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import gradio as gr
import pandas as pd
from langdetect import detect
from datasets import load_dataset
import threading, time, uuid, sqlite3, shutil, os, random, asyncio, threading
from pathlib import Path
from huggingface_hub import CommitScheduler, delete_file, hf_hub_download
from gradio_client import Client, file
import pyloudnorm as pyln
import soundfile as sf
import librosa
from detoxify import Detoxify
import os
import tempfile
from pydub import AudioSegment
import itertools
from typing import List, Tuple, Set, Dict
from hashlib import md5, sha1
class User:
def __init__(self, user_id: str):
self.user_id = user_id
self.voted_pairs: Set[Tuple[str, str]] = set()
class Sample:
def __init__(self, filename: str, transcript: str, modelName: str):
self.filename = filename
self.transcript = transcript
self.modelName = modelName
def match_target_amplitude(sound, target_dBFS):
change_in_dBFS = target_dBFS - sound.dBFS
return sound.apply_gain(change_in_dBFS)
# from gradio_space_ci import enable_space_ci
# enable_space_ci()
toxicity = Detoxify('original')
sents = []
with open('harvard_sentences.txt') as f:
sents += f.read().strip().splitlines()
with open('llama3_command-r_sentences.txt') as f:
sents += f.read().strip().splitlines()
####################################
# Constants
####################################
AVAILABLE_MODELS = {
# 'XTTSv2': 'xtts',
# 'WhisperSpeech': 'whisperspeech',
# 'ElevenLabs': 'eleven',
# 'OpenVoice': 'openvoice',
# 'OpenVoice V2': 'openvoicev2',
# 'Play.HT 2.0': 'playht',
# 'MetaVoice': 'metavoice',
# 'MeloTTS': 'melo',
# 'StyleTTS 2': 'styletts2',
# 'GPT-SoVITS': 'sovits',
# 'Vokan TTS': 'vokan',
# 'VoiceCraft 2.0': 'voicecraft',
# 'Parler TTS': 'parler'
# HF Gradio Spaces:
'coqui/xtts': 'coqui/xtts',
# 'collabora/WhisperSpeech': 'collabora/WhisperSpeech', # old gradio?
'myshell-ai/OpenVoice': 'myshell-ai/OpenVoice', # 4.29.0
'myshell-ai/OpenVoiceV2': 'myshell-ai/OpenVoiceV2', # 4.29.0
'mrfakename/MetaVoice-1B-v0.1': 'mrfakename/MetaVoice-1B-v0.1', # 4.29.0
#'Pendrokar/xVASynth-TTS': 'Pendrokar/xVASynth-TTS', # EN-GB 4.29.0 4.42.0
# 'coqui/CoquiTTS': 'coqui/CoquiTTS',
'LeeSangHoon/HierSpeech_TTS': 'LeeSangHoon/HierSpeech_TTS', # 4.29.0
'mrfakename/MeloTTS': 'mrfakename/MeloTTS', # 4.29.0
# Parler
'parler-tts/parler_tts': 'parler-tts/parler_tts', # 4.29.0 4.42.0
'parler-tts/parler-tts-expresso': 'parler-tts/parler-tts-expresso', # 4.29.0 4.42.0
# Microsoft Edge TTS
'innoai/Edge-TTS-Text-to-Speech': 'innoai/Edge-TTS-Text-to-Speech',
# TTS w issues
# 'PolyAI/pheme': '/predict#0', # sleepy HF Space
# 'amphion/Text-to-Speech': '/predict#0', # old running space, takes a whole minute to synthesize
# 'suno/bark': '3#0', # Hallucinates
# 'shivammehta25/Matcha-TTS': '5#0', # seems to require multiple requests for setup
# 'styletts2/styletts2': '0#0', # API disabled
# 'Manmay/tortoise-tts': '/predict#0', # Cannot skip text-from-file parameter
# 'pytorch/Tacotron2': '0#0', # old gradio
# 'parler-tts/parler_tts_mini': 'parler-tts/parler_tts_mini', # old gradio - ValueError: Unsupported protocol: sse_v3
}
HF_SPACES = {
# XTTS v2
'coqui/xtts': {
'name': 'XTTS v2',
'function': '1',
'text_param_index': 0,
'return_audio_index': 1,
},
# WhisperSpeech
'collabora/WhisperSpeech': {
'name': 'WhisperSpeech',
'function': '/whisper_speech_demo',
'text_param_index': 0,
'return_audio_index': 0,
},
# OpenVoice (MyShell.ai)
'myshell-ai/OpenVoice': {
'name':'OpenVoice',
'function': '1',
'text_param_index': 0,
'return_audio_index': 1,
},
# OpenVoice v2 (MyShell.ai)
'myshell-ai/OpenVoiceV2': {
'name':'OpenVoice v2',
'function': '1',
'text_param_index': 0,
'return_audio_index': 1,
},
# MetaVoice
'mrfakename/MetaVoice-1B-v0.1': {
'name':'MetaVoice',
'function': '/tts',
'text_param_index': 0,
'return_audio_index': 0,
},
# xVASynth (CPU)
'Pendrokar/xVASynth-TTS': {
'name': 'xVASynth v3',
'function': '/predict',
'text_param_index': 0,
'return_audio_index': 0,
},
# CoquiTTS (CPU)
'coqui/CoquiTTS': {
'name': 'CoquiTTS',
'function': '0',
'text_param_index': 0,
'return_audio_index': 0,
},
# HierSpeech_TTS
'LeeSangHoon/HierSpeech_TTS': {
'name': 'HierSpeech++',
'function': '/predict',
'text_param_index': 0,
'return_audio_index': 0,
},
# MeloTTS (MyShell.ai)
'mrfakename/MeloTTS': {
'name': 'MeloTTS',
'function': '/synthesize',
'text_param_index': 0,
'return_audio_index': 0,
},
# Parler
'parler-tts/parler_tts': {
'name': 'Parler',
'function': '/gen_tts',
'text_param_index': 0,
'return_audio_index': 0,
},
# Parler
'parler-tts/parler_tts_mini': {
'name': 'Parler Mini',
'function': '/gen_tts',
'text_param_index': 0,
'return_audio_index': 0,
},
# Parler, using Expresso dataset
'parler-tts/parler-tts-expresso': {
'name': 'Parler Expresso',
'function': '/gen_tts',
'text_param_index': 0,
'return_audio_index': 0,
},
# Microsoft Edge TTS
'innoai/Edge-TTS-Text-to-Speech': {
'name': 'Edge TTS',
'function': '/predict',
'text_param_index': 0,
'return_audio_index': 0,
},
# TTS w issues
# 'PolyAI/pheme': '/predict#0', #sleepy HF Space
# 'amphion/Text-to-Speech': '/predict#0', #takes a whole minute to synthesize
# 'suno/bark': '3#0', # Hallucinates
# 'shivammehta25/Matcha-TTS': '5#0', #seems to require multiple requests for setup
# 'styletts2/styletts2': '0#0', #API disabled
# 'Manmay/tortoise-tts': '/predict#0', #Cannot skip text-from-file parameter
# 'pytorch/Tacotron2': '0#0', #old gradio
# 'fishaudio/fish-speech-1': '/inference_wrapper#0', heavy hallucinations
}
