Hugging Face's logo

Spaces:
datasets-topics
/
topics-generator
Sleeping

App Files Community
1
topics-generator / app.py
asoria's picture
asoria HF staff
Change parameters by dataset size
b5bf2c0
raw
history blame
15.1 kB
import requests
import logging
import duckdb
import numpy as np
from torch import cuda
from gradio_huggingfacehub_search import HuggingfaceHubSearch
from bertopic import BERTopic
from bertopic.representation import KeyBERTInspired
from umap import UMAP
from hdbscan import HDBSCAN
from sklearn.feature_extraction.text import CountVectorizer
from sentence_transformers import SentenceTransformer
from dotenv import load_dotenv
import os
# import spaces
import gradio as gr
"""
TODOs:
- Try for small dataset <1000 rows
"""
load_dotenv()
HF_TOKEN = os.getenv("HF_TOKEN")
assert HF_TOKEN is not None, "You need to set HF_TOKEN in your environment variables"
logging.basicConfig(
level=logging.INFO, format="%(asctime)s - %(name)s - %(levelname)s - %(message)s"
)
MAX_ROWS = 5_000
CHUNK_SIZE = 1_000
session = requests.Session()
sentence_model = SentenceTransformer("all-MiniLM-L6-v2")
keybert = KeyBERTInspired()
vectorizer_model = CountVectorizer(stop_words="english")
representation_model = KeyBERTInspired()
global_topic_model = None
def get_split_rows(dataset, config, split):
config_size = session.get(
f"https://datasets-server.huggingface.co/size?dataset={dataset}&config={config}",
timeout=20,
).json()
if "error" in config_size:
raise Exception(f"Error fetching config size: {config_size['error']}")
split_size = next(
(s for s in config_size["size"]["splits"] if s["split"] == split),
None,
)
if split_size is None:
raise Exception(f"Error fetching split {split} in config {config}")
return split_size["num_rows"]
def get_parquet_urls(dataset, config, split):
parquet_files = session.get(
f"https://datasets-server.huggingface.co/parquet?dataset={dataset}&config={config}&split={split}",
timeout=20,
).json()
if "error" in parquet_files:
raise Exception(f"Error fetching parquet files: {parquet_files['error']}")
parquet_urls = [file["url"] for file in parquet_files["parquet_files"]]
logging.debug(f"Parquet files: {parquet_urls}")
return ",".join(f"'{url}'" for url in parquet_urls)
def get_docs_from_parquet(parquet_urls, column, offset, limit):
SQL_QUERY = f"SELECT {column} FROM read_parquet([{parquet_urls}]) LIMIT {limit} OFFSET {offset};"
df = duckdb.sql(SQL_QUERY).to_df()
logging.debug(f"Dataframe: {df.head(5)}")
return df[column].tolist()
# @spaces.GPU
def calculate_embeddings(docs):
return sentence_model.encode(docs, show_progress_bar=True, batch_size=32)
# Adjust n_neighbors and n_components based on dataset size
def calculate_n_neighbors_and_components(n_rows):
# Ensure n_neighbors is proportional to the dataset size, with reasonable limits
n_neighbors = min(max(n_rows // 20, 15), 100)
n_components = 10 if n_rows > 1000 else 5 # Higher components for larger datasets
return n_neighbors, n_components
# @spaces.GPU
def fit_model(docs, embeddings, n_neighbors, n_components):
global global_topic_model
umap_model = UMAP(
n_neighbors=n_neighbors,
n_components=n_components,
min_dist=0.0,
metric="cosine",
random_state=42,
)
hdbscan_model = HDBSCAN(
min_cluster_size=max(
5, n_neighbors // 2
), # Reducing min_cluster_size for fewer outliers
metric="euclidean",
cluster_selection_method="eom",
prediction_data=True,
)
new_model = BERTopic(
language="english",
# Sub-models
embedding_model=sentence_model,
umap_model=umap_model,
hdbscan_model=hdbscan_model,
representation_model=representation_model,
vectorizer_model=vectorizer_model,
# Hyperparameters
top_n_words=10,
verbose=True,
min_topic_size=n_neighbors, # Coherent with n_neighbors?
