211 lines
8.7 KiB
Python
211 lines
8.7 KiB
Python
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#!/usr/bin/python3
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from settings import *
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from numba import uint8
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@njit
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def get_ao(local_pos, world_pos, world_voxels, plane):
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x, y, z = local_pos
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wx, wy, wz = world_pos
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if plane == "Y":
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a = is_void((x , y, z - 1), (wx , wy, wz - 1), world_voxels)
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b = is_void((x - 1, y, z - 1), (wx - 1, wy, wz - 1), world_voxels)
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c = is_void((x - 1, y, z ), (wx - 1, wy, wz ), world_voxels)
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d = is_void((x - 1, y, z + 1), (wx - 1, wy, wz + 1), world_voxels)
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e = is_void((x , y, z + 1), (wx , wy, wz + 1), world_voxels)
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f = is_void((x + 1, y, z + 1), (wx + 1, wy, wz + 1), world_voxels)
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g = is_void((x + 1, y, z ), (wx + 1, wy, wz ), world_voxels)
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h = is_void((x + 1, y, z - 1), (wx + 1, wy, wz - 1), world_voxels)
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elif plane == "X":
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a = is_void((x, y , z - 1), (wx, wy , wz - 1), world_voxels)
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b = is_void((x, y - 1, z - 1), (wx, wy - 1, wz - 1), world_voxels)
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c = is_void((x, y - 1, z ), (wx, wy - 1, wz ), world_voxels)
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d = is_void((x, y - 1, z + 1), (wx, wy - 1, wz + 1), world_voxels)
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e = is_void((x, y , z + 1), (wx, wy , wz + 1), world_voxels)
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f = is_void((x, y + 1, z + 1), (wx, wy + 1, wz + 1), world_voxels)
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g = is_void((x, y + 1, z ), (wx, wy + 1, wz ), world_voxels)
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h = is_void((x, y + 1, z - 1), (wx, wy + 1, wz - 1), world_voxels)
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else: # Z plane
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a = is_void((x - 1, y , z), (wx - 1, wy , z), world_voxels)
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b = is_void((x - 1, y - 1, z), (wx - 1, wy - 1, z), world_voxels)
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c = is_void((x , y - 1, z), (wx , wy - 1, z), world_voxels)
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d = is_void((x + 1, y - 1, z), (wx + 1, wy - 1, z), world_voxels)
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e = is_void((x + 1, y , z), (wx + 1, wy , z), world_voxels)
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f = is_void((x + 1, y + 1, z), (wx + 1, wy + 1, z), world_voxels)
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g = is_void((x , y + 1, z), (wx , wy + 1, z), world_voxels)
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h = is_void((x - 1, y + 1, z), (wx - 1, wy + 1, z), world_voxels)
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ao = (a + b + c), (g + h + a), (e + f + g), (c + d + e)
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return ao
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@njit
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def to_uint8(x, y, z, voxel_id, face_id, ao_id, flip_id):
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return (uint8(x), uint8(y), uint8(z),
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uint8(voxel_id), uint8(face_id), uint8(ao_id), uint8(flip_id)
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)
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@njit
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def get_chunk_index(world_voxel_pos):
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wx, wy, wz = world_voxel_pos
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cx = wx // CHUNK_SIZE
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cy = wy // CHUNK_SIZE
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cz = wz // CHUNK_SIZE
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if not (0 <= cx < WORLD_W and 0 <= cy < WORLD_H and 0 <= cz < WORLD_D):
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return -1
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index = cx + WORLD_W * cz + WORLD_AREA * cy
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return index
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@njit
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def is_void(local_voxel_pos, world_voxel_pos, world_voxels):
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chunk_index = get_chunk_index(world_voxel_pos)
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if chunk_index == -1:
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return False
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chunk_voxels = world_voxels[chunk_index]
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x, y, z = local_voxel_pos
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voxel_index = x % CHUNK_SIZE + z % CHUNK_SIZE * CHUNK_SIZE + y % CHUNK_SIZE * CHUNK_AREA
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if chunk_voxels[voxel_index]:
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return False
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return True
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@njit
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def add_data(vertex_data, index, *vertices):
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for vertex in vertices:
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for attribute in vertex:
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vertex_data[index] = attribute
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index += 1
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return index
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@njit
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def build_chunk_mesh(chunk_voxels, format_size, chunk_pos, world_voxels):
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vertex_data = numpy.empty(CHUNK_VOL * 18 * format_size, dtype="uint8")
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index = 0
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for x in range(CHUNK_SIZE):
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for y in range(CHUNK_SIZE):
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for z in range(CHUNK_SIZE):
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voxel_id = chunk_voxels[x + CHUNK_SIZE * z + CHUNK_AREA * y]
