winglian's picture
Merge branch 'main' into flash-optimum
fd2c981 unverified
raw
history blame
20 kB
"""Module containing data utilities"""
import functools
import logging
from hashlib import md5
from pathlib import Path
from typing import List, Tuple, Union
import torch
from datasets import Dataset, DatasetDict, load_dataset, load_from_disk
from huggingface_hub import hf_hub_download
from transformers import PreTrainedTokenizerBase
from axolotl.datasets import ConstantLengthDataset, TokenizedPromptDataset
from axolotl.prompt_strategies import load
from axolotl.prompt_tokenizers import (
AlpacaMultipleChoicePromptTokenizingStrategy,
AlpacaPromptTokenizingStrategy,
AlpacaReflectionPTStrategy,
CompletionPromptTokenizingStrategy,
GPTeacherPromptTokenizingStrategy,
JeopardyPromptTokenizingStrategy,
OpenAssistantPromptTokenizingStrategy,
ShareGPTPromptTokenizingStrategy,
SummarizeTLDRPromptTokenizingStrategy,
)
from axolotl.prompters import (
AlpacaPrompter,
CompletionPrompter,
GPTeacherPrompter,
JeopardyPrompter,
MultipleChoiceConcisePrompter,
MultipleChoiceExplainPrompter,
ReflectAlpacaPrompter,
ShareGPTPrompter,
SummarizeTLDRPrompter,
)
def load_tokenized_prepared_datasets(
tokenizer, cfg, default_dataset_prepared_path
) -> DatasetDict:
tokenizer_name = tokenizer.__class__.__name__
ds_hash = str(
md5( # nosec
(
str(cfg.sequence_len)
+ "@"
+ "|".join(
sorted([f"{d.path}:{d.type}:{d.shards}" for d in cfg.datasets])
)
+ "|"
+ tokenizer_name
).encode("utf-8")
).hexdigest()
)
prepared_ds_path = (
Path(cfg.dataset_prepared_path) / ds_hash
if cfg.dataset_prepared_path
else Path(default_dataset_prepared_path) / ds_hash
)
dataset = None
use_auth_token = cfg.hf_use_auth_token
try:
if cfg.push_dataset_to_hub:
dataset = load_dataset(
f"{cfg.push_dataset_to_hub}/{ds_hash}",
use_auth_token=use_auth_token,
)
dataset = dataset["train"]
except Exception: # pylint: disable=broad-except # nosec
pass
if dataset:
...
elif any(prepared_ds_path.glob("*")):
logging.info(f"Loading prepared dataset from disk at {prepared_ds_path}...")
dataset = load_from_disk(str(prepared_ds_path))
logging.info("Prepared dataset loaded from disk...")
else:
logging.info(f"Unable to find prepared dataset in {prepared_ds_path}")
logging.info("Loading raw datasets...")
if cfg.seed:
seed = cfg.seed
else:
logging.info("No seed provided, using default seed of 42")
seed = 42
datasets = []
# pylint: disable=invalid-name
for d in cfg.datasets:
ds: Union[Dataset, DatasetDict] = None
ds_from_hub = False
try:
load_dataset(
d.path,
streaming=True,
use_auth_token=use_auth_token,
)
ds_from_hub = True
except FileNotFoundError:
pass
# prefer local dataset, even if hub exists
if Path(d.path).exists():
ds = load_dataset(
"json",
data_files=d.path,
streaming=False,
split=None,
)
elif ds_from_hub:
if d.data_files:
ds = load_dataset(
d.path,
streaming=False,
data_files=d.data_files,
use_auth_token=use_auth_token,
)
else:
ds = load_dataset(
d.path,
streaming=False,
use_auth_token=use_auth_token,
)
else:
fp = hf_hub_download(
repo_id=d.path,
repo_type="dataset",
filename=d.data_files,
)
ds = load_dataset("json", data_files=fp, streaming=False, split=None)
if not ds:
raise ValueError("unhandled dataset load")
# support for using a subset of the data
if d.shards:
if "train" in ds:
ds = ds.shuffle(seed=seed)["train"].shard(
num_shards=d.shards, index=0
)
else:
ds = ds.shuffle(seed=seed).shard(num_shards=d.shards, index=0)
d_type = d.type
d_type_split = d_type.split(":")
d_base_type = d_type_split[0]
d_prompt_style = d_type_split[1] if len(d_type_split) > 1 else None
if "train" in ds:
ds = ds["train"]
if ds_strategy := load(d.type, tokenizer, cfg):
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "alpaca":
ds_strategy = AlpacaPromptTokenizingStrategy(
AlpacaPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "explainchoice":
ds_strategy = AlpacaMultipleChoicePromptTokenizingStrategy(
MultipleChoiceExplainPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "concisechoice":
ds_strategy = AlpacaMultipleChoicePromptTokenizingStrategy(
MultipleChoiceConcisePrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "summarizetldr":
ds_strategy = SummarizeTLDRPromptTokenizingStrategy(
SummarizeTLDRPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "jeopardy":
ds_strategy = JeopardyPromptTokenizingStrategy(
JeopardyPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "oasst":
ds_strategy = OpenAssistantPromptTokenizingStrategy(
AlpacaPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "gpteacher":
ds_strategy = GPTeacherPromptTokenizingStrategy(
GPTeacherPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "reflection":
ds_strategy = AlpacaReflectionPTStrategy(
ReflectAlpacaPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "sharegpt":
ds_strategy = ShareGPTPromptTokenizingStrategy(
ShareGPTPrompter(d_prompt_style),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
elif d_base_type == "completion":
ds_strategy = CompletionPromptTokenizingStrategy(
CompletionPrompter(),
tokenizer,
cfg.train_on_inputs,
cfg.sequence_len,
)
ds_wrapper = TokenizedPromptDataset(ds_strategy, ds)
datasets.append(ds_wrapper)
else:
suffix = ""
if ":load_" in d.type:
suffix = f" Did you mean {d.type.replace(':load_', '.load_')}?"
