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object-detection-safari

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Fangrui Liu

update to clickhouse python client

8dda822 over 1 year ago

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19.5 kB

	from time import time
	from io import BytesIO
	import torch
	import streamlit as st
	import streamlit.components.v1 as components
	import numpy as np
	import torch
	import logging
	from os import environ
	from transformers import OwlViTProcessor, OwlViTForObjectDetection
	from bot import Bot, Message
	from parse import parse
	from clickhouse_connect import get_client
	from classifier import Classifier, prompt2vec, tune, SplitLayer
	from query_model import simple_query, topk_obj_query, rev_query
	from card_model import card, obj_card, style
	from box_utils import postprocess

	environ["TOKENIZERS_PARALLELISM"] = "true"

	OBJ_DB_NAME = "mqdb_demo.coco_owl_vit_b_32_objects"
	IMG_DB_NAME = "mqdb_demo.coco_owl_vit_b_32_images"
	MODEL_ID = "google/owlvit-base-patch32"
	DIMS = 512

	qtime = 0


	def build_model(name="google/owlvit-base-patch32"):
	"""Model builder function

	Args:
	name (str, optional): Name for HuggingFace OwlViT model. Defaults to "google/owlvit-base-patch32".

	Returns:
	(model, processor): OwlViT model and its processor for both image and text
	"""
	device = "cpu"
	if torch.cuda.is_available():
	device = "cuda"
	model = OwlViTForObjectDetection.from_pretrained(name).to(device)
	processor = OwlViTProcessor.from_pretrained(name)
	return model, processor


	@st.experimental_singleton(show_spinner=False)
	def init_owlvit():
	"""Initialize OwlViT Model

	Returns:
	model, processor
	"""
	model, processor = build_model(MODEL_ID)
	return model, processor


	@st.experimental_singleton(show_spinner=False)
	def init_db():
	"""Initialize the Database Connection

	Returns:
	meta_field: Meta field that records if an image is viewed or not
	client: Database connection object
	"""
	meta = []
	r = parse("{http_pre}://{host}:{port}", st.secrets["DB_URL"])
	client = get_client(
	host=r['host'], port=r['port'], user=st.secrets["USER"], password=st.secrets["PASSWD"]
	)
	return meta, client


	def refresh_index():
	"""Clean the session"""
	del st.session_state["meta"]
	st.session_state.meta = []
	st.session_state.query_num = 0
	logging.info(f"Refresh for '{st.session_state.meta}'")
	# Need to clear singleton function with streamlit API
	init_db.clear()
	# refresh session states
	st.session_state.meta, st.session_state.index = init_db()
	if "clf" in st.session_state:
	del st.session_state.clf
	if "xq" in st.session_state:
	del st.session_state.xq
	if "topk_img_id" in st.session_state:
	del st.session_state.topk_img_id


	def query(xq, exclude_list=None):
	"""Query matched w.r.t a given vector

	In this part, we will retrieve A LOT OF data from the server,
	including TopK boxes and their embeddings, the counterpart of non-TopK boxes in TopK images.

