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450 lines
20 KiB
450 lines
20 KiB
import hashlib |
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import math |
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import numpy as np |
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import open_clip |
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import os |
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import requests |
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import time |
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import torch |
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|
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from dataclasses import dataclass |
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from PIL import Image |
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from transformers import AutoProcessor, AutoModelForCausalLM, BlipForConditionalGeneration, Blip2ForConditionalGeneration |
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from tqdm import tqdm |
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from typing import List, Optional |
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from safetensors.numpy import load_file, save_file |
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CAPTION_MODELS = { |
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'blip-base': 'Salesforce/blip-image-captioning-base', # 990MB |
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'blip-large': 'Salesforce/blip-image-captioning-large', # 1.9GB |
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'blip2-2.7b': 'Salesforce/blip2-opt-2.7b', # 15.5GB |
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'blip2-flan-t5-xl': 'Salesforce/blip2-flan-t5-xl', # 15.77GB |
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'git-large-coco': 'microsoft/git-large-coco', # 1.58GB |
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} |
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CACHE_URL_BASE = 'https://huggingface.co/pharmapsychotic/ci-preprocess/resolve/main/' |
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@dataclass |
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class Config: |
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# models can optionally be passed in directly |
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caption_model = None |
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caption_processor = None |
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clip_model = None |
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clip_preprocess = None |
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|
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# blip settings |
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caption_max_length: int = 32 |
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caption_model_name: Optional[str] = 'blip-large' # use a key from CAPTION_MODELS or None |
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caption_offload: bool = False |
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|
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# clip settings |
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clip_model_name: str = 'ViT-L-14/openai' |
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clip_model_path: Optional[str] = None |
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clip_offload: bool = False |
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|
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# interrogator settings |
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cache_path: str = 'cache' # path to store cached text embeddings |
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download_cache: bool = True # when true, cached embeds are downloaded from huggingface |
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chunk_size: int = 2048 # batch size for CLIP, use smaller for lower VRAM |
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data_path: str = os.path.join(os.path.dirname(__file__), 'data') |
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device: str = ("mps" if torch.backends.mps.is_available() else "cuda" if torch.cuda.is_available() else "cpu") |
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flavor_intermediate_count: int = 2048 |
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quiet: bool = False # when quiet progress bars are not shown |
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def apply_low_vram_defaults(self): |
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self.caption_model_name = 'blip-base' |
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self.caption_offload = True |
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self.clip_offload = True |
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self.chunk_size = 1024 |
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self.flavor_intermediate_count = 1024 |
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class Interrogator(): |
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def __init__(self, config: Config): |
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self.config = config |
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self.device = config.device |
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self.dtype = torch.float16 if self.device == 'cuda' else torch.float32 |
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self.caption_offloaded = True |
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self.clip_offloaded = True |
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self.load_caption_model() |
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self.load_clip_model() |
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def load_caption_model(self): |
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if self.config.caption_model is None and self.config.caption_model_name: |
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if not self.config.quiet: |
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print(f"Loading caption model {self.config.caption_model_name}...") |
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model_path = CAPTION_MODELS[self.config.caption_model_name] |
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if self.config.caption_model_name.startswith('git-'): |
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caption_model = AutoModelForCausalLM.from_pretrained(model_path, torch_dtype=torch.float32) |
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elif self.config.caption_model_name.startswith('blip2-'): |
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caption_model = Blip2ForConditionalGeneration.from_pretrained(model_path, torch_dtype=self.dtype) |
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else: |
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caption_model = BlipForConditionalGeneration.from_pretrained(model_path, torch_dtype=self.dtype) |
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self.caption_processor = AutoProcessor.from_pretrained(model_path) |
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caption_model.eval() |
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if not self.config.caption_offload: |
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caption_model = caption_model.to(self.config.device) |
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self.caption_model = caption_model |
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else: |
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self.caption_model = self.config.caption_model |
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self.caption_processor = self.config.caption_processor |
