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finetune.py
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finetune.py
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# This code is based on the revised code from fastchat based on tatsu-lab/stanford_alpaca.
from dataclasses import dataclass, field
import json
import math
import logging
import os
from typing import Dict, Optional, List
import torch
from torch.utils.data import Dataset
from deepspeed import zero
from deepspeed.runtime.zero.partition_parameters import ZeroParamStatus
import transformers
from transformers import Trainer, GPTQConfig, deepspeed
from transformers.trainer_pt_utils import LabelSmoother
from peft import LoraConfig, get_peft_model, prepare_model_for_kbit_training
from accelerate.utils import DistributedType
from transformers import BitsAndBytesConfig
IGNORE_TOKEN_ID = LabelSmoother.ignore_index
@dataclass
class ModelArguments:
model_name_or_path: Optional[str] = field(default="Qwen/Qwen-7B")
@dataclass
class DataArguments:
data_path: str = field(
default=None, metadata={"help": "Path to the training data."}
)
eval_data_path: str = field(
default=None, metadata={"help": "Path to the evaluation data."}
)
lazy_preprocess: bool = False
@dataclass
class TrainingArguments(transformers.TrainingArguments):
cache_dir: Optional[str] = field(default=None)
optim: str = field(default="adamw_torch")
model_max_length: int = field(
default=8192,
metadata={
"help": "Maximum sequence length. Sequences will be right padded (and possibly truncated)."
},
)
use_lora: bool = False
@dataclass
class LoraArguments:
lora_r: int = 64
lora_alpha: int = 16
lora_dropout: float = 0.05
# ['gate_proj', 'o_proj', 'k_proj', 'q_proj', 'up_proj', 'down_proj', 'v_proj']
lora_target_modules: List[str] = field(
default_factory=lambda: ['o_proj', 'k_proj', 'q_proj', 'v_proj']
)
lora_weight_path: str = ""
lora_bias: str = "none"
q_lora: bool = False
load_in_4bit: bool = False
load_in_8bit: bool = False
def maybe_zero_3(param):
if hasattr(param, "ds_id"):
assert param.ds_status == ZeroParamStatus.NOT_AVAILABLE
with zero.GatheredParameters([param]):
param = param.data.detach().cpu().clone()
else:
param = param.detach().cpu().clone()
return param
# Borrowed from peft.utils.get_peft_model_state_dict
def get_peft_state_maybe_zero_3(named_params, bias):
if bias == "none":
to_return = {k: t for k, t in named_params if "lora_" in k}
elif bias == "all":
to_return = {k: t for k, t in named_params if "lora_" in k or "bias" in k}
elif bias == "lora_only":
to_return = {}
maybe_lora_bias = {}
lora_bias_names = set()
for k, t in named_params:
if "lora_" in k:
to_return[k] = t
bias_name = k.split("lora_")[0] + "bias"
lora_bias_names.add(bias_name)
elif "bias" in k:
maybe_lora_bias[k] = t
for k, t in maybe_lora_bias:
if bias_name in lora_bias_names:
to_return[bias_name] = t
else:
raise NotImplementedError
to_return = {k: maybe_zero_3(v) for k, v in to_return.items()}
return to_return
local_rank = None
def rank0_print(*args):
if local_rank == 0:
print(*args)
def safe_save_model_for_hf_trainer(trainer: transformers.Trainer, output_dir: str, bias="none"):
"""Collects the state dict and dump to disk."""
# check if zero3 mode enabled
if deepspeed.is_deepspeed_zero3_enabled():
state_dict = trainer.model_wrapped._zero3_consolidated_16bit_state_dict()
else:
if trainer.args.use_lora:
state_dict = get_peft_state_maybe_zero_3(
trainer.model.named_parameters(), bias
)
else:
state_dict = trainer.model.state_dict()
if trainer.args.should_save and trainer.args.local_rank == 0:
trainer._save(output_dir, state_dict=state_dict)
def preprocess(
sources,
tokenizer: transformers.PreTrainedTokenizer,
max_len: int,
system_message: str = "You are a helpful assistant."
