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import os
import datetime
import json
import logging
import librosa
import pickle
from typing import Dict
import numpy as np
import torch
import torch.nn as nn
import yaml
from models.audiosep import AudioSep, get_model_class
def ignore_warnings():
import warnings
# Ignore UserWarning from torch.meshgrid
warnings.filterwarnings('ignore', category=UserWarning, module='torch.functional')
# Refined regex pattern to capture variations in the warning message
pattern = r"Some weights of the model checkpoint at roberta-base were not used when initializing RobertaModel: \['lm_head\..*'\].*"
warnings.filterwarnings('ignore', message=pattern)
def create_logging(log_dir, filemode):
os.makedirs(log_dir, exist_ok=True)
i1 = 0
while os.path.isfile(os.path.join(log_dir, "{:04d}.log".format(i1))):
i1 += 1
log_path = os.path.join(log_dir, "{:04d}.log".format(i1))
logging.basicConfig(
level=logging.DEBUG,
format="%(asctime)s %(filename)s[line:%(lineno)d] %(levelname)s %(message)s",
datefmt="%a, %d %b %Y %H:%M:%S",
filename=log_path,
filemode=filemode,
)
# Print to console
console = logging.StreamHandler()
console.setLevel(logging.INFO)
formatter = logging.Formatter("%(name)-12s: %(levelname)-8s %(message)s")
console.setFormatter(formatter)
logging.getLogger("").addHandler(console)
return logging
def float32_to_int16(x: float) -> int:
x = np.clip(x, a_min=-1, a_max=1)
return (x * 32767.0).astype(np.int16)
def int16_to_float32(x: int) -> float:
return (x / 32767.0).astype(np.float32)
def parse_yaml(config_yaml: str) -> Dict:
r"""Parse yaml file.
Args:
config_yaml (str): config yaml path
Returns:
yaml_dict (Dict): parsed yaml file
"""
with open(config_yaml, "r") as fr:
return yaml.load(fr, Loader=yaml.FullLoader)
def get_audioset632_id_to_lb(ontology_path: str) -> Dict:
r"""Get AudioSet 632 classes ID to label mapping."""
audioset632_id_to_lb = {}
with open(ontology_path) as f:
data_list = json.load(f)
for e in data_list:
audioset632_id_to_lb[e["id"]] = e["name"]
return audioset632_id_to_lb
def load_pretrained_panns(
model_type: str,
checkpoint_path: str,
freeze: bool
) -> nn.Module:
r"""Load pretrained pretrained audio neural networks (PANNs).
Args:
model_type: str, e.g., "Cnn14"
checkpoint_path, str, e.g., "Cnn14_mAP=0.431.pth"
freeze: bool
Returns:
model: nn.Module
"""
if model_type == "Cnn14":
Model = Cnn14
elif model_type == "Cnn14_DecisionLevelMax":
Model = Cnn14_DecisionLevelMax
else:
raise NotImplementedError
model = Model(sample_rate=32000, window_size=1024, hop_size=320,
mel_bins=64, fmin=50, fmax=14000, classes_num=527)
if checkpoint_path:
checkpoint = torch.load(checkpoint_path, map_location="cpu")
model.load_state_dict(checkpoint["model"])
if freeze:
for param in model.parameters():
param.requires_grad = False
return model
def energy(x):
return torch.mean(x ** 2)
def magnitude_to_db(x):
eps = 1e-10
return 20. * np.log10(max(x, eps))
def db_to_magnitude(x):
return 10. ** (x / 20)
def ids_to_hots(ids, classes_num, device):
hots = torch.zeros(classes_num).to(device)
for id in ids:
hots[id] = 1
return hots
def calculate_sdr(
ref: np.ndarray,
est: np.ndarray,
eps=1e-10
) -> float:
r"""Calculate SDR between reference and estimation.
Args:
ref (np.ndarray), reference signal
est (np.ndarray), estimated signal
"""
reference = ref
noise = est - reference
numerator = np.clip(a=np.mean(reference ** 2), a_min=eps, a_max=None)
denominator = np.clip(a=np.mean(noise ** 2), a_min=eps, a_max=None)
sdr = 10. * np.log10(numerator / denominator)
return sdr
def calculate_sisdr(ref, est):
r"""Calculate SDR between reference and estimation.
