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from pydub import AudioSegment
from typing import Any, List, Dict, Union
from scipy.io.wavfile import write
import io
from modules.utils import rng
from modules.utils.audio import time_stretch, pitch_shift
from modules import generate_audio
from modules.normalization import text_normalize
import logging
import json
import copy
import numpy as np
from modules.speaker import Speaker
logger = logging.getLogger(__name__)
def audio_data_to_segment(audio_data, sr):
byte_io = io.BytesIO()
write(byte_io, rate=sr, data=audio_data)
byte_io.seek(0)
return AudioSegment.from_file(byte_io, format="wav")
def combine_audio_segments(audio_segments: list) -> AudioSegment:
combined_audio = AudioSegment.empty()
for segment in audio_segments:
combined_audio += segment
return combined_audio
def apply_prosody(
audio_segment: AudioSegment, rate: float, volume: float, pitch: float
) -> AudioSegment:
if rate != 1:
audio_segment = time_stretch(audio_segment, rate)
if volume != 0:
audio_segment += volume
if pitch != 0:
audio_segment = pitch_shift(audio_segment, pitch)
return audio_segment
def to_number(value, t, default=0):
try:
number = t(value)
return number
except (ValueError, TypeError) as e:
return default
class SynthesizeSegments:
def __init__(self, batch_size: int = 8):
self.batch_size = batch_size
self.batch_default_spk_seed = rng.np_rng()
self.batch_default_infer_seed = rng.np_rng()
def segment_to_generate_params(self, segment: Dict[str, Any]) -> Dict[str, Any]:
if segment.get("params", None) is not None:
return segment["params"]
text = segment.get("text", "")
is_end = segment.get("is_end", False)
text = str(text).strip()
attrs = segment.get("attrs", {})
spk = attrs.get("spk", "")
if isinstance(spk, str):
spk = int(spk)
seed = to_number(attrs.get("seed", ""), int, -1)
top_k = to_number(attrs.get("top_k", ""), int, None)
top_p = to_number(attrs.get("top_p", ""), float, None)
temp = to_number(attrs.get("temp", ""), float, None)
prompt1 = attrs.get("prompt1", "")
prompt2 = attrs.get("prompt2", "")
prefix = attrs.get("prefix", "")
disable_normalize = attrs.get("normalize", "") == "False"
params = {
"text": text,
"temperature": temp if temp is not None else 0.3,
"top_P": top_p if top_p is not None else 0.5,
"top_K": top_k if top_k is not None else 20,
"spk": spk if spk else -1,
"infer_seed": seed if seed else -1,
"prompt1": prompt1 if prompt1 else "",
"prompt2": prompt2 if prompt2 else "",
"prefix": prefix if prefix else "",
}
if not disable_normalize:
params["text"] = text_normalize(text, is_end=is_end)
# Set default values for spk and infer_seed
if params["spk"] == -1:
params["spk"] = self.batch_default_spk_seed
if params["infer_seed"] == -1:
params["infer_seed"] = self.batch_default_infer_seed
return params
def bucket_segments(
self, segments: List[Dict[str, Any]]
) -> List[List[Dict[str, Any]]]:
# Create a dictionary to hold buckets
buckets = {}
for segment in segments:
params = self.segment_to_generate_params(segment)
key_params = copy.copy(params)
if isinstance(key_params.get("spk"), Speaker):
key_params["spk"] = str(key_params["spk"].id)
key = json.dumps(
{k: v for k, v in key_params.items() if k != "text"}, sort_keys=True
)
if key not in buckets:
buckets[key] = []
buckets[key].append(segment)
# Convert dictionary to list of buckets
bucket_list = list(buckets.values())
return bucket_list
def synthesize_segments(self, segments: List[Dict[str, Any]]) -> List[AudioSegment]:
audio_segments = [None] * len(
segments
) # Create a list with the same length as segments
buckets = self.bucket_segments(segments)
logger.debug(f"segments len: {len(segments)}")
logger.debug(f"bucket pool size: {len(buckets)}")
for bucket in buckets:
for i in range(0, len(bucket), self.batch_size):
batch = bucket[i : i + self.batch_size]
param_arr = [
self.segment_to_generate_params(segment) for segment in batch
]
texts = [params["text"] for params in param_arr]
params = param_arr[0] # Use the first segment to get the parameters
audio_datas = generate_audio.generate_audio_batch(
texts=texts,
temperature=params["temperature"],
top_P=params["top_P"],
top_K=params["top_K"],
spk=params["spk"],
infer_seed=params["infer_seed"],
prompt1=params["prompt1"],
prompt2=params["prompt2"],
prefix=params["prefix"],
)
for idx, segment in enumerate(batch):
(sr, audio_data) = audio_datas[idx]
rate = float(segment.get("rate", "1.0"))
volume = float(segment.get("volume", "0"))
pitch = float(segment.get("pitch", "0"))
audio_segment = audio_data_to_segment(audio_data, sr)
audio_segment = apply_prosody(audio_segment, rate, volume, pitch)
original_index = segments.index(
segment
) # Get the original index of the segment
audio_segments[original_index] = (
audio_segment # Place the audio_segment in the correct position
)
return audio_segments
def generate_audio_segment(
text: str,
spk: int = -1,
seed: int = -1,
top_p: float = 0.5,
top_k: int = 20,
temp: float = 0.3,
prompt1: str = "",
prompt2: str = "",
prefix: str = "",
enable_normalize=True,
is_end: bool = False,
) -> AudioSegment:
if enable_normalize:
text = text_normalize(text, is_end=is_end)
logger.debug(f"generate segment: {text}")
sample_rate, audio_data = generate_audio.generate_audio(
text=text,
temperature=temp if temp is not None else 0.3,
top_P=top_p if top_p is not None else 0.5,
top_K=top_k if top_k is not None else 20,
spk=spk if spk else -1,
infer_seed=seed if seed else -1,
prompt1=prompt1 if prompt1 else "",
prompt2=prompt2 if prompt2 else "",
prefix=prefix if prefix else "",
)
byte_io = io.BytesIO()
write(byte_io, sample_rate, audio_data)
byte_io.seek(0)
return AudioSegment.from_file(byte_io, format="wav")
def synthesize_segment(segment: Dict[str, Any]) -> Union[AudioSegment, None]:
if "break" in segment:
pause_segment = AudioSegment.silent(duration=segment["break"])
return pause_segment
attrs = segment.get("attrs", {})
text = segment.get("text", "")
is_end = segment.get("is_end", False)
text = str(text).strip()
if text == "":
return None
spk = attrs.get("spk", "")
if isinstance(spk, str):
spk = int(spk)
seed = to_number(attrs.get("seed", ""), int, -1)
top_k = to_number(attrs.get("top_k", ""), int, None)
top_p = to_number(attrs.get("top_p", ""), float, None)
temp = to_number(attrs.get("temp", ""), float, None)
prompt1 = attrs.get("prompt1", "")
prompt2 = attrs.get("prompt2", "")
prefix = attrs.get("prefix", "")
disable_normalize = attrs.get("normalize", "") == "False"
audio_segment = generate_audio_segment(
text,
enable_normalize=not disable_normalize,
spk=spk,
seed=seed,
top_k=top_k,
top_p=top_p,
temp=temp,
prompt1=prompt1,
prompt2=prompt2,
prefix=prefix,
is_end=is_end,
)
rate = float(attrs.get("rate", "1.0"))
volume = float(attrs.get("volume", "0"))
pitch = float(attrs.get("pitch", "0"))
audio_segment = apply_prosody(audio_segment, rate, volume, pitch)
return audio_segment
# 示例使用
if __name__ == "__main__":
ssml_segments = [
{
"text": "大🍌,一条大🍌,嘿,你的感觉真的很奇妙 [lbreak]",
"attrs": {"spk": 2, "temp": 0.1, "seed": 42},
},
{
"text": "大🍉,一个大🍉,嘿,你的感觉真的很奇妙 [lbreak]",
"attrs": {"spk": 2, "temp": 0.1, "seed": 42},
},
{
"text": "大🍌,一条大🍌,嘿,你的感觉真的很奇妙 [lbreak]",
"attrs": {"spk": 2, "temp": 0.3, "seed": 42},
},
]
synthesizer = SynthesizeSegments(batch_size=2)
audio_segments = synthesizer.synthesize_segments(ssml_segments)
combined_audio = combine_audio_segments(audio_segments)
combined_audio.export("output.wav", format="wav")
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