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"""This section describes unitxt loaders.
Loaders: Generators of Unitxt Multistreams from existing date sources
==============================================================
Unitxt is all about readily preparing of any given data source for feeding into any given language model, and then,
postprocessing the model's output, preparing it for any given evaluator.
Through that journey, the data advances in the form of Unitxt Multistream, undergoing a sequential application
of various off the shelf operators (i.e, picked from Unitxt catalog), or operators easily implemented by inheriting.
The journey starts by a Unitxt Loeader bearing a Multistream from the given datasource.
A loader, therefore, is the first item on any Unitxt Recipe.
Unitxt catalog contains several loaders for the most popular datasource formats.
All these loaders inherit from Loader, and hence, implementing a loader to expand over a new type of datasource, is
straight forward.
Operators in Unitxt catalog:
LoadHF : loads from Huggingface dataset.
LoadCSV: loads from csv (comma separated value) files
LoadFromKaggle: loads datasets from the kaggle.com community site
LoadFromIBMCloud: loads a dataset from the IBM cloud.
------------------------
"""
import itertools
import os
import tempfile
from pathlib import Path
from tempfile import TemporaryDirectory
from typing import Dict, List, Mapping, Optional, Sequence, Union
import pandas as pd
from datasets import load_dataset as hf_load_dataset
from tqdm import tqdm
from .dataclass import InternalField, OptionalField
from .logging_utils import get_logger
from .operator import SourceOperator
from .settings_utils import get_settings
from .stream import MultiStream, Stream
logger = get_logger()
settings = get_settings()
class Loader(SourceOperator):
# The loader_limit an optional parameter used to control the maximum number of instances to load from the the source.
# It is usually provided to the loader via the recipe (see standard.py)
# The loader can use this value to limit the amount of data downloaded from the source
# to reduce loading time. However, this may not always be possible, so the
# loader may ignore this. In any case, the recipe, will limit the number of instances in the returned
# stream, after load is complete.
loader_limit: int = None
streaming: bool = False
def get_limit(self):
if settings.global_loader_limit is not None and self.loader_limit is not None:
return min(int(settings.global_loader_limit), self.loader_limit)
if settings.global_loader_limit is not None:
return int(settings.global_loader_limit)
return self.loader_limit
def get_limiter(self):
if settings.global_loader_limit is not None and self.loader_limit is not None:
if int(settings.global_loader_limit) > self.loader_limit:
return f"{self.__class__.__name__}.loader_limit"
return "unitxt.settings.global_loader_limit"
if settings.global_loader_limit is not None:
return "unitxt.settings.global_loader_limit"
return f"{self.__class__.__name__}.loader_limit"
def log_limited_loading(self):
logger.info(
f"\nLoading limited to {self.get_limit()} instances by setting {self.get_limiter()};"
)
class LoadHF(Loader):
path: str
name: Optional[str] = None
data_dir: Optional[str] = None
split: Optional[str] = None
data_files: Optional[
Union[str, Sequence[str], Mapping[str, Union[str, Sequence[str]]]]
] = None
streaming: bool = True
filtering_lambda: Optional[str] = None
_cache: dict = InternalField(default=None)
requirements_list: List[str] = OptionalField(default_factory=list)
def verify(self):
for requirement in self.requirements_list:
if requirement not in self._requirements_list:
self._requirements_list.append(requirement)
super().verify()
def filtered_load(self, dataset):
logger.info(f"\nLoading filtered by: {self.filtering_lambda};")
return MultiStream(
{
name: dataset[name].filter(eval(self.filtering_lambda))
for name in dataset
}
)
def stream_dataset(self):
if self._cache is None:
with tempfile.TemporaryDirectory() as dir_to_be_deleted:
try:
dataset = hf_load_dataset(
self.path,
name=self.name,
data_dir=self.data_dir,
data_files=self.data_files,
streaming=self.streaming,
cache_dir=None if self.streaming else dir_to_be_deleted,
split=self.split,
trust_remote_code=settings.allow_unverified_code,
)
except ValueError as e:
if "trust_remote_code" in str(e):
raise ValueError(
f"{self.__class__.__name__} cannot run remote code from huggingface without setting unitxt.settings.allow_unverified_code=True or by setting environment vairable: UNITXT_ALLOW_UNVERIFIED_CODE."