)
logging.info("Fitting new model")
new_model.fit(docs, embeddings)
logging.info("End fitting new model")
global_topic_model = new_model
logging.info("Global model updated")
def generate_topics(dataset, config, split, column, nested_column):
logging.info(
f"Generating topics for {dataset} with config {config} {split} {column} {nested_column}"
)
parquet_urls = get_parquet_urls(dataset, config, split)
split_rows = get_split_rows(dataset, config, split)
logging.info(f"Split rows: {split_rows}")
limit = min(split_rows, MAX_ROWS)
n_neighbors, n_components = calculate_n_neighbors_and_components(limit)
reduce_umap_model = UMAP(
n_neighbors=n_neighbors,
n_components=2, # For visualization, keeping it at 2 (2D)
min_dist=0.0,
metric="cosine",
random_state=42,
)
offset = 0
rows_processed = 0
base_model = None
all_docs = []
reduced_embeddings_list = []
topics_info, topic_plot = None, None
yield (
gr.DataFrame(value=[], interactive=False, visible=True),
gr.Plot(value=None, visible=True),
gr.Label(
{f"⚙️ Generating topics {dataset}": rows_processed / limit}, visible=True
),
)
while offset < limit:
docs = get_docs_from_parquet(parquet_urls, column, offset, CHUNK_SIZE)
if not docs:
break
logging.info(
f"----> Processing chunk: {offset=} {CHUNK_SIZE=} with {len(docs)} docs"
)
embeddings = calculate_embeddings(docs)
fit_model(docs, embeddings, n_neighbors, n_components)
if base_model is None:
base_model = global_topic_model
else:
updated_model = BERTopic.merge_models([base_model, global_topic_model])
nr_new_topics = len(set(updated_model.topics_)) - len(
set(base_model.topics_)
)
new_topics = list(updated_model.topic_labels_.values())[-nr_new_topics:]
logging.info(f"The following topics are newly found: {new_topics}")
base_model = updated_model
reduced_embeddings = reduce_umap_model.fit_transform(embeddings)
reduced_embeddings_list.append(reduced_embeddings)
all_docs.extend(docs)
topics_info = base_model.get_topic_info()
topic_plot = base_model.visualize_documents(
all_docs,
reduced_embeddings=np.vstack(reduced_embeddings_list),
custom_labels=True,
)
rows_processed += len(docs)
progress = min(rows_processed / limit, 1.0)
logging.info(f"Progress: {progress} % - {rows_processed} of {limit}")
yield (
topics_info,
topic_plot,
gr.Label({f"⚙️ Generating topics {dataset}": progress}, visible=True),
)
offset += CHUNK_SIZE
logging.info("Finished processing all data")
yield (
topics_info,
topic_plot,
gr.Label({f"✅ Generating topics {dataset}": 1.0}, visible=True),
)
cuda.empty_cache()
with gr.Blocks() as demo:
gr.Markdown("# 💠 Dataset Topic Discovery 🔭")
gr.Markdown("## Select dataset and text column")
with gr.Accordion("Data details", open=True):
with gr.Row():
with gr.Column(scale=3):
dataset_name = HuggingfaceHubSearch(
label="Hub Dataset ID",
placeholder="Search for dataset id on Huggingface",
search_type="dataset",
)
subset_dropdown = gr.Dropdown(label="Subset", visible=False)
split_dropdown = gr.Dropdown(label="Split", visible=False)
with gr.Accordion("Dataset preview", open=False):
@gr.render(inputs=[dataset_name, subset_dropdown, split_dropdown])
def embed(name, subset, split):
html_code = f"""
<iframe
src="https://huggingface.co/datasets/{name}/embed/viewer/{subset}/{split}"
frameborder="0"
width="100%"
height="600px"
></iframe>
"""
return gr.HTML(value=html_code)
with gr.Row():
text_column_dropdown = gr.Dropdown(label="Text column name")
nested_text_column_dropdown = gr.Dropdown(
label="Nested text column name", visible=False
)
generate_button = gr.Button("Generate Topics", variant="primary")
gr.Markdown("## Datamap")
full_topics_generation_label = gr.Label(visible=False, show_label=False)
topics_plot = gr.Plot()
with gr.Accordion("Topics Info", open=False):
topics_df = gr.DataFrame(interactive=False, visible=True)
generate_button.click(
generate_topics,
inputs=[
dataset_name,
subset_dropdown,
split_dropdown,
text_column_dropdown,
nested_text_column_dropdown,
],
outputs=[topics_df, topics_plot, full_topics_generation_label],
)
def _resolve_dataset_selection(
dataset: str, default_subset: str, default_split: str, text_feature
):
if "/" not in dataset.strip().strip("/"):
return {
subset_dropdown: gr.Dropdown(visible=False),
