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"""Module containing data utilities""" |
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import functools |
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import hashlib |
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import logging |
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from hashlib import md5 |
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from pathlib import Path |
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from typing import Tuple, Union |
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|
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import torch |
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from datasets import ( |
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Dataset, |
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DatasetDict, |
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concatenate_datasets, |
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load_dataset, |
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load_from_disk, |
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) |
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from huggingface_hub import hf_hub_download |
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from transformers import PreTrainedTokenizerBase |
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|
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from axolotl.datasets import ConstantLengthDataset, TokenizedPromptDataset |
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from axolotl.prompt_strategies import load |
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from axolotl.prompt_tokenizers import ( |
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AlpacaMultipleChoicePromptTokenizingStrategy, |
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AlpacaPromptTokenizingStrategy, |
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AlpacaReflectionPTStrategy, |
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CompletionPromptTokenizingStrategy, |
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GPTeacherPromptTokenizingStrategy, |
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JeopardyPromptTokenizingStrategy, |
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OpenAssistantPromptTokenizingStrategy, |
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ShareGPTPromptTokenizingStrategy, |
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SummarizeTLDRPromptTokenizingStrategy, |
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) |
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from axolotl.prompters import ( |
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AlpacaPrompter, |
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CompletionPrompter, |
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GPTeacherPrompter, |
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JeopardyPrompter, |
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MultipleChoiceConcisePrompter, |
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MultipleChoiceExplainPrompter, |
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ReflectAlpacaPrompter, |
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ShareGPTPrompter, |
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SummarizeTLDRPrompter, |
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) |
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from axolotl.utils.distributed import is_main_process, zero_first |
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from axolotl.utils.trainer import ( |
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calculate_total_num_steps, |
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process_datasets_for_packing, |
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) |
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LOG = logging.getLogger("axolotl") |
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DEFAULT_DATASET_PREPARED_PATH = "last_run_prepared" |
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|
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def prepare_dataset(cfg, tokenizer): |
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if not cfg.pretraining_dataset: |
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train_dataset, eval_dataset = load_prepare_datasets( |
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tokenizer, cfg, DEFAULT_DATASET_PREPARED_PATH |
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) |
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else: |
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train_dataset = load_pretraining_dataset( |
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cfg.pretraining_dataset, |
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tokenizer, |
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max_tokens=cfg.sequence_len, |
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seed=cfg.seed or 42, |
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) |
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|
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train_dataset = train_dataset.with_format("torch") |
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eval_dataset = None |
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|
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with zero_first(is_main_process()): |
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train_dataset, eval_dataset = process_datasets_for_packing( |
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cfg, train_dataset, eval_dataset |
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) |
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if cfg.max_steps: |
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total_num_steps = min( |
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calculate_total_num_steps(cfg, train_dataset, tokenizer), cfg.max_steps |
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) |
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LOG.info(f"Maximum number of steps set at {total_num_steps}") |
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else: |
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total_num_steps = calculate_total_num_steps(cfg, train_dataset, tokenizer) |
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return train_dataset, eval_dataset, total_num_steps |
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|
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def load_tokenized_prepared_datasets( |
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tokenizer, cfg, default_dataset_prepared_path |
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) -> DatasetDict: |
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tokenizer_name = tokenizer.__class__.__name__ |
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ds_hash = str( |
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md5( |
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( |
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str(cfg.sequence_len) |
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+ "@" |
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+ "|".join( |
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sorted([f"{d.path}:{d.type}:{d.shards}" for d in cfg.datasets]) |
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) |
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+ "|" |
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+ tokenizer_name |
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).encode("utf-8") |
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).hexdigest() |
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) |