# for zero-shot TTS - voice sample of Scarlett Johanson
DEFAULT_VOICE_SAMPLE_STR = 'https://cdn-uploads.huggingface.co/production/uploads/641de0213239b631552713e4/iKHHqWxWy6Zfmp6QP6CZZ.wav'
DEFAULT_VOICE_SAMPLE = file(DEFAULT_VOICE_SAMPLE_STR)
OVERRIDE_INPUTS = {
'coqui/xtts': {
1: 'en',
2: DEFAULT_VOICE_SAMPLE_STR, # voice sample
3: DEFAULT_VOICE_SAMPLE_STR, # voice sample
4: False, #use_mic
5: False, #cleanup_reference
6: False, #auto_detect
},
'collabora/WhisperSpeech': {
1: DEFAULT_VOICE_SAMPLE, # voice sample
2: DEFAULT_VOICE_SAMPLE, # voice sample URL
3: 14.0, #Tempo - Gradio Slider issue: takes min. rather than value
},
'myshell-ai/OpenVoice': {
1: 'default', # style
2: DEFAULT_VOICE_SAMPLE_STR, # voice sample
},
'myshell-ai/OpenVoiceV2': {
1: 'en_default', # style
2: DEFAULT_VOICE_SAMPLE_STR, # voice sample
},
'PolyAI/pheme': {
1: 'YOU1000000044_S0000798', # voice
2: 210,
3: 0.7, #Tempo - Gradio Slider issue: takes min. rather than value
},
'Pendrokar/xVASynth-TTS': {
1: 'ccby_nvidia_hifi_92_F', #fine-tuned voice model name; #92 BRITISH
3: 1.0, #pacing/duration - Gradio Slider issue: takes min. rather than value
},
'suno/bark': {
1: 'Speaker 3 (en)', # voice
},
'amphion/Text-to-Speech': {
1: 'LikeManyWaters', # voice
},
'LeeSangHoon/HierSpeech_TTS': {
1: DEFAULT_VOICE_SAMPLE, # voice sample
2: 0.333,
3: 0.333,
4: 1,
5: 1,
6: 0,
7: 1111,
},
'Manmay/tortoise-tts': {
1: None, # text-from-file; cannot skip and doesn't work without
2: 'angie', # voice
3: None,
4: 'No',
},
'mrfakename/MeloTTS': {
1: 'EN-Default', # speaker; DEFAULT_VOICE_SAMPLE=EN-Default
2: 1, # speed
3: 'EN', # language
},
'parler-tts/parler_tts': {
1: 'Elisabeth. Elisabeth\'s clear sharp voice.', # description/prompt
},
'parler-tts/parler-tts-expresso': {
1: 'Elisabeth. Elisabeth\'s clear sharp voice.', # description/prompt
},
'innoai/Edge-TTS-Text-to-Speech': {
1: 'en-US-EmmaMultilingualNeural - en-US (Female)', # voice
2: 0, # pace rate
3: 0, # pitch
},
}
hf_clients = {}
# cache audio samples for quick voting
cached_samples: List[Sample] = []
voting_users = {
# userid as the key and USER() as the value
}
def generate_matching_pairs(samples: List[Sample]) -> List[Tuple[Sample, Sample]]:
transcript_groups: Dict[str, List[Sample]] = {}
for sample in samples:
if sample.transcript not in transcript_groups:
transcript_groups[sample.transcript] = []
transcript_groups[sample.transcript].append(sample)
matching_pairs: List[Tuple[Sample, Sample]] = []
for group in transcript_groups.values():
matching_pairs.extend(list(itertools.combinations(group, 2)))
return matching_pairs
# List[Tuple[Sample, Sample]]
all_pairs = []
SPACE_ID = os.getenv('SPACE_ID')
MAX_SAMPLE_TXT_LENGTH = 300
MIN_SAMPLE_TXT_LENGTH = 10
DB_DATASET_ID = os.getenv('DATASET_ID')
DB_NAME = "database.db"
SPACE_ID = 'TTS-AGI/TTS-Arena'
# If /data available => means local storage is enabled => let's use it!
DB_PATH = f"/data/{DB_NAME}" if os.path.isdir("/data") else DB_NAME
print(f"Using {DB_PATH}")
# AUDIO_DATASET_ID = "ttseval/tts-arena-new"
CITATION_TEXT = """@misc{tts-arena,
title = {Text to Speech Arena},
author = {mrfakename and Srivastav, Vaibhav and Fourrier, ClΓ©mentine and Pouget, Lucain and Lacombe, Yoach and main and Gandhi, Sanchit},
year = 2024,
publisher = {Hugging Face},
howpublished = "\\url{https://huggingface.co/spaces/TTS-AGI/TTS-Arena}"
}"""
####################################
# Functions
####################################
def create_db_if_missing():
conn = get_db()
cursor = conn.cursor()
cursor.execute('''
CREATE TABLE IF NOT EXISTS model (
name TEXT UNIQUE,
upvote INTEGER,
downvote INTEGER
);
''')
cursor.execute('''
CREATE TABLE IF NOT EXISTS vote (
id INTEGER PRIMARY KEY AUTOINCREMENT,
username TEXT,
model TEXT,
vote INTEGER,
timestamp TIMESTAMP DEFAULT CURRENT_TIMESTAMP
);
''')
cursor.execute('''
CREATE TABLE IF NOT EXISTS votelog (
id INTEGER PRIMARY KEY AUTOINCREMENT,
username TEXT,
chosen TEXT,
rejected TEXT,
timestamp TIMESTAMP DEFAULT CURRENT_TIMESTAMP
);
''')
cursor.execute('''
CREATE TABLE IF NOT EXISTS spokentext (
id INTEGER PRIMARY KEY AUTOINCREMENT,
spokentext TEXT,
timestamp TIMESTAMP DEFAULT CURRENT_TIMESTAMP
);
''')
def get_db():
return sqlite3.connect(DB_PATH)
####################################
# Space initialization
####################################
# Download existing DB
if not os.path.isfile(DB_PATH):
print("Downloading DB...")
try:
cache_path = hf_hub_download(repo_id=DB_DATASET_ID, repo_type='dataset', filename=DB_NAME)
shutil.copyfile(cache_path, DB_PATH)
print("Downloaded DB")
except Exception as e:
print("Error while downloading DB:", e)
# Create DB table (if doesn't exist)
create_db_if_missing()
hf_token = os.getenv('HF_TOKEN')
# Sync local DB with remote repo every 5 minute (only if a change is detected)
scheduler = CommitScheduler(
repo_id=DB_DATASET_ID,
repo_type="dataset",
folder_path=Path(DB_PATH).parent,
every=5,
allow_patterns=DB_NAME,
)
# Load audio dataset
# audio_dataset = load_dataset(AUDIO_DATASET_ID)
####################################
# Router API
####################################
# router = Client("TTS-AGI/tts-router", hf_token=hf_token)
router = {}
####################################
# Gradio app
####################################
MUST_BE_LOGGEDIN = "Please login with Hugging Face to participate in the TTS Arena."
