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eleuther_eval.py
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eleuther_eval.py
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# Copyright (c) Meta Platforms, Inc. and affiliates.
# All rights reserved.
#
# This source code is licensed under the BSD-style license found in the
# LICENSE file in the root directory of this source tree.
import sys
import time
from typing import Dict, List, Tuple, Union
import PIL
import torch
from lm_eval.evaluator import evaluate
from lm_eval.models.hf_vlms import HFMultimodalLM
from lm_eval.models.huggingface import HFLM
from lm_eval.tasks import get_task_dict, TaskManager
from lm_eval.utils import make_table
from omegaconf import DictConfig
from torchtune import config, training, utils
from torchtune.data import (
format_content_with_images,
left_pad_sequence,
Message,
padded_collate_tiled_images_and_mask,
)
from torchtune.generation import generate, sample
from torchtune.modules import TransformerDecoder
from torchtune.modules.common_utils import local_kv_cache
from torchtune.modules.model_fusion import DeepFusionModel
from torchtune.modules.tokenizers import ModelTokenizer
from torchtune.modules.transforms import Transform
from torchtune.recipe_interfaces import EvalRecipeInterface
from torchtune.training import FullModelTorchTuneCheckpointer
class _VLMEvalWrapper(HFMultimodalLM):
"""An EvalWrapper for EleutherAI's eval harness based on gpt-fast's
EvalWrapper: https://github.com/pytorch-labs/gpt-fast/blob/main/eval.py.
Note:
This is ONLY for vision-language models.
Args:
model (DeepFusionModel): The VLM to evaluate.
transform (Transform): The transform (tokenizer) to use for preprocessing.
device (torch.device): The device to use.
max_seq_length (int): The maximum sequence length.
batch_size (int): The batch size.
dtype (torch.dtype): dtype for the model caches during generation.
enable_kv_cache (bool): Whether to enable KV cache for generation.
image_tag (str): The string to use for the image token. Default is "<image>", which
is the default used by the MMMU dataset.
max_images_per_sample (int): The maximum number of images per sample. Defaults to
the max number of images in MMMU.
"""
def __init__(
self,
model: DeepFusionModel,
transform: Transform,
*,
device: torch.device,
max_seq_length: int = 4096,
batch_size: int = 8,
dtype: torch.dtype = torch.bfloat16,
enable_kv_cache: bool = True,
# TODO (@joecummings): Update these defaults once more multimodal
# tasks are added to the eval harness
image_tag: str = "<image>",
max_images_per_sample: int = 7,
):
self._model = model
self._transform = transform
self._device = device
self._max_seq_length = max_seq_length
self._batch_size = batch_size
self._dtype = dtype
# Defaulting KV cache to True for multimodal
self._enable_kv_cache = True
self._image_tag = image_tag
self._max_images_per_sample = max_images_per_sample
@property
def model(self):
# Not actually changing the dtype here, just adding it as a
# property on the model
self._model.dtype = self._dtype
return self._model
@property
def model_transform(self):
return self._transform
@property
def device(self):
return self._device
@property
def cache_hook(self):
# Dummy class to appease the Harness
class DummyCacheHook:
def __init__(self):
self.add_partial = lambda x, y, z: True
return DummyCacheHook()
@property
def rank(self):
# Hardcoded for now b/c we only support single GPU eval
return 0
@property
def world_size(self):
# Hardcoded for now b/c we only support single GPU eval
return 1
@property
def batch_size(self):
return self._batch_size
@property
def eos_token_id(self):
return self._transform.tokenizer.eos_id
@property
def eot_token_id(self):
return self._transform.tokenizer.eot_id
@property
def max_length(self):
return self._max_seq_length
@property
def truncation(self):
return True
def tok_encode(self, string, **kwargs) -> List[int]:
# This is only used to get a number of tokens for use in sorting samples in dataset
# These values will not actually be used for eval
return self._transform.tokenizer.encode(string, add_bos=False, add_eos=False)
def tok_decode(self, tokens, skip_special_tokens=True) -> str:
if isinstance(tokens, int):
tokens = [tokens]
return self._transform.tokenizer.decode(
tokens, skip_special_tokens=skip_special_tokens
)
def tok_batch_multimodal_encode(
self,
all_texts: List[str],
all_images: List[List[PIL.Image.Image]],
left_truncate_len: int = None,
*args,
**kwargs,
):
# Eleuther already parses out the text and images, so we just need to get
# it into a Message format for our tokenizer
all_encoded_messages = []
for text, images in zip(all_texts, all_images):
# Ensure images are all RGB
proper_images = []
for image in images:
if image.mode != "RGB":
image = image.convert("RGB")
proper_images.append(image)
# Construct the messages
messages = []
content = format_content_with_images(
text, image_tag=self._image_tag, images=proper_images
)
messages.append(Message(role="user", content=content))
messages.append(Message(role="assistant", content=""))
# Transform the messages
tok_batch = self.model_transform({"messages": messages}, inference=True)
all_encoded_messages.append(tok_batch)
# Pad the encoded messages
tok_batch = padded_collate_tiled_images_and_mask(
all_encoded_messages,
pad_direction="left",
pad_max_images=self._max_images_per_sample,
pad_max_tiles=self._transform.max_num_tiles,
)
utils.batch_to_device(tok_batch, self.device)
# Convert the batch to the format expected by the HF
tok_batch["input_ids"] = tok_batch.pop("tokens")
# the harness will use left_truncate_len to indicate that the current batch
# needs to be truncated to self.max_seq_len - self.max_gen_toks
if left_truncate_len is not None:
tok_batch["input_ids"] = tok_batch["input_ids"][:, -left_truncate_len:]
return tok_batch
@torch.inference_mode()
def _model_multimodal_generate(
self,
batch: Dict[str, torch.Tensor],
max_length: int,
stop: List[str],
**generation_kwargs,
):
# 1. Validate inputs
prompt = batch.pop("input_ids")
bsz, seq_len = prompt.shape
temperature = generation_kwargs.get("temperature", 0.0)
do_sample = generation_kwargs.get("do_sample", False)
if do_sample or temperature != 0.0:
raise RuntimeError(
"Any decoding strategy other than greedy is not supported."
)
if bsz > 1:
raise ValueError(
f"Got a batch size of '{bsz}'. Batch size > 1 is not yet supported for "
"multimodal generation."
)
encoder_max_seq_len = (
self.model_transform.image_seq_len * self._max_images_per_sample
)
# Setup masks for bsz 1
with self.device:
causal_mask = torch.tril(
torch.ones(
size=(self.max_length, self.max_length),
dtype=torch.bool,
)
)
input_pos = torch.arange(self.max_length)
batch["input_pos"] = input_pos[None, :seq_len]
batch["mask"] = causal_mask[None, :seq_len]
# 2. Setup KV cache
with local_kv_cache(
self.model,
batch_size=self.batch_size,
device=self.device,
dtype=self._dtype,
encoder_max_seq_len=encoder_max_seq_len,
decoder_max_seq_len=self.max_length,
):
# 3. Prefill step
generated_tokens = []
logits = self.model(prompt, **batch)[:, -1]
token = sample(logits, temperature=0.0, top_k=None)
generated_tokens.append(token.item())
cache_mask = batch["encoder_mask"][:, -1:]
# 4. Continue generating
for _ in range(max_length):
if token.item() in self.model_transform.stop_tokens:
break
logits = self.model(
token,
mask=causal_mask[None, seq_len, None, :],
encoder_input=None,
encoder_mask=cache_mask,
input_pos=input_pos[None, seq_len],
)[:, -1]
token = sample(logits, temperature=0.0, top_k=None)
generated_tokens.append(token.item())
seq_len += 1
# 5. Return generated tokens
return torch.tensor(generated_tokens, dtype=torch.int32).unsqueeze(0)
class _LLMEvalWrapper(HFLM):
"""An EvalWrapper for EleutherAI's eval harness based on gpt-fast's
EvalWrapper: https://github.com/pytorch-labs/gpt-fast/blob/main/eval.py.
Note:
This is for text-only decoder models.
Args:
model (TransformerDecoder): The model to evaluate.
tokenizer (ModelTokenizer): Tokenizer associated with the model being evaluated.
This should be the same tokenizer used when fine-tuning the model.
device (torch.device): The device to use.
max_seq_length (int): The maximum sequence length to use.
batch_size (int): The batch size per GPU to use.
dtype (torch.dtype): dtype for the model caches during generation.
enable_kv_cache (bool): Whether to enable KV cache for generation.