logging.error(
f"unhandled prompt tokenization strategy: {d.type}. {suffix}"
)
raise ValueError(
f"unhandled prompt tokenization strategy: {d.type} {suffix}"
)
logging.info("tokenizing, merging, and shuffling master dataset")
samples: List[int] = []
for d in datasets:
samples = samples + list(d)
dataset = Dataset.from_list(samples).shuffle(seed=seed)
if cfg.local_rank == 0:
logging.info(
f"Saving merged prepared dataset to disk... {prepared_ds_path}"
)
dataset.save_to_disk(prepared_ds_path)
if cfg.push_dataset_to_hub:
logging.info(
f"Saving merged prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}"
)
dataset.push_to_hub(
f"{cfg.push_dataset_to_hub}/{ds_hash}", private=True
)
return dataset
def load_prepare_datasets(
tokenizer: PreTrainedTokenizerBase,
cfg,
default_dataset_prepared_path,
) -> Tuple[Dataset, Dataset]:
max_packed_sequence_len = (
cfg.max_packed_sequence_len if cfg.max_packed_sequence_len else cfg.sequence_len
)
max_packed_sequence_len = min(
max_packed_sequence_len, cfg.sequence_len
) # make sure we don't accidentally set it larger than sequence_len
tokenizer_name = tokenizer.__class__.__name__
if cfg.max_packed_sequence_len is not None:
# see if we can go ahead and load the stacked dataset
seed = f"@{str(cfg.seed)}" if cfg.seed else ""
ds_hash = str(
md5( # nosec
(
str(cfg.sequence_len)
+ "@"
+ str(max_packed_sequence_len)
+ seed
+ "|".join(
sorted([f"{d.path}:{d.type}:{d.shards}" for d in cfg.datasets])
)
+ "|"
+ tokenizer_name
).encode("utf-8")
).hexdigest()
)
prepared_ds_path = (
Path(cfg.dataset_prepared_path) / ds_hash
if cfg.dataset_prepared_path
else Path(default_dataset_prepared_path) / ds_hash
)
dataset = None
use_auth_token = cfg.hf_use_auth_token
try:
if cfg.push_dataset_to_hub:
logging.info(
f"Checking for packed prepared dataset from hub... {cfg.push_dataset_to_hub}/{ds_hash}"
)
dataset = load_dataset(
f"{cfg.push_dataset_to_hub}/{ds_hash}",
use_auth_token=use_auth_token,
)
dataset = dataset["train"]
except Exception: # pylint: disable=broad-except # nosec
pass
if dataset:
...
elif any(prepared_ds_path.glob("*")):
logging.info(
f"Loading prepared packed dataset from disk at {prepared_ds_path}..."
)
dataset = load_from_disk(str(prepared_ds_path))
logging.info("Prepared packed dataset loaded from disk...")