DESCR = """
# TTS Arena: Benchmarking TTS Models in the Wild
Vote to help the community find the best available text-to-speech model!
""".strip()
# INSTR = """
# ## Instructions
# * Listen to two anonymous models
# * Vote on which synthesized audio sounds more natural to you
# * If there's a tie, click Skip
# **When you're ready to begin, login and begin voting!** The model names will be revealed once you vote.
# """.strip()
INSTR = """
## π³οΈ Vote
* Input text (English only) to synthesize audio.
* Press β‘ to get cached samples you have yet to vote on. Fast.
* Press π² to randomly select text for a list. Slow.
* Listen to the two audio clips, one after the other.
* Vote on which audio sounds more natural to you.
* _Note: Model names are revealed after the vote is cast._
Note: It may take up to 30 seconds to synthesize audio.
""".strip()
request = ''
if SPACE_ID:
request = f"""
### Request a model
Please [create a Discussion](https://huggingface.co/spaces/{SPACE_ID}/discussions/new) to request a model.
"""
ABOUT = f"""
## π About
The TTS Arena evaluates leading speech synthesis models. It is inspired by LMsys's [Chatbot Arena](https://chat.lmsys.org/).
### Motivation
The field of speech synthesis has long lacked an accurate method to measure the quality of different models. Objective metrics like WER (word error rate) are unreliable measures of model quality, and subjective measures such as MOS (mean opinion score) are typically small-scale experiments conducted with few listeners. As a result, these measurements are generally not useful for comparing two models of roughly similar quality. To address these drawbacks, we are inviting the community to rank models in an easy-to-use interface, and opening it up to the public in order to make both the opportunity to rank models, as well as the results, more easily accessible to everyone.
### The Arena
The leaderboard allows a user to enter text, which will be synthesized by two models. After listening to each sample, the user can vote on which model sounds more natural. Due to the risks of human bias and abuse, model names are revealed only after a vote is submitted.
### Credits
Thank you to the following individuals who helped make this project possible:
* VB ([Twitter](https://twitter.com/reach_vb) / [Hugging Face](https://huggingface.co/reach-vb))
* ClΓ©mentine Fourrier ([Twitter](https://twitter.com/clefourrier) / [Hugging Face](https://huggingface.co/clefourrier))
* Lucain Pouget ([Twitter](https://twitter.com/Wauplin) / [Hugging Face](https://huggingface.co/Wauplin))
* Yoach Lacombe ([Twitter](https://twitter.com/yoachlacombe) / [Hugging Face](https://huggingface.co/ylacombe))
* Main Horse ([Twitter](https://twitter.com/main_horse) / [Hugging Face](https://huggingface.co/main-horse))
* Sanchit Gandhi ([Twitter](https://twitter.com/sanchitgandhi99) / [Hugging Face](https://huggingface.co/sanchit-gandhi))
* ApolinΓ‘rio Passos ([Twitter](https://twitter.com/multimodalart) / [Hugging Face](https://huggingface.co/multimodalart))
* Pedro Cuenca ([Twitter](https://twitter.com/pcuenq) / [Hugging Face](https://huggingface.co/pcuenq))
{request}
### Privacy statement
We may store text you enter and generated audio. We store a unique ID for each session. You agree that we may collect, share, and/or publish any data you input for research and/or commercial purposes.
### License
Generated audio clips cannot be redistributed and may be used for personal, non-commercial use only.
Random sentences are sourced from a filtered subset of the [Harvard Sentences](https://www.cs.columbia.edu/~hgs/audio/harvard.html).
""".strip()
LDESC = """
## π Leaderboard
Vote to help the community determine the best text-to-speech (TTS) models.
The leaderboard displays models in descending order of how natural they sound (based on votes cast by the community).
Important: In order to help keep results fair, the leaderboard hides results by default until the number of votes passes a threshold. Tick the `Reveal preliminary results` to show models without sufficient votes. Please note that preliminary results may be inaccurate.
