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"""P3 (Public Pool of Prompts)""" |
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import datasets |
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import json |
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import urllib |
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from collections import defaultdict |
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import tensorflow as tf |
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_CITATION = """\ |
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TODO""" |
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_DESCRIPTION = """\ |
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P3 (Public Pool of Prompts)is a collection of prompted English datasets covering a diverse set of NLP tasks. A prompt is the combination of an input template and a target template. The templates are functions mapping a data example into natural language for the input and target sequences. For example, in the case of an NLI dataset, the data example would include fields for *Premise, Hypothesis, Label*. An input template would be *If {Premise} is true, is it also true that {Hypothesis}?*, whereas a target template can be defined with the label choices *Choices[label]*. Here *Choices* is prompt-specific metadata that consists of the options *yes, maybe, no* corresponding to *label* being entailment (0), neutral (1) or contradiction (2). |
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Prompts are collected using [Promptsource](https://github.com/bigscience-workshop/promptsource), an interface to interactively write prompts on datasets, and collect prompt-specific metadata such as evaluation metrics. As of October 13th, there are 2'000 prompts collected for 270+ data(sub)sets. The collection of prompts is publicly available on [Promptsource](https://github.com/bigscience-workshop/promptsource). |
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To train [T0*](https://huggingface.co/bigscience/T0pp), we used a subset of the prompts available in Promptsource (see details [here](https://huggingface.co/bigscience/T0pp#training-data)). However, some of the prompts use `random.choice`, a method that selects uniformly at random an option in a list of valid possibilities. For reproducibility purposes, we release the collection of prompted examples used to train T0*. **The data available here are the materialized version of the prompted datasets used in [Multi-task enables task zero-shot generalization](TODO) which represent only a subset datasets for which there is at least one prompt on Promptsource.** |
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""" |
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_LICENSE = "Apache License 2.0" |
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_HOMEPAGE = "https://github.com/bigscience-workshop/promptsource" |
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_DATA_PATH = "data" |
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_HUB_PATH = "https://huggingface.co/datasets/bigscience/P3/raw/main" |
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logger = datasets.logging.get_logger(__name__) |
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def load_cached_task(features_dict, tfrecord): |
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def _feature_config(shape, dtype): |
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if dtype in ("int32", "bool"): |
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dtype = "int64" |
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if shape and shape[0] is None: |
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return tf.io.FixedLenSequenceFeature( |
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shape[1:], dtype, allow_missing=True |
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) |
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return tf.io.FixedLenFeature(shape, dtype) |
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feature_description = { |
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feat: _feature_config(**desc) for feat, desc in features_dict.items() |
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} |
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ds = tf.data.TFRecordDataset(tf.io.gfile.glob([tfrecord])) |
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ds = ds.map( |
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lambda pb: tf.io.parse_single_example(pb, feature_description), |
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num_parallel_calls=tf.data.experimental.AUTOTUNE |
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) |
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ds = ds.map( |
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lambda x: {k: tf.cast(v, features_dict[k]["dtype"]) for k, v in x.items()}, |
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num_parallel_calls=tf.data.experimental.AUTOTUNE |
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) |
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return ds |
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def read_from_url(url): |
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try: |
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content = urllib.request.urlopen(url, timeout=10.0) |
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logger.info(f"Downloaded {url}") |
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except urllib.error.URLError as e: |
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raise ConnectionError(e) |
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return content.read().decode("utf-8") |
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def find_task_splits_and_features_dict(): |
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"""Get the task available (list was pre-computed by `print_data_split_sizes.py`), and get the features for each task.""" |
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task_splits_and_features = defaultdict(dict) |
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data_split_sizes = read_from_url(f"{_HUB_PATH}/data_split_sizes.csv") |
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data_split_sizes = [t.strip() for t in data_split_sizes.splitlines()] |
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data_split_sizes = data_split_sizes[1:] |
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data_split_sizes = [t.split("|") for t in data_split_sizes] |
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data_split_sizes = [(t[0], json.loads(t[1])) for t in data_split_sizes] |
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for task_name, split_sizes in data_split_sizes: |
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for split_name in split_sizes.keys(): |
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split_info = json.loads( |
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read_from_url( |
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f"{_HUB_PATH}/data/{task_name}/info.{split_name}.json" |
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) |
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) |
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features_dict = split_info["features"] |
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assert split_info["num_shards"] == 1 |
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if not task_splits_and_features[task_name]: |
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task_splits_and_features[task_name] = { |
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"splits": [], |
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"features_dict": features_dict, |
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} |
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task_splits_and_features[task_name]["splits"].append(split_name) |
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assert features_dict == task_splits_and_features[task_name]["features_dict"] |
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return task_splits_and_features |
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_TASK_SPLITS_AND_FEATURES_DICT = find_task_splits_and_features_dict() |
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_URLs = { |
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task_name: { |
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split_name: { |
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"tfrecord": f"{_DATA_PATH}/{task_name}/{split_name}.tfrecord-00000-of-00001", |
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} |
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for split_name in splits_and_features_dict["splits"] |
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} |
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for task_name, splits_and_features_dict in _TASK_SPLITS_AND_FEATURES_DICT.items() |
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} |
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class P3Config(datasets.BuilderConfig): |
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"""BuilderConfig for P3.""" |
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def __init__(self, splits, features_dict, score_eval, **kwargs): |
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"""BuilderConfig for P3. |
