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TastyPiano / src /music /utils.py

Cédric Colas

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	import os

	import pandas as pd
	from pydub import AudioSegment
	import numpy as np
	from moviepy.editor import *
	import time
	import pickle
	import audioread
	import librosa # install numba==0.49.1
	# setup A: numba 0.51.2, librosa 0.6.3, llvmlite: 0.34.0
	# setupB: numba==0.49.1, llvmlite-0.32.1
	from src.music.config import RATE_AUDIO_SAVE
	import hashlib
	import unicodedata
	import re

	# from src.music.piano_detection_model.piano_detection_model import SR

	def clean_removed_mp3_from_csv(path):
	print(f"Cleaning meta_data.csv using files from the folder, in {path}")
	files = os.listdir(path)
	indexes_to_remove = []
	meta_data = pd.read_csv(path + 'meta_data.csv')
	for i, fn in enumerate(meta_data['filename']):
	if fn not in files:
	indexes_to_remove.append(i)
	meta_data = meta_data.drop(indexes_to_remove)
	meta_data.to_csv(path + 'meta_data.csv', index=False)
	print('\tDone.')

	def clean_removed_csv_from_folder(path):
	print(f"Cleaning files from folder using meta_data.csv listed file, in {path}")
	files = os.listdir(path)
	meta_data = pd.read_csv(path + 'meta_data.csv')
	hashes = set(meta_data['hash'])
	count = 0
	for f in files:
	if f not in ['meta_data.csv', 'url.txt']:
	if f[:-4] not in hashes:
	count += 1
	print(count)
	# os.remove(path + f)
	stop = 1
	print('\tDone.')

	# def convert_mp3_to_mono_16k(path):
	# print(f"\n\n\t\tConverting mp3 to mono and 16k sample rate, in {path}\n")
	# if '.mp3' == path[-4:]:
	# audio = AudioFileClip(path)
	# audio.write_audiofile(path[:-4] + '.mp3',
	# verbose=False,
	# logger=None,
	# fps=FPS,
	# ffmpeg_params=["-ac", "1"])
	# else:
	# list_files = os.listdir(path)
	# for i, f in enumerate(list_files):
	# print(compute_progress(i, len(list_files)))
	# if ".mp3" in f:
	# audio = AudioFileClip(path + f)
	# audio.write_audiofile(path + f[:-4] + '.mp3',
	# verbose=False,
	# logger=None,
	# fps=FPS, # 16000 sr
	# ffmpeg_params=["-ac", "1"] # make it mono
	# )
	# print('\tDone.')



	def load_audio(path, sr=22050, mono=True, offset=0.0, duration=None,
	dtype=np.float32, res_type='kaiser_best',
	backends=[audioread.ffdec.FFmpegAudioFile]):
	"""Load audio. Copied from librosa.core.load() except that ffmpeg backend is
	always used in this function. Code from piano_transcription_inference"""

	y = []
	with audioread.audio_open(os.path.realpath(path), backends=backends) as input_file:
	sr_native = input_file.samplerate
	n_channels = input_file.channels

	s_start = int(np.round(sr_native * offset)) * n_channels

	if duration is None:
	s_end = np.inf
	else:
	s_end = s_start + (int(np.round(sr_native * duration))
	* n_channels)

	n = 0

	for frame in input_file:
	frame = librosa.core.audio.util.buf_to_float(frame, dtype=dtype)
	n_prev = n
	n = n + len(frame)

	if n < s_start:
	# offset is after the current frame
	# keep reading
	continue

	if s_end < n_prev:
	# we're off the end. stop reading
	break

	if s_end < n:
	# the end is in this frame. crop.
	frame = frame[:s_end - n_prev]

	if n_prev <= s_start <= n:
	# beginning is in this frame
	frame = frame[(s_start - n_prev):]

