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SongGeneration / codeclm /tokenizer /Flow1dVAE /libs /datasets /dataset_combined.py
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 from torch.utils.data import Dataset
from beartype.typing import Sequence, Callable, Optional, Dict, Tuple, List
from beartype import beartype
from beartype.door import is_bearable
import random
import pandas as pd
import os
from torchaudio.functional import resample
import torch
import typing as tp
from pathlib import Path
import torchaudio as ta
import torch.nn.functional as F
import numpy as np
import json
import yaml
import torchaudio
import math
import re
from loguru import logger
class Read_and_PadCrop_Normalized_T(torch.nn.Module):
def __init__(self, n_samples: int, sample_rate: int, randomize: bool = True):
super().__init__()
self.n_samples = n_samples
self.sample_rate = sample_rate
self.randomize = randomize
def __call__(self, filename: str, duration: float, cur_sample_rate: int) -> Tuple[torch.Tensor, float, float, int, int]:
if(duration<(float(self.n_samples)/self.sample_rate+1)):
# print(duration,(float(self.n_samples)/self.sample_rate+1))
chunk, _ = torchaudio.load(filename, frame_offset=0, num_frames=-1)
t_start = 0.
t_end = min(1.0, float(self.n_samples) / float(self.sample_rate) / duration)
offset = 0
# print('c1:',chunk.shape)
else:
offset = np.random.randint(0,int(duration*cur_sample_rate)-int(float(self.n_samples)/self.sample_rate*cur_sample_rate))
t_start = offset / float(cur_sample_rate) / duration
t_end = t_start + float(self.n_samples) / float(self.sample_rate) / duration
chunk, _ = torchaudio.load(filename, frame_offset=offset, num_frames=int(float(self.n_samples)/self.sample_rate*cur_sample_rate))
# print('offset:',offset)
# print('c0:',chunk.shape)
# Pad with silence if necessary.
if(chunk.shape[0]>1):
chunk = chunk[torch.randint(chunk.shape[0], size=(1,)),:].float()
else:
chunk = chunk[[0],:].float()
if(cur_sample_rate!=self.sample_rate):
# print('a:',cur_sample_rate,chunk.shape)
chunk = torchaudio.functional.resample(chunk, cur_sample_rate, self.sample_rate)
# print('b:',self.sample_rate,chunk.shape)
if chunk.shape[-1] < self.n_samples:
chunk = torch.cat([chunk, torch.zeros((1, self.n_samples - chunk.shape[-1],))],-1)
else:
chunk = chunk[:,0:self.n_samples]
seconds_start = math.floor(offset / cur_sample_rate)
seconds_total = math.floor(duration)
return (
chunk,
t_start,
t_end,
seconds_start,
seconds_total
)
USE_DUMMY_AUDIO = False #当测试代码时,可以将其置为True,这样就不会读取实际数据,而是用生成的静默音频代替
if USE_DUMMY_AUDIO:
logger.warning("USE_DUMMY_AUDIO flag is True, don't use it when train or test!")
class SafeAudioReader:
"""
This class is an adaptor to Read_and_PadCrop_Normalized_T, make it safe to read audio data.
"""
def __init__(self,
duration: float, # 返回音频长度
sample_rate: int, # 返回音频的采样率,如与实际音频采样率不同,会作resample
randomize: bool = True
):
self.n_samples = int(sample_rate * max(duration, 0))
self.reader = Read_and_PadCrop_Normalized_T(n_samples=self.n_samples, sample_rate=sample_rate, randomize=randomize)
#NOTE:这个是核心的函数,所有数据集读取音频都是调用的这个函数!
