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#!/usr/bin/env python3
"""
🦥 Starter Script for Fine-Tuning FastLanguageModel with Unsloth
Configurable options for model loading, PEFT, training, and saving/pushing.
Customize the dataset loading/preprocessing and the save/push config for your case.
Usage (most options have sensible defaults; this is an extended example):
python unsloth-cli.py --model_name "unsloth/llama-3-8b" --max_seq_length 8192 --dtype None --load_in_4bit \
--r 64 --lora_alpha 32 --lora_dropout 0.1 --bias "none" --use_gradient_checkpointing "unsloth" \
--random_state 3407 --use_rslora --per_device_train_batch_size 4 --gradient_accumulation_steps 8 \
--warmup_steps 5 --max_steps 400 --learning_rate 2e-6 --logging_steps 1 --optim "adamw_8bit" \
--weight_decay 0.005 --lr_scheduler_type "linear" --seed 3407 --output_dir "outputs" \
--report_to "tensorboard" --save_model --save_path "model" --quantization_method "f16" \
--push_model --hub_path "hf/model" --hub_token "your_hf_token"
Run `python unsloth-cli.py --help` for the full list of options.
"""
import argparse
import os
def _is_mlx_backend(unsloth_module):
return bool(getattr(unsloth_module, "_IS_MLX", False))
def _normalize_dtype(dtype, is_mlx):
if is_mlx and isinstance(dtype, str) and dtype.strip().lower() in {"", "none", "auto"}:
return None
return dtype
def _prepare_device_map(is_mlx):
if is_mlx:
return None, False
from unsloth.models.loader_utils import prepare_device_map
return prepare_device_map()
class _CallableTokenizerProxy:
def __init__(self, tokenizer):
self._tokenizer = tokenizer
def __getattr__(self, name):
return getattr(self._tokenizer, name)
def __call__(self, text, *args, **kwargs):
# MLX/torch-free: never request torch tensors; keep plain python ids.
kwargs.pop("return_tensors", None)
wrapped = getattr(self._tokenizer, "_tokenizer", None)
if callable(wrapped):
return wrapped(text, *args, **kwargs)
add_special_tokens = kwargs.get("add_special_tokens", False)
input_ids = self._tokenizer.encode(text, add_special_tokens = add_special_tokens)
return {"input_ids": input_ids}
def _tokenizer_for_raw_text_loader(tokenizer, is_mlx):
if not is_mlx or callable(tokenizer):
return tokenizer
return _CallableTokenizerProxy(tokenizer)
def _raw_text_loader_for_backend(
RawTextDataLoader,
tokenizer,
is_mlx,
chunk_size = 2048,
stride = 512,
):
return RawTextDataLoader(
_tokenizer_for_raw_text_loader(tokenizer, is_mlx),
chunk_size,
stride,
return_tokenized = not is_mlx,
)
def _train_with_legacy_save_control(trainer, is_mlx):
if not is_mlx:
return trainer.train()
original_save_model = getattr(trainer, "save_model", None)
if original_save_model is None:
return trainer.train()
def skip_internal_final_save(*args, **kwargs):
raise ValueError("legacy unsloth-cli.py owns final save")
trainer.save_model = skip_internal_final_save
try:
return trainer.train()
finally:
trainer.save_model = original_save_model
def _iter_quantization_methods(quantization):
if isinstance(quantization, list):
return quantization
return [quantization]
def _save_or_push_model(model, tokenizer, args, is_mlx):
if not args.save_model:
print("Warning: The model is not saved!")
return
# Enter the GGUF branch when saving or pushing GGUF, so --push_gguf works
# without --save_gguf (the local save is guarded separately below).
if args.save_gguf or args.push_gguf:
if not args.save_gguf:
print("Warning: --save_gguf not set, pushing GGUF to hub without saving locally.")
