"""Implementation derived from https://github.com/tloen/alpaca-lora""" import sys from pathlib import Path # support running without installing as a package wd = Path(__file__).parent.parent.resolve() sys.path.append(str(wd)) import torch import requests import json from torch.utils.data import random_split from lit_llama.tokenizer import Tokenizer from tqdm import tqdm DATA_FILE = "https://raw.githubusercontent.com/tloen/alpaca-lora/main/alpaca_data_cleaned_archive.json" DATA_FILE_NAME = "alpaca_data_cleaned_archive.json" IGNORE_INDEX = -1 def prepare( destination_path: Path = Path("data/alpaca"), tokenizer_path: Path = Path("checkpoints/lit-llama/tokenizer.model"), test_split_size: int = 200, #test_split_size: int = 2, max_seq_length: int = 256, seed: int = 42, mask_inputs: bool = False, # as in alpaca-lora data_file_name: str = DATA_FILE_NAME ) -> None: """Prepare the Alpaca dataset for instruction tuning. The output is a training and validation dataset saved as `train.pt` and `val.pt`, which stores the preprocessed and tokenized prompts and labels. """ destination_path.mkdir(parents=True, exist_ok=True) file_path = destination_path / data_file_name download(file_path) # TODO: If we don't have the Meta weights, where do we get the tokenizer from? tokenizer = Tokenizer(tokenizer_path) print(file_path) #file = open(file_path, 'r', encoding='utf-8') with open(file_path, 'r', encoding='utf-8') as file: data = json.load(file) #data = json.load(file) # filedata = file.read() #print(filedata) # Partition the dataset into train and test train_split_size = len(data) - test_split_size train_set, test_set = random_split( data, lengths=(train_split_size, test_split_size), generator=torch.Generator().manual_seed(seed), ) train_set, test_set = list(train_set), list(test_set) print(f"train has {len(train_set):,} samples") print(f"val has {len(test_set):,} samples") print("Processing train split ...") train_set = [prepare_sample(sample, tokenizer, max_seq_length, mask_inputs) for sample in tqdm(train_set)] torch.save(train_set, file_path.parent / "train.pt") print("Processing test split ...") test_set = [prepare_sample(sample, tokenizer, max_seq_length, mask_inputs) for sample in tqdm(test_set)] torch.save(test_set, file_path.parent / "test.pt") def download(file_path: Path): """Downloads the raw json data file and saves it in the given destination.""" if file_path.exists(): return with open(file_path, "w") as f: f.write(requests.get(DATA_FILE).text) def prepare_sample(example: dict, tokenizer: Tokenizer, max_length: int, mask_inputs: bool = True): """Processes a single sample. Each sample in the dataset consists of: - instruction: A string describing the task - input: A string holding a special input value for the instruction. This only applies to some samples, and in others this is empty. - output: The response string This function processes this data to produce a prompt text and a label for supervised training. The prompt text is formed as a single message including both the instruction and the input. The label/target is the same message but with the response attached. Finally, both the prompt and the label get tokenized. If desired, all tokens in the label that correspond to the original input prompt get masked out (default). """ full_prompt = generate_prompt(example) full_prompt_and_response = full_prompt + example["output"] encoded_full_prompt = tokenize(tokenizer, full_prompt, max_length=max_length, eos=False) encoded_full_prompt_and_response = tokenize(tokenizer, full_prompt_and_response, eos=True, max_length=max_length) # The labels are the full prompt with response, but with the prompt masked out labels = encoded_full_prompt_and_response.clone() if mask_inputs: labels[:len(encoded_full_prompt)] = IGNORE_INDEX return {**example, "input_ids": encoded_full_prompt_and_response, "input_ids_no_response": encoded_full_prompt, "labels": labels} def tokenize(tokenizer: Tokenizer, string: str, max_length: int, eos=True) -> torch.Tensor: return tokenizer.encode(string, bos=True, eos=eos, max_length=max_length) def generate_prompt(example): """Generates a standardized message to prompt the model with an instruction, optional input and a 'response' field.""" if example["input"]: return ( "Below is an instruction that describes a task, paired with an input that provides further context. " "Write a response that appropriately completes the request.\n\n" f"### Instruction:\n{example['instruction']}\n\n### Input:\n{example['input']}\n\n### Response:" ) return ( "Below is an instruction that describes a task. " "Write a response that appropriately completes the request.\n\n" f"### Instruction:\n{example['instruction']}\n\n### Response:" ) if __name__ == "__main__": from jsonargparse import CLI CLI(prepare)