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def load_clip_model(self): |
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start_time = time.time() |
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config = self.config |
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clip_model_name, clip_model_pretrained_name = config.clip_model_name.split('/', 2) |
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if config.clip_model is None: |
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if not config.quiet: |
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print(f"Loading CLIP model {config.clip_model_name}...") |
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self.clip_model, _, self.clip_preprocess = open_clip.create_model_and_transforms( |
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clip_model_name, |
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pretrained=clip_model_pretrained_name, |
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precision='fp16' if config.device == 'cuda' else 'fp32', |
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device=config.device, |
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jit=False, |
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cache_dir=config.clip_model_path |
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) |
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self.clip_model.eval() |
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else: |
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self.clip_model = config.clip_model |
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self.clip_preprocess = config.clip_preprocess |
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self.tokenize = open_clip.get_tokenizer(clip_model_name) |
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sites = ['Artstation', 'behance', 'cg society', 'cgsociety', 'deviantart', 'dribbble', |
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'flickr', 'instagram', 'pexels', 'pinterest', 'pixabay', 'pixiv', 'polycount', |
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'reddit', 'shutterstock', 'tumblr', 'unsplash', 'zbrush central'] |
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trending_list = [site for site in sites] |
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trending_list.extend(["trending on "+site for site in sites]) |
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trending_list.extend(["featured on "+site for site in sites]) |
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trending_list.extend([site+" contest winner" for site in sites]) |
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raw_artists = load_list(config.data_path, 'artists.txt') |
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artists = [f"by {a}" for a in raw_artists] |
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artists.extend([f"inspired by {a}" for a in raw_artists]) |
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self._prepare_clip() |
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self.artists = LabelTable(artists, "artists", self) |
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self.flavors = LabelTable(load_list(config.data_path, 'flavors.txt'), "flavors", self) |
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self.mediums = LabelTable(load_list(config.data_path, 'mediums.txt'), "mediums", self) |
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self.movements = LabelTable(load_list(config.data_path, 'movements.txt'), "movements", self) |
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self.trendings = LabelTable(trending_list, "trendings", self) |
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self.negative = LabelTable(load_list(config.data_path, 'negative.txt'), "negative", self) |
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end_time = time.time() |
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if not config.quiet: |
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print(f"Loaded CLIP model and data in {end_time-start_time:.2f} seconds.") |
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def chain( |
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self, |
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image_features: torch.Tensor, |
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phrases: List[str], |
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best_prompt: str="", |
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best_sim: float=0, |
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min_count: int=8, |
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max_count: int=32, |
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desc="Chaining", |
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reverse: bool=False |
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) -> str: |
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self._prepare_clip() |
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phrases = set(phrases) |
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if not best_prompt: |
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best_prompt = self.rank_top(image_features, [f for f in phrases], reverse=reverse) |
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best_sim = self.similarity(image_features, best_prompt) |
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phrases.remove(best_prompt) |
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curr_prompt, curr_sim = best_prompt, best_sim |
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def check(addition: str, idx: int) -> bool: |
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nonlocal best_prompt, best_sim, curr_prompt, curr_sim |
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prompt = curr_prompt + ", " + addition |
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sim = self.similarity(image_features, prompt) |
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if reverse: |
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sim = -sim |
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if sim > best_sim: |
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best_prompt, best_sim = prompt, sim |
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if sim > curr_sim or idx < min_count: |
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curr_prompt, curr_sim = prompt, sim |
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return True |
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return False |
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for idx in tqdm(range(max_count), desc=desc, disable=self.config.quiet): |
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best = self.rank_top(image_features, [f"{curr_prompt}, {f}" for f in phrases], reverse=reverse) |
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flave = best[len(curr_prompt)+2:] |
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if not check(flave, idx): |
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break |
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if _prompt_at_max_len(curr_prompt, self.tokenize): |
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break |
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phrases.remove(flave) |
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return best_prompt |
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def generate_caption(self, pil_image: Image) -> str: |
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assert self.caption_model is not None, "No caption model loaded." |
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self._prepare_caption() |