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Args: |
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splits: `List[str]`, the lists of splits which are available for this task |
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features_dict: `dict`, the dict of features for this task |
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score_eval: `bool`, whether this is task formulated as a rank classification problem |
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**kwargs: keyword arguments forwarded to super. |
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""" |
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super(P3Config, self).__init__(version=datasets.Version("0.1.0"), **kwargs) |
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self.splits = splits |
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self.features_dict = features_dict |
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self.score_eval = score_eval |
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class P3(datasets.GeneratorBasedBuilder): |
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"""Subset of P3 used in `Multitask Prompted Training Enables Zero-Shot Task Generalization`""" |
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BUILDER_CONFIGS = [ |
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P3Config( |
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name=task_name, |
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splits=splits_and_features_dict["splits"], |
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features_dict=splits_and_features_dict["features_dict"], |
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score_eval=task_name.endswith("score_eval") |
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) |
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for task_name, splits_and_features_dict in _TASK_SPLITS_AND_FEATURES_DICT.items() |
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] |
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def _info(self): |
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_FEAT_MAPPING = { |
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"answer_choices": datasets.Sequence(datasets.Value("string")), |
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"inputs": datasets.Sequence(datasets.Value("int32")), |
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"inputs_pretokenized": datasets.Value("string"), |
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"targets": datasets.Sequence(datasets.Value("int32")), |
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"targets_pretokenized": datasets.Value("string"), |
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"idx": datasets.Sequence(datasets.Value("int32")), |
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"weight": datasets.Value("float32"), |
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"is_correct": datasets.Value("bool"), |
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} |
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features = {} |
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for feat_name in self.config.features_dict.keys(): |
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features[feat_name] = _FEAT_MAPPING[feat_name] |
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return datasets.DatasetInfo( |
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description=_DESCRIPTION, |
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features=datasets.Features(features), |
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supervised_keys=None, |
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homepage=_HOMEPAGE, |
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citation=_CITATION, |
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license=_LICENSE, |
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) |
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def _split_generators(self, dl_manager): |
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split_generators = [] |
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data_dir = dl_manager.download_and_extract(_URLs) |
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task_name = self.config.name |
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if "train" in self.config.splits: |
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split_name = "train" |
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split_generators.append( |
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datasets.SplitGenerator( |
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name=datasets.Split.TRAIN, |
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gen_kwargs={ |
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"tfrecord": data_dir[task_name][split_name]["tfrecord"], |
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} |
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) |
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) |
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if "validation" in self.config.splits: |
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split_name = "validation" |
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split_generators.append( |
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datasets.SplitGenerator( |
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name=datasets.Split.VALIDATION, |
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gen_kwargs={ |
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"tfrecord": data_dir[task_name][split_name]["tfrecord"], |
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} |
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) |
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) |
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if "test" in self.config.splits: |
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split_name = "test" |
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split_generators.append( |
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datasets.SplitGenerator( |
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name=datasets.Split.TEST, |
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gen_kwargs={ |
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"tfrecord": data_dir[task_name][split_name]["tfrecord"], |
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} |
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) |
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) |
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special_splits = set(self.config.splits) - set(["train", "validation", "test"]) |
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for special_split_name in special_splits: |
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split_generators.append( |
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datasets.SplitGenerator( |
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name=datasets.Split(special_split_name), |
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gen_kwargs={ |
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"tfrecord": data_dir[task_name][special_split_name]["tfrecord"], |
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} |
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) |
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) |
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return split_generators |
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def _generate_examples(self, tfrecord): |
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"""This function returns the examples in the raw (text) form.""" |
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_FEAT_MAPPING_FUNCTIONS = { |
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"answer_choices": lambda x: [choice.decode("utf-8") for choice in x], |
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"inputs": lambda x: x.tolist(), |
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"inputs_pretokenized": lambda x: x.decode("utf-8"), |
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"targets": lambda x: x.tolist(), |
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"targets_pretokenized": lambda x: x.decode("utf-8"), |
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"idx": lambda x: x.tolist(), |
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"weight": lambda x: float(x), |
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"is_correct": lambda x: x, |
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} |
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key = 0 |
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features_dict = self.config.features_dict |
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ds = load_cached_task(features_dict, tfrecord) |
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for ex in ds.as_numpy_iterator(): |
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ex_dict = {} |
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for feat_name, feat_value in ex.items(): |
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ex_dict[feat_name] = _FEAT_MAPPING_FUNCTIONS[feat_name](feat_value) |
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yield key, ex_dict |
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key += 1 |
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