def __call__(self,
filepath: os.PathLike, # 音频路径
origin_sample_rate: Optional[int] = None, # 从json文件中读取的实际采样率,如果不给定,则会从文件头中读取
origin_duration: float = None, # 从json文件中读取的实际时长,如果不给定,则会从文件头中读取
) -> torch.Tensor:
if USE_DUMMY_AUDIO:
wav = torch.zeros(self.n_samples, dtype=torch.float32)
return wav
try:
if origin_sample_rate is None or origin_duration is None:
audio_info = torchaudio.info(filepath)
origin_sample_rate = audio_info.sample_rate
origin_duration = audio_info.num_frames / origin_sample_rate
wav, *ignored = self.reader(filepath, origin_duration, origin_sample_rate)
except Exception as e:
logger.error(f"Error reading {filepath}: {e}")
wav = torch.zeros(self.n_samples, dtype=torch.float32)
return wav
class PromptTemplate:
def __init__(self, template_text: str, tag_map: Dict[str, str], lang:str ='en'):
self.template_text = template_text
self.tag_map = tag_map
self.lang = lang
@property
def tags(self):
return tuple(self.tag_map.keys())
def apply(self, **kwargs):
for tag in list(kwargs.keys()):
if kwargs[tag] == '':
kwargs.pop(tag)
for tag in self.tags:
if tag in kwargs:
kwargs[tag] = self.tag_map[tag].format(**{tag: kwargs[tag]}).strip('[]')
else:
kwargs[tag] = ''
prompt = self.template_text.format(**kwargs)
return self.beautify(prompt)
def beautify(self, text):
if self.lang == 'en':
return self._beautify_en(text)
elif self.lang == 'zh':
return self._beautify_zh(text)
else:
raise ValueError(f'Unknown language {self.lang}')
@staticmethod
def _beautify_en(text):
# no continuous commas without content between them
text = re.sub(r'[,\s]*,[,\s]*', r', ', text)
# no continuous whitespace
text = re.sub(r'\s+', ' ', text)
# the comma is NOT followed by whitespace, and should be followed by ONE whitespace
text = re.sub(r'\s+,', r',', text)
text = re.sub(r',\s+', r', ', text)
# no whitespace before the full stop
text = re.sub(r'\s+\.', r'.', text)
# strip whitespace, comma, and replace ',.'
text = text.strip(' ,')
text = text.replace(',.', '.')
return text
@staticmethod
def _beautify_zh(text):
# no continuous commas without content between them
text = re.sub(r'[,、\s]*,[,、\s]*', r',', text)
text = re.sub(r'[,、\s]*、[,、\s]*', r'、', text)
# assume there should be NO whitespace in Chinese
text = re.sub(r'\s+', r'', text)
# strip whitespace, comma, and replace ',。'
text = text.strip(', 、')
text = text.replace(',。', '。')
return text
def __repr__(self):
return f'PromptTemplate({self.template_text!r}, {self.tag_map!r})'
__str__ = __repr__
def parse_prompt_template(prompt_template_text, lang='en'):
span_pattern = re.compile(r'\[.*?{.+?}.*?\]', re.DOTALL)
tag_pattern = re.compile(r'{.+?}', re.DOTALL)
template_text = prompt_template_text.strip()
span_texts = span_pattern.findall(prompt_template_text)
tag_map = {}
for span_text in span_texts:
tag = tag_pattern.findall(span_text)[0].strip('{}')
tag_map[tag] = span_text
template_text = template_text.replace(span_text, '{'+tag+'}')
return PromptTemplate(template_text=template_text, tag_map=tag_map, lang=lang)
def load_prompt_templates(path, num = 5, lang='en') -> List[PromptTemplate]:
with open(path, 'r') as f:
lines = f.readlines()
cnt = 0
pts = []
for line in lines:
pt = parse_prompt_template(line, lang=lang)
cnt += 1
if len(pt.tags) < num:
logger.error(f'Not enough tags on {path} in line {cnt}: {pt.tags}')
pts.append(pt)
return pts
def get_base_dir_file(key: os.PathLike):
base = os.path.basename(key)
dirname = os.path.basename(os.path.dirname(key))
return os.path.join(dirname, base)
def read_jsonlike(path: os.PathLike):
#json or jsonl
if str(path).endswith(".json"):
with open(path, 'r', encoding='utf8') as f:
data = json.load(f)
return data
elif str(path).endswith(".jsonl"):
with open(path, 'r', encoding='utf8') as f:
data = [json.loads(line) for line in f.readlines()]
return data
else:
raise ValueError("Unknown file format")
dist_prob_map = {
1: (1.0,),
2: (0.5, 0.5),