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prepared_ds_path = ( |
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Path(cfg.dataset_prepared_path) / ds_hash |
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if cfg.dataset_prepared_path |
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else Path(default_dataset_prepared_path) / ds_hash |
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) |
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dataset = None |
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use_auth_token = cfg.hf_use_auth_token |
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try: |
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if cfg.push_dataset_to_hub: |
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dataset = load_dataset( |
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f"{cfg.push_dataset_to_hub}/{ds_hash}", |
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use_auth_token=use_auth_token, |
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) |
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dataset = dataset["train"] |
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except Exception: |
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pass |
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|
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if dataset: |
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... |
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elif any(prepared_ds_path.glob("*")): |
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LOG.info(f"Loading prepared dataset from disk at {prepared_ds_path}...") |
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dataset = load_from_disk(str(prepared_ds_path)) |
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LOG.info("Prepared dataset loaded from disk...") |
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else: |
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LOG.info(f"Unable to find prepared dataset in {prepared_ds_path}") |
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LOG.info("Loading raw datasets...") |
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|
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if cfg.seed: |
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seed = cfg.seed |
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else: |
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LOG.info("No seed provided, using default seed of 42") |
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seed = 42 |
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datasets = [] |
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|
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for d in cfg.datasets: |
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ds: Union[Dataset, DatasetDict] = None |
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ds_from_hub = False |
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try: |
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load_dataset( |
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d.path, |
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name=d.name, |
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streaming=True, |
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use_auth_token=use_auth_token, |
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) |
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ds_from_hub = True |
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except FileNotFoundError: |
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pass |
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local_path = Path(d.path) |
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if local_path.exists(): |
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if local_path.is_dir(): |
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|
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ds = load_dataset( |
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d.path, |
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name=d.name, |
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data_files=d.data_files, |
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streaming=False, |
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split=None, |
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) |
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elif local_path.is_file(): |
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ds = load_dataset( |
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"json", |
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name=d.name, |
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data_files=d.path, |
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streaming=False, |
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split=None, |
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) |
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else: |
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raise ValueError( |
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"unhandled dataset load: local path exists, but is neither a directory or a file" |
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) |
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elif ds_from_hub: |
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ds = load_dataset( |
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d.path, |
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name=d.name, |
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streaming=False, |
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data_files=d.data_files, |
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use_auth_token=use_auth_token, |
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) |
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else: |
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fp = hf_hub_download( |
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repo_id=d.path, |
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repo_type="dataset", |
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filename=d.data_files, |
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) |
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ds = load_dataset( |
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"json", name=d.name, data_files=fp, streaming=False, split=None |
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) |
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if not ds: |
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raise ValueError("unhandled dataset load") |
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|
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if d.shards: |
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if "train" in ds: |
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ds = ds.shuffle(seed=seed)["train"].shard( |
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num_shards=d.shards, index=0 |
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) |
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else: |
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ds = ds.shuffle(seed=seed).shard(num_shards=d.shards, index=0) |
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d_type = d.type |
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d_type_split = d_type.split(":") |
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d_base_type = d_type_split[0] |
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d_prompt_style = d_type_split[1] if len(d_type_split) > 1 else None |
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if "train" in ds: |
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ds = ds["train"] |
