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from __future__ import annotations |
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|
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import gc |
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|
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import numpy as np |
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import PIL.Image |
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import torch |
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from controlnet_aux.util import HWC3 |
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from diffusers import (ControlNetModel, DiffusionPipeline, |
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StableDiffusionControlNetPipeline, |
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UniPCMultistepScheduler) |
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|
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from cv_utils import resize_image |
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from preprocessor import Preprocessor |
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|
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CONTROLNET_MODEL_IDS = { |
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'Openpose': 'lllyasviel/control_v11p_sd15_openpose', |
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'Canny': 'lllyasviel/control_v11p_sd15_canny', |
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'MLSD': 'lllyasviel/control_v11p_sd15_mlsd', |
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'scribble': 'lllyasviel/control_v11p_sd15_scribble', |
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'softedge': 'lllyasviel/control_v11p_sd15_softedge', |
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'segmentation': 'lllyasviel/control_v11p_sd15_seg', |
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'depth': 'lllyasviel/control_v11p_sd15_depth', |
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'NormalBae': 'lllyasviel/control_v11p_sd15_normalbae', |
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'lineart': 'lllyasviel/control_v11p_sd15_lineart', |
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'lineart_anime': 'lllyasviel/control_v11p_sd15s2_lineart_anime', |
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'shuffle': 'lllyasviel/control_v11e_sd15_shuffle', |
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'ip2p': 'lllyasviel/control_v11e_sd15_ip2p', |
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'inpaint': 'lllyasviel/control_v11e_sd15_inpaint', |
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} |
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|
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def download_all_controlnet_weights() -> None: |
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for model_id in CONTROLNET_MODEL_IDS.values(): |
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ControlNetModel.from_pretrained(model_id) |
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class Model: |
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def __init__(self, |
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base_model_id: str = 'runwayml/stable-diffusion-v1-5', |
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task_name: str = 'Canny'): |
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self.device = torch.device( |
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'cuda:0' if torch.cuda.is_available() else 'cpu') |
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self.base_model_id = '' |
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self.task_name = '' |
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self.pipe = self.load_pipe(base_model_id, task_name) |
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self.preprocessor = Preprocessor() |
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|
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def load_pipe(self, base_model_id: str, task_name) -> DiffusionPipeline: |
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if base_model_id == self.base_model_id and task_name == self.task_name and hasattr( |
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self, 'pipe') and self.pipe is not None: |
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return self.pipe |
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model_id = CONTROLNET_MODEL_IDS[task_name] |
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controlnet = ControlNetModel.from_pretrained(model_id, |
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torch_dtype=torch.float16) |
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pipe = StableDiffusionControlNetPipeline.from_pretrained( |
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base_model_id, |
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safety_checker=None, |
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controlnet=controlnet, |
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torch_dtype=torch.float16) |
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pipe.scheduler = UniPCMultistepScheduler.from_config( |
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pipe.scheduler.config) |
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if self.device.type == 'cuda': |
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pipe.enable_xformers_memory_efficient_attention() |
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pipe.to(self.device) |
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torch.cuda.empty_cache() |
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gc.collect() |
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self.base_model_id = base_model_id |
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self.task_name = task_name |
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return pipe |
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|
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def set_base_model(self, base_model_id: str) -> str: |
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if not base_model_id or base_model_id == self.base_model_id: |
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return self.base_model_id |
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del self.pipe |
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torch.cuda.empty_cache() |
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gc.collect() |
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try: |
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self.pipe = self.load_pipe(base_model_id, self.task_name) |
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except Exception: |
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self.pipe = self.load_pipe(self.base_model_id, self.task_name) |
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return self.base_model_id |
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|
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def load_controlnet_weight(self, task_name: str) -> None: |
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if task_name == self.task_name: |
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return |
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if self.pipe is not None and hasattr(self.pipe, 'controlnet'): |
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del self.pipe.controlnet |
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torch.cuda.empty_cache() |
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gc.collect() |
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model_id = CONTROLNET_MODEL_IDS[task_name] |
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controlnet = ControlNetModel.from_pretrained(model_id, |
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torch_dtype=torch.float16) |
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controlnet.to(self.device) |
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torch.cuda.empty_cache() |
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gc.collect() |
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self.pipe.controlnet = controlnet |
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self.task_name = task_name |
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|
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def get_prompt(self, prompt: str, additional_prompt: str) -> str: |
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if not prompt: |
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prompt = additional_prompt |
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else: |
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prompt = f'{prompt}, {additional_prompt}' |
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return prompt |
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|
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@torch.autocast('cuda') |
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def run_pipe( |
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self, |
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prompt: str, |
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negative_prompt: str, |
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control_image: PIL.Image.Image, |
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num_images: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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) -> list[PIL.Image.Image]: |
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if seed == -1: |
