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import numpy as np | |
import onnxruntime as ort | |
def convert_pad_shape(pad_shape): | |
layer = pad_shape[::-1] | |
pad_shape = [item for sublist in layer for item in sublist] | |
return pad_shape | |
def sequence_mask(length, max_length=None): | |
if max_length is None: | |
max_length = length.max() | |
x = np.arange(max_length, dtype=length.dtype) | |
return np.expand_dims(x, 0) < np.expand_dims(length, 1) | |
def generate_path(duration, mask): | |
""" | |
duration: [b, 1, t_x] | |
mask: [b, 1, t_y, t_x] | |
""" | |
b, _, t_y, t_x = mask.shape | |
cum_duration = np.cumsum(duration, -1) | |
cum_duration_flat = cum_duration.reshape(b * t_x) | |
path = sequence_mask(cum_duration_flat, t_y) | |
path = path.reshape(b, t_x, t_y) | |
path = path ^ np.pad(path, ((0, 0), (1, 0), (0, 0)))[:, :-1] | |
path = np.expand_dims(path, 1).transpose(0, 1, 3, 2) | |
return path | |
class OnnxInferenceSession: | |
def __init__(self, path, Providers=["CPUExecutionProvider"]): | |
self.enc = ort.InferenceSession(path["enc"], providers=Providers) | |
self.emb_g = ort.InferenceSession(path["emb_g"], providers=Providers) | |
self.dp = ort.InferenceSession(path["dp"], providers=Providers) | |
self.sdp = ort.InferenceSession(path["sdp"], providers=Providers) | |
self.flow = ort.InferenceSession(path["flow"], providers=Providers) | |
self.dec = ort.InferenceSession(path["dec"], providers=Providers) | |
def __call__( | |
self, | |
seq, | |
tone, | |
language, | |
bert_zh, | |
bert_jp, | |
bert_en, | |
sid, | |
seed=114514, | |
seq_noise_scale=0.8, | |
sdp_noise_scale=0.6, | |
length_scale=1.0, | |
sdp_ratio=0.0, | |
): | |
if seq.ndim == 1: | |
seq = np.expand_dims(seq, 0) | |
if tone.ndim == 1: | |
tone = np.expand_dims(tone, 0) | |
if language.ndim == 1: | |
language = np.expand_dims(language, 0) | |
assert(seq.ndim == 2,tone.ndim == 2,language.ndim == 2) | |
g = self.emb_g.run( | |
None, | |
{ | |
"sid": sid.astype(np.int64), | |
}, | |
)[0] | |
g = np.expand_dims(g, -1) | |
enc_rtn = self.enc.run( | |
None, | |
{ | |
"x": seq.astype(np.int64), | |
"t": tone.astype(np.int64), | |
"language": language.astype(np.int64), | |
"bert_0": bert_zh.astype(np.float32), | |
"bert_1": bert_jp.astype(np.float32), | |
"bert_2": bert_en.astype(np.float32), | |
"g": g.astype(np.float32), | |
}, | |
) | |
x, m_p, logs_p, x_mask = enc_rtn[0], enc_rtn[1], enc_rtn[2], enc_rtn[3] | |
np.random.seed(seed) | |
zinput = np.random.randn(x.shape[0], 2, x.shape[2]) * sdp_noise_scale | |
logw = self.sdp.run( | |
None, {"x": x, "x_mask": x_mask, "zin": zinput.astype(np.float32), "g": g} | |
)[0] * (sdp_ratio) + self.dp.run(None, {"x": x, "x_mask": x_mask, "g": g})[ | |
0 | |
] * ( | |
1 - sdp_ratio | |
) | |
w = np.exp(logw) * x_mask * length_scale | |
w_ceil = np.ceil(w) | |
y_lengths = np.clip(np.sum(w_ceil, (1, 2)), a_min=1.0, a_max=100000).astype( | |
np.int64 | |
) | |
y_mask = np.expand_dims(sequence_mask(y_lengths, None), 1) | |
attn_mask = np.expand_dims(x_mask, 2) * np.expand_dims(y_mask, -1) | |
attn = generate_path(w_ceil, attn_mask) | |
m_p = np.matmul(attn.squeeze(1), m_p.transpose(0, 2, 1)).transpose( | |
0, 2, 1 | |
) # [b, t', t], [b, t, d] -> [b, d, t'] | |
logs_p = np.matmul(attn.squeeze(1), logs_p.transpose(0, 2, 1)).transpose( | |
0, 2, 1 | |
) # [b, t', t], [b, t, d] -> [b, d, t'] | |
z_p = ( | |
m_p | |
+ np.random.randn(m_p.shape[0], m_p.shape[1], m_p.shape[2]) | |
* np.exp(logs_p) | |
* seq_noise_scale | |
) | |
z = self.flow.run( | |
None, | |
{ | |
"z_p": z_p.astype(np.float32), | |
"y_mask": y_mask.astype(np.float32), | |
"g": g, | |
}, | |
)[0] | |
return self.dec.run(None, {"z_in": z.astype(np.float32), "g": g})[0] | |