tra-superscript/superscript.py

# Titan Robotics Team 2022: Superscript Script
# Written by Arthur Lu, Jacob Levine, and Dev Singh
# Notes:
# setup:

__version__ = "0.8.2"

# changelog should be viewed using print(analysis.__changelog__)
__changelog__ = """changelog:
	0.8.2:
		- readded while true to main function
		- added more thread config options
	0.8.1:
		- optimized matchloop further by bypassing GIL
	0.8.0:
		- added multithreading to matchloop
		- tweaked user log
	0.7.0:
		- finished implementing main function
	0.6.2:
		- integrated get_team_rankings.py as get_team_metrics() function
		- integrated visualize_pit.py as graph_pit_histogram() function
	0.6.1:
		- bug fixes with analysis.Metric() calls
		- modified metric functions to use config.json defined default values
	0.6.0:
		- removed main function
		- changed load_config function
		- added save_config function
		- added load_match function
		- renamed simpleloop to matchloop
		- moved simplestats function inside matchloop
		- renamed load_metrics to load_metric
		- renamed metricsloop to metricloop
		- split push to database functions amon push_match, push_metric, push_pit
		- moved
	0.5.2:
		- made changes due to refactoring of analysis
	0.5.1:
		- text fixes
		- removed matplotlib requirement
	0.5.0:
		- improved user interface
	0.4.2:
		- removed unessasary code
	0.4.1:
		- fixed bug where X range for regression was determined before sanitization
		- better sanitized data
	0.4.0:
		- fixed spelling issue in __changelog__
		- addressed nan bug in regression
		- fixed errors on line 335 with metrics calling incorrect key "glicko2"
		- fixed errors in metrics computing 
	0.3.0:
		- added analysis to pit data
	0.2.1:
		- minor stability patches
		- implemented db syncing for timestamps
		- fixed bugs
	0.2.0:
		- finalized testing and small fixes
	0.1.4:
		- finished metrics implement, trueskill is bugged
	0.1.3:
		- working
	0.1.2:
		- started implement of metrics
	0.1.1:
		- cleaned up imports
	0.1.0:
		- tested working, can push to database
	0.0.9:
		- tested working
		- prints out stats for the time being, will push to database later
	0.0.8:
		- added data import
		- removed tba import
		- finished main method
	0.0.7:
		- added load_config
		- optimized simpleloop for readibility
		- added __all__ entries
		- added simplestats engine
		- pending testing
	0.0.6:
		- fixes
	0.0.5:
		- imported pickle
		- created custom database object
	0.0.4:
		- fixed simpleloop to actually return a vector
	0.0.3:
		- added metricsloop which is unfinished
	0.0.2:
		- added simpleloop which is untested until data is provided
	0.0.1:
		- created script
		- added analysis, numba, numpy imports
"""

__author__ = (
	"Arthur Lu <learthurgo@gmail.com>",
	"Jacob Levine <jlevine@imsa.edu>",
)

__all__ = [
	"load_config",
	"save_config",
	"get_previous_time",
	"load_match",
	"matchloop",
	"load_metric",
	"metricloop",
	"load_pit",
	"pitloop",
	"push_match",
	"push_metric",
	"push_pit",
]

# imports:

from tra_analysis import analysis as an
import data as d
from collections import defaultdict
import json
import math
import numpy as np
import os
from os import system, name
from pathlib import Path
from multiprocessing import Pool
import matplotlib.pyplot as plt
from concurrent.futures import ThreadPoolExecutor
import time
import warnings

global exec_threads

def main():

	global exec_threads

	warnings.filterwarnings("ignore")

	while (True):

		current_time = time.time()
		print("[OK] time: " + str(current_time))

		config = load_config("data-analysis/config.json")
		competition = config["competition"]
		match_tests = config["statistics"]["match"]
		pit_tests = config["statistics"]["pit"]
		metrics_tests = config["statistics"]["metric"]
		print("[OK] configs loaded")