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inputs = self.caption_processor(images=pil_image, return_tensors="pt").to(self.device) |
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if not self.config.caption_model_name.startswith('git-'): |
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inputs = inputs.to(self.dtype) |
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tokens = self.caption_model.generate(**inputs, max_new_tokens=self.config.caption_max_length) |
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return self.caption_processor.batch_decode(tokens, skip_special_tokens=True)[0].strip() |
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def image_to_features(self, image: Image) -> torch.Tensor: |
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self._prepare_clip() |
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images = self.clip_preprocess(image).unsqueeze(0).to(self.device) |
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with torch.no_grad(), torch.cuda.amp.autocast(): |
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image_features = self.clip_model.encode_image(images) |
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image_features /= image_features.norm(dim=-1, keepdim=True) |
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return image_features |
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def interrogate_classic(self, image: Image, max_flavors: int=3, caption: Optional[str]=None) -> str: |
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"""Classic mode creates a prompt in a standard format first describing the image, |
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then listing the artist, trending, movement, and flavor text modifiers.""" |
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caption = caption or self.generate_caption(image) |
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image_features = self.image_to_features(image) |
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medium = self.mediums.rank(image_features, 1)[0] |
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artist = self.artists.rank(image_features, 1)[0] |
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trending = self.trendings.rank(image_features, 1)[0] |
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movement = self.movements.rank(image_features, 1)[0] |
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flaves = ", ".join(self.flavors.rank(image_features, max_flavors)) |
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if caption.startswith(medium): |
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prompt = f"{caption} {artist}, {trending}, {movement}, {flaves}" |
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else: |
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prompt = f"{caption}, {medium} {artist}, {trending}, {movement}, {flaves}" |
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return _truncate_to_fit(prompt, self.tokenize) |
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def interrogate_fast(self, image: Image, max_flavors: int=32, caption: Optional[str]=None) -> str: |
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"""Fast mode simply adds the top ranked terms after a caption. It generally results in |
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better similarity between generated prompt and image than classic mode, but the prompts |
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are less readable.""" |
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caption = caption or self.generate_caption(image) |
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image_features = self.image_to_features(image) |
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merged = _merge_tables([self.artists, self.flavors, self.mediums, self.movements, self.trendings], self) |
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tops = merged.rank(image_features, max_flavors) |
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return _truncate_to_fit(caption + ", " + ", ".join(tops), self.tokenize) |
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def interrogate_negative(self, image: Image, max_flavors: int = 32) -> str: |
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"""Negative mode chains together the most dissimilar terms to the image. It can be used |
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to help build a negative prompt to pair with the regular positive prompt and often |
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improve the results of generated images particularly with Stable Diffusion 2.""" |
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image_features = self.image_to_features(image) |
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flaves = self.flavors.rank(image_features, self.config.flavor_intermediate_count, reverse=True) |
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flaves = flaves + self.negative.labels |
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return self.chain(image_features, flaves, max_count=max_flavors, reverse=True, desc="Negative chain") |
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def interrogate(self, image: Image, min_flavors: int=8, max_flavors: int=32, caption: Optional[str]=None) -> str: |
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caption = caption or self.generate_caption(image) |
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image_features = self.image_to_features(image) |
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merged = _merge_tables([self.artists, self.flavors, self.mediums, self.movements, self.trendings], self) |
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flaves = merged.rank(image_features, self.config.flavor_intermediate_count) |
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best_prompt, best_sim = caption, self.similarity(image_features, caption) |
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best_prompt = self.chain(image_features, flaves, best_prompt, best_sim, min_count=min_flavors, max_count=max_flavors, desc="Flavor chain") |
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fast_prompt = self.interrogate_fast(image, max_flavors, caption=caption) |
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classic_prompt = self.interrogate_classic(image, max_flavors, caption=caption) |
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candidates = [caption, classic_prompt, fast_prompt, best_prompt] |
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return candidates[np.argmax(self.similarities(image_features, candidates))] |
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def rank_top(self, image_features: torch.Tensor, text_array: List[str], reverse: bool=False) -> str: |
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self._prepare_clip() |
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text_tokens = self.tokenize([text for text in text_array]).to(self.device) |
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with torch.no_grad(), torch.cuda.amp.autocast(): |
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text_features = self.clip_model.encode_text(text_tokens) |
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text_features /= text_features.norm(dim=-1, keepdim=True) |
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similarity = text_features @ image_features.T |
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if reverse: |
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similarity = -similarity |
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return text_array[similarity.argmax().item()] |
