565 lines
16 KiB
Python
565 lines
16 KiB
Python
from logging import getLogger
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from math import ceil
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from typing import Any, List, Optional
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from PIL import Image, ImageOps
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from ..chain import (
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BlendDenoiseFastNLMeansStage,
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BlendImg2ImgStage,
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BlendMaskStage,
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ChainPipeline,
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SourceTxt2ImgStage,
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UpscaleOutpaintStage,
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)
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from ..chain.highres import stage_highres
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from ..chain.result import StageResult
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from ..chain.upscale import split_upscale, stage_upscale_correction
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from ..image import expand_image
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from ..output import save_image
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from ..params import (
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Border,
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HighresParams,
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ImageParams,
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Size,
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StageParams,
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UpscaleParams,
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)
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from ..server import ServerContext
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from ..server.load import get_source_filters
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from ..utils import is_debug, run_gc, show_system_toast
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from ..worker import WorkerContext
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from .utils import get_latents_from_seed, parse_prompt
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logger = getLogger(__name__)
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def get_base_tile(params: ImageParams, size: Size) -> int:
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if params.is_panorama():
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tile = max(params.unet_tile, size.width, size.height)
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logger.debug("adjusting tile size for panorama to %s", tile)
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return tile
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return params.unet_tile
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def get_highres_tile(
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server: ServerContext, params: ImageParams, highres: HighresParams, tile: int
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) -> int:
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if params.is_panorama() and server.has_feature("panorama-highres"):
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return tile * highres.scale
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return params.unet_tile
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def run_txt2img_pipeline(
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worker: WorkerContext,
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server: ServerContext,
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params: ImageParams,
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size: Size,
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outputs: List[str],
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upscale: UpscaleParams,
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highres: HighresParams,
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) -> None:
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# if using panorama, the pipeline will tile itself (views)
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tile_size = get_base_tile(params, size)
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# prepare the chain pipeline and first stage
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chain = ChainPipeline()
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chain.stage(
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SourceTxt2ImgStage(),
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StageParams(
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tile_size=tile_size,
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),
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size=size,
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prompt_index=0,
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overlap=params.vae_overlap,
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)
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# apply upscaling and correction, before highres
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highres_size = get_highres_tile(server, params, highres, tile_size)
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if params.is_panorama():
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chain.stage(
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BlendDenoiseFastNLMeansStage(),
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StageParams(tile_size=highres_size),
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)
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first_upscale, after_upscale = split_upscale(upscale)
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if first_upscale:
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stage_upscale_correction(
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StageParams(outscale=first_upscale.outscale, tile_size=highres_size),
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params,
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chain=chain,
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upscale=first_upscale,
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)
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# apply highres
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stage_highres(
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StageParams(outscale=highres.scale, tile_size=highres_size),
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params,
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highres,
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upscale,
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chain=chain,
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prompt_index=1,
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)
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# apply upscaling and correction, after highres
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stage_upscale_correction(
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StageParams(outscale=after_upscale.outscale, tile_size=highres_size),
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params,
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chain=chain,
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upscale=after_upscale,
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)
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# run and save
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latents = get_latents_from_seed(params.seed, size, batch=params.batch)
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progress = worker.get_progress_callback()
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images = chain.run(
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worker, server, params, StageResult.empty(), callback=progress, latents=latents
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)
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_pairs, loras, inversions, _rest = parse_prompt(params)
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for image, output in zip(images, outputs):
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logger.trace("saving output image %s: %s", output, image.size)
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dest = save_image(
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server,
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output,
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image,
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params,
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size,
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upscale=upscale,
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highres=highres,
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inversions=inversions,
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loras=loras,
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)
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# clean up
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run_gc([worker.get_device()])
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# notify the user
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show_system_toast(f"finished txt2img job: {dest}")
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logger.info("finished txt2img job: %s", dest)
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def run_img2img_pipeline(
