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from io import BytesIO |
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from math import ceil |
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import clip |
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from multilingual_clip import legacy_multilingual_clip, pt_multilingual_clip |
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import numpy as np |
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import pandas as pd |
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from PIL import Image |
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import requests |
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import streamlit as st |
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import torch |
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from torchvision.transforms import ToPILImage |
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from transformers import AutoTokenizer, AutoModel, BertTokenizer |
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from CLIP_Explainability.clip_ import load, tokenize |
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from CLIP_Explainability.rn_cam import ( |
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interpret_rn_overlapped, |
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rn_perword_relevance, |
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) |
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from CLIP_Explainability.vit_cam import ( |
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vit_perword_relevance, |
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interpret_vit_overlapped, |
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) |
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from pytorch_grad_cam.grad_cam import GradCAM |
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RUN_LITE = True |
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MAX_IMG_WIDTH = 500 |
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MAX_IMG_HEIGHT = 800 |
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st.set_page_config(layout="wide") |
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def find_best_matches(text_features, image_features, image_ids): |
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similarities = (image_features @ text_features.T).squeeze(1) |
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best_image_idx = (-similarities).argsort() |
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return [[image_ids[i], similarities[i].item()] for i in best_image_idx] |
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def encode_search_query(search_query, model_type): |
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with torch.no_grad(): |
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if model_type == "M-CLIP (multilingual ViT)": |
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text_encoded = st.session_state.ml_model.forward( |
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search_query, st.session_state.ml_tokenizer |
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) |
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text_encoded /= text_encoded.norm(dim=-1, keepdim=True) |
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elif model_type == "J-CLIP (日本語 ViT)": |
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t_text = st.session_state.ja_tokenizer( |
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search_query, |
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padding=True, |
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return_tensors="pt", |
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device=st.session_state.device, |
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) |
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text_encoded = st.session_state.ja_model.get_text_features(**t_text) |
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text_encoded /= text_encoded.norm(dim=-1, keepdim=True) |
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else: |
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text_encoded = st.session_state.rn_model(search_query) |
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text_encoded /= text_encoded.norm(dim=-1, keepdim=True) |
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return text_encoded.to(st.session_state.device) |
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def clip_search(search_query): |
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if st.session_state.search_field_value != search_query: |
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st.session_state.search_field_value = search_query |
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model_type = st.session_state.active_model |
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if len(search_query) >= 1: |
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text_features = encode_search_query(search_query, model_type) |
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if model_type == "M-CLIP (multilingual ViT)": |
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matches = find_best_matches( |
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text_features, |
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st.session_state.ml_image_features, |
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st.session_state.image_ids, |
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) |
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elif model_type == "J-CLIP (日本語 ViT)": |
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matches = find_best_matches( |
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text_features, |
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st.session_state.ja_image_features, |
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st.session_state.image_ids, |
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) |
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else: |
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matches = find_best_matches( |
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text_features, |
