def speech_quality_metrics(in_dir, ref_dir, maxdepth, out_file):
folders = []
for depth in range(maxdepth):
path_str = '*' + os.sep
path_str = os.path.join(in_dir, path_str * depth)
folders += glob(path_str)
in_folder = os.path.basename(os.path.dirname(os.path.join(in_dir, '')))
fields = ['snr', 'mosnet', 'srmr', 'wav_file']
window_length = None
abs_metrics = speechmetrics.load('absolute', window_length)
if ref_dir:
fields = [
'snr', 'mosnet', 'srmr', 'sdr', 'isr', 'sar', 'pesq', 'sisdr',
'stoi', 'wav_file'
]
rel_metrics = speechmetrics.load('relative', window_length)
csv_file = args.out_file
with open(csv_file, 'w') as csvfile:
csvwriter = csv.writer(csvfile)
csvwriter.writerow(fields)
for fld in tqdm(folders):
files = sorted(glob(os.path.join(fld, '*.wav')))
for fle in files:
fle_clip = fle[fle.find(in_folder) + len(in_folder) + 1:]
try:
print('Computing metrics for %s.' % fle)
abs_scores = abs_metrics(fle)
snr_score = snr(fle, method='rms')
if ref_dir:
ref = os.path.join(ref_dir, fle_clip)
rel_scores = rel_metrics(fle, ref)
except KeyboardInterrupt:
sys.exit()
except:
print('Unable to compute quality scores for ' + fle + '.')
if ref_dir:
csvwriter.writerow(
['', '', '', '', '', '', '', '', '', fle_clip])
else:
csvwriter.writerow(['', '', '', fle_clip])
else:
if ref_dir:
csvwriter.writerow([
snr_score, abs_scores['mosnet'][0][0],
abs_scores['srmr'], rel_scores['sdr'][0][0],
rel_scores['isr'][0][0], rel_scores['sar'][0][0],
rel_scores['pesq'], rel_scores['sisdr'],
rel_scores['stoi'], fle_clip
])
else:
csvwriter.writerow([
snr_score, abs_scores['mosnet'][0][0],
abs_scores['srmr'], fle_clip
])
def speechmetrics_featurize(wavfile):
window_length = 5 # seconds
metrics = speechmetrics.load('absolute', window_length)
scores = metrics(wavfile)
scores['mosnet'] = float(scores['mosnet'])
scores['srmr'] = float(scores['srmr'])
features = list(scores.values())
labels = list(scores)
return features, labels
def main():
parser = argparse.ArgumentParser(
description="Use MOSnet to predict quality scores.",
formatter_class=argparse.ArgumentDefaultsHelpFormatter,
)
parser.add_argument("--outwavdir", type=str, help="Converted waveform directory")
parser.add_argument(
"--out",
type=str,
help="If omitted, then output to sys.stdout",
)
args = parser.parse_args()
# logging info
logging.basicConfig(
level=logging.INFO,
stream=sys.stdout,
format="%(asctime)s (%(module)s:%(lineno)d) " "%(levelname)s: %(message)s",
)
