blender / TaskSolver /tasksolver /phi.py

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	import argparse
	import os
	# os.environ["CUDA_VISIBLE_DEVICES"] = "0"

	import json
	import random
	import re
	import torch
	import numpy as np
	from tqdm import tqdm
	import shortuuid
	import sys


	from torch.utils.data import Dataset, DataLoader
	import requests
	from transformers import AutoModelForCausalLM
	from transformers import AutoProcessor
	from PIL import Image
	import math

	from .gpt4v import TaskSpec, ParsedAnswer, Question
	from .exceptions import GPTOutputParseException, GPTMaxTriesExceededException
	import threading
	from typing import List, Tuple, Union
	from loguru import logger
	from copy import deepcopy
	import time
	import os

	seed = 42
	torch.manual_seed(seed)
	np.random.seed(seed)
	random.seed(seed)
	torch.backends.cudnn.deterministic = True
	torch.backends.cudnn.benchmark = False



	class PhiModel(object):
	def __init__(self, task:TaskSpec,
	model:str = "microsoft/Phi-3.5-vision-instruct"):

	self.task:TaskSpec = task
	self.model = self.get_model(model)

	self.processor = AutoProcessor.from_pretrained(model,
	trust_remote_code=True,
	num_crops=4
	)


	def get_model(self, model):
	# Load the open-source model in

	if model == 'microsoft/Phi-3.5-vision-instruct':
	model_weights = AutoModelForCausalLM.from_pretrained(
	model,
	device_map="sequential",
	trust_remote_code=True,
	torch_dtype=torch.float16,
	_attn_implementation='flash_attention_2'
	)
	return model_weights

	def ask(self, payload:dict, n_choices=1, temperature=0.7) -> Tuple[List[dict], List[dict]]:
	"""
	args:
	payload: json dictionary, prepared by `prepare_payload`
	"""

	def phi_thread(self, idx, payload, results, temperature):

	# creation of payload
	mod_payload = deepcopy(payload)

	prompt = self.processor.tokenizer.apply_chat_template(
	payload['messages'],
	tokenize=False,
	add_generation_prompt=True
	)

	inputs = self.processor(prompt, mod_payload['images'], return_tensors="pt").to('cuda')

	generation_args = {
	"max_new_tokens": payload['max_tokens'],
	"temperature": temperature,
	"do_sample": False,
	}

	try:
	# Preparation for inference
	generate_ids = self.model.generate(**inputs,
	eos_token_id=self.processor.tokenizer.eos_token_id,
	**generation_args
	)

	generate_ids = self.model.generate(**inputs,
	eos_token_id=self.processor.tokenizer.eos_token_id,
	**generation_args
	)

	# remove input tokens
	generate_ids = generate_ids[:, inputs['input_ids'].shape[1]:]
	response = self.processor.batch_decode(generate_ids,
	skip_special_tokens=True,
	clean_up_tokenization_spaces=False)[0]

	except Exception as e:
	raise e

	output_text = response
	# print('outputs: ', output_text)
	message = {'content' : output_text}

	results[idx] = {"metadata": output_text, "message": message}

	return

	assert n_choices >= 1
	results = [None] * n_choices
	if n_choices > 1:
	phi_jobs = [threading.Thread(target=phi_thread,
	args=(self, idx, payload, results, temperature))
	for idx in range(n_choices)]
	for job in phi_jobs:
	job.start()
	for job in phi_jobs:
	job.join()
	else:
	phi_thread(self, 0, payload, results, temperature)

	messages:List[dict] = [ res["message"] for res in results]
	metadata:List[dict] = [ res["metadata"] for res in results]
	return messages, metadata


	@staticmethod
	def prepare_payload(question:Question,
	max_tokens=1000,
	verbose:bool=False,
	prepend:Union[dict, None]=None,
	**kwargs
	) -> dict:

	image_dic = None
	text = ''
	dic_list = question.get_json()
	for dic in question.get_json():
	# The case of text
	if dic['type'] == 'text':
	text += dic['text']

