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SuperposedDecoding / app.py

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Update app.py

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	import gradio as gr
	import json
	import os
	import spaces
	import torch

	from dotenv import load_dotenv
	from huggingface_hub import login, snapshot_download

	from superposed.llama.superposed_generation import SuperposedLlama
	from superposed.llama.tokenizer import Tokenizer
	from superposed.ngrams.ngram_models import make_models

	# Set torch dist variables
	os.environ['RANK'] = "0"
	os.environ['WORLD_SIZE'] = "1"
	os.environ['MASTER_PORT'] = "12193"
	os.environ['MASTER_ADDR'] = "127.0.0.1"

	def load_models():
	model = SuperposedLlama.build(ckpt_dir=weight_path,
	tokenizer_path=f'{weight_path}/tokenizer.model',
	max_seq_len=100,
	max_batch_size=32,
	device="cuda",
	model_parallel_size=1)
	return model

	# load_dotenv()
	# print(os.getenv("HF_ACCESS_TOKEN"))
	login(os.getenv("HF_ACCESS_TOKEN"))
	if not os.path.exists("./weights/"):
	os.mkdir("./weights/")
	snapshot_download(repo_id="meta-llama/Llama-2-7b", local_dir="./weights/")
	weight_path = "./weights/"
	# Load params
	param_file = "params/p15_d3_ngram4_mixed.json"
	with open(param_file, "r") as f:
	params = json.load(f)
	alpha = params["alpha"]
	temp = params["temp"]
	n_drafts = params["n_drafts"]
	prompt_len = params["prompt_len"]
	n_token_sample = params["n_token_sample"]
	i_weights = params["i_weights"]
	i_length = params["i_length"]
	# Load main model
	model = load_models()
	tokenizer = Tokenizer(f'{weight_path}/tokenizer.model')
	# Create ngram models
	ngrams = make_models("ckpts-200k", bigram=True, trigram=True, fourgram=True, fivegram=False, sixgram=False, sevengram=False)

	def decode(tokenizer, encoding):
	"""
	Args:
	tokenizer (Any): Tokenizer
	encoding (torch.Tensor): Encoding
	Returns:
	decoding (str)
	"""
	eos_locs = (encoding == tokenizer.eos_id).nonzero()
	if len(eos_locs > 0):
	encoding = encoding[:eos_locs[0]]
	return tokenizer.decode(encoding.to(torch.int32).tolist())

	@spaces.GPU
	def update_options(input, num_tokens):
	tokenized_prompts = tokenizer.encode([input], True, False)
	print("Processed prompt")
	model.model.to("cuda")
	model.model.device = "cuda"
	alive_gens, _ = model.sup_generate(prompt_tokens=tokenized_prompts,
	smoothing="geom",
	max_gen_len=num_tokens,
	n_token_sample=n_token_sample,
	alpha=alpha,
	temp=temp,
	n_drafts=n_drafts,
	i_weights=i_weights,
	i_length=i_length,
	ngrams=ngrams,
	get_time=False,
	penalty=200)
	print("Generated")
	gens = alive_gens[0].reshape(n_drafts, -1)
	return decode(tokenizer, gens[0])[len(input):], decode(tokenizer, gens[1])[len(input):], decode(tokenizer, gens[2])[len(input):]

	with gr.Blocks(theme=gr.themes.Soft()) as demo:
	gr.Markdown(
	"""
	# Superposed Decoding
	Start typing below to see suggestions.\n
	Disclaimer: This demo only uses $n=\{2, 3, 4\}$ $n$-grams as opposed to $n=\{2, 3, 4, 5, 6}\$ in the paper. In addition, there may be significant latency at times because a GPU must be re-aquired after every change.
	\n
	Paper: [https://arxiv.org/abs/2405.18400](https://arxiv.org/abs/2405.18400)\n
	Code: [https://github.com/RAIVNLab/SuperposedDecoding](https://github.com/RAIVNLab/SuperposedDecoding)
	""")
	slider = gr.Slider(minimum=1, maximum=10, step=1, label="Generation length", value=10)
	inp = gr.Textbox(placeholder="Type anything!", lines=3)
	option1 = gr.Button(value="Option 1")
	option2 = gr.Button(value="Option 2")
	option3 = gr.Button(value="Option 3")
	inp.change(update_options, inputs=[inp, slider], outputs=[option1, option2, option3])
	# Button updates
	@option1.click(inputs=[inp, option1], outputs=inp)
	def option1_click(curr, txt):
	return curr + txt
	@option2.click(inputs=[inp, option2], outputs=inp)
	def option2_click(curr, txt):
	return curr + txt
	@option3.click(inputs=[inp, option3], outputs=inp)
	def option3_click(curr, txt):
	return curr + txt

	if __name__ == "__main__":
	demo.launch(share=True)