3: (0.3, 0.4, 0.3),
4: (0.2, 0.3, 0.3, 0.2),
5: (0.2, 0.2, 0.3, 0.2, 0.1),
6: (0.1, 0.15, 0.2, 0.2, 0.2, 0.15),
7: (0.05, 0.1, 0.1, 0.2, 0.25, 0.2, 0.1),
8: (0.03, 0.05, 0.1, 0.15, 0.25, 0.2, 0.1, 0.12),
9: (0.02, 0.1, 0.1, 0.1, 0.15, 0.2, 0.15, 0.1, 0.08),
10: (0.01, 0.1, 0.1, 0.15, 0.2, 0.15, 0.1, 0.05, 0.05, 0.09)
}
dist_prob_map_low = {
1: (1.0,),
2: (0.8, 0.2),
3: (0.8, 0.1, 0.1),
4: (0.7, 0.1, 0.1, 0.1),
5: (0.7, 0.1, 0.1, 0.05, 0.05),
6: (0.7, 0.1, 0.05, 0.05, 0.05, 0.05),
}
_bpm_range_rights = (
(40, '20-40'),
(60, '40-60'),
(66, '60-66'),
(76, '66-76'),
(108, '76-108'),
(120, '108-120'),
(168, '120-168'),
(176, '168-176'),
(200, '176-200')
)
_bpm_desc_map = {
'20-40': ("glacial pace", "extremely slow tempo", "crawl-like speed", "snail's pace", "almost motionless rhythm", "Larghissimo"),
'40-60': ("broad and slow", "spacious tempo", "unhurried pace", "calm rhythm", "relaxed speed", "Largo"),
'60-66': ("gentle tempo", "leisurely pace", "easy-going rhythm", "unrushed speed", "smooth and slow", 'Larghetto'),
'66-76': ("slow and steady", "deliberate tempo", "unhurried pace", "relaxed rhythm", "easy speed", 'Adagio'),
'76-108': ("walking pace", "moderate tempo", "steady rhythm", "balanced speed", "easy-flowing tempo", "Andante"),
'108-120': ("medium pace", "comfortable tempo", "even rhythm", "measured speed", "controlled tempo", 'Moderato'),
'120-168': ("quick and lively", "brisk pace", "energetic tempo", "upbeat rhythm", "spirited speed", 'Allegro'),
'168-176': ("lively and fast", "bright tempo", "sprightly pace", "vibrant rhythm", "animated speed", 'Vivace'),
'176-200': ("very fast tempo", "rapid pace", "high-speed rhythm", "hurried speed", "accelerated tempo", 'Presto'),
'>200': ("extremely fast", "breakneck speed", "blazing tempo", "lightning-fast rhythm", "supercharged pace", 'Prestissimo')
}
_bpm_desc_map_zh = {
'20-40': ("极度缓慢", "极慢的节奏", "悠长的旋律", "迟缓的节奏", "几乎静止的节奏", "甚缓"),
'40-60': ("宽广而缓慢", "宽敞的节奏", "从容不迫的速度", "平静的节奏", "轻松的速度", "广板"),
'60-66': ("柔和的节奏", "悠闲的速度", "轻松的节奏", "不慌不忙的速度", "平滑而缓慢", '小广板'),
'66-76': ("缓慢而稳定", "沉稳的旋律", "从容不迫的速度", "轻松的节奏", "轻松的速度", '慢板'),
'76-108': ("步行速度", "适中的节奏", "稳定的节奏", "平衡的速度", "流畅的节奏", "行板"),
'108-120': ("中等速度", "舒适的节奏", "均匀的节奏", "有节制的速度", "稳定的氛围", '中板'),
'120-168': ("快速而生动", "轻快的速度", "充满活力的节奏", "欢快的节奏", "富有精神的速度", '快板'),
'168-176': ("生动而快速", "明快的节奏", "活泼的速度", "充满活力的节奏", "生气勃勃的速度", '活泼的'),
'176-200': ("非常快的节奏", "快速的速度", "高速的节奏", "匆忙的速度", "加速的节奏", '急板'),
'>200': ("极快的速度", "极速旋律", "炽热的节奏", "闪电般的节奏", "疾驰的速度", '最急板')
}
def get_bpm_range(bpm):
bpm = int(bpm)
for right, tag in _bpm_range_rights:
if bpm <= right:
return tag
return '>200'
def gen_bpm_descript(bpm, lang='en'):
bpm_range = get_bpm_range(bpm)
if lang == 'en':
return random.choice(_bpm_desc_map[bpm_range])
elif lang == 'zh':
return random.choice(_bpm_desc_map_zh[bpm_range])
else:
raise ValueError(f"Unknown language {lang}")
def read_translate(translate: Optional[Dict[str, os.PathLike]]):
if translate is None:
return None
return {k: read_jsonlike(path) for k, path in translate.items()}
class MagnaTagATuneDataset(Dataset):
def __init__(self):
pass
def tags_to_desc(tag_list, sep=',') -> str:
if not isinstance(tag_list, Sequence):
return str(tag_list)
if isinstance(tag_list, str):
return tag_list
if len(tag_list) <= 0:
return ''
elif len(tag_list) <= 5:
probs = dist_prob_map[len(tag_list)]
tags_num = random.choices(range(1, len(tag_list)+1), probs)[0]
random.shuffle(tag_list)
tag_list = tag_list[:tags_num]
return sep.join(tag_list)
else:
probs = dist_prob_map[5]
tags_num = random.choices(range(1, 6), probs)[0]
random.shuffle(tag_list)
tag_list = tag_list[:tags_num]
return sep.join(tag_list)
def get_sr_and_duration_info(item):
return item.get('sample_rate', None), item.get('duration', None)
class MtgJamendoDatasetFromJson(Dataset):
def __init__(self,
data_dir:str,
json_path:str,
duration:float=10,
sr:int = 0,
