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"""This section describes unitxt loaders. |
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Loaders: Generators of Unitxt Multistreams from existing date sources |
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============================================================== |
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Unitxt is all about readily preparing of any given data source for feeding into any given language model, and then, |
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postprocessing the model's output, preparing it for any given evaluator. |
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Through that journey, the data advances in the form of Unitxt Multistream, undergoing a sequential application |
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of various off the shelf operators (i.e, picked from Unitxt catalog), or operators easily implemented by inheriting. |
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The journey starts by a Unitxt Loeader bearing a Multistream from the given datasource. |
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A loader, therefore, is the first item on any Unitxt Recipe. |
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Unitxt catalog contains several loaders for the most popular datasource formats. |
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All these loaders inherit from Loader, and hence, implementing a loader to expand over a new type of datasource, is |
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straight forward. |
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Operators in Unitxt catalog: |
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LoadHF : loads from Huggingface dataset. |
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LoadCSV: loads from csv (comma separated value) files |
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LoadFromKaggle: loads datasets from the kaggle.com community site |
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LoadFromIBMCloud: loads a dataset from the IBM cloud. |
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------------------------ |
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""" |
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import importlib |
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import itertools |
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import os |
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import tempfile |
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from pathlib import Path |
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from tempfile import TemporaryDirectory |
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from typing import Dict, Mapping, Optional, Sequence, Union |
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import pandas as pd |
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from datasets import load_dataset as hf_load_dataset |
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from tqdm import tqdm |
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from .logging_utils import get_logger |
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from .operator import SourceOperator |
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from .settings_utils import get_settings |
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from .stream import MultiStream, Stream |
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logger = get_logger() |
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settings = get_settings() |
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try: |
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import ibm_boto3 |
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ibm_boto3_available = True |
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except ImportError: |
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ibm_boto3_available = False |
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class Loader(SourceOperator): |
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loader_limit: int = None |
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pass |
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class LoadHF(Loader): |
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path: str |
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name: Optional[str] = None |
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data_dir: Optional[str] = None |
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split: Optional[str] = None |
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data_files: Optional[ |
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Union[str, Sequence[str], Mapping[str, Union[str, Sequence[str]]]] |
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] = None |
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streaming: bool = True |
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def process(self): |
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try: |
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with tempfile.TemporaryDirectory() as dir_to_be_deleted: |
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dataset = hf_load_dataset( |
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self.path, |
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name=self.name, |
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data_dir=self.data_dir, |
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data_files=self.data_files, |
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streaming=self.streaming, |
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cache_dir=None if self.streaming else dir_to_be_deleted, |
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split=self.split, |
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trust_remote_code=settings.allow_unverified_code, |
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) |
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if self.split is not None: |
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dataset = {self.split: dataset} |
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except ( |
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NotImplementedError |
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): |
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with tempfile.TemporaryDirectory() as dir_to_be_deleted: |
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try: |
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dataset = hf_load_dataset( |
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self.path, |
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name=self.name, |
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data_dir=self.data_dir, |
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data_files=self.data_files, |
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streaming=False, |
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keep_in_memory=True, |
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cache_dir=dir_to_be_deleted, |
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split=self.split, |
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trust_remote_code=settings.allow_unverified_code, |
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) |
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except ValueError as e: |
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if "trust_remote_code" in str(e): |
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raise ValueError( |
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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." |
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) from e |
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if self.split is None: |
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for split in dataset.keys(): |
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dataset[split] = dataset[split].to_iterable_dataset() |
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else: |
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dataset = {self.split: dataset} |
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return MultiStream.from_iterables(dataset) |
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class LoadCSV(Loader): |
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files: Dict[str, str] |
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chunksize: int = 1000 |
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def load_csv(self, file): |
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for chunk in pd.read_csv(file, chunksize=self.chunksize): |
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for _index, row in chunk.iterrows(): |
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yield row.to_dict() |
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def process(self): |
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return MultiStream( |
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{ |
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name: Stream(generator=self.load_csv, gen_kwargs={"file": file}) |
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for name, file in self.files.items() |
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} |
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) |
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class MissingKaggleCredentialsError(ValueError): |
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pass |
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class LoadFromKaggle(Loader): |
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url: str |
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def verify(self): |
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super().verify() |
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if importlib.util.find_spec("opendatasets") is None: |
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raise ImportError( |
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"Please install opendatasets in order to use the LoadFromKaggle loader (using `pip install opendatasets`) " |
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) |
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if not os.path.isfile("kaggle.json"): |
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raise MissingKaggleCredentialsError( |
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"Please obtain kaggle credentials https://christianjmills.com/posts/kaggle-obtain-api-key-tutorial/ and save them to local ./kaggle.json file" |
