Initial commit of the bus_synthesizer

2 weeks ago · 742dacd846
parent 854b5723bb
commit 742dacd846
3 changed files with 209 additions and 0 deletions
--- a/bus_synthesizer/bus_synthesizer/init.py
+++ b/bus_synthesizer/bus_synthesizer/init.py
--- a/bus_synthesizer/bus_synthesizer/main.py
+++ b/bus_synthesizer/bus_synthesizer/main.py
@ -0,0 +1,16 @@
 import gevent.monkey
 gevent.monkey.patch_all()
 import logging
 import os
 import argh
 from thrimshim.main import main
 LOG_FORMAT = "[%(asctime)s] %(levelname)8s %(name)s(%(module)s:%(lineno)d): %(message)s"
 level = os.environ.get('WUBLOADER_LOG_LEVEL', 'INFO').upper()
 logging.basicConfig(level=level, format=LOG_FORMAT)
 argh.dispatch_command(main)
--- a/bus_synthesizer/bus_synthesizer/main.py
+++ b/bus_synthesizer/bus_synthesizer/main.py
@ -0,0 +1,193 @@
 import datetime
 import itertools
 import json
 import math
 import operator
 import argh
 import base64
 import flask
 import gevent
 import gevent.backdoor
 from gevent.pywsgi import WSGIServer
 import common
 from common import database
 from common.flask_stats import request_stats, after_request
 app = flask.Flask('bus_synthesizer')
 app.after_request(after_request)
 MAX_SPEED = 45 / 3600
 def cors(app):
 	"""WSGI middleware that sets CORS headers"""
 	HEADERS = [
 		("Access-Control-Allow-Credentials", "false"),
 		("Access-Control-Allow-Headers", "*"),
 		("Access-Control-Allow-Methods", "GET,POST,HEAD"),
 		("Access-Control-Allow-Origin", "*"),
 		("Access-Control-Max-Age", "86400"),
 	]
 	def handle(environ, start_response):
 		def _start_response(status, headers, exc_info=None):
 			headers += HEADERS
 			return start_response(status, headers, exc_info)
 		return app(environ, _start_response)
 	return handle
 def post_process_miles(seconds, miles, days):
 	good = []
 	suspect = []
 	for i in range(1, len(seconds) - 1):
 		if math.isnan(miles[i]) or miles[i] <= 100:
 			suspect.append(i)
 			continue
 		if days[i] is None or days[i] == 'score':
 			suspect.append(i)
 			continue
 		previous_diff = miles[i] - miles[i - 1]
 		if previous_diff < 0 or previous_diff > MAX_SPEED * (seconds[i] - seconds[i - 1]):
 			suspect.append(i)
 			continue
 		next_diff = miles[i + 1] - miles[i]
 		if next_diff < 0 or next_diff > MAX_SPEED * (seconds[i + 1] - seconds[i]):
 			suspect.append(i)
 			continue
 		# handle big jumps to apparently good data
 		if good and miles[i] - miles[good[-1]] > MAX_SPEED * (seconds[i] - seconds[good[-1]]):
 			suspect.append(i)
 			continue
 		# try to filter out bad data at the start
 		if not good and miles[i] > 1000:
 			suspect.append(i)
 			continue
 		good.append(i)
 	corrected_miles = [miles[i] if i in good else 0. for i in range(len(miles))]
 	# identify groups of suspicious data and correct them
 	for k, g in itertools.groupby(enumerate(suspect), lambda x:x[0]-x[1]):
 		group = map(operator.itemgetter(1), g)
 		group = list(map(int, group))
 		to_fix = []
 		for i in group:
 			back = 1
 			# check whether any suspicious data is likely valid and mark it as not suspicious
 			while True:
 				if corrected_miles[i - back]:
 					diff = miles[i] - corrected_miles[i - back]
 					max_diff = MAX_SPEED * (seconds[i] - seconds[i - back])
 					forward_diff = miles[group[-1] + 1] - miles[i]
 					forward_max_diff = MAX_SPEED * (seconds[group[-1] + 1] - seconds[i])
 					if diff >= 0 and diff <= max_diff and forward_diff <= forward_max_diff:
 						corrected_miles[i] = miles[i]
 					break
 				else:
 					back += 1
 			if not corrected_miles[i]:
 				to_fix.append(i)
 		# actually fix remaining suspicious data via linear interpolation
