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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

HTML="""
<!DOCTYPE html>
<html>
    <style>
    .container {
        align-items: center;
        justify-content: center;
    }
    
    img {
        max-width: 10%;
        max-height:10%;
        float: left;
    }
    
    .text {
        font-size: 20px;
        padding-top: 10%;
        padding-left: 20px;
        padding-bottom: 5%;
        float: left;
    }
    </style>
    <body>
        <div class="container">
            <div class="image">
                <img src="https://huggingface.co/spaces/Diangle/Clip4Clip-webvid/resolve/main/Searchium.png" width="333" height="216">
            </div>
            <div class="text">
                <h1 style="font-size: 48px;"> Large Scale Video Search </h1>
            </div>
        </div>
    </body>
</html>
"""

DESCRIPTION="""This is a video retrieval demo using [Diangle/clip4clip-webvid](https://huggingface.co/Diangle/clip4clip-webvid)."""


DATA_PATH = './data'

ft_visual_features_file = DATA_PATH + '/dataset_v1_visual_features_database.npy'

#load database features:
ft_visual_features_database = np.load(ft_visual_features_file)

database_csv_path = os.path.join(DATA_PATH, 'dataset_v1.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]))
                    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("Diangle/clip4clip-webvid")
tokenizer = CLIPTokenizer.from_pretrained("Diangle/clip4clip-webvid")
    
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()
    
    nn_search = NearestNeighbors(n_neighbors=5, metric='binary', rerank_from=100)
    nn_search.fit(np.packbits((ft_visual_features_database > 0.0).astype(bool), axis=1), o_data=ft_visual_features_database)
    sims, idxs = nn_search.kneighbors(sequence_output)
    # print(database_df.iloc[idxs[0]]['contentUrl'])
    urls = database_df.iloc[idxs[0]]['contentUrl'].to_list()
    AUTOPLAY_VIDEOS = []
    for url in urls:
        AUTOPLAY_VIDEOS.append("""<video controls muted autoplay>
                    <source src={} type="video/mp4">
                    </video>""".format(url))
    return AUTOPLAY_VIDEOS


with gr.Blocks() as demo:
    gr.HTML(HTML)
    gr.Markdown(DESCRIPTION)
    gr.Markdown("Retrieval of top 5 videos relevant to the input sentence: ")
    with gr.Row():
        with gr.Column():
            inp = gr.Textbox(placeholder="Write a sentence.")
            btn = gr.Button(value="Retrieve")
            ex = [["mind-blowing magic tricks"],["baking chocolate cake"], 
                ["birds fly in the sky"], ["natural wonders of the world"]]
            gr.Examples(examples=ex,
                        inputs=[inp]
                        )
        with gr.Column():
            out = [gr.HTML() for _ in range(5)]
        btn.click(search, inputs=inp, outputs=out)
        
demo.launch()