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import streamlit as st
import soundfile as sf
import os, re
import torch
from datautils import *
from model import Generator as Glow_model
from Hmodel import Generator as GAN_model
st.set_page_config(
page_title = "μμ Team Demo",
page_icon = "π",
)
class TTS:
def __init__(self, model_variant):
global device
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
torch.cuda.manual_seed(1234) if torch.cuda.is_available() else None
self.flowgenerator = Glow_model(n_vocab = 70, h_c= 192, f_c = 768, f_c_dp = 256, out_c = 80, k_s = 3, k_s_dec = 5, heads=2, layers_enc = 6).to(device)
self.voicegenerator = GAN_model().to(device)
if model_variant == 'μμ':
name = '1038_eunsik_01'
last_chpt1 = './log/1038_eunsik_01/Glow_TTS_00289602.pt'
check_point = torch.load(last_chpt1, map_location = device)
self.flowgenerator.load_state_dict(check_point['generator'])
self.flowgenerator.decoder.skip()
self.flowgenerator.eval()
if model_variant == 'μμ':
name = '1038_eunsik_01'
last_chpt2 = './log/1038_eunsik_01/HiFI_GAN_00257000.pt'
check_point = torch.load(last_chpt2, map_location = device)
self.voicegenerator.load_state_dict(check_point['gen_model'])
self.voicegenerator.eval()
self.voicegenerator.remove_weight_norm()
def inference(self, input_text):
filters = '([.,!?])'
sentence = re.sub(re.compile(filters), '', input_text)
x = text_to_sequence(sentence)
x = torch.autograd.Variable(torch.tensor(x).unsqueeze(0)).to(device).long()
x_length = torch.tensor(x.shape[1]).unsqueeze(0).to(device)
with torch.no_grad():
noise_scale = .667
length_scale = 1.0
(y_gen_tst, *_), *_, (attn_gen, *_) = self.flowgenerator(x, x_length, gen = True, noise_scale = noise_scale, length_scale = length_scale)
y = self.voicegenerator(y_gen_tst)
audio = y.squeeze() * 32768.0
voice = audio.cpu().numpy().astype('int16')
return voice
def init_session_state():
# Model
if "init_model" not in st.session_state:
st.session_state.init_model = True
st.session_state.model_variant = "μμ"
st.session_state.TTS = TTS("μμ")
def update_model():
if st.session_state.model_variant == "KSS":
st.session_state.TTS = TTS("KSS")
elif st.session_state.model_variant == "μμ":
st.session_state.TTS = TTS("μμ")
def update_session_state(state_id, state_value):
st.session_state[f"{state_id}"] = state_value
def centered_text(input_text, mode = "h1",):
st.markdown(
f"<{mode} style='text-align: center;'>{input_text}</{mode}>", unsafe_allow_html = True)
def generate_voice(input_text):
# TTS Inference
voice = st.session_state.TTS.inference(input_text)
# Save audio (bug in Streamlit, can't play numpy array directly)
sf.write(f"cache_sound/new_generated.wav", voice, 22050)
# Play audio
st.audio(f"cache_sound/new_generated.wav", format = "audio/wav")
os.remove(f"cache_sound/new_generated.wav")
st.caption("Generated Voice")
init_session_state()
centered_text("π μμ Team Demo")
centered_text("mel generator : Glow-TTS, vocoder : HiFi-GAN", "h5")
st.write(" ")
mode = "p"
st.markdown(
f"<{mode} style='text-align: left;'><small>This is a demo trained by our vocie. The voice \"KSS\" is traind 3 times \"μμ\" is finetuned from \"KSS\" for 3 times We got this deomoformat from Nix-TTS Interactive Demo</small></{mode}>",
unsafe_allow_html = True
)
st.write(" ")
st.write(" ")
col1, col2 = st.columns(2)
with col1:
input_text = st.text_input(
"νκΈλ‘λ§ μ
λ ₯ν΄μ£ΌμΈμ",
value = "λ₯λ¬λμ μ λ§ μ¬λ°μ΄!",
)
with col2:
model_variant = st.selectbox("λͺ©μ리 μ νν΄μ£ΌμΈμ", options = ["KSS", "μμ"], index = 1)
if model_variant != st.session_state.model_variant:
# Update variant choice
update_session_state("model_variant", model_variant)
# Re-load model
update_model()
button_gen = st.button("Generate Voice")
if button_gen == True:
generate_voice(input_text)
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