split_dropdown: gr.Dropdown(visible=False),
text_column_dropdown: gr.Dropdown(label="Text column name"),
nested_text_column_dropdown: gr.Dropdown(visible=False),
}
info_resp = session.get(
f"https://datasets-server.huggingface.co/info?dataset={dataset}", timeout=20
).json()
if "error" in info_resp:
return {
subset_dropdown: gr.Dropdown(visible=False),
split_dropdown: gr.Dropdown(visible=False),
text_column_dropdown: gr.Dropdown(label="Text column name"),
nested_text_column_dropdown: gr.Dropdown(visible=False),
}
subsets: list[str] = list(info_resp["dataset_info"])
subset = default_subset if default_subset in subsets else subsets[0]
splits: list[str] = list(info_resp["dataset_info"][subset]["splits"])
split = default_split if default_split in splits else splits[0]
features = info_resp["dataset_info"][subset]["features"]
def _is_string_feature(feature):
return isinstance(feature, dict) and feature.get("dtype") == "string"
text_features = [
feature_name
for feature_name, feature in features.items()
if _is_string_feature(feature)
]
nested_features = [
feature_name
for feature_name, feature in features.items()
if isinstance(feature, dict)
and isinstance(next(iter(feature.values())), dict)
]
nested_text_features = [
feature_name
for feature_name in nested_features
if any(
_is_string_feature(nested_feature)
for nested_feature in features[feature_name].values()
)
]
if not text_feature:
return {
subset_dropdown: gr.Dropdown(
value=subset, choices=subsets, visible=len(subsets) > 1
),
split_dropdown: gr.Dropdown(
value=split, choices=splits, visible=len(splits) > 1
),
text_column_dropdown: gr.Dropdown(
choices=text_features + nested_text_features,
label="Text column name",
),
nested_text_column_dropdown: gr.Dropdown(visible=False),
}
if text_feature in nested_text_features:
nested_keys = [
feature_name
for feature_name, feature in features[text_feature].items()
if _is_string_feature(feature)
]
return {
subset_dropdown: gr.Dropdown(
value=subset, choices=subsets, visible=len(subsets) > 1
),
split_dropdown: gr.Dropdown(
value=split, choices=splits, visible=len(splits) > 1
),
text_column_dropdown: gr.Dropdown(
choices=text_features + nested_text_features,
label="Text column name",
),
nested_text_column_dropdown: gr.Dropdown(
value=nested_keys[0],
choices=nested_keys,
label="Nested text column name",
visible=True,
),
}
return {
subset_dropdown: gr.Dropdown(
value=subset, choices=subsets, visible=len(subsets) > 1
),
split_dropdown: gr.Dropdown(
value=split, choices=splits, visible=len(splits) > 1
),
text_column_dropdown: gr.Dropdown(
choices=text_features + nested_text_features, label="Text column name"
),
nested_text_column_dropdown: gr.Dropdown(visible=False),
}
@dataset_name.change(
inputs=[dataset_name],
outputs=[
subset_dropdown,
split_dropdown,
text_column_dropdown,
nested_text_column_dropdown,
],
)
def show_input_from_subset_dropdown(dataset: str) -> dict:
return _resolve_dataset_selection(
dataset, default_subset="default", default_split="train", text_feature=None
)
@subset_dropdown.change(
inputs=[dataset_name, subset_dropdown],
outputs=[
subset_dropdown,
split_dropdown,
text_column_dropdown,
nested_text_column_dropdown,
],
)
def show_input_from_subset_dropdown(dataset: str, subset: str) -> dict:
return _resolve_dataset_selection(
dataset, default_subset=subset, default_split="train", text_feature=None
)
@split_dropdown.change(
inputs=[dataset_name, subset_dropdown, split_dropdown],
outputs=[
subset_dropdown,
split_dropdown,
text_column_dropdown,
nested_text_column_dropdown,
],
)
def show_input_from_split_dropdown(dataset: str, subset: str, split: str) -> dict:
return _resolve_dataset_selection(
dataset, default_subset=subset, default_split=split, text_feature=None
)
@text_column_dropdown.change(
inputs=[dataset_name, subset_dropdown, split_dropdown, text_column_dropdown],
outputs=[
subset_dropdown,
split_dropdown,
text_column_dropdown,
nested_text_column_dropdown,
],
)
def show_input_from_text_column_dropdown(
dataset: str, subset: str, split: str, text_column
) -> dict:
return _resolve_dataset_selection(
dataset,
default_subset=subset,
default_split=split,
text_feature=text_column,
)
demo.launch()