) from e
if self.filtering_lambda is not None:
dataset = self.filtered_load(dataset)
if self.split is not None:
dataset = {self.split: dataset}
self._cache = dataset
else:
dataset = self._cache
return dataset
def load_dataset(self):
if self._cache is None:
with tempfile.TemporaryDirectory() as dir_to_be_deleted:
try:
dataset = hf_load_dataset(
self.path,
name=self.name,
data_dir=self.data_dir,
data_files=self.data_files,
streaming=False,
keep_in_memory=True,
cache_dir=dir_to_be_deleted,
split=self.split,
trust_remote_code=settings.allow_unverified_code,
)
except ValueError as e:
if "trust_remote_code" in str(e):
raise ValueError(
f"{self.__class__.__name__} cannot run remote code from huggingface without setting unitxt.settings.allow_unverified_code=True or by setting environment vairable: UNITXT_ALLOW_UNVERIFIED_CODE."
) from e
if self.filtering_lambda is not None:
dataset = self.filtered_load(dataset)
if self.split is None:
for split in dataset.keys():
dataset[split] = dataset[split].to_iterable_dataset()
else:
dataset = {self.split: dataset}
self._cache = dataset
else:
dataset = self._cache
return dataset
def split_limited_load(self, split_name):
yield from itertools.islice(self._cache[split_name], self.get_limit())
def limited_load(self):
self.log_limited_loading()
return MultiStream(
{
name: Stream(
generator=self.split_limited_load, gen_kwargs={"split_name": name}
)
for name in self._cache.keys()
}
)
def process(self):
try:
dataset = self.stream_dataset()
except (
NotImplementedError
): # streaming is not supported for zipped files so we load without streaming
dataset = self.load_dataset()
if self.get_limit() is not None:
return self.limited_load()
return MultiStream.from_iterables(dataset)
class LoadCSV(Loader):
files: Dict[str, str]
chunksize: int = 1000
_cache = InternalField(default_factory=dict)
loader_limit: int = None
streaming: bool = True
def stream_csv(self, file):
if self.get_limit() is not None:
self.log_limited_loading()
chunksize = min(self.get_limit(), self.chunksize)
else:
chunksize = self.chunksize
row_count = 0
for chunk in pd.read_csv(file, chunksize=chunksize):
for _, row in chunk.iterrows():
if self.get_limit() is not None and row_count >= self.get_limit():
return
yield row.to_dict()
row_count += 1
def load_csv(self, file):
if file not in self._cache:
if self.get_limit() is not None:
self.log_limited_loading()
self._cache[file] = pd.read_csv(file, nrows=self.get_limit()).to_dict(
"records"
)
else:
self._cache[file] = pd.read_csv(file).to_dict("records")
yield from self._cache[file]
def process(self):
if self.streaming:
return MultiStream(
{
name: Stream(generator=self.stream_csv, gen_kwargs={"file": file})
for name, file in self.files.items()
}
)
return MultiStream(
{
name: Stream(generator=self.load_csv, gen_kwargs={"file": file})
for name, file in self.files.items()
}
)
class MissingKaggleCredentialsError(ValueError):
pass
# TODO write how to obtain kaggle credentials
class LoadFromKaggle(Loader):
url: str
_requirements_list: List[str] = ["opendatasets"]
def verify(self):
super().verify()
if not os.path.isfile("kaggle.json"):
raise MissingKaggleCredentialsError(
"Please obtain kaggle credentials https://christianjmills.com/posts/kaggle-obtain-api-key-tutorial/ and save them to local ./kaggle.json file"
)
if self.streaming:
raise NotImplementedError("LoadFromKaggle cannot load with streaming.")
