TopicModelingRepo / BERTopic /bertopic /_save_utils.py
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import os
import sys
import json
import numpy as np
from pathlib import Path
from tempfile import TemporaryDirectory
# HuggingFace Hub
try:
from huggingface_hub import (
create_repo, get_hf_file_metadata,
hf_hub_download, hf_hub_url,
repo_type_and_id_from_hf_id, upload_folder)
_has_hf_hub = True
except ImportError:
_has_hf_hub = False
# Typing
if sys.version_info >= (3, 8):
from typing import Literal
else:
from typing_extensions import Literal
from typing import Union, Mapping, Any
# Pytorch check
try:
import torch
_has_torch = True
except ImportError:
_has_torch = False
# Image check
try:
from PIL import Image
_has_vision = True
except:
_has_vision = False
TOPICS_NAME = "topics.json"
CONFIG_NAME = "config.json"
HF_WEIGHTS_NAME = "topic_embeddings.bin" # default pytorch pkl
HF_SAFE_WEIGHTS_NAME = "topic_embeddings.safetensors" # safetensors version
CTFIDF_WEIGHTS_NAME = "ctfidf.bin" # default pytorch pkl
CTFIDF_SAFE_WEIGHTS_NAME = "ctfidf.safetensors" # safetensors version
CTFIDF_CFG_NAME = "ctfidf_config.json"
MODEL_CARD_TEMPLATE = """
---
tags:
- bertopic
library_name: bertopic
pipeline_tag: {PIPELINE_TAG}
---
# {MODEL_NAME}
This is a [BERTopic](https://github.com/MaartenGr/BERTopic) model.
BERTopic is a flexible and modular topic modeling framework that allows for the generation of easily interpretable topics from large datasets.
## Usage
To use this model, please install BERTopic:
```
pip install -U bertopic
```
You can use the model as follows:
```python
from bertopic import BERTopic
topic_model = BERTopic.load("{PATH}")
topic_model.get_topic_info()
```
## Topic overview
* Number of topics: {NR_TOPICS}
* Number of training documents: {NR_DOCUMENTS}
<details>
<summary>Click here for an overview of all topics.</summary>
{TOPICS}
</details>
## Training hyperparameters
{HYPERPARAMS}
## Framework versions
{FRAMEWORKS}
"""
def push_to_hf_hub(
model,
repo_id: str,
commit_message: str = 'Add BERTopic model',
token: str = None,
revision: str = None,
private: bool = False,
create_pr: bool = False,
model_card: bool = True,
serialization: str = "safetensors",
save_embedding_model: Union[str, bool] = True,
save_ctfidf: bool = False,
):
""" Push your BERTopic model to a HuggingFace Hub
Arguments:
repo_id: The name of your HuggingFace repository
commit_message: A commit message
token: Token to add if not already logged in
revision: Repository revision
private: Whether to create a private repository
create_pr: Whether to upload the model as a Pull Request
model_card: Whether to automatically create a modelcard
serialization: The type of serialization.
Either `safetensors` or `pytorch`
save_embedding_model: A pointer towards a HuggingFace model to be loaded in with
SentenceTransformers. E.g.,
`sentence-transformers/all-MiniLM-L6-v2`
save_ctfidf: Whether to save c-TF-IDF information
"""
if not _has_hf_hub:
raise ValueError("Make sure you have the huggingface hub installed via `pip install --upgrade huggingface_hub`")
# Create repo if it doesn't exist yet and infer complete repo_id
repo_url = create_repo(repo_id, token=token, private=private, exist_ok=True)
_, repo_owner, repo_name = repo_type_and_id_from_hf_id(repo_url)
repo_id = f"{repo_owner}/{repo_name}"
# Temporarily save model and push to HF
with TemporaryDirectory() as tmpdir:
# Save model weights and config.
model.save(tmpdir, serialization=serialization, save_embedding_model=save_embedding_model, save_ctfidf=save_ctfidf)
# Add README if it does not exist
try:
get_hf_file_metadata(hf_hub_url(repo_id=repo_id, filename="README.md", revision=revision))
except:
if model_card:
readme_text = generate_readme(model, repo_id)
readme_path = Path(tmpdir) / "README.md"
readme_path.write_text(readme_text, encoding='utf8')
# Upload model
return upload_folder(repo_id=repo_id, folder_path=tmpdir, revision=revision,
create_pr=create_pr, commit_message=commit_message)
def load_local_files(path):
""" Load local BERTopic files """
# Load json configs
topics = load_cfg_from_json(path / TOPICS_NAME)
params = load_cfg_from_json(path / CONFIG_NAME)
# Load Topic Embeddings
safetensor_path = path / HF_SAFE_WEIGHTS_NAME
if safetensor_path.is_file():
tensors = load_safetensors(safetensor_path)
else:
torch_path = path / HF_WEIGHTS_NAME
if torch_path.is_file():
tensors = torch.load(torch_path, map_location="cpu")
# c-TF-IDF
try:
ctfidf_tensors = None
safetensor_path = path / CTFIDF_SAFE_WEIGHTS_NAME
if safetensor_path.is_file():
ctfidf_tensors = load_safetensors(safetensor_path)
else:
torch_path = path / CTFIDF_WEIGHTS_NAME
if torch_path.is_file():
ctfidf_tensors = torch.load(torch_path, map_location="cpu")
ctfidf_config = load_cfg_from_json(path / CTFIDF_CFG_NAME)
except:
ctfidf_config, ctfidf_tensors = None, None
# Load images
images = None
if _has_vision:
try:
Image.open(path / "images/0.jpg")
_has_images = True
except:
_has_images = False
if _has_images:
topic_list = list(topics["topic_representations"].keys())
images = {}
for topic in topic_list:
image = Image.open(path / f"images/{topic}.jpg")
images[int(topic)] = image
return topics, params, tensors, ctfidf_tensors, ctfidf_config, images
def load_files_from_hf(path):
""" Load files from HuggingFace. """
path = str(path)
# Configs
topics = load_cfg_from_json(hf_hub_download(path, TOPICS_NAME, revision=None))
params = load_cfg_from_json(hf_hub_download(path, CONFIG_NAME, revision=None))
# Topic Embeddings
try:
tensors = hf_hub_download(path, HF_SAFE_WEIGHTS_NAME, revision=None)
tensors = load_safetensors(tensors)
except:
tensors = hf_hub_download(path, HF_WEIGHTS_NAME, revision=None)
tensors = torch.load(tensors, map_location="cpu")
# c-TF-IDF
try:
ctfidf_config = load_cfg_from_json(hf_hub_download(path, CTFIDF_CFG_NAME, revision=None))
try:
ctfidf_tensors = hf_hub_download(path, CTFIDF_SAFE_WEIGHTS_NAME, revision=None)
ctfidf_tensors = load_safetensors(ctfidf_tensors)
except:
ctfidf_tensors = hf_hub_download(path, CTFIDF_WEIGHTS_NAME, revision=None)
ctfidf_tensors = torch.load(ctfidf_tensors, map_location="cpu")
except:
ctfidf_config, ctfidf_tensors = None, None
# Load images if they exist
images = None
if _has_vision:
try:
hf_hub_download(path, "images/0.jpg", revision=None)
_has_images = True
except:
_has_images = False
if _has_images:
topic_list = list(topics["topic_representations"].keys())
images = {}
for topic in topic_list:
image = Image.open(hf_hub_download(path, f"images/{topic}.jpg", revision=None))
images[int(topic)] = image
return topics, params, tensors, ctfidf_tensors, ctfidf_config, images
def generate_readme(model, repo_id: str):
""" Generate README for HuggingFace model card """
model_card = MODEL_CARD_TEMPLATE
topic_table_head = "| Topic ID | Topic Keywords | Topic Frequency | Label | \n|----------|----------------|-----------------|-------| \n"
# Get Statistics
model_name = repo_id.split("/")[-1]
params = {param: value for param, value in model.get_params().items() if "model" not in param}
