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# Chunk_Lib.py | |
######################################### | |
# Chunking Library | |
# This library is used to perform chunking of input files. | |
# Currently, uses naive approaches. Nothing fancy. | |
# | |
#### | |
# Import necessary libraries | |
import hashlib | |
import json | |
import logging | |
import re | |
from typing import Any, Dict, List, Optional, Tuple | |
# | |
# Import 3rd party | |
from openai import OpenAI | |
from tqdm import tqdm | |
from langdetect import detect | |
from transformers import GPT2Tokenizer | |
import nltk | |
from nltk.tokenize import sent_tokenize, word_tokenize | |
from sklearn.feature_extraction.text import TfidfVectorizer | |
from sklearn.metrics.pairwise import cosine_similarity | |
# | |
# Import Local | |
from App_Function_Libraries.Tokenization_Methods_Lib import openai_tokenize | |
from App_Function_Libraries.Utils.Utils import load_comprehensive_config | |
# | |
####################################################################################################################### | |
# Config Settings | |
# | |
# | |
# FIXME - Make sure it only downloads if it already exists, and does a check first. | |
# Ensure NLTK data is downloaded | |
def ensure_nltk_data(): | |
try: | |
nltk.data.find('tokenizers/punkt') | |
except LookupError: | |
nltk.download('punkt') | |
ensure_nltk_data() | |
# | |
# Load GPT2 tokenizer | |
tokenizer = GPT2Tokenizer.from_pretrained("gpt2") | |
# | |
# Load configuration | |
config = load_comprehensive_config() | |
# Embedding Chunking options | |
chunk_options = { | |
'method': config.get('Chunking', 'method', fallback='words'), | |
'max_size': config.getint('Chunking', 'max_size', fallback=400), | |
'overlap': config.getint('Chunking', 'overlap', fallback=200), | |
'adaptive': config.getboolean('Chunking', 'adaptive', fallback=False), | |
'multi_level': config.getboolean('Chunking', 'multi_level', fallback=False), | |
'language': config.get('Chunking', 'language', fallback='english') | |
} | |
openai_api_key = config.get('API', 'openai_api_key') | |
# | |
# End of settings | |
####################################################################################################################### | |
# | |
# Functions: | |
# Create a chunking class for refactoring FIXME | |
# class Chunker: | |
# def __init__(self, tokenizer: GPT2Tokenizer): | |
# self.tokenizer = tokenizer | |
# | |
# def detect_language(self, text: str) -> str: | |
# try: | |
# return detect(text) | |
# except: | |
# return 'en' | |
# | |
# def chunk_text(self, text: str, method: str, max_size: int, overlap: int, language: str = None) -> List[str]: | |
# if language is None: | |
# language = self.detect_language(text) | |
# | |
# if method == 'words': | |
# return self.chunk_text_by_words(text, max_size, overlap, language) | |
# elif method == 'sentences': | |
# return self.chunk_text_by_sentences(text, max_size, overlap, language) | |
# elif method == 'paragraphs': | |
# return self.chunk_text_by_paragraphs(text, max_size, overlap) | |
# elif method == 'tokens': | |
# return self.chunk_text_by_tokens(text, max_size, overlap, language) | |
# elif method == 'semantic': | |
# return self.semantic_chunking(text, max_size) | |
# else: | |
# return [text] | |
def detect_language(text: str) -> str: | |
try: | |
return detect(text) | |
except: | |
# Default to English if detection fails | |
return 'en' | |
def load_document(file_path: str) -> str: | |
with open(file_path, 'r', encoding='utf-8') as file: | |
text = file.read() | |
return re.sub(r'\s+', ' ', text).strip() | |
def improved_chunking_process(text: str, chunk_options: Dict[str, Any] = None) -> List[Dict[str, Any]]: | |
logging.debug("Improved chunking process started...") | |
# Extract JSON metadata if present | |
json_content = {} | |
try: | |
json_end = text.index("}\n") + 1 | |
json_content = json.loads(text[:json_end]) | |
text = text[json_end:].strip() | |
logging.debug(f"Extracted JSON metadata: {json_content}") | |
except (ValueError, json.JSONDecodeError): | |
logging.debug("No JSON metadata found at the beginning of the text") | |
# Extract any additional header text | |
header_match = re.match(r"(This text was transcribed using.*?)\n\n", text, re.DOTALL) | |
header_text = "" | |
if header_match: | |
header_text = header_match.group(1) | |
text = text[len(header_text):].strip() | |
logging.debug(f"Extracted header text: {header_text}") | |
options = chunk_options.copy() if chunk_options else {} | |
if chunk_options: | |
options.update(chunk_options) | |
chunk_method = options.get('method', 'words') | |
max_size = options.get('max_size', 2000) | |
overlap = options.get('overlap', 0) | |