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worker: WorkerContext,
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server: ServerContext,
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params: ImageParams,
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outputs: List[str],
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upscale: UpscaleParams,
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highres: HighresParams,
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source: Image.Image,
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strength: float,
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source_filter: Optional[str] = None,
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) -> None:
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# run filter on the source image
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if source_filter is not None:
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f = get_source_filters().get(source_filter, None)
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if f is not None:
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logger.debug("running source filter: %s", f.__name__)
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source = f(server, source)
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# prepare the chain pipeline and first stage
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tile_size = get_base_tile(params, Size(*source.size))
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chain = ChainPipeline()
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chain.stage(
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BlendImg2ImgStage(),
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StageParams(
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tile_size=tile_size,
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),
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prompt_index=0,
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strength=strength,
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overlap=params.vae_overlap,
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)
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# apply upscaling and correction, before highres
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first_upscale, after_upscale = split_upscale(upscale)
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if first_upscale:
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stage_upscale_correction(
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StageParams(
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outscale=first_upscale.outscale,
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tile_size=tile_size,
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),
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params,
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upscale=first_upscale,
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chain=chain,
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)
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# loopback through multiple img2img iterations
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for _i in range(params.loopback):
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chain.stage(
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BlendImg2ImgStage(),
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StageParams(
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tile_size=tile_size,
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),
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strength=strength,
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)
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# highres, if selected
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highres_size = get_highres_tile(server, params, highres, tile_size)
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stage_highres(
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StageParams(tile_size=highres_size, outscale=highres.scale),
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params,
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highres,
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upscale,
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chain=chain,
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prompt_index=1,
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)
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# apply upscaling and correction, after highres
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stage_upscale_correction(
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StageParams(tile_size=tile_size, outscale=after_upscale.scale),
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params,
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upscale=after_upscale,
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chain=chain,
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)
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# run and append the filtered source
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progress = worker.get_progress_callback()
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images = chain.run(
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worker, server, params, StageResult(images=[source]), callback=progress
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)
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if source_filter is not None and source_filter != "none":
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images.append(source)
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# save with metadata
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_pairs, loras, inversions, _rest = parse_prompt(params)
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size = Size(*source.size)
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for image, output in zip(images, outputs):
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dest = save_image(
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server,
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output,
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image,
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params,
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size,
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upscale=upscale,
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highres=highres,
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inversions=inversions,
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loras=loras,
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)
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# clean up
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run_gc([worker.get_device()])
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# notify the user
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show_system_toast(f"finished img2img job: {dest}")
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logger.info("finished img2img job: %s", dest)
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def run_inpaint_pipeline(
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worker: WorkerContext,
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server: ServerContext,
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params: ImageParams,
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size: Size,
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outputs: List[str],
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upscale: UpscaleParams,
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highres: HighresParams,
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source: Image.Image,
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mask: Image.Image,
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border: Border,
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noise_source: Any,
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mask_filter: Any,
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fill_color: str,
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tile_order: str,
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full_res_inpaint: bool,
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full_res_inpaint_padding: float,
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) -> None:
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logger.debug("building inpaint pipeline")
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tile_size = get_base_tile(params, size)
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if mask is None:
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# if no mask was provided, keep the full source image
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mask = Image.new("L", source.size, 0)
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# masks start as 512x512, resize to cover the source, then trim the extra
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mask_max = max(source.width, source.height)
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mask = ImageOps.contain(mask, (mask_max, mask_max))
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mask = mask.crop((0, 0, source.width, source.height))
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source, mask, noise, full_size = expand_image(
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source,
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mask,
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border,
