MockingBird/control/mkgui/app.py
babysor00 e469bd06ae init
2023-02-01 19:59:15 +08:00

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from pydantic import BaseModel, Field
import os
from pathlib import Path
from enum import Enum
from models.encoder import inference as encoder
import librosa
from scipy.io.wavfile import write
import re
import numpy as np
from control.mkgui.base.components.types import FileContent
from models.vocoder.hifigan import inference as gan_vocoder
from models.synthesizer.inference import Synthesizer
from typing import Any, Tuple
import matplotlib.pyplot as plt
# Constants
AUDIO_SAMPLES_DIR = f"data{os.sep}samples{os.sep}"
SYN_MODELS_DIRT = f"data{os.sep}ckpt{os.sep}synthesizer"
ENC_MODELS_DIRT = f"data{os.sep}ckpt{os.sep}encoder"
VOC_MODELS_DIRT = f"data{os.sep}ckpt{os.sep}vocoder"
TEMP_SOURCE_AUDIO = f"wavs{os.sep}temp_source.wav"
TEMP_RESULT_AUDIO = f"wavs{os.sep}temp_result.wav"
if not os.path.isdir("wavs"):
os.makedirs("wavs")
# Load local sample audio as options TODO: load dataset
if os.path.isdir(AUDIO_SAMPLES_DIR):
audio_input_selection = Enum('samples', list((file.name, file) for file in Path(AUDIO_SAMPLES_DIR).glob("*.wav")))
# Pre-Load models
if os.path.isdir(SYN_MODELS_DIRT):
synthesizers = Enum('synthesizers', list((file.name, file) for file in Path(SYN_MODELS_DIRT).glob("**/*.pt")))
print("Loaded synthesizer models: " + str(len(synthesizers)))
else:
raise Exception(f"Model folder {SYN_MODELS_DIRT} doesn't exist. 请将模型文件位置移动到上述位置中进行重试!")
if os.path.isdir(ENC_MODELS_DIRT):
encoders = Enum('encoders', list((file.name, file) for file in Path(ENC_MODELS_DIRT).glob("**/*.pt")))
print("Loaded encoders models: " + str(len(encoders)))
else:
raise Exception(f"Model folder {ENC_MODELS_DIRT} doesn't exist.")
if os.path.isdir(VOC_MODELS_DIRT):
vocoders = Enum('vocoders', list((file.name, file) for file in Path(VOC_MODELS_DIRT).glob("**/*gan*.pt")))
print("Loaded vocoders models: " + str(len(synthesizers)))
else:
raise Exception(f"Model folder {VOC_MODELS_DIRT} doesn't exist.")
class Input(BaseModel):
message: str = Field(
..., example="欢迎使用工具箱, 现已支持中文输入!", alias="文本内容"
)
local_audio_file: audio_input_selection = Field(
..., alias="选择语音本地wav",
description="选择本地语音文件."
)
record_audio_file: FileContent = Field(default=None, alias="录制语音",
description="录音.", is_recorder=True, mime_type="audio/wav")
upload_audio_file: FileContent = Field(default=None, alias="或上传语音",
description="拖拽或点击上传.", mime_type="audio/wav")
encoder: encoders = Field(
..., alias="编码模型",
description="选择语音编码模型文件."
)
synthesizer: synthesizers = Field(
..., alias="合成模型",
description="选择语音合成模型文件."
)
vocoder: vocoders = Field(
..., alias="语音解码模型",
description="选择语音解码模型文件(目前只支持HifiGan类型)."
)
class AudioEntity(BaseModel):
content: bytes
mel: Any
class Output(BaseModel):
__root__: Tuple[AudioEntity, AudioEntity]
def render_output_ui(self, streamlit_app, input) -> None: # type: ignore
"""Custom output UI.
If this method is implmeneted, it will be used instead of the default Output UI renderer.
"""
src, result = self.__root__
streamlit_app.subheader("Synthesized Audio")
streamlit_app.audio(result.content, format="audio/wav")
fig, ax = plt.subplots()
ax.imshow(src.mel, aspect="equal", interpolation="none")
ax.set_title("mel spectrogram(Source Audio)")
streamlit_app.pyplot(fig)
fig, ax = plt.subplots()
ax.imshow(result.mel, aspect="equal", interpolation="none")
ax.set_title("mel spectrogram(Result Audio)")
streamlit_app.pyplot(fig)
def synthesize(input: Input) -> Output:
"""synthesize(合成)"""
# load models
encoder.load_model(Path(input.encoder.value))
current_synt = Synthesizer(Path(input.synthesizer.value))
gan_vocoder.load_model(Path(input.vocoder.value))
# load file
if input.record_audio_file != None:
with open(TEMP_SOURCE_AUDIO, "w+b") as f:
f.write(input.record_audio_file.as_bytes())
f.seek(0)
wav, sample_rate = librosa.load(TEMP_SOURCE_AUDIO)
elif input.upload_audio_file != None:
with open(TEMP_SOURCE_AUDIO, "w+b") as f:
f.write(input.upload_audio_file.as_bytes())
f.seek(0)
wav, sample_rate = librosa.load(TEMP_SOURCE_AUDIO)
else:
wav, sample_rate = librosa.load(input.local_audio_file.value)
write(TEMP_SOURCE_AUDIO, sample_rate, wav) #Make sure we get the correct wav
source_spec = Synthesizer.make_spectrogram(wav)
# preprocess
encoder_wav = encoder.preprocess_wav(wav, sample_rate)
embed, _, _ = encoder.embed_utterance(encoder_wav, return_partials=True)
# Load input text
texts = filter(None, input.message.split("\n"))
punctuation = '!,。、,' # punctuate and split/clean text
processed_texts = []
for text in texts:
for processed_text in re.sub(r'[{}]+'.format(punctuation), '\n', text).split('\n'):
if processed_text:
processed_texts.append(processed_text.strip())
texts = processed_texts
# synthesize and vocode
embeds = [embed] * len(texts)
specs = current_synt.synthesize_spectrograms(texts, embeds)
spec = np.concatenate(specs, axis=1)
sample_rate = Synthesizer.sample_rate
wav, sample_rate = gan_vocoder.infer_waveform(spec)
# write and output
write(TEMP_RESULT_AUDIO, sample_rate, wav) #Make sure we get the correct wav
with open(TEMP_SOURCE_AUDIO, "rb") as f:
source_file = f.read()
with open(TEMP_RESULT_AUDIO, "rb") as f:
result_file = f.read()
return Output(__root__=(AudioEntity(content=source_file, mel=source_spec), AudioEntity(content=result_file, mel=spec)))