""".strip()
# def reload_audio_dataset():
# global audio_dataset
# audio_dataset = load_dataset(AUDIO_DATASET_ID)
# return 'Reload Audio Dataset'
def del_db(txt):
if not txt.lower() == 'delete db':
raise gr.Error('You did not enter "delete db"')
# Delete local + remote
os.remove(DB_PATH)
delete_file(path_in_repo=DB_NAME, repo_id=DB_DATASET_ID, repo_type='dataset')
# Recreate
create_db_if_missing()
return 'Delete DB'
theme = gr.themes.Base(
font=[gr.themes.GoogleFont('Libre Franklin'), gr.themes.GoogleFont('Public Sans'), 'system-ui', 'sans-serif'],
)
model_names = {
'styletts2': 'StyleTTS 2',
'tacotron': 'Tacotron',
'tacotronph': 'Tacotron Phoneme',
'tacotrondca': 'Tacotron DCA',
'speedyspeech': 'Speedy Speech',
'overflow': 'Overflow TTS',
'vits': 'VITS',
'vitsneon': 'VITS Neon',
'neuralhmm': 'Neural HMM',
'glow': 'Glow TTS',
'fastpitch': 'FastPitch',
'jenny': 'Jenny',
'tortoise': 'Tortoise TTS',
'xtts2': 'Coqui XTTSv2',
'xtts': 'Coqui XTTS',
'openvoice': 'MyShell OpenVoice',
'elevenlabs': 'ElevenLabs',
'openai': 'OpenAI',
'hierspeech': 'HierSpeech++',
'pheme': 'PolyAI Pheme',
'speecht5': 'SpeechT5',
'metavoice': 'MetaVoice-1B',
}
model_licenses = {
'styletts2': 'MIT',
'tacotron': 'BSD-3',
'tacotronph': 'BSD-3',
'tacotrondca': 'BSD-3',
'speedyspeech': 'BSD-3',
'overflow': 'MIT',
'vits': 'MIT',
'openvoice': 'MIT',
'vitsneon': 'BSD-3',
'neuralhmm': 'MIT',
'glow': 'MIT',
'fastpitch': 'Apache 2.0',
'jenny': 'Jenny License',
'tortoise': 'Apache 2.0',
'xtts2': 'CPML (NC)',
'xtts': 'CPML (NC)',
'elevenlabs': 'Proprietary',
'eleven': 'Proprietary',
'openai': 'Proprietary',
'hierspeech': 'MIT',
'pheme': 'CC-BY',
'speecht5': 'MIT',
'metavoice': 'Apache 2.0',
'elevenlabs': 'Proprietary',
'whisperspeech': 'MIT',
'Pendrokar/xVASynth': 'GPT3',
}
model_links = {
'styletts2': 'https://github.com/yl4579/StyleTTS2',
'tacotron': 'https://github.com/NVIDIA/tacotron2',
'speedyspeech': 'https://github.com/janvainer/speedyspeech',
'overflow': 'https://github.com/shivammehta25/OverFlow',
'vits': 'https://github.com/jaywalnut310/vits',
'openvoice': 'https://github.com/myshell-ai/OpenVoice',
'neuralhmm': 'https://github.com/ketranm/neuralHMM',
'glow': 'https://github.com/jaywalnut310/glow-tts',
'fastpitch': 'https://fastpitch.github.io/',
'tortoise': 'https://github.com/neonbjb/tortoise-tts',
'xtts2': 'https://huggingface.co/coqui/XTTS-v2',
'xtts': 'https://huggingface.co/coqui/XTTS-v1',
'elevenlabs': 'https://elevenlabs.io/',
'openai': 'https://help.openai.com/en/articles/8555505-tts-api',
'hierspeech': 'https://github.com/sh-lee-prml/HierSpeechpp',
'pheme': 'https://github.com/PolyAI-LDN/pheme',
'speecht5': 'https://github.com/microsoft/SpeechT5',
'metavoice': 'https://github.com/metavoiceio/metavoice-src',
}
# def get_random_split(existing_split=None):
# choice = random.choice(list(audio_dataset.keys()))
# if existing_split and choice == existing_split:
# return get_random_split(choice)
# else:
# return choice
# def get_random_splits():
# choice1 = get_random_split()
# choice2 = get_random_split(choice1)
# return (choice1, choice2)
def model_license(name):
print(name)
for k, v in AVAILABLE_MODELS.items():
if k == name:
if v in model_licenses:
return model_licenses[v]
print('---')
return 'Unknown'
def get_leaderboard(reveal_prelim = False):
conn = get_db()
cursor = conn.cursor()
sql = 'SELECT name, upvote, downvote FROM model'
# if not reveal_prelim: sql += ' WHERE EXISTS (SELECT 1 FROM model WHERE (upvote + downvote) > 750)'
if not reveal_prelim: sql += ' WHERE (upvote + downvote) > 500'
cursor.execute(sql)
data = cursor.fetchall()
df = pd.DataFrame(data, columns=['name', 'upvote', 'downvote'])
# df['license'] = df['name'].map(model_license)
df['name'] = df['name'].replace(model_names)
for i in range(len(df)):
df.loc[i, "name"] = make_link_to_space(df['name'][i])
df['votes'] = df['upvote'] + df['downvote']
# df['score'] = round((df['upvote'] / df['votes']) * 100, 2) # Percentage score
## ELO SCORE
df['score'] = 1200
for i in range(len(df)):
for j in range(len(df)):
if i != j:
expected_a = 1 / (1 + 10 ** ((df['score'][j] - df['score'][i]) / 400))
expected_b = 1 / (1 + 10 ** ((df['score'][i] - df['score'][j]) / 400))
actual_a = df['upvote'][i] / df['votes'][i]
actual_b = df['upvote'][j] / df['votes'][j]
df.at[i, 'score'] += round(32 * (actual_a - expected_a))
df.at[j, 'score'] += round(32 * (actual_b - expected_b))
df['score'] = round(df['score'])
## ELO SCORE
df = df.sort_values(by='score', ascending=False)
df['order'] = ['#' + str(i + 1) for i in range(len(df))]
# df = df[['name', 'score', 'upvote', 'votes']]
# df = df[['order', 'name', 'score', 'license', 'votes']]
df = df[['order', 'name', 'score', 'votes']]
return df
def make_link_to_space(model_name):
# create a anchor link if a HF space
style = 'text-decoration: underline;text-decoration-style: dotted;'
title = ''
# bolden actual name
# model_name_split = model_name.split('/')
# model_name_split = model_name_split[:-1].join('/') +'/<strong>'+ model_name_split[-1] +'</strong>'
if model_name in AVAILABLE_MODELS:
style += 'color: var(--link-text-color);'
title = model_name
else:
style += 'font-style: italic;'
title = 'Disabled for Arena'
model_basename = model_name
if model_name in HF_SPACES:
model_basename = HF_SPACES[model_name]['name']
if '/' in model_name:
return 'π€ <a target="_top" style="'+ style +'" title="'+ title +'" href="'+ 'https://huggingface.co/spaces/'+ model_name +'">'+ model_basename +'</a>'
# otherwise just return the model name
return model_name
def markdown_link_to_space(model_name):
# create a anchor link if a HF space using markdown syntax
if '/' in model_name:
return 'π€ [' + model_name + '](https://huggingface.co/spaces/' + model_name + ')'
# otherwise just return the model name
return model_name
def mkuuid(uid):
if not uid:
uid = uuid.uuid4()
return uid
def upvote_model(model, uname):
conn = get_db()
cursor = conn.cursor()
cursor.execute('UPDATE model SET upvote = upvote + 1 WHERE name = ?', (model,))
if cursor.rowcount == 0:
cursor.execute('INSERT OR REPLACE INTO model (name, upvote, downvote) VALUES (?, 1, 0)', (model,))
cursor.execute('INSERT INTO vote (username, model, vote) VALUES (?, ?, ?)', (uname, model, 1,))
with scheduler.lock:
conn.commit()
cursor.close()
def log_text(text):
conn = get_db()
cursor = conn.cursor()
cursor.execute('INSERT INTO spokentext (spokentext) VALUES (?)', (text,))
with scheduler.lock:
conn.commit()
cursor.close()
def downvote_model(model, uname):
conn = get_db()
cursor = conn.cursor()
cursor.execute('UPDATE model SET downvote = downvote + 1 WHERE name = ?', (model,))
if cursor.rowcount == 0:
cursor.execute('INSERT OR REPLACE INTO model (name, upvote, downvote) VALUES (?, 0, 1)', (model,))
cursor.execute('INSERT INTO vote (username, model, vote) VALUES (?, ?, ?)', (uname, model, -1,))
with scheduler.lock:
conn.commit()
cursor.close()
def a_is_better(model1, model2, userid):
print("A is better", model1, model2)
if not model1 in AVAILABLE_MODELS.keys() and not model1 in AVAILABLE_MODELS.values():
raise gr.Error('Sorry, please try voting again.')