for quantization_method in _iter_quantization_methods(args.quantization):
if args.save_gguf:
print(f"Saving model with quantization method: {quantization_method}")
model.save_pretrained_gguf(
args.save_path,
tokenizer,
quantization_method = quantization_method,
)
if args.push_model or args.push_gguf:
model.push_to_hub_gguf(
args.hub_path,
tokenizer,
quantization_method = quantization_method,
token = args.hub_token,
)
return
if is_mlx:
model.save_pretrained_merged(
args.save_path,
tokenizer,
save_method = args.save_method,
push_to_hub = args.push_model,
repo_id = args.hub_path if args.push_model else None,
token = args.hub_token,
)
return
model.save_pretrained_merged(args.save_path, tokenizer, save_method = args.save_method)
if args.push_model:
model.push_to_hub_merged(args.hub_path, tokenizer, args.save_method, token = args.hub_token)
def _build_sft_config(SFTConfig, args, is_mlx, bf16_supported):
config_kwargs = dict(
per_device_train_batch_size = args.per_device_train_batch_size,
gradient_accumulation_steps = args.gradient_accumulation_steps,
warmup_steps = args.warmup_steps,
max_steps = args.max_steps,
learning_rate = args.learning_rate,
fp16 = not bf16_supported,
bf16 = bf16_supported,
logging_steps = args.logging_steps,
optim = args.optim,
weight_decay = args.weight_decay,
lr_scheduler_type = args.lr_scheduler_type,
seed = args.seed,
output_dir = args.output_dir,
report_to = args.report_to,
max_length = args.max_seq_length,
dataset_num_proc = 2,
packing = args.packing,
)
if is_mlx:
if args.per_device_eval_batch_size != 4:
print("Warning: --per_device_eval_batch_size is ignored on MLX without eval data.")
else:
config_kwargs["per_device_eval_batch_size"] = args.per_device_eval_batch_size
return SFTConfig(**config_kwargs)
def run(args):
import unsloth
from unsloth import FastLanguageModel
from datasets import load_dataset
from transformers.utils import strtobool
from trl import SFTTrainer, SFTConfig
from unsloth import is_bfloat16_supported
import logging
from unsloth import RawTextDataLoader
logging.getLogger("hf-to-gguf").setLevel(logging.WARNING)
is_mlx = _is_mlx_backend(unsloth)
# Load model and tokenizer
device_map, distributed = _prepare_device_map(is_mlx)
model, tokenizer = FastLanguageModel.from_pretrained(
model_name = args.model_name,
max_seq_length = args.max_seq_length,
dtype = _normalize_dtype(args.dtype, is_mlx),
load_in_4bit = args.load_in_4bit,
device_map = device_map,
)
# Configure PEFT model
model = FastLanguageModel.get_peft_model(
model,
r = args.r,
target_modules = [
"q_proj",
"k_proj",
"v_proj",
"o_proj",
"gate_proj",
"up_proj",
"down_proj",
],
lora_alpha = args.lora_alpha,
lora_dropout = args.lora_dropout,
bias = args.bias,
use_gradient_checkpointing = args.use_gradient_checkpointing,
random_state = args.random_state,
use_rslora = args.use_rslora,
loftq_config = args.loftq_config,
)
alpaca_prompt = """Below is an instruction that describes a task, paired with an input that provides further context. Write a response that appropriately completes the request.
