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import os
import csv
import json
import torch
import shutil
import requests
import textwrap
import numpy as np
import pandas as pd
import streamlit as st
from tqdm.auto import tqdm
from collections import Counter
from tokenizers import Tokenizer
import plotly.graph_objects as go
from huggingface_hub import whoami, HfApi
from transformers import AutoModel, AutoTokenizer, PreTrainedTokenizerFast, pipeline


LANGUAGES = {
    "french": {"emoji":"🇫🇷", "nllb_code":"fra_Latn", "hf_code":"fr"},
    "english": {"emoji":"🇬🇧", "nllb_code":"eng_Latn", "hf_code":"en"},
    "german": {"emoji":"🇩🇪", "nllb_code":"deu_Latn", "hf_code":"de"},
    "italian": {"emoji":"🇮🇹", "nllb_code":"ita_Latn", "hf_code":"it"},
    "spanish": {"emoji":"🇪🇸", "nllb_code":"spa_Latn", "hf_code":"es"},
    "portuguese": {"emoji":"🇵🇹", "nllb_code":"por_Latn", "hf_code":"pt"}
}

MODELS = [
    "intfloat/multilingual-e5-small",
    "intfloat/multilingual-e5-base",
    "intfloat/multilingual-e5-large",
    "BAAI/bge-m3",
    "Alibaba-NLP/gte-multilingual-base",
    #"jinaai/jina-embeddings-v3", # TODO: uses ParametrizedEmbedding
]

def estimate_pruned_vocabulary(tokenizer: PreTrainedTokenizerFast, language: str):
    """
    Estimate the most common tokens in the language. You should first download the 1M sentences dataset for the desired language.
    Source: https://wortschatz.uni-leipzig.de/en/download/English
    """
    sentences_file = f'data.nosync/{language}_news_2020_1M-sentences.txt'
    if os.path.exists(sentences_file):
        df = pd.read_csv(sentences_file, sep='\t', header=None, quoting=csv.QUOTE_NONE, names=['id', 'text'])
        counter = Counter(tokenizer.all_special_tokens)
        counter.update(tok for t in tqdm(df.text) for tok in tokenizer.tokenize(t))
        with open(f"data.nosync/{language}_filtered_tokens.txt", "w") as f:
            f.write("\n".join(map(str, set(counter))))
    else:
        raise FileNotFoundError

def get_pruned_vocabulary(language: str):
    filtered_tokens_file = f"data.nosync/{language}_filtered_tokens.txt"
    if os.path.exists(filtered_tokens_file):
        with open(filtered_tokens_file, "r") as f:
            return set(f.read().splitlines())
    else:
        raise FileNotFoundError(f"No filtered tokens file found for language {language}. Please run `estimate_pruned_vocabulary` first.")

@st.cache_resource
def load_model_and_tokenizer(model_name: str):
    model = AutoModel.from_pretrained(model_name, trust_remote_code=True)
    tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True, use_fast=True)
    return model, tokenizer

def count_parameters(model, layer_name: str = None):
    return sum(p.numel() for name, p in model.named_parameters() if layer_name is None or name.startswith(layer_name))

@st.cache_resource
def get_test_sentence(target_lang: str, source_lang: str = "eng_Latn"):
    text = """
    Alan Mathison Turing (23 June 1912 - 7 June 1954) was an English mathematician, 
    computer scientist, logician, cryptanalyst, philosopher and theoretical biologist.
    """
    if target_lang == "eng_Latn":
        return text
    model_name = "facebook/nllb-200-distilled-600M"
    translator = pipeline(task="translation", tokenizer=model_name, model=model_name)
    return translator(text, src_lang=source_lang, tgt_lang=target_lang)[0]['translation_text']

def push_to_hub(username: str, token: str, model_dir: str, private: bool = False):
    _ = whoami(token=token)
    api = HfApi(endpoint="https://huggingface.co", token=token)
    repo_id = f"{username}/{model_dir.split('/')[-1]}"
    api.create_repo(repo_id=repo_id, repo_type="model", private=private)
    api.upload_folder(repo_id=repo_id, folder_path=model_dir, commit_message="Upload pruned model")

def prune_model(model_name: str, language: str, username: str, token: str):
    st.markdown(f"- Pruning the [**{model_name}**](https://huggingface.co/{model_name}) model to keep its **{language.capitalize()}** tokens only. *Let's go!*")

