project/log_analyzer.py

import json
import logging
from typing import List

import numpy as np

import analyzers
from analyzers import get_renderer, Analyzer, render, Store
from analyzers.analyzer import ResultStore
from analyzers.render.default import LogEntryCountCSV
from analyzers.settings import LogSettings, load_settings
from loaders import LOADERS

logging.basicConfig(format='%(levelname)s %(name)s:%(message)s', level=logging.DEBUG)
log: logging.Logger = logging.getLogger(__name__)

requests_log = logging.getLogger('requests')
requests_log.setLevel(logging.WARN)


def process_log(log_id: str, settings: LogSettings) -> List[Analyzer]:
	logfile: str = "data/inst_{id}.{format}".format(id=log_id, format=settings.log_format)
	logfile = log_id
	loader = LOADERS[settings.log_format]()
	try:
		loader.load(logfile)
	except BaseException as e:
		raise RuntimeError(e)
	analyzers: List[Analyzer] = []
	log.debug("build analyzers")
	for analyzer in settings.analyzers:
		analyzers.append(analyzer(settings))
	log.debug("process entries")
	for entry in loader.get_entry():
		for analyzer in analyzers:
			try:
				if analyzer.process(entry):
					break
			except KeyError as e:
				log.exception(e)
	return analyzers


if __name__ == '__main__':
	settings: LogSettings = load_settings("biogames2.json")
	log_ids: List[str] = [
		"20d4244719404ffab0ca386c76e4b112",
		"56d9b64144ab44e7b90bf766f3be32e3",
		"dc2cdc28ca074715b905e4aa5badff10",
		"e32b16998440475b994ab46d481d3e0c",
	]
	log_ids: List[str] = [
		# "34fecf49dbaca3401d745fb467",
		#	"44ea194de594cd8d63ac0314be",
		#	"57c444470dbf88605433ca935c",
		#	"78e0c545b594e82edfad55bd7f",
		#	"91abfd4b31a5562b1c66be37d9",
		"597b704fe9ace475316c345903",
		"e01a684aa29dff9ddd9705edf8",
		"fbf9d64ae0bdad0de7efa3eec6",
		#	"fe1331481f85560681f86827ec",
		"fe1331481f85560681f86827ec"]
	# "fec57041458e6cef98652df625", ]
	log_ids = []
	# with open("/home/clemens/git/ma/test/filtered") as src:
	if False:
		with open("/home/clemens/git/ma/test/filtered_5_actions") as src:
			for line in src:
				line = line.strip()
				log_ids.append(line)
		store: ResultStore = ResultStore()
		for log_id in log_ids:
			for analysis in process_log(log_id, settings):
				log.info("* Result for " + analysis.name())
				# print(analysis.result())
				# print(analysis.render())
				analysis.result(store)
	if False:
		for r in get_renderer(analyzers.LocomotionActionAnalyzer):
			r().render(store.get_all())
	if False:
		render(analyzers.LocationAnalyzer, store.get_all())
	# print(json.dumps(store.serializable(), indent=1))
	if False:
		render(analyzers.ActivityMapper, store.get_all())
		render(analyzers.ProgressAnalyzer, store.get_all())

	if False:
		from analyzers.postprocessing import graph

		g = graph.Cache(settings)
		g.run(store)
	if False:
		# render(analyzers.SimulationOrderAnalyzer, store.get_all())
		for cat in store.get_categories():
			data = store.get_category(cat)
			render(analyzers.SimulationOrderAnalyzer, data, name=cat)
	if False:
		LogEntryCountCSV.summary = None
		for cat in store.get_categories():
			data = store.get_category(cat)
			render(analyzers.LogEntryCountAnalyzer, data, name=cat)
		if LogEntryCountCSV.summary:
			headers = []
			lines = []
			for name in LogEntryCountCSV.summary:
				data = LogEntryCountCSV.summary[name]
				for head in data:
					if not head in headers:
						headers.append(head)
				line = [name]
				for head in headers:
					line.append(data[head]) if head in data else line.append(0)
				lines.append(line)
			import csv