### Instruction:
{}
### Input:
{}
### Response:
{}"""
EOS_TOKEN = tokenizer.eos_token # Must add EOS_TOKEN
def formatting_prompts_func(examples):
instructions = examples["instruction"]
inputs = examples["input"]
outputs = examples["output"]
texts = []
for instruction, input, output in zip(instructions, inputs, outputs):
text = alpaca_prompt.format(instruction, input, output) + EOS_TOKEN
texts.append(text)
return {"text": texts}
def load_dataset_smart(args):
from transformers.utils import strtobool
if args.raw_text_file:
loader = _raw_text_loader_for_backend(
RawTextDataLoader, tokenizer, is_mlx, args.chunk_size, args.stride
)
dataset = loader.load_from_file(args.raw_text_file)
elif args.dataset.endswith((".txt", ".md", ".json", ".jsonl")):
# Auto-detect local raw text files
loader = _raw_text_loader_for_backend(RawTextDataLoader, tokenizer, is_mlx)
dataset = loader.load_from_file(args.dataset)
else:
use_modelscope = strtobool(os.environ.get("UNSLOTH_USE_MODELSCOPE", "False"))
if use_modelscope:
from modelscope import MsDataset
dataset = MsDataset.load(args.dataset, split = "train")
else:
dataset = load_dataset(args.dataset, split = "train")
# Format structured datasets
dataset = dataset.map(formatting_prompts_func, batched = True)
return dataset
# Load dataset using smart loader
dataset = load_dataset_smart(args)
print("Data is formatted and ready!")
# Configure training arguments
training_args = _build_sft_config(SFTConfig, args, is_mlx, is_bfloat16_supported())
if distributed:
training_args.ddp_find_unused_parameters = False
# Initialize trainer
trainer = SFTTrainer(
model = model,
processing_class = tokenizer,
train_dataset = dataset,
args = training_args,
)
_train_with_legacy_save_control(trainer, is_mlx)
_save_or_push_model(model, tokenizer, args, is_mlx)
if __name__ == "__main__":
parser = argparse.ArgumentParser(description = "🦥 Fine-tune your llm faster using unsloth!")
model_group = parser.add_argument_group("🤖 Model Options")
model_group.add_argument(
"--model_name",
type = str,
default = "unsloth/llama-3-8b",
help = "Model name to load",
)
model_group.add_argument(
"--max_seq_length",
type = int,
default = 2048,
help = "Maximum sequence length, default is 2048. We auto support RoPE Scaling internally!",
)
model_group.add_argument(
"--dtype",
type = str,
default = None,
help = "Data type for model (None for auto detection)",
)
model_group.add_argument(
"--load_in_4bit",
action = "store_true",
help = "Use 4bit quantization to reduce memory usage",
)
model_group.add_argument(
"--dataset",
type = str,
default = "yahma/alpaca-cleaned",
help = "Huggingface dataset to use for training",
)
lora_group = parser.add_argument_group(
"🧠 LoRA Options",
"These options are used to configure the LoRA model.",
)
lora_group.add_argument(
"--r",
type = int,
default = 16,
help = "Rank for Lora model, default is 16. (common values: 8, 16, 32, 64, 128)",
)
lora_group.add_argument(
"--lora_alpha",
type = int,
default = 16,
help = "LoRA alpha parameter, default is 16. (common values: 8, 16, 32, 64, 128)",
)
lora_group.add_argument(
"--lora_dropout",
type = float,
default = 0.0,
help = "LoRA dropout rate, default is 0.0 which is optimized.",
)
lora_group.add_argument(
"--bias",
type = str,
default = "none",
help = "Bias setting for LoRA",
)
lora_group.add_argument(
"--use_gradient_checkpointing",
type = str,
default = "unsloth",
help = "Use gradient checkpointing",
)
lora_group.add_argument(
"--random_state",
type = int,
default = 3407,
help = "Random state for reproducibility, default is 3407.",
)
lora_group.add_argument(
"--use_rslora",
action = "store_true",
help = "Use rank stabilized LoRA",
)
lora_group.add_argument(
"--loftq_config",
type = str,
default = None,
help = "Configuration for LoftQ",
)
training_group = parser.add_argument_group("🎓 Training Options")
training_group.add_argument(
"--per_device_train_batch_size",
type = int,
default = 2,