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st.session_state.rn_image_features, |
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st.session_state.image_ids, |
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) |
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st.session_state.search_image_ids = [match[0] for match in matches] |
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st.session_state.search_image_scores = {match[0]: match[1] for match in matches} |
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def string_search(): |
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st.session_state.disable_uploader = ( |
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RUN_LITE and st.session_state.active_model == "M-CLIP (multilingual ViT)" |
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) |
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if "search_field_value" in st.session_state: |
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clip_search(st.session_state.search_field_value) |
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def load_image_features(): |
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if st.session_state.vision_mode == "tiled": |
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ml_image_features = np.load("./image_features/tiled_ml_features.npy") |
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ja_image_features = np.load("./image_features/tiled_ja_features.npy") |
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rn_image_features = np.load("./image_features/tiled_rn_features.npy") |
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elif st.session_state.vision_mode == "stretched": |
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ml_image_features = np.load("./image_features/resized_ml_features.npy") |
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ja_image_features = np.load("./image_features/resized_ja_features.npy") |
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rn_image_features = np.load("./image_features/resized_rn_features.npy") |
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else: |
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ml_image_features = np.load("./image_features/cropped_ml_features.npy") |
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ja_image_features = np.load("./image_features/cropped_ja_features.npy") |
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rn_image_features = np.load("./image_features/cropped_rn_features.npy") |
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device = st.session_state.device |
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if device == "cpu": |
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ml_image_features = torch.from_numpy(ml_image_features).float().to(device) |
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ja_image_features = torch.from_numpy(ja_image_features).float().to(device) |
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rn_image_features = torch.from_numpy(rn_image_features).float().to(device) |
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else: |
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ml_image_features = torch.from_numpy(ml_image_features).to(device) |
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ja_image_features = torch.from_numpy(ja_image_features).to(device) |
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rn_image_features = torch.from_numpy(rn_image_features).to(device) |
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st.session_state.ml_image_features = ml_image_features / ml_image_features.norm( |
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dim=-1, keepdim=True |
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) |
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st.session_state.ja_image_features = ja_image_features / ja_image_features.norm( |
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dim=-1, keepdim=True |
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) |
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st.session_state.rn_image_features = rn_image_features / rn_image_features.norm( |
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dim=-1, keepdim=True |
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) |
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string_search() |
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def init(): |
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st.session_state.current_page = 1 |
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device = "cpu" |
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st.session_state.device = device |
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with st.spinner("Loading models and data, please wait..."): |
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ml_model_name = "M-CLIP/XLM-Roberta-Large-Vit-B-16Plus" |
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ml_model_path = "./models/vit_b_16_plus_240-laion400m_e32-699c4b84.pt" |
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if not RUN_LITE: |
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st.session_state.ml_image_model, st.session_state.ml_image_preprocess = ( |
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load(ml_model_path, device=device, jit=False) |
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) |
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st.session_state.ml_model = ( |
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pt_multilingual_clip.MultilingualCLIP.from_pretrained(ml_model_name) |
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).to(device) |
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st.session_state.ml_tokenizer = AutoTokenizer.from_pretrained(ml_model_name) |
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ja_model_name = "hakuhodo-tech/japanese-clip-vit-h-14-bert-wider" |
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ja_model_path = "./models/ViT-H-14-laion2B-s32B-b79K.bin" |
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st.session_state.ja_image_model, st.session_state.ja_image_preprocess = load( |
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ja_model_path, device=device, jit=False |