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fill=fill_color,
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noise_source=noise_source,
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mask_filter=mask_filter,
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)
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if is_debug():
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save_image(server, "full-source.png", source)
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save_image(server, "full-mask.png", mask)
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save_image(server, "full-noise.png", noise)
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# check if we can do full-res inpainting if no outpainting is done
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logger.debug("border zero: %s", border.isZero())
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full_res_inpaint = full_res_inpaint and border.isZero()
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if full_res_inpaint:
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bbox = mask.getbbox()
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if bbox is None:
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bbox = (0, 0, source.width, source.height)
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logger.debug("mask bounding box: %s", bbox)
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mask_left, mask_top, mask_right, mask_bottom = bbox
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mask_width = mask_right - mask_left
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mask_height = mask_bottom - mask_top
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# ensure we have some padding around the mask when we do the inpaint (and that the region size is even)
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adj_mask_size = (
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ceil(max(mask_width, mask_height) * full_res_inpaint_padding / 2) * 2
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)
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mask_center_x = int(round((mask_right + mask_left) / 2))
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mask_center_y = int(round((mask_bottom + mask_top) / 2))
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adj_mask_border = (
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int(mask_center_x - adj_mask_size / 2),
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int(mask_center_y - adj_mask_size / 2),
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int(mask_center_x + adj_mask_size / 2),
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int(mask_center_y + adj_mask_size / 2),
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)
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# we would like to subtract the excess width (subtract a positive) and add the deficient width (subtract a negative)
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x_adj = -max(adj_mask_border[2] - source.width, 0) - min(adj_mask_border[0], 0)
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# we would like to subtract the excess height (subtract a negative) and add the deficient height (subtract a negative)
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y_adj = -max(adj_mask_border[3] - source.height, 0) - min(adj_mask_border[1], 0)
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adj_mask_border = (
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adj_mask_border[0] + x_adj,
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adj_mask_border[1] + y_adj,
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adj_mask_border[2] + x_adj,
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adj_mask_border[3] + y_adj,
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)
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border_integrity = all(
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(
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adj_mask_border[0] >= 0,
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adj_mask_border[1] >= 0,
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adj_mask_border[2] <= source.width,
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adj_mask_border[3] <= source.height,
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)
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)
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logger.debug(
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"adjusted mask size %s, mask bounding box: %s",
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adj_mask_size,
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adj_mask_border,
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)
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if border_integrity and adj_mask_size <= tile_size:
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logger.debug("performing full-res inpainting")
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original_source = source
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source = source.crop(adj_mask_border)
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source = ImageOps.contain(source, (tile_size, tile_size))
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mask = mask.crop(adj_mask_border)
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mask = ImageOps.contain(mask, (tile_size, tile_size))
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if is_debug():
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save_image(server, "adjusted-mask.png", mask)
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save_image(server, "adjusted-source.png", source)
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else:
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logger.debug("cannot perform full-res inpaint due to size issue")
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full_res_inpaint = False
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# set up the chain pipeline and base stage
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chain = ChainPipeline()
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chain.stage(
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UpscaleOutpaintStage(),
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StageParams(tile_order=tile_order, tile_size=tile_size),
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border=border,
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mask=mask,
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fill_color=fill_color,
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mask_filter=mask_filter,
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noise_source=noise_source,
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overlap=params.vae_overlap,
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prompt_index=0,
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)
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# apply upscaling and correction, before highres
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first_upscale, after_upscale = split_upscale(upscale)
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if first_upscale:
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stage_upscale_correction(
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StageParams(outscale=first_upscale.outscale, tile_size=tile_size),
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params,
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upscale=first_upscale,
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chain=chain,
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)
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# apply highres
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highres_size = get_highres_tile(server, params, highres, tile_size)
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stage_highres(
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StageParams(outscale=highres.scale, tile_size=highres_size),
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params,
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highres,
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upscale,
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chain=chain,
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prompt_index=1,
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)
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# apply upscaling and correction
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stage_upscale_correction(
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StageParams(outscale=after_upscale.outscale),
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params,
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upscale=after_upscale,
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chain=chain,
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)
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# run and save
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latents = get_latents_from_seed(params.seed, size, batch=params.batch)
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progress = worker.get_progress_callback()
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images = chain.run(
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worker,
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server,
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params,
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StageResult(images=[source]),
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callback=progress,