	Args:
	xq (numpy.ndarray or list of floats): Query vector

	Returns:
	matches: list of Records object. Keys referrring to selected columns group by images.
	Exclude the user's viewlist.
	img_matches: list of Records object. Containing other non-TopK but hit objects among TopK images.
	side_matches: list of Records object. Containing REAL TopK objects disregard the user's view history
	"""
	attempt = 0
	xq = xq
	xq = xq / np.linalg.norm(xq, axis=-1, ord=2, keepdims=True)
	status_bar = [st.empty(), st.empty()]
	status_bar[0].write("Retrieving Another TopK Images...")
	pbar = status_bar[1].progress(0)
	while attempt < 3:
	try:
	matches = topk_obj_query(
	st.session_state.index,
	xq,
	IMG_DB_NAME,
	OBJ_DB_NAME,
	exclude_list=exclude_list,
	topk=5000,
	)
	img_ids = [r["img_id"] for r in matches]
	if "topk_img_id" not in st.session_state:
	st.session_state.topk_img_id = img_ids
	status_bar[0].write("Retrieving TopK Images...")
	pbar.progress(25)
	o_matches = rev_query(
	st.session_state.index,
	xq,
	st.session_state.topk_img_id,
	IMG_DB_NAME,
	OBJ_DB_NAME,
	thresh=0.1,
	)
	status_bar[0].write("Retrieving TopKs Objects...")
	pbar.progress(50)
	side_matches = simple_query(
	st.session_state.index,
	xq,
	IMG_DB_NAME,
	OBJ_DB_NAME,
	thresh=-1,
	topk=5000,
	)
	status_bar[0].write("Retrieving Non-TopK in Another TopK Images...")
	pbar.progress(75)
	if len(img_ids) > 0:
	img_matches = rev_query(
	st.session_state.index,
	xq,
	img_ids,
	IMG_DB_NAME,
	OBJ_DB_NAME,
	thresh=0.1,
	)
	else:
	img_matches = []
	status_bar[0].write("DONE!")
	pbar.progress(100)
	break
	except Exception as e:
	# force reload if we have trouble on connections or something else
	logging.warning(str(e))
	st.session_state.meta, st.session_state.index = init_db()
	attempt += 1
	matches = []
	_ = [s.empty() for s in status_bar]
	if len(matches) == 0:
	logging.error(f"No matches found for '{OBJ_DB_NAME}'")
	return matches, img_matches, side_matches, o_matches


	@st.experimental_singleton(show_spinner=False)
	def init_random_query():
	"""Initialize a random query vector

	Returns:
	xq: a random vector
	"""
	xq = np.random.rand(1, DIMS)
	xq /= np.linalg.norm(xq, keepdims=True, axis=-1)
	return xq


	def submit(meta):
	"""Tune the model w.r.t given score from user."""
	# Only updating the meta if the train button is pressed
	st.session_state.meta.extend(meta)
	st.session_state.step += 1
	matches = st.session_state.matched_boxes
	X, y = list(
	zip(
	*(
	(
	v[0],
	st.session_state.text_prompts.index(st.session_state[f"label-{i}"]),
	)
	for i, v in matches.items()
	)
	)
	)
	st.session_state.xq = tune(
	st.session_state.clf, X, y, iters=int(st.session_state.iters)
	)
	(
	st.session_state.matches,
	st.session_state.img_matches,
	st.session_state.side_matches,
	st.session_state.o_matches,
	) = query(st.session_state.xq, st.session_state.meta)


	# st.set_page_config(layout="wide")
	# To hack the streamlit style we define our own style.
	# Boxes are drawn in SVGs.
	st.write(style(), unsafe_allow_html=True)

	bot = Bot(app_name="HF OwlViT", enabled=True, bot_key=st.secrets['BOT_KEY'])
	try:
	with st.spinner("Connecting DB..."):
	st.session_state.meta, st.session_state.index = init_db()

	with st.spinner("Loading Models..."):
	# Initialize model
	model, tokenizer = init_owlvit()
	# If its a fresh start... (query not set)
	if "xq" not in st.session_state:
	with st.container():
	st.title("Object Detection Safari")
	start = [st.empty() for _ in range(8)]
	start[0].info(
	"""
	We extracted boxes from 287,104 images in COCO Dataset, including its train / val / test /
	unlabeled images, collecting 165,371,904 boxes which are then filtered with common prompts.
	You can search with almost any words or phrases you can think of. Please enjoy your journey of
	an adventure to COCO.
	"""
	)
	prompt = start[1].text_input(
	"Prompt:",
	value="",
	placeholder="Examples: football, billboard, stop sign, watermark ...",
	)
	with start[2].container():
	st.write(
	"You can search with multiple keywords. Plese separate with commas but with no space."
	)
	st.write("For example: `cat,dog,tree`")
	st.markdown(
	"""
	<p style="color:gray;"> Don\'t know what to search? Try <b>Random</b>!</p>
	""",
	unsafe_allow_html=True,
	)