			with open('logentrycount.csv', 'w', newline='') as csvfile:
				writer = csv.writer(csvfile, quoting=csv.QUOTE_NONE)
				writer.writerow(["name"] + [h.split(".")[-1] for h in headers])
				for line in lines:
					writer.writerow(line)

	if True:
		# json.dump(store.serializable(), open("new.json", "w"), indent=1)
		from collections import defaultdict
		import matplotlib.pyplot as plt
		from util.meta_temp import CONFIG_NAMES

		keys = [
			"simu",
			"question",
			"image",
			"audio",
			"video",
			"other",
			"map",
			# "error"
		]


		def get_data(store, relative_values=True, sort=True, show_errors=False):
			places = defaultdict(list)

			for log in store.get_all():
				if not log.analysis() == analyzers.ActivityMapper:
					continue
				result = defaultdict(lambda: 0)
				for i in log.get()['track']:
					duration = i['properties']['end_timestamp'] - i['properties']['start_timestamp']
					result[i['properties']['activity_type']] += duration
				print(json.dumps(result, indent=4))
				total = sum(result.values())
				print(total)
				percentage = defaultdict(lambda: 0)
				minutes = defaultdict(lambda: 0)
				for i in result:
					percentage[i] = result[i] / total
					minutes[i] = result[i] / 60_000
				print(json.dumps(percentage, indent=4))
				if not 'error' in result or show_errors:
					if relative_values:
						places[log.get()['instance']].append(percentage)
					else:
						places[log.get()['instance']].append(minutes)
			if sort:
				for place in places:
					places[place] = sorted(places[place], key=lambda item: item['map'])
			return places


		from shapely.geometry import LineString
		from shapely.ops import transform
		from functools import partial
		import pyproj


		def calc_distance(coordinates):
			track = LineString(coordinates)
			project = partial(
				pyproj.transform,
				pyproj.Proj(init='EPSG:4326'),
				pyproj.Proj(init='EPSG:32633'))
			return transform(project, track).length


		def get_data_distance(store, relative_values=True, sort=True, show_errors=False):
			places = defaultdict(list)

			for log in store.get_all():
				if not log.analysis() == analyzers.ActivityMapper:
					continue
				result = defaultdict(lambda: 0)
				for i in log.get()['track']:
					coords = i['coordinates']
					if len(coords) > 1:
						distance = calc_distance(coords)
						result[i['properties']['activity_type']] += distance
				total = sum(result.values())
				percentage = defaultdict(lambda: 0)
				for i in result:
					if not total == 0:
						percentage[i] = result[i] / total
				if not 'error' in result or show_errors:
					if relative_values:
						places[log.get()['instance']].append(percentage)
					else:
						places[log.get()['instance']].append(result)
			if sort:
				for place in places:
					places[place] = sorted(places[place], key=lambda item: item['map'])
			return places


		def get_all_data(store):
			places = defaultdict(list)

			for log in store.get_all():
				if not log.analysis() == analyzers.ActivityMapper:
					continue
				result = defaultdict(lambda: defaultdict(lambda: 0))
				for i in log.get()['track']:
					coords = i['coordinates']
					if len(coords) > 1:
						distance = calc_distance(coords)
					else:
						distance = 0.1
					result["space"][i['properties']['activity_type']] += distance
					duration = i['properties']['end_timestamp'] - i['properties']['start_timestamp']
					result["time"][i['properties']['activity_type']] += duration
				total_space = sum(result["space"].values())
				total_time = sum(result["time"].values())
				percentage = defaultdict(lambda: defaultdict(lambda: 0))
				for i in result["space"]:
					if not total_space == 0:
						percentage[i]["space"] = result["space"][i] / total_space
					else:
						percentage[i]["space"] = 0
					if not total_time == 0:
						percentage[i]["time"] = result["time"][i] / total_time
					else:
						percentage[i]["time"] = 0
				print(percentage)
				if not 'error' in result:
					places[log.get()['instance']].append(percentage)
			return places


		def stack_data(keys, places):
			dummy = [0] * len(keys)
			results = []
			sites = []
			for i in places:
				for j in places[i]:
					ordered = []
					for k in keys:
						ordered.append(j[k])
					results.append(ordered)
				results.append(dummy)
				sites.append(CONFIG_NAMES[i] if i in CONFIG_NAMES else "---")
			return results, sites