params = "\n".join([f"* {param}: {value}" for param, value in params.items()])
topics = sorted(list(set(model.topics_)))
nr_topics = str(len(set(model.topics_)))
if model.topic_sizes_ is not None:
nr_documents = str(sum(model.topic_sizes_.values()))
else:
nr_documents = ""
# Topic information
topic_keywords = [" - ".join(list(zip(*model.get_topic(topic)))[0][:5]) for topic in topics]
topic_freq = [model.get_topic_freq(topic) for topic in topics]
topic_labels = model.custom_labels_ if model.custom_labels_ else [model.topic_labels_[topic] for topic in topics]
topics = [f"| {topic} | {topic_keywords[index]} | {topic_freq[topic]} | {topic_labels[index]} | \n" for index, topic in enumerate(topics)]
topics = topic_table_head + "".join(topics)
frameworks = "\n".join([f"* {param}: {value}" for param, value in get_package_versions().items()])
# Fill Statistics into model card
model_card = model_card.replace("{MODEL_NAME}", model_name)
model_card = model_card.replace("{PATH}", repo_id)
model_card = model_card.replace("{NR_TOPICS}", nr_topics)
model_card = model_card.replace("{TOPICS}", topics.strip())
model_card = model_card.replace("{NR_DOCUMENTS}", nr_documents)
model_card = model_card.replace("{HYPERPARAMS}", params)
model_card = model_card.replace("{FRAMEWORKS}", frameworks)
# Fill Pipeline tag
has_visual_aspect = check_has_visual_aspect(model)
if not has_visual_aspect:
model_card = model_card.replace("{PIPELINE_TAG}", "text-classification")
else:
model_card = model_card.replace("pipeline_tag: {PIPELINE_TAG}\n","") # TODO add proper tag for this instance
return model_card
def save_hf(model, save_directory, serialization: str):
""" Save topic embeddings, either safely (using safetensors) or using legacy pytorch """
tensors = torch.from_numpy(np.array(model.topic_embeddings_, dtype=np.float32))
tensors = {"topic_embeddings": tensors}
if serialization == "safetensors":
save_safetensors(save_directory / HF_SAFE_WEIGHTS_NAME, tensors)
if serialization == "pytorch":
assert _has_torch, "`pip install pytorch` to save as bin"
torch.save(tensors, save_directory / HF_WEIGHTS_NAME)
def save_ctfidf(model,
save_directory: str,
serialization: str):
""" Save c-TF-IDF sparse matrix """
indptr = torch.from_numpy(model.c_tf_idf_.indptr)
indices = torch.from_numpy(model.c_tf_idf_.indices)
data = torch.from_numpy(model.c_tf_idf_.data)
shape = torch.from_numpy(np.array(model.c_tf_idf_.shape))
diag = torch.from_numpy(np.array(model.ctfidf_model._idf_diag.data))
tensors = {
"indptr": indptr,
"indices": indices,
"data": data,
"shape": shape,
"diag": diag
}
if serialization == "safetensors":
save_safetensors(save_directory / CTFIDF_SAFE_WEIGHTS_NAME, tensors)
if serialization == "pytorch":
assert _has_torch, "`pip install pytorch` to save as .bin"
torch.save(tensors, save_directory / CTFIDF_WEIGHTS_NAME)
def save_ctfidf_config(model, path):
""" Save parameters to recreate CountVectorizer and c-TF-IDF """
config = {}
# Recreate ClassTfidfTransformer
config["ctfidf_model"] = {
"bm25_weighting": model.ctfidf_model.bm25_weighting,
"reduce_frequent_words": model.ctfidf_model.reduce_frequent_words
}
# Recreate CountVectorizer
cv_params = model.vectorizer_model.get_params()
del cv_params["tokenizer"], cv_params["preprocessor"], cv_params["dtype"]
if not isinstance(cv_params["analyzer"], str):
del cv_params["analyzer"]
config["vectorizer_model"] = {
"params": cv_params,
"vocab": model.vectorizer_model.vocabulary_
}
with path.open('w') as f:
json.dump(config, f, indent=2)
def save_config(model, path: str, embedding_model):
""" Save BERTopic configuration """
path = Path(path)
params = model.get_params()
