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	import json
	from typing import List

	import datasets

	from seacrowd.utils import schemas
	from seacrowd.utils.configs import SEACrowdConfig
	from seacrowd.utils.constants import Licenses, Tasks

	_CITATION = """\
	@misc{fitzgerald2022massive,
	title={MASSIVE: A 1M-Example Multilingual Natural Language Understanding Dataset with 51 Typologically-Diverse Languages},
	author={Jack FitzGerald and Christopher Hench and Charith Peris and Scott Mackie and Kay Rottmann and Ana Sanchez and Aaron
	Nash and Liam Urbach and Vishesh Kakarala and Richa Singh and Swetha Ranganath and Laurie Crist and Misha Britan and Wouter
	Leeuwis and Gokhan Tur and Prem Natarajan},
	year={2022},
	eprint={2204.08582},
	archivePrefix={arXiv},
	primaryClass={cs.CL}
	}
	@inproceedings{bastianelli-etal-2020-slurp,
	title = "{SLURP}: A Spoken Language Understanding Resource Package",
	author = "Bastianelli, Emanuele and
	Vanzo, Andrea and
	Swietojanski, Pawel and
	Rieser, Verena",
	booktitle = "Proceedings of the 2020 Conference on Empirical Methods in Natural Language Processing (EMNLP)",
	month = nov,
	year = "2020",
	address = "Online",
	publisher = "Association for Computational Linguistics",
	url = "https://aclanthology.org/2020.emnlp-main.588",
	doi = "10.18653/v1/2020.emnlp-main.588",
	pages = "7252--7262",
	abstract = "Spoken Language Understanding infers semantic meaning directly from audio data, and thus promises to
	reduce error propagation and misunderstandings in end-user applications. However, publicly available SLU resources are limited.
	In this paper, we release SLURP, a new SLU package containing the following: (1) A new challenging dataset in English spanning
	18 domains, which is substantially bigger and linguistically more diverse than existing datasets; (2) Competitive baselines
	based on state-of-the-art NLU and ASR systems; (3) A new transparent metric for entity labelling which enables a detailed error
	analysis for identifying potential areas of improvement. SLURP is available at https://github.com/pswietojanski/slurp."
	}
	"""
	_DATASETNAME = "massive"
	_DESCRIPTION = """\
	MASSIVE dataset—Multilingual Amazon Slu resource package (SLURP) for Slot-filling, Intent classification, and
	Virtual assistant Evaluation. MASSIVE contains 1M realistic, parallel, labeled virtual assistant utterances
	spanning 18 domains, 60 intents, and 55 slots. MASSIVE was created by tasking professional translators to
	localize the English-only SLURP dataset into 50 typologically diverse languages, including 8 native languages
	and 2 other languages mostly spoken in Southeast Asia.
	"""
	_HOMEPAGE = "https://github.com/alexa/massive"
	_LICENSE = Licenses.CC_BY_4_0.value
	_LOCAL = False
	_LANGUAGES = ["ind", "jav", "khm", "zlm", "mya", "tha", "tgl", "vie"]

	_URLS = {
	_DATASETNAME: "https://amazon-massive-nlu-dataset.s3.amazonaws.com/amazon-massive-dataset-1.1.tar.gz",
	}
	_SUPPORTED_TASKS = [Tasks.INTENT_CLASSIFICATION, Tasks.SLOT_FILLING]
	_SOURCE_VERSION = "1.1.0"
	_SEACROWD_VERSION = "2024.06.20"

	# ind, jav, khm, zlm, mya, tha, tgl, vie, cmn, tam
	_LANGS = [
	"af-ZA",
	"am-ET",
	"ar-SA",
	"az-AZ",
	"bn-BD",
	"cy-GB",
	"da-DK",
	"de-DE",
	"el-GR",
	"en-US",
	"es-ES",
	"fa-IR",
	"fi-FI",
	"fr-FR",
	"he-IL",
	"hi-IN",
	"hu-HU",
	"hy-AM",
	"id-ID", # ind
	"is-IS",
	"it-IT",
	"ja-JP",
	"jv-ID", # jav
	"ka-GE",
	"km-KH", # khm
	"kn-IN",
	"ko-KR",
	"lv-LV",
	"ml-IN",
	"mn-MN",
	"ms-MY", # zlm
	"my-MM", # mya
	"nb-NO",
	"nl-NL",
	"pl-PL",
	"pt-PT",
	"ro-RO",
	"ru-RU",
	"sl-SL",
	"sq-AL",
	"sv-SE",
	"sw-KE",
	"ta-IN",
	"te-IN",
	"th-TH", # tha
	"tl-PH", # tgl
	"tr-TR",
	"ur-PK",
	"vi-VN", # vie
	"zh-CN", # cmn
	"zh-TW",
	]
	_SUBSETS = ["id-ID", "jv-ID", "km-KH", "ms-MY", "my-MM", "th-TH", "tl-PH", "vi-VN"]