		def plot_data(places, keys):
			results, sites = stack_data(keys, places)

			size = len(results)
			print("{} elements total".format(size))
			ind = np.arange(size)
			width = 1
			# print(results)
			data = list(zip(*results))
			# print(data)
			lines = []
			bottom = [0] * size
			for i in range(0, len(data)):
				lines.append(plt.bar(ind, data[i], bottom=bottom, width=width)[0])
				for k, x in enumerate(data[i]):
					bottom[k] += x
			plt.legend(lines, keys)
			plt.title(", ".join(sites))
			plt.show()


		colors = {
			"simu": "blue",
			"question": "orange",
			"image": "green",
			"audio": "red",
			"video": "purple",
			"other": "brown",
			"map": "violet",
			# "error":"grey"
		}
		markers = [".", "o", "x", "s", "*", "D", "p", ",", "<", ">", "^", "v", "1", "2", "3", "4"]


		def plot_time_space(time_data, space_data, keys):
			# assuming time_data and space_data are in same order!
			marker = 0
			for id in time_data:
				for k in keys:
					for i in range(len(time_data[id])):
						print(time_data[id][i][k], space_data[id][i][k])
						plt.plot(time_data[id][i][k], space_data[id][i][k], color=colors[k], marker=markers[marker])
				marker += 1
			plt.show()


		# plt.cla()
		# plt.clf()
		# plt.close()

		def plot_time_space_rel(combined, keys):
			groups = defaultdict(list)
			keys = list(keys)
			keys.remove("other")
			for k in keys:
				for id in sorted(combined):
					group = 0.0
					count = 0
					for item in combined[id]:
						if k in item:
							time = item[k]["time"]
							distance = item[k]["space"]
							if time > 0:
								group += (distance / time)
								count+=1
							else:
								print("div by zero", distance, time)
					if count > 0:
						groups[k].append(group/count)
					else:
						groups[k].append(0.0)
			ind = np.arange(len(combined.keys()))
			width = .7 / len(groups)
			print(ind)
			print(json.dumps(groups, indent=1))
			bars = []
			fig, ax = plt.subplots()
			for k in groups:
				print(groups[k])
				if not len(groups[k]):
					groups[k].append(0)
				bars.append(ax.bar(ind, groups[k], width, color=colors[k]))
				ind = ind + width
			ax.set_xticks(ind + width / 2)
			ax.set_xticklabels(list([CONFIG_NAMES[i] if i in CONFIG_NAMES else "---" for i in sorted(combined.keys())]))
			plt.legend(bars, keys)
			print(combined.keys())
			print([CONFIG_NAMES[i] if i in CONFIG_NAMES else "---" for i in sorted(combined.keys())])
			plt.show()


		# spatial_data = get_data_distance(store,relative_values=False)
		# temporal_data = get_data(store,relative_values=False)
		# spatial_data_rel = get_data_distance(store,relative_values=True)
		# temporal_data_rel = get_data(store,relative_values=True)
		#temporal_data_rel = json.load(open("temporal_rel.json"))
		#spatial_data_rel = json.load(open("spatial_rel.json"))
		# import IPython
		# IPython.embed()

		#print(json.dumps(get_all_data(store)))
#		json.dump(get_all_data(store), open("combined.json", "w"))
		combined = json.load(open("combined.json"))
		plot_time_space_rel(combined, keys)

		#plot_time_space_rel(temporal_data_rel, spatial_data_rel, keys)

	# plot_data(data, keys)
	# plot_data(get_data_distance(store,relative_values=False), keys)


# for analyzers in analyzers:
#	if analyzers.name() in ["LogEntryCount", "ActionSequenceAnalyzer"]:
#		print(json.dumps(analyzers.result(), indent=2))

# for analyzers in analyzers:
#	if analyzers.name() in ["BoardDuration"]:
#		print(json.dumps(analyzers.result(), indent=2))
#		print(analyzers.render())

# coords = analyzers[1].render()
# with open("test.js", "w") as out:
#	out.write("coords = "+coords)