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bertin-gpt-j-6B / app.py

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	import random
	import os

	import streamlit as st
	import torch
	from transformers import pipeline, set_seed
	from transformers import AutoTokenizer, AutoModelForCausalLM


	HF_AUTH_TOKEN = os.environ.get("HF_AUTH_TOKEN", None)
	DEVICE = os.environ.get("DEVICE", "cpu") # cuda:0
	DTYPE = torch.float32 if DEVICE == "cpu" else torch.float16
	MODEL_NAME = os.environ.get("MODEL_NAME", "bertin-project/bertin-gpt-j-6B")
	MAX_LENGTH = int(os.environ.get("MAX_LENGTH", 1024))
	HEADER_INFO = """
	# BERTIN-GPT-J-6B
	Spanish BERTIN GPT-J-6B Model.
	""".strip()
	SIDEBAR_INFO = """
	# Configuration
	""".strip()
	PROMPT_BOX = "Introduzca su texto..."
	EXAMPLES = [
	"¿Cuál es la capital de Francia? Respuesta:",
	]


	def style():
	st.markdown("""
	<link href="https://fonts.googleapis.com/css2?family=Roboto:wght@300&display=swap%22%20rel=%22stylesheet%22" rel="stylesheet">
	<style>
	.ltr,
	textarea {
	font-family: Roboto !important;
	text-align: left;
	direction: ltr !important;
	}
	.ltr-box {
	border-bottom: 1px solid #ddd;
	padding-bottom: 20px;
	}
	.rtl {
	text-align: left;
	direction: ltr !important;
	}
	span.result-text {
	padding: 3px 3px;
	line-height: 32px;
	}
	span.generated-text {
	background-color: rgb(118 200 147 / 13%);
	}
	</style>""", unsafe_allow_html=True)


	class Normalizer:
	def remove_repetitions(self, text):
	"""Remove repetitions"""
	first_ocurrences = []
	for sentence in text.split("."):
	if sentence not in first_ocurrences:
	first_ocurrences.append(sentence)
	return '.'.join(first_ocurrences)

	def trim_last_sentence(self, text):
	"""Trim last sentence if incomplete"""
	return text[:text.rfind(".") + 1]

	def clean_txt(self, text):
	return self.trim_last_sentence(self.remove_repetitions(text))


	class TextGeneration:
	def __init__(self):
	self.tokenizer = None
	self.generator = None
	self.task = "text-generation"
	self.model_name_or_path = MODEL_NAME
	set_seed(42)

	def load(self):
	self.tokenizer = AutoTokenizer.from_pretrained(
	self.model_name_or_path, use_auth_token=HF_AUTH_TOKEN if HF_AUTH_TOKEN else None,
	)
	self.model = AutoModelForCausalLM.from_pretrained(
	self.model_name_or_path, use_auth_token=HF_AUTH_TOKEN if HF_AUTH_TOKEN else None,
	pad_token_id=self.tokenizer.eos_token_id, eos_token_id=self.tokenizer.eos_token_id,
	torch_dtype=DTYPE, low_cpu_mem_usage=False if DEVICE == "cpu" else True
	).to(device=DEVICE, non_blocking=True)
	_ = self.model.eval()
	device_number = -1 if DEVICE == "cpu" else int(DEVICE.split(":")[-1])
	self.generator = pipeline(self.task, model=self.model, tokenizer=self.tokenizer, device=device_number)
	# with torch.no_grad():
	# tokens = tokenizer.encode(prompt, return_tensors='pt').to(device=device, non_blocking=True)
	# gen_tokens = self.model.generate(tokens, do_sample=True, temperature=0.8, max_length=128)
	# generated = tokenizer.batch_decode(gen_tokens)[0]

	# return generated


	def generate(self, prompt, generation_kwargs):
	max_length = len(self.tokenizer(prompt)["input_ids"]) + generation_kwargs["max_length"]
	generation_kwargs["max_length"] = min(max_length, self.model.config.n_positions)
	# generation_kwargs["num_return_sequences"] = 1
	# generation_kwargs["return_full_text"] = False
	return self.generator(
	prompt,
	**generation_kwargs,
	)[0]["generated_text"]


	@st.cache(allow_output_mutation=True)
	def load_text_generator():
	generator = TextGeneration()
	generator.load()
	return generator


	def main():
	st.set_page_config(
	page_title="BERTIN-GPT-J-6B",
	page_icon="🇪🇸",
	layout="wide",
	initial_sidebar_state="expanded"
	)
	style()
	with st.spinner('Cargando el modelo. Por favor, espere...'):
	generator = load_text_generator()

	st.sidebar.markdown(SIDEBAR_INFO)

	max_length = st.sidebar.slider(
	label='Longitud máxima',
	help="Número máximo (aproximado) de palabras a generar.",
	min_value=1,
	max_value=MAX_LENGTH,
	value=50,
	step=1
	)
	top_k = st.sidebar.slider(
	label='Top-k',
	help="Número de palabras con alta probabilidad a mantener para el filtrado `top-k`",
	min_value=40,
	max_value=80,
	value=50,
	step=1
	)
	top_p = st.sidebar.slider(
	label='Top-p',
	help="Solo las palabras más probables con probabilidades que sumen `top_p` o más se mantienen para la generación.",
	min_value=0.0,
	max_value=1.0,
	value=0.95,
	step=0.01
	)
	temperature = st.sidebar.slider(
	label='Temperatura',
	help="Valor utilizado para modular las probabilidades de las siguientes palabras generadas.",
	min_value=0.1,
	max_value=10.0,
	value=0.8,
	step=0.05
	)
	do_sample = st.sidebar.selectbox(
	label='¿Muestrear?',
	options=(True, False),
	help="Si no se muestrea se usará una decodificación voraz (_greedy_).",
	)
	do_clean = st.sidebar.selectbox(
	label='¿Limpiar texto?',
	options=(True, False),
	help="Si eliminar o no las palabras repetidas y recortar las últimas frases sin terminar.",
	)
	generation_kwargs = {
	"max_length": max_length,
	"top_k": top_k,
	"top_p": top_p,
	"temperature": temperature,
	"do_sample": do_sample,
	"do_clean": do_clean,
	}
	st.markdown(HEADER_INFO)
	prompts = EXAMPLES + ["Personalizado"]
	prompt = st.selectbox('Ejemplos', prompts, index=len(prompts) - 1)

	if prompt == "Personalizado":
	prompt_box = PROMPT_BOX
	else:
	prompt_box = prompt

	text = st.text_area("Texto", prompt_box)
	generation_kwargs_ph = st.empty()
	cleaner = Normalizer()
	if st.button("¡Generar!"):
	with st.spinner(text="Generando..."):
	generation_kwargs_ph.markdown(", ".join([f"`{k}`: {v}" for k, v in generation_kwargs.items()]))
	if text:
	generated_text = generator.generate(text, generation_kwargs)
	if do_clean:
	generated_text = cleaner.clean_txt(generated_text)
	if generated_text.strip().startswith(text):
	generated_text = generated_text.replace(text, "", 1).strip()
	st.markdown(
	f'<p class="ltr ltr-box">'
	f'<span class="result-text">{text} <span>'
	f'<span class="result-text generated-text">{generated_text}</span>'
	f'</p>',
	unsafe_allow_html=True
	)

	if __name__ == '__main__':
	main()