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https://github.com/hwchase17/langchain
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c2d09a5186
- **Description:** Currently, the regex is static (`r"(?<=[.?!])\s+"`), which is only useful for certain use cases. The current change only moves this to be a parameter of split_text(). Which adds flexibility without making it more complex (as the default regex is still the same). - **Issue:** Not applicable (I searched, no one seems to have created this issue yet). - **Dependencies:** None. _If no one reviews your PR within a few days, please @-mention one of baskaryan, efriis, eyurtsev, hwchase17._ --------- Co-authored-by: Bagatur <22008038+baskaryan@users.noreply.github.com> Co-authored-by: Bagatur <baskaryan@gmail.com>
265 lines
9.6 KiB
Python
265 lines
9.6 KiB
Python
"""Experimental **text splitter** based on semantic similarity."""
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import copy
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import re
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from typing import Any, Dict, Iterable, List, Literal, Optional, Sequence, Tuple, cast
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import numpy as np
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from langchain_community.utils.math import (
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cosine_similarity,
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)
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from langchain_core.documents import BaseDocumentTransformer, Document
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from langchain_core.embeddings import Embeddings
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def combine_sentences(sentences: List[dict], buffer_size: int = 1) -> List[dict]:
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"""Combine sentences based on buffer size.
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Args:
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sentences: List of sentences to combine.
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buffer_size: Number of sentences to combine. Defaults to 1.
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Returns:
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List of sentences with combined sentences.
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"""
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# Go through each sentence dict
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for i in range(len(sentences)):
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# Create a string that will hold the sentences which are joined
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combined_sentence = ""
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# Add sentences before the current one, based on the buffer size.
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for j in range(i - buffer_size, i):
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# Check if the index j is not negative
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# (to avoid index out of range like on the first one)
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if j >= 0:
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# Add the sentence at index j to the combined_sentence string
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combined_sentence += sentences[j]["sentence"] + " "
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# Add the current sentence
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combined_sentence += sentences[i]["sentence"]
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# Add sentences after the current one, based on the buffer size
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for j in range(i + 1, i + 1 + buffer_size):
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# Check if the index j is within the range of the sentences list
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if j < len(sentences):
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# Add the sentence at index j to the combined_sentence string
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combined_sentence += " " + sentences[j]["sentence"]
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# Then add the whole thing to your dict
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# Store the combined sentence in the current sentence dict
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sentences[i]["combined_sentence"] = combined_sentence
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return sentences
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def calculate_cosine_distances(sentences: List[dict]) -> Tuple[List[float], List[dict]]:
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"""Calculate cosine distances between sentences.
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Args:
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sentences: List of sentences to calculate distances for.
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Returns:
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Tuple of distances and sentences.
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"""
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distances = []
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for i in range(len(sentences) - 1):
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embedding_current = sentences[i]["combined_sentence_embedding"]
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embedding_next = sentences[i + 1]["combined_sentence_embedding"]
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# Calculate cosine similarity
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similarity = cosine_similarity([embedding_current], [embedding_next])[0][0]
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# Convert to cosine distance
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distance = 1 - similarity
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# Append cosine distance to the list
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distances.append(distance)
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# Store distance in the dictionary
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sentences[i]["distance_to_next"] = distance
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# Optionally handle the last sentence
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# sentences[-1]['distance_to_next'] = None # or a default value
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return distances, sentences
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BreakpointThresholdType = Literal["percentile", "standard_deviation", "interquartile"]
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BREAKPOINT_DEFAULTS: Dict[BreakpointThresholdType, float] = {
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"percentile": 95,
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"standard_deviation": 3,
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"interquartile": 1.5,
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}
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class SemanticChunker(BaseDocumentTransformer):
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"""Split the text based on semantic similarity.
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Taken from Greg Kamradt's wonderful notebook:
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https://github.com/FullStackRetrieval-com/RetrievalTutorials/blob/main/tutorials/LevelsOfTextSplitting/5_Levels_Of_Text_Splitting.ipynb
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All credits to him.
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At a high level, this splits into sentences, then groups into groups of 3
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sentences, and then merges one that are similar in the embedding space.