"""
def __init__(
self,
model: TransformerDecoder,
tokenizer: ModelTokenizer,
*,
device: torch.device,
max_seq_length: int = 4096,
batch_size: int = 8,
dtype: torch.dtype = torch.float32,
enable_kv_cache: bool = True,
):
# TODO (@joecummings): Remove this init function so we don't load in extraneous stuff
super().__init__(pretrained="gpt2", device=str(device))
self._model = model
self._tokenizer = tokenizer
self._max_seq_length = max_seq_length
self._batch_size = batch_size
self._dtype = dtype
self._enable_kv_cache = enable_kv_cache
@property
def model(self):
return self._model
@property
def eot_token_id(self):
return self._tokenizer.eos_id
@property
def max_length(self):
return self._max_seq_length
@property
def max_gen_toks(self):
return 256
@property
def batch_size(self):
return self._batch_size
@property
def device(self):
return self._device
@property
def enable_kv_cache(self):
return self._enable_kv_cache
def tok_encode(self, text: str, **kwargs) -> List[int]:
# Note on add_bos flag: setting to False as this gives better results, for example
# +1% on truthfulqa_mc2 with a LoRA finetune. lit-gpt also sets this to False,
# see https://github.com/Lightning-AI/lit-gpt/blob/main/eval/lm_eval_harness.py#L66,
# though notably fast-gpt does the opposite
# https://github.com/pytorch-labs/gpt-fast/blob/main/eval.py#L123.
return self._tokenizer.encode(text=text, add_bos=False, add_eos=False)
def tok_batch_encode(
self, text: List[str], left_truncate_len: int = None, **kwargs
) -> Tuple[torch.Tensor, torch.Tensor]:
tokenized_text = [self.tok_encode(x) for x in text]
# pad left
x = left_pad_sequence(
[torch.tensor(x) for x in tokenized_text],
batch_first=True,
padding_value=self._tokenizer.pad_id,
)
# the harness will use left_truncate_len to indicate that the current batch
# needs to be truncated to self.max_seq_len - self.max_gen_toks
if left_truncate_len is not None:
x = x[:, -left_truncate_len:]
return x, torch.ones_like(x) # return 'mask' b/c it's expected by the harness
def tok_decode(self, tokens: Union[List[int], int], **kwargs) -> str:
if isinstance(tokens, int):
tokens = [tokens]
return self._tokenizer.decode(tokens)
def _model_call(self, inps: torch.Tensor, **kwargs) -> torch.Tensor:
return self._model(inps)
@torch.inference_mode()
def _model_generate(
self, context: torch.Tensor, **generation_kwargs
) -> torch.Tensor:
bsz, seq_len = context.shape
temperature = generation_kwargs.get("temperature", 0.0)
do_sample = generation_kwargs.get("do_sample", False)
if do_sample or temperature != 0.0:
raise RuntimeError(
"Any decoding strategy other than greedy is not supported."
)
# if we've recieved fewer than self._batch_size samples in the current
# batch we need to pad the batch out. here we're padding the end of the
# current batch to the correct length. this is because when we use static
# KV-caches, the model will expect a fixed batch size for all samples.
maybe_padded_context = torch.nn.functional.pad(
context,
(0, 0, 0, self._batch_size - bsz),
value=self._tokenizer.eos_id, # pad with one of the tokenizer's stop tokens so generation can stop early
)
with local_kv_cache(
self.model,
batch_size=self.batch_size,
device=self.device,
dtype=self._dtype,
decoder_max_seq_len=self.max_length,
):
toks, _ = generate(
self.model,
maybe_padded_context,
max_generated_tokens=self.max_gen_toks,
temperature=temperature,
top_k=None,
stop_tokens=self._tokenizer.stop_tokens,
)
return toks[:bsz]
class EleutherEvalRecipe(EvalRecipeInterface):
"""
This recipe runs evaluation on a trained model using EleutherAI's eval harness.
This assumes the user has the EleutherAI eval harness installed. See
https://github.com/EleutherAI/lm-evaluation-harness for more details.
Features:
- Single GPU evaluation. Multi-GPU evaluation is currently not supported.
- Quantization (for text-only models) is supported.
