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evaluator_modified.py
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evaluator_modified.py
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import collections
import itertools
import random
import lm_eval.metrics
import lm_eval.models
import lm_eval.tasks
import lm_eval.base
from lm_eval.utils import positional_deprecated, run_task_tests
from lm_eval.models.gpt2 import HFLM
import numpy as np
import transformers
@positional_deprecated
def simple_evaluate_chunk(
model,
chunk_num,
model_args=None,
tasks=[],
num_fewshot=0,
batch_size=None,
max_batch_size=None,
device=None,
no_cache=False,
limit=None,
bootstrap_iters=100000,
description_dict=None,
check_integrity=False,
decontamination_ngrams_path=None,
write_out=False,
output_base_path=None,
reduce='loglikelihood_test'
):
"""Instantiate and evaluate a model on a list of tasks.
:param model: Union[str, LM]
Name of model, transformers.PreTrainedModel object, or LM object, see lm_eval.models.get_model
:param model_args: Optional[str]
String arguments for each model class, see LM.create_from_arg_string.
Ignored if `model` argument is a LM object.
:param tasks: list[Union[str, Task]]
List of task names or Task objects. Task objects will be taken to have name task.EVAL_HARNESS_NAME if defined and type(task).__name__ otherwise.
:param num_fewshot: int
Number of examples in few-shot context
:param batch_size: int or str, optional
Batch size for model
:param max_batch_size: int, optional
Maximal batch size to try with automatic batch size detection
:param device: str, optional
PyTorch device (e.g. "cpu" or "cuda:0") for running models
:param no_cache: bool
Whether or not to cache
:param limit: int or float, optional
Limit the number of examples per task (only use this for testing), If <1, limit is a percentage of the total number of examples.
:param bootstrap_iters:
Number of iterations for bootstrap statistics
:param description_dict: dict[str, str]
Dictionary of custom task descriptions of the form: `task_name: description`
:param check_integrity: bool
Whether to run the relevant part of the test suite for the tasks
:param write_out: bool
If True, write details about prompts and logits to json for all tasks
:param output_base_path: str, optional
Directory to which detailed eval info will be written. Defaults to present working dir.
:return
Dictionary of results
"""
random.seed(1234)
np.random.seed(1234)
assert tasks != [], "No tasks specified"
if isinstance(model, str):
if model_args is None:
model_args = ""
lm = lm_eval.models.get_model(model).create_from_arg_string(
model_args,
{
"batch_size": batch_size,
"max_batch_size": max_batch_size,
"device": device,
},
)
elif isinstance(model, transformers.PreTrainedModel):
lm = lm_eval.models.get_model("hf-causal")(
pretrained=model,
batch_size=batch_size,
max_batch_size=max_batch_size,
)
no_cache = True
else:
assert isinstance(model, lm_eval.base.LM)
lm = model
if not no_cache:
lm = lm_eval.base.CachingLM(
lm,
"lm_cache/"
+ (model if isinstance(model, str) else model.model.config._name_or_path)
+ "_"
+ model_args.replace("=", "-").replace(",", "_").replace("/", "-")
+ ".db",
)
task_dict = lm_eval.tasks.get_task_dict(tasks)
if check_integrity:
run_task_tests(task_list=tasks)
results = evaluate(
lm=lm,
task_dict=task_dict,
chunk_num=chunk_num,
num_fewshot=num_fewshot,
limit=limit,
bootstrap_iters=bootstrap_iters,
description_dict=description_dict,
decontamination_ngrams_path=decontamination_ngrams_path,
write_out=write_out,
output_base_path=output_base_path,
reduce=reduce
)
# add info about the model and few shot config
model_name = None
if isinstance(model, str):
model_name = model
elif isinstance(model, transformers.PreTrainedModel):
model_name = "pretrained=" + model.config._name_or_path
results["config"] = {
"model": model_name,
"model_args": model_args,
"num_fewshot": num_fewshot,
"batch_size": batch_size,
"batch_sizes": list(lm.batch_sizes.values())
if hasattr(lm, "batch_sizes")
else [],
"device": device,
"no_cache": no_cache,
"limit": limit,
"bootstrap_iters": bootstrap_iters,
"description_dict": description_dict,
}
return results
@positional_deprecated
def full_evaluate(
model,
model_args=None,
tasks=[],
num_fewshot=0,
batch_size=None,
max_batch_size=None,
device=None,
no_cache=False,
limit=None,
bootstrap_iters=100000,
description_dict=None,
check_integrity=False,
decontamination_ngrams_path=None,
write_out=False,
output_base_path=None,
reduce=None
):
"""Instantiate and evaluate a model on a list of tasks.