 		for k, g in itertools.groupby(enumerate(to_fix), lambda x:x[0]-x[1]):
 			subgroup = map(operator.itemgetter(1), g)
 			subgroup = list(map(int, subgroup))
 			# ignore data from before the first good measurement or after crashes
 			if subgroup[0] < good[0] or corrected_miles[subgroup[0] - 1] > corrected_miles[subgroup[-1] + 1]:
 				continue
 			m = (corrected_miles[subgroup[-1] + 1] - corrected_miles[subgroup[0] - 1]) / (seconds[subgroup[-1] + 1] - seconds[subgroup[0] - 1])
 			b = corrected_miles[subgroup[-1] + 1] - m * seconds[subgroup[-1] + 1]	   
 			for i in subgroup:
 				corrected_miles[i] = m * seconds[i] + b
 	# custom handling of the start and end
 	if 0 <= corrected_miles[1] - miles[0] <= MAX_SPEED * (seconds[1] - seconds[0]):
 		corrected_miles[0] = miles[0]
 	if 0 <= miles[-1] - corrected_miles[-2] <= MAX_SPEED * (seconds[-1] - seconds[-2]):
 		corrected_miles[-1] = miles[-1]
 	corrected_miles = [mile if mile > 0 else math.nan for mile in corrected_miles]
 	return corrected_miles
@app.route('/bus_synthesizer/latest')
@request_stats
 def latest(): 
 	ago_30_min = datetime.datetime.utcnow() - datetime.timedelta(minutes=30)	
 	query = common.database.query(app.db_manager.get_conn(), """
 		SELECT timestamp, odometer, timeofday
 		FROM bus_data
 		WHERE timestamp > %(start)s
 		--AND NOT segment LIKE '%%partial%%'
 		ORDER BY timestamp;
 		""", start=ago_30_min)
 	rows = query.fetchall()
 	times, miles, days = zip(*rows)
 	seconds = [(time - times[0]) / datetime.timedelta(seconds=1) for time in times]
 	miles = [math.nan if mile is None else mile for mile in miles]
 	corrected_miles = post_process_miles(seconds, miles, days)
 	raw = times[-1], miles[-1], days[-1]
 	latest = None
 	second_latest = None
 	for i in range(len(times) - 1, -1, -1):
 		if not math.isnan(corrected_miles[i]):
 			if latest is None:
 				latest = times[i], seconds[i], corrected_miles[i], days[i]
 			elif second_latest is None:
 				second_latest = times[i], seconds[i], corrected_miles[i], days[i]
 			else:
 				break
 	if latest is not None:
 		processed = latest[0], latest[2], latest[3]
 	else:
 		processed = (None, None, None)
 	if second_latest is not None:
 		m = (latest[2] - second_latest[2]) / (latest[1] - second_latest[1])
 		b = latest[2] - m * latest[1]
 		now = datetime.datetime.utcnow()
 		now_second = (now - times[0]) / datetime.timedelta(seconds=1)
 		predicted = now, m * now_second + b, days[-1]
 	else:
 		predicted = None, None, None
 	output = {'raw':tuple_to_dict(raw),
 			  'post_processed':tuple_to_dict(processed),
 			  'predicted':tuple_to_dict(predicted),
 		     }
 	return to_json(output)
 def tuple_to_dict(t, names=['time', 'mile', 'ToD']):
 	return {names[i]:t[i] for i in range(len(t))}
 # copied from thrimshim
 def to_json(obj):
 	def convert(value):
 		if isinstance(value, datetime.datetime):
 			return value.isoformat()
 		if isinstance(value, datetime.timedelta):
 			return value.total_seconds()
 		if isinstance(value, memoryview) or isinstance(value, bytes):
 			return base64.b64encode(bytes(value)).decode()
 		raise TypeError(f"Can't convert object of type {value.__class__.__name__} to JSON: {value}")
 	return json.dumps(obj, default=convert)
 def main(connection_string, host='0.0.0.0', port=8004, backdoor_port=0):
 	server = WSGIServer((host, port), cors(app))
 	app.db_manager = database.DBManager(dsn=connection_string)
 	common.PromLogCountsHandler.install()
 	common.install_stacksampler()
 	if backdoor_port:
 		gevent.backdoor.BackdoorServer(('127.0.0.1', backdoor_port), locals=locals()).start()
 	common.serve_with_graceful_shutdown(server)