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	"""
	RWKV RNN Model - Gradio Space for HuggingFace
	YT - Mean Gene Hacks - https://www.youtube.com/@MeanGeneHacks
	(C) Gene Ruebsamen - 2/7/2023
	License: GPL3
	"""

	import gradio as gr
	import codecs
	from ast import literal_eval
	from datetime import datetime
	from rwkvstic.load import RWKV
	from rwkvstic.agnostic.backends import TORCH, TORCH_QUANT, TORCH_STREAM
	import torch
	import gc

	DEVICE = "cuda" if torch.cuda.is_available() else "cpu"

	def to_md(text):
	return text.replace("\n", "<br />")


	def get_model():
	model = None
	model = RWKV(
	"https://huggingface.co/BlinkDL/rwkv-4-pile-1b5/resolve/main/RWKV-4-Pile-1B5-Instruct-test1-20230124.pth",
	"pytorch(cpu/gpu)",
	runtimedtype=torch.float32,
	useGPU=torch.cuda.is_available(),
	dtype=torch.float32
	)
	return model

	model = None

	def infer(
	prompt,
	mode = "generative",
	max_new_tokens=10,
	temperature=0.1,
	top_p=1.0,
	stop="<\|endoftext\|>",
	seed=42,
	):
	global model

	if model == None:
	gc.collect()
	if (DEVICE == "cuda"):
	torch.cuda.empty_cache()
	model = get_model()

	max_new_tokens = int(max_new_tokens)
	temperature = float(temperature)
	top_p = float(top_p)
	stop = [x.strip(' ') for x in stop.split(',')]
	seed = seed

	assert 1 <= max_new_tokens <= 384
	assert 0.0 <= temperature <= 1.0
	assert 0.0 <= top_p <= 1.0

	if temperature == 0.0:
	temperature = 0.01
	if prompt == "":
	prompt = " "

	# Clear model state for generative mode
	model.resetState()
	if (mode == "Q/A"):
	prompt = f"Expert Questions & Helpful Answers\nAsk Research Experts\nQuestion:\n{prompt}\n\nFull Answer:"

	print(f"PROMPT ({datetime.now()}):\n-------\n{prompt}")
	print(f"OUTPUT ({datetime.now()}):\n-------\n")
	# Load prompt
	model.loadContext(newctx=prompt)
	generated_text = ""
	done = False
	with torch.no_grad():
	for _ in range(max_new_tokens):
	char = model.forward(stopStrings=stop,temp=temperature,top_p_usual=top_p)["output"]
	print(char, end='', flush=True)
	generated_text += char
	generated_text = generated_text.lstrip("\n ")

	for stop_word in stop:
	stop_word = codecs.getdecoder("unicode_escape")(stop_word)[0]
	if stop_word != '' and stop_word in generated_text:
	done = True
	break
	yield generated_text
	if done:
	print("<stopped>\n")
	break

	#print(f"{generated_text}")

	for stop_word in stop:
	stop_word = codecs.getdecoder("unicode_escape")(stop_word)[0]
	if stop_word != '' and stop_word in generated_text:
	generated_text = generated_text[:generated_text.find(stop_word)]

	gc.collect()
	yield generated_text


	def chat(
	prompt,
	history,
	max_new_tokens=10,
	temperature=0.1,
	top_p=1.0,
	stop="<\|endoftext\|>",
	seed=42,
	):
	global model
	history = history or []

	if model == None:
	gc.collect()
	if (DEVICE == "cuda"):
	torch.cuda.empty_cache()
	model = get_model()

	if len(history) == 0:
	# no history, so lets reset chat state
	model.resetState()

	max_new_tokens = int(max_new_tokens)
	temperature = float(temperature)
	top_p = float(top_p)
	stop = [x.strip(' ') for x in stop.split(',')]
	seed = seed

	assert 1 <= max_new_tokens <= 384
	assert 0.0 <= temperature <= 1.0
	assert 0.0 <= top_p <= 1.0

	if temperature == 0.0:
	temperature = 0.01
	if prompt == "":
	prompt = " "

	print(f"CHAT ({datetime.now()}):\n-------\n{prompt}")
	print(f"OUTPUT ({datetime.now()}):\n-------\n")
	# Load prompt
	model.loadContext(newctx=prompt)
	generated_text = ""
	done = False
	generated_text = model.forward(number=max_new_tokens, stopStrings=stop,temp=temperature,top_p_usual=top_p)["output"]

	generated_text = generated_text.lstrip("\n ")
	print(f"{generated_text}")