userid = mkuuid(userid)
if model1 and model2:
conn = get_db()
cursor = conn.cursor()
cursor.execute('INSERT INTO votelog (username, chosen, rejected) VALUES (?, ?, ?)', (str(userid), model1, model2,))
with scheduler.lock:
conn.commit()
cursor.close()
upvote_model(model1, str(userid))
downvote_model(model2, str(userid))
return reload(model1, model2, userid, chose_a=True)
def b_is_better(model1, model2, userid):
print("B is better", model1, model2)
if not model1 in AVAILABLE_MODELS.keys() and not model1 in AVAILABLE_MODELS.values():
raise gr.Error('Sorry, please try voting again.')
userid = mkuuid(userid)
if model1 and model2:
conn = get_db()
cursor = conn.cursor()
cursor.execute('INSERT INTO votelog (username, chosen, rejected) VALUES (?, ?, ?)', (str(userid), model2, model1,))
with scheduler.lock:
conn.commit()
cursor.close()
upvote_model(model2, str(userid))
downvote_model(model1, str(userid))
return reload(model1, model2, userid, chose_b=True)
def both_bad(model1, model2, userid):
userid = mkuuid(userid)
if model1 and model2:
downvote_model(model1, str(userid))
downvote_model(model2, str(userid))
return reload(model1, model2, userid)
def both_good(model1, model2, userid):
userid = mkuuid(userid)
if model1 and model2:
upvote_model(model1, str(userid))
upvote_model(model2, str(userid))
return reload(model1, model2, userid)
def reload(chosenmodel1=None, chosenmodel2=None, userid=None, chose_a=False, chose_b=False):
# Select random splits
# row = random.choice(list(audio_dataset['train']))
# options = list(random.choice(list(audio_dataset['train'])).keys())
# split1, split2 = random.sample(options, 2)
# choice1, choice2 = (row[split1], row[split2])
# if chosenmodel1 in model_names:
# chosenmodel1 = model_names[chosenmodel1]
# if chosenmodel2 in model_names:
# chosenmodel2 = model_names[chosenmodel2]
# out = [
# (choice1['sampling_rate'], choice1['array']),
# (choice2['sampling_rate'], choice2['array']),
# split1,
# split2
# ]
# if userid: out.append(userid)
# if chosenmodel1: out.append(f'This model was {chosenmodel1}')
# if chosenmodel2: out.append(f'This model was {chosenmodel2}')
# return out
# return (f'This model was {chosenmodel1}', f'This model was {chosenmodel2}', gr.update(visible=False), gr.update(visible=False))
# return (gr.update(variant='secondary', value=chosenmodel1, interactive=False), gr.update(variant='secondary', value=chosenmodel2, interactive=False))
chosenmodel1 = make_link_to_space(chosenmodel1)
chosenmodel2 = make_link_to_space(chosenmodel2)
out = [
gr.update(interactive=False, visible=False),
gr.update(interactive=False, visible=False)
]
style = 'text-align: center; font-size: 1rem; margin-bottom: 0; padding: var(--input-padding)'
if chose_a == True:
out.append(gr.update(value=f'<p style="{style}">Your vote: {chosenmodel1}</p>', visible=True))
out.append(gr.update(value=f'<p style="{style}">{chosenmodel2}</p>', visible=True))
else:
out.append(gr.update(value=f'<p style="{style}">{chosenmodel1}</p>', visible=True))
out.append(gr.update(value=f'<p style="{style}">Your vote: {chosenmodel2}</p>', visible=True))
out.append(gr.update(visible=True))
return out
with gr.Blocks() as leaderboard:
gr.Markdown(LDESC)
# df = gr.Dataframe(interactive=False, value=get_leaderboard())
df = gr.Dataframe(
interactive=False,
min_width=0,
wrap=True,
column_widths=[30, 200, 50, 50],
datatype=["str", "html", "number", "number"]
)
with gr.Row():
reveal_prelim = gr.Checkbox(label="Reveal preliminary results", info="Show all models, including models with very few human ratings.", scale=1)
reloadbtn = gr.Button("Refresh", scale=3)
reveal_prelim.input(get_leaderboard, inputs=[reveal_prelim], outputs=[df])
leaderboard.load(get_leaderboard, inputs=[reveal_prelim], outputs=[df])
reloadbtn.click(get_leaderboard, inputs=[reveal_prelim], outputs=[df])
# gr.Markdown("DISCLAIMER: The licenses listed may not be accurate or up to date, you are responsible for checking the licenses before using the models. Also note that some models may have additional usage restrictions.")