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"""
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def __init__(
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self,
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embeddings: Embeddings,
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buffer_size: int = 1,
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add_start_index: bool = False,
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breakpoint_threshold_type: BreakpointThresholdType = "percentile",
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breakpoint_threshold_amount: Optional[float] = None,
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number_of_chunks: Optional[int] = None,
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sentence_split_regex: str = r"(?<=[.?!])\s+",
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):
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self._add_start_index = add_start_index
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self.embeddings = embeddings
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self.buffer_size = buffer_size
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self.breakpoint_threshold_type = breakpoint_threshold_type
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self.number_of_chunks = number_of_chunks
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self.sentence_split_regex = sentence_split_regex
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if breakpoint_threshold_amount is None:
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self.breakpoint_threshold_amount = BREAKPOINT_DEFAULTS[
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breakpoint_threshold_type
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]
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else:
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self.breakpoint_threshold_amount = breakpoint_threshold_amount
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def _calculate_breakpoint_threshold(self, distances: List[float]) -> float:
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if self.breakpoint_threshold_type == "percentile":
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return cast(
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float,
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np.percentile(distances, self.breakpoint_threshold_amount),
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)
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elif self.breakpoint_threshold_type == "standard_deviation":
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return cast(
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float,
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np.mean(distances)
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+ self.breakpoint_threshold_amount * np.std(distances),
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)
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elif self.breakpoint_threshold_type == "interquartile":
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q1, q3 = np.percentile(distances, [25, 75])
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iqr = q3 - q1
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return np.mean(distances) + self.breakpoint_threshold_amount * iqr
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else:
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raise ValueError(
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f"Got unexpected `breakpoint_threshold_type`: "
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f"{self.breakpoint_threshold_type}"
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)
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def _threshold_from_clusters(self, distances: List[float]) -> float:
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"""
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Calculate the threshold based on the number of chunks.
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Inverse of percentile method.
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"""
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if self.number_of_chunks is None:
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raise ValueError(
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"This should never be called if `number_of_chunks` is None."
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)
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x1, y1 = len(distances), 0.0
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x2, y2 = 1.0, 100.0
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x = max(min(self.number_of_chunks, x1), x2)
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# Linear interpolation formula
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y = y1 + ((y2 - y1) / (x2 - x1)) * (x - x1)
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y = min(max(y, 0), 100)
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return cast(float, np.percentile(distances, y))
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def _calculate_sentence_distances(
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self, single_sentences_list: List[str]
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) -> Tuple[List[float], List[dict]]:
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"""Split text into multiple components."""
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_sentences = [
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{"sentence": x, "index": i} for i, x in enumerate(single_sentences_list)
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]
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sentences = combine_sentences(_sentences, self.buffer_size)
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embeddings = self.embeddings.embed_documents(
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[x["combined_sentence"] for x in sentences]
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)
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for i, sentence in enumerate(sentences):
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sentence["combined_sentence_embedding"] = embeddings[i]
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return calculate_cosine_distances(sentences)
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def split_text(
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self,
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text: str,
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) -> List[str]:
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# Splitting the essay (by default on '.', '?', and '!')
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single_sentences_list = re.split(self.sentence_split_regex, text)
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# having len(single_sentences_list) == 1 would cause the following
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# np.percentile to fail.
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if len(single_sentences_list) == 1:
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return single_sentences_list
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distances, sentences = self._calculate_sentence_distances(single_sentences_list)
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if self.number_of_chunks is not None:
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breakpoint_distance_threshold = self._threshold_from_clusters(distances)
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else:
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breakpoint_distance_threshold = self._calculate_breakpoint_threshold(
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distances
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)
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indices_above_thresh = [
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i for i, x in enumerate(distances) if x > breakpoint_distance_threshold
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]
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chunks = []
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start_index = 0
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# Iterate through the breakpoints to slice the sentences
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for index in indices_above_thresh:
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# The end index is the current breakpoint
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end_index = index
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# Slice the sentence_dicts from the current start index to the end index
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group = sentences[start_index : end_index + 1]
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combined_text = " ".join([d["sentence"] for d in group])
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chunks.append(combined_text)
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# Update the start index for the next group
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start_index = index + 1
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# The last group, if any sentences remain
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if start_index < len(sentences):
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combined_text = " ".join([d["sentence"] for d in sentences[start_index:]])
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chunks.append(combined_text)
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return chunks
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def create_documents(
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self, texts: List[str], metadatas: Optional[List[dict]] = None
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) -> List[Document]:
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"""Create documents from a list of texts."""
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_metadatas = metadatas or [{}] * len(texts)
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documents = []
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for i, text in enumerate(texts):
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index = -1
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for chunk in self.split_text(text):
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metadata = copy.deepcopy(_metadatas[i])
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if self._add_start_index:
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index = text.find(chunk, index + 1)
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metadata["start_index"] = index
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new_doc = Document(page_content=chunk, metadata=metadata)
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documents.append(new_doc)
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return documents
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def split_documents(self, documents: Iterable[Document]) -> List[Document]:
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"""Split documents."""
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texts, metadatas = [], []
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for doc in documents:
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texts.append(doc.page_content)
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metadatas.append(doc.metadata)
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return self.create_documents(texts, metadatas=metadatas)
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def transform_documents(
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self, documents: Sequence[Document], **kwargs: Any
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) -> Sequence[Document]:
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"""Transform sequence of documents by splitting them."""
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return self.split_documents(list(documents))
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