def prepare(self):
super().prepare()
from opendatasets import download
self.downloader = download
def process(self):
with TemporaryDirectory() as temp_directory:
self.downloader(self.url, temp_directory)
dataset = hf_load_dataset(temp_directory, streaming=False)
return MultiStream.from_iterables(dataset)
class LoadFromIBMCloud(Loader):
endpoint_url_env: str
aws_access_key_id_env: str
aws_secret_access_key_env: str
bucket_name: str
data_dir: str = None
# Can be either:
# 1. a list of file names, the split of each file is determined by the file name pattern
# 2. Mapping: split -> file_name, e.g. {"test" : "test.json", "train": "train.json"}
# 3. Mapping: split -> file_names, e.g. {"test" : ["test1.json", "test2.json"], "train": ["train.json"]}
data_files: Union[Sequence[str], Mapping[str, Union[str, Sequence[str]]]]
caching: bool = True
_requirements_list: List[str] = ["ibm_boto3"]
def _download_from_cos(self, cos, bucket_name, item_name, local_file):
logger.info(f"Downloading {item_name} from {bucket_name} COS")
try:
response = cos.Object(bucket_name, item_name).get()
size = response["ContentLength"]
body = response["Body"]
except Exception as e:
raise Exception(
f"Unabled to access {item_name} in {bucket_name} in COS", e
) from e
if self.get_limit() is not None:
if item_name.endswith(".jsonl"):
first_lines = list(
itertools.islice(body.iter_lines(), self.get_limit())
)
with open(local_file, "wb") as downloaded_file:
for line in first_lines:
downloaded_file.write(line)
downloaded_file.write(b"\n")
logger.info(
f"\nDownload successful limited to {self.get_limit()} lines"
)
return
progress_bar = tqdm(total=size, unit="iB", unit_scale=True)
def upload_progress(chunk):
progress_bar.update(chunk)
try:
cos.Bucket(bucket_name).download_file(
item_name, local_file, Callback=upload_progress
)
logger.info("\nDownload Successful")
except Exception as e:
raise Exception(
f"Unabled to download {item_name} in {bucket_name}", e
) from e
def prepare(self):
super().prepare()
self.endpoint_url = os.getenv(self.endpoint_url_env)
self.aws_access_key_id = os.getenv(self.aws_access_key_id_env)
self.aws_secret_access_key = os.getenv(self.aws_secret_access_key_env)
root_dir = os.getenv("UNITXT_IBM_COS_CACHE", None) or os.getcwd()
self.cache_dir = os.path.join(root_dir, "ibmcos_datasets")
if not os.path.exists(self.cache_dir):
Path(self.cache_dir).mkdir(parents=True, exist_ok=True)
def verify(self):
super().verify()
assert (
self.endpoint_url is not None
), f"Please set the {self.endpoint_url_env} environmental variable"
assert (
self.aws_access_key_id is not None
), f"Please set {self.aws_access_key_id_env} environmental variable"
assert (
self.aws_secret_access_key is not None
), f"Please set {self.aws_secret_access_key_env} environmental variable"
if self.streaming:
raise NotImplementedError("LoadFromKaggle cannot load with streaming.")
def process(self):
import ibm_boto3
cos = ibm_boto3.resource(
"s3",
aws_access_key_id=self.aws_access_key_id,
aws_secret_access_key=self.aws_secret_access_key,
endpoint_url=self.endpoint_url,
)
local_dir = os.path.join(
self.cache_dir,
self.bucket_name,
self.data_dir,
f"loader_limit_{self.get_limit()}",
)
if not os.path.exists(local_dir):
Path(local_dir).mkdir(parents=True, exist_ok=True)
if isinstance(self.data_files, Mapping):
data_files_names = list(self.data_files.values())
if not isinstance(data_files_names[0], str):
data_files_names = list(itertools.chain(*data_files_names))
else:
data_files_names = self.data_files
for data_file in data_files_names:
local_file = os.path.join(local_dir, data_file)
if not self.caching or not os.path.exists(local_file):
# Build object key based on parameters. Slash character is not
# allowed to be part of object key in IBM COS.
object_key = (
self.data_dir + "/" + data_file
if self.data_dir is not None
else data_file
)
with tempfile.NamedTemporaryFile() as temp_file:
# Download to a temporary file in same file partition, and then do an atomic move
self._download_from_cos(
cos,
self.bucket_name,
object_key,
local_dir + "/" + os.path.basename(temp_file.name),
)
os.rename(
local_dir + "/" + os.path.basename(temp_file.name),
local_dir + "/" + data_file,
)
if isinstance(self.data_files, list):
dataset = hf_load_dataset(local_dir, streaming=False)
else:
dataset = hf_load_dataset(
local_dir, streaming=False, data_files=self.data_files
)
return MultiStream.from_iterables(dataset)
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