) -> Dict:
# im_start = tokenizer.im_start_id
# im_end = tokenizer.im_end_id
im_start = tokenizer.get_vocab()["<|im_start|>"]
im_end = tokenizer.get_vocab()["<|im_end|>"]
nl_tokens = tokenizer('\n').input_ids
_system = tokenizer('system').input_ids + nl_tokens
_user = tokenizer('user').input_ids + nl_tokens
_assistant = tokenizer('assistant').input_ids + nl_tokens
# Apply prompt templates
input_ids, targets = [], []
for i, source in enumerate(sources):
input_id, target = [], []
system = [im_start] + _system + tokenizer(system_message).input_ids + [im_end] + nl_tokens
input_id += system
target += [IGNORE_TOKEN_ID] * len(system)
assert len(input_id) == len(target)
for j, sentence in enumerate(source):
role = sentence["from"]
t_value = tokenizer(sentence["value"]).input_ids
if role == 'user':
_input_id = [im_start] + _user + t_value + [im_end] + nl_tokens + [im_start] + _assistant
_target = [IGNORE_TOKEN_ID] * len(_input_id)
elif role == 'assistant':
_input_id = t_value + [im_end] + nl_tokens
_target = t_value + [im_end] + nl_tokens
else:
raise NotImplementedError
input_id += _input_id
target += _target
assert len(input_id) == len(target)
input_id += [tokenizer.pad_token_id] * (max_len - len(input_id))
target += [IGNORE_TOKEN_ID] * (max_len - len(target))
input_ids.append(input_id[:max_len])
targets.append(target[:max_len])
input_ids = torch.tensor(input_ids, dtype=torch.int)
targets = torch.tensor(targets, dtype=torch.int)
return dict(
input_ids=input_ids,
labels=targets,
attention_mask=input_ids.ne(tokenizer.pad_token_id),
)
class SupervisedDataset(Dataset):
"""Dataset for supervised fine-tuning."""
def __init__(self, raw_data, tokenizer: transformers.PreTrainedTokenizer, max_len: int):
super(SupervisedDataset, self).__init__()
rank0_print("Formatting inputs...")
sources = [example["conversations"] for example in raw_data]
data_dict = preprocess(sources, tokenizer, max_len)
self.input_ids = data_dict["input_ids"]
self.labels = data_dict["labels"]
self.attention_mask = data_dict["attention_mask"]
def __len__(self):
return len(self.input_ids)
def __getitem__(self, i) -> Dict[str, torch.Tensor]:
return dict(
input_ids=self.input_ids[i],
labels=self.labels[i],
attention_mask=self.attention_mask[i],
)
class LazySupervisedDataset(Dataset):
"""Dataset for supervised fine-tuning."""
def __init__(self, raw_data, tokenizer: transformers.PreTrainedTokenizer, max_len: int):
super(LazySupervisedDataset, self).__init__()
self.tokenizer = tokenizer
self.max_len = max_len
rank0_print("Formatting inputs...Skip in lazy mode")
self.tokenizer = tokenizer
self.raw_data = raw_data
self.cached_data_dict = {}
def __len__(self):
return len(self.raw_data)
def __getitem__(self, i) -> Dict[str, torch.Tensor]:
if i in self.cached_data_dict:
return self.cached_data_dict[i]
ret = preprocess([self.raw_data[i]["conversations"]], self.tokenizer, self.max_len)
ret = dict(
input_ids=ret["input_ids"][0],
labels=ret["labels"][0],
attention_mask=ret["attention_mask"][0],
)
self.cached_data_dict[i] = ret
return ret
def make_supervised_data_module(
tokenizer: transformers.PreTrainedTokenizer, data_args, max_len,
) -> Dict:
"""Make dataset and collator for supervised fine-tuning."""
dataset_cls = (
LazySupervisedDataset if data_args.lazy_preprocess else SupervisedDataset
)
rank0_print("Loading data...")
train_json = json.load(open(data_args.data_path, "r"))
train_dataset = dataset_cls(train_json, tokenizer=tokenizer, max_len=max_len)
if data_args.eval_data_path:
eval_json = json.load(open(data_args.eval_data_path, "r"))
eval_dataset = dataset_cls(eval_json, tokenizer=tokenizer, max_len=max_len)
else:
eval_dataset = None
return dict(train_dataset=train_dataset, eval_dataset=eval_dataset)
def get_quantization_config(model_args):
if model_args.load_in_4bit:
compute_dtype = torch.float16
# if model_args.torch_dtype not in {"auto", None}:
# compute_dtype = getattr(torch, model_args.torch_dtype)
quantization_config = BitsAndBytesConfig(
load_in_4bit=True,
bnb_4bit_compute_dtype=compute_dtype,
bnb_4bit_quant_type="nf4",
bnb_4bit_use_double_quant=False,
)
elif model_args.load_in_8bit:
quantization_config = BitsAndBytesConfig(
load_in_8bit=True,
)
else:
quantization_config = None
return quantization_config
def train():
global local_rank
parser = transformers.HfArgumentParser(
(ModelArguments, DataArguments, TrainingArguments, LoraArguments)
)
(
model_args,
data_args,
training_args,
lora_args,
) = parser.parse_args_into_dataclasses()