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) |
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def prepare(self): |
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super().prepare() |
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from opendatasets import download |
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self.downloader = download |
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def process(self): |
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with TemporaryDirectory() as temp_directory: |
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self.downloader(self.url, temp_directory) |
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dataset = hf_load_dataset(temp_directory, streaming=False) |
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return MultiStream.from_iterables(dataset) |
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class LoadFromIBMCloud(Loader): |
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endpoint_url_env: str |
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aws_access_key_id_env: str |
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aws_secret_access_key_env: str |
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bucket_name: str |
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data_dir: str = None |
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data_files: Union[Sequence[str], Mapping[str, Union[str, Sequence[str]]]] |
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caching: bool = True |
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def _download_from_cos(self, cos, bucket_name, item_name, local_file): |
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logger.info(f"Downloading {item_name} from {bucket_name} COS") |
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try: |
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response = cos.Object(bucket_name, item_name).get() |
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size = response["ContentLength"] |
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body = response["Body"] |
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except Exception as e: |
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raise Exception( |
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f"Unabled to access {item_name} in {bucket_name} in COS", e |
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) from e |
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if self.loader_limit is not None: |
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if item_name.endswith(".jsonl"): |
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first_lines = list( |
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itertools.islice(body.iter_lines(), self.loader_limit) |
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) |
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with open(local_file, "wb") as downloaded_file: |
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for line in first_lines: |
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downloaded_file.write(line) |
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downloaded_file.write(b"\n") |
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logger.info( |
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f"\nDownload successful limited to {self.loader_limit} lines" |
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) |
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return |
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progress_bar = tqdm(total=size, unit="iB", unit_scale=True) |
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def upload_progress(chunk): |
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progress_bar.update(chunk) |
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try: |
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cos.Bucket(bucket_name).download_file( |
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item_name, local_file, Callback=upload_progress |
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) |
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logger.info("\nDownload Successful") |
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except Exception as e: |
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raise Exception( |
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f"Unabled to download {item_name} in {bucket_name}", e |
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) from e |
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def prepare(self): |
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super().prepare() |
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self.endpoint_url = os.getenv(self.endpoint_url_env) |
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self.aws_access_key_id = os.getenv(self.aws_access_key_id_env) |
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self.aws_secret_access_key = os.getenv(self.aws_secret_access_key_env) |
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root_dir = os.getenv("UNITXT_IBM_COS_CACHE", None) or os.getcwd() |
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self.cache_dir = os.path.join(root_dir, "ibmcos_datasets") |
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if not os.path.exists(self.cache_dir): |
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Path(self.cache_dir).mkdir(parents=True, exist_ok=True) |
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def verify(self): |
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super().verify() |
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assert ibm_boto3_available, "Please install ibm_boto3 in order to use the LoadFromIBMCloud loader (using `pip install ibm-cos-sdk`) " |
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assert ( |
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self.endpoint_url is not None |
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), f"Please set the {self.endpoint_url_env} environmental variable" |
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assert ( |
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self.aws_access_key_id is not None |
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), f"Please set {self.aws_access_key_id_env} environmental variable" |
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assert ( |
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self.aws_secret_access_key is not None |
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), f"Please set {self.aws_secret_access_key_env} environmental variable" |
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def process(self): |
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cos = ibm_boto3.resource( |
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"s3", |
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aws_access_key_id=self.aws_access_key_id, |
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aws_secret_access_key=self.aws_secret_access_key, |
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endpoint_url=self.endpoint_url, |
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) |
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local_dir = os.path.join( |
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self.cache_dir, |
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self.bucket_name, |
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self.data_dir, |
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f"loader_limit_{self.loader_limit}", |
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) |
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if not os.path.exists(local_dir): |
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Path(local_dir).mkdir(parents=True, exist_ok=True) |
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if isinstance(self.data_files, Mapping): |
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data_files_names = list(self.data_files.values()) |
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if not isinstance(data_files_names[0], str): |
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data_files_names = list(itertools.chain(*data_files_names)) |
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else: |
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data_files_names = self.data_files |
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for data_file in data_files_names: |
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local_file = os.path.join(local_dir, data_file) |
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if not self.caching or not os.path.exists(local_file): |
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object_key = ( |
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self.data_dir + "/" + data_file |
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if self.data_dir is not None |
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else data_file |
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) |
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with tempfile.NamedTemporaryFile() as temp_file: |
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self._download_from_cos( |
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cos, |
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self.bucket_name, |
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object_key, |
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local_dir + "/" + os.path.basename(temp_file.name), |
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) |
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os.rename( |
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local_dir + "/" + os.path.basename(temp_file.name), |
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local_dir + "/" + data_file, |
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) |
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if isinstance(self.data_files, list): |
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dataset = hf_load_dataset(local_dir, streaming=False) |
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else: |
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dataset = hf_load_dataset( |
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local_dir, streaming=False, data_files=self.data_files |
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) |
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return MultiStream.from_iterables(dataset) |
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