	_SCENARIOS = ["calendar", "recommendation", "social", "general", "news", "cooking", "iot", "email", "weather", "alarm", "transport", "lists", "takeaway", "play", "audio", "music", "qa", "datetime"]

	_INTENTS = [
	"audio_volume_other",
	"play_music",
	"iot_hue_lighton",
	"general_greet",
	"calendar_set",
	"audio_volume_down",
	"social_query",
	"audio_volume_mute",
	"iot_wemo_on",
	"iot_hue_lightup",
	"audio_volume_up",
	"iot_coffee",
	"takeaway_query",
	"qa_maths",
	"play_game",
	"cooking_query",
	"iot_hue_lightdim",
	"iot_wemo_off",
	"music_settings",
	"weather_query",
	"news_query",
	"alarm_remove",
	"social_post",
	"recommendation_events",
	"transport_taxi",
	"takeaway_order",
	"music_query",
	"calendar_query",
	"lists_query",
	"qa_currency",
	"recommendation_movies",
	"general_joke",
	"recommendation_locations",
	"email_querycontact",
	"lists_remove",
	"play_audiobook",
	"email_addcontact",
	"lists_createoradd",
	"play_radio",
	"qa_stock",
	"alarm_query",
	"email_sendemail",
	"general_quirky",
	"music_likeness",
	"cooking_recipe",
	"email_query",
	"datetime_query",
	"transport_traffic",
	"play_podcasts",
	"iot_hue_lightchange",
	"calendar_remove",
	"transport_query",
	"transport_ticket",
	"qa_factoid",
	"iot_cleaning",
	"alarm_set",
	"datetime_convert",
	"iot_hue_lightoff",
	"qa_definition",
	"music_dislikeness",
	]

	_TAGS = [
	"O",
	"B-food_type",
	"B-movie_type",
	"B-person",
	"B-change_amount",
	"I-relation",
	"I-game_name",
	"B-date",
	"B-movie_name",
	"I-person",
	"I-place_name",
	"I-podcast_descriptor",
	"I-audiobook_name",
	"B-email_folder",
	"B-coffee_type",
	"B-app_name",
	"I-time",
	"I-coffee_type",
	"B-transport_agency",
	"B-podcast_descriptor",
	"I-playlist_name",
	"B-media_type",
	"B-song_name",
	"I-music_descriptor",
	"I-song_name",
	"B-event_name",
	"I-timeofday",
	"B-alarm_type",
	"B-cooking_type",
	"I-business_name",
	"I-color_type",
	"B-podcast_name",
	"I-personal_info",
	"B-weather_descriptor",
	"I-list_name",
	"B-transport_descriptor",
	"I-game_type",
	"I-date",
	"B-place_name",
	"B-color_type",
	"B-game_name",
	"I-artist_name",
	"I-drink_type",
	"B-business_name",
	"B-timeofday",
	"B-sport_type",
	"I-player_setting",
	"I-transport_agency",
	"B-game_type",
	"B-player_setting",
	"I-music_album",
	"I-event_name",
	"I-general_frequency",
	"I-podcast_name",
	"I-cooking_type",
	"I-radio_name",
	"I-joke_type",
	"I-meal_type",
	"I-transport_type",
	"B-joke_type",
	"B-time",
	"B-order_type",
	"B-business_type",
	"B-general_frequency",
	"I-food_type",
	"I-time_zone",
	"B-currency_name",
	"B-time_zone",
	"B-ingredient",
	"B-house_place",
	"B-audiobook_name",
	"I-ingredient",
	"I-media_type",
	"I-news_topic",
	"B-music_genre",
	"I-definition_word",
	"B-list_name",
	"B-playlist_name",
	"B-email_address",
	"I-currency_name",
	"I-movie_name",
	"I-device_type",
	"I-weather_descriptor",
	"B-audiobook_author",
	"I-audiobook_author",
	"I-app_name",
	"I-order_type",
	"I-transport_name",
	"B-radio_name",
	"I-business_type",
	"B-definition_word",
	"B-artist_name",
	"I-movie_type",
	"B-transport_name",
	"I-email_folder",
	"B-music_album",
	"I-house_place",
	"I-music_genre",
	"B-drink_type",
	"I-alarm_type",
	"B-music_descriptor",
	"B-news_topic",
	"B-meal_type",
	"I-transport_descriptor",
	"I-email_address",
	"I-change_amount",
	"B-device_type",
	"B-transport_type",
	"B-relation",
	"I-sport_type",
	"B-personal_info",
	]