		print("[OK] starting threads")
		cfg_max_threads = config["max-threads"]
		sys_max_threads = os.cpu_count()
		if cfg_max_threads > -sys_max_threads and cfg_max_threads < 0 :
			alloc_processes = sys_max_threads + cfg_max_threads
		elif cfg_max_threads > 0 and cfg_max_threads < 1:
			alloc_processes = math.floor(cfg_max_threads * sys_max_threads)
		elif cfg_max_threads > 1 and cfg_max_threads <= sys_max_threads:
			alloc_processes = cfg_max_threads
		elif cfg_max_threads == 0:
			alloc_processes = sys_max_threads
		else:
			print("[Err] Invalid number of processes, must be between -" + str(sys_max_threads) + " and " + str(sys_max_threads))
			exit()
		exec_threads = Pool(processes = alloc_processes)
		print("[OK] " + str(alloc_processes) + " threads started")

		apikey = config["key"]["database"]
		tbakey = config["key"]["tba"]
		print("[OK] loaded keys")

		previous_time = get_previous_time(apikey)
		print("[OK] analysis backtimed to: " + str(previous_time))

		print("[OK] loading data")
		start = time.time()
		match_data = load_match(apikey, competition)
		pit_data = load_pit(apikey, competition)
		print("[OK] loaded data in " + str(time.time() - start) + " seconds")

		print("[OK] running match stats")
		start = time.time()
		matchloop(apikey, competition, match_data, match_tests)
		print("[OK] finished match stats in " + str(time.time() - start) + " seconds")

		print("[OK] running team metrics")
		start = time.time()
		metricloop(tbakey, apikey, competition, previous_time, metrics_tests)
		print("[OK] finished team metrics in " + str(time.time() - start) + " seconds")

		print("[OK] running pit analysis")
		start = time.time()
		pitloop(apikey, competition, pit_data, pit_tests)
		print("[OK] finished pit analysis in " + str(time.time() - start) + " seconds")
		
		set_current_time(apikey, current_time)
		print("[OK] finished all tests, looping")

		clear()

def clear(): 
	
	# for windows 
	if name == 'nt': 
		_ = system('cls') 
  
	# for mac and linux(here, os.name is 'posix') 
	else: 
		_ = system('clear')

def load_config(file):

	config_vector = {}
	with open(file) as f:
		config_vector = json.load(f)

	return config_vector

def save_config(file, config_vector):

	with open(file) as f:
		json.dump(config_vector, f)

def get_previous_time(apikey):

	previous_time = d.get_analysis_flags(apikey, "latest_update")

	if previous_time == None:

		d.set_analysis_flags(apikey, "latest_update", 0)
		previous_time = 0

	else:

		previous_time = previous_time["latest_update"]

	return previous_time

def set_current_time(apikey, current_time):

	d.set_analysis_flags(apikey, "latest_update", {"latest_update":current_time})

def load_match(apikey, competition):

	return d.get_match_data_formatted(apikey, competition)

def simplestats(data_test):

	data = np.array(data_test[0])
	data = data[np.isfinite(data)]
	ranges = list(range(len(data)))

	test = data_test[1]

	if test == "basic_stats":
		return an.basic_stats(data)

	if test == "historical_analysis":
		return an.histo_analysis([ranges, data])

	if test == "regression_linear":
		return an.regression(ranges, data, ['lin'])

	if test == "regression_logarithmic":
		return an.regression(ranges, data, ['log'])

	if test == "regression_exponential":
		return an.regression(ranges, data, ['exp'])

	if test == "regression_polynomial":
		return an.regression(ranges, data, ['ply'])

	if test == "regression_sigmoidal":
		return an.regression(ranges, data, ['sig'])

def matchloop(apikey, competition, data, tests): # expects 3D array with [Team][Variable][Match]

	global exec_threads

	class AutoVivification(dict):
		def __getitem__(self, item):
			try:
				return dict.__getitem__(self, item)
			except KeyError:
				value = self[item] = type(self)()
				return value

	return_vector = {}
	
	team_filtered = []
	variable_filtered = []
	variable_data = []
	test_filtered = []
	result_filtered = []
	return_vector = AutoVivification()

