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create_finetune_tfrecords.py
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create_finetune_tfrecords.py
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import argparse
import os
import re
import random
from pathlib import Path
from typing import List
import ftfy
import tensorflow as tf
from lm_dataformat import Reader
from transformers import GPT2TokenizerFast
from tqdm import tqdm
def parse_args():
parser = argparse.ArgumentParser(description="""
Converts a text dataset into the training data format expected by the model.
Adapted from the script create_tfrecords.py in the gpt-neo repo.
- Your text dataset:
- can be provided as .txt files, or as an archive (.tar.gz, .xz, jsonl.zst).
- can be one file or multiple
- using a single large file may use too much memory and crash - if this occurs, split the file up into a few files
- the model's end-of-text separator is added between the contents of each file
- if the string '<|endoftext|>' appears inside a file, it is treated as the model's end-of-text separator (not the actual string '<|endoftext|>')
- this behavior can be disabled with --treat-eot-as-text
This script creates a single .tfrecords file as output
- Why: the model's data loader ignores "trailing" data (< 1 batch) at the end of a .tfrecords file
- this causes data loss if you have many .tfrecords files
- This is probably not appropriate for very large datasets
""", formatter_class=argparse.RawTextHelpFormatter)
parser.add_argument(
"input_path",
type=str,
help="Path to an input file, or a directory that contains the input files.",
)
parser.add_argument("name", type=str,
help="Name of output file will be {name}_{seqnum}.tfrecords, where seqnum is total sequence count")
parser.add_argument("--output-dir", type=str, default="", help="Output directory (default: current directory)")
cleaning_args = parser.add_argument_group('data cleaning arguments')
cleaning_args.add_argument("--normalize-with-ftfy", action="store_true", help="Normalize text with ftfy")
cleaning_args.add_argument("--normalize-with-wikitext-detokenize",
action="store_true", help="Use wikitext detokenizer")
minu_help = "Exclude repetitive documents made up of < MIN_UNIQUE_TOKENS unique tokens. These can produce large gradients."
minu_help += " Set <= 0 to disable. If enabled, 200 is a good default value. (Default: 0)"
cleaning_args.add_argument("--min-unique-tokens", type=int, default=0,
help=minu_help)
shuffle_pack_args = parser.add_argument_group('data shuffling/packing arguments')
repack_ep_help = "Repeat the data N_REPACK_EPOCHS times, shuffled differently in each repetition. Recommended for multi-epoch training (set this to your intended number of epochs)."
shuffle_pack_args.add_argument("--n-repack-epochs",
type=int, default=1,
help=repack_ep_help
)
shuffle_pack_args.add_argument("--seed", type=int, default=10,
help="random seed for shuffling data (default: 10)")
shuffle_pack_args.add_argument("--preserve-data-order",
default=False, action="store_true",
help="Disables shuffling, so the input and output data have the same order.")
misc_args = parser.add_argument_group('miscellaneous arguments')
misc_args.add_argument("--verbose",
default=False, action="store_true",
help="Prints extra information, such as the text removed by --min-unique-tokens")
args = parser.parse_args()
# convert input_path to pathy
args.input_path = Path(args.input_path)
return args
def get_files(input_path: Path) -> List[str]:
supported_file_types = ["jsonl.zst", ".txt", ".xz", ".tar.gz"]
if input_path.is_dir():
# get all files with supported file types
files = [list(Path(input_path).glob(f"*{ft}")) for ft in supported_file_types]
# flatten list
files = [f for sublist in files for f in sublist]
assert files, f"No files with supported types found in directory: {input_path}"
elif input_path.is_file():
assert any(
str(input_path).endswith(f_type) for f_type in supported_file_types
), f"Input file type must be one of: {supported_file_types}"
files = [input_path]
else:
raise FileNotFoundError(f"No such file or directory: {input_path=}")
return [str(f) for f in files]
def wikitext_detokenizer(string):
# contractions
string = string.replace("s '", "s'")
string = re.sub(r"/' [0-9]/", r"/'[0-9]/", string)
# number separators
string = string.replace(" @-@ ", "-")
string = string.replace(" @,@ ", ",")
string = string.replace(" @.@ ", ".")
# punctuation
string = string.replace(" : ", ": ")
string = string.replace(" ; ", "; ")
string = string.replace(" . ", ". ")
string = string.replace(" ! ", "! ")
string = string.replace(" ? ", "? ")
string = string.replace(" , ", ", ")
# double brackets
string = re.sub(r"\(\s*([^\)]*?)\s*\)", r"(\1)", string)
string = re.sub(r"\[\s*([^\]]*?)\s*\]", r"[\1]", string)
string = re.sub(r"{\s*([^}]*?)\s*}", r"{\1}", string)
string = re.sub(r"\"\s*([^\"]*?)\s*\"", r'"\1"', string)
string = re.sub(r"'\s*([^']*?)\s*'", r"'\1'", string)
# miscellaneous
string = string.replace("= = = =", "====")
string = string.replace("= = =", "===")
string = string.replace("= =", "==")
string = string.replace(" " + chr(176) + " ", chr(176))
string = string.replace(" \n", "\n")
string = string.replace("\n ", "\n")
string = string.replace(" N ", " 1 ")
string = string.replace(" 's", "'s")
return string
def _int64_feature(value):
"""
Returns an int64_list from a bool / enum / int / uint.