language = options.get('language', None) | |
if language is None: | |
language = detect_language(text) | |
if chunk_method == 'json': | |
chunks = chunk_text_by_json(text, max_size=max_size, overlap=overlap) | |
else: | |
chunks = chunk_text(text, chunk_method, max_size, overlap, language) | |
chunks_with_metadata = [] | |
total_chunks = len(chunks) | |
for i, chunk in enumerate(chunks): | |
metadata = { | |
'chunk_index': i + 1, | |
'total_chunks': total_chunks, | |
'chunk_method': chunk_method, | |
'max_size': max_size, | |
'overlap': overlap, | |
'language': language, | |
'relative_position': (i + 1) / total_chunks | |
} | |
metadata.update(json_content) # Add the extracted JSON content to metadata | |
metadata['header_text'] = header_text # Add the header text to metadata | |
if chunk_method == 'json': | |
chunk_text_content = json.dumps(chunk['json'], ensure_ascii=False) | |
else: | |
chunk_text_content = chunk | |
chunks_with_metadata.append({ | |
'text': chunk_text_content, | |
'metadata': metadata | |
}) | |
return chunks_with_metadata | |
def multi_level_chunking(text: str, method: str, max_size: int, overlap: int, language: str) -> List[str]: | |
logging.debug("Multi-level chunking process started...") | |
# First level: chunk by paragraphs | |
paragraphs = chunk_text_by_paragraphs(text, max_size * 2, overlap) | |
# Second level: chunk each paragraph further | |
chunks = [] | |
for para in paragraphs: | |
if method == 'words': | |
chunks.extend(chunk_text_by_words(para, max_words=max_size, overlap=overlap, language=language)) | |
elif method == 'sentences': | |
chunks.extend(chunk_text_by_sentences(para, max_sentences=max_size, overlap=overlap, language=language)) | |
else: | |
chunks.append(para) | |
return chunks | |
# FIXME - ensure language detection occurs in each chunk function | |
def chunk_text(text: str, method: str, max_size: int, overlap: int, language: str = None) -> List[str]: | |
if method == 'words': | |
logging.debug("Chunking by words...") | |
return chunk_text_by_words(text, max_words=max_size, overlap=overlap, language=language) | |
elif method == 'sentences': | |
logging.debug("Chunking by sentences...") | |
return chunk_text_by_sentences(text, max_sentences=max_size, overlap=overlap, language=language) | |
elif method == 'paragraphs': | |
logging.debug("Chunking by paragraphs...") | |
return chunk_text_by_paragraphs(text, max_paragraphs=max_size, overlap=overlap) | |
elif method == 'tokens': | |
logging.debug("Chunking by tokens...") | |
return chunk_text_by_tokens(text, max_tokens=max_size, overlap=overlap) | |
elif method == 'semantic': | |
logging.debug("Chunking by semantic similarity...") | |
return semantic_chunking(text, max_chunk_size=max_size) | |
else: | |
logging.warning(f"Unknown chunking method '{method}'. Returning full text as a single chunk.") | |
return [text] | |
def determine_chunk_position(relative_position: float) -> str: | |
if relative_position < 0.33: | |
return "This chunk is from the beginning of the document" | |
elif relative_position < 0.66: | |
return "This chunk is from the middle of the document" | |
else: | |
return "This chunk is from the end of the document" | |
def chunk_text_by_words(text: str, max_words: int = 300, overlap: int = 0, language: str = None) -> List[str]: | |
logging.debug("chunk_text_by_words...") | |
if language is None: | |
language = detect_language(text) | |
if language.startswith('zh'): # Chinese | |
import jieba | |
words = list(jieba.cut(text)) | |
elif language == 'ja': # Japanese | |
import fugashi | |
tagger = fugashi.Tagger() | |
words = [word.surface for word in tagger(text)] | |
else: # Default to simple splitting for other languages | |
words = text.split() | |
chunks = [] | |
for i in range(0, len(words), max_words - overlap): | |
chunk = ' '.join(words[i:i + max_words]) | |
chunks.append(chunk) | |
return post_process_chunks(chunks) | |
def chunk_text_by_sentences(text: str, max_sentences: int = 10, overlap: int = 0, language: str = None) -> List[str]: | |
logging.debug("chunk_text_by_sentences...") | |
if language is None: | |
language = detect_language(text) | |
if language.startswith('zh'): # Chinese | |
import jieba | |
# Use jieba to perform sentence segmentation | |
# jieba does not support sentence segmentation out of the box | |
# Use punctuation as delimiters | |
sentences = re.split(r'[。!?;]', text) | |
sentences = [s.strip() for s in sentences if s.strip()] | |
elif language == 'ja': # Japanese | |
import fugashi | |
tagger = fugashi.Tagger() | |
# Simple sentence segmentation based on punctuation | |
sentences = re.split(r'[。!?]', text) | |
sentences = [s.strip() for s in sentences if s.strip()] | |
else: # Default to NLTK for other languages | |