	for team in data:

		for variable in data[team]:

			if variable in tests:

				for test in tests[variable]:

					team_filtered.append(team)
					variable_filtered.append(variable)
					variable_data.append((data[team][variable], test))
					test_filtered.append(test)

	result_filtered = exec_threads.map(simplestats, variable_data)
	i = 0

	result_filtered = list(result_filtered)

	for result in result_filtered:

		return_vector[team_filtered[i]][variable_filtered[i]][test_filtered[i]] = result
		i += 1

	push_match(apikey, competition, return_vector)

def load_metric(apikey, competition, match, group_name, metrics):

	group = {}

	for team in match[group_name]:

		db_data = d.get_team_metrics_data(apikey, competition, team)

		if d.get_team_metrics_data(apikey, competition, team) == None:

			elo = {"score": metrics["elo"]["score"]}
			gl2 = {"score": metrics["gl2"]["score"], "rd": metrics["gl2"]["rd"], "vol": metrics["gl2"]["vol"]}
			ts = {"mu": metrics["ts"]["mu"], "sigma": metrics["ts"]["sigma"]}

			group[team] = {"elo": elo, "gl2": gl2, "ts": ts}

		else:

			metrics = db_data["metrics"]

			elo = metrics["elo"]
			gl2 = metrics["gl2"]
			ts = metrics["ts"]

			group[team] = {"elo": elo, "gl2": gl2, "ts": ts}

	return group

def metricloop(tbakey, apikey, competition, timestamp, metrics): # listener based metrics update

	elo_N = metrics["elo"]["N"]
	elo_K = metrics["elo"]["K"]

	matches = d.pull_new_tba_matches(tbakey, competition, timestamp)

	red = {}
	blu = {}

	for match in matches:

		red = load_metric(apikey, competition, match, "red", metrics)
		blu = load_metric(apikey, competition, match, "blue", metrics)
 
		elo_red_total = 0
		elo_blu_total = 0

		gl2_red_score_total = 0
		gl2_blu_score_total = 0

		gl2_red_rd_total = 0
		gl2_blu_rd_total = 0

		gl2_red_vol_total = 0
		gl2_blu_vol_total = 0

		for team in red:

			elo_red_total += red[team]["elo"]["score"]

			gl2_red_score_total += red[team]["gl2"]["score"]
			gl2_red_rd_total += red[team]["gl2"]["rd"]
			gl2_red_vol_total += red[team]["gl2"]["vol"]

		for team in blu:

			elo_blu_total += blu[team]["elo"]["score"]

			gl2_blu_score_total += blu[team]["gl2"]["score"]
			gl2_blu_rd_total += blu[team]["gl2"]["rd"]
			gl2_blu_vol_total += blu[team]["gl2"]["vol"]

		red_elo = {"score": elo_red_total / len(red)}
		blu_elo = {"score": elo_blu_total / len(blu)}

		red_gl2 = {"score": gl2_red_score_total / len(red), "rd": gl2_red_rd_total / len(red), "vol": gl2_red_vol_total / len(red)}
		blu_gl2 = {"score": gl2_blu_score_total / len(blu), "rd": gl2_blu_rd_total / len(blu), "vol": gl2_blu_vol_total / len(blu)}


		if match["winner"] == "red":

			observations = {"red": 1, "blu": 0}

		elif match["winner"] == "blue":

			observations = {"red": 0, "blu": 1}

		else:

			observations = {"red": 0.5, "blu": 0.5}

		red_elo_delta = an.Metric().elo(red_elo["score"], blu_elo["score"], observations["red"], elo_N, elo_K) - red_elo["score"]
		blu_elo_delta = an.Metric().elo(blu_elo["score"], red_elo["score"], observations["blu"], elo_N, elo_K) - blu_elo["score"]

		new_red_gl2_score, new_red_gl2_rd, new_red_gl2_vol = an.Metric().glicko2(red_gl2["score"], red_gl2["rd"], red_gl2["vol"], [blu_gl2["score"]], [blu_gl2["rd"]], [observations["red"], observations["blu"]])
		new_blu_gl2_score, new_blu_gl2_rd, new_blu_gl2_vol = an.Metric().glicko2(blu_gl2["score"], blu_gl2["rd"], blu_gl2["vol"], [red_gl2["score"]], [red_gl2["rd"]], [observations["blu"], observations["red"]])