"""
return tf.train.Feature(int64_list=tf.train.Int64List(value=value))
def write_to_file(writer, data):
"""
writes data to tfrecord file
"""
feature = {
"text": _int64_feature(data)
}
tf_example = tf.train.Example(features=tf.train.Features(feature=feature))
writer.write(tf_example.SerializeToString())
def write_tfrecord(sequences, fp):
with tf.io.TFRecordWriter(fp) as writer:
for seq in sequences:
write_to_file(writer, seq)
def split_list(l, n):
# splits list/string into n size chunks
return [l[i:i + n] for i in range(0, len(l), n)]
def enforce_min_unique(seqs, min_unique_tokens, enc, verbose=False):
for seq in tqdm(seqs, mininterval=1, smoothing=0, desc="enforce_min_unique_tokens"):
if len(set(seq)) >= min_unique_tokens:
yield seq
elif verbose:
text = enc.decode(seq)
print(f"excluding with {len(set(seq))} unique tokens:\n\n{repr(text)}\n\n")
def eot_splitting_generator(string_iterable, encoder):
"""
Given strings, splits them internally on <|endoftext|> and yields (generally more) strings
"""
for doc in string_iterable:
for d in doc.split(encoder.eos_token):
if len(d) > 0:
yield d
def prep_and_tokenize_generator(string_iterable, encoder, normalize_with_ftfy, normalize_with_wikitext_detokenize):
"""
Given strings, does data cleaning / tokenization and yields arrays of tokens
"""
for doc in string_iterable:
if normalize_with_ftfy: # fix text with ftfy if specified
doc = ftfy.fix_text(doc, normalization='NFKC')
if normalize_with_wikitext_detokenize:
doc = wikitext_detokenizer(doc)
tokens = encoder.encode(doc) + [encoder.eos_token_id]
yield tokens
def file_to_tokenized_docs_generator(file_path, encoder, args):
"""
Given a file path, reads the file and tokenizes the contents
Yields token arrays of arbitrary, unequal length
"""
reader = Reader(file_path)
string_iterable = reader.stream_data(threaded=False)
string_iterable = eot_splitting_generator(string_iterable, encoder)
token_list_gen = prep_and_tokenize_generator(string_iterable,
encoder,
normalize_with_ftfy=args.normalize_with_ftfy,
normalize_with_wikitext_detokenize=args.normalize_with_wikitext_detokenize
)
return token_list_gen
def read_files_to_tokenized_docs(files, args, encoder):
docs = []
if args.preserve_data_order:
files = sorted(files)
else:
random.shuffle(files)
for f in tqdm(files, mininterval=10, smoothing=0, desc="reading/tokenizing files"):
docs.extend(file_to_tokenized_docs_generator(f, encoder, args))
if not args.preserve_data_order:
# shuffle at individual document level
random.shuffle(docs)
return docs
def arrays_to_sequences(token_list_iterable, sequence_length=2049):
"""
Given token arrays of arbitrary lengths, concats/splits them into arrays of equal length
Returns equal-length token arrays, followed by a a final array of trailing tokens (which may be shorter)
"""
accum = []
for l in token_list_iterable:
accum.extend(l)
if len(accum) > sequence_length:
chunks = split_list(accum, sequence_length)
yield from chunks[:-1]
accum = chunks[-1]
if len(accum) > 0:
yield accum
def chunk_and_finalize(arrays, args, encoder):
sequences = list(arrays_to_sequences(arrays))
full_seqs, trailing_data = sequences[:-1], sequences[-1]
if args.min_unique_tokens > 0:
full_seqs = list(enforce_min_unique(full_seqs, args.min_unique_tokens, encoder, args.verbose))
if not args.preserve_data_order:
random.shuffle(full_seqs)
return full_seqs, trailing_data
def create_tfrecords(files, args):
GPT2TokenizerFast.max_model_input_sizes['gpt2'] = 1e20 # disables a misleading warning
encoder = GPT2TokenizerFast.from_pretrained('gpt2')
random.seed(args.seed)
all_sequences_across_epochs = []
docs = read_files_to_tokenized_docs(files, args, encoder)
full_seqs, trailing_data = chunk_and_finalize(docs, args, encoder)
all_sequences_across_epochs.extend(full_seqs)
# ep 2+
for ep_ix in range(1, args.n_repack_epochs):
# re-shuffle
if not args.preserve_data_order:
random.shuffle(docs)
full_seqs, trailing_data = chunk_and_finalize(docs, args, encoder)
else:
# if we're preserving data order, we can still "repack" by shifting everything
# with the trailing data of the last epoch at the beginning
seqs_with_prefix = [trailing_data] + full_seqs
full_seqs, trailing_data = chunk_and_finalize(seqs_with_prefix, args, encoder)
all_sequences_across_epochs.extend(full_seqs)
# final
print(f"dropped {len(trailing_data)} tokens of trailing data")
total_sequence_len = len(all_sequences_across_epochs)
fp = os.path.join(args.output_dir, f"{args.name}_{total_sequence_len}.tfrecords")
write_tfrecord(all_sequences_across_epochs, fp)
if __name__ == "__main__":
args = parse_args()
if args.output_dir:
os.makedirs(args.output_dir, exist_ok=True)
files = get_files(args.input_path)
print(f"Creating TFRecords from files: {files}")
results = create_tfrecords(files, args)