- Any task from the EleutherAI eval harness
We recommend launching evaluation using the tune CLI::
tune run eleuther_eval --config eleuther_evaluation \
tasks=["truthfulqa_mc2","hellaswag"] \
limit=50 \
"""
def __init__(self, cfg: DictConfig) -> None:
# Double check we have the right Eval Harness version
from importlib.metadata import version
if version("lm-eval") != "0.4.5":
raise RuntimeError(
"This recipe requires EleutherAI Eval Harness v0.4.5. "
"Please install with `pip install lm-eval==0.4.5`"
)
# General variable initialization
self.device = utils.get_device(device=cfg.device)
self.dtype = training.get_dtype(dtype=cfg.dtype, device=self.device)
self.logger = utils.get_logger(cfg.get("log_level", "info"))
training.set_seed(seed=cfg.seed)
# Eval specific variables
self.limit = cfg.limit
self.tasks = list(cfg.tasks)
self.batch_size = cfg.batch_size
self.enable_kv_cache = cfg.get("enable_kv_cache", True)
self.include_path = cfg.get("include_path", None)
def setup(self, cfg: DictConfig) -> None:
# Initialize quantizer and quantization mode
quantizer = config.instantiate(cfg.quantizer)
quantization_mode = training.get_quantizer_mode(quantizer)
# Load checkpoint
checkpointer = config.instantiate(cfg.checkpointer)
# Initialize model
with training.set_default_dtype(self.dtype), self.device:
model = config.instantiate(cfg.model)
# Quantize model if requested
if quantization_mode is not None:
if not isinstance(checkpointer, FullModelTorchTuneCheckpointer):
raise ValueError(
"Quantization is only supported for models quantized and saved with the "
"FullModelTorchTuneCheckpointer - please ensure you have quantized your "
"model and are using the quantized weights!"
)
if "qat" in quantization_mode:
raise ValueError(
"You have specified a quantizer with 'QAT' - "
"QAT quantizers should only be used during quantization aware training "
"and when quantizing models. Please use the corresponding post-training "
"quantizer e.g. Int8DynActInt4WeightQuantizer for Int8DynActInt4WeightQATQuantizer."
)
model = quantizer.quantize(model)
model = model.to(device=self.device, dtype=self.dtype)
ckpt_dict = checkpointer.load_checkpoint(weights_only=False)[
training.MODEL_KEY
]
for k, v in ckpt_dict.items():
ckpt_dict[k] = v.to(self.device)
model.load_state_dict(ckpt_dict, assign=True)
else:
ckpt_dict = checkpointer.load_checkpoint()[training.MODEL_KEY]
model.load_state_dict(ckpt_dict)
# Load model weights into initialized model
self.logger.info(f"Model is initialized with precision {self.dtype}.")
# Put model in eval mode.
# Note: This will not disable the dropout applied in SDPA,
# see https://github.com/pytorch/pytorch/issues/124464
model.eval()
# Initialize tokenizer/transform
model_transform = config.instantiate(cfg.tokenizer)
# Finally, we setup the actual EvalWrapper class
if isinstance(model, DeepFusionModel):
eleuther_model_wrapper = _VLMEvalWrapper
if not self.enable_kv_cache:
self.logger.debug(
"Received enable_kv_cache=False, but KV cache is required for running "
"multimodal generation in a timely manner. Setting enable_kv_cache=True."
)
elif isinstance(model, TransformerDecoder):
eleuther_model_wrapper = _LLMEvalWrapper
self.eleuther_model_wrapper = eleuther_model_wrapper(
model,
model_transform,
device=self.device,
max_seq_length=cfg.max_seq_length,
batch_size=self.batch_size,
dtype=self.dtype,
enable_kv_cache=self.enable_kv_cache,
)
def evaluate(self) -> None:
# Initialize tasks for the harness
task_manager = TaskManager(include_path=self.include_path)
task_dict = get_task_dict(self.tasks, task_manager)
# Run evaluation
t0 = time.time()
self.logger.info(f"Running evaluation on the following tasks: {self.tasks}")
output = evaluate(
self.eleuther_model_wrapper,
task_dict,
limit=self.limit,
)
t1 = time.time() - t0
# Log metrics
self.logger.info(f"Eval completed in {t1:.02f} seconds.")
self.logger.info(
f"Max memory allocated: {torch.cuda.max_memory_allocated() / 1e9:.02f} GB"
)
formatted_output = make_table(output)
self.logger.info(f"\n\n{formatted_output}\n")
@config.parse
def recipe_main(cfg: DictConfig) -> None:
"""Entry point for the recipe."""
config.log_config(recipe_name="EleutherEvalRecipe", cfg=cfg)
recipe = EleutherEvalRecipe(cfg=cfg)
recipe.setup(cfg=cfg)
recipe.evaluate()
if __name__ == "__main__":
sys.exit(recipe_main())