try: | |
sentences = sent_tokenize(text, language=language) | |
except LookupError: | |
logging.warning(f"Punkt tokenizer not found for language '{language}'. Using default 'english'.") | |
sentences = sent_tokenize(text, language='english') | |
chunks = [] | |
previous_overlap = [] | |
for i in range(0, len(sentences), max_sentences - overlap): | |
current_sentences = sentences[i:i + max_sentences] | |
if overlap > 0 and previous_overlap: | |
current_sentences = previous_overlap + current_sentences | |
chunk = ' '.join(current_sentences) | |
chunks.append(chunk) | |
previous_overlap = sentences[i + max_sentences - overlap:i + max_sentences] if overlap > 0 else [] | |
return post_process_chunks(chunks) | |
def chunk_text_by_paragraphs(text: str, max_paragraphs: int = 5, overlap: int = 0) -> List[str]: | |
logging.debug("chunk_text_by_paragraphs...") | |
paragraphs = re.split(r'\n\s*\n', text) | |
chunks = [] | |
for i in range(0, len(paragraphs), max_paragraphs - overlap): | |
chunk = '\n\n'.join(paragraphs[i:i + max_paragraphs]) | |
chunks.append(chunk) | |
return post_process_chunks(chunks) | |
def chunk_text_by_tokens(text: str, max_tokens: int = 1000, overlap: int = 0) -> List[str]: | |
logging.debug("chunk_text_by_tokens...") | |
# This is a simplified token-based chunking. For more accurate tokenization, | |
# consider using a proper tokenizer like GPT-2 TokenizerFast | |
words = text.split() | |
chunks = [] | |
current_chunk = [] | |
current_token_count = 0 | |
for word in words: | |
word_token_count = len(word) // 4 + 1 # Rough estimate of token count | |
if current_token_count + word_token_count > max_tokens and current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
current_chunk = current_chunk[-overlap:] if overlap > 0 else [] | |
current_token_count = sum(len(w) // 4 + 1 for w in current_chunk) | |
current_chunk.append(word) | |
current_token_count += word_token_count | |
if current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
return post_process_chunks(chunks) | |
# def chunk_text_by_tokens(text: str, max_tokens: int = 1000, overlap: int = 0) -> List[str]: | |
# logging.debug("chunk_text_by_tokens...") | |
# # Use GPT2 tokenizer for tokenization | |
# tokens = tokenizer.encode(text) | |
# chunks = [] | |
# for i in range(0, len(tokens), max_tokens - overlap): | |
# chunk_tokens = tokens[i:i + max_tokens] | |
# chunk = tokenizer.decode(chunk_tokens) | |
# chunks.append(chunk) | |
# return post_process_chunks(chunks) | |
def post_process_chunks(chunks: List[str]) -> List[str]: | |
return [chunk.strip() for chunk in chunks if chunk.strip()] | |
# FIXME - F | |
def get_chunk_metadata(chunk: str, full_text: str, chunk_type: str = "generic", | |
chapter_number: Optional[int] = None, | |
chapter_pattern: Optional[str] = None, | |
language: str = None) -> Dict[str, Any]: | |
""" | |
Generate metadata for a chunk based on its position in the full text. | |
""" | |
chunk_length = len(chunk) | |
start_index = full_text.find(chunk) | |
end_index = start_index + chunk_length if start_index != -1 else None | |
# Calculate a hash for the chunk | |
chunk_hash = hashlib.md5(chunk.encode()).hexdigest() | |
metadata = { | |
'start_index': start_index, | |
'end_index': end_index, | |
'word_count': len(chunk.split()), | |
'char_count': chunk_length, | |
'chunk_type': chunk_type, | |
'language': language, | |
'chunk_hash': chunk_hash, | |
'relative_position': start_index / len(full_text) if len(full_text) > 0 and start_index != -1 else 0 | |
} | |
if chunk_type == "chapter": | |
metadata['chapter_number'] = chapter_number | |
metadata['chapter_pattern'] = chapter_pattern | |
return metadata | |
def process_document_with_metadata(text: str, chunk_options: Dict[str, Any], | |
document_metadata: Dict[str, Any]) -> Dict[str, Any]: | |
chunks = improved_chunking_process(text, chunk_options) | |
return { | |
'document_metadata': document_metadata, | |
'chunks': chunks | |
} | |
# Hybrid approach, chunk each sentence while ensuring total token size does not exceed a maximum number | |
def chunk_text_hybrid(text: str, max_tokens: int = 1000, overlap: int = 0) -> List[str]: | |
logging.debug("chunk_text_hybrid...") | |
sentences = sent_tokenize(text) | |
chunks = [] | |
current_chunk = [] | |
current_length = 0 | |
for sentence in sentences: | |
tokens = tokenizer.encode(sentence) | |
if current_length + len(tokens) > max_tokens and current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
# Handle overlap | |
if overlap > 0: | |
overlap_tokens = tokenizer.encode(' '.join(current_chunk[-overlap:])) | |
current_chunk = current_chunk[-overlap:] | |
current_length = len(overlap_tokens) | |
else: | |
current_chunk = [] | |
current_length = 0 | |