:param model: Union[str, LM]
Name of model, transformers.PreTrainedModel object, or LM object, see lm_eval.models.get_model
:param model_args: Optional[str]
String arguments for each model class, see LM.create_from_arg_string.
Ignored if `model` argument is a LM object.
:param tasks: list[Union[str, Task]]
List of task names or Task objects. Task objects will be taken to have name task.EVAL_HARNESS_NAME if defined and type(task).__name__ otherwise.
:param num_fewshot: int
Number of examples in few-shot context
:param batch_size: int or str, optional
Batch size for model
:param max_batch_size: int, optional
Maximal batch size to try with automatic batch size detection
:param device: str, optional
PyTorch device (e.g. "cpu" or "cuda:0") for running models
:param no_cache: bool
Whether or not to cache
:param limit: int or float, optional
Limit the number of examples per task (only use this for testing), If <1, limit is a percentage of the total number of examples.
:param bootstrap_iters:
Number of iterations for bootstrap statistics
:param description_dict: dict[str, str]
Dictionary of custom task descriptions of the form: `task_name: description`
:param check_integrity: bool
Whether to run the relevant part of the test suite for the tasks
:param write_out: bool
If True, write details about prompts and logits to json for all tasks
:param output_base_path: str, optional
Directory to which detailed eval info will be written. Defaults to present working dir.
:return
Dictionary of results
"""
random.seed(1234)
np.random.seed(1234)
assert tasks != [], "No tasks specified"
if isinstance(model, str):
if model_args is None:
model_args = ""
lm = lm_eval.models.get_model(model).create_from_arg_string(
model_args,
{
"batch_size": batch_size,
"max_batch_size": max_batch_size,
"device": device,
},
)
elif isinstance(model, transformers.PreTrainedModel):
lm = lm_eval.models.get_model("hf-causal")(
pretrained=model,
batch_size=batch_size,
max_batch_size=max_batch_size,
)
no_cache = True
else:
assert isinstance(model, lm_eval.base.LM)
lm = model
if not no_cache:
lm = lm_eval.base.CachingLM(
lm,
"lm_cache/"
+ (model if isinstance(model, str) else model.model.config._name_or_path)
+ "_"
+ model_args.replace("=", "-").replace(",", "_").replace("/", "-")
+ ".db",
)
task_dict = lm_eval.tasks.get_task_dict(tasks)
if check_integrity:
run_task_tests(task_list=tasks)
results = evaluate(
lm=lm,
task_dict=task_dict,
chunk_num=None,
num_fewshot=num_fewshot,
limit=0.2,
bootstrap_iters=bootstrap_iters,
description_dict=description_dict,
decontamination_ngrams_path=decontamination_ngrams_path,
write_out=write_out,
output_base_path=output_base_path,
reduce=reduce
)
# add info about the model and few shot config
model_name = None
if isinstance(model, str):
model_name = model
elif isinstance(model, transformers.PreTrainedModel):
model_name = "pretrained=" + model.config._name_or_path
results["config"] = {
"model": model_name,
"model_args": model_args,
"num_fewshot": num_fewshot,
"batch_size": batch_size,
"batch_sizes": list(lm.batch_sizes.values())
if hasattr(lm, "batch_sizes")
else [],
"device": device,
"no_cache": no_cache,
"limit": limit,
"bootstrap_iters": bootstrap_iters,
"description_dict": description_dict,
}
return results
decontaminate_suffix = "_decontaminate"
@positional_deprecated
def evaluate(
lm,
task_dict,
chunk_num,
provide_description=None,
num_fewshot=0,
limit=None,
bootstrap_iters=100000,
description_dict=None,
decontamination_ngrams_path=None,
write_out=False,
output_base_path=None,
reduce='loglikelihood_test'
):
"""Instantiate and evaluate a model on a list of tasks.
:param lm: obj
Language Model
:param task_dict: dict[str, Task]
Dictionary of tasks. Tasks will be taken to have name task.EVAL_HARNESS_NAME if defined and type(task).__name__ otherwise.