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) |
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st.session_state.ja_model = AutoModel.from_pretrained( |
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ja_model_name, trust_remote_code=True |
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).to(device) |
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st.session_state.ja_tokenizer = AutoTokenizer.from_pretrained( |
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ja_model_name, trust_remote_code=True |
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) |
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st.session_state.rn_image_model, st.session_state.rn_image_preprocess = ( |
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clip.load("RN50x4", device=device) |
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) |
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st.session_state.rn_model = legacy_multilingual_clip.load_model( |
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"M-BERT-Base-69" |
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).to(device) |
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st.session_state.rn_tokenizer = BertTokenizer.from_pretrained( |
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"bert-base-multilingual-cased" |
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) |
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st.session_state.images_info = pd.read_csv("./metadata.csv") |
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st.session_state.images_info.set_index("filename", inplace=True) |
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with open("./images_list.txt", "r", encoding="utf-8") as images_list: |
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st.session_state.image_ids = list(images_list.read().strip().split("\n")) |
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st.session_state.active_model = "J-CLIP (日本語 ViT)" |
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st.session_state.vision_mode = "tiled" |
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st.session_state.search_image_ids = [] |
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st.session_state.search_image_scores = {} |
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st.session_state.text_table_df = None |
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st.session_state.disable_uploader = ( |
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RUN_LITE and st.session_state.active_model == "Legacy (multilingual ResNet)" |
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) |
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with st.spinner("Loading models and data, please wait..."): |
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load_image_features() |
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if "images_info" not in st.session_state: |
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init() |
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def get_overlay_vis(image, img_dim, image_model): |
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orig_img_dims = image.size |
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tile_behavior = None |
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if st.session_state.vision_mode == "tiled": |
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scaled_dims = [img_dim, img_dim] |
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if orig_img_dims[0] > orig_img_dims[1]: |
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scale_ratio = round(orig_img_dims[0] / orig_img_dims[1]) |
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if scale_ratio > 1: |
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scaled_dims = [scale_ratio * img_dim, img_dim] |
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tile_behavior = "width" |
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elif orig_img_dims[0] < orig_img_dims[1]: |
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scale_ratio = round(orig_img_dims[1] / orig_img_dims[0]) |
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if scale_ratio > 1: |
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scaled_dims = [img_dim, scale_ratio * img_dim] |
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tile_behavior = "height" |
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resized_image = image.resize(scaled_dims, Image.LANCZOS) |
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if tile_behavior == "width": |
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image_tiles = [] |
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for x in range(0, scale_ratio): |
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box = (x * img_dim, 0, (x + 1) * img_dim, img_dim) |
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image_tiles.append(resized_image.crop(box)) |
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elif tile_behavior == "height": |
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image_tiles = [] |
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for y in range(0, scale_ratio): |
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box = (0, y * img_dim, img_dim, (y + 1) * img_dim) |
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image_tiles.append(resized_image.crop(box)) |
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else: |
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image_tiles = [resized_image] |
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elif st.session_state.vision_mode == "stretched": |
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image_tiles = [image.resize((img_dim, img_dim), Image.LANCZOS)] |
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else: |
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if orig_img_dims[0] > orig_img_dims[1]: |
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scale_factor = orig_img_dims[0] / orig_img_dims[1] |
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resized_img_dims = (round(scale_factor * img_dim), img_dim) |
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resized_img = image.resize(resized_img_dims) |
