mirror of
https://github.com/hiyouga/LLaMA-Factory.git
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298 lines
13 KiB
Python
298 lines
13 KiB
Python
# Copyright 2024 HuggingFace Inc. and the LlamaFactory team.
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#
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# This code is inspired by the HuggingFace's TRL library.
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# https://github.com/huggingface/trl/blob/v0.8.0/trl/trainer/dpo_trainer.py
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import warnings
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from collections import defaultdict
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from contextlib import nullcontext
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from types import MethodType
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from typing import TYPE_CHECKING, Literal, Optional, Union
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import torch
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import torch.nn.functional as F
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from transformers import Trainer
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from trl import DPOTrainer
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from trl.trainer import disable_dropout_in_model
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from typing_extensions import override
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from ...extras.constants import IGNORE_INDEX
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from ...extras.packages import is_transformers_version_greater_than
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from ..callbacks import SaveProcessorCallback
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from ..trainer_utils import create_custom_optimizer, create_custom_scheduler, get_batch_logps, nested_detach
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if TYPE_CHECKING:
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from transformers import PreTrainedModel, ProcessorMixin
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from ...hparams import FinetuningArguments
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class CustomDPOTrainer(DPOTrainer):
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def __init__(
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self,
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model: Union["PreTrainedModel", torch.nn.Module],
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ref_model: Optional[Union["PreTrainedModel", torch.nn.Module]],
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finetuning_args: "FinetuningArguments",
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processor: Optional["ProcessorMixin"],
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disable_dropout: bool = True,
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**kwargs,
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):
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if is_transformers_version_greater_than("4.46"):
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kwargs["processing_class"] = kwargs.pop("tokenizer")
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if disable_dropout:
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disable_dropout_in_model(model)
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if ref_model is not None:
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disable_dropout_in_model(ref_model)
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self.finetuning_args = finetuning_args
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self.f_divergence_type = "reverse_kl"
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self.reference_free = False
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self.use_dpo_data_collator = True # hack to avoid warning
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self.generate_during_eval = False # disable at evaluation
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self.label_pad_token_id = IGNORE_INDEX
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self.padding_value = 0
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self.is_encoder_decoder = model.config.is_encoder_decoder
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self.precompute_ref_log_probs = False
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self._precomputed_train_ref_log_probs = False
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self._precomputed_eval_ref_log_probs = False
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self._peft_has_been_casted_to_bf16 = False
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self.ref_model = ref_model
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self._stored_metrics = defaultdict(lambda: defaultdict(list))
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# dpo hyperparams
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self.beta = finetuning_args.pref_beta
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self.loss_type = finetuning_args.pref_loss
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self.ftx_gamma = finetuning_args.pref_ftx
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self.label_smoothing = finetuning_args.dpo_label_smoothing
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self.simpo_gamma = finetuning_args.simpo_gamma
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Trainer.__init__(self, model=model, **kwargs)
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self.model_accepts_loss_kwargs = False # overwrite trainer's default behavior
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if not hasattr(self, "accelerator"):
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raise AttributeError("Please update `transformers`.")
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warnings.simplefilter("ignore") # remove gc warnings on ref model
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if ref_model is not None:
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if self.is_deepspeed_enabled:
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if not (
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getattr(ref_model, "is_loaded_in_8bit", False) or getattr(ref_model, "is_loaded_in_4bit", False)
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): # quantized models are already set on the correct device
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self.ref_model = self._prepare_deepspeed(self.ref_model)
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else:
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self.ref_model = self.accelerator.prepare_model(self.ref_model, evaluation_mode=True)
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self.ref_model.eval()
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if processor is not None:
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self.add_callback(SaveProcessorCallback(processor))
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if finetuning_args.use_badam:
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from badam import BAdamCallback, clip_grad_norm_old_version # type: ignore
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self.accelerator.clip_grad_norm_ = MethodType(clip_grad_norm_old_version, self.accelerator)
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self.add_callback(BAdamCallback)
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@override
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def create_optimizer(self) -> "torch.optim.Optimizer":
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if self.optimizer is None:
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self.optimizer = create_custom_optimizer(self.model, self.args, self.finetuning_args)
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return super().create_optimizer()
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@override
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def create_scheduler(
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self, num_training_steps: int, optimizer: Optional["torch.optim.Optimizer"] = None
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) -> "torch.optim.lr_scheduler.LRScheduler":
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create_custom_scheduler(self.args, num_training_steps, optimizer)
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return super().create_scheduler(num_training_steps, optimizer)
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@override
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def _get_train_sampler(self) -> Optional["torch.utils.data.Sampler"]:
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if self.finetuning_args.disable_shuffling:
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return torch.utils.data.SequentialSampler(self.train_dataset)
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return super()._get_train_sampler()
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@override
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def get_batch_samples(self, epoch_iterator, num_batches):
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r"""Replace the method of DPO Trainer with the one of the standard Trainer."""