Args:
ref (np.ndarray), reference signal
est (np.ndarray), estimated signal
"""
eps = np.finfo(ref.dtype).eps
reference = ref.copy()
estimate = est.copy()
reference = reference.reshape(reference.size, 1)
estimate = estimate.reshape(estimate.size, 1)
Rss = np.dot(reference.T, reference)
# get the scaling factor for clean sources
a = (eps + np.dot(reference.T, estimate)) / (Rss + eps)
e_true = a * reference
e_res = estimate - e_true
Sss = (e_true**2).sum()
Snn = (e_res**2).sum()
sisdr = 10 * np.log10((eps+ Sss)/(eps + Snn))
return sisdr
class StatisticsContainer(object):
def __init__(self, statistics_path):
self.statistics_path = statistics_path
self.backup_statistics_path = "{}_{}.pkl".format(
os.path.splitext(self.statistics_path)[0],
datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S"),
)
self.statistics_dict = {"balanced_train": [], "test": []}
def append(self, steps, statistics, split, flush=True):
statistics["steps"] = steps
self.statistics_dict[split].append(statistics)
if flush:
self.flush()
def flush(self):
pickle.dump(self.statistics_dict, open(self.statistics_path, "wb"))
pickle.dump(self.statistics_dict, open(self.backup_statistics_path, "wb"))
logging.info(" Dump statistics to {}".format(self.statistics_path))
logging.info(" Dump statistics to {}".format(self.backup_statistics_path))
def get_mean_sdr_from_dict(sdris_dict):
mean_sdr = np.nanmean(list(sdris_dict.values()))
return mean_sdr
def remove_silence(audio: np.ndarray, sample_rate: int) -> np.ndarray:
r"""Remove silent frames."""
window_size = int(sample_rate * 0.1)
threshold = 0.02
frames = librosa.util.frame(x=audio, frame_length=window_size, hop_length=window_size).T
# shape: (frames_num, window_size)
new_frames = get_active_frames(frames, threshold)
# shape: (new_frames_num, window_size)
new_audio = new_frames.flatten()
# shape: (new_audio_samples,)
return new_audio
def get_active_frames(frames: np.ndarray, threshold: float) -> np.ndarray:
r"""Get active frames."""
energy = np.max(np.abs(frames), axis=-1)
# shape: (frames_num,)
active_indexes = np.where(energy > threshold)[0]
# shape: (new_frames_num,)
new_frames = frames[active_indexes]
# shape: (new_frames_num,)
return new_frames
def repeat_to_length(audio: np.ndarray, segment_samples: int) -> np.ndarray:
r"""Repeat audio to length."""
repeats_num = (segment_samples // audio.shape[-1]) + 1
audio = np.tile(audio, repeats_num)[0 : segment_samples]
return audio
def calculate_segmentwise_sdr(ref, est, hop_samples, return_sdr_list=False):
min_len = min(ref.shape[-1], est.shape[-1])
pointer = 0
sdrs = []
while pointer + hop_samples < min_len:
sdr = calculate_sdr(
ref=ref[:, pointer : pointer + hop_samples],
est=est[:, pointer : pointer + hop_samples],
)
sdrs.append(sdr)
pointer += hop_samples
sdr = np.nanmedian(sdrs)
if return_sdr_list:
return sdr, sdrs
else:
return sdr
def loudness(data, input_loudness, target_loudness):
""" Loudness normalize a signal.
Normalize an input signal to a user loudness in dB LKFS.
Params
-------
data : torch.Tensor
Input multichannel audio data.
input_loudness : float
Loudness of the input in dB LUFS.
target_loudness : float
Target loudness of the output in dB LUFS.
Returns
-------
output : torch.Tensor
Loudness normalized output data.
"""
# calculate the gain needed to scale to the desired loudness level
delta_loudness = target_loudness - input_loudness
gain = torch.pow(10.0, delta_loudness / 20.0)
output = gain * data
# check for potentially clipped samples
# if torch.max(torch.abs(output)) >= 1.0:
# warnings.warn("Possible clipped samples in output.")
return output
def load_ss_model(
configs: Dict,
checkpoint_path: str,
query_encoder: nn.Module
) -> nn.Module:
r"""Load trained universal source separation model.
Args:
configs (Dict)
checkpoint_path (str): path of the checkpoint to load
device (str): e.g., "cpu" | "cuda"
Returns:
pl_model: pl.LightningModule
"""
ss_model_type = configs["model"]["model_type"]
input_channels = configs["model"]["input_channels"]
output_channels = configs["model"]["output_channels"]
condition_size = configs["model"]["condition_size"]
# Initialize separation model
SsModel = get_model_class(model_type=ss_model_type)
ss_model = SsModel(
input_channels=input_channels,
output_channels=output_channels,
condition_size=condition_size,
)
# Load PyTorch Lightning model
pl_model = AudioSep.load_from_checkpoint(
checkpoint_path=checkpoint_path,
strict=False,
ss_model=ss_model,
waveform_mixer=None,
query_encoder=query_encoder,
loss_function=None,
optimizer_type=None,
learning_rate=None,
lr_lambda_func=None,
map_location=torch.device('cpu'),
)
return pl_model
def parse_yaml(config_yaml: str) -> Dict:
r"""Parse yaml file.
Args:
config_yaml (str): config yaml path
Returns:
yaml_dict (Dict): parsed yaml file
"""
with open(config_yaml, "r") as fr:
return yaml.load(fr, Loader=yaml.FullLoader) |