current_chunk.append(sentence) | |
current_length += len(tokens) | |
if current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
return post_process_chunks(chunks) | |
# Thanks openai | |
def chunk_on_delimiter(input_string: str, | |
max_tokens: int, | |
delimiter: str) -> List[str]: | |
logging.debug("chunk_on_delimiter...") | |
chunks = input_string.split(delimiter) | |
combined_chunks, _, dropped_chunk_count = combine_chunks_with_no_minimum( | |
chunks, max_tokens, chunk_delimiter=delimiter, add_ellipsis_for_overflow=True) | |
if dropped_chunk_count > 0: | |
logging.warning(f"Warning: {dropped_chunk_count} chunks were dropped due to exceeding the token limit.") | |
combined_chunks = [f"{chunk}{delimiter}" for chunk in combined_chunks] | |
return combined_chunks | |
# FIXME | |
def recursive_summarize_chunks(chunks: List[str], summarize_func, custom_prompt: Optional[str] = None, | |
temp: Optional[float] = None, system_prompt: Optional[str] = None) -> List[str]: | |
logging.debug("recursive_summarize_chunks...") | |
summarized_chunks = [] | |
current_summary = "" | |
logging.debug(f"Summarizing {len(chunks)} chunks recursively...") | |
logging.debug(f"Temperature is set to {temp}") | |
for i, chunk in enumerate(chunks): | |
if i == 0: | |
current_summary = summarize_func(chunk, custom_prompt, temp, system_prompt) | |
else: | |
combined_text = current_summary + "\n\n" + chunk | |
current_summary = summarize_func(combined_text, custom_prompt, temp, system_prompt) | |
summarized_chunks.append(current_summary) | |
return summarized_chunks | |
# Sample text for testing | |
sample_text = """ | |
Natural language processing (NLP) is a subfield of linguistics, computer science, and artificial intelligence | |
concerned with the interactions between computers and human language, in particular how to program computers | |
to process and analyze large amounts of natural language data. The result is a computer capable of "understanding" | |
the contents of documents, including the contextual nuances of the language within them. The technology can then | |
accurately extract information and insights contained in the documents as well as categorize and organize the documents themselves. | |
Challenges in natural language processing frequently involve speech recognition, natural language understanding, | |
and natural language generation. | |
Natural language processing has its roots in the 1950s. Already in 1950, Alan Turing published an article titled | |
"Computing Machinery and Intelligence" which proposed what is now called the Turing test as a criterion of intelligence. | |
""" | |
# Example usage of different chunking methods | |
# print("Chunking by words:") | |
# print(chunk_text_by_words(sample_text, max_words=50)) | |
# | |
# print("\nChunking by sentences:") | |
# print(chunk_text_by_sentences(sample_text, max_sentences=2)) | |
# | |
# print("\nChunking by paragraphs:") | |
# print(chunk_text_by_paragraphs(sample_text, max_paragraphs=1)) | |
# | |
# print("\nChunking by tokens:") | |
# print(chunk_text_by_tokens(sample_text, max_tokens=50)) | |
# | |
# print("\nHybrid chunking:") | |
# print(chunk_text_hybrid(sample_text, max_tokens=50)) | |
####################################################################################################################### | |
# | |
# Experimental Semantic Chunking | |
# | |
# Chunk text into segments based on semantic similarity | |
def count_units(text: str, unit: str = 'words') -> int: | |
if unit == 'words': | |
return len(text.split()) | |
elif unit == 'tokens': | |
return len(tokenizer.encode(text)) | |
elif unit == 'characters': | |
return len(text) | |
else: | |
raise ValueError("Invalid unit. Choose 'words', 'tokens', or 'characters'.") | |
def semantic_chunking(text: str, max_chunk_size: int = 2000, unit: str = 'words') -> List[str]: | |
logging.debug("semantic_chunking...") | |
sentences = sent_tokenize(text) | |
vectorizer = TfidfVectorizer() | |
sentence_vectors = vectorizer.fit_transform(sentences) | |
chunks = [] | |
current_chunk = [] | |
current_size = 0 | |
for i, sentence in enumerate(sentences): | |
sentence_size = count_units(sentence, unit) | |
if current_size + sentence_size > max_chunk_size and current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
# Use last 3 sentences for overlap | |
current_chunk = current_chunk[-3:] | |
current_size = count_units(' '.join(current_chunk), unit) | |
current_chunk.append(sentence) | |
current_size += sentence_size | |
if i + 1 < len(sentences): | |
current_vector = sentence_vectors[i] | |
next_vector = sentence_vectors[i + 1] | |
similarity = cosine_similarity(current_vector, next_vector)[0][0] | |
if similarity < 0.5 and current_size >= max_chunk_size // 2: | |