	class MASSIVEDataset(datasets.GeneratorBasedBuilder):
	"""MASSIVE datasets contains datasets to detect the intent from the text and fill the dialogue slots"""

	BUILDER_CONFIGS = (
	[
	SEACrowdConfig(
	name=f"massive_{subset}_source",
	version=datasets.Version(_SOURCE_VERSION),
	description=f"MASSIVE source schema for {subset}",
	schema="source",
	subset_id="massive_" + subset,
	)
	for subset in _SUBSETS
	]
	+ [
	SEACrowdConfig(
	name=f"massive_{subset}_seacrowd_text",
	version=datasets.Version(_SEACROWD_VERSION),
	description=f"MASSIVE Nusantara intent classification schema for {subset}",
	schema="seacrowd_text",
	subset_id="massive_intent_" + subset,
	)
	for subset in _SUBSETS
	]
	+ [
	SEACrowdConfig(
	name=f"massive_{subset}_seacrowd_seq_label",
	version=datasets.Version(_SEACROWD_VERSION),
	description=f"MASSIVE Nusantara slot filling schema for {subset}",
	schema="seacrowd_seq_label",
	subset_id="massive_slot_filling_" + subset,
	)
	for subset in _SUBSETS
	]
	+ [
	SEACrowdConfig(
	name="massive_source",
	version=datasets.Version(_SOURCE_VERSION),
	description="MASSIVE source schema",
	schema="source",
	subset_id="massive",
	),
	SEACrowdConfig(
	name="massive_seacrowd_text",
	version=datasets.Version(_SEACROWD_VERSION),
	description="MASSIVE Nusantara intent classification schema",
	schema="seacrowd_text",
	subset_id="massive_intent",
	),
	SEACrowdConfig(
	name="massive_seacrowd_seq_label",
	version=datasets.Version(_SEACROWD_VERSION),
	description="MASSIVE Nusantara slot filling schema",
	schema="seacrowd_seq_label",
	subset_id="massive_slot_filling",
	),
	]
	)

	DEFAULT_CONFIG_NAME = "massive_id-ID_source"

	def _info(self) -> datasets.DatasetInfo:
	if self.config.schema == "source":
	features = datasets.Features(
	{
	"id": datasets.Value("string"),
	"locale": datasets.Value("string"),
	"partition": datasets.Value("string"),
	"scenario": datasets.features.ClassLabel(names=_SCENARIOS),
	"intent": datasets.features.ClassLabel(names=_INTENTS),
	"utt": datasets.Value("string"),
	"annot_utt": datasets.Value("string"),
	"tokens": datasets.Sequence(datasets.Value("string")),
	"ner_tags": datasets.Sequence(datasets.features.ClassLabel(names=_TAGS)),
	"worker_id": datasets.Value("string"),
	"slot_method": datasets.Sequence(
	{
	"slot": datasets.Value("string"),
	"method": datasets.Value("string"),
	}
	),
	"judgments": datasets.Sequence(
	{
	"worker_id": datasets.Value("string"),
	"intent_score": datasets.Value("int8"), # [0, 1, 2]
	"slots_score": datasets.Value("int8"), # [0, 1, 2]
	"grammar_score": datasets.Value("int8"), # [0, 1, 2, 3, 4]
	"spelling_score": datasets.Value("int8"), # [0, 1, 2]
	"language_identification": datasets.Value("string"),
	}
	),
	}
	)
	elif self.config.schema == "seacrowd_text":
	features = schemas.text_features(label_names=_INTENTS)
	elif self.config.schema == "seacrowd_seq_label":
	features = schemas.seq_label_features(label_names=_TAGS)
	else:
	raise ValueError(f"Invalid config schema: {self.config.schema}")

	return datasets.DatasetInfo(
	description=_DESCRIPTION,
	features=features,
	homepage=_HOMEPAGE,
	license=_LICENSE,
	citation=_CITATION,
	)