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if not voxel_id:
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continue
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# voxel world position
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cx, cy, cz = chunk_pos
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wx = x + cx * CHUNK_SIZE
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wy = y + cy * CHUNK_SIZE
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wz = z + cz * CHUNK_SIZE
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# top face
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if is_void((x, y + 1, z), (wx, wy + 1, wz), world_voxels):
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# get ao values
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ao = get_ao((x, y + 1, z), (wx, wy + 1, wz), world_voxels, plane="Y")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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# format: x, y, z, voxel_id, face_id, ao_id
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v0 = to_uint8(x , y + 1, z , voxel_id, 0, ao[0], flip_id)
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v1 = to_uint8(x + 1, y + 1, z , voxel_id, 0, ao[1], flip_id)
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v2 = to_uint8(x + 1, y + 1, z + 1, voxel_id, 0, ao[2], flip_id)
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v3 = to_uint8(x , y + 1, z + 1, voxel_id, 0, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v1, v0, v3, v1, v3, v2)
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else:
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index = add_data(vertex_data, index, v0, v3, v2, v0, v2, v1)
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# bottom face
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if is_void((x, y - 1, z), (wx, wy - 1, wz), world_voxels):
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ao = get_ao((x, y - 1, z), (wx, wy - 1, wz), world_voxels, plane="Y")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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v0 = to_uint8(x , y, z , voxel_id, 1, ao[0], flip_id)
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v1 = to_uint8(x + 1, y, z , voxel_id, 1, ao[1], flip_id)
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v2 = to_uint8(x + 1, y, z + 1, voxel_id, 1, ao[2], flip_id)
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v3 = to_uint8(x , y, z + 1, voxel_id, 1, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v1, v3, v0, v1, v2, v3)
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else:
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index = add_data(vertex_data, index, v0, v2, v3, v0, v1, v2)
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# right face
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if is_void((x + 1, y, z), (wx + 1, wy, wz), world_voxels):
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ao = get_ao((x + 1, y, z), (wx + 1, wy, wz), world_voxels, plane="X")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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v0 = to_uint8(x + 1, y , z , voxel_id, 2, ao[0], flip_id)
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v1 = to_uint8(x + 1, y + 1, z , voxel_id, 2, ao[1], flip_id)
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v2 = to_uint8(x + 1, y + 1, z + 1, voxel_id, 2, ao[2], flip_id)
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v3 = to_uint8(x + 1, y , z + 1, voxel_id, 2, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v3, v0, v1, v3, v1, v2)
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else:
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index = add_data(vertex_data, index, v0, v1, v2, v0, v2, v3)
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# left face
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if is_void((x - 1, y, z), (wx - 1, wy, wz), world_voxels):
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ao = get_ao((x - 1, y, z), (wx - 1, wy, wz), world_voxels, plane="X")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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v0 = to_uint8(x, y , z , voxel_id, 3, ao[0], flip_id)
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v1 = to_uint8(x, y + 1, z , voxel_id, 3, ao[1], flip_id)
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v2 = to_uint8(x, y + 1, z + 1, voxel_id, 3, ao[2], flip_id)
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v3 = to_uint8(x, y , z + 1, voxel_id, 3, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v3, v1, v0, v3, v2, v1)
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else:
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index = add_data(vertex_data, index, v0, v2, v1, v0, v3, v2)
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# back face
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if is_void((x, y, z - 1), (wx, wy, wz - 1), world_voxels):
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ao = get_ao((x, y, z - 1), (wx, wy, wz - 1), world_voxels, plane="Z")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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v0 = to_uint8(x , y , z, voxel_id, 4, ao[0], flip_id)
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v1 = to_uint8(x , y + 1, z, voxel_id, 4, ao[1], flip_id)
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v2 = to_uint8(x + 1, y + 1, z, voxel_id, 4, ao[2], flip_id)
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v3 = to_uint8(x + 1, y , z, voxel_id, 4, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v3, v0, v1, v3, v1, v2)
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else:
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index = add_data(vertex_data, index, v0, v1, v2, v0, v2, v3)
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# front face
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if is_void((x, y, z + 1), (wx, wy, wz + 1), world_voxels):
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ao = get_ao((x, y, z + 1), (wx, wy, wz + 1), world_voxels, plane="Z")
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flip_id = ao[1] + ao[3] > ao[0] + ao[2]
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v0 = to_uint8(x , y , z + 1, voxel_id, 5, ao[0], flip_id)
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v1 = to_uint8(x , y + 1, z + 1, voxel_id, 5, ao[1], flip_id)
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v2 = to_uint8(x + 1, y + 1, z + 1, voxel_id, 5, ao[2], flip_id)
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v3 = to_uint8(x + 1, y , z + 1, voxel_id, 5, ao[3], flip_id)
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if flip_id:
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index = add_data(vertex_data, index, v3, v1, v0, v3, v2, v1)
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else:
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index = add_data(vertex_data, index, v0, v2, v1, v0, v3, v2)
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return vertex_data[:index + 1]
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