	# tack on the current frame
	y.append(frame)

	if y:
	y = np.concatenate(y)

	if n_channels > 1:
	y = y.reshape((-1, n_channels)).T
	if mono:
	y = librosa.core.audio.to_mono(y)

	if sr is not None:
	y = librosa.core.audio.resample(y, sr_native, sr, res_type=res_type)

	else:
	sr = sr_native

	# Final cleanup for dtype and contiguity
	y = np.ascontiguousarray(y, dtype=dtype)

	return (y, sr)

	def compute_progress(iter, total):
	return f"{int((iter+ 1) / total * 100)}%"

	def compute_progress_and_eta(times, iter, total, n_av=3000):
	av_time = np.mean(times[-n_av:])
	progress = int(((iter + 1) / total) * 100)
	eta_h = int(av_time * (total - iter) // 3600)
	eta_m = int((av_time * (total - iter) - (eta_h * 3600)) // 60)
	eta_s = int((av_time * (total - iter) - (eta_h * 3600) - eta_m * 60))
	eta = f"Progress: {progress}%, ETA: {eta_h}H{eta_m}M{eta_s}S."
	return eta

	def crop_mp3_from_meta_data_constraints(path, clean_constraints=True):
	print(f"Cropping mp3 using constraints from meta_data.csv, in {path}")
	meta_data = pd.read_csv(path + 'meta_data.csv')
	constraint_start = meta_data['constraint_start'].copy()
	length = meta_data['length'].copy()
	constraint_end = meta_data['constraint_end'].copy()
	filenames = meta_data['filename'].copy()
	times = [5]
	for i, c_start, c_end, fn, l in zip(range(len(constraint_start)), constraint_start, constraint_end, filenames, length):
	if c_start != 0 or c_end != l:
	i_time = time.time()
	print(compute_progress_and_eta(times, i, len(constraint_start), n_av=100))
	song = AudioSegment.from_mp3(path + fn)
	extract = song[c_start1000:c_end1000]
	extract.export(path + fn, format="mp3")
	if clean_constraints:
	constraint_start[i] = 0
	constraint_end[i] = length[i]
	meta_data['constraint_start'] = constraint_start
	meta_data['constraint_end'] = constraint_end
	meta_data.to_csv(path + 'meta_data.csv', index=False)
	times.append(time.time() - i_time)
	print('\tDone.')

	def get_all_subfiles_with_extension(path, max_depth=3, extension='.*', current_depth=0):
	folders = [f for f in os.listdir(path) if os.path.isdir(path + f)]
	# get all files in current folder with a given extension
	if isinstance(extension, list):
	assert all([isinstance(e, str) for e in extension]), 'extension can be a str or a list'
	files = [path + f for f in os.listdir(path) if os.path.isfile(path + f) and any([ext == f[-len(ext):] for ext in extension])]
	elif isinstance(extension, str):
	assert extension[0] == '.', 'extension should be an extension or a list of extensions'
	if extension == '.*':
	files = [path + f for f in os.listdir(path) if os.path.isfile(path + f)]
	else:
	files = [path + f for f in os.listdir(path) if os.path.isfile(path + f) and f[-len(extension):]==extension]
	else:
	print('Error: extension should be either a str or a list')
	raise ValueError

	if current_depth < max_depth:
	for fold in folders:
	files += get_all_subfiles_with_extension(path + fold + '/', max_depth=max_depth, extension=extension, current_depth=current_depth+1)
	return files

	def get_out_path(in_path, in_word, out_word, out_extension, exclude_paths=()):
	splitted_in_path = in_path.split('/')
	for i in range(len(splitted_in_path)):
	if splitted_in_path[i] == in_word:
	splitted_in_path[i] = out_word
	playlist_index = i + 1
	file_index = len(splitted_in_path) - 1
	if splitted_in_path[playlist_index] in exclude_paths:
	to_exclude = True
	return None, to_exclude, None
	else:
	to_exclude = False
	if out_word != 'midi':
	splitted_in_path[playlist_index] = '_'.join(splitted_in_path[playlist_index].split('_')[:-len(in_word.split('_'))]) + '_' + out_word
	else:
	splitted_in_path[playlist_index] += '_' + out_word
	if 'fake' not in splitted_in_path:
	os.makedirs('/'.join(splitted_in_path[:playlist_index + 1]), exist_ok=True)
	if out_word != 'midi':
	new_filename = '_'.join(splitted_in_path[file_index].split('_')[:-len(in_word.split('_'))]) + '_' + out_word + out_extension
	else:
	new_filename = '.'.join(splitted_in_path[file_index].split('.')[:-len(in_word.split('_'))]) + '_' + out_word + out_extension
	splitted_in_path[file_index] = new_filename
	splitted_in_path = splitted_in_path[:playlist_index + 1] + [splitted_in_path[file_index]]
	out_path = '/'.join(splitted_in_path)
	return out_path, to_exclude, splitted_in_path[playlist_index]