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elif orig_img_dims[0] < orig_img_dims[1]: |
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scale_factor = orig_img_dims[1] / orig_img_dims[0] |
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resized_img_dims = (img_dim, round(scale_factor * img_dim)) |
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else: |
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resized_img_dims = (img_dim, img_dim) |
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resized_img = image.resize(resized_img_dims) |
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left = round((resized_img_dims[0] - img_dim) / 2) |
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top = round((resized_img_dims[1] - img_dim) / 2) |
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x_right = round(resized_img_dims[0] - img_dim) - left |
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x_bottom = round(resized_img_dims[1] - img_dim) - top |
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right = resized_img_dims[0] - x_right |
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bottom = resized_img_dims[1] - x_bottom |
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image_tiles = [resized_img.crop((left, top, right, bottom))] |
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image_visualizations = [] |
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image_features = [] |
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image_similarities = [] |
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if st.session_state.active_model == "M-CLIP (multilingual ViT)": |
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text_features = st.session_state.ml_model.forward( |
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st.session_state.search_field_value, st.session_state.ml_tokenizer |
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) |
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if st.session_state.device == "cpu": |
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text_features = text_features.float().to(st.session_state.device) |
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else: |
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text_features = text_features.to(st.session_state.device) |
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for altered_image in image_tiles: |
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p_image = ( |
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st.session_state.ml_image_preprocess(altered_image) |
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.unsqueeze(0) |
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.to(st.session_state.device) |
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) |
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vis_t, img_feats, similarity = interpret_vit_overlapped( |
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p_image.type(image_model.dtype), |
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text_features.type(image_model.dtype), |
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image_model.visual, |
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st.session_state.device, |
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img_dim=img_dim, |
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) |
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image_visualizations.append(vis_t) |
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image_features.append(img_feats) |
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image_similarities.append(similarity.item()) |
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elif st.session_state.active_model == "J-CLIP (日本語 ViT)": |
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t_text = st.session_state.ja_tokenizer( |
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st.session_state.search_field_value, |
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return_tensors="pt", |
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device=st.session_state.device, |
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) |
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text_features = st.session_state.ja_model.get_text_features(**t_text) |
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if st.session_state.device == "cpu": |
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text_features = text_features.float().to(st.session_state.device) |
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else: |
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text_features = text_features.to(st.session_state.device) |
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for altered_image in image_tiles: |
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p_image = ( |
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st.session_state.ja_image_preprocess(altered_image) |
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.unsqueeze(0) |
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.to(st.session_state.device) |
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) |
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vis_t, img_feats, similarity = interpret_vit_overlapped( |
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p_image.type(image_model.dtype), |
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text_features.type(image_model.dtype), |
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image_model.visual, |
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st.session_state.device, |
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img_dim=img_dim, |
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) |
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image_visualizations.append(vis_t) |
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image_features.append(img_feats) |
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image_similarities.append(similarity.item()) |
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else: |
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text_features = st.session_state.rn_model(st.session_state.search_field_value) |