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latents=latents,
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)
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_pairs, loras, inversions, _rest = parse_prompt(params)
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for image, output in zip(images, outputs):
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if full_res_inpaint:
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if is_debug():
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save_image(server, "adjusted-output.png", image)
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mini_image = ImageOps.contain(image, (adj_mask_size, adj_mask_size))
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image = original_source
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image.paste(mini_image, box=adj_mask_border)
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dest = save_image(
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server,
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output,
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image,
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params,
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size,
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upscale=upscale,
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border=border,
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inversions=inversions,
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loras=loras,
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)
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# clean up
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del image
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run_gc([worker.get_device()])
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# notify the user
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show_system_toast(f"finished inpaint job: {dest}")
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logger.info("finished inpaint job: %s", dest)
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def run_upscale_pipeline(
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worker: WorkerContext,
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server: ServerContext,
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params: ImageParams,
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size: Size,
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outputs: List[str],
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upscale: UpscaleParams,
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highres: HighresParams,
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source: Image.Image,
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) -> None:
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# set up the chain pipeline, no base stage for upscaling
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chain = ChainPipeline()
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tile_size = get_base_tile(params, size)
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# apply upscaling and correction, before highres
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first_upscale, after_upscale = split_upscale(upscale)
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if first_upscale:
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stage_upscale_correction(
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StageParams(outscale=first_upscale.outscale, tile_size=tile_size),
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params,
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upscale=first_upscale,
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chain=chain,
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)
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# apply highres
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highres_size = get_highres_tile(server, params, highres, tile_size)
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stage_highres(
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StageParams(outscale=highres.scale, tile_size=highres_size),
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params,
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highres,
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upscale,
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chain=chain,
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prompt_index=0,
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)
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# apply upscaling and correction, after highres
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stage_upscale_correction(
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StageParams(outscale=after_upscale.outscale, tile_size=tile_size),
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params,
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upscale=after_upscale,
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chain=chain,
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)
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# run and save
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progress = worker.get_progress_callback()
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images = chain.run(
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worker, server, params, StageResult(images=[source]), callback=progress
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)
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_pairs, loras, inversions, _rest = parse_prompt(params)
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for image, output in zip(images, outputs):
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dest = save_image(
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server,
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output,
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image,
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params,
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size,
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upscale=upscale,
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inversions=inversions,
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loras=loras,
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)
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# clean up
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del image
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run_gc([worker.get_device()])
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# notify the user
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show_system_toast(f"finished upscale job: {dest}")
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logger.info("finished upscale job: %s", dest)
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def run_blend_pipeline(
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worker: WorkerContext,
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server: ServerContext,
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params: ImageParams,
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size: Size,
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outputs: List[str],
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upscale: UpscaleParams,
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# highres: HighresParams,
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sources: List[Image.Image],
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mask: Image.Image,
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) -> None:
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# set up the chain pipeline and base stage
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chain = ChainPipeline()
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tile_size = get_base_tile(params, size)
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# resize mask to match source size
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stage_source = sources[1]
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stage_mask = mask.resize(stage_source.size, Image.Resampling.BILINEAR)
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chain.stage(
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BlendMaskStage(),
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StageParams(tile_size=tile_size),
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stage_source=stage_source,
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stage_mask=stage_mask,
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)
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# apply upscaling and correction
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stage_upscale_correction(
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StageParams(outscale=upscale.outscale),
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params,
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upscale=upscale,
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chain=chain,
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)
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# run and save
|
|
progress = worker.get_progress_callback()
|
|
images = chain.run(
|
|
worker, server, params, StageResult(images=sources), callback=progress
|
|
)
|
|
|
|
for image, output in zip(images, outputs):
|
|
dest = save_image(server, output, image, params, size, upscale=upscale)
|
|
|
|
# clean up
|
|
del image
|
|
run_gc([worker.get_device()])
|
|
|
|
# notify the user
|
|
show_system_toast(f"finished blend job: {dest}")
|
|
logger.info("finished blend job: %s", dest)
|