:param provide_description: bool
Not implemented, and this option is deprecated and will be removed in a future version in favor of a different description providing method
:param num_fewshot: int
Number of examples in few-shot context
:param limit: int, optional
Limit the number of examples per task (only use this for testing)
:param bootstrap_iters:
Number of iterations for bootstrap statistics
:param description_dict: dict[str, str]
Dictionary of custom task descriptions of the form: `task_name: description`
:param write_out: bool
If True, write all prompts, logits and metrics to json for offline analysis
:param output_base_path: str, optional
Directory to which detailed eval info will be written. Defaults to present working dir
:return
Dictionary of results
"""
# TODO: completely refactor this entire function to not be a huge mess, ideally breaking it down into smaller pieces
# TODO: todo: implement proper description-providing system
assert not provide_description # not implemented.
if provide_description is not None:
# nudge people to not specify it at all
print(
"WARNING: provide_description is deprecated and will be removed in a future version in favor of description_dict"
)
decontaminate = decontamination_ngrams_path is not None
task_dict_items = [
(name, task)
for name, task in task_dict.items()
if (task.has_validation_docs() or task.has_test_docs())
]
results = collections.defaultdict(dict)
versions = collections.defaultdict(dict)
requests = collections.defaultdict(list)
requests_origin = collections.defaultdict(list)
overlaps = collections.defaultdict(list) # {task_name: contaminated_docs}
gold_field = {
'piqa' : 'gold',
'winogrande' : 'answer',
'arc_easy' : 'gold',
'arc_challenge' : 'gold',
'hellaswag' : 'gold',
'boolq' : 'label'
}
# If we ever run into issues where the eval tasks don't fit in memory and we can't afford a machine with bigger
# memory, we can always modify this plumbing to support that, but I didn't want to include it just yet because
# over-engineering is bad (or we could make it write the requests to disk and then read them back out again
# - probably using an sqlite db because of all the moving parts we have
# TODO: we need unit tests & sanity checks or something to ensure that the return of `validation_docs` is stable
docs = {}
write_out_info = {}
docs_for_decontamination = collections.defaultdict(list)
# get lists of each type of request
for task_name, task in task_dict_items:
versions[task_name] = task.VERSION
# default to test doc, fall back to val doc if validation unavailable
# TODO: the test-fallback-to-val system isn't final, we should revisit it at some point
if task.has_test_docs():
task_doc_func = task.test_docs
task_set = "test" # Required for caching in the decontamination
elif task.has_validation_docs():
task_set = "val" # Required for caching in the decontamination
task_doc_func = task.validation_docs
else:
raise RuntimeError("Task has neither test_docs nor validation_docs")
# deterministically shuffle docs and chop off the first `limit` because sometimes docs are in some kind of order
task_docs = list(task_doc_func())
rnd = random.Random()
rnd.seed(42)
rnd.shuffle(task_docs)
print(f"Task: {task_name}; number of docs: {len(task_docs)}")
if write_out:
prompt_details = []
description = (
description_dict[task_name]
if description_dict and task_name in description_dict
else ""
)
if limit is not None:
limit = int(len(task_docs) * limit) if limit < 1.0 else int(limit)
if(chunk_num is not None):
lower_bound = int(chunk_num*limit)
upper_bound = int(lower_bound + limit)
else:
lower_bound = int(1*limit)
upper_bound = len(task_docs) - 1
print(f"From index {lower_bound} to index {upper_bound}")
for doc_id, doc in enumerate(itertools.islice(task_docs, lower_bound, upper_bound)):
if decontaminate and task.should_decontaminate():
docs_for_decontamination[(task_name, task_set)].append(
task.doc_to_decontamination_query(doc)
)
docs[(task_name, doc_id)] = doc
ctx = task.fewshot_context(
doc=doc, num_fewshot=num_fewshot, rnd=rnd, description=description
)
reqs = task.construct_requests(doc, ctx)
if write_out:
prompt_details.append({"doc_id": doc_id})
# print the prompt for the first few documents
if doc_id < 1:
print(
f"Task: {task_name}; document {doc_id}; context prompt (starting on next line):\n{ctx}\n(end of prompt on previous line)"
)
print("Requests:", reqs)
if not isinstance(reqs, (list, tuple)):
reqs = [reqs]
for i, req in enumerate(reqs):
requests[req.request_type].append(req)
# i: index in requests for a single task instance
# doc_id: unique id that we can get back to a doc using `docs`
requests_origin[req.request_type].append((i, task_name, doc, doc_id))
if write_out:
prompt_details[-1][f"prompt_{i}"] = "".join(
(map(lambda x: "".join(x), req.args))
)
if write_out:
write_out_info[task_name] = prompt_details
# Compare all tasks/sets at once to ensure a single training set scan
if decontaminate:
from lm_eval.decontamination.decontaminate import get_train_overlap
print("Finding train/test overlap, please wait...")