config = {param: value for param, value in params.items() if "model" not in param}
# Embedding model tag to be used in sentence-transformers
if isinstance(embedding_model, str):
config["embedding_model"] = embedding_model
with path.open('w') as f:
json.dump(config, f, indent=2)
return config
def check_has_visual_aspect(model):
"""Check if model has visual aspect"""
if _has_vision:
for aspect, value in model.topic_aspects_.items():
if isinstance(value[0], Image.Image):
visual_aspects = model.topic_aspects_[aspect]
return True
def save_images(model, path: str):
""" Save topic images """
if _has_vision:
visual_aspects = None
for aspect, value in model.topic_aspects_.items():
if isinstance(value[0], Image.Image):
visual_aspects = model.topic_aspects_[aspect]
break
if visual_aspects is not None:
path.mkdir(exist_ok=True, parents=True)
for topic, image in visual_aspects.items():
image.save(path / f"{topic}.jpg")
def save_topics(model, path: str):
""" Save Topic-specific information """
path = Path(path)
if _has_vision:
selected_topic_aspects = {}
for aspect, value in model.topic_aspects_.items():
if not isinstance(value[0], Image.Image):
selected_topic_aspects[aspect] = value
else:
selected_topic_aspects["Visual_Aspect"] = True
else:
selected_topic_aspects = model.topic_aspects_
topics = {
"topic_representations": model.topic_representations_,
"topics": [int(topic) for topic in model.topics_],
"topic_sizes": model.topic_sizes_,
"topic_mapper": np.array(model.topic_mapper_.mappings_, dtype=int).tolist(),
"topic_labels": model.topic_labels_,
"custom_labels": model.custom_labels_,
"_outliers": int(model._outliers),
"topic_aspects": selected_topic_aspects
}
with path.open('w') as f:
json.dump(topics, f, indent=2, cls=NumpyEncoder)
def load_cfg_from_json(json_file: Union[str, os.PathLike]):
""" Load configuration from json """
with open(json_file, "r", encoding="utf-8") as reader:
text = reader.read()
return json.loads(text)
class NumpyEncoder(json.JSONEncoder):
def default(self, obj):
if isinstance(obj, np.integer):
return int(obj)
if isinstance(obj, np.floating):
return float(obj)
return super(NumpyEncoder, self).default(obj)
def get_package_versions():
""" Get versions of main dependencies of BERTopic """
try:
import platform
from numpy import __version__ as np_version
try:
from importlib.metadata import version
hdbscan_version = version('hdbscan')
except:
hdbscan_version = None
from umap import __version__ as umap_version
from pandas import __version__ as pandas_version
from sklearn import __version__ as sklearn_version
from sentence_transformers import __version__ as sbert_version
from numba import __version__ as numba_version
from transformers import __version__ as transformers_version
from plotly import __version__ as plotly_version
return {"Numpy": np_version, "HDBSCAN": hdbscan_version, "UMAP": umap_version,
"Pandas": pandas_version, "Scikit-Learn": sklearn_version,
"Sentence-transformers": sbert_version, "Transformers": transformers_version,
"Numba": numba_version, "Plotly": plotly_version, "Python": platform.python_version()}
except Exception as e:
return e
def load_safetensors(path):
""" Load safetensors and check whether it is installed """
try:
import safetensors.torch
import safetensors
return safetensors.torch.load_file(path, device="cpu")
except ImportError:
raise ValueError("`pip install safetensors` to load .safetensors")
def save_safetensors(path, tensors):
""" Save safetensors and check whether it is installed """
try:
import safetensors.torch
import safetensors
safetensors.torch.save_file(tensors, path)
except ImportError:
raise ValueError("`pip install safetensors` to save as .safetensors")