*,
lang = 'en',
return_path = False,
prompt_template_path: os.PathLike = None,
tag_types = [],
translate:Optional[Dict[str, os.PathLike]] = None,
):
self.audio_reader = SafeAudioReader(duration, sr)
self.data_dir = data_dir
self._load_metadata_json(json_path)
self.sr = sr
self.duration = duration
self.return_path = return_path
self.lang = lang
self.use_dynamic_prompt = prompt_template_path is not None
if self.use_dynamic_prompt:
self.prompt_templates = load_prompt_templates(prompt_template_path, num = len(tag_types))
self.tag_types = tag_types
self.translate = read_translate(translate)
if not self.use_dynamic_prompt and self.lang != 'en':
raise NotImplementedError
#这些tag被认为是弱语义的,会避免产生仅包含这些tag的文本提示
WEAK_TAG_LIST = ["title", "artist"]
def _load_metadata_json(self, json_path):
with open(json_path) as fp:
self.data = json.load(fp)
def convert_key_to_path(self, key):
return os.path.join(self.data_dir, get_base_dir_file(key))
def __len__(self):
return len(self.data)
def __getitem__(self, idx):
item = self.data[idx]
path = self.convert_key_to_path(item['key'])
description = self.generate_description(item)
sr, duration = get_sr_and_duration_info(item)
audio = self.audio_reader(path, sr, duration)
if self.return_path:
return audio, description, path
return audio, description
def tags_to_desc(self, tag_list, tag_type) -> str:
if self.lang == 'en':
return tags_to_desc(tag_list)
elif self.lang == 'zh':
translator = self.translate[tag_type]
translated_tag_list = [translator[tag] for tag in tag_list if tag in translator ]
return tags_to_desc(translated_tag_list, sep='、')
def generate_description(self, item):
if self.use_dynamic_prompt:
# dynamically generate prompt from given prompt template
prompt_template = random.choice(self.prompt_templates)
description = self.generate_description_dynamic(item, prompt_template)
else:
# use ordinary static prompt instead
description = self.generate_description_ordinary(item)
return description
def generate_description_dynamic(self, data, prompt_template: PromptTemplate):
exists_tag = [key for key in data if (key in self.tag_types) and (data[key] is not None) and (len(data[key]) > 0)]
exists_weak_tag = list(filter(lambda t: t in self.WEAK_TAG_LIST, exists_tag))
exists_strong_tag = list(filter(lambda t: t not in self.WEAK_TAG_LIST, exists_tag))
if len(exists_strong_tag) > 0:
probs = dist_prob_map[len(exists_strong_tag)]
tags_num = random.choices(range(1, len(exists_strong_tag)+1), probs)[0]
random.shuffle(exists_strong_tag)
tags = exists_strong_tag[:tags_num]
weak_probs = dist_prob_map_low[len(exists_weak_tag) + 1]
weak_tags_num = random.choices(range(0, len(exists_weak_tag) + 1), weak_probs)[0]
random.shuffle(exists_weak_tag)
weak_tags = exists_weak_tag[:weak_tags_num]
tags += weak_tags
tags_args = {tag: self.tags_to_desc(data[tag], tag) for tag in tags}
prompt = prompt_template.apply(**tags_args)
else:
# no strong tags, use all weak tags instead
tags_args = {tag: self.tags_to_desc(data[tag], tag) for tag in exists_weak_tag}
prompt = prompt_template.apply(**tags_args)
return prompt
def generate_description_ordinary(self, data, thresh = 0.3):
# Initialize the description with title and artist
description = f'"{data["title"]+" is " if random.random() > thresh else ""}"a piece of music by {data["artist"]}'
# Add genre if available
if data["genre"] and random.random() > thresh:
genres = ', '.join(data["genre"])
description += f', belonging to the {genres} genres'
# Add moods if available
if data["moods"] and random.random() > thresh:
moods = ', '.join(data["moods"])
description += f'. This track conveys a {moods} mood'
# Add instruments if available
if data["instrument"] and random.random() > thresh:
instruments = ', '.join(data["instrument"])
description += f', and primarily features the following instruments: {instruments}'
# Add a period to end the description
description += '.'