    # Load the model and its tokenizer
    model, tokenizer = load_model_and_tokenizer(model_name)

    # Calculate parameters for the original model
    all_params = count_parameters(model)
    encoder_params = count_parameters(model, layer_name="encoder")
    embedding_params = count_parameters(model, layer_name="embeddings")

    st.markdown(
        f"- The model has **{all_params/1e6:.1f}M** parameters, of which **{embedding_params/all_params*100:.0f}%** "+
        f"(i.e., {embedding_params/1e6:.1f}M params) come from the *embedding matrix* and its {tokenizer.vocab_size} token entries. "+
        f"This means that the contextualization of text sequences is actually done by a *{model.config.num_hidden_layers}-layer Transformer encoder* "+
        f"with **{encoder_params/1e6:.1f}M** parameters only."
    )

    # Estimate the most used tokens in the language.
    filtered_tokens = get_pruned_vocabulary(language)
    st.markdown(
        f"- {language.capitalize()} seems to only use **{len(filtered_tokens)/tokenizer.vocab_size*100:.0f}%** "+
        f"of the model vocabulary (i.e., {len(filtered_tokens)} out of the original {tokenizer.vocab_size} tokens)."
    )
    
    st.markdown("- *Updating the tokenizer...*")
    outdir = f"{language}-{model_name.split('/')[-1]}"

    # Export the tokenizer to a JSON string and access its vocabulary (list of lists: [[token, score], ...])
    tokenizer_json = json.loads(tokenizer.backend_tokenizer.to_str())
    original_vocab = tokenizer_json['model']['vocab']

    # Build a mapping from tokens to their original IDs
    original_token_to_id = {entry[0]: idx for idx, entry in enumerate(original_vocab)}

    # Filter out the tokens to remove and reassign new IDs
    new_id = 0
    new_token_to_id = {}
    new_id_to_original_id = {}
    filtered_vocab_entries = []

    for token, score in original_vocab:
        if token in filtered_tokens:
            filtered_vocab_entries.append([token, score])
            new_token_to_id[token] = new_id
            new_id_to_original_id[new_id] = original_token_to_id[token]
            new_id += 1

    # Update the vocab in the tokenizer JSON and rebuild the tokenizer from the modified JSON
    tokenizer_json['model']['vocab'] = filtered_vocab_entries
    new_backend_tokenizer = Tokenizer.from_str(json.dumps(tokenizer_json))

    # Create a new tokenizer instance and save it
    new_tokenizer = PreTrainedTokenizerFast(tokenizer_object=new_backend_tokenizer, **tokenizer.init_kwargs)
    new_tokenizer.save_pretrained(outdir)

    st.markdown("- *Updating the embedding matrix...*")
    new_model = AutoModel.from_pretrained(model_name, trust_remote_code=True)

    # Create a new embedding matrix and map the original vectors to their new IDs
    original_embeddings = new_model.get_input_embeddings().weight.data
    new_embeddings = torch.nn.Embedding(
        num_embeddings=new_tokenizer.vocab_size,
        embedding_dim=model.config.hidden_size,
        padding_idx=new_tokenizer.pad_token_id,
    )

    for new_id in range(new_tokenizer.vocab_size):
        original_id = new_id_to_original_id.get(new_id)
        new_embeddings.weight.data[new_id] = original_embeddings[original_id]

    new_model.set_input_embeddings(new_embeddings)
    new_model.config.vocab_size = new_tokenizer.vocab_size
    new_model.save_pretrained(outdir)

    # Test the conversion
    test_sentence = get_test_sentence(LANGUAGES[language]['nllb_code'])
    st.markdown(f"""- *Verifying everything worked as expected with the following test sentence: "{test_sentence}"*""")

    assert len(new_tokenizer) == len(filtered_tokens), f"ERROR: new tokenizer size ({len(new_tokenizer)}) != number of filtered tokens ({len(filtered_tokens)})"
    assert filtered_tokens == set(new_tokenizer.convert_ids_to_tokens(range(len(new_tokenizer)))), f"ERROR: The new tokenizer vocabulary doesn't match number of the filtered tokens"

    with torch.inference_mode():
        emb1 = model(**tokenizer(test_sentence, return_tensors='pt')).last_hidden_state[:, 0][0].numpy()
        emb2 = new_model(**new_tokenizer(test_sentence, return_tensors='pt')).last_hidden_state[:, 0][0].numpy()
    diff = np.abs(emb1 - emb2).max()
    assert diff < 1e-6, f"ERROR: Some dimensions of the two vectors have a non negligible difference ({diff})"

    st.success("The conversion **succeeded**! You can verify it by looking at the output *[cls]* token embedding:")
    col1, col2 = st.columns(2)
    with col1:
        st.markdown("Original model:")
        st.code(f"{emb1.tolist()}")
    with col2:
        st.markdown("Pruned model:")
        st.code(f"{emb2.tolist()}")
    