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def similarity(self, image_features: torch.Tensor, text: str) -> float: |
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self._prepare_clip() |
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text_tokens = self.tokenize([text]).to(self.device) |
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with torch.no_grad(), torch.cuda.amp.autocast(): |
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text_features = self.clip_model.encode_text(text_tokens) |
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text_features /= text_features.norm(dim=-1, keepdim=True) |
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similarity = text_features @ image_features.T |
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return similarity[0][0].item() |
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def similarities(self, image_features: torch.Tensor, text_array: List[str]) -> List[float]: |
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self._prepare_clip() |
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text_tokens = self.tokenize([text for text in text_array]).to(self.device) |
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with torch.no_grad(), torch.cuda.amp.autocast(): |
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text_features = self.clip_model.encode_text(text_tokens) |
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text_features /= text_features.norm(dim=-1, keepdim=True) |
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similarity = text_features @ image_features.T |
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return similarity.T[0].tolist() |
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def _prepare_caption(self): |
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if self.config.clip_offload and not self.clip_offloaded: |
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self.clip_model = self.clip_model.to('cpu') |
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self.clip_offloaded = True |
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if self.caption_offloaded: |
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self.caption_model = self.caption_model.to(self.device) |
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self.caption_offloaded = False |
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def _prepare_clip(self): |
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if self.config.caption_offload and not self.caption_offloaded: |
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self.caption_model = self.caption_model.to('cpu') |
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self.caption_offloaded = True |
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if self.clip_offloaded: |
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self.clip_model = self.clip_model.to(self.device) |
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self.clip_offloaded = False |
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class LabelTable(): |
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def __init__(self, labels:List[str], desc:str, ci: Interrogator): |
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clip_model, config = ci.clip_model, ci.config |
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self.chunk_size = config.chunk_size |
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self.config = config |
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self.device = config.device |
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self.embeds = [] |
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self.labels = labels |
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self.tokenize = ci.tokenize |
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hash = hashlib.sha256(",".join(labels).encode()).hexdigest() |
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sanitized_name = self.config.clip_model_name.replace('/', '_').replace('@', '_') |
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self._load_cached(desc, hash, sanitized_name) |
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if len(self.labels) != len(self.embeds): |
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self.embeds = [] |
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chunks = np.array_split(self.labels, max(1, len(self.labels)/config.chunk_size)) |
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for chunk in tqdm(chunks, desc=f"Preprocessing {desc}" if desc else None, disable=self.config.quiet): |
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text_tokens = self.tokenize(chunk).to(self.device) |
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with torch.no_grad(), torch.cuda.amp.autocast(): |
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text_features = clip_model.encode_text(text_tokens) |
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text_features /= text_features.norm(dim=-1, keepdim=True) |
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text_features = text_features.half().cpu().numpy() |
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for i in range(text_features.shape[0]): |
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self.embeds.append(text_features[i]) |
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if desc and self.config.cache_path: |
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os.makedirs(self.config.cache_path, exist_ok=True) |
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cache_filepath = os.path.join(self.config.cache_path, f"{sanitized_name}_{desc}.safetensors") |
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tensors = { |
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"embeds": np.stack(self.embeds), |
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"hash": np.array([ord(c) for c in hash], dtype=np.int8) |
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} |
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save_file(tensors, cache_filepath) |
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if self.device == 'cpu' or self.device == torch.device('cpu'): |
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self.embeds = [e.astype(np.float32) for e in self.embeds] |
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def _load_cached(self, desc:str, hash:str, sanitized_name:str) -> bool: |
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if self.config.cache_path is None or desc is None: |
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return False |
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cached_safetensors = os.path.join(self.config.cache_path, f"{sanitized_name}_{desc}.safetensors") |
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if self.config.download_cache and not os.path.exists(cached_safetensors): |
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download_url = CACHE_URL_BASE + f"{sanitized_name}_{desc}.safetensors" |
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try: |
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os.makedirs(self.config.cache_path, exist_ok=True) |
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_download_file(download_url, cached_safetensors, quiet=self.config.quiet) |
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except Exception as e: |
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print(f"Failed to download {download_url}") |
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print(e) |
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return False |
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if os.path.exists(cached_safetensors): |
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try: |
