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super_scirep / super_scirep_config.py

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	from typing import Dict, Any, List

	import datasets


	class SuperSciRepConfig(datasets.BuilderConfig):
	"""BuilderConfig for SuperGLUE."""

	def __init__(self, features: Dict[str, Any], task_type: str, citation: str = "",
	licenses: str = "", is_training: bool = False, homepage: str = "", url="", **kwargs):
	"""BuilderConfig for SuperGLUE.

	Args:
	features: list[string], list of the features that will appear in the
	feature dict. Should not include "label".
	data_url: string, url to download the zip file from.
	citation: string, citation for the data set.
	url: string, url for information about the data set.
	label_classes: list[string], the list of classes for the label if the
	label is present as a string. Non-string labels will be cast to either
	'False' or 'True'.
	**kwargs: keyword arguments forwarded to super.
	"""
	super().__init__(version=datasets.Version("1.1.0"), **kwargs)
	self.features = features
	self.task_type = task_type
	self.citation = citation
	self.license = licenses
	self.is_training = is_training
	self.homepage = homepage
	self.url = url

	@classmethod
	def get_features(self, feature_names: List[str], type_mapping: Dict[str, Any] = None) -> Dict[str, Any]:

	full_text_mapping = {"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}]}
	type_mapping = {full_text_mapping, type_mapping}
	features = {name: type_mapping[name] if name in type_mapping else datasets.Value("string") for name in
	feature_names}
	if "corpus_id" in features:
	features["corpus_id"] = datasets.Value("uint64")
	return features


	SUPERSCIREPEVAL_CONFIGS = [
	SuperSciRepConfig(name="fos", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "labels", "labels_text"],
	{"labels": datasets.Sequence(datasets.Value("int32")),
	"labels_text": datasets.Sequence(datasets.Value("string"))}),
	task_type="classification (multi-label)", is_training=True, description=""),

	SuperSciRepConfig(name="cite_count", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "venue", "n_citations", "log_citations"],
	{"n_citations": datasets.Value("int32"),
	"log_citations": datasets.Value("float32")}),
	task_type="regression", is_training=True, description=""
	),

	SuperSciRepConfig(name="pub_year", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "year", "venue", "norm_year", "scaled_year", "n_authors", "norm_authors"],
	{"year": datasets.Value("int32"), "norm_year": datasets.Value("float32"),
	"scaled_year": datasets.Value("float32"), "n_authors": datasets.Value("int32"),
	"norm_authors": datasets.Value("float32"), }),
	task_type="regression", is_training=True, description=""),


	SuperSciRepConfig(name="high_influence_cite",
	features=SuperSciRepConfig.get_features(["query", "candidates"],
	{"query": {
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64")},
	"candidates":
	[{"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64"),
	"score": datasets.Value("uint32")}]}),
	task_type="proximity", is_training=True, description=""),


	SuperSciRepConfig(name="search",
	features=SuperSciRepConfig.get_features(["query", "doc_id", "candidates"],
	{"candidates":
	[{
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64"),
	"venue": datasets.Value("string"),
	"year": datasets.Value("float64"),
	"author_names": datasets.Sequence(datasets.Value("string")),
	"n_citations": datasets.Value("int32"),
	"n_key_citations": datasets.Value("int32"),
	"score": datasets.Value("uint32")}]}),
	task_type="search", is_training=True, description=""),


	SuperSciRepConfig(name="feeds_1",
	features=SuperSciRepConfig.get_features(["query", "feed_id", "candidates"],
	{"query": {
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64")},
	"candidates":
	[{
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64"),
	"score": datasets.Value("uint32")}]}),
	task_type="proximity", description="", url="feeds/feeds_1"),

	SuperSciRepConfig(name="feeds_m",
	features=SuperSciRepConfig.get_features(["query", "feed_id", "candidates"],
	{"query": {
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64")},
	"candidates":
	[{
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64"),
	"score": datasets.Value("uint32")}]}),
	task_type="proximity", description="", url="feeds/feeds_m"),

	SuperSciRepConfig(name="feeds_title",
	features=SuperSciRepConfig.get_features(["query", "doc_id", "feed_id", "abbreviations", "candidates"],
	{"candidates":
	[{
	"doc_id": datasets.Value("string"),
	"title": datasets.Value("string"),
	"abstract": datasets.Value(
	"string"),
	"full_text": [{"title": datasets.Value("string"), "sentences": datasets.features.Sequence(datasets.Value("string"))}],
	"corpus_id": datasets.Value("uint64"),
	"score": datasets.Value("uint32")}]}),
	task_type="search", description="", url="feeds/feeds_title"),

	SuperSciRepConfig(name="peer_review_score_hIndex", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "rating", "confidence", "authors", "decision", "mean_rating", "hIndex"],
	{"mean_rating": datasets.Value("float32"),
	"rating": datasets.Sequence(datasets.Value("int32")),
	"authors": datasets.Sequence(datasets.Value("string")),
	"hIndex": datasets.Sequence(datasets.Value("string"))
	}),
	task_type="regression", description=""
	),



	SuperSciRepConfig(name="tweet_mentions", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "index", "retweets", "count", "mentions"],
	{"index": datasets.Value("int32"), "count": datasets.Value("int32"),
	"retweets": datasets.Value("float32"), "mentions": datasets.Value("float32")}),
	task_type="regression", description="",
	citation="@article{Jain2021TweetPapAD,\
	title={TweetPap: A Dataset to Study the Social Media Discourse of Scientific Papers},\
	author={Naman Jain and Mayank Kumar Singh},\
	journal={2021 ACM/IEEE Joint Conference on Digital Libraries (JCDL)},\
	year={2021},\
	pages={328-329}\
	}"),


	SuperSciRepConfig(name="scidocs_view_cite_read", features=SuperSciRepConfig.get_features(
	["doc_id", "corpus_id", "title", "abstract", "full_text", "authors", "cited_by", "references", "year"],
	{"year": datasets.Value("int32"),
	"authors": datasets.Sequence(datasets.Value("string")),
	"cited_by": datasets.Sequence(datasets.Value("string")),
	"references": datasets.Sequence(datasets.Value("string"))
	}),
	task_type="metadata", description="", url="scidocs/view_cite_read",
	homepage="https://github.com/allenai/scidocs", citation="@inproceedings{specter2020cohan,\
	title={SPECTER: Document-level Representation Learning using Citation-informed Transformers},\
	author={Arman Cohan and Sergey Feldman and Iz Beltagy and Doug Downey and Daniel S. Weld},\
	booktitle={ACL},\
	year={2020}\
	}"),

	SuperSciRepConfig(name="paper_reviewer_matching", features=SuperSciRepConfig.get_features(
	["doc_id", "title", "abstract", "full_text", "corpus_id"],
	{}),
	task_type="metadata", description="", citation="@inproceedings{Mimno2007ExpertiseMF,\
	title={Expertise modeling for matching papers with reviewers},\
	author={David Mimno and Andrew McCallum},\
	booktitle={KDD '07},\
	year={2007}\
	}, @ARTICLE{9714338,\
	author={Zhao, Yue and Anand, Ajay and Sharma, Gaurav},\
	journal={IEEE Access}, \
	title={Reviewer Recommendations Using Document Vector Embeddings and a Publisher Database: Implementation and Evaluation}, \
	year={2022},\
	volume={10},\
	number={},\
	pages={21798-21811},\
	doi={10.1109/ACCESS.2022.3151640}}")

	]