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seed = np.random.randint(0, np.iinfo(np.int64).max) |
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generator = torch.Generator().manual_seed(seed) |
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return self.pipe(prompt=prompt, |
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negative_prompt=negative_prompt, |
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guidance_scale=guidance_scale, |
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num_images_per_prompt=num_images, |
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num_inference_steps=num_steps, |
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generator=generator, |
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image=control_image).images |
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|
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@torch.inference_mode() |
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def process_canny( |
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self, |
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image: np.ndarray, |
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prompt: str, |
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additional_prompt: str, |
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negative_prompt: str, |
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num_images: int, |
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image_resolution: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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low_threshold: int, |
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high_threshold: int, |
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) -> list[PIL.Image.Image]: |
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self.preprocessor.load('Canny') |
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control_image = self.preprocessor(image=image, |
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low_threshold=low_threshold, |
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high_threshold=high_threshold, |
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detect_resolution=image_resolution) |
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|
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self.load_controlnet_weight('Canny') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
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num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
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) |
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return [control_image] + results |
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|
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@torch.inference_mode() |
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def process_mlsd( |
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self, |
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image: np.ndarray, |
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prompt: str, |
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additional_prompt: str, |
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negative_prompt: str, |
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num_images: int, |
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image_resolution: int, |
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preprocess_resolution: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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value_threshold: float, |
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distance_threshold: float, |
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) -> list[PIL.Image.Image]: |
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self.preprocessor.load('MLSD') |
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control_image = self.preprocessor( |
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image=image, |
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image_resolution=image_resolution, |
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detect_resolution=preprocess_resolution, |
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thr_v=value_threshold, |
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thr_d=distance_threshold, |
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) |
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self.load_controlnet_weight('MLSD') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
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num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
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) |
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return [control_image] + results |
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|
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@torch.inference_mode() |
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def process_scribble( |
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self, |
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image: np.ndarray, |
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prompt: str, |
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additional_prompt: str, |
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negative_prompt: str, |
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num_images: int, |
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image_resolution: int, |
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preprocess_resolution: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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preprocessor_name: str, |
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) -> list[PIL.Image.Image]: |
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if preprocessor_name == 'None': |
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image = HWC3(image) |
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image = resize_image(image, resolution=image_resolution) |
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control_image = PIL.Image.fromarray(image) |
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elif preprocessor_name == 'HED': |
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self.preprocessor.load(preprocessor_name) |
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control_image = self.preprocessor( |
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image=image, |
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image_resolution=image_resolution, |
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detect_resolution=preprocess_resolution, |
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scribble=False, |
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) |
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elif preprocessor_name == 'PidiNet': |
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self.preprocessor.load(preprocessor_name) |
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control_image = self.preprocessor( |
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image=image, |
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image_resolution=image_resolution, |
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detect_resolution=preprocess_resolution, |
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safe=False, |
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) |
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self.load_controlnet_weight('scribble') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
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num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
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) |
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return [control_image] + results |
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|
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@torch.inference_mode() |
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def process_scribble_interactive( |
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self, |
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image_and_mask: dict[str, np.ndarray], |
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prompt: str, |
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additional_prompt: str, |
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negative_prompt: str, |
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num_images: int, |
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image_resolution: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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) -> list[PIL.Image.Image]: |
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image = image_and_mask['mask'] |
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image = HWC3(image) |
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image = resize_image(image, resolution=image_resolution) |
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control_image = PIL.Image.fromarray(image) |
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|
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self.load_controlnet_weight('scribble') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
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num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
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) |
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return [control_image] + results |