if cfg.push_dataset_to_hub:
logging.info(
f"Saving packed prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}"
)
dataset.push_to_hub(
f"{cfg.push_dataset_to_hub}/{ds_hash}", private=True
)
else:
dataset = load_tokenized_prepared_datasets(
tokenizer, cfg, default_dataset_prepared_path
)
if cfg.seed:
dataset = dataset.shuffle(seed=cfg.seed)
constant_len_dataset = ConstantLengthDataset(
tokenizer,
[dataset],
seq_length=max_packed_sequence_len,
)
logging.info(
f"packing master dataset to len: {cfg.max_packed_sequence_len}"
)
dataset = Dataset.from_list(list(constant_len_dataset))
# filter out bad data
dataset = Dataset.from_list(
[
d
for d in dataset
if len(d["input_ids"]) < cfg.sequence_len
and len(d["input_ids"]) > 0
and len(d["input_ids"]) == len(d["attention_mask"])
and len(d["input_ids"]) == len(d["labels"])
]
)
if cfg.local_rank == 0:
logging.info(
f"Saving packed prepared dataset to disk... {prepared_ds_path}"
)
dataset.save_to_disk(prepared_ds_path)
if cfg.push_dataset_to_hub:
logging.info(
f"Saving packed prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}"
)
dataset.push_to_hub(
f"{cfg.push_dataset_to_hub}/{ds_hash}",
private=True,
)
else:
dataset = load_tokenized_prepared_datasets(
tokenizer, cfg, default_dataset_prepared_path
)
if cfg.dataset_shard_num and cfg.dataset_shard_idx is not None:
logging.info(
f"Using index #{cfg.dataset_shard_idx} of {cfg.dataset_shard_num} shards"
)
dataset = dataset.shard(
num_shards=cfg.dataset_shard_num,
index=cfg.dataset_shard_idx,
)
if cfg.val_set_size:
dataset = dataset.train_test_split(test_size=cfg.val_set_size, shuffle=False)
train_dataset = dataset["train"]
eval_dataset = dataset["test"]
else:
train_dataset = dataset
eval_dataset = None
return train_dataset, eval_dataset
def encode_pretraining(tokenizer, max_tokens, examples):
res = tokenizer(
examples["text"],
truncation=True,
max_length=max_tokens - 2,
add_special_tokens=True,
)
# Convert to PyTorch tensors
input_ids = [torch.tensor(seq) for seq in res["input_ids"]]
attention_mask = [torch.tensor(seq) for seq in res["attention_mask"]]
new_input_ids = []
new_attention_mask = []
# Append EOS and PAD tokens to input_ids, and correct attention_mask
for i, _ in enumerate(input_ids):
input_ids[i] = torch.cat(
(
input_ids[i],
torch.tensor([tokenizer.eos_token_id, tokenizer.pad_token_id]),
),
dim=0,
)
attention_mask[i] = torch.cat((attention_mask[i], torch.tensor([1, 0])), dim=0)
# Concatenate tokens so that their lengths are less than max_tokens
buffer_input_ids = torch.tensor([], dtype=torch.long)
buffer_attention_mask = torch.tensor([], dtype=torch.long)
for ids, mask in zip(input_ids, attention_mask):
if buffer_input_ids.numel() == max_tokens:
new_input_ids.append(buffer_input_ids)
new_attention_mask.append(buffer_attention_mask)
buffer_input_ids = torch.tensor([], dtype=torch.long)
buffer_attention_mask = torch.tensor([], dtype=torch.long)
buffer_input_ids = torch.cat((buffer_input_ids, ids), dim=0)
buffer_attention_mask = torch.cat((buffer_attention_mask, mask), dim=0)
elif buffer_input_ids.numel() + ids.numel() <= max_tokens:
buffer_input_ids = torch.cat((buffer_input_ids, ids), dim=0)
buffer_attention_mask = torch.cat((buffer_attention_mask, mask), dim=0)
else:
buffer_input_ids = torch.cat(
(
buffer_input_ids,
torch.full(
(max_tokens - buffer_input_ids.numel(),),
tokenizer.pad_token_id,
dtype=torch.long,
),
),
dim=0,
)
buffer_attention_mask = torch.cat(
(
buffer_attention_mask,
torch.full(
(max_tokens - buffer_attention_mask.numel(),),
0,
dtype=torch.long,
),
),
dim=0,
)
new_input_ids.append(buffer_input_ids)
new_attention_mask.append(buffer_attention_mask)
buffer_input_ids = torch.tensor([], dtype=torch.long)
buffer_attention_mask = torch.tensor([], dtype=torch.long)
buffer_input_ids = torch.cat((buffer_input_ids, ids), dim=0)
buffer_attention_mask = torch.cat((buffer_attention_mask, mask), dim=0)
if buffer_input_ids.numel() > 0: # for any leftover tokens
while buffer_input_ids.numel() < max_tokens: # make all sequences equal in size
buffer_input_ids = torch.cat(
(
buffer_input_ids,
torch.full(
(max_tokens - buffer_input_ids.numel(),),
tokenizer.pad_token_id,
dtype=torch.long,
),
),
dim=0,
)
buffer_attention_mask = torch.cat(
(
buffer_attention_mask,
torch.full(
(max_tokens - buffer_attention_mask.numel(),),
0,
dtype=torch.long,
),
),
dim=0,
)
new_input_ids.append(buffer_input_ids)
new_attention_mask.append(buffer_attention_mask)
ret = {
"input_ids": [seq.tolist() for seq in new_input_ids],
"labels": [seq.tolist() for seq in new_input_ids],
"attention_mask": [seq.tolist() for seq in new_attention_mask],
}
logging.debug(len(ret["input_ids"]))
return ret
def load_pretraining_dataset(path, tokenizer, max_tokens=2048, seed=42):
encode = functools.partial(encode_pretraining, tokenizer, max_tokens)
dataset = load_dataset(path, streaming=True, split="train")
dataset = dataset.shuffle(seed=seed, buffer_size=10_000)
# TODO dynamically figure out which columns/features to remove
dataset = dataset.map(encode, batched=True, remove_columns=["text", "meta"])
return dataset