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	import numpy as np
	import pandas as pd
	import plotly.graph_objects as go

	from umap import UMAP
	from typing import List, Union


	def visualize_documents(topic_model,
	docs: List[str],
	topics: List[int] = None,
	embeddings: np.ndarray = None,
	reduced_embeddings: np.ndarray = None,
	sample: float = None,
	hide_annotations: bool = False,
	hide_document_hover: bool = False,
	custom_labels: Union[bool, str] = False,
	title: str = "<b>Documents and Topics</b>",
	width: int = 1200,
	height: int = 750):
	""" Visualize documents and their topics in 2D

	Arguments:
	topic_model: A fitted BERTopic instance.
	docs: The documents you used when calling either `fit` or `fit_transform`
	topics: A selection of topics to visualize.
	Not to be confused with the topics that you get from `.fit_transform`.
	For example, if you want to visualize only topics 1 through 5:
	`topics = [1, 2, 3, 4, 5]`.
	embeddings: The embeddings of all documents in `docs`.
	reduced_embeddings: The 2D reduced embeddings of all documents in `docs`.
	sample: The percentage of documents in each topic that you would like to keep.
	Value can be between 0 and 1. Setting this value to, for example,
	0.1 (10% of documents in each topic) makes it easier to visualize
	millions of documents as a subset is chosen.
	hide_annotations: Hide the names of the traces on top of each cluster.
	hide_document_hover: Hide the content of the documents when hovering over
	specific points. Helps to speed up generation of visualization.
	custom_labels: If bool, whether to use custom topic labels that were defined using
	`topic_model.set_topic_labels`.
	If `str`, it uses labels from other aspects, e.g., "Aspect1".
	title: Title of the plot.
	width: The width of the figure.
	height: The height of the figure.

	Examples:

	To visualize the topics simply run:

	```python
	topic_model.visualize_documents(docs)
	```

	Do note that this re-calculates the embeddings and reduces them to 2D.
	The advised and preferred pipeline for using this function is as follows:

	```python
	from sklearn.datasets import fetch_20newsgroups
	from sentence_transformers import SentenceTransformer
	from bertopic import BERTopic
	from umap import UMAP

	# Prepare embeddings
	docs = fetch_20newsgroups(subset='all', remove=('headers', 'footers', 'quotes'))['data']
	sentence_model = SentenceTransformer("all-MiniLM-L6-v2")
	embeddings = sentence_model.encode(docs, show_progress_bar=False)

	# Train BERTopic
	topic_model = BERTopic().fit(docs, embeddings)

	# Reduce dimensionality of embeddings, this step is optional
	# reduced_embeddings = UMAP(n_neighbors=10, n_components=2, min_dist=0.0, metric='cosine').fit_transform(embeddings)

	# Run the visualization with the original embeddings
	topic_model.visualize_documents(docs, embeddings=embeddings)

	# Or, if you have reduced the original embeddings already:
	topic_model.visualize_documents(docs, reduced_embeddings=reduced_embeddings)
	```

	Or if you want to save the resulting figure:

	```python
	fig = topic_model.visualize_documents(docs, reduced_embeddings=reduced_embeddings)
	fig.write_html("path/to/file.html")
	```

	<iframe src="../../getting_started/visualization/documents.html"
	style="width:1000px; height: 800px; border: 0px;""></iframe>
	"""
	topic_per_doc = topic_model.topics_

	# Sample the data to optimize for visualization and dimensionality reduction
	if sample is None or sample > 1:
	sample = 1

	indices = []
	for topic in set(topic_per_doc):
	s = np.where(np.array(topic_per_doc) == topic)[0]
	size = len(s) if len(s) < 100 else int(len(s) * sample)
	indices.extend(np.random.choice(s, size=size, replace=False))
	indices = np.array(indices)

	df = pd.DataFrame({"topic": np.array(topic_per_doc)[indices]})
	df["doc"] = [docs[index] for index in indices]
	df["topic"] = [topic_per_doc[index] for index in indices]

	# Extract embeddings if not already done
	if sample is None:
	if embeddings is None and reduced_embeddings is None:
	embeddings_to_reduce = topic_model._extract_embeddings(df.doc.to_list(), method="document")
	else:
	embeddings_to_reduce = embeddings
	else:
	if embeddings is not None:
	embeddings_to_reduce = embeddings[indices]
	elif embeddings is None and reduced_embeddings is None:
	embeddings_to_reduce = topic_model._extract_embeddings(df.doc.to_list(), method="document")

