peering_bit_after_symmetry(k, altflags)] = dict[k]
|
|
return result
|