# This serves for single-gpu qlora.
if getattr(training_args, 'deepspeed', None) and int(os.environ.get("WORLD_SIZE", 1)) == 1:
training_args.distributed_state.distributed_type = DistributedType.DEEPSPEED
local_rank = training_args.local_rank
device_map = None
world_size = int(os.environ.get("WORLD_SIZE", 1))
ddp = world_size != 1
if lora_args.q_lora:
device_map = {"": int(os.environ.get("LOCAL_RANK") or 0)} if ddp else "auto"
if len(training_args.fsdp) > 0 or deepspeed.is_deepspeed_zero3_enabled():
logging.warning(
"FSDP or ZeRO3 are incompatible with QLoRA."
)
is_chat_model = 'chat' in model_args.model_name_or_path.lower()
if (
training_args.use_lora
and not lora_args.q_lora
and deepspeed.is_deepspeed_zero3_enabled()
and not is_chat_model
):
raise RuntimeError("ZeRO3 is incompatible with LoRA when finetuning on base model.")
model_load_kwargs = {
'low_cpu_mem_usage': not deepspeed.is_deepspeed_zero3_enabled(),
}
# Set RoPE scaling factor
config = transformers.AutoConfig.from_pretrained(
model_args.model_name_or_path,
cache_dir=training_args.cache_dir,
trust_remote_code=True,
)
config.use_cache = False
# Load model and tokenizer
quantization_config = get_quantization_config(lora_args)
print("quantization_config:", quantization_config)
model = transformers.AutoModelForCausalLM.from_pretrained(
model_args.model_name_or_path,
config=config,
cache_dir=training_args.cache_dir,
device_map=device_map,
trust_remote_code=True,
quantization_config=quantization_config if lora_args.q_lora else None,
**model_load_kwargs,
)
tokenizer = transformers.AutoTokenizer.from_pretrained(
model_args.model_name_or_path,
cache_dir=training_args.cache_dir,
model_max_length=training_args.model_max_length,
padding_side="right",
use_fast=False,
trust_remote_code=True,
)
if tokenizer.pad_token_id is None:
tokenizer.pad_token_id = tokenizer.eos_token_id
if training_args.use_lora:
if is_chat_model:
modules_to_save = None
else:
modules_to_save = ["wte", "lm_head"]
def find_all_linear_names(args, model):
import bitsandbytes as bnb
cls = bnb.nn.Linear4bit if args.load_in_4bit == 4 else (
bnb.nn.Linear8bitLt if args.load_in_8bit == 8 else torch.nn.Linear)
lora_module_names = set()
for name, module in model.named_modules():
if isinstance(module, cls):
names = name.split('.')
lora_module_names.add(names[0] if len(names) == 1 else names[-1])
if 'lm_head' in lora_module_names: # needed for 16-bit
lora_module_names.remove('lm_head')
return list(lora_module_names)
if lora_args.lora_target_modules is None:
lora_args.lora_target_modules = find_all_linear_names(lora_args, model)
print(lora_args.lora_target_modules)
print(modules_to_save)
lora_config = LoraConfig(
r=lora_args.lora_r,
lora_alpha=lora_args.lora_alpha,
target_modules=lora_args.lora_target_modules,
lora_dropout=lora_args.lora_dropout,
bias=lora_args.lora_bias,
task_type="CAUSAL_LM",
modules_to_save=modules_to_save # This argument serves for adding new tokens.
)
if lora_args.q_lora:
model = prepare_model_for_kbit_training(
model, use_gradient_checkpointing=training_args.gradient_checkpointing
)
model = get_peft_model(model, lora_config)
# Print peft trainable params
model.print_trainable_parameters()
if training_args.gradient_checkpointing:
model.enable_input_require_grads()
# Load data
data_module = make_supervised_data_module(
tokenizer=tokenizer, data_args=data_args, max_len=training_args.model_max_length
)
# Start trainner
trainer = Trainer(
model=model, tokenizer=tokenizer, args=training_args, **data_module
)
with torch.autocast("cuda"):
trainer.train()
trainer.save_state()
safe_save_model_for_hf_trainer(trainer=trainer, output_dir=training_args.output_dir, bias=lora_args.lora_bias)
if __name__ == "__main__":
train()