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if st.session_state.device == "cpu": |
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text_features = text_features.float().to(st.session_state.device) |
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else: |
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text_features = text_features.to(st.session_state.device) |
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for altered_image in image_tiles: |
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p_image = ( |
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st.session_state.rn_image_preprocess(altered_image) |
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.unsqueeze(0) |
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.to(st.session_state.device) |
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) |
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vis_t = interpret_rn_overlapped( |
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p_image.type(image_model.dtype), |
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text_features.type(image_model.dtype), |
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image_model.visual, |
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GradCAM, |
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st.session_state.device, |
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img_dim=img_dim, |
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) |
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text_features_norm = text_features.norm(dim=-1, keepdim=True) |
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text_features_new = text_features / text_features_norm |
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image_feats = image_model.encode_image(p_image.type(image_model.dtype)) |
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image_feats_norm = image_feats.norm(dim=-1, keepdim=True) |
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image_feats_new = image_feats / image_feats_norm |
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similarity = image_feats_new[0].dot(text_features_new[0]) |
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image_visualizations.append(vis_t) |
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image_features.append(p_image) |
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image_similarities.append(similarity.item()) |
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transform = ToPILImage() |
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vis_images = [transform(vis_t) for vis_t in image_visualizations] |
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if st.session_state.vision_mode == "cropped": |
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resized_img.paste(vis_images[0], (left, top)) |
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vis_images = [resized_img] |
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if orig_img_dims[0] > orig_img_dims[1]: |
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scale_factor = MAX_IMG_WIDTH / orig_img_dims[0] |
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scaled_dims = [MAX_IMG_WIDTH, int(orig_img_dims[1] * scale_factor)] |
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else: |
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scale_factor = MAX_IMG_HEIGHT / orig_img_dims[1] |
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scaled_dims = [int(orig_img_dims[0] * scale_factor), MAX_IMG_HEIGHT] |
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if tile_behavior == "width": |
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vis_image = Image.new("RGB", (len(vis_images) * img_dim, img_dim)) |
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for x, v_img in enumerate(vis_images): |
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vis_image.paste(v_img, (x * img_dim, 0)) |
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activations_image = vis_image.resize(scaled_dims) |
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elif tile_behavior == "height": |
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vis_image = Image.new("RGB", (img_dim, len(vis_images) * img_dim)) |
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for y, v_img in enumerate(vis_images): |
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vis_image.paste(v_img, (0, y * img_dim)) |
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activations_image = vis_image.resize(scaled_dims) |
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else: |
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activations_image = vis_images[0].resize(scaled_dims) |
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return activations_image, image_features, np.mean(image_similarities) |
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def visualize_gradcam(image): |
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if "search_field_value" not in st.session_state: |
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return |
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header_cols = st.columns([80, 20], vertical_alignment="bottom") |
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with header_cols[0]: |
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st.title("Image + query activation gradients") |
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with header_cols[1]: |
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if st.button("Close"): |
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st.rerun() |
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if st.session_state.active_model == "M-CLIP (multilingual ViT)": |
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img_dim = 240 |
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image_model = st.session_state.ml_image_model |
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tokenized_text = st.session_state.ml_tokenizer.tokenize( |
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st.session_state.search_field_value |
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) |