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tensors = load_file(cached_safetensors) |
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except Exception as e: |
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print(f"Failed to load {cached_safetensors}") |
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print(e) |
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return False |
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if 'hash' in tensors and 'embeds' in tensors: |
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if np.array_equal(tensors['hash'], np.array([ord(c) for c in hash], dtype=np.int8)): |
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self.embeds = tensors['embeds'] |
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if len(self.embeds.shape) == 2: |
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self.embeds = [self.embeds[i] for i in range(self.embeds.shape[0])] |
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return True |
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return False |
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def _rank(self, image_features: torch.Tensor, text_embeds: torch.Tensor, top_count: int=1, reverse: bool=False) -> str: |
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top_count = min(top_count, len(text_embeds)) |
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text_embeds = torch.stack([torch.from_numpy(t) for t in text_embeds]).to(self.device) |
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with torch.cuda.amp.autocast(): |
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similarity = image_features @ text_embeds.T |
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if reverse: |
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similarity = -similarity |
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_, top_labels = similarity.float().cpu().topk(top_count, dim=-1) |
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return [top_labels[0][i].numpy() for i in range(top_count)] |
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def rank(self, image_features: torch.Tensor, top_count: int=1, reverse: bool=False) -> List[str]: |
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if len(self.labels) <= self.chunk_size: |
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tops = self._rank(image_features, self.embeds, top_count=top_count, reverse=reverse) |
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return [self.labels[i] for i in tops] |
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num_chunks = int(math.ceil(len(self.labels)/self.chunk_size)) |
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keep_per_chunk = int(self.chunk_size / num_chunks) |
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top_labels, top_embeds = [], [] |
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for chunk_idx in tqdm(range(num_chunks), disable=self.config.quiet): |
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start = chunk_idx*self.chunk_size |
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stop = min(start+self.chunk_size, len(self.embeds)) |
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tops = self._rank(image_features, self.embeds[start:stop], top_count=keep_per_chunk, reverse=reverse) |
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top_labels.extend([self.labels[start+i] for i in tops]) |
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top_embeds.extend([self.embeds[start+i] for i in tops]) |
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tops = self._rank(image_features, top_embeds, top_count=top_count) |
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return [top_labels[i] for i in tops] |
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def _download_file(url: str, filepath: str, chunk_size: int = 4*1024*1024, quiet: bool = False): |
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r = requests.get(url, stream=True) |
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if r.status_code != 200: |
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return |
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file_size = int(r.headers.get("Content-Length", 0)) |
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filename = url.split("/")[-1] |
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progress = tqdm(total=file_size, unit="B", unit_scale=True, desc=filename, disable=quiet) |
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with open(filepath, "wb") as f: |
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for chunk in r.iter_content(chunk_size=chunk_size): |
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if chunk: |
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f.write(chunk) |
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progress.update(len(chunk)) |
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progress.close() |
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def _merge_tables(tables: List[LabelTable], ci: Interrogator) -> LabelTable: |
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m = LabelTable([], None, ci) |
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for table in tables: |
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m.labels.extend(table.labels) |
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m.embeds.extend(table.embeds) |
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return m |
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|
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def _prompt_at_max_len(text: str, tokenize) -> bool: |
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tokens = tokenize([text]) |
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return tokens[0][-1] != 0 |
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def _truncate_to_fit(text: str, tokenize) -> str: |
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parts = text.split(', ') |
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new_text = parts[0] |
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for part in parts[1:]: |
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if _prompt_at_max_len(new_text + part, tokenize): |
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break |
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new_text += ', ' + part |
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return new_text |
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|
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def list_caption_models() -> List[str]: |
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return list(CAPTION_MODELS.keys()) |
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|
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def list_clip_models() -> List[str]: |
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return ['/'.join(x) for x in open_clip.list_pretrained()] |
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|
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def load_list(data_path: str, filename: Optional[str] = None) -> List[str]: |
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"""Load a list of strings from a file.""" |
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if filename is not None: |
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data_path = os.path.join(data_path, filename) |
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with open(data_path, 'r', encoding='utf-8', errors='replace') as f: |
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items = [line.strip() for line in f.readlines()] |
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return items
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