return description
class AudioStockDataset(Dataset):
def __init__(self,
metadata_path:str,
duration:float=10,
sr:int = 0,
return_path = False,
return_audio = True,
prompt_template_path: os.PathLike = None,
tag_types = [],
lang = 'en',
translate:Optional[Dict[str, os.PathLike]] = None
):
self.audio_reader = SafeAudioReader(duration, sr)
self._load_metadata(metadata_path)
self.sr = sr
self.duration = duration
self.return_path = return_path
self.return_audio = return_audio
self.use_dynamic_prompt = prompt_template_path is not None
if self.use_dynamic_prompt:
self.prompt_templates = load_prompt_templates(prompt_template_path, num = len(tag_types), lang = lang)
self.tag_types = tag_types
self.lang = lang
self.translate = read_translate(translate)
def _load_metadata(self, metadata_path):
with open(metadata_path) as fp:
lines = fp.readlines()
self.data = []
for line in lines:
item = json.loads(line)
self.data.append(item)
self.is_info_recorded = bool('Tags' in self.data[0])
def __len__(self):
return len(self.data)
def __getitem__(self, idx):
path:str = self.data[idx]["path"]
json_path = path[:path.rfind('.')] + ".json"
if self.is_info_recorded:
item = self.data[idx]
else:
try:
with open(json_path) as fp:
item:dict = json.load(fp)
except Exception as e:
print(f"Error loading json file {json_path} :\n{e}")
item = {}
description = self.generate_description(item)
if self.return_audio:
sr, duration = get_sr_and_duration_info(item)
audio = self.audio_reader(path, sr, duration)
else:
audio = None
if self.return_path:
return audio, description, path
return audio, description
def generate_description(self, item):
if self.use_dynamic_prompt:
# dynamically generate prompt from given prompt template
prompt_template = random.choice(self.prompt_templates)
description = self.generate_description_dynamic(item, prompt_template)
else:
# use ordinary static prompt instead
description = self.generate_description_ordinary(item)
return description
def generate_description_dynamic(self, data, prompt_template: PromptTemplate):
exists_tag = [key for key in data if (key in self.tag_types) and (data[key] is not None) and (len(data[key]) > 0)]
if len(exists_tag) > 0:
probs = dist_prob_map[len(exists_tag)]
tags_num = random.choices(range(1, len(exists_tag)+1), probs)[0]
random.shuffle(exists_tag)
tags = exists_tag[:tags_num]
tags_args = {tag: self.tags_to_desc(data[tag], tag) for tag in tags}
tags_args = self.handle_BPM_tag(tags_args)
prompt = prompt_template.apply(**tags_args)
else:
# no strong tags, use all weak tags instead
prompt = prompt_template.apply()
return prompt
def tags_to_desc(self, tag_list, tag_type) -> str:
if self.lang == 'en':
return tags_to_desc(tag_list)
elif self.lang == 'zh':
if tag_type == 'BPM':
return tags_to_desc(tag_list, sep='、')
translator = self.translate[tag_type]
translated_tag_list = [translator[tag] for tag in tag_list if tag in translator ]
return tags_to_desc(translated_tag_list, sep='、')
def handle_BPM_tag(self, tags_args):
if "BPM" in tags_args and 'BPMDescript' in self.tag_types:
bpm = tags_args["BPM"]
del tags_args["BPM"]
tag_types_used = random.choice((('BPM',), ('BPMDescript',), ('BPM', 'BPMDescript')))
for tag_type in tag_types_used:
tags_args[tag_type] = bpm if tag_type == 'BPM' else gen_bpm_descript(bpm, lang=self.lang)
return tags_args
def generate_description_ordinary(self, data, thresh = 0.3):
if self.lang != 'en':
raise ValueError(f'Language {self.lang} is not supported for ordinary description generation')
description = f'a piece of music by {data["Artist"]}'
# Add genre if available
if data["Genre"] and random.random() > thresh:
genres = ', '.join(data["Genre"])
description += f', belonging to the {genres} genres'
# Add moods if available
if data["Tags"] and random.random() > thresh:
tags = ', '.join(data["Tags"])
description += f'. This track contains the tags:{tags}'
# Add moods if available
if data["Mood"] and random.random() > thresh:
moods = ', '.join(data["Mood"])
description += f'. This track conveys a {moods} mood.'