    # Show visually the result of the pruning process
    pruned_all_params = count_parameters(new_model)
    pruned_encoder_params = count_parameters(new_model, layer_name="encoder")
    pruned_embedding_params = count_parameters(new_model, layer_name="embeddings")
    st.markdown(f"The pruned model is **{pruned_all_params/all_params*100:.1f}%** of the original model size.")
    data = {
        'Model': ['Original', 'Pruned'],
        'Embedding': [embedding_params / 1e6, pruned_embedding_params / 1e6],
        'Encoder': [encoder_params / 1e6, pruned_encoder_params / 1e6]
    }
    fig = go.Figure(data=[
        go.Bar(name='Embedding matrix', x=data['Model'], y=data['Embedding'], text=data['Embedding'], textposition='inside', marker_color='#E5B4B4'),
        go.Bar(name='Transformer encoder', x=data['Model'], y=data['Encoder'], text=data['Encoder'], textposition='inside', marker_color='#7FBFE0')
    ])
    fig.update_layout(barmode='stack', yaxis_title='# Params (M)', height=400, margin=dict(t=10, b=10))
    fig.update_traces(texttemplate='%{text:.1f}M', textposition='inside', insidetextanchor='middle')
    st.plotly_chart(fig)
    
    # Add a README to the pruned model repo
    new_model_name = f"{username}/{outdir.split('/')[-1]}"
    readme_content = textwrap.dedent(f"""
    ---
    pipeline_tag: sentence-similarity
    language: {LANGUAGES[language]['hf_code']}
    license: mit
    tags:
    - passage-retrieval
    - sentence-similarity
    - pruned
    library_name: sentence-transformers
    base_model: {model_name}
    base_model_relation: pruned
    ---
    # {new_model_name.split('/')[-1]}

    This model is a pruned version of [{model_name}](https://huggingface.co/{model_name}) for the {language.capitalize()} language.

    It was created by the [Multilingual Text Embedding Model Pruner](https://huggingface.co/spaces/antoinelouis/mteb-pruner) space, 
    which removed tokens not commonly used in {language.capitalize()} from the original multilingual model's vocabulary and adjsuted
    the model's embedding matrix accordingly.

    This pruned model should perform similarly to the original model for {language.capitalize()} language tasks, but with a much smaller 
    memory footprint ({100 - pruned_all_params/all_params*100:.1f}% smaller). However, it may not perform well for other languages present 
    in the original multilingual model.

    ## Usage

    You can use this model with the Transformers library:

    ```python
    from transformers import AutoModel, AutoTokenizer

    model_name = "{new_model_name}"
    model = AutoModel.from_pretrained(model_name, trust_remote_code=True)
    tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True, use_fast=True)
    ```
    """)
    with open(os.path.join(outdir, "README.md"), "w") as f:
        f.write(readme_content)

    st.markdown("- *Pushing the pruned model to your Hugging Face account...*")
    push_to_hub(username, token, outdir)
    shutil.rmtree(outdir)

    st.markdown("Done! You can now load your pruned model like this:")
    st.code(f"""
    from transformers import AutoModel, AutoTokenizer
    
    model_name = "{new_model_name}"
    model = AutoModel.from_pretrained(model_name, trust_remote_code=True)
    tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True, use_fast=True)
    """, language="python")
    

def main():
    st.header("Multilingual Text Embedding Model Pruner")    
    st.markdown("""
    This space helps you create a smaller, language-specific version of a multilingual text embedding model. Here's what it does:

    1. 🌎 Takes a popular text embedding model that was trained on many languages
    2. ✂️ Trims it down to focus on just one language by removing unused tokens from its vocabulary
     3. 🚀 Gives you a smaller model that works just as well for your chosen language

    #### Why is this useful?

    - 💾 Get the same performance in your language with a much smaller model size
    - 🌐 Great for low-resource environments with limited RAM

    Ready to shrink your model? Let's get started!
    """)
    
    model_name = st.selectbox("Choose a multilingual model", MODELS)
    language = st.selectbox(
        "Pick your target language",
        options=list(LANGUAGES.keys()),
        format_func=lambda x: f"{LANGUAGES[x]['emoji']} {x.capitalize()}"
    )
    username = st.text_input("Your Hugging Face username", placeholder="antoinelouis")
    token = st.text_input("Your Hugging Face access token", type="password", placeholder="hf_xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx")
    
    if st.button("Prune Model"):
        if not username or not token:
            st.error("Your HF username and access token is required to save the pruned model on your account.")
        else:
            prune_model(model_name, language, username, token)

    st.markdown(
        """
        <style>
        .credits {
            position: fixed;
            right: 10px;
            bottom: 10px;
            color: #888888;
            font-size: 11px;
        }
        </style>
        <div class="credits">
            Credits to <a href="https://gist.github.com/avidale/44cd35bfcdaf8bedf51d97c468cc8001" target="_blank">@avidale</a> for inspiration.
        </div>
        """,
        unsafe_allow_html=True
    )

if __name__ == "__main__":
    main()