help = "Batch size per device during training, default is 2.",
)
training_group.add_argument(
"--per_device_eval_batch_size",
type = int,
default = 4,
help = "Batch size per device during evaluation, default is 4.",
)
training_group.add_argument(
"--gradient_accumulation_steps",
type = int,
default = 4,
help = "Number of gradient accumulation steps, default is 4.",
)
training_group.add_argument(
"--warmup_steps",
type = int,
default = 5,
help = "Number of warmup steps, default is 5.",
)
training_group.add_argument(
"--max_steps",
type = int,
default = 400,
help = "Maximum number of training steps.",
)
training_group.add_argument(
"--learning_rate",
type = float,
default = 2e-4,
help = "Learning rate, default is 2e-4.",
)
training_group.add_argument(
"--optim",
type = str,
default = "adamw_8bit",
help = "Optimizer type.",
)
training_group.add_argument(
"--weight_decay",
type = float,
default = 0.01,
help = "Weight decay, default is 0.01.",
)
training_group.add_argument(
"--lr_scheduler_type",
type = str,
default = "linear",
help = "Learning rate scheduler type, default is 'linear'.",
)
training_group.add_argument(
"--seed",
type = int,
default = 3407,
help = "Seed for reproducibility, default is 3407.",
)
training_group.add_argument(
"--packing",
action = "store_true",
help = "Enable padding-free sample packing via TRL's bin packer.",
)
report_group = parser.add_argument_group("📊 Report Options")
report_group.add_argument(
"--report_to",
type = str,
default = "tensorboard",
choices = [
"azure_ml",
"clearml",
"codecarbon",
"comet_ml",
"dagshub",
"dvclive",
"flyte",
"mlflow",
"neptune",
"tensorboard",
"wandb",
"all",
"none",
],
help = (
"The list of integrations to report the results and logs to. Supported platforms are:\n\t\t "
"'azure_ml', 'clearml', 'codecarbon', 'comet_ml', 'dagshub', 'dvclive', 'flyte', "
"'mlflow', 'neptune', 'tensorboard', and 'wandb'. Use 'all' to report to all integrations "
"installed, 'none' for no integrations."
),
)
report_group.add_argument(
"--logging_steps",
type = int,
default = 1,
help = "Logging steps, default is 1",
)
save_group = parser.add_argument_group("💾 Save Model Options")
save_group.add_argument(
"--output_dir",
type = str,
default = "outputs",
help = "Output directory",
)
save_group.add_argument(
"--save_model",
action = "store_true",
help = "Save the model after training",
)
save_group.add_argument(
"--save_method",
type = str,
default = "merged_16bit",
choices = ["merged_16bit", "merged_4bit", "lora"],
help = "Save method for the model, default is 'merged_16bit'",
)
save_group.add_argument(
"--save_gguf",
action = "store_true",
help = "Convert the model to GGUF after training",
)
save_group.add_argument(
"--save_path",
type = str,
default = "model",
help = "Path to save the model",
)
save_group.add_argument(
"--quantization",
type = str,
default = "q8_0",
nargs = "+",
help = (
"Quantization method for saving the model. common values ('f16', 'q4_k_m', 'q8_0'), "
"Check our wiki for all quantization methods https://github.com/unslothai/unsloth/wiki#saving-to-gguf"
),
)
push_group = parser.add_argument_group("🚀 Push Model Options")
push_group.add_argument(
"--push_model",
action = "store_true",
help = "Push the model to Hugging Face hub after training",
)
push_group.add_argument(
"--push_gguf",
action = "store_true",
help = "Push the model as GGUF to Hugging Face hub after training",
)
push_group.add_argument(
"--hub_path",
type = str,
default = "hf/model",
help = "Path on Hugging Face hub to push the model",
)
push_group.add_argument(
"--hub_token",
type = str,
help = "Token for pushing the model to Hugging Face hub",
)
parser.add_argument("--raw_text_file", type = str, help = "Path to raw text file for training")
parser.add_argument(
"--chunk_size", type = int, default = 2048, help = "Size of text chunks for training"
)
parser.add_argument("--stride", type = int, default = 512, help = "Overlap between chunks")
args = parser.parse_args()
run(args)