2023-05-05 05:16:26 +00:00
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# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
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from typing import Literal, Optional, Union, get_args
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import numpy as np
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import math
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from PIL import Image, ImageOps
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from pydantic import Field
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from invokeai.app.invocations.image import ImageOutput, build_image_output
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2023-05-06 09:06:39 +00:00
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from invokeai.app.util.misc import SEED_MAX, get_random_seed
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2023-05-05 05:16:26 +00:00
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from invokeai.backend.image_util.patchmatch import PatchMatch
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from ..models.image import ColorField, ImageField, ImageType
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from .baseinvocation import (
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BaseInvocation,
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InvocationContext,
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)
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def infill_methods() -> list[str]:
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methods = [
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"tile",
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"solid",
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]
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if PatchMatch.patchmatch_available():
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methods.insert(0, "patchmatch")
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return methods
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INFILL_METHODS = Literal[tuple(infill_methods())]
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DEFAULT_INFILL_METHOD = (
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"patchmatch" if "patchmatch" in get_args(INFILL_METHODS) else "tile"
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)
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def infill_patchmatch(im: Image.Image) -> Image.Image:
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if im.mode != "RGBA":
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return im
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# Skip patchmatch if patchmatch isn't available
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if not PatchMatch.patchmatch_available():
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return im
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# Patchmatch (note, we may want to expose patch_size? Increasing it significantly impacts performance though)
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im_patched_np = PatchMatch.inpaint(
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im.convert("RGB"), ImageOps.invert(im.split()[-1]), patch_size=3
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)
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im_patched = Image.fromarray(im_patched_np, mode="RGB")
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return im_patched
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def get_tile_images(image: np.ndarray, width=8, height=8):
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_nrows, _ncols, depth = image.shape
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_strides = image.strides
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nrows, _m = divmod(_nrows, height)
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ncols, _n = divmod(_ncols, width)
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if _m != 0 or _n != 0:
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return None
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return np.lib.stride_tricks.as_strided(
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np.ravel(image),
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shape=(nrows, ncols, height, width, depth),
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strides=(height * _strides[0], width * _strides[1], *_strides),
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writeable=False,
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)
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def tile_fill_missing(
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im: Image.Image, tile_size: int = 16, seed: Union[int, None] = None
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) -> Image.Image:
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# Only fill if there's an alpha layer
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if im.mode != "RGBA":
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return im
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a = np.asarray(im, dtype=np.uint8)
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tile_size_tuple = (tile_size, tile_size)
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# Get the image as tiles of a specified size
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tiles = get_tile_images(a, *tile_size_tuple).copy()
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# Get the mask as tiles
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tiles_mask = tiles[:, :, :, :, 3]
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# Find any mask tiles with any fully transparent pixels (we will be replacing these later)
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tmask_shape = tiles_mask.shape
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tiles_mask = tiles_mask.reshape(math.prod(tiles_mask.shape))
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n, ny = (math.prod(tmask_shape[0:2])), math.prod(tmask_shape[2:])
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tiles_mask = tiles_mask > 0
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tiles_mask = tiles_mask.reshape((n, ny)).all(axis=1)
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# Get RGB tiles in single array and filter by the mask
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tshape = tiles.shape
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tiles_all = tiles.reshape((math.prod(tiles.shape[0:2]), *tiles.shape[2:]))
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filtered_tiles = tiles_all[tiles_mask]
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if len(filtered_tiles) == 0:
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return im
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# Find all invalid tiles and replace with a random valid tile
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replace_count = (tiles_mask == False).sum()
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rng = np.random.default_rng(seed=seed)
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tiles_all[np.logical_not(tiles_mask)] = filtered_tiles[
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rng.choice(filtered_tiles.shape[0], replace_count), :, :, :
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]
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# Convert back to an image
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tiles_all = tiles_all.reshape(tshape)
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tiles_all = tiles_all.swapaxes(1, 2)
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st = tiles_all.reshape(
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(
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math.prod(tiles_all.shape[0:2]),
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math.prod(tiles_all.shape[2:4]),
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tiles_all.shape[4],
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)
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)
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si = Image.fromarray(st, mode="RGBA")
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return si
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2023-05-06 09:06:39 +00:00
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class InfillColorInvocation(BaseInvocation):
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"""Infills transparent areas of an image with a color"""
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2023-05-06 09:06:39 +00:00
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type: Literal["infill_rgba"] = "infill_rgba"
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image: ImageField = Field(default=None, description="The image to infill")
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color: Optional[ColorField] = Field(
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default=ColorField(r=127, g=127, b=127, a=255),
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description="The color to use to infill",
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)
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2023-05-06 09:06:39 +00:00
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def invoke(self, context: InvocationContext) -> ImageOutput:
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image = context.services.images.get(
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self.image.image_type, self.image.image_name
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)
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solid_bg = Image.new("RGBA", image.size, self.color.tuple())
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infilled = Image.alpha_composite(solid_bg, image)
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infilled.paste(image, (0, 0), image.split()[-1])
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image_type = ImageType.RESULT
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image_name = context.services.images.create_name(
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context.graph_execution_state_id, self.id
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)
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metadata = context.services.metadata.build_metadata(
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session_id=context.graph_execution_state_id, node=self
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)
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context.services.images.save(image_type, image_name, infilled, metadata)
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return build_image_output(
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image_type=image_type,
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image_name=image_name,
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image=image,
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)
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class InfillTileInvocation(BaseInvocation):
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"""Infills transparent areas of an image with tiles of the image"""
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type: Literal["infill_tile"] = "infill_tile"
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image: ImageField = Field(default=None, description="The image to infill")
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tile_size: int = Field(default=32, ge=1, description="The tile size (px)")
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seed: Optional[int] = Field(
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ge=0,
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le=SEED_MAX,
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description="The seed to use for tile generation (omit for random)",
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default_factory=get_random_seed,
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)
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def invoke(self, context: InvocationContext) -> ImageOutput:
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image = context.services.images.get(
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self.image.image_type, self.image.image_name
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)
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2023-05-06 09:06:39 +00:00
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infilled = tile_fill_missing(
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image.copy(), seed=self.seed, tile_size=self.tile_size
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)
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infilled.paste(image, (0, 0), image.split()[-1])
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image_type = ImageType.RESULT
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image_name = context.services.images.create_name(
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context.graph_execution_state_id, self.id
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)
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metadata = context.services.metadata.build_metadata(
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session_id=context.graph_execution_state_id, node=self
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)
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context.services.images.save(image_type, image_name, infilled, metadata)
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return build_image_output(
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image_type=image_type,
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image_name=image_name,
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image=image,
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)
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class InfillPatchMatchInvocation(BaseInvocation):
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"""Infills transparent areas of an image with tiles of the image"""
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type: Literal["infill_patchmatch"] = "infill_patchmatch"
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image: ImageField = Field(default=None, description="The image to infill")
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def invoke(self, context: InvocationContext) -> ImageOutput:
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image = context.services.images.get(
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self.image.image_type, self.image.image_name
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)
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if PatchMatch.patchmatch_available():
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infilled = infill_patchmatch(image.copy())
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else:
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raise ValueError("PatchMatch is not available on this system")
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image_type = ImageType.RESULT
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image_name = context.services.images.create_name(
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context.graph_execution_state_id, self.id
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)
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metadata = context.services.metadata.build_metadata(
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session_id=context.graph_execution_state_id, node=self
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)
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context.services.images.save(image_type, image_name, infilled, metadata)
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return build_image_output(
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image_type=image_type,
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image_name=image_name,
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image=image,
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)
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