# with gr.Blocks() as vote:
# useridstate = gr.State()
# gr.Markdown(INSTR)
# # gr.LoginButton()
# with gr.Row():
# gr.HTML('<div align="left"><h3>Model A</h3></div>')
# gr.HTML('<div align="right"><h3>Model B</h3></div>')
# model1 = gr.Textbox(interactive=False, visible=False, lines=1, max_lines=1)
# model2 = gr.Textbox(interactive=False, visible=False, lines=1, max_lines=1)
# # with gr.Group():
# # with gr.Row():
# # prevmodel1 = gr.Textbox(interactive=False, show_label=False, container=False, value="Vote to reveal model A")
# # prevmodel2 = gr.Textbox(interactive=False, show_label=False, container=False, value="Vote to reveal model B", text_align="right")
# # with gr.Row():
# # aud1 = gr.Audio(interactive=False, show_label=False, show_download_button=False, show_share_button=False, waveform_options={'waveform_progress_color': '#3C82F6'})
# # aud2 = gr.Audio(interactive=False, show_label=False, show_download_button=False, show_share_button=False, waveform_options={'waveform_progress_color': '#3C82F6'})
# with gr.Group():
# with gr.Row():
# with gr.Column():
# with gr.Group():
# prevmodel1 = gr.Textbox(interactive=False, show_label=False, container=False, value="Vote to reveal model A", lines=1, max_lines=1)
# aud1 = gr.Audio(interactive=False, show_label=False, show_download_button=False, show_share_button=False, waveform_options={'waveform_progress_color': '#3C82F6'})
# with gr.Column():
# with gr.Group():
# prevmodel2 = gr.Textbox(interactive=False, show_label=False, container=False, value="Vote to reveal model B", text_align="right", lines=1, max_lines=1)
# aud2 = gr.Audio(interactive=False, show_label=False, show_download_button=False, show_share_button=False, waveform_options={'waveform_progress_color': '#3C82F6'})
# with gr.Row():
# abetter = gr.Button("A is Better", variant='primary', scale=4)
# # skipbtn = gr.Button("Skip", scale=1)
# bbetter = gr.Button("B is Better", variant='primary', scale=4)
# with gr.Row():
# bothbad = gr.Button("Both are Bad", scale=2)
# skipbtn = gr.Button("Skip", scale=1)
# bothgood = gr.Button("Both are Good", scale=2)
# outputs = [aud1, aud2, model1, model2, useridstate, prevmodel1, prevmodel2]
# abetter.click(a_is_better, outputs=outputs, inputs=[model1, model2, useridstate])
# bbetter.click(b_is_better, outputs=outputs, inputs=[model1, model2, useridstate])
# skipbtn.click(b_is_better, outputs=outputs, inputs=[model1, model2, useridstate])
# bothbad.click(both_bad, outputs=outputs, inputs=[model1, model2, useridstate])
# bothgood.click(both_good, outputs=outputs, inputs=[model1, model2, useridstate])
# vote.load(reload, outputs=[aud1, aud2, model1, model2])
def doloudnorm(path):
data, rate = sf.read(path)
meter = pyln.Meter(rate)
loudness = meter.integrated_loudness(data)
loudness_normalized_audio = pyln.normalize.loudness(data, loudness, -12.0)
sf.write(path, loudness_normalized_audio, rate)
def doresample(path_to_wav):
pass
##########################
# 2x speedup (hopefully) #
##########################
def synthandreturn(text):
text = text.strip()
if len(text) > MAX_SAMPLE_TXT_LENGTH:
raise gr.Error(f'You exceeded the limit of {MAX_SAMPLE_TXT_LENGTH} characters')
if len(text) < MIN_SAMPLE_TXT_LENGTH:
raise gr.Error(f'Please input a text longer than {MIN_SAMPLE_TXT_LENGTH} characters')
if (
# test toxicity if not prepared text
text not in sents
and toxicity.predict(text)['toxicity'] > 0.8
):
print(f'Detected toxic content! "{text}"')
raise gr.Error('Your text failed the toxicity test')
if not text:
raise gr.Error(f'You did not enter any text')
# Check language
try:
if not detect(text) == "en":
gr.Warning('Warning: The input text may not be in English')
except:
pass
# Get two random models
# forced model: your TTS model versus The World!!!
# mdl1 = 'Pendrokar/xVASynth'
vsModels = dict(AVAILABLE_MODELS)
# del vsModels[mdl1]
# randomize position of the forced model
mdl2 = random.sample(list(vsModels.keys()), 1)
# forced random
# mdl1, mdl2 = random.sample(list([mdl1, mdl2[0]]), 2)
# actual random
mdl1, mdl2 = random.sample(list(AVAILABLE_MODELS.keys()), 2)
log_text(text)
print("[debug] Using", mdl1, mdl2)
def predict_and_update_result(text, model, result_storage):
# 3 attempts
attempt_count = 0
while attempt_count < 3:
try:
if model in AVAILABLE_MODELS:
if '/' in model:
# Use public HF Space
#if (model not in hf_clients):
hf_clients[model] = Client(model, hf_token=hf_token)
mdl_space = hf_clients[model]
# print(f"{model}: Fetching endpoints of HF Space")
# assume the index is one of the first 9 return params
return_audio_index = int(HF_SPACES[model]['return_audio_index'])
endpoints = mdl_space.view_api(all_endpoints=True, print_info=False, return_format='dict')
api_name = None
fn_index = None
end_parameters = None
# has named endpoint
if '/' == HF_SPACES[model]['function'][0]:
# audio sync function name
api_name = HF_SPACES[model]['function']
end_parameters = _get_param_examples(
endpoints['named_endpoints'][api_name]['parameters']
)
# has unnamed endpoint
else:
# endpoint index is the first character
fn_index = int(HF_SPACES[model]['function'])
end_parameters = _get_param_examples(
endpoints['unnamed_endpoints'][str(fn_index)]['parameters']
)
space_inputs = _override_params(end_parameters, model)
# force text
space_inputs[HF_SPACES[model]['text_param_index']] = text
print(f"{model}: Sending request to HF Space")
results = mdl_space.predict(*space_inputs, api_name=api_name, fn_index=fn_index)
# return path to audio
result = results[return_audio_index] if (not isinstance(results, str)) else results
else:
# Use the private HF Space
result = router.predict(text, AVAILABLE_MODELS[model].lower(), api_name="/synthesize")
else:
result = router.predict(text, model.lower(), api_name="/synthesize")
break
except Exception as e:
attempt_count += 1
print(repr(e))
print(f"{model}: Unable to call API (attempt: {attempt_count})")
# sleep for one second
time.sleep(1)
# Fetch and store client again
#hf_clients[model] = Client(model, hf_token=hf_token)
if attempt_count > 2:
raise gr.Error(f"{model}: Failed to call model")
else:
print('Done with', model)
try:
with tempfile.NamedTemporaryFile(suffix='.wav', delete=False) as f:
audio = AudioSegment.from_file(result)
current_sr = audio.frame_rate
if current_sr > 24000:
print(f"{model}: Resampling")
audio = audio.set_frame_rate(24000)
try:
print(f"{model}: Trying to normalize audio")
audio = match_target_amplitude(audio, -20)
except:
print(f"{model}: [WARN] Unable to normalize audio")