	# Reduce input embeddings
	if reduced_embeddings is None:
	umap_model = UMAP(n_neighbors=10, n_components=2, min_dist=0.0, metric='cosine').fit(embeddings_to_reduce)
	embeddings_2d = umap_model.embedding_
	elif sample is not None and reduced_embeddings is not None:
	embeddings_2d = reduced_embeddings[indices]
	elif sample is None and reduced_embeddings is not None:
	embeddings_2d = reduced_embeddings

	unique_topics = set(topic_per_doc)
	if topics is None:
	topics = unique_topics

	# Combine data
	df["x"] = embeddings_2d[:, 0]
	df["y"] = embeddings_2d[:, 1]

	# Prepare text and names
	if isinstance(custom_labels, str):
	names = [[[str(topic), None]] + topic_model.topic_aspects_[custom_labels][topic] for topic in unique_topics]
	names = ["_".join([label[0] for label in labels[:4]]) for labels in names]
	names = [label if len(label) < 30 else label[:27] + "..." for label in names]
	elif topic_model.custom_labels_ is not None and custom_labels:
	names = [topic_model.custom_labels_[topic + topic_model._outliers] for topic in unique_topics]
	else:
	names = [f"{topic}_" + "_".join([word for word, value in topic_model.get_topic(topic)][:3]) for topic in unique_topics]

	# Visualize
	fig = go.Figure()

	# Outliers and non-selected topics
	non_selected_topics = set(unique_topics).difference(topics)
	if len(non_selected_topics) == 0:
	non_selected_topics = [-1]

	selection = df.loc[df.topic.isin(non_selected_topics), :]
	selection["text"] = ""
	selection.loc[len(selection), :] = [None, None, selection.x.mean(), selection.y.mean(), "Other documents"]

	fig.add_trace(
	go.Scattergl(
	x=selection.x,
	y=selection.y,
	hovertext=selection.doc if not hide_document_hover else None,
	hoverinfo="text",
	mode='markers+text',
	name="other",
	showlegend=False,
	marker=dict(color='#CFD8DC', size=5, opacity=0.5)
	)
	)

	# Selected topics
	for name, topic in zip(names, unique_topics):
	if topic in topics and topic != -1:
	selection = df.loc[df.topic == topic, :]
	selection["text"] = ""

	if not hide_annotations:
	selection.loc[len(selection), :] = [None, None, selection.x.mean(), selection.y.mean(), name]

	fig.add_trace(
	go.Scattergl(
	x=selection.x,
	y=selection.y,
	hovertext=selection.doc if not hide_document_hover else None,
	hoverinfo="text",
	text=selection.text,
	mode='markers+text',
	name=name,
	textfont=dict(
	size=12,
	),
	marker=dict(size=5, opacity=0.5)
	)
	)

	# Add grid in a 'plus' shape
	x_range = (df.x.min() - abs((df.x.min()) * .15), df.x.max() + abs((df.x.max()) * .15))
	y_range = (df.y.min() - abs((df.y.min()) * .15), df.y.max() + abs((df.y.max()) * .15))
	fig.add_shape(type="line",
	x0=sum(x_range) / 2, y0=y_range[0], x1=sum(x_range) / 2, y1=y_range[1],
	line=dict(color="#CFD8DC", width=2))
	fig.add_shape(type="line",
	x0=x_range[0], y0=sum(y_range) / 2, x1=x_range[1], y1=sum(y_range) / 2,
	line=dict(color="#9E9E9E", width=2))
	fig.add_annotation(x=x_range[0], y=sum(y_range) / 2, text="D1", showarrow=False, yshift=10)
	fig.add_annotation(y=y_range[1], x=sum(x_range) / 2, text="D2", showarrow=False, xshift=10)

	# Stylize layout
	fig.update_layout(
	template="simple_white",
	title={
	'text': f"{title}",
	'x': 0.5,
	'xanchor': 'center',
	'yanchor': 'top',
	'font': dict(
	size=22,
	color="Black")
	},
	width=width,
	height=height
	)

	fig.update_xaxes(visible=False)
	fig.update_yaxes(visible=False)
	return fig