chunks.append(' '.join(current_chunk)) | |
current_chunk = current_chunk[-3:] | |
current_size = count_units(' '.join(current_chunk), unit) | |
if current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
return chunks | |
def semantic_chunk_long_file(file_path: str, max_chunk_size: int = 1000, overlap: int = 100, unit: str = 'words') -> Optional[List[str]]: | |
logging.debug("semantic_chunk_long_file...") | |
try: | |
with open(file_path, 'r', encoding='utf-8') as file: | |
content = file.read() | |
chunks = semantic_chunking(content, max_chunk_size, unit) | |
return chunks | |
except Exception as e: | |
logging.error(f"Error chunking text file: {str(e)}") | |
return None | |
# | |
# | |
####################################################################################################################### | |
####################################################################################################################### | |
# | |
# Embedding Chunking | |
def chunk_for_embedding(text: str, file_name: str, custom_chunk_options: Dict[str, Any] = None) -> List[Dict[str, Any]]: | |
options = chunk_options.copy() | |
if custom_chunk_options: | |
options.update(custom_chunk_options) | |
logging.info(f"Chunking options: {options}") | |
chunks = improved_chunking_process(text, options) | |
total_chunks = len(chunks) | |
logging.info(f"Total chunks created: {total_chunks}") | |
chunked_text_with_headers = [] | |
for i, chunk in enumerate(chunks, 1): | |
chunk_text = chunk['text'] | |
chunk_position = determine_chunk_position(chunk['metadata']['relative_position']) | |
chunk_header = f""" | |
Original Document: {file_name} | |
Chunk: {i} of {total_chunks} | |
Position: {chunk_position} | |
--- Chunk Content --- | |
""" | |
full_chunk_text = chunk_header + chunk_text | |
chunk['text'] = full_chunk_text | |
chunk['metadata']['file_name'] = file_name | |
chunked_text_with_headers.append(chunk) | |
return chunked_text_with_headers | |
# | |
# End of Embedding Chunking | |
####################################################################################################################### | |
####################################################################################################################### | |
# | |
# JSON Chunking | |
# FIXME | |
def chunk_text_by_json(text: str, max_size: int = 1000, overlap: int = 0) -> List[Dict[str, Any]]: | |
""" | |
Chunk JSON-formatted text into smaller JSON chunks while preserving structure. | |
Parameters: | |
- text (str): The JSON-formatted text to be chunked. | |
- max_size (int): Maximum number of items or characters per chunk. | |
- overlap (int): Number of items or characters to overlap between chunks. | |
Returns: | |
- List[Dict[str, Any]]: A list of chunks with their metadata. | |
""" | |
logging.debug("chunk_text_by_json started...") | |
try: | |
json_data = json.loads(text) | |
except json.JSONDecodeError as e: | |
logging.error(f"Invalid JSON data: {e}") | |
raise ValueError(f"Invalid JSON data: {e}") | |
# Determine if JSON data is a list or a dict | |
if isinstance(json_data, list): | |
return chunk_json_list(json_data, max_size, overlap) | |
elif isinstance(json_data, dict): | |
return chunk_json_dict(json_data, max_size, overlap) | |
else: | |
logging.error("Unsupported JSON structure. Only JSON objects and arrays are supported.") | |
raise ValueError("Unsupported JSON structure. Only JSON objects and arrays are supported.") | |
def chunk_json_list(json_list: List[Any], max_size: int, overlap: int) -> List[Dict[str, Any]]: | |
""" | |
Chunk a JSON array into smaller chunks. | |
Parameters: | |
- json_list (List[Any]): The JSON array to be chunked. | |
- max_size (int): Maximum number of items per chunk. | |
- overlap (int): Number of items to overlap between chunks. | |
Returns: | |
- List[Dict[str, Any]]: A list of JSON chunks with metadata. | |
""" | |
logging.debug("chunk_json_list started...") | |
chunks = [] | |
total_items = len(json_list) | |
step = max_size - overlap | |
if step <= 0: | |
raise ValueError("max_size must be greater than overlap.") | |
for i in range(0, total_items, step): | |
chunk = json_list[i:i + max_size] | |
metadata = { | |
'chunk_index': i // step + 1, | |
'total_chunks': (total_items + step - 1) // step, | |
'chunk_method': 'json_list', | |
'max_size': max_size, | |
'overlap': overlap, | |
'relative_position': i / total_items | |
} | |
chunks.append({ | |
'json': chunk, | |
'metadata': metadata | |
}) | |
logging.debug(f"chunk_json_list created {len(chunks)} chunks.") | |
return chunks | |
def chunk_json_dict(json_dict: Dict[str, Any], max_size: int, overlap: int) -> List[Dict[str, Any]]: | |
""" | |