	for stop_word in stop:
	stop_word = codecs.getdecoder("unicode_escape")(stop_word)[0]
	if stop_word != '' and stop_word in generated_text:
	generated_text = generated_text[:generated_text.find(stop_word)]

	gc.collect()
	history.append((prompt, generated_text))
	return history,history


	examples = [
	[
	# Question Answering
	'''What is the capital of Germany?''',"Q/A", 25, 0.2, 1.0, "<\|endoftext\|>"],
	[
	# Question Answering
	'''Are humans good or bad?''',"Q/A", 150, 0.8, 0.8, "<\|endoftext\|>"],
	[
	# Chatbot
	'''This is a conversation between two AI large language models named Alex and Fritz. They are exploring each other's capabilities, and trying to ask interesting questions of one another to explore the limits of each others AI.
	Conversation:
	Alex: Good morning, Fritz, what type of LLM are you based upon?
	Fritz: Morning Alex, I am an RNN with transformer level performance. My language model is 100% attention free.
	Alex:''', "generative", 220, 0.9, 0.9, "\\n\\n,<\|endoftext\|>"],
	[
	# Generate List
	'''Q. Give me list of fiction books.
	1. Harry Potter
	2. Lord of the Rings
	3. Game of Thrones
	Q. Give me a list of vegetables.
	1. Broccoli
	2. Celery
	3. Tomatoes
	Q. Give me a list of car manufacturers.''', "generative", 80, 0.2, 1.0, "\\n\\n,<\|endoftext\|>"],
	[
	# Natural Language Interface
	'''You are the writing assistant for Stephen King. You have worked in the fiction/horror genre for 30 years. You are a Pulitzer Prize-winning author, and now you are tasked with developing a skeletal outline for his newest horror novel, set to be completed in the spring of 2024. Create a summary of this work.
	Summary:''',"generative", 200, 0.85, 0.8, "<\|endoftext\|>"]
	]


	iface = gr.Interface(
	fn=infer,
	description='''<p>RNN With Transformer-level LLM Performance. (<a href='https://github.com/BlinkDL/RWKV-LM'>github</a>)
	According to the author: "It combines the best of RNN and transformers - great performance, fast inference, saves VRAM, fast training, "infinite" ctx_len, and free sentence embedding"
	<p>Thanks to <a href='https://www.rftcapital.com'>RFT Capital</a> for donating compute capability for our experiments. Additional thanks to the author of the <a href="https://github.com/harrisonvanderbyl/rwkvstic">rwkvstic</a> library.</p>''',
	allow_flagging="never",
	inputs=[
	gr.Textbox(lines=20, label="Prompt"), # prompt
	gr.Radio(["generative","Q/A"], value="generative", label="Choose Mode"),
	gr.Slider(1, 256, value=40), # max_tokens
	gr.Slider(0.0, 1.0, value=0.8), # temperature
	gr.Slider(0.0, 1.0, value=0.85), # top_p
	gr.Textbox(lines=1, value="<\|endoftext\|>") # stop
	],
	outputs=gr.Textbox(lines=25),
	examples=examples,
	cache_examples=False,
	).queue()

	chatiface = gr.Interface(
	fn=chat,
	description='''<p>RNN With Transformer-level LLM Performance. (<a href='https://github.com/BlinkDL/RWKV-LM'>github</a>)
	According to the author: "It combines the best of RNN and transformers - great performance, fast inference, saves VRAM, fast training, "infinite" ctx_len, and free sentence embedding"
	<p>Thanks to <a href='https://www.rftcapital.com'>RFT Capital</a> for donating compute capability for our experiments. Additional thanks to the author of the <a href="https://github.com/harrisonvanderbyl/rwkvstic">rwkvstic</a> library.</p>''',
	allow_flagging="never",
	inputs=[
	gr.Textbox(lines=5, label="Message"), # prompt
	"state",
	gr.Slider(1, 256, value=60), # max_tokens
	gr.Slider(0.0, 1.0, value=0.8), # temperature
	gr.Slider(0.0, 1.0, value=0.85), # top_p
	gr.Textbox(lines=1, value="<\|endoftext\|>") # stop
	],
	outputs=[gr.Chatbot(color_map=("green", "pink")),"state"],
	).queue()

	demo = gr.TabbedInterface(

	[iface,chatiface],["Generative","Chatbot"],
	title="RWKV-4 (1.5b Instruct)",

	)

	demo.queue()
	demo.launch(share=False)