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# Copyright (c) 2023 Amphion.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
import math
import librosa
import torch
import numpy as np
from utils.util import JsonHParams
from utils.f0 import get_f0_features_using_parselmouth
ZERO = 1e-8
def extract_f1_v_uv(
audio_ref,
audio_deg,
fs=None,
hop_length=256,
f0_min=37,
f0_max=1000,
pitch_bin=256,
pitch_max=1100.0,
pitch_min=50.0,
method="dtw",
):
"""Compute F1 socre of voiced/unvoiced accuracy between the predicted and the ground truth audio.
audio_ref: path to the ground truth audio.
audio_deg: path to the predicted audio.
fs: sampling rate.
hop_length: hop length.
f0_min: lower limit for f0.
f0_max: upper limit for f0.
pitch_bin: number of bins for f0 quantization.
pitch_max: upper limit for f0 quantization.
pitch_min: lower limit for f0 quantization.
need_mean: subtract the mean value from f0 if "True".
method: "dtw" will use dtw algorithm to align the length of the ground truth and predicted audio.
"cut" will cut both audios into a same length according to the one with the shorter length.
"""
# Load audio
if fs != None:
audio_ref, _ = librosa.load(audio_ref, sr=fs)
audio_deg, _ = librosa.load(audio_deg, sr=fs)
else:
audio_ref, fs = librosa.load(audio_ref)
audio_deg, fs = librosa.load(audio_deg)
# Initialize config
cfg = JsonHParams()
cfg.sample_rate = fs
cfg.hop_size = hop_length
cfg.f0_min = f0_min
cfg.f0_max = f0_max
cfg.pitch_bin = pitch_bin
cfg.pitch_max = pitch_max
cfg.pitch_min = pitch_min
# Compute f0
f0_ref = get_f0_features_using_parselmouth(
audio_ref,
cfg,
)[0]
f0_deg = get_f0_features_using_parselmouth(
audio_deg,
cfg,
)[0]
# Avoid silence
min_length = min(len(f0_ref), len(f0_deg))
if min_length <= 1:
return 0, 0, 0
# F0 length alignment
if method == "cut":
length = min(len(f0_ref), len(f0_deg))
f0_ref = f0_ref[:length]
f0_deg = f0_deg[:length]
elif method == "dtw":
_, wp = librosa.sequence.dtw(f0_ref, f0_deg, backtrack=True)
f0_gt_new = []
f0_pred_new = []
for i in range(wp.shape[0]):
gt_index = wp[i][0]
pred_index = wp[i][1]
f0_gt_new.append(f0_ref[gt_index])
f0_pred_new.append(f0_deg[pred_index])
f0_ref = np.array(f0_gt_new)
f0_deg = np.array(f0_pred_new)
assert len(f0_ref) == len(f0_deg)
# Get voiced/unvoiced parts
ref_voiced = torch.Tensor([f0_ref != 0]).bool()
deg_voiced = torch.Tensor([f0_deg != 0]).bool()
# Compute TP, FP, FN
true_postives = (ref_voiced & deg_voiced).sum()
false_postives = (~ref_voiced & deg_voiced).sum()
false_negatives = (ref_voiced & ~deg_voiced).sum()
return (
true_postives.numpy().tolist(),
false_postives.numpy().tolist(),
false_negatives.numpy().tolist(),
)
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