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return Trainer.get_batch_samples(self, epoch_iterator, num_batches)
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def odds_ratio_loss(self, chosen_logps: "torch.Tensor", rejected_logps: "torch.Tensor") -> "torch.Tensor":
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r"""Compute ORPO's odds ratio (OR) loss for batched log probabilities of the policy model."""
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log_odds = (chosen_logps - rejected_logps) - (
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torch.log1p(-torch.exp(chosen_logps)) - torch.log1p(-torch.exp(rejected_logps))
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)
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sft_loss = -chosen_logps
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odds_ratio_loss = -F.logsigmoid(log_odds)
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orpo_loss = sft_loss + self.beta * odds_ratio_loss
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return orpo_loss
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def simpo_loss(self, chosen_logps: "torch.Tensor", rejected_logps: "torch.Tensor") -> "torch.Tensor":
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r"""Compute SimPO loss for batched log probabilities of the policy model."""
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pi_logratios = chosen_logps - rejected_logps
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gamma_logratios = self.simpo_gamma / self.beta
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logits = pi_logratios - gamma_logratios
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simpo_loss = -F.logsigmoid(self.beta * logits)
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return simpo_loss
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def compute_preference_loss(
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self,
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policy_chosen_logps: "torch.Tensor",
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policy_rejected_logps: "torch.Tensor",
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reference_chosen_logps: Optional["torch.Tensor"],
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reference_rejected_logps: Optional["torch.Tensor"],
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) -> tuple["torch.Tensor", "torch.Tensor", "torch.Tensor"]:
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r"""Compute loss for preference learning."""
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if not self.finetuning_args.use_ref_model:
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if self.loss_type == "orpo":
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losses = self.odds_ratio_loss(policy_chosen_logps, policy_rejected_logps)
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elif self.loss_type == "simpo":
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losses = self.simpo_loss(policy_chosen_logps, policy_rejected_logps)
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else:
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raise NotImplementedError(f"Unknown loss type: {self.loss_type}.")
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chosen_rewards = self.beta * policy_chosen_logps.to(self.accelerator.device).detach()
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rejected_rewards = self.beta * policy_rejected_logps.to(self.accelerator.device).detach()
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else:
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losses, chosen_rewards, rejected_rewards = self.dpo_loss(
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policy_chosen_logps, policy_rejected_logps, reference_chosen_logps, reference_rejected_logps
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)
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return losses, chosen_rewards, rejected_rewards
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@override
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def concatenated_forward(
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self, model: "PreTrainedModel", batch: dict[str, "torch.Tensor"]
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) -> tuple["torch.Tensor", "torch.Tensor", "torch.Tensor", "torch.Tensor", "torch.Tensor"]:
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r"""Compute the sum log probabilities of the labels under given logits if loss_type is not IPO, ORPO or SimPO.
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Otherwise the average log probabilities.
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"""
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if self.finetuning_args.use_ref_model:
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batch = nested_detach(batch, clone=True) # avoid error
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all_logits: torch.Tensor = model(**batch, return_dict=True, use_cache=False).logits.to(torch.float32)
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all_logps, valid_length = get_batch_logps(logits=all_logits, labels=batch["labels"])
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if self.loss_type in ["ipo", "orpo", "simpo"]:
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all_logps = all_logps / valid_length
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batch_size = batch["input_ids"].size(0) // 2
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chosen_logps, rejected_logps = all_logps.split(batch_size, dim=0)
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chosen_logits, rejected_logits = all_logits.split(batch_size, dim=0)
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chosen_length, _ = valid_length.split(batch_size, dim=0)
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if self.loss_type in ["ipo", "orpo", "simpo"]:
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return chosen_logps, rejected_logps, chosen_logits, rejected_logits, chosen_logps
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else:
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return chosen_logps, rejected_logps, chosen_logits, rejected_logits, chosen_logps / chosen_length
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@override
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def compute_reference_log_probs(
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self, model: "PreTrainedModel", batch: dict[str, "torch.Tensor"]
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) -> tuple[Optional["torch.Tensor"], Optional["torch.Tensor"]]:
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r"""Compute log probabilities of the reference model."""