# load converted files.
converted_files = sorted(list(Path(args.outwavdir).rglob("*.wav")))
logging.info(f"number of utterances = {len(converted_files)}")
# construct metric class
metrics = speechmetrics.load("mosnet", None)
if args.out is None:
out = sys.stdout
else:
out = open(args.out, "w", encoding="utf-8")
# actual calculation
scores = {}
for cv_path in converted_files:
score = metrics(str(cv_path))["mosnet"][0][0]
basename = cv_path.stem
number, orgspk, tarspk = basename.split("_")
tarspk = tarspk.split("-")[-1]
orgspk = orgspk.split("-")[-1]
scores[f"{orgspk}-{tarspk}-{number}"] = score
# summarize by pair
pairwise_scores = {}
for k, v in scores.items():
orgspk, tarspk, _ = k.split("-")
pair = orgspk + " " + tarspk
if pair not in pairwise_scores:
pairwise_scores[pair] = []
pairwise_scores[pair].append(v)
for k in sorted(pairwise_scores.keys()):
score_list = pairwise_scores[k]
mean_score = float(sum(score_list) / len(score_list))
out.write(f"{k} {mean_score:.3f}\n")
from torchmetrics.audio import SI_SNR
from torchmetrics.functional import si_snr
from torchmetrics.utilities.imports import _TORCH_GREATER_EQUAL_1_6
seed_all(42)
Time = 100
Input = namedtuple('Input', ["preds", "target"])
inputs = Input(
preds=torch.rand(NUM_BATCHES, BATCH_SIZE, 1, Time),
target=torch.rand(NUM_BATCHES, BATCH_SIZE, 1, Time),
)
speechmetrics_sisdr = speechmetrics.load('sisdr')
def speechmetrics_si_sdr(preds: Tensor, target: Tensor, zero_mean: bool = True):
# shape: preds [BATCH_SIZE, 1, Time] , target [BATCH_SIZE, 1, Time]
# or shape: preds [NUM_BATCHES*BATCH_SIZE, 1, Time] , target [NUM_BATCHES*BATCH_SIZE, 1, Time]
if zero_mean:
preds = preds - preds.mean(dim=2, keepdim=True)
target = target - target.mean(dim=2, keepdim=True)
target = target.detach().cpu().numpy()
preds = preds.detach().cpu().numpy()
mss = []
for i in range(preds.shape[0]):
ms = []
for j in range(preds.shape[1]):
metric = speechmetrics_sisdr(preds[i, j], target[i, j], rate=16000)
'realization', 'SNR', 'technique', 'pesq',
'stoi', 'srmr'
])
filename = []
speech_name = []
noise_name = []
realization = []
SNR = []
technique = []
pesq_score = []
stoi_score = []
srmr_score = []
# mixed case, still works
metric_function = speechmetrics.load(['pesq', 'stoi', 'srmr'],
window=None,
verbose=False)
for i in range(len(metric_function.metrics)):
metric_function.metrics[i].fixed_rate = 8000
for k in trange(num_techniques):
# for k in range(num_techniques):
speech_folder = data_folder / 'speech'
noisy_folder = data_folder / 'speech+noise'
if technique_list[k] is 'noisy':
processed_folder = data_folder / 'speech+noise'
else:
processed_folder = data_folder / 'processed' / technique_list[k]
import speechmetrics as sm
if __name__ == '__main__':
window = 5
print('Trying ABSOLUTE metrics: ')
metrics = sm.load('absolute', window)
reference = 'data/m2_script1_produced.wav'
tests = [
'data/m2_script1_clean.wav', 'data/m2_script1_ipad_confroom1.wav',
'data/m2_script1_produced.wav'
]
for test in tests:
import pprint
print('Computing scores for ', test)
scores = metrics(reference, test)
pprint.pprint(scores)
print('\nTrying RELATIVE metrics: ')
metrics = sm.load('relative', window)
reference = 'data/m2_script1_produced.wav'
tests = [
'data/m2_script1_clean.wav', 'data/m2_script1_ipad_confroom1.wav',
'data/m2_script1_produced.wav'
]
for test in tests:
def calculate_all_metrics(path, reference_path, n_max_files=None):
metrics = {}
FD = FrechetDistance(
path=path,
reference_path=reference_path,
backbone="deepspeech2",
sr=16000,
sample_size=10000,
num_runs=1,
window_size=None,
conditional=True,
use_cached=True,
)
metrics["FDSD"] = FD.calculate_metric()[0].data.item()
FD.backbone.encoder.cpu()
mos_pred = load_model("wave2vec_mos")
moses = np.array(mos_pred.calculate(path, False))
moses_ref = np.array(mos_pred.calculate(reference_path, False))
