Datasets:

ccmusic-database
/

music_genre

Tasks:

Audio Classification

Image Classification

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music_genre / music_genre.py

MuGeminorum

add 2 spects

1bf45da 9 months ago

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	import os
	import random
	import datasets
	from datasets.tasks import ImageClassification

	_NAMES_1 = {
	1: "Classic",
	2: "Non_classic"
	}

	_NAMES_2 = {
	3: "Symphony",
	4: "Opera",
	5: "Solo",
	6: "Chamber",
	7: "Pop",
	8: "Dance_and_house",
	9: "Indie",
	10: "Soul_or_r_and_b",
	11: "Rock"
	}

	_NAMES_3 = {
	0: "None",
	12: "Pop_vocal_ballad",
	13: "Adult_contemporary",
	14: "Teen_pop",
	15: "Contemporary_dance_pop",
	16: "Dance_pop",
	17: "Classic_indie_pop",
	18: "Chamber_cabaret_and_art_pop",
	19: "Adult_alternative_rock",
	20: "Uplifting_anthemic_rock",
	21: "Soft_rock",
	22: "Acoustic_pop"
	}

	_HOMEPAGE = f"https://huggingface.co/datasets/ccmusic-database/{os.path.basename(__file__).split('.')[0]}"

	_CITATION = """\
	@dataset{zhaorui_liu_2021_5676893,
	author = {Zhaorui Liu, Monan Zhou, Shenyang Xu, Zhaowen Wang, Wei Li and Zijin Li},
	title = {CCMUSIC DATABASE: A Music Data Sharing Platform for Computational Musicology Research},
	month = {nov},
	year = {2021},
	publisher = {Zenodo},
	version = {1.1},
	doi = {10.5281/zenodo.5676893},
	url = {https://doi.org/10.5281/zenodo.5676893}
	}
	"""

	_DESCRIPTION = """\
	This database contains about 1700 musical pieces (.mp3 format)
	with lengths of 270-300s that are divided into 17 genres in total.
	"""

	_URLS = {
	"mel": _HOMEPAGE + "/resolve/main/data/mel.zip",
	"cqt": _HOMEPAGE + "/resolve/main/data/cqt.zip",
	"chroma": _HOMEPAGE + "/resolve/main/data/chroma.zip"
	}


	class music_genre(datasets.GeneratorBasedBuilder):
	def _info(self):
	return datasets.DatasetInfo(
	features=datasets.Features(
	{
	"mel": datasets.Image(),
	"fst_level_label": datasets.features.ClassLabel(names=list(_NAMES_1.values())),
	"sec_level_label": datasets.features.ClassLabel(names=list(_NAMES_2.values())),
	"thr_level_label": datasets.features.ClassLabel(names=list(_NAMES_3.values()))
	}
	),
	supervised_keys=("mel", "sec_level_label"),
	homepage=_HOMEPAGE,
	license="mit",
	citation=_CITATION,
	description=_DESCRIPTION,
	task_templates=[
	ImageClassification(
	task="image-classification",
	image_column="mel",
	label_column="sec_level_label",
	)
	]
	)

	def _split_generators(self, dl_manager):
	splits = []
	for spect in _URLS.keys():
	data_files = dl_manager.download_and_extract(_URLS[spect])
	files = dl_manager.iter_files([data_files])

	dataset = []
	for path in files:
	if os.path.basename(path).endswith(".jpg"):
	dataset.append(path)

	random.shuffle(dataset)

	splits.append(
	datasets.SplitGenerator(
	name=spect,
	gen_kwargs={
	"files": dataset,
	"spect": f"/{spect}/"
	}
	)
	)

	return splits

	def _calc_label(self, path, depth, substr='/mel/'):
	spect = substr
	dirpath = os.path.dirname(path)
	substr_index = dirpath.find(spect)
	if substr_index < 0:
	spect = spect.replace('/', '\\')
	substr_index = dirpath.find(spect)

	labstr = dirpath[substr_index + len(spect):]
	labs = labstr.split('/')
	if len(labs) < 2:
	labs = labstr.split('\\')

	if depth <= len(labs):
	return int(labs[depth - 1].split('_')[0])
	else:
	return 0

	def _generate_examples(self, files, spect):
	for i, path in enumerate(files):
	yield i, {
	"mel": path,
	"fst_level_label": _NAMES_1[self._calc_label(path, 1, spect)],
	"sec_level_label": _NAMES_2[self._calc_label(path, 2, spect)],
	"thr_level_label": _NAMES_3[self._calc_label(path, 3, spect)]
	}