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|
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@torch.inference_mode() |
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def process_softedge( |
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self, |
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image: np.ndarray, |
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prompt: str, |
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additional_prompt: str, |
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negative_prompt: str, |
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num_images: int, |
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image_resolution: int, |
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preprocess_resolution: int, |
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num_steps: int, |
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guidance_scale: float, |
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seed: int, |
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preprocessor_name: str, |
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) -> list[PIL.Image.Image]: |
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if preprocessor_name == 'None': |
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image = HWC3(image) |
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image = resize_image(image, resolution=image_resolution) |
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control_image = PIL.Image.fromarray(image) |
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elif preprocessor_name in ['HED', 'HED safe']: |
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safe = 'safe' in preprocessor_name |
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self.preprocessor.load('HED') |
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control_image = self.preprocessor( |
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image=image, |
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image_resolution=image_resolution, |
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detect_resolution=preprocess_resolution, |
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scribble=safe, |
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) |
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elif preprocessor_name in ['PidiNet', 'PidiNet safe']: |
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safe = 'safe' in preprocessor_name |
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self.preprocessor.load('PidiNet') |
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control_image = self.preprocessor( |
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image=image, |
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image_resolution=image_resolution, |
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detect_resolution=preprocess_resolution, |
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safe=safe, |
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) |
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else: |
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raise ValueError |
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self.load_controlnet_weight('softedge') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
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num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
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) |
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return [control_image] + results |
|
|
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@torch.inference_mode() |
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def process_openpose( |
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self, |
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image: np.ndarray, |
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prompt: str, |
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additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
preprocess_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
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seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name == 'None': |
|
image = HWC3(image) |
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image = resize_image(image, resolution=image_resolution) |
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control_image = PIL.Image.fromarray(image) |
|
else: |
|
self.preprocessor.load('Openpose') |
|
control_image = self.preprocessor( |
|
image=image, |
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image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
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hand_and_face=True, |
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) |
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self.load_controlnet_weight('Openpose') |
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results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
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negative_prompt=negative_prompt, |
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control_image=control_image, |
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num_images=num_images, |
|
num_steps=num_steps, |
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guidance_scale=guidance_scale, |
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seed=seed, |
|
) |
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return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_segmentation( |
|
self, |
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image: np.ndarray, |
|
prompt: str, |
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additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
preprocess_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name == 'None': |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
else: |
|
self.preprocessor.load(preprocessor_name) |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
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) |
|
self.load_controlnet_weight('segmentation') |
|
results = self.run_pipe( |
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prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_depth( |
|
self, |
|
image: np.ndarray, |
|
prompt: str, |
|
additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
preprocess_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name == 'None': |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
else: |
|
self.preprocessor.load(preprocessor_name) |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
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) |
|
self.load_controlnet_weight('depth') |
|
results = self.run_pipe( |
|
prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_normal( |
|
self, |
|
image: np.ndarray, |
|
prompt: str, |
|
additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
preprocess_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name == 'None': |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
else: |
|
self.preprocessor.load('NormalBae') |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
|
) |
|
self.load_controlnet_weight('NormalBae') |
|
results = self.run_pipe( |
|
prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_lineart( |
|
self, |
|
image: np.ndarray, |
|
prompt: str, |
|
additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
preprocess_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name in ['None', 'None (anime)']: |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
elif preprocessor_name in ['Lineart', 'Lineart coarse']: |
|
coarse = 'coarse' in preprocessor_name |
|
self.preprocessor.load('Lineart') |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
|
coarse=coarse, |
|
) |
|
elif preprocessor_name == 'Lineart (anime)': |
|
self.preprocessor.load('LineartAnime') |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
detect_resolution=preprocess_resolution, |
|
) |
|
if 'anime' in preprocessor_name: |
|
self.load_controlnet_weight('lineart_anime') |
|
else: |
|
self.load_controlnet_weight('lineart') |
|
results = self.run_pipe( |
|
prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_shuffle( |
|
self, |
|
image: np.ndarray, |
|
prompt: str, |
|
additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
preprocessor_name: str, |
|
) -> list[PIL.Image.Image]: |
|
if preprocessor_name == 'None': |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
else: |
|
self.preprocessor.load(preprocessor_name) |
|
control_image = self.preprocessor( |
|
image=image, |
|
image_resolution=image_resolution, |
|
) |
|
self.load_controlnet_weight('shuffle') |
|
results = self.run_pipe( |
|
prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|
|
@torch.inference_mode() |
|
def process_ip2p( |
|
self, |
|
image: np.ndarray, |
|
prompt: str, |
|
additional_prompt: str, |
|
negative_prompt: str, |
|
num_images: int, |
|
image_resolution: int, |
|
num_steps: int, |
|
guidance_scale: float, |
|
seed: int, |
|
) -> list[PIL.Image.Image]: |
|
image = HWC3(image) |
|
image = resize_image(image, resolution=image_resolution) |
|
control_image = PIL.Image.fromarray(image) |
|
self.load_controlnet_weight('ip2p') |
|
results = self.run_pipe( |
|
prompt=self.get_prompt(prompt, additional_prompt), |
|
negative_prompt=negative_prompt, |
|
control_image=control_image, |
|
num_images=num_images, |
|
num_steps=num_steps, |
|
guidance_scale=guidance_scale, |
|
seed=seed, |
|
) |
|
return [control_image] + results |
|
|