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elif st.session_state.active_model == "Legacy (multilingual ResNet)": |
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img_dim = 288 |
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image_model = st.session_state.rn_image_model |
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tokenized_text = st.session_state.rn_tokenizer.tokenize( |
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st.session_state.search_field_value |
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) |
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else: |
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img_dim = 224 |
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image_model = st.session_state.ja_image_model |
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tokenized_text = st.session_state.ja_tokenizer.tokenize( |
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st.session_state.search_field_value |
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) |
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st.image(image) |
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with st.spinner("Calculating..."): |
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activations_image, image_features, similarity_score = get_overlay_vis( |
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image, img_dim, image_model |
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) |
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st.markdown( |
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f"**Query text:** {st.session_state.search_field_value} | **Approx. image relevance:** {round(similarity_score.item(), 3)}" |
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) |
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st.image(activations_image) |
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tokenized_text = [ |
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tok.replace("▁", "").replace("#", "") for tok in tokenized_text if tok != "▁" |
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] |
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tokenized_text = [ |
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tok |
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for tok in tokenized_text |
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if tok |
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not in ["s", "ed", "a", "the", "an", "ing", "て", "に", "の", "は", "と", "た"] |
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] |
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|
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if ( |
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len(tokenized_text) > 1 |
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and len(tokenized_text) < 25 |
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and st.button( |
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"Calculate text importance (may take some time)", |
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) |
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): |
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scores_per_token = {} |
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|
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progress_text = f"Processing {len(tokenized_text)} text tokens" |
|
progress_bar = st.progress(0.0, text=progress_text) |
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|
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for t, tok in enumerate(tokenized_text): |
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token = tok |
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|
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for img_feats in image_features: |
|
if st.session_state.active_model == "Legacy (multilingual ResNet)": |
|
word_rel = rn_perword_relevance( |
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img_feats, |
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st.session_state.search_field_value, |
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image_model, |
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tokenize, |
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GradCAM, |
|
st.session_state.device, |
|
token, |
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data_only=True, |
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img_dim=img_dim, |
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) |
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else: |
|
word_rel = vit_perword_relevance( |
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img_feats, |
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st.session_state.search_field_value, |
|
image_model, |
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tokenize, |
|
st.session_state.device, |
|
token, |
|
img_dim=img_dim, |
|
) |
|
avg_score = np.mean(word_rel) |
|
if avg_score == 0 or np.isnan(avg_score): |
|
continue |
|
|
|
if token not in scores_per_token: |
|
scores_per_token[token] = [1 / avg_score] |
|
else: |
|
scores_per_token[token].append(1 / avg_score) |
|
|
|
progress_bar.progress( |
|
(t + 1) / len(tokenized_text), |
|
text=f"Processing token {t+1} of {len(tokenized_text)}", |
|
) |
|
progress_bar.empty() |
|
|
|
avg_scores_per_token = [ |
|
np.mean(scores_per_token[tok]) for tok in list(scores_per_token.keys()) |
|
] |
|
|
|
normed_scores = torch.softmax(torch.tensor(avg_scores_per_token), dim=0) |
|
|
|
token_scores = [f"{round(score.item() * 100, 3)}%" for score in normed_scores] |
|
st.session_state.text_table_df = pd.DataFrame( |
|
{"token": list(scores_per_token.keys()), "importance": token_scores} |
|
) |
|
|
|
st.markdown("**Importance of each text token to relevance score**") |
|
st.table(st.session_state.text_table_df) |
|
|
|
|
|
@st.dialog(" ", width="large") |
|
def image_modal(image): |
|
visualize_gradcam(image) |
|
|
|
|
|
def vis_known_image(vis_image_id): |
|
image_url = st.session_state.images_info.loc[vis_image_id]["image_url"] |
|
image_response = requests.get(image_url) |
|
image = Image.open(BytesIO(image_response.content), formats=["JPEG", "GIF", "PNG"]) |
|
image = image.convert("RGB") |
|
|
|
image_modal(image) |
|
|
|
|
|
