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247 lines
7.0 KiB
Python
247 lines
7.0 KiB
Python
#Titan Robotics Team 2022: Super Script
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#Written by Arthur Lu & Jacob Levine
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#Notes:
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#setup:
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__version__ = "1.0.5.003"
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__changelog__ = """changelog:
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1.0.5.003:
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- hotfix: actually pushes data correctly now
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1.0.5.002:
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- more information given
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- performance improvements
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1.0.5.001:
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- grammar
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1.0.5.000:
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- service now iterates forever
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- ready for production other than pulling json data
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1.0.4.001:
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- grammar fixes
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1.0.4.000:
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- actually pushes to firebase
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1.0.3.001:
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- processes data more efficiently
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1.0.3.000:
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- actually processes data
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1.0.2.000:
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- added data reading from folder
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- nearly crashed computer reading from 20 GiB of data
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1.0.1.000:
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- added data reading from file
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- added superstructure to code
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1.0.0.000:
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- added import statements (revolutionary)
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"""
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__author__ = (
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"Arthur Lu <arthurlu@ttic.edu>, "
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"Jacob Levine <jlevine@ttic.edu>,"
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)
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import firebase_admin
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from firebase_admin import credentials
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from firebase_admin import firestore
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import analysis
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import titanlearn
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import visualization
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import os
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import sys
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import warnings
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import glob
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import numpy as np
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import time
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def titanservice():
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print("[OK] loading data")
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start = time.time()
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source_dir = 'data'
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file_list = glob.glob(source_dir + '/*.csv') #supposedly sorts by alphabetical order, skips reading teams.csv because of redundancy
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data = []
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files = [fn for fn in glob.glob('data/*.csv')
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if not (os.path.basename(fn).startswith('teams'))] #scores will be handled sperately
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for i in files:
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data.append(analysis.load_csv(i))
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stats = []
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measure_stats = []
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teams = analysis.load_csv("data/teams.csv")
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scores = analysis.load_csv("data/scores.csv")
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end = time.time()
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print("[OK] loaded data in " + str(end - start) + " seconds")
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#assumes that team number is in the first column, and that the order of teams is the same across all files
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#unhelpful comment
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for measure in data: #unpacks 3d array into 2ds
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measure_stats = []
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for i in range(len(measure)): #unpacks into specific teams
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ofbest_curve = [None]
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r2best_curve = [None]
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line = measure[i]
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#print(line)
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x = list(range(len(line)))
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eqs, rmss, r2s, overfit = analysis.optimize_regression(x, line, 10, 1)
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beqs, brmss, br2s, boverfit = analysis.select_best_regression(eqs, rmss, r2s, overfit, "min_overfit")
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#print(eqs, rmss, r2s, overfit)
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ofbest_curve.append(beqs)
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ofbest_curve.append(brmss)
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ofbest_curve.append(br2s)
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ofbest_curve.append(boverfit)
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ofbest_curve.pop(0)
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#print(ofbest_curve)
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beqs, brmss, br2s, boverfit = analysis.select_best_regression(eqs, rmss, r2s, overfit, "max_r2s")
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r2best_curve.append(beqs)
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r2best_curve.append(brmss)
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r2best_curve.append(br2s)
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r2best_curve.append(boverfit)
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r2best_curve.pop(0)
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#print(r2best_curve)
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measure_stats.append(teams[i] + list(analysis.basic_stats(line, 0, 0)) + list(analysis.histo_analysis(line, 1, -3, 3)) + ofbest_curve + r2best_curve)
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stats.append(list(measure_stats))
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nishant = []
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for i in range(len(scores)):
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ofbest_curve = [None]
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r2best_curve = [None]
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line = measure[i]
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#print(line)
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x = list(range(len(line)))
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eqs, rmss, r2s, overfit = analysis.optimize_regression(x, line, 10, 1)
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beqs, brmss, br2s, boverfit = analysis.select_best_regression(eqs, rmss, r2s, overfit, "min_overfit")
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#print(eqs, rmss, r2s, overfit)
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ofbest_curve.append(beqs)
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ofbest_curve.append(brmss)
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ofbest_curve.append(br2s)
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ofbest_curve.append(boverfit)
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ofbest_curve.pop(0)
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#print(ofbest_curve)
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beqs, brmss, br2s, boverfit = analysis.select_best_regression(eqs, rmss, r2s, overfit, "max_r2s")
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r2best_curve.append(beqs)
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r2best_curve.append(brmss)
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r2best_curve.append(br2s)
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r2best_curve.append(boverfit)
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r2best_curve.pop(0)
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#print(r2best_curve)
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z = len(scores[0]) + 1
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nis_num = []
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nis_num.append(eval(str(ofbest_curve[0])))
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nis_num.append(eval(str(r2best_curve[0])))
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nis_num.append((eval(ofbest_curve[0]) + eval(r2best_curve[0])) / 2)
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nishant.append(teams[i] + nis_num)
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json_out = {}
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score_out = {}
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#print(stats)
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#print(stats[0])
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#for i in range(len(teams)):
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# json_out[str(teams[i][0])] = (stats[0][i])
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for i in range(len(teams)):
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score_out[str(teams[i][0])] = (nishant[i])
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#print(json_out.get('5'))
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location = db.collection(u'stats').document(u'stats-noNN')
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for i in range(len(teams)):
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general_general_stats = location.collection(teams[i][0])
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for j in range(len(files)):
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json_out[str(teams[i][0])] = (stats[j][i])
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general_general_stats.document(files[j]).set({'stats':json_out.get(teams[i][0])})
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for i in range(len(teams)):
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nnum = location.collection(teams[i][0]).document(u'nishant_number').set({'nishant':score_out.get(teams[i][0])})
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#general_general_stats.collection().document('stats').set()
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#db.collection(u'stats').document(u'stats-noNN').set(score_out)
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def pulldata():
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#TODO
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pass
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def service():
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while True:
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pulldata()
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start = time.time()
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print("[OK] starting calculations")
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fucked = False
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for i in range(0, 5):
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try:
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titanservice()
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break
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except:
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if (i != 4):
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print("[WARNING] failed, trying " + str(5 - i - 1) + " more times")
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else:
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print("[ERROR] failed to compute data, skipping")
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fucked = True
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end = time.time()
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if (fucked == True):
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break
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else:
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print("[OK] finished calculations")
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print("[OK] waiting: " + str(300 - (end - start)) + " seconds" + "\n")
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time.sleep(300 - (end - start)) #executes once every 5 minutes
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warnings.simplefilter("ignore")
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#Use a service account
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cred = credentials.Certificate('keys/keytemp.json')
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firebase_admin.initialize_app(cred)
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db = firestore.client()
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service() #finally we write something that isn't a function definition
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#titanservice()
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