overlaps = get_train_overlap(
docs_for_decontamination, decontamination_ngrams_path, limit
)
# all responses for each (task, doc)
process_res_queue = collections.defaultdict(list)
# execute each type of request
for reqtype, reqs in requests.items():
# TODO: right now, this code runs multiple separate LM requests for multiple Requests differing
# only in index. We could implement some kind of caching, but that would be more of a band-aid
# solution. we could also implement some kind of auto-grouping here;
# they should end up next to each other.
print("Running", reqtype, "requests")
resps = getattr(lm, reqtype)([req.args for req in reqs])
resps = [
x if req.index is None else x[req.index] for x, req in zip(resps, reqs)
]
for resp, (i, task_name, doc, doc_id) in zip(resps, requests_origin[reqtype]):
process_res_queue[(task_name, doc_id)].append((i, resp))
if write_out:
write_out_info[task_name][doc_id][f"logit_{i}"] = resp
task = task_dict[task_name]
if isinstance(task, lm_eval.base.MultipleChoiceTask):
write_out_info[task_name][doc_id]["truth"] = doc["gold"]
elif isinstance(task, lm_eval.tasks.winogrande.Winogrande):
write_out_info[task_name][doc_id]["truth"] = task.answer_to_num[
doc["answer"]
]
else:
write_out_info[task_name][doc_id]["truth"] = task.doc_to_target(doc)
vals = collections.defaultdict(list)
# unpack results and sort back in order and return control to Task
for (task_name, doc_id), requests in process_res_queue.items():
requests.sort(key=lambda x: x[0])
requests = [x[1] for x in requests]
task = task_dict[task_name]
doc = docs[(task_name, doc_id)]
if reduce=='loglikelihood_test':
ll_gold = requests[int(doc[gold_field[task_name]])-1]
incorrect_requests = [req for req in requests if req != ll_gold]
if incorrect_requests:
ll_incorrect_max = max(incorrect_requests)
else:
ll_incorrect_max = ll_gold
metrics = {}
metrics['llt'] = ll_gold - ll_incorrect_max
else:
metrics = task.process_results(doc, requests)
for metric, value in metrics.items():
vals[(task_name, metric)].append(value)
if write_out:
write_out_info[task_name][doc_id][metric] = str(value)
# Re-use the evaluation for the decontaminated set by just ignoring the overlaps
if decontaminate and task_name in overlaps:
if doc_id not in overlaps[task_name]:
vals[(task_name, metric + decontaminate_suffix)].append(value)
# aggregate results
for (task_name, metric), items in vals.items():
task = task_dict[task_name]
if reduce=='loglikelihood_test':
real_metric = 'acc'
else:
real_metric = metric # key when looking up the metric with task.aggregation
if metric.endswith(decontaminate_suffix):
real_metric = metric.replace(
decontaminate_suffix, ""
) # decontaminated still uses the same metric
results[task_name][metric] = task.aggregation()[real_metric](items)
# hotfix: bleu, chrf, ter seem to be really expensive to bootstrap
# so we run them less iterations. still looking for a cleaner way to do this
stderr = lm_eval.metrics.stderr_for_metric(
metric=task.aggregation()[real_metric],
bootstrap_iters=min(bootstrap_iters, 1000)
if metric in ["bleu", "chrf", "ter"]
else bootstrap_iters,
)
if stderr is not None:
results[task_name][metric + "_stderr"] = stderr(items)
if write_out:
import json
import pathlib
output_base_path = (
pathlib.Path(output_base_path)
if output_base_path is not None
else pathlib.Path(".")
)
try:
output_base_path.mkdir(parents=True, exist_ok=False)
except FileExistsError:
pass
for task_name, _ in task_dict_items:
with open(
output_base_path.joinpath(f"{task_name}_write_out_info.json"),
"w",
encoding="utf8",
) as fp:
json.dump(write_out_info[task_name], fp, indent=4, ensure_ascii=False)
return {"results": dict(results), "versions": dict(versions)}
def make_table(result_dict):
"""Generate table of results."""
from pytablewriter import MarkdownTableWriter, LatexTableWriter
md_writer = MarkdownTableWriter()
latex_writer = LatexTableWriter()
md_writer.headers = ["Task", "Version", "Metric", "Value", "", "Stderr"]
latex_writer.headers = ["Task", "Version", "Metric", "Value", "", "Stderr"]
values = []
for k, dic in result_dict["results"].items():
version = result_dict["versions"][k]
for m, v in dic.items():
if m.endswith("_stderr"):
continue
if m + "_stderr" in dic:
se = dic[m + "_stderr"]
values.append([k, version, m, "%.4f" % v, "±", "%.4f" % se])
else:
values.append([k, version, m, "%.4f" % v, "", ""])
k = ""
version = ""
md_writer.value_matrix = values
latex_writer.value_matrix = values
# todo: make latex table look good
# print(latex_writer.dumps())
return md_writer.dumps()