import gradio as gr import os import numpy as np import pandas as pd from IPython import display import faiss import torch from transformers import CLIPTokenizer, CLIPTextModelWithProjection import huggingface_hub HTML="""

Large Scale Video Search

""" DESCRIPTION=""" Exciting News!
We've added another 4 million video embeddings to our collection!
Welcome to our video retrieval demo powered by [Searchium-ai/clip4clip-webvid150k](https://huggingface.co/Searchium-ai/clip4clip-webvid150k)!
Using free text search - you will find the top 5 most relevant clips among a dataset of 5.5 million video clips.
Discover, explore, and enjoy the world of video search at your fingertips. """ ENDING = """For search acceleration capabilities, please refer to [Searchium.ai](https://www.searchium.ai) """ DATA_PATH = '/home/user' downloaded_path = huggingface_hub.snapshot_download(repo_id="Searchium-ai/clip4clip-webvid150k", repo_type="model", cache_dir=DATA_PATH) ft_visual_features_file = downloaded_path +'/new_data/video_half_dataset_visual_features.npy' ft_visual_features_file_bin = downloaded_path + '/new_data/video_half_dataset_visual_features_binary_packed.npy' #load database features: ft_visual_features_database_bin = np.load(ft_visual_features_file_bin) ft_visual_features_database = np.load(ft_visual_features_file, mmap_mode='r') database_csv_path = downloaded_path + '/new_data/video_half_dataset.csv' database_df = pd.read_csv(database_csv_path) class NearestNeighbors: """ Class for NearestNeighbors. """ def __init__(self, n_neighbors=10, metric='cosine', rerank_from=-1): """ metric = 'cosine' / 'binary' if metric ~= 'cosine' and rerank_from > n_neighbors then a cosine rerank will be performed """ self.n_neighbors = n_neighbors self.metric = metric self.rerank_from = rerank_from def normalize(self, a): return a / np.sum(a**2, axis=1, keepdims=True) def fit(self, data, o_data=None): if self.metric == 'cosine': data = self.normalize(data) self.index = faiss.IndexFlatIP(data.shape[1]) elif self.metric == 'binary': self.o_data = data if o_data is None else o_data #assuming data already packed self.index = faiss.IndexBinaryFlat(data.shape[1]*8) self.index.add(np.ascontiguousarray(data)) def kneighbors(self, q_data): if self.metric == 'cosine': q_data = self.normalize(q_data) sim, idx = self.index.search(q_data, self.n_neighbors) else: if self.metric == 'binary': print('This is binary search.') bq_data = np.packbits((q_data > 0.0).astype(bool), axis=1) sim, idx = self.index.search(bq_data, max(self.rerank_from, self.n_neighbors)) if self.rerank_from > self.n_neighbors: re_sims = np.zeros([len(q_data), self.n_neighbors], dtype=float) re_idxs = np.zeros([len(q_data), self.n_neighbors], dtype=float) for i, q in enumerate(q_data): rerank_data = self.o_data[idx[i]] rerank_search = NearestNeighbors(n_neighbors=self.n_neighbors, metric='cosine') rerank_search.fit(rerank_data) re_sim, re_idx = rerank_search.kneighbors(np.asarray([q])) print("re_idx: ", re_idx) re_sims[i, :] = re_sim re_idxs[i, :] = idx[i][re_idx] idx = re_idxs sim = re_sims return sim, idx model = CLIPTextModelWithProjection.from_pretrained("Searchium-ai/clip4clip-webvid150k") tokenizer = CLIPTokenizer.from_pretrained("Searchium-ai/clip4clip-webvid150k") nn_search = NearestNeighbors(n_neighbors=5, metric='binary', rerank_from=100) nn_search.fit(ft_visual_features_database_bin, o_data=ft_visual_features_database) def search(search_sentence): inputs = tokenizer(text=search_sentence , return_tensors="pt") outputs = model(input_ids=inputs["input_ids"], attention_mask=inputs["attention_mask"]) # Normalizing the embeddings: final_output = outputs[0] / outputs[0].norm(dim=-1, keepdim=True) sequence_output = final_output.cpu().detach().numpy() sims, idxs = nn_search.kneighbors(sequence_output) urls = database_df.iloc[idxs[0]]['contentUrl'].to_list() AUTOPLAY_VIDEOS = [] for url in urls: AUTOPLAY_VIDEOS.append("""""".format(url)) return AUTOPLAY_VIDEOS with gr.Blocks(theme=gr.themes.Default(spacing_size=gr.themes.sizes.spacing_lg, radius_size=gr.themes.sizes.radius_lg, text_size=gr.themes.sizes.text_lg)) as demo: gr.HTML(HTML) gr.Markdown(DESCRIPTION) with gr.Row(): with gr.Column(): inp = gr.Textbox(placeholder="Write a sentence.") btn = gr.Button(value="Search") ex = [["natural wonders of the world"],["yoga routines for morning energy"], ["baking chocolate cake"],["birds fly in the sky"]] gr.Examples(examples=ex, inputs=[inp] ) with gr.Column(): out = [gr.HTML() for _ in range(5)] btn.click(search, inputs=inp, outputs=out) gr.Markdown(ENDING) demo.launch()