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if not self.finetuning_args.use_ref_model:
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return None, None
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if self.ref_model is None:
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ref_model = model
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ref_context = self.accelerator.unwrap_model(model).disable_adapter()
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else:
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ref_model = self.ref_model
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ref_context = nullcontext()
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with torch.no_grad(), ref_context:
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reference_chosen_logps, reference_rejected_logps, *_ = self.concatenated_forward(ref_model, batch)
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return reference_chosen_logps, reference_rejected_logps
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@override
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def get_batch_loss_metrics(
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self,
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model: "PreTrainedModel",
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batch: dict[str, "torch.Tensor"],
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train_eval: Literal["train", "eval"] = "train",
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) -> tuple["torch.Tensor", dict[str, "torch.Tensor"]]:
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r"""Compute the DPO loss and other metrics for the given batch of inputs for train or test."""
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metrics = {}
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(
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policy_chosen_logps,
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policy_rejected_logps,
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policy_chosen_logits,
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policy_rejected_logits,
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policy_chosen_logps_avg,
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) = self.concatenated_forward(model, batch)
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reference_chosen_logps, reference_rejected_logps = self.compute_reference_log_probs(model, batch)
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losses, chosen_rewards, rejected_rewards = self.compute_preference_loss(
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policy_chosen_logps,
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policy_rejected_logps,
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reference_chosen_logps,
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reference_rejected_logps,
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)
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sft_loss = -policy_chosen_logps_avg
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if self.ftx_gamma > 1e-6:
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losses += self.ftx_gamma * sft_loss
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prefix = "eval_" if train_eval == "eval" else ""
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metrics[f"{prefix}rewards/chosen"] = chosen_rewards.mean().item()
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metrics[f"{prefix}rewards/rejected"] = rejected_rewards.mean().item()
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metrics[f"{prefix}rewards/accuracies"] = (chosen_rewards > rejected_rewards).float().mean().item()
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metrics[f"{prefix}rewards/margins"] = (chosen_rewards - rejected_rewards).mean().item()
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metrics[f"{prefix}logps/chosen"] = policy_chosen_logps.mean().item()
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metrics[f"{prefix}logps/rejected"] = policy_rejected_logps.mean().item()
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metrics[f"{prefix}logits/chosen"] = policy_chosen_logits.mean().item()
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metrics[f"{prefix}logits/rejected"] = policy_rejected_logits.mean().item()
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if self.loss_type == "orpo":
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metrics[f"{prefix}sft_loss"] = sft_loss.mean().item()
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metrics[f"{prefix}odds_ratio_loss"] = ((losses - sft_loss) / self.beta).mean().item()
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return losses.mean(), metrics
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@override
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def compute_loss(
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self, model: "PreTrainedModel", inputs: dict[str, "torch.Tensor"], return_outputs: bool = False, **kwargs
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) -> Union["torch.Tensor", tuple["torch.Tensor", list["torch.Tensor"]]]:
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r"""Subclass and override to accept extra kwargs."""
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return super().compute_loss(model, inputs, return_outputs)
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@override
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def log(self, logs: dict[str, float], *args, **kwargs) -> None:
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r"""Log `logs` on the various objects watching training, including stored metrics."""
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# logs either has "loss" or "eval_loss"
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train_eval = "train" if "loss" in logs else "eval"
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# Add averaged stored metrics to logs
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key_list, metric_list = [], []
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for key, metrics in self._stored_metrics[train_eval].items():
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key_list.append(key)
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metric_list.append(torch.tensor(metrics, dtype=torch.float).to(self.accelerator.device).mean().item())
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del self._stored_metrics[train_eval]
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if len(metric_list) < 10: # pad to for all reduce
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for i in range(10 - len(metric_list)):
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key_list.append(f"dummy_{i}")
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metric_list.append(0.0)
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metric_list = torch.tensor(metric_list, dtype=torch.float).to(self.accelerator.device)
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metric_list = self.accelerator.reduce(metric_list, "mean").tolist()
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for key, metric in zip(key_list, metric_list): # add remaining items
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if not key.startswith("dummy_"):
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logs[key] = metric
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return Trainer.log(self, logs, *args, **kwargs)
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