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if ds_strategy := load(d.type, tokenizer, cfg): |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "alpaca": |
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ds_strategy = AlpacaPromptTokenizingStrategy( |
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AlpacaPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "explainchoice": |
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ds_strategy = AlpacaMultipleChoicePromptTokenizingStrategy( |
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MultipleChoiceExplainPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "concisechoice": |
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ds_strategy = AlpacaMultipleChoicePromptTokenizingStrategy( |
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MultipleChoiceConcisePrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "summarizetldr": |
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ds_strategy = SummarizeTLDRPromptTokenizingStrategy( |
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SummarizeTLDRPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "jeopardy": |
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ds_strategy = JeopardyPromptTokenizingStrategy( |
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JeopardyPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "oasst": |
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ds_strategy = OpenAssistantPromptTokenizingStrategy( |
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AlpacaPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "gpteacher": |
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ds_strategy = GPTeacherPromptTokenizingStrategy( |
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GPTeacherPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "reflection": |
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ds_strategy = AlpacaReflectionPTStrategy( |
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ReflectAlpacaPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "sharegpt": |
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ds_strategy = ShareGPTPromptTokenizingStrategy( |
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ShareGPTPrompter(d_prompt_style), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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elif d_base_type == "completion": |
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ds_strategy = CompletionPromptTokenizingStrategy( |
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CompletionPrompter(), |
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tokenizer, |
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cfg.train_on_inputs, |
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cfg.sequence_len, |
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) |
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ds_wrapper = TokenizedPromptDataset(ds_strategy, ds) |
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datasets.append(ds_wrapper) |
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else: |
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suffix = "" |
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if ":load_" in d.type: |
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suffix = f" Did you mean {d.type.replace(':load_', '.load_')}?" |
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LOG.error(f"unhandled prompt tokenization strategy: {d.type}. {suffix}") |
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raise ValueError( |
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f"unhandled prompt tokenization strategy: {d.type} {suffix}" |
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) |
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LOG.info("merging datasets") |
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dataset = concatenate_datasets(datasets) |
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|
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if len(datasets) > 1: |
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LOG.info("shuffle merged datasets") |
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dataset = dataset.shuffle(seed=seed) |
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if cfg.local_rank == 0: |
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LOG.info(f"Saving merged prepared dataset to disk... {prepared_ds_path}") |
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dataset.save_to_disk(prepared_ds_path) |
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if cfg.push_dataset_to_hub: |
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LOG.info( |
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f"Saving merged prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}" |
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) |
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dataset.push_to_hub( |
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f"{cfg.push_dataset_to_hub}/{ds_hash}", private=True |
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) |
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return dataset |
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|
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def load_prepare_datasets( |
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tokenizer: PreTrainedTokenizerBase, |
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cfg, |
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default_dataset_prepared_path, |
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) -> Tuple[Dataset, Dataset]: |
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max_packed_sequence_len = ( |
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cfg.max_packed_sequence_len if cfg.max_packed_sequence_len else cfg.sequence_len |
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) |
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max_packed_sequence_len = min( |
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max_packed_sequence_len, cfg.sequence_len |
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) |
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|
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tokenizer_name = tokenizer.__class__.__name__ |
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if cfg.max_packed_sequence_len is not None: |
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|
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seed = f"@{str(cfg.seed)}" if cfg.seed else "" |
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ds_hash = str( |
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md5( |
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( |
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str(cfg.sequence_len) |
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+ "@" |
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+ str(max_packed_sequence_len) |
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+ seed |
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+ "|".join( |
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sorted([f"{d.path}:{d.type}:{d.shards}" for d in cfg.datasets]) |
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) |
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+ "|" |
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+ tokenizer_name |
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).encode("utf-8") |
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).hexdigest() |
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) |
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prepared_ds_path = ( |
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Path(cfg.dataset_prepared_path) / ds_hash |