	upld_model = start[4].file_uploader(
	"Or you can upload your previous run!", type="onnx"
	)
	upld_btn = start[5].button(
	"Use Loaded Weights", disabled=upld_model is None, on_click=refresh_index
	)

	with start[3]:
	col = st.columns(8)
	has_no_prompt = len(prompt) == 0 and upld_model is None
	prompt_xq = col[6].button(
	"Prompt", disabled=len(prompt) == 0, on_click=refresh_index
	)
	random_xq = col[7].button(
	"Random", disabled=not has_no_prompt, on_click=refresh_index
	)
	matches = []
	img_matches = []
	if random_xq:
	xq = init_random_query()
	st.session_state.xq = xq
	prompt = "unknown"
	st.session_state.text_prompts = prompt.split(",") + ["none"]
	_ = [elem.empty() for elem in start]
	t0 = time()
	(
	st.session_state.matches,
	st.session_state.img_matches,
	st.session_state.side_matches,
	st.session_state.o_matches,
	) = query(st.session_state.xq, st.session_state.meta)
	t1 = time()
	qtime = (t1 - t0) * 1000
	elif prompt_xq or upld_btn:
	if upld_model is not None:
	import onnx
	from onnx import numpy_helper

	_model = onnx.load(upld_model)
	st.session_state.text_prompts = [
	node.name for node in _model.graph.output
	] + ["none"]
	weights = _model.graph.initializer
	xq = numpy_helper.to_array(weights[0]).T
	assert (
	xq.shape[0] == len(st.session_state.text_prompts) - 1
	and xq.shape[1] == DIMS
	)
	st.session_state.xq = xq
	_ = [elem.empty() for elem in start]
	else:
	logging.info(f"Input prompt is {prompt}")
	st.session_state.text_prompts = prompt.split(",") + ["none"]
	input_ids, xq = prompt2vec(
	st.session_state.text_prompts[:-1], model, tokenizer
	)
	st.session_state.xq = xq
	_ = [elem.empty() for elem in start]
	t0 = time()
	(
	st.session_state.matches,
	st.session_state.img_matches,
	st.session_state.side_matches,
	st.session_state.o_matches,
	) = query(st.session_state.xq, st.session_state.meta)
	t1 = time()
	qtime = (t1 - t0) * 1000

	# If its not a fresh start (query is set)
	if "xq" in st.session_state:
	o_matches = st.session_state.o_matches
	side_matches = st.session_state.side_matches
	img_matches = st.session_state.img_matches
	matches = st.session_state.matches
	# initialize classifier
	if "clf" not in st.session_state:
	st.session_state.clf = Classifier(st.session_state.index, OBJ_DB_NAME, st.session_state.xq)
	st.session_state.step = 0
	if qtime > 0:
	st.info(
	"Query done in {0:.2f} ms and returned {1:d} images with {2:d} boxes".format(
	qtime,
	len(matches),
	sum(
	[
	len(m["box_id"]) + len(im["box_id"])
	for m, im in zip(matches, img_matches)
	]
	),
	)
	)
	lnprob = torch.nn.Linear(st.session_state.xq.shape[1], st.session_state.xq.shape[0], bias=False)
	lnprob.weight = torch.nn.Parameter(st.session_state.clf.weight)

	# export the model into executable ONNX
	st.session_state.dnld_model = BytesIO()
	torch.onnx.export(
	torch.nn.Sequential(lnprob, SplitLayer()),
	torch.zeros([1, len(st.session_state.xq[0])]),
	st.session_state.dnld_model,
	input_names=["input"],
	output_names=st.session_state.text_prompts[:-1],
	)