Chunk a JSON object into smaller chunks based on its 'data' key while preserving other keys like 'metadata'. | |
Parameters: | |
- json_dict (Dict[str, Any]): The JSON object to be chunked. | |
- max_size (int): Maximum number of key-value pairs per chunk in the 'data' section. | |
- overlap (int): Number of key-value pairs to overlap between chunks. | |
Returns: | |
- List[Dict[str, Any]]: A list of JSON chunks with metadata. | |
""" | |
logging.debug("chunk_json_dict started...") | |
# Preserve non-chunked sections | |
preserved_keys = ['metadata'] | |
preserved_data = {key: value for key, value in json_dict.items() if key in preserved_keys} | |
# Identify the chunkable section | |
chunkable_key = 'data' | |
if chunkable_key not in json_dict or not isinstance(json_dict[chunkable_key], dict): | |
logging.error("No chunkable 'data' section found in JSON dictionary.") | |
raise ValueError("No chunkable 'data' section found in JSON dictionary.") | |
chunkable_data = json_dict[chunkable_key] | |
data_keys = list(chunkable_data.keys()) | |
total_keys = len(data_keys) | |
chunks = [] | |
step = max_size - overlap | |
if step <= 0: | |
raise ValueError("max_size must be greater than overlap.") | |
# Adjust the loop to prevent creating an extra chunk | |
for i in range(0, total_keys, step): | |
chunk_keys = data_keys[i:i + max_size] | |
# Handle overlap | |
if i != 0 and overlap > 0: | |
overlap_keys = data_keys[i - overlap:i] | |
chunk_keys = overlap_keys + chunk_keys | |
# Remove duplicate keys caused by overlap | |
unique_chunk_keys = [] | |
seen_keys = set() | |
for key in chunk_keys: | |
if key not in seen_keys: | |
unique_chunk_keys.append(key) | |
seen_keys.add(key) | |
chunk_data = {key: chunkable_data[key] for key in unique_chunk_keys} | |
metadata = { | |
'chunk_index': (i // step) + 1, | |
'total_chunks': (total_keys + step - 1) // step, | |
'chunk_method': 'json_dict', | |
'max_size': max_size, | |
'overlap': overlap, | |
'language': 'english', # Assuming English; modify as needed | |
'relative_position': (i // step + 1) / ((total_keys + step - 1) // step) | |
} | |
# Merge preserved data into metadata | |
metadata.update(preserved_data.get('metadata', {})) | |
# Create the chunk with preserved data | |
chunk = { | |
'metadata': preserved_data, | |
'data': chunk_data | |
} | |
chunks.append({ | |
'json': chunk, | |
'metadata': metadata | |
}) | |
logging.debug(f"chunk_json_dict created {len(chunks)} chunks.") | |
return chunks | |
# | |
# End of JSON Chunking | |
####################################################################################################################### | |
####################################################################################################################### | |
# | |
# OpenAI Rolling Summarization | |
# | |
client = OpenAI(api_key=openai_api_key) | |
def get_chat_completion(messages, model='gpt-4-turbo'): | |
response = client.chat.completions.create( | |
model=model, | |
messages=messages, | |
temperature=0, | |
) | |
return response.choices[0].message.content | |
# This function combines text chunks into larger blocks without exceeding a specified token count. | |
# It returns the combined chunks, their original indices, and the number of dropped chunks due to overflow. | |
def combine_chunks_with_no_minimum( | |
chunks: List[str], | |
max_tokens: int, | |
chunk_delimiter: str = "\n\n", | |
header: Optional[str] = None, | |
add_ellipsis_for_overflow: bool = False, | |
) -> Tuple[List[str], List[List[int]], int]: | |
dropped_chunk_count = 0 | |
output = [] # list to hold the final combined chunks | |
output_indices = [] # list to hold the indices of the final combined chunks | |
candidate = [header] if header else [] # list to hold the current combined chunk candidate | |
candidate_indices = [] | |
for chunk_i, chunk in enumerate(chunks): | |
chunk_with_header = [chunk] if not header else [header, chunk] | |
combined_text = chunk_delimiter.join(candidate + chunk_with_header) | |
token_count = len(tokenizer.encode(combined_text)) | |
if token_count > max_tokens: | |
if add_ellipsis_for_overflow and len(candidate) > 0: | |
ellipsis_text = chunk_delimiter.join(candidate + ["..."]) | |
if len(tokenizer.encode(ellipsis_text)) <= max_tokens: | |
candidate = candidate + ["..."] | |
dropped_chunk_count += 1 | |
if len(candidate) > 0: | |
output.append(chunk_delimiter.join(candidate)) | |
output_indices.append(candidate_indices) | |
candidate = chunk_with_header | |
candidate_indices = [chunk_i] | |
else: | |
logging.warning(f"Single chunk at index {chunk_i} exceeds max_tokens and will be dropped.") | |
dropped_chunk_count += 1 | |
else: | |
candidate.extend(chunk_with_header) | |
candidate_indices.append(chunk_i) | |
if candidate: | |
