ColossalAI/applications/Chat/coati/trainer/base.py

169 lines
7.3 KiB
Python

from abc import ABC, abstractmethod
from typing import Any, Callable, Dict, List, Optional, Union
import torch
from coati.experience_maker import Experience, ExperienceMaker
from coati.replay_buffer import ReplayBuffer
from torch import Tensor
from torch.utils.data import DistributedSampler
from tqdm import tqdm
from .callbacks import Callback
from .strategies import Strategy
from .utils import is_rank_0
class Trainer(ABC):
"""
Base class for rlhf trainers.
Args:
strategy (Strategy):the strategy to use for training
experience_maker (ExperienceMaker): the experience maker to use for produce experience to fullfill replay buffer
replay_buffer (ReplayBuffer): the replay buffer to use for training
experience_batch_size (int, defaults to 8): the batch size to use for experience generation
max_epochs (int, defaults to 1): the number of epochs of training process
tokenizer (Callable, optional): the tokenizer to use for tokenizing the input
sample_replay_buffer (bool, defaults to False): whether to sample from replay buffer
data_loader_pin_memory (bool, defaults to True): whether to pin memory for data loader
callbacks (List[Callback], defaults to []): the callbacks to call during training process
generate_kwargs (dict, optional): the kwargs to use while model generating
"""
def __init__(self,
strategy: Strategy,
experience_maker: ExperienceMaker,
replay_buffer: ReplayBuffer,
experience_batch_size: int = 8,
max_epochs: int = 1,
tokenizer: Optional[Callable[[Any], dict]] = None,
sample_replay_buffer: bool = False,
dataloader_pin_memory: bool = True,
callbacks: List[Callback] = [],
**generate_kwargs) -> None:
super().__init__()
self.strategy = strategy
self.experience_maker = experience_maker
self.replay_buffer = replay_buffer
self.experience_batch_size = experience_batch_size
self.max_epochs = max_epochs
self.tokenizer = tokenizer
self.generate_kwargs = generate_kwargs
self.sample_replay_buffer = sample_replay_buffer
self.dataloader_pin_memory = dataloader_pin_memory
self.callbacks = callbacks
@abstractmethod
def training_step(self, experience: Experience) -> Dict[str, Any]:
pass
def _make_experience(self, inputs: Union[Tensor, Dict[str, Tensor]]) -> Experience:
if isinstance(inputs, Tensor):
return self.experience_maker.make_experience(inputs, **self.generate_kwargs)
elif isinstance(inputs, dict):
return self.experience_maker.make_experience(**inputs, **self.generate_kwargs)
else:
raise ValueError(f'Unsupported input type "{type(inputs)}"')
def _sample_prompts(self, prompts) -> list:
indices = list(range(len(prompts)))
sampled_indices = self.strategy.experience_sampler.choice(indices, self.experience_batch_size, replace=False)
return [prompts[i] for i in sampled_indices]
def _learn(self):
# replay buffer may be empty at first, we should rebuild at each training
if not self.sample_replay_buffer:
dataloader = self.strategy.setup_dataloader(self.replay_buffer, self.dataloader_pin_memory)
device = torch.cuda.current_device()
if self.sample_replay_buffer:
pbar = tqdm(range(self.max_epochs), desc='Train epoch', disable=not is_rank_0())
for _ in pbar:
experience = self.replay_buffer.sample()
metrics = self.training_step(experience)
pbar.set_postfix(metrics)
else:
for epoch in range(self.max_epochs):
self._on_learn_epoch_start(epoch)
if isinstance(dataloader.sampler, DistributedSampler):
dataloader.sampler.set_epoch(epoch)
pbar = tqdm(dataloader, desc=f'Train epoch [{epoch+1}/{self.max_epochs}]', disable=not is_rank_0())
for experience in pbar:
self._on_learn_batch_start()
experience.to_device(device)
metrics = self.training_step(experience)
self._on_learn_batch_end(metrics, experience)
pbar.set_postfix(metrics)
self._on_learn_epoch_end(epoch)
def fit(self,
prompt_dataloader,
pretrain_dataloader,
num_episodes: int = 50000,
max_timesteps: int = 500,
update_timesteps: int = 5000) -> None:
time = 0
self.pretrain_dataloader = pretrain_dataloader
self.prompt_dataloader = prompt_dataloader
self._on_fit_start()
for episode in range(num_episodes):
self._on_episode_start(episode)
for timestep in tqdm(range(max_timesteps),
desc=f'Episode [{episode+1}/{num_episodes}]',
disable=not is_rank_0()):
time += 1
prompts = next(iter(self.prompt_dataloader))
self._on_make_experience_start()
self.experience_maker.initial_model.to(torch.cuda.current_device())
self.experience_maker.reward_model.to(torch.cuda.current_device())
experience = self._make_experience(prompts)
self._on_make_experience_end(experience)
self.replay_buffer.append(experience)
if time % update_timesteps == 0:
self.experience_maker.initial_model.to('cpu')
self.experience_maker.reward_model.to('cpu')
self._learn()
self.replay_buffer.clear()
self._on_episode_end(episode)
self._on_fit_end()
# TODO(ver217): maybe simplify these code using context
def _on_fit_start(self) -> None:
for callback in self.callbacks:
callback.on_fit_start()
def _on_fit_end(self) -> None:
for callback in self.callbacks:
callback.on_fit_end()
def _on_episode_start(self, episode: int) -> None:
for callback in self.callbacks:
callback.on_episode_start(episode)
def _on_episode_end(self, episode: int) -> None:
for callback in self.callbacks:
callback.on_episode_end(episode)
def _on_make_experience_start(self) -> None:
for callback in self.callbacks:
callback.on_make_experience_start()
def _on_make_experience_end(self, experience: Experience) -> None:
for callback in self.callbacks:
callback.on_make_experience_end(experience)
def _on_learn_epoch_start(self, epoch: int) -> None:
for callback in self.callbacks:
callback.on_learn_epoch_start(epoch)
def _on_learn_epoch_end(self, epoch: int) -> None:
for callback in self.callbacks:
callback.on_learn_epoch_end(epoch)
def _on_learn_batch_start(self) -> None:
for callback in self.callbacks:
callback.on_learn_batch_start()
def _on_learn_batch_end(self, metrics: dict, experience: Experience) -> None:
for callback in self.callbacks:
callback.on_learn_batch_end(metrics, experience)