# Add instruments if available
if data["Instrument"] and random.random() > thresh:
instruments = ', '.join(data["Instrument"])
description += f'. and primarily features the following instruments: {instruments}'
# Add a period to end the description
description += '.'
return description
def mp3_path_to_id(mp3_path):
return int(
mp3_path[mp3_path.rindex('/') + 1 : mp3_path.rindex('.mp3')]
)
class TmeDataset(Dataset):
def __init__(self,
data_index:str,
music_info:str = None,
duration:float = 10,
sr:int = 0,
return_path = False,
return_audio = True,
prompt_format_path: os.PathLike = None,
tag_types = ['*'],
lang = 'zh',
translate: Optional[os.PathLike] = None,
prompt_dir: os.PathLike = None,
):
self.audio_reader = SafeAudioReader(duration, sr)
self.sr = sr
self.duration = duration
self.return_path = return_path
self.return_audio = return_audio
self.lang = lang
self.use_ready_prompt = prompt_dir is not None
data_index = read_jsonlike(data_index)
self.data_index_dict = {mp3_path_to_id(d['path']) : d for d in data_index}
self.data_ids = list(self.data_index_dict.keys())
if not self.use_ready_prompt:
#读取音乐的信息文件
music_info = read_jsonlike(music_info)
if 'music' in music_info:
music_info = music_info['music']
self.music_info_dict = {d["歌曲ID"]:d for d in music_info}
self.data_index_dict = {k:v for k,v in self.data_index_dict.items() if k in self.music_info_dict}
self.data_ids = list(self.data_index_dict.keys())
with open(prompt_format_path) as fp:
self.prompt_formats = yaml.load(fp, Loader=yaml.FullLoader)
#加载tag types,并分成一般的tag_types和关键的key_tag_types
if '*' in tag_types:
self.tag_types = ['歌曲名', 'bpm', '专辑名', '歌手名', '作曲', 'tag']
else:
self.tag_types = tag_types
self.key_tag_types = []
if 'tag' in self.tag_types:
self.tag_types.remove('tag')
self.key_tag_types = list(self.prompt_formats['tag'].keys())
#加载translate翻译
if translate is not None:
self.translator = read_jsonlike(translate)
else:
data_ids_set = set(self.data_ids)
self.prompts_dict = {}
for fname in os.listdir(prompt_dir):
items = read_jsonlike(os.path.join(prompt_dir, fname))
for item in items:
if item['ID'] not in data_ids_set or not self.is_valid_prompt_text(item['Text']):
continue
if item['ID'] not in self.prompts_dict:
self.prompts_dict[item['ID']] = []
self.prompts_dict[item['ID']].append(item['Text'])
self.data_index_dict = {k:v for k,v in self.data_index_dict.items() if k in self.prompts_dict}
self.data_ids = list(self.data_index_dict.keys())
def tags_to_desc(self, tag_list) -> str:
if is_bearable(tag_list, int):
return str(tag_list)
if self.lang == 'zh':
return tags_to_desc(tag_list, sep=self.sep)
else:
translated_tag_list = [self.translator[tag] for tag in tag_list if tag in self.translator ]
return tags_to_desc(translated_tag_list, sep=self.sep)
def gen_desc_of_tag(self, formats, tags):
fmt = random.choice(formats)
return fmt.format(self.tags_to_desc(tags))
@staticmethod
def check_valid(value):
if isinstance(value, int) or isinstance(value, float):
return value > 0
if (value is not None) and (not isinstance(value, Sequence) or len(value) > 0):
return True
return False
@staticmethod
def remove_repeat(data):
#若专辑名和歌曲名相同,则只使用后者
album_name = data.get('专辑名', None)
if album_name is not None and album_name == data.get('歌曲名', None):
del data['专辑名']
return data
@property
def comma(self):
if self.lang == 'zh':
return ','
elif self.lang == 'en':
return ', '
@property
def sep(self):
if self.lang == 'zh':
return '、'
elif self.lang == 'en':