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if cfg.dataset_prepared_path |
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else Path(default_dataset_prepared_path) / ds_hash |
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) |
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|
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dataset = None |
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use_auth_token = cfg.hf_use_auth_token |
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try: |
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if cfg.push_dataset_to_hub: |
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LOG.info( |
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f"Checking for packed prepared dataset from hub... {cfg.push_dataset_to_hub}/{ds_hash}" |
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) |
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dataset = load_dataset( |
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f"{cfg.push_dataset_to_hub}/{ds_hash}", |
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use_auth_token=use_auth_token, |
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) |
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dataset = dataset["train"] |
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except Exception: |
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pass |
|
|
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if dataset: |
|
... |
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elif any(prepared_ds_path.glob("*")): |
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LOG.info( |
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f"Loading prepared packed dataset from disk at {prepared_ds_path}..." |
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) |
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dataset = load_from_disk(str(prepared_ds_path)) |
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LOG.info("Prepared packed dataset loaded from disk...") |
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if cfg.push_dataset_to_hub: |
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LOG.info( |
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f"Saving packed prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}" |
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) |
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dataset.push_to_hub( |
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f"{cfg.push_dataset_to_hub}/{ds_hash}", private=True |
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) |
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else: |
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dataset = load_tokenized_prepared_datasets( |
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tokenizer, cfg, default_dataset_prepared_path |
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) |
|
|
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if cfg.seed: |
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dataset = dataset.shuffle(seed=cfg.seed) |
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|
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constant_len_dataset = ConstantLengthDataset( |
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tokenizer, |
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[dataset], |
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seq_length=max_packed_sequence_len, |
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) |
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LOG.info(f"packing master dataset to len: {cfg.max_packed_sequence_len}") |
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dataset = Dataset.from_list(list(constant_len_dataset)) |
|
|
|
|
|
|
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dataset = Dataset.from_list( |
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[ |
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d |
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for d in dataset |
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if len(d["input_ids"]) <= cfg.sequence_len |
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and len(d["input_ids"]) > 0 |
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and len(d["input_ids"]) == len(d["attention_mask"]) |
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and len(d["input_ids"]) == len(d["labels"]) |
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] |
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) |
|
|
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if cfg.local_rank == 0: |
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LOG.info( |
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f"Saving packed prepared dataset to disk... {prepared_ds_path}" |
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) |
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dataset.save_to_disk(prepared_ds_path) |
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if cfg.push_dataset_to_hub: |
|
LOG.info( |
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f"Saving packed prepared dataset with push_to_hub... {cfg.push_dataset_to_hub}/{ds_hash}" |
|
) |
|
dataset.push_to_hub( |
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f"{cfg.push_dataset_to_hub}/{ds_hash}", |
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private=True, |
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) |
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else: |
|
dataset = load_tokenized_prepared_datasets( |
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tokenizer, cfg, default_dataset_prepared_path |
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) |
|
|
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if cfg.dataset_shard_num and cfg.dataset_shard_idx is not None: |
|
LOG.info( |
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f"Using index #{cfg.dataset_shard_idx} of {cfg.dataset_shard_num} shards" |
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) |
|
dataset = dataset.shard( |
|
num_shards=cfg.dataset_shard_num, |
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index=cfg.dataset_shard_idx, |
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) |
|
|
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if cfg.val_set_size: |
|
|
|
to_hash_train = ( |
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dataset._fingerprint |
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+ "|" |
|
+ str(cfg.val_set_size) |
|
+ "|" |
|
+ "train" |
|
+ "|" |
|
+ str(cfg.seed or 42) |
|
) |
|
to_hash_test = ( |
|
dataset._fingerprint |
|
+ "|" |
|
+ str(cfg.val_set_size) |
|
+ "|" |
|
+ "test" |
|
+ "|" |
|
+ str(cfg.seed or 42) |
|
) |
|
train_fingerprint = hashlib.md5( |
|
to_hash_train.encode(), usedforsecurity=False |
|
).hexdigest() |
|
test_fingerprint = hashlib.md5( |
|
to_hash_test.encode(), usedforsecurity=False |
|
).hexdigest() |
|
|
|
with zero_first(is_main_process()): |
|
dataset = dataset.train_test_split( |
|
test_size=cfg.val_set_size, |
|
shuffle=False, |
|
seed=cfg.seed or 42, |
|
train_new_fingerprint=train_fingerprint, |
|
test_new_fingerprint=test_fingerprint, |
|
) |
|
|
|
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, |
|
) |
|
|
|
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 = [] |
|
|
|
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) |
|
|
|
|
|
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: |
|
while buffer_input_ids.numel() < max_tokens: |
|
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], |
|
} |
|
|
|
LOG.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) |
|
|
|
dataset = dataset.map(encode, batched=True, remove_columns=["text", "meta"]) |
|
return dataset |
|
|