	dnld_nam = st.text_input(
	"Download Name:",
	f'{("_".join([i.replace(" ", "-") for i in st.session_state.text_prompts[:-1]]) if "text_prompts" in st.session_state else "model")}.onnx',
	max_chars=50,
	)
	dnld_btn = st.download_button(
	"Download your classifier!", st.session_state.dnld_model, dnld_nam
	)
	# build up a sidebar to display REAL TopK in DB
	# this will change during user's finetune. But sometime it would lead to bad results
	side_bar_len = min(240 // len(st.session_state.text_prompts), 120)
	with st.sidebar:
	with st.expander("Top-K Images"):
	with st.container():
	boxes_w_img, _ = postprocess(
	o_matches, st.session_state.text_prompts, o_matches,
	agnostic_ratio=1-0.6**(st.session_state.step+1),
	class_ratio=1-0.2**(st.session_state.step+1)
	)
	boxes_w_img = sorted(boxes_w_img, key=lambda x: x[4], reverse=True)
	for img_id, img_url, img_w, img_h, img_score, boxes in boxes_w_img:
	args = img_url, img_w, img_h, boxes
	st.write(card(*args), unsafe_allow_html=True)

	with st.expander("Top-K Objects", expanded=True):
	side_cols = st.columns(len(st.session_state.text_prompts[:-1]))
	for _cols, m in zip(side_cols, side_matches):
	with _cols.container():
	for cx, cy, w, h, logit, img_url, img_w, img_h in zip(
	m["cx"],
	m["cy"],
	m["w"],
	m["h"],
	m["logit"],
	m["img_url"],
	m["img_w"],
	m["img_h"],
	):
	st.write(
	"{:s}: {:.4f}".format(
	st.session_state.text_prompts[m["label"]], logit
	)
	)
	_html = obj_card(
	img_url, img_w, img_h, cx, cy, w, h, dst_len=side_bar_len
	)
	components.html(_html, side_bar_len, side_bar_len)
	with st.container():
	# Here let the user interact with batch labeling
	with st.form("batch", clear_on_submit=False):
	col = st.columns([1, 9])

	# If there is nothing to show about
	if len(matches) <= 0:
	st.warning(
	"Oops! We didn't find anything relevant to your query! Pleas try another one :/"
	)
	else:
	st.session_state.iters = st.slider(
	"Number of Iterations to Update",
	min_value=0,
	max_value=10,
	step=1,
	value=2,
	)
	# No matter what happened the user wants a way back
	col[1].form_submit_button("Choose a new prompt", on_click=refresh_index)

	# If there are things to show
	if len(matches) > 0:
	with st.container():
	prompt_labels = st.session_state.text_prompts

	# Post processing boxes regarding to their score, intersection
	boxes_w_img, meta = postprocess(
	matches, st.session_state.text_prompts, img_matches,
	agnostic_ratio=1-0.6**(st.session_state.step+1),
	class_ratio=1-0.2**(st.session_state.step+1)
	)

	# Sort the result according to their relavancy
	boxes_w_img = sorted(boxes_w_img, key=lambda x: x[4], reverse=True)

	st.session_state.matched_boxes = {}
	# For each images in the retrieved images, DISPLAY
	for img_id, img_url, img_w, img_h, img_score, boxes in boxes_w_img:

	# prepare inputs for training
	st.session_state.matched_boxes.update({b[0]: b for b in boxes})
	args = img_url, img_w, img_h, boxes

	# display boxes
	with st.expander(
	"{:s}: {:.4f}".format(img_id, img_score), expanded=True
	):
	ind_b = 0
	# 4 columns: (img, obj, obj, obj)
	img_row = st.columns([4, 2, 2, 2])
	img_row[0].write(card(*args), unsafe_allow_html=True)
	# crop objects out of the original image
	for b in boxes:
	_id, cx, cy, w, h, label, logit, is_selected = b[:8]
	with img_row[1 + ind_b % 3].container():
	st.write("{:s}: {:.4f}".format(label, logit))
	# quite hacky: with streamlit components API
	_html = obj_card(
	img_url, img_w, img_h, *b[1:5], dst_len=120
	)
	components.html(_html, 120, 120)
	# the user will choose the right label of the given object
	st.selectbox(
	"Class",
	prompt_labels,
	index=prompt_labels.index(label),
	key=f"label-{_id}",
	)
	ind_b += 1
	col[0].form_submit_button("Train!", on_click=lambda: submit(meta))
	except Exception as e:
	msg = Message()
	msg.content = str(e.with_traceback(None))
	msg.type_hint = str(type(e).__name__)
	bot.incident(msg)