audio.export(f.name, format="wav")
os.unlink(result)
result = f.name
except:
pass
if model in AVAILABLE_MODELS.keys(): model = AVAILABLE_MODELS[model]
result_storage[model] = result
def _get_param_examples(parameters):
example_inputs = []
for param_info in parameters:
if (
param_info['component'] == 'Radio'
or param_info['component'] == 'Dropdown'
or param_info['component'] == 'Audio'
or param_info['python_type']['type'] == 'str'
):
example_inputs.append(str(param_info['example_input']))
continue
if param_info['python_type']['type'] == 'int':
example_inputs.append(int(param_info['example_input']))
continue
if param_info['python_type']['type'] == 'float':
example_inputs.append(float(param_info['example_input']))
continue
if param_info['python_type']['type'] == 'bool':
example_inputs.append(bool(param_info['example_input']))
continue
return example_inputs
def _override_params(inputs, modelname):
try:
for key,value in OVERRIDE_INPUTS[modelname].items():
inputs[key] = value
print(f"{modelname}: Default inputs overridden by Arena")
except:
pass
return inputs
mdl1k = mdl1
mdl2k = mdl2
print(mdl1k, mdl2k)
if mdl1 in AVAILABLE_MODELS.keys(): mdl1k=AVAILABLE_MODELS[mdl1]
if mdl2 in AVAILABLE_MODELS.keys(): mdl2k=AVAILABLE_MODELS[mdl2]
results = {}
print(f"Sending models {mdl1k} and {mdl2k} to API")
thread1 = threading.Thread(target=predict_and_update_result, args=(text, mdl1k, results))
thread2 = threading.Thread(target=predict_and_update_result, args=(text, mdl2k, results))
thread1.start()
thread2.start()
thread1.join(180)
thread2.join(180)
#debug
# print(results)
# print(list(results.keys())[0])
# y, sr = librosa.load(results[list(results.keys())[0]], sr=None)
# print(sr)
# print(list(results.keys())[1])
# y, sr = librosa.load(results[list(results.keys())[1]], sr=None)
# print(sr)
#debug
# outputs = [text, btn, r2, model1, model2, aud1, aud2, abetter, bbetter, prevmodel1, prevmodel2, nxtroundbtn]
# cache the result
for model in [mdl1k, mdl2k]:
# skip caching if not hardcoded sentence
if (text not in sents):
break
already_cached = False
# check if already cached
for cached_sample in cached_samples:
# TODO:replace cached
if (cached_sample.transcript == text and cached_sample.modelName == model):
already_cached = True
break
if (already_cached):
continue
cached_samples.append(Sample(results[model], text, model))
# all_pairs = generate_matching_pairs(cached_samples)
print(f"Retrieving models {mdl1k} and {mdl2k} from API")
return (
text,
"Synthesize",
gr.update(visible=True), # r2
mdl1, # model1
mdl2, # model2
gr.update(visible=True, value=results[mdl1k], interactive=False, autoplay=True), # aud1
gr.update(visible=True, value=results[mdl2k], interactive=False, autoplay=False), # aud2
gr.update(visible=True, interactive=False), #abetter
gr.update(visible=True, interactive=False), #bbetter
gr.update(visible=False), #prevmodel1
gr.update(visible=False), #prevmodel2
gr.update(visible=False), #nxt round btn
# reset gr.State aplayed & bplayed
False, #aplayed
False, #bplayed
)
# return (
# text,
# "Synthesize",
# gr.update(visible=True), # r2
# mdl1, # model1
# mdl2, # model2
# # 'Vote to reveal model A', # prevmodel1
# gr.update(visible=True, value=router.predict(
# text,
# AVAILABLE_MODELS[mdl1],
# api_name="/synthesize"
# )), # aud1
# # 'Vote to reveal model B', # prevmodel2
# gr.update(visible=True, value=router.predict(
# text,
# AVAILABLE_MODELS[mdl2],
# api_name="/synthesize"
# )), # aud2
# gr.update(visible=True, interactive=True),
# gr.update(visible=True, interactive=True),
# gr.update(visible=False),
# gr.update(visible=False),
# gr.update(visible=False), #nxt round btn
# )
def unlock_vote(btn_index, aplayed, bplayed):
aud2 = gr.update()
# sample played
if btn_index == 0:
aplayed = True
# autoplay the other once
if not bplayed:
# other options added just to get autoplay to work
aud2 = gr.update(
autoplay=True,
interactive=True,
sources=[],
show_download_button=False,
show_share_button=False,
editable=False
)
if btn_index == 1:
bplayed = True
# both audio samples played
if bool(aplayed) and bool(bplayed):
print('Both audio samples played, voting unlocked')
return [gr.update(interactive=True), gr.update(interactive=True), True, True, aud2]
return [gr.update(), gr.update(), aplayed, bplayed, aud2]
def get_userid(request: gr.Request):
if request.username:
print('auth by username')
# by HuggingFace username
return sha1(bytes(request.username.encode('ascii'))).hexdigest()
else:
print('auth by ip')
# by IP address
return sha1(bytes(request.client.host.encode('ascii'))).hexdigest()
# by browser session hash
# Issue: Not a cookie, session hash changes on page reload
# return sha1(bytes(request.session_hash.encode('ascii')), usedforsecurity=False).hexdigest()
# Give user a cached audio sample pair they have yet to vote on
def give_cached_sample(request: gr.Request):
# add new userid to voting_users from Browser session hash
# stored only in RAM
userid = get_userid(request)
if userid not in voting_users:
voting_users[userid] = User(userid)
def get_next_pair(user: User):
# FIXME: all_pairs var out of scope
# all_pairs = generate_matching_pairs(cached_samples)
# for pair in all_pairs:
for pair in generate_matching_pairs(cached_samples):
hash1 = md5(bytes((pair[0].modelName + pair[0].transcript).encode('ascii'))).hexdigest()
hash2 = md5(bytes((pair[1].modelName + pair[1].transcript).encode('ascii'))).hexdigest()
pair_key = (hash1, hash2)
if (
pair_key not in user.voted_pairs
# or in reversed order
and (pair_key[1], pair_key[0]) not in user.voted_pairs
):
return pair
return None
pair = get_next_pair(voting_users[userid])
if pair is None:
return [*clear_stuff(), gr.update(interactive=False)]
return (
pair[0].transcript,
"Synthesize",
gr.update(visible=True), # r2
pair[0].modelName, # model1
pair[1].modelName, # model2
gr.update(visible=True, value=pair[0].filename, interactive=False, autoplay=True), # aud1
gr.update(visible=True, value=pair[1].filename, interactive=False, autoplay=False), # aud2
gr.update(visible=True, interactive=False), #abetter
gr.update(visible=True, interactive=False), #bbetter
gr.update(visible=False), #prevmodel1
gr.update(visible=False), #prevmodel2
gr.update(visible=False), #nxt round btn
# reset aplayed, bplayed audio playback events
False, #aplayed
False, #bplayed
# fetch cached btn
gr.update(interactive=True)
)
# note the vote on cached sample pair
def voted_on_cached(modelName1: str, modelName2: str, transcript: str, request: gr.Request):