	# The case of vision input
	elif dic['type'] == 'image_url':
	image_dic = dic['image']

	if not image_dic:
	image_dic = Image.new('RGB', (512, 512), color = (255, 255, 255))

	messages = [
	{"role": "user", "content": text+"<\|image_1\|>\n"},
	]

	payload = {
	"messages": messages,
	"images": [image_dic],
	"max_tokens": max_tokens,
	}


	return payload


	def rough_guess(self, question:Question, max_tokens=1000,
	max_tries=1, query_id:int=0,
	verbose=False, temperature=1,
	**kwargs):

	p = self.prepare_payload(question, max_tokens = max_tokens, verbose=verbose, prepend=None,
	model=self.model)

	ok = False
	reattempt = 0
	while not ok:
	response, meta_data = self.ask(p, temperature=temperature)
	response = response[0]
	# logger.info(f'response: {response}')
	try:
	parsed_response = self.task.answer_type.parser(response["content"])
	except GPTOutputParseException as e:
	# logger.warning(f"The following was not parseable:\n\n{response}\n\nBecause\n\n{e}")

	# if not os.path.exists('errors/'):
	# # Create the directory if it doesn't exist
	# os.makedirs('errors/')
	# error_saved = f'errors/{time.strftime("%Y-%m-%d-%H-%M-%S")}.json'
	# with open(error_saved, "w") as f:
	# f.write(p_ans.code)
	# logger.warning(f"The following was not parseable. Saved in {error_saved}.")

	reattempt += 1
	if reattempt > max_tries:
	logger.error(f"max tries ({max_tries}) exceeded.")
	raise GPTMaxTriesExceededException

	logger.warning(f"Reattempt #{reattempt} querying LLM")
	continue
	ok = True

	return parsed_response, response, meta_data, p

	def all_rough_guess(self, task, question:Question, max_tokens=1000,
	max_tries=1, query_id:int=0,
	verbose=False, temperature=1,
	**kwargs):

	p = self.prepare_payload(question, max_tokens = max_tokens, verbose=verbose, prepend=None,
	model=self.model)

	ok = False
	reattempt = 0
	while not ok:
	response, meta_data = self.ask(p, temperature=temperature)
	response = response[0]
	# logger.info(f'response: {response}')
	try:
	parsed_response = task.answer_type.parser(response["content"])
	except GPTOutputParseException as e:
	# logger.warning(f"The following was not parseable:\n\n{response}\n\nBecause\n\n{e}")

	# if not os.path.exists('errors/'):
	# # Create the directory if it doesn't exist
	# os.makedirs('errors/')
	# error_saved = f'errors/{time.strftime("%Y-%m-%d-%H-%M-%S")}.json'
	# with open(error_saved, "w") as f:
	# f.write(p_ans.code)
	# logger.warning(f"The following was not parseable. Saved in {error_saved}.")

	reattempt += 1
	if reattempt > max_tries:
	logger.error(f"max tries ({max_tries}) exceeded.")
	raise GPTMaxTriesExceededException

	logger.warning(f"Reattempt #{reattempt} querying LLM")
	continue
	ok = True

	return parsed_response, response, meta_data, p

	def many_rough_guesses(self, num_threads:int,
	question:Question, max_tokens=1000,
	verbose=False, max_tries=1, temperature=1
	) -> List[Tuple[ParsedAnswer, str, dict, dict]]:
	"""
	Args:
	num_threads : number of independent threads.
	all other arguments are same as those of `rough_guess()`

	Returns
	List of elements, each element is a tuple following the
	return signature of `rough_guess()`
	"""

	p = self.prepare_payload(question, max_tokens = max_tokens, verbose=verbose, prepend=None,
	model=self.model)

	# TODO
	n_choices = num_threads

	# TODO: wrap in robust-ask method, repeatedly asks until parseable output.
	ok = False
	reattempt = 0
	while not ok:
	response, meta_data = self.ask(p, n_choices=n_choices, temperature=temperature)
	try:
	parsed_response = [self.task.answer_type.parser(r["content"]) for r in response]
	except GPTOutputParseException as e:
	# logger.warning(f"The following was not parseable:\n\n{response}\n\nBecause\n\n{e}")

	# TODO provide the parse error message into GPT for the next round to be parsable
	reattempt += 1
	if reattempt > max_tries:
	logger.error(f"max tries ({max_tries}) exceeded.")
	raise GPTMaxTriesExceededException

	logger.warning(f"Reattempt #{reattempt} querying LLM")
	continue
	ok = True

	return parsed_response, response, meta_data, p

	def run_once(self, question:Question, max_tokens=1000, temperature=1, **kwargs):
	q = self.task.first_question(question)
	p_ans, ans, meta, p = self.rough_guess(q, max_tokens=max_tokens, temperature=temperature, **kwargs)
	return p_ans, ans, meta, p