output.append(chunk_delimiter.join(candidate)) | |
output_indices.append(candidate_indices) | |
return output, output_indices, dropped_chunk_count | |
def rolling_summarize(text: str, | |
detail: float = 0, | |
model: str = 'gpt-4o', | |
additional_instructions: Optional[str] = None, | |
minimum_chunk_size: Optional[int] = 500, | |
chunk_delimiter: str = ".", | |
summarize_recursively: bool = False, | |
verbose: bool = False) -> str: | |
""" | |
Summarizes a given text by splitting it into chunks, each of which is summarized individually. | |
The level of detail in the summary can be adjusted, and the process can optionally be made recursive. | |
Parameters: | |
- text (str): The text to be summarized. | |
- detail (float, optional): A value between 0 and 1 indicating the desired level of detail in the summary. | |
- additional_instructions (Optional[str], optional): Additional instructions for the model. | |
- minimum_chunk_size (Optional[int], optional): The minimum size for text chunks. | |
- chunk_delimiter (str, optional): The delimiter used to split the text into chunks. | |
- summarize_recursively (bool, optional): If True, summaries are generated recursively. | |
- verbose (bool, optional): If True, prints detailed information about the chunking process. | |
Returns: | |
- str: The final compiled summary of the text. | |
The function first determines the number of chunks by interpolating between a minimum and a maximum chunk count | |
based on the `detail` parameter. It then splits the text into chunks and summarizes each chunk. If | |
`summarize_recursively` is True, each summary is based on the previous summaries, adding more context to the | |
summarization process. The function returns a compiled summary of all chunks. | |
""" | |
# Check detail is set correctly | |
assert 0 <= detail <= 1, "Detail must be between 0 and 1." | |
# Interpolate the number of chunks based on the detail parameter | |
text_length = len(tokenizer.encode(text)) | |
max_chunks = text_length // minimum_chunk_size if minimum_chunk_size else 10 | |
min_chunks = 1 | |
num_chunks = int(min_chunks + detail * (max_chunks - min_chunks)) | |
# Adjust chunk_size based on interpolated number of chunks | |
chunk_size = max(minimum_chunk_size, text_length // num_chunks) if num_chunks else text_length | |
text_chunks = chunk_on_delimiter(text, chunk_size, chunk_delimiter) | |
if verbose: | |
print(f"Splitting the text into {len(text_chunks)} chunks to be summarized.") | |
print(f"Chunk lengths are {[len(tokenizer.encode(x)) for x in text_chunks]} tokens.") | |
# Set system message | |
system_message_content = "Rewrite this text in summarized form." | |
if additional_instructions: | |
system_message_content += f"\n\n{additional_instructions}" | |
accumulated_summaries = [] | |
for i, chunk in enumerate(tqdm(text_chunks, desc="Summarizing chunks")): | |
if summarize_recursively and accumulated_summaries: | |
# Combine previous summary with current chunk for recursive summarization | |
combined_text = accumulated_summaries[-1] + "\n\n" + chunk | |
user_message_content = f"Previous summary and new content to summarize:\n\n{combined_text}" | |
else: | |
user_message_content = chunk | |
messages = [ | |
{"role": "system", "content": system_message_content}, | |
{"role": "user", "content": user_message_content} | |
] | |
response = get_chat_completion(messages, model=model) | |
accumulated_summaries.append(response) | |
final_summary = '\n\n'.join(accumulated_summaries) | |
return final_summary | |
# | |
# | |
####################################################################################################################### | |
# | |
# Ebook Chapter Chunking | |
def chunk_ebook_by_chapters(text: str, chunk_options: Dict[str, Any]) -> List[Dict[str, Any]]: | |
logging.debug("chunk_ebook_by_chapters") | |
max_chunk_size = int(chunk_options.get('max_size', 300)) | |
overlap = int(chunk_options.get('overlap', 0)) | |
custom_pattern = chunk_options.get('custom_chapter_pattern', None) | |
# List of chapter heading patterns to try, in order | |
chapter_patterns = [ | |
custom_pattern, | |
r'^#{1,2}\s+', # Markdown style: '# ' or '## ' | |
r'^Chapter\s+\d+', # 'Chapter ' followed by numbers | |
r'^\d+\.\s+', # Numbered chapters: '1. ', '2. ', etc. | |
r'^[A-Z\s]+$' # All caps headings | |
] | |
chapter_positions = [] | |
used_pattern = None | |
for pattern in chapter_patterns: | |
if pattern is None: | |
continue | |
chapter_regex = re.compile(pattern, re.MULTILINE | re.IGNORECASE) | |
chapter_positions = [match.start() for match in chapter_regex.finditer(text)] | |
if chapter_positions: | |
used_pattern = pattern | |
break | |
# If no chapters found, return the entire content as one chunk | |
if not chapter_positions: | |