		red_gl2_delta = {"score": new_red_gl2_score - red_gl2["score"], "rd": new_red_gl2_rd - red_gl2["rd"], "vol": new_red_gl2_vol - red_gl2["vol"]}
		blu_gl2_delta = {"score": new_blu_gl2_score - blu_gl2["score"], "rd": new_blu_gl2_rd - blu_gl2["rd"], "vol": new_blu_gl2_vol - blu_gl2["vol"]}

		for team in red:

			red[team]["elo"]["score"] = red[team]["elo"]["score"] + red_elo_delta

			red[team]["gl2"]["score"] = red[team]["gl2"]["score"] + red_gl2_delta["score"]
			red[team]["gl2"]["rd"] = red[team]["gl2"]["rd"] + red_gl2_delta["rd"]
			red[team]["gl2"]["vol"] = red[team]["gl2"]["vol"] + red_gl2_delta["vol"]

		for team in blu:

			blu[team]["elo"]["score"] = blu[team]["elo"]["score"] + blu_elo_delta

			blu[team]["gl2"]["score"] = blu[team]["gl2"]["score"] + blu_gl2_delta["score"]
			blu[team]["gl2"]["rd"] = blu[team]["gl2"]["rd"] + blu_gl2_delta["rd"]
			blu[team]["gl2"]["vol"] = blu[team]["gl2"]["vol"] + blu_gl2_delta["vol"]

		temp_vector = {}
		temp_vector.update(red)
		temp_vector.update(blu)

		push_metric(apikey, competition, temp_vector)

def load_pit(apikey, competition):

	return d.get_pit_data_formatted(apikey, competition)

def pitloop(apikey, competition, pit, tests):

	return_vector = {}
	for team in pit:
		for variable in pit[team]:
			if variable in tests:
				if not variable in return_vector:
					return_vector[variable] = []
				return_vector[variable].append(pit[team][variable])

	push_pit(apikey, competition, return_vector)

def push_match(apikey, competition, results):

	for team in results:

		d.push_team_tests_data(apikey, competition, team, results[team])

def push_metric(apikey, competition, metric):

	for team in metric:

			d.push_team_metrics_data(apikey, competition, team, metric[team])

def push_pit(apikey, competition, pit):

	for variable in pit:

		d.push_team_pit_data(apikey, competition, variable, pit[variable])

def get_team_metrics(apikey, tbakey, competition):

	metrics = d.get_metrics_data_formatted(apikey, competition)

	elo = {}
	gl2 = {}

	for team in metrics:

		elo[team] = metrics[team]["metrics"]["elo"]["score"]
		gl2[team] = metrics[team]["metrics"]["gl2"]["score"]

	elo = {k: v for k, v in sorted(elo.items(), key=lambda item: item[1])}
	gl2 = {k: v for k, v in sorted(gl2.items(), key=lambda item: item[1])}

	elo_ranked = []

	for team in elo:

		elo_ranked.append({"team": str(team), "elo": str(elo[team])})

	gl2_ranked = []

	for team in gl2:

		gl2_ranked.append({"team": str(team), "gl2": str(gl2[team])})

	return {"elo-ranks": elo_ranked, "glicko2-ranks": gl2_ranked}

def graph_pit_histogram(apikey, competition, figsize=(80,15)):

	pit = d.get_pit_variable_formatted(apikey, competition)

	fig, ax = plt.subplots(1, len(pit), sharey=True, figsize=figsize)

	i = 0

	for variable in pit:

		ax[i].hist(pit[variable])
		ax[i].invert_xaxis()

		ax[i].set_xlabel('')
		ax[i].set_ylabel('Frequency')
		ax[i].set_title(variable)

		plt.yticks(np.arange(len(pit[variable])))

		i+=1

	plt.show()

main()