def vis_uploaded_image(): |
|
uploaded_file = st.session_state.uploaded_image |
|
if uploaded_file is not None: |
|
|
|
bytes_data = uploaded_file.getvalue() |
|
image = Image.open(BytesIO(bytes_data), formats=["JPEG", "GIF", "PNG"]) |
|
image = image.convert("RGB") |
|
|
|
image_modal(image) |
|
|
|
|
|
def format_vision_mode(mode_stub): |
|
return mode_stub.capitalize() |
|
|
|
|
|
st.title("Explore Japanese visual aesthetics with CLIP models") |
|
|
|
st.markdown( |
|
""" |
|
<style> |
|
[data-testid=stImageCaption] { |
|
padding: 0 0 0 0; |
|
} |
|
[data-testid=stVerticalBlockBorderWrapper] { |
|
line-height: 1.2; |
|
} |
|
[data-testid=stVerticalBlock] { |
|
gap: .75rem; |
|
} |
|
[data-testid=baseButton-secondary] { |
|
min-height: 1rem; |
|
padding: 0 0.75rem; |
|
margin: 0 0 1rem 0; |
|
} |
|
div[aria-label="dialog"]>button[aria-label="Close"] { |
|
display: none; |
|
} |
|
[data-testid=stFullScreenFrame] { |
|
display: flex; |
|
flex-direction: column; |
|
align-items: center; |
|
} |
|
</style> |
|
""", |
|
unsafe_allow_html=True, |
|
) |
|
|
|
search_row = st.columns([45, 8, 8, 10, 1, 8, 20], vertical_alignment="center") |
|
with search_row[0]: |
|
search_field = st.text_input( |
|
label="search", |
|
label_visibility="collapsed", |
|
placeholder="Type something, or click a suggested search below.", |
|
on_change=string_search, |
|
key="search_field_value", |
|
) |
|
with search_row[1]: |
|
st.button( |
|
"Search", on_click=string_search, use_container_width=True, type="primary" |
|
) |
|
with search_row[2]: |
|
st.markdown("**Vision mode:**") |
|
with search_row[3]: |
|
st.selectbox( |
|
"Vision mode", |
|
options=["tiled", "stretched", "cropped"], |
|
key="vision_mode", |
|
help="How to consider images that aren't square", |
|
on_change=load_image_features, |
|
format_func=format_vision_mode, |
|
label_visibility="collapsed", |
|
) |
|
with search_row[4]: |
|
st.empty() |
|
with search_row[5]: |
|
st.markdown("**CLIP model:**") |
|
with search_row[6]: |
|
st.selectbox( |
|
"CLIP Model:", |
|
options=[ |
|
"J-CLIP (日本語 ViT)", |
|
"M-CLIP (multilingual ViT)", |
|
"Legacy (multilingual ResNet)", |
|
], |
|
key="active_model", |
|
on_change=string_search, |
|
label_visibility="collapsed", |
|
) |
|
|
|
canned_searches = st.columns([12, 22, 22, 22, 22], vertical_alignment="top") |
|
with canned_searches[0]: |
|
st.markdown("**Suggested searches:**") |
|
if st.session_state.active_model == "J-CLIP (日本語 ViT)": |
|
with canned_searches[1]: |
|
st.button( |
|
"間", |
|
on_click=clip_search, |
|
args=["間"], |
|
use_container_width=True, |
|
) |
|
with canned_searches[2]: |
|
st.button("奥", on_click=clip_search, args=["奥"], use_container_width=True) |
|
with canned_searches[3]: |
|
st.button("山", on_click=clip_search, args=["山"], use_container_width=True) |
|
with canned_searches[4]: |
|
st.button( |
|
"花に酔えり 羽織着て刀 さす女", |
|
on_click=clip_search, |
|
args=["花に酔えり 羽織着て刀 さす女"], |
|
use_container_width=True, |
|
) |
|
else: |
|
with canned_searches[1]: |
|
st.button( |
|
"negative space", |
|
on_click=clip_search, |
|
args=["negative space"], |
|
use_container_width=True, |
|
) |
|
with canned_searches[2]: |
|
st.button("間", on_click=clip_search, args=["間"], use_container_width=True) |
|
with canned_searches[3]: |
|
st.button("음각", on_click=clip_search, args=["음각"], use_container_width=True) |
|
with canned_searches[4]: |
|
st.button( |
|
"αρνητικός χώρος", |
|
on_click=clip_search, |
|
args=["αρνητικός χώρος"], |
|
use_container_width=True, |
|
) |
|
|
|
controls = st.columns([25, 25, 20, 35], gap="large", vertical_alignment="center") |
|
with controls[0]: |
|
im_per_pg = st.columns([30, 70], vertical_alignment="center") |
|
with im_per_pg[0]: |
|
st.markdown("**Images/page:**") |
|
with im_per_pg[1]: |
|
batch_size = st.select_slider( |
|
"Images/page:", range(10, 50, 10), label_visibility="collapsed" |
|
) |
|
with controls[1]: |
|
im_per_row = st.columns([30, 70], vertical_alignment="center") |
|
with im_per_row[0]: |
|
st.markdown("**Images/row:**") |
|
with im_per_row[1]: |
|
row_size = st.select_slider( |
|
"Images/row:", range(1, 6), value=5, label_visibility="collapsed" |
|
) |
|
num_batches = ceil(len(st.session_state.image_ids) / batch_size) |
|
with controls[2]: |
|
pager = st.columns([40, 60], vertical_alignment="center") |
|
with pager[0]: |
|
st.markdown(f"Page **{st.session_state.current_page}** of **{num_batches}** ") |
|
with pager[1]: |
|
st.number_input( |
|
"Page", |
|
min_value=1, |
|
max_value=num_batches, |
|
step=1, |
|
label_visibility="collapsed", |
|
key="current_page", |
|
) |
|
with controls[3]: |
|
st.file_uploader( |
|
"Upload an image", |
|
type=["jpg", "jpeg", "gif", "png"], |
|
key="uploaded_image", |
|
label_visibility="collapsed", |
|
on_change=vis_uploaded_image, |
|
disabled=st.session_state.disable_uploader, |
|
) |
|
|
|
|
|
if len(st.session_state.search_image_ids) == 0: |
|
batch = [] |
|
else: |
|
batch = st.session_state.search_image_ids[ |
|
(st.session_state.current_page - 1) * batch_size : st.session_state.current_page |
|
* batch_size |
|
] |
|
|
|
grid = st.columns(row_size) |
|
col = 0 |
|
for image_id in batch: |
|
with grid[col]: |
|
link_text = st.session_state.images_info.loc[image_id]["permalink"].split("/")[ |
|
2 |
|
] |
|
|
|
|
|
|
|
|
|
st.html( |
|
f"""<div style="display: flex; flex-direction: column; align-items: center"> |
|
<img src="{st.session_state.images_info.loc[image_id]['image_url']}" style="max-width: 100%; max-height: {MAX_IMG_HEIGHT}px" /> |
|
<div>{st.session_state.images_info.loc[image_id]['caption']} <b>[{round(st.session_state.search_image_scores[image_id], 3)}]</b></div> |
|
</div>""" |
|
) |
|
st.caption( |
|
f"""<div style="display: flex; flex-direction: column; align-items: center; position: relative; top: -12px"> |
|
<a href="{st.session_state.images_info.loc[image_id]['permalink']}">{link_text}</a> |
|
<div>""", |
|
unsafe_allow_html=True, |
|
) |
|
if not ( |
|
RUN_LITE and st.session_state.active_model == "M-CLIP (multilingual ViT)" |
|
): |
|
st.button( |
|
"Explain this", |
|
on_click=vis_known_image, |
|
args=[image_id], |
|
use_container_width=True, |
|
key=image_id, |
|
) |
|
else: |
|
st.empty() |
|
col = (col + 1) % row_size |
|
|