mos_pred.cpu()
metrics["MOS_wav2vec"] = moses.mean(), moses.std()
metrics["MOSdeg_wav2vec"] = np.mean(np.maximum(
moses_ref - moses, 0)), np.std(np.maximum(moses_ref - moses, 0))
metrics["MOSdeg_wav2vec_nonzero"] = np.sum(moses_ref - moses > 0) / len(
moses.squeeze())
computer = speechmetrics.load(
["bsseval", "mosnet", "pesq", "stoi", "sisdr"], None)
ll = glob.glob(os.path.join(path, "*.wav"))
ll_gt = glob.glob(os.path.join(reference_path, "*.wav"))
scores = []
for path_to_estimate_file, path_to_reference in tqdm(
itertools.islice(zip(ll, ll_gt), n_max_files),
total=n_max_files if n_max_files is not None else len(ll),
desc="Calculating metrics from speechmetrics",
):
scores.append(computer(path_to_estimate_file, path_to_reference))
scores = {k: [dic[k] for dic in scores] for k in scores[0]}
scores_ref = []
for path_to_estimate_file, path_to_reference in tqdm(
itertools.islice(zip(ll, ll_gt), n_max_files),
total=n_max_files if n_max_files is not None else len(ll),
desc="Calculating reference values of metrics",
):
scores_ref.append(computer(path_to_reference, path_to_reference))
scores_ref = {k: [dic[k] for dic in scores_ref] for k in scores_ref[0]}
metrics["MOS_orig"] = np.mean(np.stack(scores["mosnet"])), np.std(
np.stack(scores["mosnet"]))
mosdeg = np.maximum(
-np.stack(scores["mosnet"]) + np.stack(scores_ref["mosnet"]), 0)
metrics["MOSdeg_orig"] = np.mean(mosdeg), np.std(mosdeg)
metrics["MOSdeg_orig_nonzero"] = np.sum(mosdeg > 0) / len(mosdeg.squeeze())
metrics["sisdr"] = np.mean(np.stack(scores["sisdr"])), np.std(
np.stack(scores["sisdr"]))
metrics["stoi"] = np.mean(np.stack(scores["stoi"])), np.std(
np.stack(scores["stoi"]))
metrics["pesq"] = np.mean(np.stack(scores["pesq"])), np.std(
np.stack(scores["pesq"]))
metrics["sdr"] = np.mean(np.stack(scores["sdr"])), np.std(
np.stack(scores["sdr"]))
LSD = []
SNR = []
for path_to_estimate_file, path_to_reference in tqdm(
itertools.islice(zip(ll, ll_gt), n_max_files),
total=n_max_files if n_max_files is not None else len(ll),
desc="Calculating LSD and SNR metrics",
):
x = librosa.load(path_to_estimate_file, sr=16000)[0]
y = librosa.load(path_to_reference, sr=16000)[0]
x = librosa.util.normalize(x[:min(len(x), len(y))])
y = librosa.util.normalize(y[:min(len(x), len(y))])
SNR.append(snr(x, y))
LSD.append(lsd(x, y))
metrics["snr"] = np.mean(SNR), np.std(SNR)
metrics["lsd"] = np.mean(LSD), np.std(LSD)
return metrics
import speechmetrics as sm
if __name__ == '__main__':
window = 5
metrics = sm.load('absolute', window)
reference = 'data/m2_script1_produced.wav'
tests = [
'data/m2_script1_clean.wav', 'data/m2_script1_ipad_confroom1.wav',
'data/m2_script1_produced.wav'
]
for test in tests:
import pprint
print('Computing scores for ', test)
scores = metrics(test, reference)
pprint.pprint(scores)
from torchmetrics.audio import ScaleInvariantSignalDistortionRatio
from torchmetrics.functional import scale_invariant_signal_distortion_ratio
from torchmetrics.utilities.imports import _TORCH_GREATER_EQUAL_1_6
seed_all(42)
Time = 100
Input = namedtuple("Input", ["preds", "target"])
inputs = Input(
preds=torch.rand(NUM_BATCHES, BATCH_SIZE, 1, Time),
target=torch.rand(NUM_BATCHES, BATCH_SIZE, 1, Time),
)
speechmetrics_sisdr = speechmetrics.load("sisdr")
def speechmetrics_si_sdr(preds: Tensor, target: Tensor, zero_mean: bool):
# shape: preds [BATCH_SIZE, 1, Time] , target [BATCH_SIZE, 1, Time]
# or shape: preds [NUM_BATCHES*BATCH_SIZE, 1, Time] , target [NUM_BATCHES*BATCH_SIZE, 1, Time]
if zero_mean:
preds = preds - preds.mean(dim=2, keepdim=True)
target = target - target.mean(dim=2, keepdim=True)
target = target.detach().cpu().numpy()
preds = preds.detach().cpu().numpy()
mss = []
for i in range(preds.shape[0]):
ms = []
for j in range(preds.shape[1]):
metric = speechmetrics_sisdr(preds[i, j], target[i, j], rate=16000)