	def set_all_seeds(seed):
	import random
	import numpy as np
	import torch
	torch.manual_seed(seed)
	random.seed(seed)
	np.random.seed(seed)

	def get_paths_in_and_out(in_path, in_word, in_extension, out_word, out_extension, max_depth, exclude_paths=()):
	# find all files with the in_extension in subfolders of in_path up to max_depth.
	# for each, replace the in_word keyword in folders with the out_word, and append out_word to filenames.
	all_in_paths = get_all_subfiles_with_extension(in_path, max_depth=max_depth, extension=in_extension)
	indexes_not_transcribed = []
	all_out_paths = []
	all_playlists = []
	for i_path, in_path in enumerate(all_in_paths):
	out_path, to_exclude, playlist = get_out_path(in_path=in_path, in_word=in_word, out_word=out_word, out_extension=out_extension, exclude_paths=exclude_paths)
	if not to_exclude:
	indexes_not_transcribed.append(i_path)
	all_out_paths.append(out_path)
	all_playlists.append(playlist)
	all_in_paths = [in_path for i, in_path in enumerate(all_in_paths) if i in indexes_not_transcribed]
	assert len(all_out_paths) == len(all_in_paths)
	return all_in_paths, all_out_paths, all_playlists

	def get_path_and_filter_existing(in_path, in_word, in_extension, out_word, out_extension, max_depth, exclude_paths=()):
	# find all files with the in_extension in subfolders of in_path up to max_depth.
	# for each, replace the in_word keyword in folders with the out_word, and append out_word to filenames.
	all_in_paths = get_all_subfiles_with_extension(in_path, max_depth=max_depth, extension=in_extension)
	indexes_to_process = []
	all_out_paths = []
	all_playlists = []
	for i_path, in_path in enumerate(all_in_paths):
	out_path, to_exclude, playlist = get_out_path(in_path=in_path, in_word=in_word, out_word=out_word, out_extension=out_extension, exclude_paths=exclude_paths)
	if not to_exclude:
	if not os.path.exists(out_path):
	indexes_to_process.append(i_path)
	all_out_paths.append(out_path)
	all_playlists.append(playlist)
	all_in_paths = list(np.array(all_in_paths)[indexes_to_process])#[in_path for i, in_path in enumerate(all_in_paths) if i in indexes_to_process]
	assert len(all_out_paths) == len(all_in_paths)
	return all_in_paths, all_out_paths, all_playlists

	def md5sum(filename, blocksize=65536):
	hash = hashlib.md5()
	with open(filename, "rb") as f:
	for block in iter(lambda: f.read(blocksize), b""):
	hash.update(block)
	return hash.hexdigest()


	emoji_pattern = re.compile("["
	u"\U0001F600-\U0001F64F" # emoticons
	u"\U0001F300-\U0001F5FF" # symbols & pictographs
	u"\U0001F680-\U0001F6FF" # transport & map symbols
	u"\U0001F1E0-\U0001F1FF" # flags (iOS)
	"]+", flags=re.UNICODE)
	def slugify(value, allow_unicode=False):
	"""
	Taken from https://github.com/django/django/blob/master/django/utils/text.py
	Convert to ASCII if 'allow_unicode' is False. Convert spaces or repeated
	dashes to single dashes. Remove characters that aren't alphanumerics,
	underscores, or hyphens. Convert to lowercase. Also strip leading and
	trailing whitespace, dashes, and underscores.
	"""
	value = str(value).lower()
	if allow_unicode:
	value = unicodedata.normalize('NFKC', value)
	else:
	value = unicodedata.normalize('NFKD', value).encode('ascii', 'ignore').decode('ascii')
	value = re.sub(r'[^\w\s-]', '', value.lower())
	value = emoji_pattern.sub(r'', value)
	value = re.sub(r'[-\s]+', '_', value).strip('-_')
	# if value == '':
	# for i in range(10):
	# value += str(np.random.choice(['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h']))
	return value

	if __name__ == '__main__':
	path = "/home/cedric/Documents/pianocktail/data/midi/street_piano/"
	# for folder in ['my_sheet_music_transcriptions']:#os.listdir(path):
	# print('\n\n\t\t', folder)
	# convert_mp4_to_mp3(path + folder + '/')

	clean_removed_csv_from_folder(path)
	# folder = 'street_piano/'
	# for folder in ['street_piano/']:
	# clean_removed_mp3_from_csv(path + folder)