userid = get_userid(request)
if userid not in voting_users:
voting_users[userid] = User(userid)
hash1 = md5(bytes((modelName1 + transcript).encode('ascii'))).hexdigest()
hash2 = md5(bytes((modelName2 + transcript).encode('ascii'))).hexdigest()
voting_users[userid].voted_pairs.add((hash1, hash2))
def randomsent():
return 'β‘', random.choice(sents), 'π²'
def clear_stuff():
return [
"",
"Synthesize",
gr.update(visible=False), # r2
'', # model1
'', # model2
gr.update(visible=False, interactive=False, autoplay=False), # aud1
gr.update(visible=False, interactive=False, autoplay=False), # aud2
gr.update(visible=False, interactive=False), #abetter
gr.update(visible=False, interactive=False), #bbetter
gr.update(visible=False), #prevmodel1
gr.update(visible=False), #prevmodel2
gr.update(visible=False), #nxt round btn
False, #aplayed
False, #bplayed
]
def disable():
return [gr.update(interactive=False), gr.update(interactive=False), gr.update(interactive=False), gr.update(interactive=False)]
def enable():
return [gr.update(interactive=True), gr.update(interactive=True), gr.update(interactive=True), gr.update(interactive=True)]
with gr.Blocks() as vote:
# sample played
aplayed = gr.State(value=False)
bplayed = gr.State(value=False)
# voter ID
useridstate = gr.State()
gr.Markdown(INSTR)
with gr.Group():
with gr.Row():
cachedt = gr.Button('β‘', scale=0, min_width=0, variant='tool', interactive=True)
text = gr.Textbox(container=False, show_label=False, placeholder="Enter text to synthesize", lines=1, max_lines=1, scale=9999999, min_width=0)
randomt = gr.Button('π²', scale=0, min_width=0, variant='tool')
randomt.click(randomsent, outputs=[cachedt, text, randomt])
btn = gr.Button("Synthesize", variant='primary')
model1 = gr.Textbox(interactive=False, lines=1, max_lines=1, visible=False)
#model1 = gr.Textbox(interactive=False, lines=1, max_lines=1, visible=True)
model2 = gr.Textbox(interactive=False, lines=1, max_lines=1, visible=False)
#model2 = gr.Textbox(interactive=False, lines=1, max_lines=1, visible=True)
with gr.Row(visible=False) as r2:
with gr.Column():
with gr.Group():
aud1 = gr.Audio(
interactive=False,
show_label=False,
show_download_button=False,
show_share_button=False,
waveform_options={'waveform_progress_color': '#EF4444'}
# var(--color-red-500)'}); gradio only accepts HEX and CSS color
)
abetter = gr.Button("A is better", variant='primary', interactive=False)
prevmodel1 = gr.HTML(show_label=False, value="Vote to reveal model A", visible=False)
with gr.Column():
with gr.Group():
aud2 = gr.Audio(
interactive=False,
show_label=False,
show_download_button=False,
show_share_button=False,
waveform_options={'waveform_progress_color': '#3C82F6'}
# var(--secondary-500)'}); gradio only accepts HEX and CSS color
)
bbetter = gr.Button("B is better", variant='primary', interactive=False)
prevmodel2 = gr.HTML(show_label=False, value="Vote to reveal model B", visible=False)
nxtroundbtn = gr.Button('Next round', visible=False)
# outputs = [text, btn, r2, model1, model2, prevmodel1, aud1, prevmodel2, aud2, abetter, bbetter]
outputs = [
text,
btn,
r2,
model1,
model2,
aud1,
aud2,
abetter,
bbetter,
prevmodel1,
prevmodel2,
nxtroundbtn,
aplayed,
bplayed,
]
"""
text,
"Synthesize",
gr.update(visible=True), # r2
mdl1, # model1
mdl2, # model2
gr.update(visible=True, value=results[mdl1]), # aud1
gr.update(visible=True, value=results[mdl2]), # aud2
gr.update(visible=True, interactive=False), #abetter
gr.update(visible=True, interactive=False), #bbetter
gr.update(visible=False), #prevmodel1
gr.update(visible=False), #prevmodel2
gr.update(visible=False), #nxt round btn"""
btn\
.click(disable, outputs=[btn, abetter, bbetter, cachedt])\
.then(synthandreturn, inputs=[text], outputs=outputs)\
.then(enable, outputs=[btn, gr.State(), gr.State(), cachedt])
nxtroundbtn.click(give_cached_sample, outputs=[*outputs, cachedt])
# fetch a comparison pair from cache
cachedt\
.click(disable, outputs=[btn, abetter, bbetter, cachedt])\
.then(give_cached_sample, outputs=[*outputs, cachedt])\
.then(enable, outputs=[btn, gr.State(), gr.State(), cachedt])
# Allow interaction with the vote buttons only when both audio samples have finished playing
aud1.stop(unlock_vote, outputs=[abetter, bbetter, aplayed, bplayed, aud2], inputs=[gr.State(value=0), aplayed, bplayed])
# autoplay if unplayed
aud2.stop(unlock_vote, outputs=[abetter, bbetter, aplayed, bplayed, gr.State()], inputs=[gr.State(value=1), aplayed, bplayed])
# nxt_outputs = [prevmodel1, prevmodel2, abetter, bbetter]
nxt_outputs = [abetter, bbetter, prevmodel1, prevmodel2, nxtroundbtn]
abetter\
.click(a_is_better, outputs=nxt_outputs, inputs=[model1, model2, useridstate])\
.then(voted_on_cached, inputs=[model1, model2, text])
bbetter\
.click(b_is_better, outputs=nxt_outputs, inputs=[model1, model2, useridstate])\
.then(voted_on_cached, inputs=[model1, model2, text])
# skipbtn.click(b_is_better, outputs=outputs, inputs=[model1, model2, useridstate])
# bothbad.click(both_bad, outputs=outputs, inputs=[model1, model2, useridstate])
# bothgood.click(both_good, outputs=outputs, inputs=[model1, model2, useridstate])
# vote.load(reload, outputs=[aud1, aud2, model1, model2])
with gr.Blocks() as about:
gr.Markdown(ABOUT)
# with gr.Blocks() as admin:
# rdb = gr.Button("Reload Audio Dataset")
# # rdb.click(reload_audio_dataset, outputs=rdb)
# with gr.Group():
# dbtext = gr.Textbox(label="Type \"delete db\" to confirm", placeholder="delete db")
# ddb = gr.Button("Delete DB")
# ddb.click(del_db, inputs=dbtext, outputs=ddb)
with gr.Blocks(theme=theme, css="footer {visibility: hidden}textbox{resize:none}", title="TTS Arena") as demo:
gr.Markdown(DESCR)
# gr.TabbedInterface([vote, leaderboard, about, admin], ['Vote', 'Leaderboard', 'About', 'Admin (ONLY IN BETA)'])
gr.TabbedInterface([vote, leaderboard, about], ['π³οΈ Vote', 'π Leaderboard', 'π About'])
if CITATION_TEXT:
with gr.Row():
with gr.Accordion("Citation", open=False):
gr.Markdown(f"If you use this data in your publication, please cite us!\n\nCopy the BibTeX citation to cite this source:\n\n```bibtext\n{CITATION_TEXT}\n```\n\nPlease remember that all generated audio clips should be assumed unsuitable for redistribution or commercial use.")
demo.queue(api_open=False, default_concurrency_limit=40).launch(show_api=False)
demo.queue(api_open=False, default_concurrency_limit=40).launch(show_api=False, show_error=True)
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