metadata = get_chunk_metadata( | |
chunk=text, | |
full_text=text, | |
chunk_type="whole_document", | |
language=chunk_options.get('language', 'english') | |
) | |
return [{'text': text, 'metadata': metadata}] | |
# Split content into chapters | |
chunks = [] | |
for i in range(len(chapter_positions)): | |
start = chapter_positions[i] | |
end = chapter_positions[i + 1] if i + 1 < len(chapter_positions) else None | |
chapter = text[start:end] | |
# Apply overlap if specified | |
if overlap > 0 and i > 0: | |
overlap_start = max(0, chapter_positions[i] - overlap) | |
chapter = text[overlap_start:end] | |
chunks.append(chapter) | |
# Post-process chunks | |
processed_chunks = post_process_chunks(chunks) | |
# Add metadata to chunks | |
chunks_with_metadata = [] | |
for i, chunk in enumerate(processed_chunks): | |
metadata = get_chunk_metadata( | |
chunk=chunk, | |
full_text=text, | |
chunk_type="chapter", | |
chapter_number=i + 1, | |
chapter_pattern=used_pattern, | |
language=chunk_options.get('language', 'english') | |
) | |
chunks_with_metadata.append({'text': chunk, 'metadata': metadata}) | |
return chunks_with_metadata | |
# | |
# End of ebook chapter chunking | |
####################################################################################################################### | |
####################################################################################################################### | |
# | |
# Functions for adapative chunking: | |
# FIXME - punkt | |
def adaptive_chunk_size(text: str, base_size: int = 1000, min_size: int = 500, max_size: int = 2000) -> int: | |
# Tokenize the text into sentences | |
sentences = sent_tokenize(text) | |
if not sentences: | |
return base_size | |
# Calculate average sentence length | |
avg_sentence_length = sum(len(s.split()) for s in sentences) / len(sentences) | |
# Adjust chunk size based on average sentence length | |
if avg_sentence_length < 10: | |
size_factor = 1.2 # Increase chunk size for short sentences | |
elif avg_sentence_length > 20: | |
size_factor = 0.8 # Decrease chunk size for long sentences | |
else: | |
size_factor = 1.0 | |
# Calculate adaptive chunk size | |
adaptive_size = int(base_size * size_factor) | |
# Ensure chunk size is within bounds | |
return max(min_size, min(adaptive_size, max_size)) | |
def adaptive_chunk_size_non_punkt(text: str, base_size: int, min_size: int = 100, max_size: int = 2000) -> int: | |
# Adaptive logic: adjust chunk size based on text complexity | |
words = text.split() | |
if not words: | |
return base_size # Return base_size if text is empty | |
avg_word_length = sum(len(word) for word in words) / len(words) | |
if avg_word_length > 6: # Threshold for "complex" text | |
adjusted_size = int(base_size * 0.8) # Reduce chunk size for complex text | |
elif avg_word_length < 4: # Threshold for "simple" text | |
adjusted_size = int(base_size * 1.2) # Increase chunk size for simple text | |
else: | |
adjusted_size = base_size | |
# Ensure the chunk size is within the specified range | |
return max(min_size, min(adjusted_size, max_size)) | |
def adaptive_chunking(text: str, base_size: int = 1000, min_size: int = 500, max_size: int = 2000) -> List[str]: | |
logging.debug("adaptive_chunking...") | |
chunk_size = adaptive_chunk_size(text, base_size, min_size, max_size) | |
words = text.split() | |
chunks = [] | |
current_chunk = [] | |
current_length = 0 | |
for word in words: | |
if current_length + len(word) > chunk_size and current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
current_chunk = [] | |
current_length = 0 | |
current_chunk.append(word) | |
current_length += len(word) + 1 # +1 for space | |
if current_chunk: | |
chunks.append(' '.join(current_chunk)) | |
return chunks | |
# FIXME - usage example | |
# chunk_options = { | |
# 'method': 'words', # or any other method | |
# 'base_size': 1000, | |
# 'min_size': 100, | |
# 'max_size': 2000, | |
# 'adaptive': True, | |
# 'language': 'en' | |
# } | |
#chunks = improved_chunking_process(your_text, chunk_options) | |
# Example of chunking a document with metadata | |
# document_metadata = { | |
# 'title': 'Example Document', | |
# 'author': 'John Doe', | |
# 'creation_date': '2023-06-14', | |
# 'source': 'https://example.com/document', | |
# 'document_type': 'article' | |
# } | |
# | |
# chunk_options = { | |
# 'method': 'sentences', | |
# 'base_size': 1000, | |
# 'adaptive': True, | |
# 'language': 'en' | |
# } | |
# | |
# processed_document = process_document_with_metadata(your_text, chunk_options, document_metadata) | |
# | |
# End of Chunking Library | |
####################################################################################################################### |