return ', '
def generate_description(self, data):
data = self.remove_repeat(data)
weak_tags = [key for key in data if (key in self.tag_types and self.check_valid(data[key]))] #弱语义的tag,这些tag的出现比例会放低
key_tags = [key for key in data['tag'] if (key in self.key_tag_types and self.check_valid(data['tag'][key]))] #关键的tag,这些tag必须出现至少一个
prompts = []
if len(weak_tags) > 0:
probs = dist_prob_map_low[len(weak_tags)]
if len(key_tags) > 0:
tags_num = random.choices(range(0, len(weak_tags)), probs)[0]
else:
tags_num = random.choices(range(1, len(weak_tags) + 1), probs)[0]
random.shuffle(weak_tags)
tags = weak_tags[:tags_num]
for tag_type in tags:
tag_desc = self.gen_desc_of_tag(self.prompt_formats[tag_type], int(data[tag_type]) if tag_type == 'bpm' else data[tag_type])
prompts.append(tag_desc)
if len(key_tags) > 0:
probs = dist_prob_map[len(key_tags)]
tags_num = random.choices(range(1, len(key_tags) + 1), probs)[0]
random.shuffle(key_tags)
tags = key_tags[:tags_num]
for tag_type in tags:
tag_desc = self.gen_desc_of_tag(self.prompt_formats['tag'][tag_type], data['tag'][tag_type])
prompts.append(tag_desc)
random.shuffle(prompts)
return self.comma.join(prompts)
def is_valid_prompt_text(self, text):
for bad in ('抱歉','sorry', 'Sorry'):
if bad in text:
return False
return True
def get_ready_prompt(self, path):
sid = mp3_path_to_id(path)
return random.choice(self.prompts_dict[sid])
def __len__(self):
return len(self.data_ids)
def __getitem__(self, idx):
data_id = self.data_ids[idx]
item = self.data_index_dict[data_id]
path = item['path']
if not self.use_ready_prompt:
info = self.music_info_dict[data_id]
description = self.generate_description(info)
else:
description = self.get_ready_prompt(path)
if self.return_audio:
sr, duration = get_sr_and_duration_info(item)
audio = self.audio_reader(path, sr, duration)
else:
audio = None
if self.return_path:
return audio, description, path
return audio, description
class CombinedDataset(Dataset):
@beartype
def __init__(self, datasets: Sequence[Dataset], ratios: Sequence[int]):
self.datasets = datasets
self.datasets_index = []
for i,dataset in enumerate(datasets):
if dataset is None:
continue
for dup in range(ratios[i]):
for j in range(len(dataset)):
self.datasets_index.append((i,j))
def __len__(self):
return len(self.datasets_index)
def __getitem__(self, idx):
index = self.datasets_index[idx]
i,j = index
return self.datasets[i][j]
class CombinedDataset_random(Dataset):
@beartype
def __init__(self,
num_examples:int,
datasets: Sequence[Dataset], ratios: Sequence[int]
):
self.datasets = datasets
self.datasets_index = []
for i,dataset in enumerate(datasets):
if dataset is None:
continue
for dup in range(ratios[i]):
for j in range(len(dataset)):
self.datasets_index.append((i,j))
if num_examples > 0:
self.random_choose = True
self.dataset_len = num_examples
else:
self.random_choose = False
self.dataset_len = len(self.datasets_index)
def __len__(self):
return self.dataset_len
def __getitem__(self, idx):
first_try = True
try_cnt = 0
while True:
try:
if(self.random_choose or not first_try):
index2 = []
index2.append(np.random.randint(0,len(self.datasets)))
index2.append(np.random.randint(0,len(self.datasets[index2[-1]])))
else:
index2 = self.datasets_index[idx]
first_try = False
out = self.datasets[index2[0]][index2[1]]
if(len(out[0].shape)==1):out[0]=out[0][None,:]
return out
except:
print("Error loadding ", index2)
try_cnt += 1
if(try_cnt>10):
raise ValueError()