	def _split_generators(self, dl_manager: datasets.DownloadManager) -> List[datasets.SplitGenerator]:
	archive = dl_manager.download(_URLS[_DATASETNAME])

	return [
	datasets.SplitGenerator(
	name=datasets.Split.TRAIN,
	gen_kwargs={
	"files": dl_manager.iter_archive(archive),
	"split": "train",
	"lang": self.config.name,
	},
	),
	datasets.SplitGenerator(
	name=datasets.Split.VALIDATION,
	gen_kwargs={
	"files": dl_manager.iter_archive(archive),
	"split": "dev",
	"lang": self.config.name,
	},
	),
	datasets.SplitGenerator(
	name=datasets.Split.TEST,
	gen_kwargs={
	"files": dl_manager.iter_archive(archive),
	"split": "test",
	"lang": self.config.name,
	},
	),
	]

	def _get_bio_format(self, text):
	"""This function is modified from https://huggingface.co/datasets/qanastek/MASSIVE/blob/main/MASSIVE.py"""
	tags, tokens = [], []

	bio_mode = False
	cpt_bio = 0
	current_tag = None

	split_iter = iter(text.split(" "))

	for s in split_iter:
	if s.startswith("["):
	current_tag = s.strip("[")
	bio_mode = True
	cpt_bio += 1
	next(split_iter)
	continue

	elif s.endswith("]"):
	bio_mode = False
	if cpt_bio == 1:
	prefix = "B-"
	else:
	prefix = "I-"
	token = prefix + current_tag
	word = s.strip("]")
	current_tag = None
	cpt_bio = 0

	else:
	if bio_mode:
	if cpt_bio == 1:
	prefix = "B-"
	else:
	prefix = "I-"
	token = prefix + current_tag
	word = s
	cpt_bio += 1
	else:
	token = "O"
	word = s

	tags.append(token)
	tokens.append(word)

	return tokens, tags

	def _generate_examples(self, files: list, split: str, lang: str):
	_id = 0

	lang = lang.replace("massive_", "").replace("source", "").replace("seacrowd_text", "").replace("seacrowd_seq_label", "")

	if not lang:
	lang = _LANGS.copy()
	else:
	lang = [lang[:-1]]

	# logger.info("Generating examples from = %s", ", ".join(lang))

	for path, f in files:
	curr_lang = path.split(f"{_SOURCE_VERSION[:-2]}/data/")[-1].split(".jsonl")[0]

	if not lang:
	break
	elif curr_lang in lang:
	lang.remove(curr_lang)
	else:
	continue

	# Read the file
	lines = f.read().decode(encoding="utf-8").split("\n")

	for line in lines:
	data = json.loads(line)

	if data["partition"] != split:
	continue

	# Slot method
	if "slot_method" in data:
	slot_method = [
	{
	"slot": s["slot"],
	"method": s["method"],
	}
	for s in data["slot_method"]
	]
	else:
	slot_method = []

	# Judgments
	if "judgments" in data:
	judgments = [
	{
	"worker_id": j["worker_id"],
	"intent_score": j["intent_score"],
	"slots_score": j["slots_score"],
	"grammar_score": j["grammar_score"],
	"spelling_score": j["spelling_score"],
	"language_identification": j["language_identification"] if "language_identification" in j else "target",
	}
	for j in data["judgments"]
	]
	else:
	judgments = []

	if self.config.schema == "source":
	tokens, tags = self._get_bio_format(data["annot_utt"])

	yield _id, {
	"id": str(_id) + "_" + data["id"],
	"locale": data["locale"],
	"partition": data["partition"],
	"scenario": data["scenario"],
	"intent": data["intent"],
	"utt": data["utt"],
	"annot_utt": data["annot_utt"],
	"tokens": tokens,
	"ner_tags": tags,
	"worker_id": data["worker_id"],
	"slot_method": slot_method,
	"judgments": judgments,
	}

	elif self.config.schema == "seacrowd_seq_label":
	tokens, tags = self._get_bio_format(data["annot_utt"])

	yield _id, {
	"id": str(_id) + "_" + data["id"],
	"tokens": tokens,
	"labels": tags,
	}

	elif self.config.schema == "seacrowd_text":
	yield _id, {
	"id": str(_id) + "_" + data["id"],
	"text": data["utt"],
	"label": data["intent"],
	}

	else:
	raise ValueError(f"Invalid config: {self.config.name}")

	_id += 1